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07070100062d70000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000000800000000install07070100062d71000081ed0000000000000000000000014c5138f900000316000000b600010002ffffffffffffffff0000001500000000install/checkinstall#!/bin/sh # expected_bits="64" expected_release="5.11" expected_platform="i386" # release=`uname -r` platform=`uname -p` bits=`isainfo -b` # if [ ${platform} != ${expected_platform} ]; then echo "\n\n\n\tThis package must be installed on a ${expected_platform} architecture\n" echo "\tAborting installation.\n\n\n" exit 1 fi if [ ${release} != ${expected_release} ]; then echo "\n\n\n\tThis package must be installed on a ${expected_release} machine\n" echo "\tAborting installation.\n\n\n" exit 1 fi #if [ ${bits} != ${expected_bits} ]; then # echo "\n\n\n\tThis package must be installed on a ${expected_bits} bit machine\n" # echo "\tYour machine is running a ${bits} bit O.S. currently\n" # echo "\tAborting installation.\n\n\n" # exit 1 #fi exit 0 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.1.\" DO NOT MODIFY THIS FILE! It was generated by help2man 1.36. .TH BISON "1" "March 2010" "bison 2.4.2" "User Commands" .SH NAME bison \- GNU Project parser generator (yacc replacement) .SH SYNOPSIS .B bison [\fIOPTION\fR]... \fIFILE\fR .SH DESCRIPTION .I Bison is a parser generator in the style of .IR yacc (1). It should be upwardly compatible with input files designed for .IR yacc . .PP Input files should follow the .I yacc convention of ending in .BR .y . Unlike .IR yacc , the generated files do not have fixed names, but instead use the prefix of the input file. Moreover, if you need to put .I C++ code in the input file, you can end his name by a C++-like extension (.ypp or .y++), then bison will follow your extension to name the output file (.cpp or .c++). For instance, a grammar description file named .B parse.yxx would produce the generated parser in a file named .BR parse.tab.cxx , instead of .IR yacc 's .B y.tab.c or old .I Bison version's .BR parse.tab.c . .PP This description of the options that can be given to .I bison is adapted from the node .B Invocation in the .B bison.texinfo manual, which should be taken as authoritative. .PP .I Bison supports both traditional single-letter options and mnemonic long option names. Long option names are indicated with .B \-\- instead of .BR \- . Abbreviations for option names are allowed as long as they are unique. When a long option takes an argument, like .BR \-\-file-prefix , connect the option name and the argument with .BR = . .PP Generate LALR(1) and GLR parsers. .PP Mandatory arguments to long options are mandatory for short options too. The same is true for optional arguments. .SS "Operation modes:" .TP \fB\-h\fR, \fB\-\-help\fR display this help and exit .TP \fB\-V\fR, \fB\-\-version\fR output version information and exit .TP \fB\-\-print\-localedir\fR output directory containing locale\-dependent data .TP \fB\-\-print\-datadir\fR output directory containing skeletons and XSLT .TP \fB\-y\fR, \fB\-\-yacc\fR emulate POSIX Yacc .TP \fB\-W\fR, \fB\-\-warnings\fR[=\fICATEGORY\fR] report the warnings falling in CATEGORY .SS "Parser:" .TP \fB\-L\fR, \fB\-\-language\fR=\fILANGUAGE\fR specify the output programming language (this is an experimental feature) .TP \fB\-S\fR, \fB\-\-skeleton\fR=\fIFILE\fR specify the skeleton to use .TP \fB\-t\fR, \fB\-\-debug\fR instrument the parser for debugging .TP \fB\-\-locations\fR enable locations computation .TP \fB\-p\fR, \fB\-\-name\-prefix\fR=\fIPREFIX\fR prepend PREFIX to the external symbols .TP \fB\-l\fR, \fB\-\-no\-lines\fR don't generate `#line' directives .TP \fB\-k\fR, \fB\-\-token\-table\fR include a table of token names .SS "Output:" .TP \fB\-\-defines\fR[=\fIFILE\fR] also produce a header file .TP \fB\-d\fR likewise but cannot specify FILE (for POSIX Yacc) .TP \fB\-r\fR, \fB\-\-report\fR=\fITHINGS\fR also produce details on the automaton .TP \fB\-\-report\-file\fR=\fIFILE\fR write report to FILE .TP \fB\-v\fR, \fB\-\-verbose\fR same as `\-\-report=state' .TP \fB\-b\fR, \fB\-\-file\-prefix\fR=\fIPREFIX\fR specify a PREFIX for output files .TP \fB\-o\fR, \fB\-\-output\fR=\fIFILE\fR leave output to FILE .TP \fB\-g\fR, \fB\-\-graph\fR[=\fIFILE\fR] also output a graph of the automaton .TP \fB\-x\fR, \fB\-\-xml\fR[=\fIFILE\fR] also output an XML report of the automaton (the XML schema is experimental) .SS "Warning categories include:" .TP `midrule\-values' unset or unused midrule values .TP `yacc' incompatibilities with POSIX YACC .TP `all' all the warnings .TP `no\-CATEGORY' turn off warnings in CATEGORY .TP `none' turn off all the warnings .TP `error' treat warnings as errors .SS "THINGS is a list of comma separated words that can include:" .TP `state' describe the states .TP `itemset' complete the core item sets with their closure .TP `lookahead' explicitly associate lookahead tokens to items .TP `solved' describe shift/reduce conflicts solving .TP `all' include all the above information .TP `none' disable the report .SH AUTHOR Written by Robert Corbett and Richard Stallman. .SH "REPORTING BUGS" Report bugs to . .SH COPYRIGHT Copyright \(co 2010 Free Software Foundation, Inc. .br This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. .SH "SEE ALSO" .BR lex (1), .BR flex (1), .BR yacc (1). .PP The full documentation for .B bison is maintained as a Texinfo manual. If the .B info and .B bison programs are properly installed at your site, the command .IP .B info bison .PP should give you access to the complete manual. 07070100062d6f000081a40000000000000000000000014c5138c8000003fd000000b600010002ffffffffffffffff0000002500000000root/usr/local/share/man/man1/yacc.1.TH YACC "1" "November 2007" "GNU Bison 2.4.2" "User Commands" .SH NAME yacc \- GNU Project parser generator .SH SYNOPSIS .B yacc [\fIOPTION\fR]... \fIFILE\fR .SH DESCRIPTION .I Yacc (Yet Another Compiler Compiler) is a parser generator. This version is a simple wrapper around .IR bison (1). It passes option \fB\-y\fR, \fB\-\-yacc\fR to activate the upward compatibility mode. See .IR bison (1) for more information. .SH AUTHOR Written by Paul Eggert. .SH "REPORTING BUGS" Report bugs to . .SH COPYRIGHT Copyright \(co 2010 Free Software Foundation, Inc. .br This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. .SH "SEE ALSO" .BR lex (1), .BR flex (1), .BR bison (1). .PP The full documentation for .B bison is maintained as a Texinfo manual. If the .B info and .B bison programs are properly installed at your site, the command .IP .B info bison .PP should give you access to the complete manual. 07070100062cef000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000001a00000000root/usr/local/share/info07070100062cf1000081a40000000000000000000000014c5138c8000009e6000000b600010002ffffffffffffffff0000001e00000000root/usr/local/share/info/dirThis is the file .../info/dir, which contains the topmost node of the Info hierarchy, called (dir)Top. The first time you invoke Info you start off looking at this node.  File: dir, Node: Top This is the top of the INFO tree This (the Directory node) gives a menu of major topics. Typing "q" exits, "?" lists all Info commands, "d" returns here, "h" gives a primer for first-timers, "mEmacs" visits the Emacs manual, etc. In Emacs, you can click mouse button 2 on a menu item or cross reference to select it. * Menu: Text creation and manipulation * M4: (m4). A powerful macro processor. C++ libraries * autosprintf: (autosprintf). Support for printf format strings in C++. GNU Gettext Utilities * ISO3166: (gettext)Country Codes. ISO 3166 country codes. * ISO639: (gettext)Language Codes. ISO 639 language codes. * xgettext: (gettext)xgettext Invocation. Extract strings into a PO file. * autopoint: (gettext)autopoint Invocation. Copy gettext infrastructure. * envsubst: (gettext)envsubst Invocation. Expand environment variables. * gettext: (gettext). GNU gettext utilities. * gettextize: (gettext)gettextize Invocation. Prepare a package for gettext. * msgattrib: (gettext)msgattrib Invocation. Select part of a PO file. * msgcat: (gettext)msgcat Invocation. Combine several PO files. * msgcmp: (gettext)msgcmp Invocation. Compare a PO file and template. * msgcomm: (gettext)msgcomm Invocation. Match two PO files. * msgconv: (gettext)msgconv Invocation. Convert PO file to encoding. * msgen: (gettext)msgen Invocation. Create an English PO file. * msgexec: (gettext)msgexec Invocation. Process a PO file. * msgfilter: (gettext)msgfilter Invocation. Pipe a PO file through a filter. * msgfmt: (gettext)msgfmt Invocation. Make MO files out of PO files. * msggrep: (gettext)msggrep Invocation. Select part of a PO file. * msginit: (gettext)msginit Invocation. Create a fresh PO file. * msgmerge: (gettext)msgmerge Invocation. Update a PO file from template. * msgunfmt: (gettext)msgunfmt Invocation. Uncompile MO file into PO file. * msguniq: (gettext)msguniq Invocation. Unify duplicates for PO file. * ngettext: (gettext)ngettext Invocation. Translate a message with plural. Software development * Make: (make). Remake files automatically. * bison: (bison). GNU parser generator (Yacc replacement). 07070100062cf0000081a40000000000000000000000014c5138c8000716c1000000b600010002ffffffffffffffff0000002500000000root/usr/local/share/info/bison.infoThis is bison.info, produced by makeinfo version 4.11 from bison.texinfo. This manual (24 February 2010) is for GNU Bison (version 2.4.2), the GNU parser generator. Copyright (C) 1988-1993, 1995, 1998-2010 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being "A GNU Manual," and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled "GNU Free Documentation License." (a) The FSF's Back-Cover Text is: "You have the freedom to copy and modify this GNU manual. Buying copies from the FSF supports it in developing GNU and promoting software freedom." INFO-DIR-SECTION Software development START-INFO-DIR-ENTRY * bison: (bison). GNU parser generator (Yacc replacement). END-INFO-DIR-ENTRY  File: bison.info, Node: Top, Next: Introduction, Up: (dir) Bison ***** This manual (24 February 2010) is for GNU Bison (version 2.4.2), the GNU parser generator. Copyright (C) 1988-1993, 1995, 1998-2010 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being "A GNU Manual," and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled "GNU Free Documentation License." (a) The FSF's Back-Cover Text is: "You have the freedom to copy and modify this GNU manual. Buying copies from the FSF supports it in developing GNU and promoting software freedom." * Menu: * Introduction:: * Conditions:: * Copying:: The GNU General Public License says how you can copy and share Bison. Tutorial sections: * Concepts:: Basic concepts for understanding Bison. * Examples:: Three simple explained examples of using Bison. Reference sections: * Grammar File:: Writing Bison declarations and rules. * Interface:: C-language interface to the parser function `yyparse'. * Algorithm:: How the Bison parser works at run-time. * Error Recovery:: Writing rules for error recovery. * Context Dependency:: What to do if your language syntax is too messy for Bison to handle straightforwardly. * Debugging:: Understanding or debugging Bison parsers. * Invocation:: How to run Bison (to produce the parser source file). * Other Languages:: Creating C++ and Java parsers. * FAQ:: Frequently Asked Questions * Table of Symbols:: All the keywords of the Bison language are explained. * Glossary:: Basic concepts are explained. * Copying This Manual:: License for copying this manual. * Index:: Cross-references to the text. --- The Detailed Node Listing --- The Concepts of Bison * Language and Grammar:: Languages and context-free grammars, as mathematical ideas. * Grammar in Bison:: How we represent grammars for Bison's sake. * Semantic Values:: Each token or syntactic grouping can have a semantic value (the value of an integer, the name of an identifier, etc.). * Semantic Actions:: Each rule can have an action containing C code. * GLR Parsers:: Writing parsers for general context-free languages. * Locations Overview:: Tracking Locations. * Bison Parser:: What are Bison's input and output, how is the output used? * Stages:: Stages in writing and running Bison grammars. * Grammar Layout:: Overall structure of a Bison grammar file. Writing GLR Parsers * Simple GLR Parsers:: Using GLR parsers on unambiguous grammars. * Merging GLR Parses:: Using GLR parsers to resolve ambiguities. * GLR Semantic Actions:: Deferred semantic actions have special concerns. * Compiler Requirements:: GLR parsers require a modern C compiler. Examples * RPN Calc:: Reverse polish notation calculator; a first example with no operator precedence. * Infix Calc:: Infix (algebraic) notation calculator. Operator precedence is introduced. * Simple Error Recovery:: Continuing after syntax errors. * Location Tracking Calc:: Demonstrating the use of @N and @$. * Multi-function Calc:: Calculator with memory and trig functions. It uses multiple data-types for semantic values. * Exercises:: Ideas for improving the multi-function calculator. Reverse Polish Notation Calculator * Rpcalc Declarations:: Prologue (declarations) for rpcalc. * Rpcalc Rules:: Grammar Rules for rpcalc, with explanation. * Rpcalc Lexer:: The lexical analyzer. * Rpcalc Main:: The controlling function. * Rpcalc Error:: The error reporting function. * Rpcalc Generate:: Running Bison on the grammar file. * Rpcalc Compile:: Run the C compiler on the output code. Grammar Rules for `rpcalc' * Rpcalc Input:: * Rpcalc Line:: * Rpcalc Expr:: Location Tracking Calculator: `ltcalc' * Ltcalc Declarations:: Bison and C declarations for ltcalc. * Ltcalc Rules:: Grammar rules for ltcalc, with explanations. * Ltcalc Lexer:: The lexical analyzer. Multi-Function Calculator: `mfcalc' * Mfcalc Declarations:: Bison declarations for multi-function calculator. * Mfcalc Rules:: Grammar rules for the calculator. * Mfcalc Symbol Table:: Symbol table management subroutines. Bison Grammar Files * Grammar Outline:: Overall layout of the grammar file. * Symbols:: Terminal and nonterminal symbols. * Rules:: How to write grammar rules. * Recursion:: Writing recursive rules. * Semantics:: Semantic values and actions. * Locations:: Locations and actions. * Declarations:: All kinds of Bison declarations are described here. * Multiple Parsers:: Putting more than one Bison parser in one program. Outline of a Bison Grammar * Prologue:: Syntax and usage of the prologue. * Prologue Alternatives:: Syntax and usage of alternatives to the prologue. * Bison Declarations:: Syntax and usage of the Bison declarations section. * Grammar Rules:: Syntax and usage of the grammar rules section. * Epilogue:: Syntax and usage of the epilogue. Defining Language Semantics * Value Type:: Specifying one data type for all semantic values. * Multiple Types:: Specifying several alternative data types. * Actions:: An action is the semantic definition of a grammar rule. * Action Types:: Specifying data types for actions to operate on. * Mid-Rule Actions:: Most actions go at the end of a rule. This says when, why and how to use the exceptional action in the middle of a rule. Tracking Locations * Location Type:: Specifying a data type for locations. * Actions and Locations:: Using locations in actions. * Location Default Action:: Defining a general way to compute locations. Bison Declarations * Require Decl:: Requiring a Bison version. * Token Decl:: Declaring terminal symbols. * Precedence Decl:: Declaring terminals with precedence and associativity. * Union Decl:: Declaring the set of all semantic value types. * Type Decl:: Declaring the choice of type for a nonterminal symbol. * Initial Action Decl:: Code run before parsing starts. * Destructor Decl:: Declaring how symbols are freed. * Expect Decl:: Suppressing warnings about parsing conflicts. * Start Decl:: Specifying the start symbol. * Pure Decl:: Requesting a reentrant parser. * Push Decl:: Requesting a push parser. * Decl Summary:: Table of all Bison declarations. Parser C-Language Interface * Parser Function:: How to call `yyparse' and what it returns. * Push Parser Function:: How to call `yypush_parse' and what it returns. * Pull Parser Function:: How to call `yypull_parse' and what it returns. * Parser Create Function:: How to call `yypstate_new' and what it returns. * Parser Delete Function:: How to call `yypstate_delete' and what it returns. * Lexical:: You must supply a function `yylex' which reads tokens. * Error Reporting:: You must supply a function `yyerror'. * Action Features:: Special features for use in actions. * Internationalization:: How to let the parser speak in the user's native language. The Lexical Analyzer Function `yylex' * Calling Convention:: How `yyparse' calls `yylex'. * Token Values:: How `yylex' must return the semantic value of the token it has read. * Token Locations:: How `yylex' must return the text location (line number, etc.) of the token, if the actions want that. * Pure Calling:: How the calling convention differs in a pure parser (*note A Pure (Reentrant) Parser: Pure Decl.). The Bison Parser Algorithm * Lookahead:: Parser looks one token ahead when deciding what to do. * Shift/Reduce:: Conflicts: when either shifting or reduction is valid. * Precedence:: Operator precedence works by resolving conflicts. * Contextual Precedence:: When an operator's precedence depends on context. * Parser States:: The parser is a finite-state-machine with stack. * Reduce/Reduce:: When two rules are applicable in the same situation. * Mystery Conflicts:: Reduce/reduce conflicts that look unjustified. * Generalized LR Parsing:: Parsing arbitrary context-free grammars. * Memory Management:: What happens when memory is exhausted. How to avoid it. Operator Precedence * Why Precedence:: An example showing why precedence is needed. * Using Precedence:: How to specify precedence in Bison grammars. * Precedence Examples:: How these features are used in the previous example. * How Precedence:: How they work. Handling Context Dependencies * Semantic Tokens:: Token parsing can depend on the semantic context. * Lexical Tie-ins:: Token parsing can depend on the syntactic context. * Tie-in Recovery:: Lexical tie-ins have implications for how error recovery rules must be written. Debugging Your Parser * Understanding:: Understanding the structure of your parser. * Tracing:: Tracing the execution of your parser. Invoking Bison * Bison Options:: All the options described in detail, in alphabetical order by short options. * Option Cross Key:: Alphabetical list of long options. * Yacc Library:: Yacc-compatible `yylex' and `main'. Parsers Written In Other Languages * C++ Parsers:: The interface to generate C++ parser classes * Java Parsers:: The interface to generate Java parser classes C++ Parsers * C++ Bison Interface:: Asking for C++ parser generation * C++ Semantic Values:: %union vs. C++ * C++ Location Values:: The position and location classes * C++ Parser Interface:: Instantiating and running the parser * C++ Scanner Interface:: Exchanges between yylex and parse * A Complete C++ Example:: Demonstrating their use A Complete C++ Example * Calc++ --- C++ Calculator:: The specifications * Calc++ Parsing Driver:: An active parsing context * Calc++ Parser:: A parser class * Calc++ Scanner:: A pure C++ Flex scanner * Calc++ Top Level:: Conducting the band Java Parsers * Java Bison Interface:: Asking for Java parser generation * Java Semantic Values:: %type and %token vs. Java * Java Location Values:: The position and location classes * Java Parser Interface:: Instantiating and running the parser * Java Scanner Interface:: Specifying the scanner for the parser * Java Action Features:: Special features for use in actions * Java Differences:: Differences between C/C++ and Java Grammars * Java Declarations Summary:: List of Bison declarations used with Java Frequently Asked Questions * Memory Exhausted:: Breaking the Stack Limits * How Can I Reset the Parser:: `yyparse' Keeps some State * Strings are Destroyed:: `yylval' Loses Track of Strings * Implementing Gotos/Loops:: Control Flow in the Calculator * Multiple start-symbols:: Factoring closely related grammars * Secure? Conform?:: Is Bison POSIX safe? * I can't build Bison:: Troubleshooting * Where can I find help?:: Troubleshouting * Bug Reports:: Troublereporting * More Languages:: Parsers in C++, Java, and so on * Beta Testing:: Experimenting development versions * Mailing Lists:: Meeting other Bison users Copying This Manual * Copying This Manual:: License for copying this manual.  File: bison.info, Node: Introduction, Next: Conditions, Prev: Top, Up: Top Introduction ************ "Bison" is a general-purpose parser generator that converts an annotated context-free grammar into an LALR(1) or GLR parser for that grammar. Once you are proficient with Bison, you can use it to develop a wide range of language parsers, from those used in simple desk calculators to complex programming languages. Bison is upward compatible with Yacc: all properly-written Yacc grammars ought to work with Bison with no change. Anyone familiar with Yacc should be able to use Bison with little trouble. You need to be fluent in C or C++ programming in order to use Bison or to understand this manual. We begin with tutorial chapters that explain the basic concepts of using Bison and show three explained examples, each building on the last. If you don't know Bison or Yacc, start by reading these chapters. Reference chapters follow which describe specific aspects of Bison in detail. Bison was written primarily by Robert Corbett; Richard Stallman made it Yacc-compatible. Wilfred Hansen of Carnegie Mellon University added multi-character string literals and other features. This edition corresponds to version 2.4.2 of Bison.  File: bison.info, Node: Conditions, Next: Copying, Prev: Introduction, Up: Top Conditions for Using Bison ************************** The distribution terms for Bison-generated parsers permit using the parsers in nonfree programs. Before Bison version 2.2, these extra permissions applied only when Bison was generating LALR(1) parsers in C. And before Bison version 1.24, Bison-generated parsers could be used only in programs that were free software. The other GNU programming tools, such as the GNU C compiler, have never had such a requirement. They could always be used for nonfree software. The reason Bison was different was not due to a special policy decision; it resulted from applying the usual General Public License to all of the Bison source code. The output of the Bison utility--the Bison parser file--contains a verbatim copy of a sizable piece of Bison, which is the code for the parser's implementation. (The actions from your grammar are inserted into this implementation at one point, but most of the rest of the implementation is not changed.) When we applied the GPL terms to the skeleton code for the parser's implementation, the effect was to restrict the use of Bison output to free software. We didn't change the terms because of sympathy for people who want to make software proprietary. *Software should be free.* But we concluded that limiting Bison's use to free software was doing little to encourage people to make other software free. So we decided to make the practical conditions for using Bison match the practical conditions for using the other GNU tools. This exception applies when Bison is generating code for a parser. You can tell whether the exception applies to a Bison output file by inspecting the file for text beginning with "As a special exception...". The text spells out the exact terms of the exception.  File: bison.info, Node: Copying, Next: Concepts, Prev: Conditions, Up: Top GNU GENERAL PUBLIC LICENSE ************************** Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. `http://fsf.org/' Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble ======== The GNU General Public License is a free, copyleft license for software and other kinds of works. The licenses for most software and other practical works are designed to take away your freedom to share and change the works. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change all versions of a program--to make sure it remains free software for all its users. We, the Free Software Foundation, use the GNU General Public License for most of our software; it applies also to any other work released this way by its authors. You can apply it to your programs, too. When we speak of free software, we are referring to freedom, not price. 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If additional permissions apply only to part of the Program, that part may be used separately under those permissions, but the entire Program remains governed by this License without regard to the additional permissions. When you convey a copy of a covered work, you may at your option remove any additional permissions from that copy, or from any part of it. (Additional permissions may be written to require their own removal in certain cases when you modify the work.) You may place additional permissions on material, added by you to a covered work, for which you have or can give appropriate copyright permission. Notwithstanding any other provision of this License, for material you add to a covered work, you may (if authorized by the copyright holders of that material) supplement the terms of this License with terms: a. Disclaiming warranty or limiting liability differently from the terms of sections 15 and 16 of this License; or b. 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If the Program as you received it, or any part of it, contains a notice stating that it is governed by this License along with a term that is a further restriction, you may remove that term. If a license document contains a further restriction but permits relicensing or conveying under this License, you may add to a covered work material governed by the terms of that license document, provided that the further restriction does not survive such relicensing or conveying. If you add terms to a covered work in accord with this section, you must place, in the relevant source files, a statement of the additional terms that apply to those files, or a notice indicating where to find the applicable terms. Additional terms, permissive or non-permissive, may be stated in the form of a separately written license, or stated as exceptions; the above requirements apply either way. 8. Termination. You may not propagate or modify a covered work except as expressly provided under this License. Any attempt otherwise to propagate or modify it is void, and will automatically terminate your rights under this License (including any patent licenses granted under the third paragraph of section 11). However, if you cease all violation of this License, then your license from a particular copyright holder is reinstated (a) provisionally, unless and until the copyright holder explicitly and finally terminates your license, and (b) permanently, if the copyright holder fails to notify you of the violation by some reasonable means prior to 60 days after the cessation. Moreover, your license from a particular copyright holder is reinstated permanently if the copyright holder notifies you of the violation by some reasonable means, this is the first time you have received notice of violation of this License (for any work) from that copyright holder, and you cure the violation prior to 30 days after your receipt of the notice. Termination of your rights under this section does not terminate the licenses of parties who have received copies or rights from you under this License. If your rights have been terminated and not permanently reinstated, you do not qualify to receive new licenses for the same material under section 10. 9. Acceptance Not Required for Having Copies. You are not required to accept this License in order to receive or run a copy of the Program. Ancillary propagation of a covered work occurring solely as a consequence of using peer-to-peer transmission to receive a copy likewise does not require acceptance. However, nothing other than this License grants you permission to propagate or modify any covered work. These actions infringe copyright if you do not accept this License. Therefore, by modifying or propagating a covered work, you indicate your acceptance of this License to do so. 10. Automatic Licensing of Downstream Recipients. 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If, pursuant to or in connection with a single transaction or arrangement, you convey, or propagate by procuring conveyance of, a covered work, and grant a patent license to some of the parties receiving the covered work authorizing them to use, propagate, modify or convey a specific copy of the covered work, then the patent license you grant is automatically extended to all recipients of the covered work and works based on it. A patent license is "discriminatory" if it does not include within the scope of its coverage, prohibits the exercise of, or is conditioned on the non-exercise of one or more of the rights that are specifically granted under this License. You may not convey a covered work if you are a party to an arrangement with a third party that is in the business of distributing software, under which you make payment to the third party based on the extent of your activity of conveying the work, and under which the third party grants, to any of the parties who would receive the covered work from you, a discriminatory patent license (a) in connection with copies of the covered work conveyed by you (or copies made from those copies), or (b) primarily for and in connection with specific products or compilations that contain the covered work, unless you entered into that arrangement, or that patent license was granted, prior to 28 March 2007. Nothing in this License shall be construed as excluding or limiting any implied license or other defenses to infringement that may otherwise be available to you under applicable patent law. 12. No Surrender of Others' Freedom. If conditions are imposed on you (whether by court order, agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot convey a covered work so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not convey it at all. For example, if you agree to terms that obligate you to collect a royalty for further conveying from those to whom you convey the Program, the only way you could satisfy both those terms and this License would be to refrain entirely from conveying the Program. 13. Use with the GNU Affero General Public License. Notwithstanding any other provision of this License, you have permission to link or combine any covered work with a work licensed under version 3 of the GNU Affero General Public License into a single combined work, and to convey the resulting work. The terms of this License will continue to apply to the part which is the covered work, but the special requirements of the GNU Affero General Public License, section 13, concerning interaction through a network will apply to the combination as such. 14. Revised Versions of this License. The Free Software Foundation may publish revised and/or new versions of the GNU General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. Each version is given a distinguishing version number. If the Program specifies that a certain numbered version of the GNU General Public License "or any later version" applies to it, you have the option of following the terms and conditions either of that numbered version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of the GNU General Public License, you may choose any version ever published by the Free Software Foundation. If the Program specifies that a proxy can decide which future versions of the GNU General Public License can be used, that proxy's public statement of acceptance of a version permanently authorizes you to choose that version for the Program. Later license versions may give you additional or different permissions. However, no additional obligations are imposed on any author or copyright holder as a result of your choosing to follow a later version. 15. Disclaimer of Warranty. THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION. 16. Limitation of Liability. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. 17. Interpretation of Sections 15 and 16. If the disclaimer of warranty and limitation of liability provided above cannot be given local legal effect according to their terms, reviewing courts shall apply local law that most closely approximates an absolute waiver of all civil liability in connection with the Program, unless a warranty or assumption of liability accompanies a copy of the Program in return for a fee. END OF TERMS AND CONDITIONS =========================== How to Apply These Terms to Your New Programs ============================================= If you develop a new program, and you want it to be of the greatest possible use to the public, the best way to achieve this is to make it free software which everyone can redistribute and change under these terms. To do so, attach the following notices to the program. It is safest to attach them to the start of each source file to most effectively state the exclusion of warranty; and each file should have at least the "copyright" line and a pointer to where the full notice is found. ONE LINE TO GIVE THE PROGRAM'S NAME AND A BRIEF IDEA OF WHAT IT DOES. Copyright (C) YEAR NAME OF AUTHOR This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see `http://www.gnu.org/licenses/'. Also add information on how to contact you by electronic and paper mail. If the program does terminal interaction, make it output a short notice like this when it starts in an interactive mode: PROGRAM Copyright (C) YEAR NAME OF AUTHOR This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, your program's commands might be different; for a GUI interface, you would use an "about box". You should also get your employer (if you work as a programmer) or school, if any, to sign a "copyright disclaimer" for the program, if necessary. For more information on this, and how to apply and follow the GNU GPL, see `http://www.gnu.org/licenses/'. The GNU General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. But first, please read `http://www.gnu.org/philosophy/why-not-lgpl.html'.  File: bison.info, Node: Concepts, Next: Examples, Prev: Copying, Up: Top 1 The Concepts of Bison *********************** This chapter introduces many of the basic concepts without which the details of Bison will not make sense. If you do not already know how to use Bison or Yacc, we suggest you start by reading this chapter carefully. * Menu: * Language and Grammar:: Languages and context-free grammars, as mathematical ideas. * Grammar in Bison:: How we represent grammars for Bison's sake. * Semantic Values:: Each token or syntactic grouping can have a semantic value (the value of an integer, the name of an identifier, etc.). * Semantic Actions:: Each rule can have an action containing C code. * GLR Parsers:: Writing parsers for general context-free languages. * Locations Overview:: Tracking Locations. * Bison Parser:: What are Bison's input and output, how is the output used? * Stages:: Stages in writing and running Bison grammars. * Grammar Layout:: Overall structure of a Bison grammar file.  File: bison.info, Node: Language and Grammar, Next: Grammar in Bison, Up: Concepts 1.1 Languages and Context-Free Grammars ======================================= In order for Bison to parse a language, it must be described by a "context-free grammar". This means that you specify one or more "syntactic groupings" and give rules for constructing them from their parts. For example, in the C language, one kind of grouping is called an `expression'. One rule for making an expression might be, "An expression can be made of a minus sign and another expression". Another would be, "An expression can be an integer". As you can see, rules are often recursive, but there must be at least one rule which leads out of the recursion. The most common formal system for presenting such rules for humans to read is "Backus-Naur Form" or "BNF", which was developed in order to specify the language Algol 60. Any grammar expressed in BNF is a context-free grammar. The input to Bison is essentially machine-readable BNF. There are various important subclasses of context-free grammar. Although it can handle almost all context-free grammars, Bison is optimized for what are called LALR(1) grammars. In brief, in these grammars, it must be possible to tell how to parse any portion of an input string with just a single token of lookahead. Strictly speaking, that is a description of an LR(1) grammar, and LALR(1) involves additional restrictions that are hard to explain simply; but it is rare in actual practice to find an LR(1) grammar that fails to be LALR(1). *Note Mysterious Reduce/Reduce Conflicts: Mystery Conflicts, for more information on this. Parsers for LALR(1) grammars are "deterministic", meaning roughly that the next grammar rule to apply at any point in the input is uniquely determined by the preceding input and a fixed, finite portion (called a "lookahead") of the remaining input. A context-free grammar can be "ambiguous", meaning that there are multiple ways to apply the grammar rules to get the same inputs. Even unambiguous grammars can be "nondeterministic", meaning that no fixed lookahead always suffices to determine the next grammar rule to apply. With the proper declarations, Bison is also able to parse these more general context-free grammars, using a technique known as GLR parsing (for Generalized LR). Bison's GLR parsers are able to handle any context-free grammar for which the number of possible parses of any given string is finite. In the formal grammatical rules for a language, each kind of syntactic unit or grouping is named by a "symbol". Those which are built by grouping smaller constructs according to grammatical rules are called "nonterminal symbols"; those which can't be subdivided are called "terminal symbols" or "token types". We call a piece of input corresponding to a single terminal symbol a "token", and a piece corresponding to a single nonterminal symbol a "grouping". We can use the C language as an example of what symbols, terminal and nonterminal, mean. The tokens of C are identifiers, constants (numeric and string), and the various keywords, arithmetic operators and punctuation marks. So the terminal symbols of a grammar for C include `identifier', `number', `string', plus one symbol for each keyword, operator or punctuation mark: `if', `return', `const', `static', `int', `char', `plus-sign', `open-brace', `close-brace', `comma' and many more. (These tokens can be subdivided into characters, but that is a matter of lexicography, not grammar.) Here is a simple C function subdivided into tokens: int /* keyword `int' */ square (int x) /* identifier, open-paren, keyword `int', identifier, close-paren */ { /* open-brace */ return x * x; /* keyword `return', identifier, asterisk, identifier, semicolon */ } /* close-brace */ The syntactic groupings of C include the expression, the statement, the declaration, and the function definition. These are represented in the grammar of C by nonterminal symbols `expression', `statement', `declaration' and `function definition'. The full grammar uses dozens of additional language constructs, each with its own nonterminal symbol, in order to express the meanings of these four. The example above is a function definition; it contains one declaration, and one statement. In the statement, each `x' is an expression and so is `x * x'. Each nonterminal symbol must have grammatical rules showing how it is made out of simpler constructs. For example, one kind of C statement is the `return' statement; this would be described with a grammar rule which reads informally as follows: A `statement' can be made of a `return' keyword, an `expression' and a `semicolon'. There would be many other rules for `statement', one for each kind of statement in C. One nonterminal symbol must be distinguished as the special one which defines a complete utterance in the language. It is called the "start symbol". In a compiler, this means a complete input program. In the C language, the nonterminal symbol `sequence of definitions and declarations' plays this role. For example, `1 + 2' is a valid C expression--a valid part of a C program--but it is not valid as an _entire_ C program. In the context-free grammar of C, this follows from the fact that `expression' is not the start symbol. The Bison parser reads a sequence of tokens as its input, and groups the tokens using the grammar rules. If the input is valid, the end result is that the entire token sequence reduces to a single grouping whose symbol is the grammar's start symbol. If we use a grammar for C, the entire input must be a `sequence of definitions and declarations'. If not, the parser reports a syntax error.  File: bison.info, Node: Grammar in Bison, Next: Semantic Values, Prev: Language and Grammar, Up: Concepts 1.2 From Formal Rules to Bison Input ==================================== A formal grammar is a mathematical construct. To define the language for Bison, you must write a file expressing the grammar in Bison syntax: a "Bison grammar" file. *Note Bison Grammar Files: Grammar File. A nonterminal symbol in the formal grammar is represented in Bison input as an identifier, like an identifier in C. By convention, it should be in lower case, such as `expr', `stmt' or `declaration'. The Bison representation for a terminal symbol is also called a "token type". Token types as well can be represented as C-like identifiers. By convention, these identifiers should be upper case to distinguish them from nonterminals: for example, `INTEGER', `IDENTIFIER', `IF' or `RETURN'. A terminal symbol that stands for a particular keyword in the language should be named after that keyword converted to upper case. The terminal symbol `error' is reserved for error recovery. *Note Symbols::. A terminal symbol can also be represented as a character literal, just like a C character constant. You should do this whenever a token is just a single character (parenthesis, plus-sign, etc.): use that same character in a literal as the terminal symbol for that token. A third way to represent a terminal symbol is with a C string constant containing several characters. *Note Symbols::, for more information. The grammar rules also have an expression in Bison syntax. For example, here is the Bison rule for a C `return' statement. The semicolon in quotes is a literal character token, representing part of the C syntax for the statement; the naked semicolon, and the colon, are Bison punctuation used in every rule. stmt: RETURN expr ';' ; *Note Syntax of Grammar Rules: Rules.  File: bison.info, Node: Semantic Values, Next: Semantic Actions, Prev: Grammar in Bison, Up: Concepts 1.3 Semantic Values =================== A formal grammar selects tokens only by their classifications: for example, if a rule mentions the terminal symbol `integer constant', it means that _any_ integer constant is grammatically valid in that position. The precise value of the constant is irrelevant to how to parse the input: if `x+4' is grammatical then `x+1' or `x+3989' is equally grammatical. But the precise value is very important for what the input means once it is parsed. A compiler is useless if it fails to distinguish between 4, 1 and 3989 as constants in the program! Therefore, each token in a Bison grammar has both a token type and a "semantic value". *Note Defining Language Semantics: Semantics, for details. The token type is a terminal symbol defined in the grammar, such as `INTEGER', `IDENTIFIER' or `',''. It tells everything you need to know to decide where the token may validly appear and how to group it with other tokens. The grammar rules know nothing about tokens except their types. The semantic value has all the rest of the information about the meaning of the token, such as the value of an integer, or the name of an identifier. (A token such as `','' which is just punctuation doesn't need to have any semantic value.) For example, an input token might be classified as token type `INTEGER' and have the semantic value 4. Another input token might have the same token type `INTEGER' but value 3989. When a grammar rule says that `INTEGER' is allowed, either of these tokens is acceptable because each is an `INTEGER'. When the parser accepts the token, it keeps track of the token's semantic value. Each grouping can also have a semantic value as well as its nonterminal symbol. For example, in a calculator, an expression typically has a semantic value that is a number. In a compiler for a programming language, an expression typically has a semantic value that is a tree structure describing the meaning of the expression.  File: bison.info, Node: Semantic Actions, Next: GLR Parsers, Prev: Semantic Values, Up: Concepts 1.4 Semantic Actions ==================== In order to be useful, a program must do more than parse input; it must also produce some output based on the input. In a Bison grammar, a grammar rule can have an "action" made up of C statements. Each time the parser recognizes a match for that rule, the action is executed. *Note Actions::. Most of the time, the purpose of an action is to compute the semantic value of the whole construct from the semantic values of its parts. For example, suppose we have a rule which says an expression can be the sum of two expressions. When the parser recognizes such a sum, each of the subexpressions has a semantic value which describes how it was built up. The action for this rule should create a similar sort of value for the newly recognized larger expression. For example, here is a rule that says an expression can be the sum of two subexpressions: expr: expr '+' expr { $$ = $1 + $3; } ; The action says how to produce the semantic value of the sum expression from the values of the two subexpressions.  File: bison.info, Node: GLR Parsers, Next: Locations Overview, Prev: Semantic Actions, Up: Concepts 1.5 Writing GLR Parsers ======================= In some grammars, Bison's standard LALR(1) parsing algorithm cannot decide whether to apply a certain grammar rule at a given point. That is, it may not be able to decide (on the basis of the input read so far) which of two possible reductions (applications of a grammar rule) applies, or whether to apply a reduction or read more of the input and apply a reduction later in the input. These are known respectively as "reduce/reduce" conflicts (*note Reduce/Reduce::), and "shift/reduce" conflicts (*note Shift/Reduce::). To use a grammar that is not easily modified to be LALR(1), a more general parsing algorithm is sometimes necessary. If you include `%glr-parser' among the Bison declarations in your file (*note Grammar Outline::), the result is a Generalized LR (GLR) parser. These parsers handle Bison grammars that contain no unresolved conflicts (i.e., after applying precedence declarations) identically to LALR(1) parsers. However, when faced with unresolved shift/reduce and reduce/reduce conflicts, GLR parsers use the simple expedient of doing both, effectively cloning the parser to follow both possibilities. Each of the resulting parsers can again split, so that at any given time, there can be any number of possible parses being explored. The parsers proceed in lockstep; that is, all of them consume (shift) a given input symbol before any of them proceed to the next. Each of the cloned parsers eventually meets one of two possible fates: either it runs into a parsing error, in which case it simply vanishes, or it merges with another parser, because the two of them have reduced the input to an identical set of symbols. During the time that there are multiple parsers, semantic actions are recorded, but not performed. When a parser disappears, its recorded semantic actions disappear as well, and are never performed. When a reduction makes two parsers identical, causing them to merge, Bison records both sets of semantic actions. Whenever the last two parsers merge, reverting to the single-parser case, Bison resolves all the outstanding actions either by precedences given to the grammar rules involved, or by performing both actions, and then calling a designated user-defined function on the resulting values to produce an arbitrary merged result. * Menu: * Simple GLR Parsers:: Using GLR parsers on unambiguous grammars. * Merging GLR Parses:: Using GLR parsers to resolve ambiguities. * GLR Semantic Actions:: Deferred semantic actions have special concerns. * Compiler Requirements:: GLR parsers require a modern C compiler.  File: bison.info, Node: Simple GLR Parsers, Next: Merging GLR Parses, Up: GLR Parsers 1.5.1 Using GLR on Unambiguous Grammars --------------------------------------- In the simplest cases, you can use the GLR algorithm to parse grammars that are unambiguous, but fail to be LALR(1). Such grammars typically require more than one symbol of lookahead, or (in rare cases) fall into the category of grammars in which the LALR(1) algorithm throws away too much information (they are in LR(1), but not LALR(1), *note Mystery Conflicts::). Consider a problem that arises in the declaration of enumerated and subrange types in the programming language Pascal. Here are some examples: type subrange = lo .. hi; type enum = (a, b, c); The original language standard allows only numeric literals and constant identifiers for the subrange bounds (`lo' and `hi'), but Extended Pascal (ISO/IEC 10206) and many other Pascal implementations allow arbitrary expressions there. This gives rise to the following situation, containing a superfluous pair of parentheses: type subrange = (a) .. b; Compare this to the following declaration of an enumerated type with only one value: type enum = (a); (These declarations are contrived, but they are syntactically valid, and more-complicated cases can come up in practical programs.) These two declarations look identical until the `..' token. With normal LALR(1) one-token lookahead it is not possible to decide between the two forms when the identifier `a' is parsed. It is, however, desirable for a parser to decide this, since in the latter case `a' must become a new identifier to represent the enumeration value, while in the former case `a' must be evaluated with its current meaning, which may be a constant or even a function call. You could parse `(a)' as an "unspecified identifier in parentheses", to be resolved later, but this typically requires substantial contortions in both semantic actions and large parts of the grammar, where the parentheses are nested in the recursive rules for expressions. You might think of using the lexer to distinguish between the two forms by returning different tokens for currently defined and undefined identifiers. But if these declarations occur in a local scope, and `a' is defined in an outer scope, then both forms are possible--either locally redefining `a', or using the value of `a' from the outer scope. So this approach cannot work. A simple solution to this problem is to declare the parser to use the GLR algorithm. When the GLR parser reaches the critical state, it merely splits into two branches and pursues both syntax rules simultaneously. Sooner or later, one of them runs into a parsing error. If there is a `..' token before the next `;', the rule for enumerated types fails since it cannot accept `..' anywhere; otherwise, the subrange type rule fails since it requires a `..' token. So one of the branches fails silently, and the other one continues normally, performing all the intermediate actions that were postponed during the split. If the input is syntactically incorrect, both branches fail and the parser reports a syntax error as usual. The effect of all this is that the parser seems to "guess" the correct branch to take, or in other words, it seems to use more lookahead than the underlying LALR(1) algorithm actually allows for. In this example, LALR(2) would suffice, but also some cases that are not LALR(k) for any k can be handled this way. In general, a GLR parser can take quadratic or cubic worst-case time, and the current Bison parser even takes exponential time and space for some grammars. In practice, this rarely happens, and for many grammars it is possible to prove that it cannot happen. The present example contains only one conflict between two rules, and the type-declaration context containing the conflict cannot be nested. So the number of branches that can exist at any time is limited by the constant 2, and the parsing time is still linear. Here is a Bison grammar corresponding to the example above. It parses a vastly simplified form of Pascal type declarations. %token TYPE DOTDOT ID %left '+' '-' %left '*' '/' %% type_decl : TYPE ID '=' type ';' ; type : '(' id_list ')' | expr DOTDOT expr ; id_list : ID | id_list ',' ID ; expr : '(' expr ')' | expr '+' expr | expr '-' expr | expr '*' expr | expr '/' expr | ID ; When used as a normal LALR(1) grammar, Bison correctly complains about one reduce/reduce conflict. In the conflicting situation the parser chooses one of the alternatives, arbitrarily the one declared first. Therefore the following correct input is not recognized: type t = (a) .. b; The parser can be turned into a GLR parser, while also telling Bison to be silent about the one known reduce/reduce conflict, by adding these two declarations to the Bison input file (before the first `%%'): %glr-parser %expect-rr 1 No change in the grammar itself is required. Now the parser recognizes all valid declarations, according to the limited syntax above, transparently. In fact, the user does not even notice when the parser splits. So here we have a case where we can use the benefits of GLR, almost without disadvantages. Even in simple cases like this, however, there are at least two potential problems to beware. First, always analyze the conflicts reported by Bison to make sure that GLR splitting is only done where it is intended. A GLR parser splitting inadvertently may cause problems less obvious than an LALR parser statically choosing the wrong alternative in a conflict. Second, consider interactions with the lexer (*note Semantic Tokens::) with great care. Since a split parser consumes tokens without performing any actions during the split, the lexer cannot obtain information via parser actions. Some cases of lexer interactions can be eliminated by using GLR to shift the complications from the lexer to the parser. You must check the remaining cases for correctness. In our example, it would be safe for the lexer to return tokens based on their current meanings in some symbol table, because no new symbols are defined in the middle of a type declaration. Though it is possible for a parser to define the enumeration constants as they are parsed, before the type declaration is completed, it actually makes no difference since they cannot be used within the same enumerated type declaration.  File: bison.info, Node: Merging GLR Parses, Next: GLR Semantic Actions, Prev: Simple GLR Parsers, Up: GLR Parsers 1.5.2 Using GLR to Resolve Ambiguities -------------------------------------- Let's consider an example, vastly simplified from a C++ grammar. %{ #include #define YYSTYPE char const * int yylex (void); void yyerror (char const *); %} %token TYPENAME ID %right '=' %left '+' %glr-parser %% prog : | prog stmt { printf ("\n"); } ; stmt : expr ';' %dprec 1 | decl %dprec 2 ; expr : ID { printf ("%s ", $$); } | TYPENAME '(' expr ')' { printf ("%s ", $1); } | expr '+' expr { printf ("+ "); } | expr '=' expr { printf ("= "); } ; decl : TYPENAME declarator ';' { printf ("%s ", $1); } | TYPENAME declarator '=' expr ';' { printf ("%s ", $1); } ; declarator : ID { printf ("\"%s\" ", $1); } | '(' declarator ')' ; This models a problematic part of the C++ grammar--the ambiguity between certain declarations and statements. For example, T (x) = y+z; parses as either an `expr' or a `stmt' (assuming that `T' is recognized as a `TYPENAME' and `x' as an `ID'). Bison detects this as a reduce/reduce conflict between the rules `expr : ID' and `declarator : ID', which it cannot resolve at the time it encounters `x' in the example above. Since this is a GLR parser, it therefore splits the problem into two parses, one for each choice of resolving the reduce/reduce conflict. Unlike the example from the previous section (*note Simple GLR Parsers::), however, neither of these parses "dies," because the grammar as it stands is ambiguous. One of the parsers eventually reduces `stmt : expr ';'' and the other reduces `stmt : decl', after which both parsers are in an identical state: they've seen `prog stmt' and have the same unprocessed input remaining. We say that these parses have "merged." At this point, the GLR parser requires a specification in the grammar of how to choose between the competing parses. In the example above, the two `%dprec' declarations specify that Bison is to give precedence to the parse that interprets the example as a `decl', which implies that `x' is a declarator. The parser therefore prints "x" y z + T The `%dprec' declarations only come into play when more than one parse survives. Consider a different input string for this parser: T (x) + y; This is another example of using GLR to parse an unambiguous construct, as shown in the previous section (*note Simple GLR Parsers::). Here, there is no ambiguity (this cannot be parsed as a declaration). However, at the time the Bison parser encounters `x', it does not have enough information to resolve the reduce/reduce conflict (again, between `x' as an `expr' or a `declarator'). In this case, no precedence declaration is used. Again, the parser splits into two, one assuming that `x' is an `expr', and the other assuming `x' is a `declarator'. The second of these parsers then vanishes when it sees `+', and the parser prints x T y + Suppose that instead of resolving the ambiguity, you wanted to see all the possibilities. For this purpose, you must merge the semantic actions of the two possible parsers, rather than choosing one over the other. To do so, you could change the declaration of `stmt' as follows: stmt : expr ';' %merge | decl %merge ; and define the `stmtMerge' function as: static YYSTYPE stmtMerge (YYSTYPE x0, YYSTYPE x1) { printf (" "); return ""; } with an accompanying forward declaration in the C declarations at the beginning of the file: %{ #define YYSTYPE char const * static YYSTYPE stmtMerge (YYSTYPE x0, YYSTYPE x1); %} With these declarations, the resulting parser parses the first example as both an `expr' and a `decl', and prints "x" y z + T x T y z + = Bison requires that all of the productions that participate in any particular merge have identical `%merge' clauses. Otherwise, the ambiguity would be unresolvable, and the parser will report an error during any parse that results in the offending merge.  File: bison.info, Node: GLR Semantic Actions, Next: Compiler Requirements, Prev: Merging GLR Parses, Up: GLR Parsers 1.5.3 GLR Semantic Actions -------------------------- By definition, a deferred semantic action is not performed at the same time as the associated reduction. This raises caveats for several Bison features you might use in a semantic action in a GLR parser. In any semantic action, you can examine `yychar' to determine the type of the lookahead token present at the time of the associated reduction. After checking that `yychar' is not set to `YYEMPTY' or `YYEOF', you can then examine `yylval' and `yylloc' to determine the lookahead token's semantic value and location, if any. In a nondeferred semantic action, you can also modify any of these variables to influence syntax analysis. *Note Lookahead Tokens: Lookahead. In a deferred semantic action, it's too late to influence syntax analysis. In this case, `yychar', `yylval', and `yylloc' are set to shallow copies of the values they had at the time of the associated reduction. For this reason alone, modifying them is dangerous. Moreover, the result of modifying them is undefined and subject to change with future versions of Bison. For example, if a semantic action might be deferred, you should never write it to invoke `yyclearin' (*note Action Features::) or to attempt to free memory referenced by `yylval'. Another Bison feature requiring special consideration is `YYERROR' (*note Action Features::), which you can invoke in a semantic action to initiate error recovery. During deterministic GLR operation, the effect of `YYERROR' is the same as its effect in an LALR(1) parser. In a deferred semantic action, its effect is undefined. Also, see *note Default Action for Locations: Location Default Action, which describes a special usage of `YYLLOC_DEFAULT' in GLR parsers.  File: bison.info, Node: Compiler Requirements, Prev: GLR Semantic Actions, Up: GLR Parsers 1.5.4 Considerations when Compiling GLR Parsers ----------------------------------------------- The GLR parsers require a compiler for ISO C89 or later. In addition, they use the `inline' keyword, which is not C89, but is C99 and is a common extension in pre-C99 compilers. It is up to the user of these parsers to handle portability issues. For instance, if using Autoconf and the Autoconf macro `AC_C_INLINE', a mere %{ #include %} will suffice. Otherwise, we suggest %{ #if __STDC_VERSION__ < 199901 && ! defined __GNUC__ && ! defined inline #define inline #endif %}  File: bison.info, Node: Locations Overview, Next: Bison Parser, Prev: GLR Parsers, Up: Concepts 1.6 Locations ============= Many applications, like interpreters or compilers, have to produce verbose and useful error messages. To achieve this, one must be able to keep track of the "textual location", or "location", of each syntactic construct. Bison provides a mechanism for handling these locations. Each token has a semantic value. In a similar fashion, each token has an associated location, but the type of locations is the same for all tokens and groupings. Moreover, the output parser is equipped with a default data structure for storing locations (*note Locations::, for more details). Like semantic values, locations can be reached in actions using a dedicated set of constructs. In the example above, the location of the whole grouping is `@$', while the locations of the subexpressions are `@1' and `@3'. When a rule is matched, a default action is used to compute the semantic value of its left hand side (*note Actions::). In the same way, another default action is used for locations. However, the action for locations is general enough for most cases, meaning there is usually no need to describe for each rule how `@$' should be formed. When building a new location for a given grouping, the default behavior of the output parser is to take the beginning of the first symbol, and the end of the last symbol.  File: bison.info, Node: Bison Parser, Next: Stages, Prev: Locations Overview, Up: Concepts 1.7 Bison Output: the Parser File ================================= When you run Bison, you give it a Bison grammar file as input. The output is a C source file that parses the language described by the grammar. This file is called a "Bison parser". Keep in mind that the Bison utility and the Bison parser are two distinct programs: the Bison utility is a program whose output is the Bison parser that becomes part of your program. The job of the Bison parser is to group tokens into groupings according to the grammar rules--for example, to build identifiers and operators into expressions. As it does this, it runs the actions for the grammar rules it uses. The tokens come from a function called the "lexical analyzer" that you must supply in some fashion (such as by writing it in C). The Bison parser calls the lexical analyzer each time it wants a new token. It doesn't know what is "inside" the tokens (though their semantic values may reflect this). Typically the lexical analyzer makes the tokens by parsing characters of text, but Bison does not depend on this. *Note The Lexical Analyzer Function `yylex': Lexical. The Bison parser file is C code which defines a function named `yyparse' which implements that grammar. This function does not make a complete C program: you must supply some additional functions. One is the lexical analyzer. Another is an error-reporting function which the parser calls to report an error. In addition, a complete C program must start with a function called `main'; you have to provide this, and arrange for it to call `yyparse' or the parser will never run. *Note Parser C-Language Interface: Interface. Aside from the token type names and the symbols in the actions you write, all symbols defined in the Bison parser file itself begin with `yy' or `YY'. This includes interface functions such as the lexical analyzer function `yylex', the error reporting function `yyerror' and the parser function `yyparse' itself. This also includes numerous identifiers used for internal purposes. Therefore, you should avoid using C identifiers starting with `yy' or `YY' in the Bison grammar file except for the ones defined in this manual. Also, you should avoid using the C identifiers `malloc' and `free' for anything other than their usual meanings. In some cases the Bison parser file includes system headers, and in those cases your code should respect the identifiers reserved by those headers. On some non-GNU hosts, `', `', `', and `' are included as needed to declare memory allocators and related types. `' is included if message translation is in use (*note Internationalization::). Other system headers may be included if you define `YYDEBUG' to a nonzero value (*note Tracing Your Parser: Tracing.).  File: bison.info, Node: Stages, Next: Grammar Layout, Prev: Bison Parser, Up: Concepts 1.8 Stages in Using Bison ========================= The actual language-design process using Bison, from grammar specification to a working compiler or interpreter, has these parts: 1. Formally specify the grammar in a form recognized by Bison (*note Bison Grammar Files: Grammar File.). For each grammatical rule in the language, describe the action that is to be taken when an instance of that rule is recognized. The action is described by a sequence of C statements. 2. Write a lexical analyzer to process input and pass tokens to the parser. The lexical analyzer may be written by hand in C (*note The Lexical Analyzer Function `yylex': Lexical.). It could also be produced using Lex, but the use of Lex is not discussed in this manual. 3. Write a controlling function that calls the Bison-produced parser. 4. Write error-reporting routines. To turn this source code as written into a runnable program, you must follow these steps: 1. Run Bison on the grammar to produce the parser. 2. Compile the code output by Bison, as well as any other source files. 3. Link the object files to produce the finished product.  File: bison.info, Node: Grammar Layout, Prev: Stages, Up: Concepts 1.9 The Overall Layout of a Bison Grammar ========================================= The input file for the Bison utility is a "Bison grammar file". The general form of a Bison grammar file is as follows: %{ PROLOGUE %} BISON DECLARATIONS %% GRAMMAR RULES %% EPILOGUE The `%%', `%{' and `%}' are punctuation that appears in every Bison grammar file to separate the sections. The prologue may define types and variables used in the actions. You can also use preprocessor commands to define macros used there, and use `#include' to include header files that do any of these things. You need to declare the lexical analyzer `yylex' and the error printer `yyerror' here, along with any other global identifiers used by the actions in the grammar rules. The Bison declarations declare the names of the terminal and nonterminal symbols, and may also describe operator precedence and the data types of semantic values of various symbols. The grammar rules define how to construct each nonterminal symbol from its parts. The epilogue can contain any code you want to use. Often the definitions of functions declared in the prologue go here. In a simple program, all the rest of the program can go here.  File: bison.info, Node: Examples, Next: Grammar File, Prev: Concepts, Up: Top 2 Examples ********** Now we show and explain three sample programs written using Bison: a reverse polish notation calculator, an algebraic (infix) notation calculator, and a multi-function calculator. All three have been tested under BSD Unix 4.3; each produces a usable, though limited, interactive desk-top calculator. These examples are simple, but Bison grammars for real programming languages are written the same way. You can copy these examples into a source file to try them. * Menu: * RPN Calc:: Reverse polish notation calculator; a first example with no operator precedence. * Infix Calc:: Infix (algebraic) notation calculator. Operator precedence is introduced. * Simple Error Recovery:: Continuing after syntax errors. * Location Tracking Calc:: Demonstrating the use of @N and @$. * Multi-function Calc:: Calculator with memory and trig functions. It uses multiple data-types for semantic values. * Exercises:: Ideas for improving the multi-function calculator.  File: bison.info, Node: RPN Calc, Next: Infix Calc, Up: Examples 2.1 Reverse Polish Notation Calculator ====================================== The first example is that of a simple double-precision "reverse polish notation" calculator (a calculator using postfix operators). This example provides a good starting point, since operator precedence is not an issue. The second example will illustrate how operator precedence is handled. The source code for this calculator is named `rpcalc.y'. The `.y' extension is a convention used for Bison input files. * Menu: * Rpcalc Declarations:: Prologue (declarations) for rpcalc. * Rpcalc Rules:: Grammar Rules for rpcalc, with explanation. * Rpcalc Lexer:: The lexical analyzer. * Rpcalc Main:: The controlling function. * Rpcalc Error:: The error reporting function. * Rpcalc Generate:: Running Bison on the grammar file. * Rpcalc Compile:: Run the C compiler on the output code.  File: bison.info, Node: Rpcalc Declarations, Next: Rpcalc Rules, Up: RPN Calc 2.1.1 Declarations for `rpcalc' ------------------------------- Here are the C and Bison declarations for the reverse polish notation calculator. As in C, comments are placed between `/*...*/'. /* Reverse polish notation calculator. */ %{ #define YYSTYPE double #include int yylex (void); void yyerror (char const *); %} %token NUM %% /* Grammar rules and actions follow. */ The declarations section (*note The prologue: Prologue.) contains two preprocessor directives and two forward declarations. The `#define' directive defines the macro `YYSTYPE', thus specifying the C data type for semantic values of both tokens and groupings (*note Data Types of Semantic Values: Value Type.). The Bison parser will use whatever type `YYSTYPE' is defined as; if you don't define it, `int' is the default. Because we specify `double', each token and each expression has an associated value, which is a floating point number. The `#include' directive is used to declare the exponentiation function `pow'. The forward declarations for `yylex' and `yyerror' are needed because the C language requires that functions be declared before they are used. These functions will be defined in the epilogue, but the parser calls them so they must be declared in the prologue. The second section, Bison declarations, provides information to Bison about the token types (*note The Bison Declarations Section: Bison Declarations.). Each terminal symbol that is not a single-character literal must be declared here. (Single-character literals normally don't need to be declared.) In this example, all the arithmetic operators are designated by single-character literals, so the only terminal symbol that needs to be declared is `NUM', the token type for numeric constants.  File: bison.info, Node: Rpcalc Rules, Next: Rpcalc Lexer, Prev: Rpcalc Declarations, Up: RPN Calc 2.1.2 Grammar Rules for `rpcalc' -------------------------------- Here are the grammar rules for the reverse polish notation calculator. input: /* empty */ | input line ; line: '\n' | exp '\n' { printf ("\t%.10g\n", $1); } ; exp: NUM { $$ = $1; } | exp exp '+' { $$ = $1 + $2; } | exp exp '-' { $$ = $1 - $2; } | exp exp '*' { $$ = $1 * $2; } | exp exp '/' { $$ = $1 / $2; } /* Exponentiation */ | exp exp '^' { $$ = pow ($1, $2); } /* Unary minus */ | exp 'n' { $$ = -$1; } ; %% The groupings of the rpcalc "language" defined here are the expression (given the name `exp'), the line of input (`line'), and the complete input transcript (`input'). Each of these nonterminal symbols has several alternate rules, joined by the vertical bar `|' which is read as "or". The following sections explain what these rules mean. The semantics of the language is determined by the actions taken when a grouping is recognized. The actions are the C code that appears inside braces. *Note Actions::. You must specify these actions in C, but Bison provides the means for passing semantic values between the rules. In each action, the pseudo-variable `$$' stands for the semantic value for the grouping that the rule is going to construct. Assigning a value to `$$' is the main job of most actions. The semantic values of the components of the rule are referred to as `$1', `$2', and so on. * Menu: * Rpcalc Input:: * Rpcalc Line:: * Rpcalc Expr::  File: bison.info, Node: Rpcalc Input, Next: Rpcalc Line, Up: Rpcalc Rules 2.1.2.1 Explanation of `input' .............................. Consider the definition of `input': input: /* empty */ | input line ; This definition reads as follows: "A complete input is either an empty string, or a complete input followed by an input line". Notice that "complete input" is defined in terms of itself. This definition is said to be "left recursive" since `input' appears always as the leftmost symbol in the sequence. *Note Recursive Rules: Recursion. The first alternative is empty because there are no symbols between the colon and the first `|'; this means that `input' can match an empty string of input (no tokens). We write the rules this way because it is legitimate to type `Ctrl-d' right after you start the calculator. It's conventional to put an empty alternative first and write the comment `/* empty */' in it. The second alternate rule (`input line') handles all nontrivial input. It means, "After reading any number of lines, read one more line if possible." The left recursion makes this rule into a loop. Since the first alternative matches empty input, the loop can be executed zero or more times. The parser function `yyparse' continues to process input until a grammatical error is seen or the lexical analyzer says there are no more input tokens; we will arrange for the latter to happen at end-of-input.  File: bison.info, Node: Rpcalc Line, Next: Rpcalc Expr, Prev: Rpcalc Input, Up: Rpcalc Rules 2.1.2.2 Explanation of `line' ............................. Now consider the definition of `line': line: '\n' | exp '\n' { printf ("\t%.10g\n", $1); } ; The first alternative is a token which is a newline character; this means that rpcalc accepts a blank line (and ignores it, since there is no action). The second alternative is an expression followed by a newline. This is the alternative that makes rpcalc useful. The semantic value of the `exp' grouping is the value of `$1' because the `exp' in question is the first symbol in the alternative. The action prints this value, which is the result of the computation the user asked for. This action is unusual because it does not assign a value to `$$'. As a consequence, the semantic value associated with the `line' is uninitialized (its value will be unpredictable). This would be a bug if that value were ever used, but we don't use it: once rpcalc has printed the value of the user's input line, that value is no longer needed.  File: bison.info, Node: Rpcalc Expr, Prev: Rpcalc Line, Up: Rpcalc Rules 2.1.2.3 Explanation of `expr' ............................. The `exp' grouping has several rules, one for each kind of expression. The first rule handles the simplest expressions: those that are just numbers. The second handles an addition-expression, which looks like two expressions followed by a plus-sign. The third handles subtraction, and so on. exp: NUM | exp exp '+' { $$ = $1 + $2; } | exp exp '-' { $$ = $1 - $2; } ... ; We have used `|' to join all the rules for `exp', but we could equally well have written them separately: exp: NUM ; exp: exp exp '+' { $$ = $1 + $2; } ; exp: exp exp '-' { $$ = $1 - $2; } ; ... Most of the rules have actions that compute the value of the expression in terms of the value of its parts. For example, in the rule for addition, `$1' refers to the first component `exp' and `$2' refers to the second one. The third component, `'+'', has no meaningful associated semantic value, but if it had one you could refer to it as `$3'. When `yyparse' recognizes a sum expression using this rule, the sum of the two subexpressions' values is produced as the value of the entire expression. *Note Actions::. You don't have to give an action for every rule. When a rule has no action, Bison by default copies the value of `$1' into `$$'. This is what happens in the first rule (the one that uses `NUM'). The formatting shown here is the recommended convention, but Bison does not require it. You can add or change white space as much as you wish. For example, this: exp : NUM | exp exp '+' {$$ = $1 + $2; } | ... ; means the same thing as this: exp: NUM | exp exp '+' { $$ = $1 + $2; } | ... ; The latter, however, is much more readable.  File: bison.info, Node: Rpcalc Lexer, Next: Rpcalc Main, Prev: Rpcalc Rules, Up: RPN Calc 2.1.3 The `rpcalc' Lexical Analyzer ----------------------------------- The lexical analyzer's job is low-level parsing: converting characters or sequences of characters into tokens. The Bison parser gets its tokens by calling the lexical analyzer. *Note The Lexical Analyzer Function `yylex': Lexical. Only a simple lexical analyzer is needed for the RPN calculator. This lexical analyzer skips blanks and tabs, then reads in numbers as `double' and returns them as `NUM' tokens. Any other character that isn't part of a number is a separate token. Note that the token-code for such a single-character token is the character itself. The return value of the lexical analyzer function is a numeric code which represents a token type. The same text used in Bison rules to stand for this token type is also a C expression for the numeric code for the type. This works in two ways. If the token type is a character literal, then its numeric code is that of the character; you can use the same character literal in the lexical analyzer to express the number. If the token type is an identifier, that identifier is defined by Bison as a C macro whose definition is the appropriate number. In this example, therefore, `NUM' becomes a macro for `yylex' to use. The semantic value of the token (if it has one) is stored into the global variable `yylval', which is where the Bison parser will look for it. (The C data type of `yylval' is `YYSTYPE', which was defined at the beginning of the grammar; *note Declarations for `rpcalc': Rpcalc Declarations.) A token type code of zero is returned if the end-of-input is encountered. (Bison recognizes any nonpositive value as indicating end-of-input.) Here is the code for the lexical analyzer: /* The lexical analyzer returns a double floating point number on the stack and the token NUM, or the numeric code of the character read if not a number. It skips all blanks and tabs, and returns 0 for end-of-input. */ #include int yylex (void) { int c; /* Skip white space. */ while ((c = getchar ()) == ' ' || c == '\t') ; /* Process numbers. */ if (c == '.' || isdigit (c)) { ungetc (c, stdin); scanf ("%lf", &yylval); return NUM; } /* Return end-of-input. */ if (c == EOF) return 0; /* Return a single char. */ return c; }  File: bison.info, Node: Rpcalc Main, Next: Rpcalc Error, Prev: Rpcalc Lexer, Up: RPN Calc 2.1.4 The Controlling Function ------------------------------ In keeping with the spirit of this example, the controlling function is kept to the bare minimum. The only requirement is that it call `yyparse' to start the process of parsing. int main (void) { return yyparse (); }  File: bison.info, Node: Rpcalc Error, Next: Rpcalc Generate, Prev: Rpcalc Main, Up: RPN Calc 2.1.5 The Error Reporting Routine --------------------------------- When `yyparse' detects a syntax error, it calls the error reporting function `yyerror' to print an error message (usually but not always `"syntax error"'). It is up to the programmer to supply `yyerror' (*note Parser C-Language Interface: Interface.), so here is the definition we will use: #include /* Called by yyparse on error. */ void yyerror (char const *s) { fprintf (stderr, "%s\n", s); } After `yyerror' returns, the Bison parser may recover from the error and continue parsing if the grammar contains a suitable error rule (*note Error Recovery::). Otherwise, `yyparse' returns nonzero. We have not written any error rules in this example, so any invalid input will cause the calculator program to exit. This is not clean behavior for a real calculator, but it is adequate for the first example.  File: bison.info, Node: Rpcalc Generate, Next: Rpcalc Compile, Prev: Rpcalc Error, Up: RPN Calc 2.1.6 Running Bison to Make the Parser -------------------------------------- Before running Bison to produce a parser, we need to decide how to arrange all the source code in one or more source files. For such a simple example, the easiest thing is to put everything in one file. The definitions of `yylex', `yyerror' and `main' go at the end, in the epilogue of the file (*note The Overall Layout of a Bison Grammar: Grammar Layout.). For a large project, you would probably have several source files, and use `make' to arrange to recompile them. With all the source in a single file, you use the following command to convert it into a parser file: bison FILE.y In this example the file was called `rpcalc.y' (for "Reverse Polish CALCulator"). Bison produces a file named `FILE.tab.c', removing the `.y' from the original file name. The file output by Bison contains the source code for `yyparse'. The additional functions in the input file (`yylex', `yyerror' and `main') are copied verbatim to the output.  File: bison.info, Node: Rpcalc Compile, Prev: Rpcalc Generate, Up: RPN Calc 2.1.7 Compiling the Parser File ------------------------------- Here is how to compile and run the parser file: # List files in current directory. $ ls rpcalc.tab.c rpcalc.y # Compile the Bison parser. # `-lm' tells compiler to search math library for `pow'. $ cc -lm -o rpcalc rpcalc.tab.c # List files again. $ ls rpcalc rpcalc.tab.c rpcalc.y The file `rpcalc' now contains the executable code. Here is an example session using `rpcalc'. $ rpcalc 4 9 + 13 3 7 + 3 4 5 *+- -13 3 7 + 3 4 5 * + - n Note the unary minus, `n' 13 5 6 / 4 n + -3.166666667 3 4 ^ Exponentiation 81 ^D End-of-file indicator $  File: bison.info, Node: Infix Calc, Next: Simple Error Recovery, Prev: RPN Calc, Up: Examples 2.2 Infix Notation Calculator: `calc' ===================================== We now modify rpcalc to handle infix operators instead of postfix. Infix notation involves the concept of operator precedence and the need for parentheses nested to arbitrary depth. Here is the Bison code for `calc.y', an infix desk-top calculator. /* Infix notation calculator. */ %{ #define YYSTYPE double #include #include int yylex (void); void yyerror (char const *); %} /* Bison declarations. */ %token NUM %left '-' '+' %left '*' '/' %left NEG /* negation--unary minus */ %right '^' /* exponentiation */ %% /* The grammar follows. */ input: /* empty */ | input line ; line: '\n' | exp '\n' { printf ("\t%.10g\n", $1); } ; exp: NUM { $$ = $1; } | exp '+' exp { $$ = $1 + $3; } | exp '-' exp { $$ = $1 - $3; } | exp '*' exp { $$ = $1 * $3; } | exp '/' exp { $$ = $1 / $3; } | '-' exp %prec NEG { $$ = -$2; } | exp '^' exp { $$ = pow ($1, $3); } | '(' exp ')' { $$ = $2; } ; %% The functions `yylex', `yyerror' and `main' can be the same as before. There are two important new features shown in this code. In the second section (Bison declarations), `%left' declares token types and says they are left-associative operators. The declarations `%left' and `%right' (right associativity) take the place of `%token' which is used to declare a token type name without associativity. (These tokens are single-character literals, which ordinarily don't need to be declared. We declare them here to specify the associativity.) Operator precedence is determined by the line ordering of the declarations; the higher the line number of the declaration (lower on the page or screen), the higher the precedence. Hence, exponentiation has the highest precedence, unary minus (`NEG') is next, followed by `*' and `/', and so on. *Note Operator Precedence: Precedence. The other important new feature is the `%prec' in the grammar section for the unary minus operator. The `%prec' simply instructs Bison that the rule `| '-' exp' has the same precedence as `NEG'--in this case the next-to-highest. *Note Context-Dependent Precedence: Contextual Precedence. Here is a sample run of `calc.y': $ calc 4 + 4.5 - (34/(8*3+-3)) 6.880952381 -56 + 2 -54 3 ^ 2 9  File: bison.info, Node: Simple Error Recovery, Next: Location Tracking Calc, Prev: Infix Calc, Up: Examples 2.3 Simple Error Recovery ========================= Up to this point, this manual has not addressed the issue of "error recovery"--how to continue parsing after the parser detects a syntax error. All we have handled is error reporting with `yyerror'. Recall that by default `yyparse' returns after calling `yyerror'. This means that an erroneous input line causes the calculator program to exit. Now we show how to rectify this deficiency. The Bison language itself includes the reserved word `error', which may be included in the grammar rules. In the example below it has been added to one of the alternatives for `line': line: '\n' | exp '\n' { printf ("\t%.10g\n", $1); } | error '\n' { yyerrok; } ; This addition to the grammar allows for simple error recovery in the event of a syntax error. If an expression that cannot be evaluated is read, the error will be recognized by the third rule for `line', and parsing will continue. (The `yyerror' function is still called upon to print its message as well.) The action executes the statement `yyerrok', a macro defined automatically by Bison; its meaning is that error recovery is complete (*note Error Recovery::). Note the difference between `yyerrok' and `yyerror'; neither one is a misprint. This form of error recovery deals with syntax errors. There are other kinds of errors; for example, division by zero, which raises an exception signal that is normally fatal. A real calculator program must handle this signal and use `longjmp' to return to `main' and resume parsing input lines; it would also have to discard the rest of the current line of input. We won't discuss this issue further because it is not specific to Bison programs.  File: bison.info, Node: Location Tracking Calc, Next: Multi-function Calc, Prev: Simple Error Recovery, Up: Examples 2.4 Location Tracking Calculator: `ltcalc' ========================================== This example extends the infix notation calculator with location tracking. This feature will be used to improve the error messages. For the sake of clarity, this example is a simple integer calculator, since most of the work needed to use locations will be done in the lexical analyzer. * Menu: * Ltcalc Declarations:: Bison and C declarations for ltcalc. * Ltcalc Rules:: Grammar rules for ltcalc, with explanations. * Ltcalc Lexer:: The lexical analyzer.  File: bison.info, Node: Ltcalc Declarations, Next: Ltcalc Rules, Up: Location Tracking Calc 2.4.1 Declarations for `ltcalc' ------------------------------- The C and Bison declarations for the location tracking calculator are the same as the declarations for the infix notation calculator. /* Location tracking calculator. */ %{ #define YYSTYPE int #include int yylex (void); void yyerror (char const *); %} /* Bison declarations. */ %token NUM %left '-' '+' %left '*' '/' %left NEG %right '^' %% /* The grammar follows. */ Note there are no declarations specific to locations. Defining a data type for storing locations is not needed: we will use the type provided by default (*note Data Types of Locations: Location Type.), which is a four member structure with the following integer fields: `first_line', `first_column', `last_line' and `last_column'. By conventions, and in accordance with the GNU Coding Standards and common practice, the line and column count both start at 1.  File: bison.info, Node: Ltcalc Rules, Next: Ltcalc Lexer, Prev: Ltcalc Declarations, Up: Location Tracking Calc 2.4.2 Grammar Rules for `ltcalc' -------------------------------- Whether handling locations or not has no effect on the syntax of your language. Therefore, grammar rules for this example will be very close to those of the previous example: we will only modify them to benefit from the new information. Here, we will use locations to report divisions by zero, and locate the wrong expressions or subexpressions. input : /* empty */ | input line ; line : '\n' | exp '\n' { printf ("%d\n", $1); } ; exp : NUM { $$ = $1; } | exp '+' exp { $$ = $1 + $3; } | exp '-' exp { $$ = $1 - $3; } | exp '*' exp { $$ = $1 * $3; } | exp '/' exp { if ($3) $$ = $1 / $3; else { $$ = 1; fprintf (stderr, "%d.%d-%d.%d: division by zero", @3.first_line, @3.first_column, @3.last_line, @3.last_column); } } | '-' exp %prec NEG { $$ = -$2; } | exp '^' exp { $$ = pow ($1, $3); } | '(' exp ')' { $$ = $2; } This code shows how to reach locations inside of semantic actions, by using the pseudo-variables `@N' for rule components, and the pseudo-variable `@$' for groupings. We don't need to assign a value to `@$': the output parser does it automatically. By default, before executing the C code of each action, `@$' is set to range from the beginning of `@1' to the end of `@N', for a rule with N components. This behavior can be redefined (*note Default Action for Locations: Location Default Action.), and for very specific rules, `@$' can be computed by hand.  File: bison.info, Node: Ltcalc Lexer, Prev: Ltcalc Rules, Up: Location Tracking Calc 2.4.3 The `ltcalc' Lexical Analyzer. ------------------------------------ Until now, we relied on Bison's defaults to enable location tracking. The next step is to rewrite the lexical analyzer, and make it able to feed the parser with the token locations, as it already does for semantic values. To this end, we must take into account every single character of the input text, to avoid the computed locations of being fuzzy or wrong: int yylex (void) { int c; /* Skip white space. */ while ((c = getchar ()) == ' ' || c == '\t') ++yylloc.last_column; /* Step. */ yylloc.first_line = yylloc.last_line; yylloc.first_column = yylloc.last_column; /* Process numbers. */ if (isdigit (c)) { yylval = c - '0'; ++yylloc.last_column; while (isdigit (c = getchar ())) { ++yylloc.last_column; yylval = yylval * 10 + c - '0'; } ungetc (c, stdin); return NUM; } /* Return end-of-input. */ if (c == EOF) return 0; /* Return a single char, and update location. */ if (c == '\n') { ++yylloc.last_line; yylloc.last_column = 0; } else ++yylloc.last_column; return c; } Basically, the lexical analyzer performs the same processing as before: it skips blanks and tabs, and reads numbers or single-character tokens. In addition, it updates `yylloc', the global variable (of type `YYLTYPE') containing the token's location. Now, each time this function returns a token, the parser has its number as well as its semantic value, and its location in the text. The last needed change is to initialize `yylloc', for example in the controlling function: int main (void) { yylloc.first_line = yylloc.last_line = 1; yylloc.first_column = yylloc.last_column = 0; return yyparse (); } Remember that computing locations is not a matter of syntax. Every character must be associated to a location update, whether it is in valid input, in comments, in literal strings, and so on.  File: bison.info, Node: Multi-function Calc, Next: Exercises, Prev: Location Tracking Calc, Up: Examples 2.5 Multi-Function Calculator: `mfcalc' ======================================= Now that the basics of Bison have been discussed, it is time to move on to a more advanced problem. The above calculators provided only five functions, `+', `-', `*', `/' and `^'. It would be nice to have a calculator that provides other mathematical functions such as `sin', `cos', etc. It is easy to add new operators to the infix calculator as long as they are only single-character literals. The lexical analyzer `yylex' passes back all nonnumeric characters as tokens, so new grammar rules suffice for adding a new operator. But we want something more flexible: built-in functions whose syntax has this form: FUNCTION_NAME (ARGUMENT) At the same time, we will add memory to the calculator, by allowing you to create named variables, store values in them, and use them later. Here is a sample session with the multi-function calculator: $ mfcalc pi = 3.141592653589 3.1415926536 sin(pi) 0.0000000000 alpha = beta1 = 2.3 2.3000000000 alpha 2.3000000000 ln(alpha) 0.8329091229 exp(ln(beta1)) 2.3000000000 $ Note that multiple assignment and nested function calls are permitted. * Menu: * Mfcalc Declarations:: Bison declarations for multi-function calculator. * Mfcalc Rules:: Grammar rules for the calculator. * Mfcalc Symbol Table:: Symbol table management subroutines.  File: bison.info, Node: Mfcalc Declarations, Next: Mfcalc Rules, Up: Multi-function Calc 2.5.1 Declarations for `mfcalc' ------------------------------- Here are the C and Bison declarations for the multi-function calculator. %{ #include /* For math functions, cos(), sin(), etc. */ #include "calc.h" /* Contains definition of `symrec'. */ int yylex (void); void yyerror (char const *); %} %union { double val; /* For returning numbers. */ symrec *tptr; /* For returning symbol-table pointers. */ } %token NUM /* Simple double precision number. */ %token VAR FNCT /* Variable and Function. */ %type exp %right '=' %left '-' '+' %left '*' '/' %left NEG /* negation--unary minus */ %right '^' /* exponentiation */ %% /* The grammar follows. */ The above grammar introduces only two new features of the Bison language. These features allow semantic values to have various data types (*note More Than One Value Type: Multiple Types.). The `%union' declaration specifies the entire list of possible types; this is instead of defining `YYSTYPE'. The allowable types are now double-floats (for `exp' and `NUM') and pointers to entries in the symbol table. *Note The Collection of Value Types: Union Decl. Since values can now have various types, it is necessary to associate a type with each grammar symbol whose semantic value is used. These symbols are `NUM', `VAR', `FNCT', and `exp'. Their declarations are augmented with information about their data type (placed between angle brackets). The Bison construct `%type' is used for declaring nonterminal symbols, just as `%token' is used for declaring token types. We have not used `%type' before because nonterminal symbols are normally declared implicitly by the rules that define them. But `exp' must be declared explicitly so we can specify its value type. *Note Nonterminal Symbols: Type Decl.  File: bison.info, Node: Mfcalc Rules, Next: Mfcalc Symbol Table, Prev: Mfcalc Declarations, Up: Multi-function Calc 2.5.2 Grammar Rules for `mfcalc' -------------------------------- Here are the grammar rules for the multi-function calculator. Most of them are copied directly from `calc'; three rules, those which mention `VAR' or `FNCT', are new. input: /* empty */ | input line ; line: '\n' | exp '\n' { printf ("\t%.10g\n", $1); } | error '\n' { yyerrok; } ; exp: NUM { $$ = $1; } | VAR { $$ = $1->value.var; } | VAR '=' exp { $$ = $3; $1->value.var = $3; } | FNCT '(' exp ')' { $$ = (*($1->value.fnctptr))($3); } | exp '+' exp { $$ = $1 + $3; } | exp '-' exp { $$ = $1 - $3; } | exp '*' exp { $$ = $1 * $3; } | exp '/' exp { $$ = $1 / $3; } | '-' exp %prec NEG { $$ = -$2; } | exp '^' exp { $$ = pow ($1, $3); } | '(' exp ')' { $$ = $2; } ; /* End of grammar. */ %%  File: bison.info, Node: Mfcalc Symbol Table, Prev: Mfcalc Rules, Up: Multi-function Calc 2.5.3 The `mfcalc' Symbol Table ------------------------------- The multi-function calculator requires a symbol table to keep track of the names and meanings of variables and functions. This doesn't affect the grammar rules (except for the actions) or the Bison declarations, but it requires some additional C functions for support. The symbol table itself consists of a linked list of records. Its definition, which is kept in the header `calc.h', is as follows. It provides for either functions or variables to be placed in the table. /* Function type. */ typedef double (*func_t) (double); /* Data type for links in the chain of symbols. */ struct symrec { char *name; /* name of symbol */ int type; /* type of symbol: either VAR or FNCT */ union { double var; /* value of a VAR */ func_t fnctptr; /* value of a FNCT */ } value; struct symrec *next; /* link field */ }; typedef struct symrec symrec; /* The symbol table: a chain of `struct symrec'. */ extern symrec *sym_table; symrec *putsym (char const *, int); symrec *getsym (char const *); The new version of `main' includes a call to `init_table', a function that initializes the symbol table. Here it is, and `init_table' as well: #include /* Called by yyparse on error. */ void yyerror (char const *s) { printf ("%s\n", s); } struct init { char const *fname; double (*fnct) (double); }; struct init const arith_fncts[] = { "sin", sin, "cos", cos, "atan", atan, "ln", log, "exp", exp, "sqrt", sqrt, 0, 0 }; /* The symbol table: a chain of `struct symrec'. */ symrec *sym_table; /* Put arithmetic functions in table. */ void init_table (void) { int i; symrec *ptr; for (i = 0; arith_fncts[i].fname != 0; i++) { ptr = putsym (arith_fncts[i].fname, FNCT); ptr->value.fnctptr = arith_fncts[i].fnct; } } int main (void) { init_table (); return yyparse (); } By simply editing the initialization list and adding the necessary include files, you can add additional functions to the calculator. Two important functions allow look-up and installation of symbols in the symbol table. The function `putsym' is passed a name and the type (`VAR' or `FNCT') of the object to be installed. The object is linked to the front of the list, and a pointer to the object is returned. The function `getsym' is passed the name of the symbol to look up. If found, a pointer to that symbol is returned; otherwise zero is returned. symrec * putsym (char const *sym_name, int sym_type) { symrec *ptr; ptr = (symrec *) malloc (sizeof (symrec)); ptr->name = (char *) malloc (strlen (sym_name) + 1); strcpy (ptr->name,sym_name); ptr->type = sym_type; ptr->value.var = 0; /* Set value to 0 even if fctn. */ ptr->next = (struct symrec *)sym_table; sym_table = ptr; return ptr; } symrec * getsym (char const *sym_name) { symrec *ptr; for (ptr = sym_table; ptr != (symrec *) 0; ptr = (symrec *)ptr->next) if (strcmp (ptr->name,sym_name) == 0) return ptr; return 0; } The function `yylex' must now recognize variables, numeric values, and the single-character arithmetic operators. Strings of alphanumeric characters with a leading letter are recognized as either variables or functions depending on what the symbol table says about them. The string is passed to `getsym' for look up in the symbol table. If the name appears in the table, a pointer to its location and its type (`VAR' or `FNCT') is returned to `yyparse'. If it is not already in the table, then it is installed as a `VAR' using `putsym'. Again, a pointer and its type (which must be `VAR') is returned to `yyparse'. No change is needed in the handling of numeric values and arithmetic operators in `yylex'. #include int yylex (void) { int c; /* Ignore white space, get first nonwhite character. */ while ((c = getchar ()) == ' ' || c == '\t'); if (c == EOF) return 0; /* Char starts a number => parse the number. */ if (c == '.' || isdigit (c)) { ungetc (c, stdin); scanf ("%lf", &yylval.val); return NUM; } /* Char starts an identifier => read the name. */ if (isalpha (c)) { symrec *s; static char *symbuf = 0; static int length = 0; int i; /* Initially make the buffer long enough for a 40-character symbol name. */ if (length == 0) length = 40, symbuf = (char *)malloc (length + 1); i = 0; do { /* If buffer is full, make it bigger. */ if (i == length) { length *= 2; symbuf = (char *) realloc (symbuf, length + 1); } /* Add this character to the buffer. */ symbuf[i++] = c; /* Get another character. */ c = getchar (); } while (isalnum (c)); ungetc (c, stdin); symbuf[i] = '\0'; s = getsym (symbuf); if (s == 0) s = putsym (symbuf, VAR); yylval.tptr = s; return s->type; } /* Any other character is a token by itself. */ return c; } This program is both powerful and flexible. You may easily add new functions, and it is a simple job to modify this code to install predefined variables such as `pi' or `e' as well.  File: bison.info, Node: Exercises, Prev: Multi-function Calc, Up: Examples 2.6 Exercises ============= 1. Add some new functions from `math.h' to the initialization list. 2. Add another array that contains constants and their values. Then modify `init_table' to add these constants to the symbol table. It will be easiest to give the constants type `VAR'. 3. Make the program report an error if the user refers to an uninitialized variable in any way except to store a value in it.  File: bison.info, Node: Grammar File, Next: Interface, Prev: Examples, Up: Top 3 Bison Grammar Files ********************* Bison takes as input a context-free grammar specification and produces a C-language function that recognizes correct instances of the grammar. The Bison grammar input file conventionally has a name ending in `.y'. *Note Invoking Bison: Invocation. * Menu: * Grammar Outline:: Overall layout of the grammar file. * Symbols:: Terminal and nonterminal symbols. * Rules:: How to write grammar rules. * Recursion:: Writing recursive rules. * Semantics:: Semantic values and actions. * Locations:: Locations and actions. * Declarations:: All kinds of Bison declarations are described here. * Multiple Parsers:: Putting more than one Bison parser in one program.  File: bison.info, Node: Grammar Outline, Next: Symbols, Up: Grammar File 3.1 Outline of a Bison Grammar ============================== A Bison grammar file has four main sections, shown here with the appropriate delimiters: %{ PROLOGUE %} BISON DECLARATIONS %% GRAMMAR RULES %% EPILOGUE Comments enclosed in `/* ... */' may appear in any of the sections. As a GNU extension, `//' introduces a comment that continues until end of line. * Menu: * Prologue:: Syntax and usage of the prologue. * Prologue Alternatives:: Syntax and usage of alternatives to the prologue. * Bison Declarations:: Syntax and usage of the Bison declarations section. * Grammar Rules:: Syntax and usage of the grammar rules section. * Epilogue:: Syntax and usage of the epilogue.  File: bison.info, Node: Prologue, Next: Prologue Alternatives, Up: Grammar Outline 3.1.1 The prologue ------------------ The PROLOGUE section contains macro definitions and declarations of functions and variables that are used in the actions in the grammar rules. These are copied to the beginning of the parser file so that they precede the definition of `yyparse'. You can use `#include' to get the declarations from a header file. If you don't need any C declarations, you may omit the `%{' and `%}' delimiters that bracket this section. The PROLOGUE section is terminated by the first occurrence of `%}' that is outside a comment, a string literal, or a character constant. You may have more than one PROLOGUE section, intermixed with the BISON DECLARATIONS. This allows you to have C and Bison declarations that refer to each other. For example, the `%union' declaration may use types defined in a header file, and you may wish to prototype functions that take arguments of type `YYSTYPE'. This can be done with two PROLOGUE blocks, one before and one after the `%union' declaration. %{ #define _GNU_SOURCE #include #include "ptypes.h" %} %union { long int n; tree t; /* `tree' is defined in `ptypes.h'. */ } %{ static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(F, N, L) print_token_value (F, N, L) %} ... When in doubt, it is usually safer to put prologue code before all Bison declarations, rather than after. For example, any definitions of feature test macros like `_GNU_SOURCE' or `_POSIX_C_SOURCE' should appear before all Bison declarations, as feature test macros can affect the behavior of Bison-generated `#include' directives.  File: bison.info, Node: Prologue Alternatives, Next: Bison Declarations, Prev: Prologue, Up: Grammar Outline 3.1.2 Prologue Alternatives --------------------------- The functionality of PROLOGUE sections can often be subtle and inflexible. As an alternative, Bison provides a %code directive with an explicit qualifier field, which identifies the purpose of the code and thus the location(s) where Bison should generate it. For C/C++, the qualifier can be omitted for the default location, or it can be one of `requires', `provides', `top'. *Note %code: Decl Summary. Look again at the example of the previous section: %{ #define _GNU_SOURCE #include #include "ptypes.h" %} %union { long int n; tree t; /* `tree' is defined in `ptypes.h'. */ } %{ static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(F, N, L) print_token_value (F, N, L) %} ... Notice that there are two PROLOGUE sections here, but there's a subtle distinction between their functionality. For example, if you decide to override Bison's default definition for `YYLTYPE', in which PROLOGUE section should you write your new definition? You should write it in the first since Bison will insert that code into the parser source code file _before_ the default `YYLTYPE' definition. In which PROLOGUE section should you prototype an internal function, `trace_token', that accepts `YYLTYPE' and `yytokentype' as arguments? You should prototype it in the second since Bison will insert that code _after_ the `YYLTYPE' and `yytokentype' definitions. This distinction in functionality between the two PROLOGUE sections is established by the appearance of the `%union' between them. This behavior raises a few questions. First, why should the position of a `%union' affect definitions related to `YYLTYPE' and `yytokentype'? Second, what if there is no `%union'? In that case, the second kind of PROLOGUE section is not available. This behavior is not intuitive. To avoid this subtle `%union' dependency, rewrite the example using a `%code top' and an unqualified `%code'. Let's go ahead and add the new `YYLTYPE' definition and the `trace_token' prototype at the same time: %code top { #define _GNU_SOURCE #include /* WARNING: The following code really belongs * in a `%code requires'; see below. */ #include "ptypes.h" #define YYLTYPE YYLTYPE typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; char *filename; } YYLTYPE; } %union { long int n; tree t; /* `tree' is defined in `ptypes.h'. */ } %code { static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(F, N, L) print_token_value (F, N, L) static void trace_token (enum yytokentype token, YYLTYPE loc); } ... In this way, `%code top' and the unqualified `%code' achieve the same functionality as the two kinds of PROLOGUE sections, but it's always explicit which kind you intend. Moreover, both kinds are always available even in the absence of `%union'. The `%code top' block above logically contains two parts. The first two lines before the warning need to appear near the top of the parser source code file. The first line after the warning is required by `YYSTYPE' and thus also needs to appear in the parser source code file. However, if you've instructed Bison to generate a parser header file (*note %defines: Decl Summary.), you probably want that line to appear before the `YYSTYPE' definition in that header file as well. The `YYLTYPE' definition should also appear in the parser header file to override the default `YYLTYPE' definition there. In other words, in the `%code top' block above, all but the first two lines are dependency code required by the `YYSTYPE' and `YYLTYPE' definitions. Thus, they belong in one or more `%code requires': %code top { #define _GNU_SOURCE #include } %code requires { #include "ptypes.h" } %union { long int n; tree t; /* `tree' is defined in `ptypes.h'. */ } %code requires { #define YYLTYPE YYLTYPE typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; char *filename; } YYLTYPE; } %code { static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(F, N, L) print_token_value (F, N, L) static void trace_token (enum yytokentype token, YYLTYPE loc); } ... Now Bison will insert `#include "ptypes.h"' and the new `YYLTYPE' definition before the Bison-generated `YYSTYPE' and `YYLTYPE' definitions in both the parser source code file and the parser header file. (By the same reasoning, `%code requires' would also be the appropriate place to write your own definition for `YYSTYPE'.) When you are writing dependency code for `YYSTYPE' and `YYLTYPE', you should prefer `%code requires' over `%code top' regardless of whether you instruct Bison to generate a parser header file. When you are writing code that you need Bison to insert only into the parser source code file and that has no special need to appear at the top of that file, you should prefer the unqualified `%code' over `%code top'. These practices will make the purpose of each block of your code explicit to Bison and to other developers reading your grammar file. Following these practices, we expect the unqualified `%code' and `%code requires' to be the most important of the four PROLOGUE alternatives. At some point while developing your parser, you might decide to provide `trace_token' to modules that are external to your parser. Thus, you might wish for Bison to insert the prototype into both the parser header file and the parser source code file. Since this function is not a dependency required by `YYSTYPE' or `YYLTYPE', it doesn't make sense to move its prototype to a `%code requires'. More importantly, since it depends upon `YYLTYPE' and `yytokentype', `%code requires' is not sufficient. Instead, move its prototype from the unqualified `%code' to a `%code provides': %code top { #define _GNU_SOURCE #include } %code requires { #include "ptypes.h" } %union { long int n; tree t; /* `tree' is defined in `ptypes.h'. */ } %code requires { #define YYLTYPE YYLTYPE typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; char *filename; } YYLTYPE; } %code provides { void trace_token (enum yytokentype token, YYLTYPE loc); } %code { static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(F, N, L) print_token_value (F, N, L) } ... Bison will insert the `trace_token' prototype into both the parser header file and the parser source code file after the definitions for `yytokentype', `YYLTYPE', and `YYSTYPE'. The above examples are careful to write directives in an order that reflects the layout of the generated parser source code and header files: `%code top', `%code requires', `%code provides', and then `%code'. While your grammar files may generally be easier to read if you also follow this order, Bison does not require it. Instead, Bison lets you choose an organization that makes sense to you. You may declare any of these directives multiple times in the grammar file. In that case, Bison concatenates the contained code in declaration order. This is the only way in which the position of one of these directives within the grammar file affects its functionality. The result of the previous two properties is greater flexibility in how you may organize your grammar file. For example, you may organize semantic-type-related directives by semantic type: %code requires { #include "type1.h" } %union { type1 field1; } %destructor { type1_free ($$); } %printer { type1_print ($$); } %code requires { #include "type2.h" } %union { type2 field2; } %destructor { type2_free ($$); } %printer { type2_print ($$); } You could even place each of the above directive groups in the rules section of the grammar file next to the set of rules that uses the associated semantic type. (In the rules section, you must terminate each of those directives with a semicolon.) And you don't have to worry that some directive (like a `%union') in the definitions section is going to adversely affect their functionality in some counter-intuitive manner just because it comes first. Such an organization is not possible using PROLOGUE sections. This section has been concerned with explaining the advantages of the four PROLOGUE alternatives over the original Yacc PROLOGUE. However, in most cases when using these directives, you shouldn't need to think about all the low-level ordering issues discussed here. Instead, you should simply use these directives to label each block of your code according to its purpose and let Bison handle the ordering. `%code' is the most generic label. Move code to `%code requires', `%code provides', or `%code top' as needed.  File: bison.info, Node: Bison Declarations, Next: Grammar Rules, Prev: Prologue Alternatives, Up: Grammar Outline 3.1.3 The Bison Declarations Section ------------------------------------ The BISON DECLARATIONS section contains declarations that define terminal and nonterminal symbols, specify precedence, and so on. In some simple grammars you may not need any declarations. *Note Bison Declarations: Declarations.  File: bison.info, Node: Grammar Rules, Next: Epilogue, Prev: Bison Declarations, Up: Grammar Outline 3.1.4 The Grammar Rules Section ------------------------------- The "grammar rules" section contains one or more Bison grammar rules, and nothing else. *Note Syntax of Grammar Rules: Rules. There must always be at least one grammar rule, and the first `%%' (which precedes the grammar rules) may never be omitted even if it is the first thing in the file.  File: bison.info, Node: Epilogue, Prev: Grammar Rules, Up: Grammar Outline 3.1.5 The epilogue ------------------ The EPILOGUE is copied verbatim to the end of the parser file, just as the PROLOGUE is copied to the beginning. This is the most convenient place to put anything that you want to have in the parser file but which need not come before the definition of `yyparse'. For example, the definitions of `yylex' and `yyerror' often go here. Because C requires functions to be declared before being used, you often need to declare functions like `yylex' and `yyerror' in the Prologue, even if you define them in the Epilogue. *Note Parser C-Language Interface: Interface. If the last section is empty, you may omit the `%%' that separates it from the grammar rules. The Bison parser itself contains many macros and identifiers whose names start with `yy' or `YY', so it is a good idea to avoid using any such names (except those documented in this manual) in the epilogue of the grammar file.  File: bison.info, Node: Symbols, Next: Rules, Prev: Grammar Outline, Up: Grammar File 3.2 Symbols, Terminal and Nonterminal ===================================== "Symbols" in Bison grammars represent the grammatical classifications of the language. A "terminal symbol" (also known as a "token type") represents a class of syntactically equivalent tokens. You use the symbol in grammar rules to mean that a token in that class is allowed. The symbol is represented in the Bison parser by a numeric code, and the `yylex' function returns a token type code to indicate what kind of token has been read. You don't need to know what the code value is; you can use the symbol to stand for it. A "nonterminal symbol" stands for a class of syntactically equivalent groupings. The symbol name is used in writing grammar rules. By convention, it should be all lower case. Symbol names can contain letters, digits (not at the beginning), underscores and periods. Periods make sense only in nonterminals. There are three ways of writing terminal symbols in the grammar: * A "named token type" is written with an identifier, like an identifier in C. By convention, it should be all upper case. Each such name must be defined with a Bison declaration such as `%token'. *Note Token Type Names: Token Decl. * A "character token type" (or "literal character token") is written in the grammar using the same syntax used in C for character constants; for example, `'+'' is a character token type. A character token type doesn't need to be declared unless you need to specify its semantic value data type (*note Data Types of Semantic Values: Value Type.), associativity, or precedence (*note Operator Precedence: Precedence.). By convention, a character token type is used only to represent a token that consists of that particular character. Thus, the token type `'+'' is used to represent the character `+' as a token. Nothing enforces this convention, but if you depart from it, your program will confuse other readers. All the usual escape sequences used in character literals in C can be used in Bison as well, but you must not use the null character as a character literal because its numeric code, zero, signifies end-of-input (*note Calling Convention for `yylex': Calling Convention.). Also, unlike standard C, trigraphs have no special meaning in Bison character literals, nor is backslash-newline allowed. * A "literal string token" is written like a C string constant; for example, `"<="' is a literal string token. A literal string token doesn't need to be declared unless you need to specify its semantic value data type (*note Value Type::), associativity, or precedence (*note Precedence::). You can associate the literal string token with a symbolic name as an alias, using the `%token' declaration (*note Token Declarations: Token Decl.). If you don't do that, the lexical analyzer has to retrieve the token number for the literal string token from the `yytname' table (*note Calling Convention::). *Warning*: literal string tokens do not work in Yacc. By convention, a literal string token is used only to represent a token that consists of that particular string. Thus, you should use the token type `"<="' to represent the string `<=' as a token. Bison does not enforce this convention, but if you depart from it, people who read your program will be confused. All the escape sequences used in string literals in C can be used in Bison as well, except that you must not use a null character within a string literal. Also, unlike Standard C, trigraphs have no special meaning in Bison string literals, nor is backslash-newline allowed. A literal string token must contain two or more characters; for a token containing just one character, use a character token (see above). How you choose to write a terminal symbol has no effect on its grammatical meaning. That depends only on where it appears in rules and on when the parser function returns that symbol. The value returned by `yylex' is always one of the terminal symbols, except that a zero or negative value signifies end-of-input. Whichever way you write the token type in the grammar rules, you write it the same way in the definition of `yylex'. The numeric code for a character token type is simply the positive numeric code of the character, so `yylex' can use the identical value to generate the requisite code, though you may need to convert it to `unsigned char' to avoid sign-extension on hosts where `char' is signed. Each named token type becomes a C macro in the parser file, so `yylex' can use the name to stand for the code. (This is why periods don't make sense in terminal symbols.) *Note Calling Convention for `yylex': Calling Convention. If `yylex' is defined in a separate file, you need to arrange for the token-type macro definitions to be available there. Use the `-d' option when you run Bison, so that it will write these macro definitions into a separate header file `NAME.tab.h' which you can include in the other source files that need it. *Note Invoking Bison: Invocation. If you want to write a grammar that is portable to any Standard C host, you must use only nonnull character tokens taken from the basic execution character set of Standard C. This set consists of the ten digits, the 52 lower- and upper-case English letters, and the characters in the following C-language string: "\a\b\t\n\v\f\r !\"#%&'()*+,-./:;<=>?[\\]^_{|}~" The `yylex' function and Bison must use a consistent character set and encoding for character tokens. For example, if you run Bison in an ASCII environment, but then compile and run the resulting program in an environment that uses an incompatible character set like EBCDIC, the resulting program may not work because the tables generated by Bison will assume ASCII numeric values for character tokens. It is standard practice for software distributions to contain C source files that were generated by Bison in an ASCII environment, so installers on platforms that are incompatible with ASCII must rebuild those files before compiling them. The symbol `error' is a terminal symbol reserved for error recovery (*note Error Recovery::); you shouldn't use it for any other purpose. In particular, `yylex' should never return this value. The default value of the error token is 256, unless you explicitly assigned 256 to one of your tokens with a `%token' declaration.  File: bison.info, Node: Rules, Next: Recursion, Prev: Symbols, Up: Grammar File 3.3 Syntax of Grammar Rules =========================== A Bison grammar rule has the following general form: RESULT: COMPONENTS... ; where RESULT is the nonterminal symbol that this rule describes, and COMPONENTS are various terminal and nonterminal symbols that are put together by this rule (*note Symbols::). For example, exp: exp '+' exp ; says that two groupings of type `exp', with a `+' token in between, can be combined into a larger grouping of type `exp'. White space in rules is significant only to separate symbols. You can add extra white space as you wish. Scattered among the components can be ACTIONS that determine the semantics of the rule. An action looks like this: {C STATEMENTS} This is an example of "braced code", that is, C code surrounded by braces, much like a compound statement in C. Braced code can contain any sequence of C tokens, so long as its braces are balanced. Bison does not check the braced code for correctness directly; it merely copies the code to the output file, where the C compiler can check it. Within braced code, the balanced-brace count is not affected by braces within comments, string literals, or character constants, but it is affected by the C digraphs `<%' and `%>' that represent braces. At the top level braced code must be terminated by `}' and not by a digraph. Bison does not look for trigraphs, so if braced code uses trigraphs you should ensure that they do not affect the nesting of braces or the boundaries of comments, string literals, or character constants. Usually there is only one action and it follows the components. *Note Actions::. Multiple rules for the same RESULT can be written separately or can be joined with the vertical-bar character `|' as follows: RESULT: RULE1-COMPONENTS... | RULE2-COMPONENTS... ... ; They are still considered distinct rules even when joined in this way. If COMPONENTS in a rule is empty, it means that RESULT can match the empty string. For example, here is how to define a comma-separated sequence of zero or more `exp' groupings: expseq: /* empty */ | expseq1 ; expseq1: exp | expseq1 ',' exp ; It is customary to write a comment `/* empty */' in each rule with no components.  File: bison.info, Node: Recursion, Next: Semantics, Prev: Rules, Up: Grammar File 3.4 Recursive Rules =================== A rule is called "recursive" when its RESULT nonterminal appears also on its right hand side. Nearly all Bison grammars need to use recursion, because that is the only way to define a sequence of any number of a particular thing. Consider this recursive definition of a comma-separated sequence of one or more expressions: expseq1: exp | expseq1 ',' exp ; Since the recursive use of `expseq1' is the leftmost symbol in the right hand side, we call this "left recursion". By contrast, here the same construct is defined using "right recursion": expseq1: exp | exp ',' expseq1 ; Any kind of sequence can be defined using either left recursion or right recursion, but you should always use left recursion, because it can parse a sequence of any number of elements with bounded stack space. Right recursion uses up space on the Bison stack in proportion to the number of elements in the sequence, because all the elements must be shifted onto the stack before the rule can be applied even once. *Note The Bison Parser Algorithm: Algorithm, for further explanation of this. "Indirect" or "mutual" recursion occurs when the result of the rule does not appear directly on its right hand side, but does appear in rules for other nonterminals which do appear on its right hand side. For example: expr: primary | primary '+' primary ; primary: constant | '(' expr ')' ; defines two mutually-recursive nonterminals, since each refers to the other.  File: bison.info, Node: Semantics, Next: Locations, Prev: Recursion, Up: Grammar File 3.5 Defining Language Semantics =============================== The grammar rules for a language determine only the syntax. The semantics are determined by the semantic values associated with various tokens and groupings, and by the actions taken when various groupings are recognized. For example, the calculator calculates properly because the value associated with each expression is the proper number; it adds properly because the action for the grouping `X + Y' is to add the numbers associated with X and Y. * Menu: * Value Type:: Specifying one data type for all semantic values. * Multiple Types:: Specifying several alternative data types. * Actions:: An action is the semantic definition of a grammar rule. * Action Types:: Specifying data types for actions to operate on. * Mid-Rule Actions:: Most actions go at the end of a rule. This says when, why and how to use the exceptional action in the middle of a rule.  File: bison.info, Node: Value Type, Next: Multiple Types, Up: Semantics 3.5.1 Data Types of Semantic Values ----------------------------------- In a simple program it may be sufficient to use the same data type for the semantic values of all language constructs. This was true in the RPN and infix calculator examples (*note Reverse Polish Notation Calculator: RPN Calc.). Bison normally uses the type `int' for semantic values if your program uses the same data type for all language constructs. To specify some other type, define `YYSTYPE' as a macro, like this: #define YYSTYPE double `YYSTYPE''s replacement list should be a type name that does not contain parentheses or square brackets. This macro definition must go in the prologue of the grammar file (*note Outline of a Bison Grammar: Grammar Outline.).  File: bison.info, Node: Multiple Types, Next: Actions, Prev: Value Type, Up: Semantics 3.5.2 More Than One Value Type ------------------------------ In most programs, you will need different data types for different kinds of tokens and groupings. For example, a numeric constant may need type `int' or `long int', while a string constant needs type `char *', and an identifier might need a pointer to an entry in the symbol table. To use more than one data type for semantic values in one parser, Bison requires you to do two things: * Specify the entire collection of possible data types, either by using the `%union' Bison declaration (*note The Collection of Value Types: Union Decl.), or by using a `typedef' or a `#define' to define `YYSTYPE' to be a union type whose member names are the type tags. * Choose one of those types for each symbol (terminal or nonterminal) for which semantic values are used. This is done for tokens with the `%token' Bison declaration (*note Token Type Names: Token Decl.) and for groupings with the `%type' Bison declaration (*note Nonterminal Symbols: Type Decl.).  File: bison.info, Node: Actions, Next: Action Types, Prev: Multiple Types, Up: Semantics 3.5.3 Actions ------------- An action accompanies a syntactic rule and contains C code to be executed each time an instance of that rule is recognized. The task of most actions is to compute a semantic value for the grouping built by the rule from the semantic values associated with tokens or smaller groupings. An action consists of braced code containing C statements, and can be placed at any position in the rule; it is executed at that position. Most rules have just one action at the end of the rule, following all the components. Actions in the middle of a rule are tricky and used only for special purposes (*note Actions in Mid-Rule: Mid-Rule Actions.). The C code in an action can refer to the semantic values of the components matched by the rule with the construct `$N', which stands for the value of the Nth component. The semantic value for the grouping being constructed is `$$'. Bison translates both of these constructs into expressions of the appropriate type when it copies the actions into the parser file. `$$' is translated to a modifiable lvalue, so it can be assigned to. Here is a typical example: exp: ... | exp '+' exp { $$ = $1 + $3; } This rule constructs an `exp' from two smaller `exp' groupings connected by a plus-sign token. In the action, `$1' and `$3' refer to the semantic values of the two component `exp' groupings, which are the first and third symbols on the right hand side of the rule. The sum is stored into `$$' so that it becomes the semantic value of the addition-expression just recognized by the rule. If there were a useful semantic value associated with the `+' token, it could be referred to as `$2'. Note that the vertical-bar character `|' is really a rule separator, and actions are attached to a single rule. This is a difference with tools like Flex, for which `|' stands for either "or", or "the same action as that of the next rule". In the following example, the action is triggered only when `b' is found: a-or-b: 'a'|'b' { a_or_b_found = 1; }; If you don't specify an action for a rule, Bison supplies a default: `$$ = $1'. Thus, the value of the first symbol in the rule becomes the value of the whole rule. Of course, the default action is valid only if the two data types match. There is no meaningful default action for an empty rule; every empty rule must have an explicit action unless the rule's value does not matter. `$N' with N zero or negative is allowed for reference to tokens and groupings on the stack _before_ those that match the current rule. This is a very risky practice, and to use it reliably you must be certain of the context in which the rule is applied. Here is a case in which you can use this reliably: foo: expr bar '+' expr { ... } | expr bar '-' expr { ... } ; bar: /* empty */ { previous_expr = $0; } ; As long as `bar' is used only in the fashion shown here, `$0' always refers to the `expr' which precedes `bar' in the definition of `foo'. It is also possible to access the semantic value of the lookahead token, if any, from a semantic action. This semantic value is stored in `yylval'. *Note Special Features for Use in Actions: Action Features.  File: bison.info, Node: Action Types, Next: Mid-Rule Actions, Prev: Actions, Up: Semantics 3.5.4 Data Types of Values in Actions ------------------------------------- If you have chosen a single data type for semantic values, the `$$' and `$N' constructs always have that data type. If you have used `%union' to specify a variety of data types, then you must declare a choice among these types for each terminal or nonterminal symbol that can have a semantic value. Then each time you use `$$' or `$N', its data type is determined by which symbol it refers to in the rule. In this example, exp: ... | exp '+' exp { $$ = $1 + $3; } `$1' and `$3' refer to instances of `exp', so they all have the data type declared for the nonterminal symbol `exp'. If `$2' were used, it would have the data type declared for the terminal symbol `'+'', whatever that might be. Alternatively, you can specify the data type when you refer to the value, by inserting `' after the `$' at the beginning of the reference. For example, if you have defined types as shown here: %union { int itype; double dtype; } then you can write `$1' to refer to the first subunit of the rule as an integer, or `$1' to refer to it as a double.  File: bison.info, Node: Mid-Rule Actions, Prev: Action Types, Up: Semantics 3.5.5 Actions in Mid-Rule ------------------------- Occasionally it is useful to put an action in the middle of a rule. These actions are written just like usual end-of-rule actions, but they are executed before the parser even recognizes the following components. A mid-rule action may refer to the components preceding it using `$N', but it may not refer to subsequent components because it is run before they are parsed. The mid-rule action itself counts as one of the components of the rule. This makes a difference when there is another action later in the same rule (and usually there is another at the end): you have to count the actions along with the symbols when working out which number N to use in `$N'. The mid-rule action can also have a semantic value. The action can set its value with an assignment to `$$', and actions later in the rule can refer to the value using `$N'. Since there is no symbol to name the action, there is no way to declare a data type for the value in advance, so you must use the `$<...>N' construct to specify a data type each time you refer to this value. There is no way to set the value of the entire rule with a mid-rule action, because assignments to `$$' do not have that effect. The only way to set the value for the entire rule is with an ordinary action at the end of the rule. Here is an example from a hypothetical compiler, handling a `let' statement that looks like `let (VARIABLE) STATEMENT' and serves to create a variable named VARIABLE temporarily for the duration of STATEMENT. To parse this construct, we must put VARIABLE into the symbol table while STATEMENT is parsed, then remove it afterward. Here is how it is done: stmt: LET '(' var ')' { $$ = push_context (); declare_variable ($3); } stmt { $$ = $6; pop_context ($5); } As soon as `let (VARIABLE)' has been recognized, the first action is run. It saves a copy of the current semantic context (the list of accessible variables) as its semantic value, using alternative `context' in the data-type union. Then it calls `declare_variable' to add the new variable to that list. Once the first action is finished, the embedded statement `stmt' can be parsed. Note that the mid-rule action is component number 5, so the `stmt' is component number 6. After the embedded statement is parsed, its semantic value becomes the value of the entire `let'-statement. Then the semantic value from the earlier action is used to restore the prior list of variables. This removes the temporary `let'-variable from the list so that it won't appear to exist while the rest of the program is parsed. In the above example, if the parser initiates error recovery (*note Error Recovery::) while parsing the tokens in the embedded statement `stmt', it might discard the previous semantic context `$5' without restoring it. Thus, `$5' needs a destructor (*note Freeing Discarded Symbols: Destructor Decl.). However, Bison currently provides no means to declare a destructor specific to a particular mid-rule action's semantic value. One solution is to bury the mid-rule action inside a nonterminal symbol and to declare a destructor for that symbol: %type let %destructor { pop_context ($$); } let %% stmt: let stmt { $$ = $2; pop_context ($1); } ; let: LET '(' var ')' { $$ = push_context (); declare_variable ($3); } ; Note that the action is now at the end of its rule. Any mid-rule action can be converted to an end-of-rule action in this way, and this is what Bison actually does to implement mid-rule actions. Taking action before a rule is completely recognized often leads to conflicts since the parser must commit to a parse in order to execute the action. For example, the following two rules, without mid-rule actions, can coexist in a working parser because the parser can shift the open-brace token and look at what follows before deciding whether there is a declaration or not: compound: '{' declarations statements '}' | '{' statements '}' ; But when we add a mid-rule action as follows, the rules become nonfunctional: compound: { prepare_for_local_variables (); } '{' declarations statements '}' | '{' statements '}' ; Now the parser is forced to decide whether to run the mid-rule action when it has read no farther than the open-brace. In other words, it must commit to using one rule or the other, without sufficient information to do it correctly. (The open-brace token is what is called the "lookahead" token at this time, since the parser is still deciding what to do about it. *Note Lookahead Tokens: Lookahead.) You might think that you could correct the problem by putting identical actions into the two rules, like this: compound: { prepare_for_local_variables (); } '{' declarations statements '}' | { prepare_for_local_variables (); } '{' statements '}' ; But this does not help, because Bison does not realize that the two actions are identical. (Bison never tries to understand the C code in an action.) If the grammar is such that a declaration can be distinguished from a statement by the first token (which is true in C), then one solution which does work is to put the action after the open-brace, like this: compound: '{' { prepare_for_local_variables (); } declarations statements '}' | '{' statements '}' ; Now the first token of the following declaration or statement, which would in any case tell Bison which rule to use, can still do so. Another solution is to bury the action inside a nonterminal symbol which serves as a subroutine: subroutine: /* empty */ { prepare_for_local_variables (); } ; compound: subroutine '{' declarations statements '}' | subroutine '{' statements '}' ; Now Bison can execute the action in the rule for `subroutine' without deciding which rule for `compound' it will eventually use.  File: bison.info, Node: Locations, Next: Declarations, Prev: Semantics, Up: Grammar File 3.6 Tracking Locations ====================== Though grammar rules and semantic actions are enough to write a fully functional parser, it can be useful to process some additional information, especially symbol locations. The way locations are handled is defined by providing a data type, and actions to take when rules are matched. * Menu: * Location Type:: Specifying a data type for locations. * Actions and Locations:: Using locations in actions. * Location Default Action:: Defining a general way to compute locations.  File: bison.info, Node: Location Type, Next: Actions and Locations, Up: Locations 3.6.1 Data Type of Locations ---------------------------- Defining a data type for locations is much simpler than for semantic values, since all tokens and groupings always use the same type. You can specify the type of locations by defining a macro called `YYLTYPE', just as you can specify the semantic value type by defining a `YYSTYPE' macro (*note Value Type::). When `YYLTYPE' is not defined, Bison uses a default structure type with four members: typedef struct YYLTYPE { int first_line; int first_column; int last_line; int last_column; } YYLTYPE; When `YYLTYPE' is not defined, at the beginning of the parsing, Bison initializes all these fields to 1 for `yylloc'. To initialize `yylloc' with a custom location type (or to chose a different initialization), use the `%initial-action' directive. *Note Performing Actions before Parsing: Initial Action Decl.  File: bison.info, Node: Actions and Locations, Next: Location Default Action, Prev: Location Type, Up: Locations 3.6.2 Actions and Locations --------------------------- Actions are not only useful for defining language semantics, but also for describing the behavior of the output parser with locations. The most obvious way for building locations of syntactic groupings is very similar to the way semantic values are computed. In a given rule, several constructs can be used to access the locations of the elements being matched. The location of the Nth component of the right hand side is `@N', while the location of the left hand side grouping is `@$'. Here is a basic example using the default data type for locations: exp: ... | exp '/' exp { @$.first_column = @1.first_column; @$.first_line = @1.first_line; @$.last_column = @3.last_column; @$.last_line = @3.last_line; if ($3) $$ = $1 / $3; else { $$ = 1; fprintf (stderr, "Division by zero, l%d,c%d-l%d,c%d", @3.first_line, @3.first_column, @3.last_line, @3.last_column); } } As for semantic values, there is a default action for locations that is run each time a rule is matched. It sets the beginning of `@$' to the beginning of the first symbol, and the end of `@$' to the end of the last symbol. With this default action, the location tracking can be fully automatic. The example above simply rewrites this way: exp: ... | exp '/' exp { if ($3) $$ = $1 / $3; else { $$ = 1; fprintf (stderr, "Division by zero, l%d,c%d-l%d,c%d", @3.first_line, @3.first_column, @3.last_line, @3.last_column); } } It is also possible to access the location of the lookahead token, if any, from a semantic action. This location is stored in `yylloc'. *Note Special Features for Use in Actions: Action Features.  File: bison.info, Node: Location Default Action, Prev: Actions and Locations, Up: Locations 3.6.3 Default Action for Locations ---------------------------------- Actually, actions are not the best place to compute locations. Since locations are much more general than semantic values, there is room in the output parser to redefine the default action to take for each rule. The `YYLLOC_DEFAULT' macro is invoked each time a rule is matched, before the associated action is run. It is also invoked while processing a syntax error, to compute the error's location. Before reporting an unresolvable syntactic ambiguity, a GLR parser invokes `YYLLOC_DEFAULT' recursively to compute the location of that ambiguity. Most of the time, this macro is general enough to suppress location dedicated code from semantic actions. The `YYLLOC_DEFAULT' macro takes three parameters. The first one is the location of the grouping (the result of the computation). When a rule is matched, the second parameter identifies locations of all right hand side elements of the rule being matched, and the third parameter is the size of the rule's right hand side. When a GLR parser reports an ambiguity, which of multiple candidate right hand sides it passes to `YYLLOC_DEFAULT' is undefined. When processing a syntax error, the second parameter identifies locations of the symbols that were discarded during error processing, and the third parameter is the number of discarded symbols. By default, `YYLLOC_DEFAULT' is defined this way: # define YYLLOC_DEFAULT(Current, Rhs, N) \ do \ if (N) \ { \ (Current).first_line = YYRHSLOC(Rhs, 1).first_line; \ (Current).first_column = YYRHSLOC(Rhs, 1).first_column; \ (Current).last_line = YYRHSLOC(Rhs, N).last_line; \ (Current).last_column = YYRHSLOC(Rhs, N).last_column; \ } \ else \ { \ (Current).first_line = (Current).last_line = \ YYRHSLOC(Rhs, 0).last_line; \ (Current).first_column = (Current).last_column = \ YYRHSLOC(Rhs, 0).last_column; \ } \ while (0) where `YYRHSLOC (rhs, k)' is the location of the Kth symbol in RHS when K is positive, and the location of the symbol just before the reduction when K and N are both zero. When defining `YYLLOC_DEFAULT', you should consider that: * All arguments are free of side-effects. However, only the first one (the result) should be modified by `YYLLOC_DEFAULT'. * For consistency with semantic actions, valid indexes within the right hand side range from 1 to N. When N is zero, only 0 is a valid index, and it refers to the symbol just before the reduction. During error processing N is always positive. * Your macro should parenthesize its arguments, if need be, since the actual arguments may not be surrounded by parentheses. Also, your macro should expand to something that can be used as a single statement when it is followed by a semicolon.  File: bison.info, Node: Declarations, Next: Multiple Parsers, Prev: Locations, Up: Grammar File 3.7 Bison Declarations ====================== The "Bison declarations" section of a Bison grammar defines the symbols used in formulating the grammar and the data types of semantic values. *Note Symbols::. All token type names (but not single-character literal tokens such as `'+'' and `'*'') must be declared. Nonterminal symbols must be declared if you need to specify which data type to use for the semantic value (*note More Than One Value Type: Multiple Types.). The first rule in the file also specifies the start symbol, by default. If you want some other symbol to be the start symbol, you must declare it explicitly (*note Languages and Context-Free Grammars: Language and Grammar.). * Menu: * Require Decl:: Requiring a Bison version. * Token Decl:: Declaring terminal symbols. * Precedence Decl:: Declaring terminals with precedence and associativity. * Union Decl:: Declaring the set of all semantic value types. * Type Decl:: Declaring the choice of type for a nonterminal symbol. * Initial Action Decl:: Code run before parsing starts. * Destructor Decl:: Declaring how symbols are freed. * Expect Decl:: Suppressing warnings about parsing conflicts. * Start Decl:: Specifying the start symbol. * Pure Decl:: Requesting a reentrant parser. * Push Decl:: Requesting a push parser. * Decl Summary:: Table of all Bison declarations.  File: bison.info, Node: Require Decl, Next: Token Decl, Up: Declarations 3.7.1 Require a Version of Bison -------------------------------- You may require the minimum version of Bison to process the grammar. If the requirement is not met, `bison' exits with an error (exit status 63). %require "VERSION"  File: bison.info, Node: Token Decl, Next: Precedence Decl, Prev: Require Decl, Up: Declarations 3.7.2 Token Type Names ---------------------- The basic way to declare a token type name (terminal symbol) is as follows: %token NAME Bison will convert this into a `#define' directive in the parser, so that the function `yylex' (if it is in this file) can use the name NAME to stand for this token type's code. Alternatively, you can use `%left', `%right', or `%nonassoc' instead of `%token', if you wish to specify associativity and precedence. *Note Operator Precedence: Precedence Decl. You can explicitly specify the numeric code for a token type by appending a nonnegative decimal or hexadecimal integer value in the field immediately following the token name: %token NUM 300 %token XNUM 0x12d // a GNU extension It is generally best, however, to let Bison choose the numeric codes for all token types. Bison will automatically select codes that don't conflict with each other or with normal characters. In the event that the stack type is a union, you must augment the `%token' or other token declaration to include the data type alternative delimited by angle-brackets (*note More Than One Value Type: Multiple Types.). For example: %union { /* define stack type */ double val; symrec *tptr; } %token NUM /* define token NUM and its type */ You can associate a literal string token with a token type name by writing the literal string at the end of a `%token' declaration which declares the name. For example: %token arrow "=>" For example, a grammar for the C language might specify these names with equivalent literal string tokens: %token OR "||" %token LE 134 "<=" %left OR "<=" Once you equate the literal string and the token name, you can use them interchangeably in further declarations or the grammar rules. The `yylex' function can use the token name or the literal string to obtain the token type code number (*note Calling Convention::). Syntax error messages passed to `yyerror' from the parser will reference the literal string instead of the token name. The token numbered as 0 corresponds to end of file; the following line allows for nicer error messages referring to "end of file" instead of "$end": %token END 0 "end of file"  File: bison.info, Node: Precedence Decl, Next: Union Decl, Prev: Token Decl, Up: Declarations 3.7.3 Operator Precedence ------------------------- Use the `%left', `%right' or `%nonassoc' declaration to declare a token and specify its precedence and associativity, all at once. These are called "precedence declarations". *Note Operator Precedence: Precedence, for general information on operator precedence. The syntax of a precedence declaration is nearly the same as that of `%token': either %left SYMBOLS... or %left SYMBOLS... And indeed any of these declarations serves the purposes of `%token'. But in addition, they specify the associativity and relative precedence for all the SYMBOLS: * The associativity of an operator OP determines how repeated uses of the operator nest: whether `X OP Y OP Z' is parsed by grouping X with Y first or by grouping Y with Z first. `%left' specifies left-associativity (grouping X with Y first) and `%right' specifies right-associativity (grouping Y with Z first). `%nonassoc' specifies no associativity, which means that `X OP Y OP Z' is considered a syntax error. * The precedence of an operator determines how it nests with other operators. All the tokens declared in a single precedence declaration have equal precedence and nest together according to their associativity. When two tokens declared in different precedence declarations associate, the one declared later has the higher precedence and is grouped first. For backward compatibility, there is a confusing difference between the argument lists of `%token' and precedence declarations. Only a `%token' can associate a literal string with a token type name. A precedence declaration always interprets a literal string as a reference to a separate token. For example: %left OR "<=" // Does not declare an alias. %left OR 134 "<=" 135 // Declares 134 for OR and 135 for "<=".  File: bison.info, Node: Union Decl, Next: Type Decl, Prev: Precedence Decl, Up: Declarations 3.7.4 The Collection of Value Types ----------------------------------- The `%union' declaration specifies the entire collection of possible data types for semantic values. The keyword `%union' is followed by braced code containing the same thing that goes inside a `union' in C. For example: %union { double val; symrec *tptr; } This says that the two alternative types are `double' and `symrec *'. They are given names `val' and `tptr'; these names are used in the `%token' and `%type' declarations to pick one of the types for a terminal or nonterminal symbol (*note Nonterminal Symbols: Type Decl.). As an extension to POSIX, a tag is allowed after the `union'. For example: %union value { double val; symrec *tptr; } specifies the union tag `value', so the corresponding C type is `union value'. If you do not specify a tag, it defaults to `YYSTYPE'. As another extension to POSIX, you may specify multiple `%union' declarations; their contents are concatenated. However, only the first `%union' declaration can specify a tag. Note that, unlike making a `union' declaration in C, you need not write a semicolon after the closing brace. Instead of `%union', you can define and use your own union type `YYSTYPE' if your grammar contains at least one `' tag. For example, you can put the following into a header file `parser.h': union YYSTYPE { double val; symrec *tptr; }; typedef union YYSTYPE YYSTYPE; and then your grammar can use the following instead of `%union': %{ #include "parser.h" %} %type expr %token ID  File: bison.info, Node: Type Decl, Next: Initial Action Decl, Prev: Union Decl, Up: Declarations 3.7.5 Nonterminal Symbols ------------------------- When you use `%union' to specify multiple value types, you must declare the value type of each nonterminal symbol for which values are used. This is done with a `%type' declaration, like this: %type NONTERMINAL... Here NONTERMINAL is the name of a nonterminal symbol, and TYPE is the name given in the `%union' to the alternative that you want (*note The Collection of Value Types: Union Decl.). You can give any number of nonterminal symbols in the same `%type' declaration, if they have the same value type. Use spaces to separate the symbol names. You can also declare the value type of a terminal symbol. To do this, use the same `' construction in a declaration for the terminal symbol. All kinds of token declarations allow `'.  File: bison.info, Node: Initial Action Decl, Next: Destructor Decl, Prev: Type Decl, Up: Declarations 3.7.6 Performing Actions before Parsing --------------------------------------- Sometimes your parser needs to perform some initializations before parsing. The `%initial-action' directive allows for such arbitrary code. -- Directive: %initial-action { CODE } Declare that the braced CODE must be invoked before parsing each time `yyparse' is called. The CODE may use `$$' and `@$' -- initial value and location of the lookahead -- and the `%parse-param'. For instance, if your locations use a file name, you may use %parse-param { char const *file_name }; %initial-action { @$.initialize (file_name); };  File: bison.info, Node: Destructor Decl, Next: Expect Decl, Prev: Initial Action Decl, Up: Declarations 3.7.7 Freeing Discarded Symbols ------------------------------- During error recovery (*note Error Recovery::), symbols already pushed on the stack and tokens coming from the rest of the file are discarded until the parser falls on its feet. If the parser runs out of memory, or if it returns via `YYABORT' or `YYACCEPT', all the symbols on the stack must be discarded. Even if the parser succeeds, it must discard the start symbol. When discarded symbols convey heap based information, this memory is lost. While this behavior can be tolerable for batch parsers, such as in traditional compilers, it is unacceptable for programs like shells or protocol implementations that may parse and execute indefinitely. The `%destructor' directive defines code that is called when a symbol is automatically discarded. -- Directive: %destructor { CODE } SYMBOLS Invoke the braced CODE whenever the parser discards one of the SYMBOLS. Within CODE, `$$' designates the semantic value associated with the discarded symbol, and `@$' designates its location. The additional parser parameters are also available (*note The Parser Function `yyparse': Parser Function.). When a symbol is listed among SYMBOLS, its `%destructor' is called a per-symbol `%destructor'. You may also define a per-type `%destructor' by listing a semantic type tag among SYMBOLS. In that case, the parser will invoke this CODE whenever it discards any grammar symbol that has that semantic type tag unless that symbol has its own per-symbol `%destructor'. Finally, you can define two different kinds of default `%destructor's. (These default forms are experimental. More user feedback will help to determine whether they should become permanent features.) You can place each of `<*>' and `<>' in the SYMBOLS list of exactly one `%destructor' declaration in your grammar file. The parser will invoke the CODE associated with one of these whenever it discards any user-defined grammar symbol that has no per-symbol and no per-type `%destructor'. The parser uses the CODE for `<*>' in the case of such a grammar symbol for which you have formally declared a semantic type tag (`%type' counts as such a declaration, but `$$' does not). The parser uses the CODE for `<>' in the case of such a grammar symbol that has no declared semantic type tag. For example: %union { char *string; } %token STRING1 %token STRING2 %type string1 %type string2 %union { char character; } %token CHR %type chr %token TAGLESS %destructor { } %destructor { free ($$); } <*> %destructor { free ($$); printf ("%d", @$.first_line); } STRING1 string1 %destructor { printf ("Discarding tagless symbol.\n"); } <> guarantees that, when the parser discards any user-defined symbol that has a semantic type tag other than `', it passes its semantic value to `free' by default. However, when the parser discards a `STRING1' or a `string1', it also prints its line number to `stdout'. It performs only the second `%destructor' in this case, so it invokes `free' only once. Finally, the parser merely prints a message whenever it discards any symbol, such as `TAGLESS', that has no semantic type tag. A Bison-generated parser invokes the default `%destructor's only for user-defined as opposed to Bison-defined symbols. For example, the parser will not invoke either kind of default `%destructor' for the special Bison-defined symbols `$accept', `$undefined', or `$end' (*note Bison Symbols: Table of Symbols.), none of which you can reference in your grammar. It also will not invoke either for the `error' token (*note error: Table of Symbols.), which is always defined by Bison regardless of whether you reference it in your grammar. However, it may invoke one of them for the end token (token 0) if you redefine it from `$end' to, for example, `END': %token END 0 Finally, Bison will never invoke a `%destructor' for an unreferenced mid-rule semantic value (*note Actions in Mid-Rule: Mid-Rule Actions.). That is, Bison does not consider a mid-rule to have a semantic value if you do not reference `$$' in the mid-rule's action or `$N' (where N is the RHS symbol position of the mid-rule) in any later action in that rule. However, if you do reference either, the Bison-generated parser will invoke the `<>' `%destructor' whenever it discards the mid-rule symbol. "Discarded symbols" are the following: * stacked symbols popped during the first phase of error recovery, * incoming terminals during the second phase of error recovery, * the current lookahead and the entire stack (except the current right-hand side symbols) when the parser returns immediately, and * the start symbol, when the parser succeeds. The parser can "return immediately" because of an explicit call to `YYABORT' or `YYACCEPT', or failed error recovery, or memory exhaustion. Right-hand side symbols of a rule that explicitly triggers a syntax error via `YYERROR' are not discarded automatically. As a rule of thumb, destructors are invoked only when user actions cannot manage the memory.  File: bison.info, Node: Expect Decl, Next: Start Decl, Prev: Destructor Decl, Up: Declarations 3.7.8 Suppressing Conflict Warnings ----------------------------------- Bison normally warns if there are any conflicts in the grammar (*note Shift/Reduce Conflicts: Shift/Reduce.), but most real grammars have harmless shift/reduce conflicts which are resolved in a predictable way and would be difficult to eliminate. It is desirable to suppress the warning about these conflicts unless the number of conflicts changes. You can do this with the `%expect' declaration. The declaration looks like this: %expect N Here N is a decimal integer. The declaration says there should be N shift/reduce conflicts and no reduce/reduce conflicts. Bison reports an error if the number of shift/reduce conflicts differs from N, or if there are any reduce/reduce conflicts. For normal LALR(1) parsers, reduce/reduce conflicts are more serious, and should be eliminated entirely. Bison will always report reduce/reduce conflicts for these parsers. With GLR parsers, however, both kinds of conflicts are routine; otherwise, there would be no need to use GLR parsing. Therefore, it is also possible to specify an expected number of reduce/reduce conflicts in GLR parsers, using the declaration: %expect-rr N In general, using `%expect' involves these steps: * Compile your grammar without `%expect'. Use the `-v' option to get a verbose list of where the conflicts occur. Bison will also print the number of conflicts. * Check each of the conflicts to make sure that Bison's default resolution is what you really want. If not, rewrite the grammar and go back to the beginning. * Add an `%expect' declaration, copying the number N from the number which Bison printed. With GLR parsers, add an `%expect-rr' declaration as well. Now Bison will warn you if you introduce an unexpected conflict, but will keep silent otherwise.  File: bison.info, Node: Start Decl, Next: Pure Decl, Prev: Expect Decl, Up: Declarations 3.7.9 The Start-Symbol ---------------------- Bison assumes by default that the start symbol for the grammar is the first nonterminal specified in the grammar specification section. The programmer may override this restriction with the `%start' declaration as follows: %start SYMBOL  File: bison.info, Node: Pure Decl, Next: Push Decl, Prev: Start Decl, Up: Declarations 3.7.10 A Pure (Reentrant) Parser -------------------------------- A "reentrant" program is one which does not alter in the course of execution; in other words, it consists entirely of "pure" (read-only) code. Reentrancy is important whenever asynchronous execution is possible; for example, a nonreentrant program may not be safe to call from a signal handler. In systems with multiple threads of control, a nonreentrant program must be called only within interlocks. Normally, Bison generates a parser which is not reentrant. This is suitable for most uses, and it permits compatibility with Yacc. (The standard Yacc interfaces are inherently nonreentrant, because they use statically allocated variables for communication with `yylex', including `yylval' and `yylloc'.) Alternatively, you can generate a pure, reentrant parser. The Bison declaration `%define api.pure' says that you want the parser to be reentrant. It looks like this: %define api.pure The result is that the communication variables `yylval' and `yylloc' become local variables in `yyparse', and a different calling convention is used for the lexical analyzer function `yylex'. *Note Calling Conventions for Pure Parsers: Pure Calling, for the details of this. The variable `yynerrs' becomes local in `yyparse' in pull mode but it becomes a member of yypstate in push mode. (*note The Error Reporting Function `yyerror': Error Reporting.). The convention for calling `yyparse' itself is unchanged. Whether the parser is pure has nothing to do with the grammar rules. You can generate either a pure parser or a nonreentrant parser from any valid grammar.  File: bison.info, Node: Push Decl, Next: Decl Summary, Prev: Pure Decl, Up: Declarations 3.7.11 A Push Parser -------------------- (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) A pull parser is called once and it takes control until all its input is completely parsed. A push parser, on the other hand, is called each time a new token is made available. A push parser is typically useful when the parser is part of a main event loop in the client's application. This is typically a requirement of a GUI, when the main event loop needs to be triggered within a certain time period. Normally, Bison generates a pull parser. The following Bison declaration says that you want the parser to be a push parser (*note %define api.push_pull: Decl Summary.): %define api.push_pull "push" In almost all cases, you want to ensure that your push parser is also a pure parser (*note A Pure (Reentrant) Parser: Pure Decl.). The only time you should create an impure push parser is to have backwards compatibility with the impure Yacc pull mode interface. Unless you know what you are doing, your declarations should look like this: %define api.pure %define api.push_pull "push" There is a major notable functional difference between the pure push parser and the impure push parser. It is acceptable for a pure push parser to have many parser instances, of the same type of parser, in memory at the same time. An impure push parser should only use one parser at a time. When a push parser is selected, Bison will generate some new symbols in the generated parser. `yypstate' is a structure that the generated parser uses to store the parser's state. `yypstate_new' is the function that will create a new parser instance. `yypstate_delete' will free the resources associated with the corresponding parser instance. Finally, `yypush_parse' is the function that should be called whenever a token is available to provide the parser. A trivial example of using a pure push parser would look like this: int status; yypstate *ps = yypstate_new (); do { status = yypush_parse (ps, yylex (), NULL); } while (status == YYPUSH_MORE); yypstate_delete (ps); If the user decided to use an impure push parser, a few things about the generated parser will change. The `yychar' variable becomes a global variable instead of a variable in the `yypush_parse' function. For this reason, the signature of the `yypush_parse' function is changed to remove the token as a parameter. A nonreentrant push parser example would thus look like this: extern int yychar; int status; yypstate *ps = yypstate_new (); do { yychar = yylex (); status = yypush_parse (ps); } while (status == YYPUSH_MORE); yypstate_delete (ps); That's it. Notice the next token is put into the global variable `yychar' for use by the next invocation of the `yypush_parse' function. Bison also supports both the push parser interface along with the pull parser interface in the same generated parser. In order to get this functionality, you should replace the `%define api.push_pull "push"' declaration with the `%define api.push_pull "both"' declaration. Doing this will create all of the symbols mentioned earlier along with the two extra symbols, `yyparse' and `yypull_parse'. `yyparse' can be used exactly as it normally would be used. However, the user should note that it is implemented in the generated parser by calling `yypull_parse'. This makes the `yyparse' function that is generated with the `%define api.push_pull "both"' declaration slower than the normal `yyparse' function. If the user calls the `yypull_parse' function it will parse the rest of the input stream. It is possible to `yypush_parse' tokens to select a subgrammar and then `yypull_parse' the rest of the input stream. If you would like to switch back and forth between between parsing styles, you would have to write your own `yypull_parse' function that knows when to quit looking for input. An example of using the `yypull_parse' function would look like this: yypstate *ps = yypstate_new (); yypull_parse (ps); /* Will call the lexer */ yypstate_delete (ps); Adding the `%define api.pure' declaration does exactly the same thing to the generated parser with `%define api.push_pull "both"' as it did for `%define api.push_pull "push"'.  File: bison.info, Node: Decl Summary, Prev: Push Decl, Up: Declarations 3.7.12 Bison Declaration Summary -------------------------------- Here is a summary of the declarations used to define a grammar: -- Directive: %union Declare the collection of data types that semantic values may have (*note The Collection of Value Types: Union Decl.). -- Directive: %token Declare a terminal symbol (token type name) with no precedence or associativity specified (*note Token Type Names: Token Decl.). -- Directive: %right Declare a terminal symbol (token type name) that is right-associative (*note Operator Precedence: Precedence Decl.). -- Directive: %left Declare a terminal symbol (token type name) that is left-associative (*note Operator Precedence: Precedence Decl.). -- Directive: %nonassoc Declare a terminal symbol (token type name) that is nonassociative (*note Operator Precedence: Precedence Decl.). Using it in a way that would be associative is a syntax error. -- Directive: %type Declare the type of semantic values for a nonterminal symbol (*note Nonterminal Symbols: Type Decl.). -- Directive: %start Specify the grammar's start symbol (*note The Start-Symbol: Start Decl.). -- Directive: %expect Declare the expected number of shift-reduce conflicts (*note Suppressing Conflict Warnings: Expect Decl.). In order to change the behavior of `bison', use the following directives: -- Directive: %code {CODE} This is the unqualified form of the `%code' directive. It inserts CODE verbatim at a language-dependent default location in the output(1). For C/C++, the default location is the parser source code file after the usual contents of the parser header file. Thus, `%code' replaces the traditional Yacc prologue, `%{CODE%}', for most purposes. For a detailed discussion, see *note Prologue Alternatives::. For Java, the default location is inside the parser class. -- Directive: %code QUALIFIER {CODE} This is the qualified form of the `%code' directive. If you need to specify location-sensitive verbatim CODE that does not belong at the default location selected by the unqualified `%code' form, use this form instead. QUALIFIER identifies the purpose of CODE and thus the location(s) where Bison should generate it. Not all values of QUALIFIER are available for all target languages: * requires * Language(s): C, C++ * Purpose: This is the best place to write dependency code required for `YYSTYPE' and `YYLTYPE'. In other words, it's the best place to define types referenced in `%union' directives, and it's the best place to override Bison's default `YYSTYPE' and `YYLTYPE' definitions. * Location(s): The parser header file and the parser source code file before the Bison-generated `YYSTYPE' and `YYLTYPE' definitions. * provides * Language(s): C, C++ * Purpose: This is the best place to write additional definitions and declarations that should be provided to other modules. * Location(s): The parser header file and the parser source code file after the Bison-generated `YYSTYPE', `YYLTYPE', and token definitions. * top * Language(s): C, C++ * Purpose: The unqualified `%code' or `%code requires' should usually be more appropriate than `%code top'. However, occasionally it is necessary to insert code much nearer the top of the parser source code file. For example: %code top { #define _GNU_SOURCE #include } * Location(s): Near the top of the parser source code file. * imports * Language(s): Java * Purpose: This is the best place to write Java import directives. * Location(s): The parser Java file after any Java package directive and before any class definitions. For a detailed discussion of how to use `%code' in place of the traditional Yacc prologue for C/C++, see *note Prologue Alternatives::. -- Directive: %debug In the parser file, define the macro `YYDEBUG' to 1 if it is not already defined, so that the debugging facilities are compiled. *Note Tracing Your Parser: Tracing. -- Directive: %define VARIABLE -- Directive: %define VARIABLE "VALUE" Define a variable to adjust Bison's behavior. The possible choices for VARIABLE, as well as their meanings, depend on the selected target language and/or the parser skeleton (*note %language: Decl Summary, *note %skeleton: Decl Summary.). Bison will warn if a VARIABLE is defined multiple times. Omitting `"VALUE"' is always equivalent to specifying it as `""'. Some VARIABLEs may be used as Booleans. In this case, Bison will complain if the variable definition does not meet one of the following four conditions: 1. `"VALUE"' is `"true"' 2. `"VALUE"' is omitted (or is `""'). This is equivalent to `"true"'. 3. `"VALUE"' is `"false"'. 4. VARIABLE is never defined. In this case, Bison selects a default value, which may depend on the selected target language and/or parser skeleton. Some of the accepted VARIABLEs are: * api.pure * Language(s): C * Purpose: Request a pure (reentrant) parser program. *Note A Pure (Reentrant) Parser: Pure Decl. * Accepted Values: Boolean * Default Value: `"false"' * api.push_pull * Language(s): C (LALR(1) only) * Purpose: Requests a pull parser, a push parser, or both. *Note A Push Parser: Push Decl. (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) * Accepted Values: `"pull"', `"push"', `"both"' * Default Value: `"pull"' * lr.keep_unreachable_states * Language(s): all * Purpose: Requests that Bison allow unreachable parser states to remain in the parser tables. Bison considers a state to be unreachable if there exists no sequence of transitions from the start state to that state. A state can become unreachable during conflict resolution if Bison disables a shift action leading to it from a predecessor state. Keeping unreachable states is sometimes useful for analysis purposes, but they are useless in the generated parser. * Accepted Values: Boolean * Default Value: `"false"' * Caveats: * Unreachable states may contain conflicts and may use rules not used in any other state. Thus, keeping unreachable states may induce warnings that are irrelevant to your parser's behavior, and it may eliminate warnings that are relevant. Of course, the change in warnings may actually be relevant to a parser table analysis that wants to keep unreachable states, so this behavior will likely remain in future Bison releases. * While Bison is able to remove unreachable states, it is not guaranteed to remove other kinds of useless states. Specifically, when Bison disables reduce actions during conflict resolution, some goto actions may become useless, and thus some additional states may become useless. If Bison were to compute which goto actions were useless and then disable those actions, it could identify such states as unreachable and then remove those states. However, Bison does not compute which goto actions are useless. * namespace * Languages(s): C++ * Purpose: Specifies the namespace for the parser class. For example, if you specify: %define namespace "foo::bar" Bison uses `foo::bar' verbatim in references such as: foo::bar::parser::semantic_type However, to open a namespace, Bison removes any leading `::' and then splits on any remaining occurrences: namespace foo { namespace bar { class position; class location; } } * Accepted Values: Any absolute or relative C++ namespace reference without a trailing `"::"'. For example, `"foo"' or `"::foo::bar"'. * Default Value: The value specified by `%name-prefix', which defaults to `yy'. This usage of `%name-prefix' is for backward compatibility and can be confusing since `%name-prefix' also specifies the textual prefix for the lexical analyzer function. Thus, if you specify `%name-prefix', it is best to also specify `%define namespace' so that `%name-prefix' _only_ affects the lexical analyzer function. For example, if you specify: %define namespace "foo" %name-prefix "bar::" The parser namespace is `foo' and `yylex' is referenced as `bar::lex'. -- Directive: %defines Write a header file containing macro definitions for the token type names defined in the grammar as well as a few other declarations. If the parser output file is named `NAME.c' then this file is named `NAME.h'. For C parsers, the output header declares `YYSTYPE' unless `YYSTYPE' is already defined as a macro or you have used a `' tag without using `%union'. Therefore, if you are using a `%union' (*note More Than One Value Type: Multiple Types.) with components that require other definitions, or if you have defined a `YYSTYPE' macro or type definition (*note Data Types of Semantic Values: Value Type.), you need to arrange for these definitions to be propagated to all modules, e.g., by putting them in a prerequisite header that is included both by your parser and by any other module that needs `YYSTYPE'. Unless your parser is pure, the output header declares `yylval' as an external variable. *Note A Pure (Reentrant) Parser: Pure Decl. If you have also used locations, the output header declares `YYLTYPE' and `yylloc' using a protocol similar to that of the `YYSTYPE' macro and `yylval'. *Note Tracking Locations: Locations. This output file is normally essential if you wish to put the definition of `yylex' in a separate source file, because `yylex' typically needs to be able to refer to the above-mentioned declarations and to the token type codes. *Note Semantic Values of Tokens: Token Values. If you have declared `%code requires' or `%code provides', the output header also contains their code. *Note %code: Decl Summary. -- Directive: %defines DEFINES-FILE Same as above, but save in the file DEFINES-FILE. -- Directive: %destructor Specify how the parser should reclaim the memory associated to discarded symbols. *Note Freeing Discarded Symbols: Destructor Decl. -- Directive: %file-prefix "PREFIX" Specify a prefix to use for all Bison output file names. The names are chosen as if the input file were named `PREFIX.y'. -- Directive: %language "LANGUAGE" Specify the programming language for the generated parser. Currently supported languages include C, C++, and Java. LANGUAGE is case-insensitive. This directive is experimental and its effect may be modified in future releases. -- Directive: %locations Generate the code processing the locations (*note Special Features for Use in Actions: Action Features.). This mode is enabled as soon as the grammar uses the special `@N' tokens, but if your grammar does not use it, using `%locations' allows for more accurate syntax error messages. -- Directive: %name-prefix "PREFIX" Rename the external symbols used in the parser so that they start with PREFIX instead of `yy'. The precise list of symbols renamed in C parsers is `yyparse', `yylex', `yyerror', `yynerrs', `yylval', `yychar', `yydebug', and (if locations are used) `yylloc'. If you use a push parser, `yypush_parse', `yypull_parse', `yypstate', `yypstate_new' and `yypstate_delete' will also be renamed. For example, if you use `%name-prefix "c_"', the names become `c_parse', `c_lex', and so on. For C++ parsers, see the `%define namespace' documentation in this section. *Note Multiple Parsers in the Same Program: Multiple Parsers. -- Directive: %no-lines Don't generate any `#line' preprocessor commands in the parser file. Ordinarily Bison writes these commands in the parser file so that the C compiler and debuggers will associate errors and object code with your source file (the grammar file). This directive causes them to associate errors with the parser file, treating it an independent source file in its own right. -- Directive: %output "FILE" Specify FILE for the parser file. -- Directive: %pure-parser Deprecated version of `%define api.pure' (*note %define: Decl Summary.), for which Bison is more careful to warn about unreasonable usage. -- Directive: %require "VERSION" Require version VERSION or higher of Bison. *Note Require a Version of Bison: Require Decl. -- Directive: %skeleton "FILE" Specify the skeleton to use. If FILE does not contain a `/', FILE is the name of a skeleton file in the Bison installation directory. If it does, FILE is an absolute file name or a file name relative to the directory of the grammar file. This is similar to how most shells resolve commands. -- Directive: %token-table Generate an array of token names in the parser file. The name of the array is `yytname'; `yytname[I]' is the name of the token whose internal Bison token code number is I. The first three elements of `yytname' correspond to the predefined tokens `"$end"', `"error"', and `"$undefined"'; after these come the symbols defined in the grammar file. The name in the table includes all the characters needed to represent the token in Bison. For single-character literals and literal strings, this includes the surrounding quoting characters and any escape sequences. For example, the Bison single-character literal `'+'' corresponds to a three-character name, represented in C as `"'+'"'; and the Bison two-character literal string `"\\/"' corresponds to a five-character name, represented in C as `"\"\\\\/\""'. When you specify `%token-table', Bison also generates macro definitions for macros `YYNTOKENS', `YYNNTS', and `YYNRULES', and `YYNSTATES': `YYNTOKENS' The highest token number, plus one. `YYNNTS' The number of nonterminal symbols. `YYNRULES' The number of grammar rules, `YYNSTATES' The number of parser states (*note Parser States::). -- Directive: %verbose Write an extra output file containing verbose descriptions of the parser states and what is done for each type of lookahead token in that state. *Note Understanding Your Parser: Understanding, for more information. -- Directive: %yacc Pretend the option `--yacc' was given, i.e., imitate Yacc, including its naming conventions. *Note Bison Options::, for more. ---------- Footnotes ---------- (1) The default location is actually skeleton-dependent; writers of non-standard skeletons however should choose the default location consistently with the behavior of the standard Bison skeletons.  File: bison.info, Node: Multiple Parsers, Prev: Declarations, Up: Grammar File 3.8 Multiple Parsers in the Same Program ======================================== Most programs that use Bison parse only one language and therefore contain only one Bison parser. But what if you want to parse more than one language with the same program? Then you need to avoid a name conflict between different definitions of `yyparse', `yylval', and so on. The easy way to do this is to use the option `-p PREFIX' (*note Invoking Bison: Invocation.). This renames the interface functions and variables of the Bison parser to start with PREFIX instead of `yy'. You can use this to give each parser distinct names that do not conflict. The precise list of symbols renamed is `yyparse', `yylex', `yyerror', `yynerrs', `yylval', `yylloc', `yychar' and `yydebug'. If you use a push parser, `yypush_parse', `yypull_parse', `yypstate', `yypstate_new' and `yypstate_delete' will also be renamed. For example, if you use `-p c', the names become `cparse', `clex', and so on. *All the other variables and macros associated with Bison are not renamed.* These others are not global; there is no conflict if the same name is used in different parsers. For example, `YYSTYPE' is not renamed, but defining this in different ways in different parsers causes no trouble (*note Data Types of Semantic Values: Value Type.). The `-p' option works by adding macro definitions to the beginning of the parser source file, defining `yyparse' as `PREFIXparse', and so on. This effectively substitutes one name for the other in the entire parser file.  File: bison.info, Node: Interface, Next: Algorithm, Prev: Grammar File, Up: Top 4 Parser C-Language Interface ***************************** The Bison parser is actually a C function named `yyparse'. Here we describe the interface conventions of `yyparse' and the other functions that it needs to use. Keep in mind that the parser uses many C identifiers starting with `yy' and `YY' for internal purposes. If you use such an identifier (aside from those in this manual) in an action or in epilogue in the grammar file, you are likely to run into trouble. * Menu: * Parser Function:: How to call `yyparse' and what it returns. * Push Parser Function:: How to call `yypush_parse' and what it returns. * Pull Parser Function:: How to call `yypull_parse' and what it returns. * Parser Create Function:: How to call `yypstate_new' and what it returns. * Parser Delete Function:: How to call `yypstate_delete' and what it returns. * Lexical:: You must supply a function `yylex' which reads tokens. * Error Reporting:: You must supply a function `yyerror'. * Action Features:: Special features for use in actions. * Internationalization:: How to let the parser speak in the user's native language.  File: bison.info, Node: Parser Function, Next: Push Parser Function, Up: Interface 4.1 The Parser Function `yyparse' ================================= You call the function `yyparse' to cause parsing to occur. This function reads tokens, executes actions, and ultimately returns when it encounters end-of-input or an unrecoverable syntax error. You can also write an action which directs `yyparse' to return immediately without reading further. -- Function: int yyparse (void) The value returned by `yyparse' is 0 if parsing was successful (return is due to end-of-input). The value is 1 if parsing failed because of invalid input, i.e., input that contains a syntax error or that causes `YYABORT' to be invoked. The value is 2 if parsing failed due to memory exhaustion. In an action, you can cause immediate return from `yyparse' by using these macros: -- Macro: YYACCEPT Return immediately with value 0 (to report success). -- Macro: YYABORT Return immediately with value 1 (to report failure). If you use a reentrant parser, you can optionally pass additional parameter information to it in a reentrant way. To do so, use the declaration `%parse-param': -- Directive: %parse-param {ARGUMENT-DECLARATION} Declare that an argument declared by the braced-code ARGUMENT-DECLARATION is an additional `yyparse' argument. The ARGUMENT-DECLARATION is used when declaring functions or prototypes. The last identifier in ARGUMENT-DECLARATION must be the argument name. Here's an example. Write this in the parser: %parse-param {int *nastiness} %parse-param {int *randomness} Then call the parser like this: { int nastiness, randomness; ... /* Store proper data in `nastiness' and `randomness'. */ value = yyparse (&nastiness, &randomness); ... } In the grammar actions, use expressions like this to refer to the data: exp: ... { ...; *randomness += 1; ... }  File: bison.info, Node: Push Parser Function, Next: Pull Parser Function, Prev: Parser Function, Up: Interface 4.2 The Push Parser Function `yypush_parse' =========================================== (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) You call the function `yypush_parse' to parse a single token. This function is available if either the `%define api.push_pull "push"' or `%define api.push_pull "both"' declaration is used. *Note A Push Parser: Push Decl. -- Function: int yypush_parse (yypstate *yyps) The value returned by `yypush_parse' is the same as for yyparse with the following exception. `yypush_parse' will return YYPUSH_MORE if more input is required to finish parsing the grammar.  File: bison.info, Node: Pull Parser Function, Next: Parser Create Function, Prev: Push Parser Function, Up: Interface 4.3 The Pull Parser Function `yypull_parse' =========================================== (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) You call the function `yypull_parse' to parse the rest of the input stream. This function is available if the `%define api.push_pull "both"' declaration is used. *Note A Push Parser: Push Decl. -- Function: int yypull_parse (yypstate *yyps) The value returned by `yypull_parse' is the same as for `yyparse'.  File: bison.info, Node: Parser Create Function, Next: Parser Delete Function, Prev: Pull Parser Function, Up: Interface 4.4 The Parser Create Function `yystate_new' ============================================ (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) You call the function `yypstate_new' to create a new parser instance. This function is available if either the `%define api.push_pull "push"' or `%define api.push_pull "both"' declaration is used. *Note A Push Parser: Push Decl. -- Function: yypstate *yypstate_new (void) The function will return a valid parser instance if there was memory available or 0 if no memory was available. In impure mode, it will also return 0 if a parser instance is currently allocated.  File: bison.info, Node: Parser Delete Function, Next: Lexical, Prev: Parser Create Function, Up: Interface 4.5 The Parser Delete Function `yystate_delete' =============================================== (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) You call the function `yypstate_delete' to delete a parser instance. function is available if either the `%define api.push_pull "push"' or `%define api.push_pull "both"' declaration is used. *Note A Push Parser: Push Decl. -- Function: void yypstate_delete (yypstate *yyps) This function will reclaim the memory associated with a parser instance. After this call, you should no longer attempt to use the parser instance.  File: bison.info, Node: Lexical, Next: Error Reporting, Prev: Parser Delete Function, Up: Interface 4.6 The Lexical Analyzer Function `yylex' ========================================= The "lexical analyzer" function, `yylex', recognizes tokens from the input stream and returns them to the parser. Bison does not create this function automatically; you must write it so that `yyparse' can call it. The function is sometimes referred to as a lexical scanner. In simple programs, `yylex' is often defined at the end of the Bison grammar file. If `yylex' is defined in a separate source file, you need to arrange for the token-type macro definitions to be available there. To do this, use the `-d' option when you run Bison, so that it will write these macro definitions into a separate header file `NAME.tab.h' which you can include in the other source files that need it. *Note Invoking Bison: Invocation. * Menu: * Calling Convention:: How `yyparse' calls `yylex'. * Token Values:: How `yylex' must return the semantic value of the token it has read. * Token Locations:: How `yylex' must return the text location (line number, etc.) of the token, if the actions want that. * Pure Calling:: How the calling convention differs in a pure parser (*note A Pure (Reentrant) Parser: Pure Decl.).  File: bison.info, Node: Calling Convention, Next: Token Values, Up: Lexical 4.6.1 Calling Convention for `yylex' ------------------------------------ The value that `yylex' returns must be the positive numeric code for the type of token it has just found; a zero or negative value signifies end-of-input. When a token is referred to in the grammar rules by a name, that name in the parser file becomes a C macro whose definition is the proper numeric code for that token type. So `yylex' can use the name to indicate that type. *Note Symbols::. When a token is referred to in the grammar rules by a character literal, the numeric code for that character is also the code for the token type. So `yylex' can simply return that character code, possibly converted to `unsigned char' to avoid sign-extension. The null character must not be used this way, because its code is zero and that signifies end-of-input. Here is an example showing these things: int yylex (void) { ... if (c == EOF) /* Detect end-of-input. */ return 0; ... if (c == '+' || c == '-') return c; /* Assume token type for `+' is '+'. */ ... return INT; /* Return the type of the token. */ ... } This interface has been designed so that the output from the `lex' utility can be used without change as the definition of `yylex'. If the grammar uses literal string tokens, there are two ways that `yylex' can determine the token type codes for them: * If the grammar defines symbolic token names as aliases for the literal string tokens, `yylex' can use these symbolic names like all others. In this case, the use of the literal string tokens in the grammar file has no effect on `yylex'. * `yylex' can find the multicharacter token in the `yytname' table. The index of the token in the table is the token type's code. The name of a multicharacter token is recorded in `yytname' with a double-quote, the token's characters, and another double-quote. The token's characters are escaped as necessary to be suitable as input to Bison. Here's code for looking up a multicharacter token in `yytname', assuming that the characters of the token are stored in `token_buffer', and assuming that the token does not contain any characters like `"' that require escaping. for (i = 0; i < YYNTOKENS; i++) { if (yytname[i] != 0 && yytname[i][0] == '"' && ! strncmp (yytname[i] + 1, token_buffer, strlen (token_buffer)) && yytname[i][strlen (token_buffer) + 1] == '"' && yytname[i][strlen (token_buffer) + 2] == 0) break; } The `yytname' table is generated only if you use the `%token-table' declaration. *Note Decl Summary::.  File: bison.info, Node: Token Values, Next: Token Locations, Prev: Calling Convention, Up: Lexical 4.6.2 Semantic Values of Tokens ------------------------------- In an ordinary (nonreentrant) parser, the semantic value of the token must be stored into the global variable `yylval'. When you are using just one data type for semantic values, `yylval' has that type. Thus, if the type is `int' (the default), you might write this in `yylex': ... yylval = value; /* Put value onto Bison stack. */ return INT; /* Return the type of the token. */ ... When you are using multiple data types, `yylval''s type is a union made from the `%union' declaration (*note The Collection of Value Types: Union Decl.). So when you store a token's value, you must use the proper member of the union. If the `%union' declaration looks like this: %union { int intval; double val; symrec *tptr; } then the code in `yylex' might look like this: ... yylval.intval = value; /* Put value onto Bison stack. */ return INT; /* Return the type of the token. */ ...  File: bison.info, Node: Token Locations, Next: Pure Calling, Prev: Token Values, Up: Lexical 4.6.3 Textual Locations of Tokens --------------------------------- If you are using the `@N'-feature (*note Tracking Locations: Locations.) in actions to keep track of the textual locations of tokens and groupings, then you must provide this information in `yylex'. The function `yyparse' expects to find the textual location of a token just parsed in the global variable `yylloc'. So `yylex' must store the proper data in that variable. By default, the value of `yylloc' is a structure and you need only initialize the members that are going to be used by the actions. The four members are called `first_line', `first_column', `last_line' and `last_column'. Note that the use of this feature makes the parser noticeably slower. The data type of `yylloc' has the name `YYLTYPE'.  File: bison.info, Node: Pure Calling, Prev: Token Locations, Up: Lexical 4.6.4 Calling Conventions for Pure Parsers ------------------------------------------ When you use the Bison declaration `%define api.pure' to request a pure, reentrant parser, the global communication variables `yylval' and `yylloc' cannot be used. (*Note A Pure (Reentrant) Parser: Pure Decl.) In such parsers the two global variables are replaced by pointers passed as arguments to `yylex'. You must declare them as shown here, and pass the information back by storing it through those pointers. int yylex (YYSTYPE *lvalp, YYLTYPE *llocp) { ... *lvalp = value; /* Put value onto Bison stack. */ return INT; /* Return the type of the token. */ ... } If the grammar file does not use the `@' constructs to refer to textual locations, then the type `YYLTYPE' will not be defined. In this case, omit the second argument; `yylex' will be called with only one argument. If you wish to pass the additional parameter data to `yylex', use `%lex-param' just like `%parse-param' (*note Parser Function::). -- Directive: lex-param {ARGUMENT-DECLARATION} Declare that the braced-code ARGUMENT-DECLARATION is an additional `yylex' argument declaration. For instance: %parse-param {int *nastiness} %lex-param {int *nastiness} %parse-param {int *randomness} results in the following signature: int yylex (int *nastiness); int yyparse (int *nastiness, int *randomness); If `%define api.pure' is added: int yylex (YYSTYPE *lvalp, int *nastiness); int yyparse (int *nastiness, int *randomness); and finally, if both `%define api.pure' and `%locations' are used: int yylex (YYSTYPE *lvalp, YYLTYPE *llocp, int *nastiness); int yyparse (int *nastiness, int *randomness);  File: bison.info, Node: Error Reporting, Next: Action Features, Prev: Lexical, Up: Interface 4.7 The Error Reporting Function `yyerror' ========================================== The Bison parser detects a "syntax error" or "parse error" whenever it reads a token which cannot satisfy any syntax rule. An action in the grammar can also explicitly proclaim an error, using the macro `YYERROR' (*note Special Features for Use in Actions: Action Features.). The Bison parser expects to report the error by calling an error reporting function named `yyerror', which you must supply. It is called by `yyparse' whenever a syntax error is found, and it receives one argument. For a syntax error, the string is normally `"syntax error"'. If you invoke the directive `%error-verbose' in the Bison declarations section (*note The Bison Declarations Section: Bison Declarations.), then Bison provides a more verbose and specific error message string instead of just plain `"syntax error"'. The parser can detect one other kind of error: memory exhaustion. This can happen when the input contains constructions that are very deeply nested. It isn't likely you will encounter this, since the Bison parser normally extends its stack automatically up to a very large limit. But if memory is exhausted, `yyparse' calls `yyerror' in the usual fashion, except that the argument string is `"memory exhausted"'. In some cases diagnostics like `"syntax error"' are translated automatically from English to some other language before they are passed to `yyerror'. *Note Internationalization::. The following definition suffices in simple programs: void yyerror (char const *s) { fprintf (stderr, "%s\n", s); } After `yyerror' returns to `yyparse', the latter will attempt error recovery if you have written suitable error recovery grammar rules (*note Error Recovery::). If recovery is impossible, `yyparse' will immediately return 1. Obviously, in location tracking pure parsers, `yyerror' should have an access to the current location. This is indeed the case for the GLR parsers, but not for the Yacc parser, for historical reasons. I.e., if `%locations %define api.pure' is passed then the prototypes for `yyerror' are: void yyerror (char const *msg); /* Yacc parsers. */ void yyerror (YYLTYPE *locp, char const *msg); /* GLR parsers. */ If `%parse-param {int *nastiness}' is used, then: void yyerror (int *nastiness, char const *msg); /* Yacc parsers. */ void yyerror (int *nastiness, char const *msg); /* GLR parsers. */ Finally, GLR and Yacc parsers share the same `yyerror' calling convention for absolutely pure parsers, i.e., when the calling convention of `yylex' _and_ the calling convention of `%define api.pure' are pure. I.e.: /* Location tracking. */ %locations /* Pure yylex. */ %define api.pure %lex-param {int *nastiness} /* Pure yyparse. */ %parse-param {int *nastiness} %parse-param {int *randomness} results in the following signatures for all the parser kinds: int yylex (YYSTYPE *lvalp, YYLTYPE *llocp, int *nastiness); int yyparse (int *nastiness, int *randomness); void yyerror (YYLTYPE *locp, int *nastiness, int *randomness, char const *msg); The prototypes are only indications of how the code produced by Bison uses `yyerror'. Bison-generated code always ignores the returned value, so `yyerror' can return any type, including `void'. Also, `yyerror' can be a variadic function; that is why the message is always passed last. Traditionally `yyerror' returns an `int' that is always ignored, but this is purely for historical reasons, and `void' is preferable since it more accurately describes the return type for `yyerror'. The variable `yynerrs' contains the number of syntax errors reported so far. Normally this variable is global; but if you request a pure parser (*note A Pure (Reentrant) Parser: Pure Decl.) then it is a local variable which only the actions can access.  File: bison.info, Node: Action Features, Next: Internationalization, Prev: Error Reporting, Up: Interface 4.8 Special Features for Use in Actions ======================================= Here is a table of Bison constructs, variables and macros that are useful in actions. -- Variable: $$ Acts like a variable that contains the semantic value for the grouping made by the current rule. *Note Actions::. -- Variable: $N Acts like a variable that contains the semantic value for the Nth component of the current rule. *Note Actions::. -- Variable: $$ Like `$$' but specifies alternative TYPEALT in the union specified by the `%union' declaration. *Note Data Types of Values in Actions: Action Types. -- Variable: $N Like `$N' but specifies alternative TYPEALT in the union specified by the `%union' declaration. *Note Data Types of Values in Actions: Action Types. -- Macro: YYABORT; Return immediately from `yyparse', indicating failure. *Note The Parser Function `yyparse': Parser Function. -- Macro: YYACCEPT; Return immediately from `yyparse', indicating success. *Note The Parser Function `yyparse': Parser Function. -- Macro: YYBACKUP (TOKEN, VALUE); Unshift a token. This macro is allowed only for rules that reduce a single value, and only when there is no lookahead token. It is also disallowed in GLR parsers. It installs a lookahead token with token type TOKEN and semantic value VALUE; then it discards the value that was going to be reduced by this rule. If the macro is used when it is not valid, such as when there is a lookahead token already, then it reports a syntax error with a message `cannot back up' and performs ordinary error recovery. In either case, the rest of the action is not executed. -- Macro: YYEMPTY Value stored in `yychar' when there is no lookahead token. -- Macro: YYEOF Value stored in `yychar' when the lookahead is the end of the input stream. -- Macro: YYERROR; Cause an immediate syntax error. This statement initiates error recovery just as if the parser itself had detected an error; however, it does not call `yyerror', and does not print any message. If you want to print an error message, call `yyerror' explicitly before the `YYERROR;' statement. *Note Error Recovery::. -- Macro: YYRECOVERING The expression `YYRECOVERING ()' yields 1 when the parser is recovering from a syntax error, and 0 otherwise. *Note Error Recovery::. -- Variable: yychar Variable containing either the lookahead token, or `YYEOF' when the lookahead is the end of the input stream, or `YYEMPTY' when no lookahead has been performed so the next token is not yet known. Do not modify `yychar' in a deferred semantic action (*note GLR Semantic Actions::). *Note Lookahead Tokens: Lookahead. -- Macro: yyclearin; Discard the current lookahead token. This is useful primarily in error rules. Do not invoke `yyclearin' in a deferred semantic action (*note GLR Semantic Actions::). *Note Error Recovery::. -- Macro: yyerrok; Resume generating error messages immediately for subsequent syntax errors. This is useful primarily in error rules. *Note Error Recovery::. -- Variable: yylloc Variable containing the lookahead token location when `yychar' is not set to `YYEMPTY' or `YYEOF'. Do not modify `yylloc' in a deferred semantic action (*note GLR Semantic Actions::). *Note Actions and Locations: Actions and Locations. -- Variable: yylval Variable containing the lookahead token semantic value when `yychar' is not set to `YYEMPTY' or `YYEOF'. Do not modify `yylval' in a deferred semantic action (*note GLR Semantic Actions::). *Note Actions: Actions. -- Value: @$ Acts like a structure variable containing information on the textual location of the grouping made by the current rule. *Note Tracking Locations: Locations. -- Value: @N Acts like a structure variable containing information on the textual location of the Nth component of the current rule. *Note Tracking Locations: Locations.  File: bison.info, Node: Internationalization, Prev: Action Features, Up: Interface 4.9 Parser Internationalization =============================== A Bison-generated parser can print diagnostics, including error and tracing messages. By default, they appear in English. However, Bison also supports outputting diagnostics in the user's native language. To make this work, the user should set the usual environment variables. *Note The User's View: (gettext)Users. For example, the shell command `export LC_ALL=fr_CA.UTF-8' might set the user's locale to French Canadian using the UTF-8 encoding. The exact set of available locales depends on the user's installation. The maintainer of a package that uses a Bison-generated parser enables the internationalization of the parser's output through the following steps. Here we assume a package that uses GNU Autoconf and GNU Automake. 1. Into the directory containing the GNU Autoconf macros used by the package--often called `m4'--copy the `bison-i18n.m4' file installed by Bison under `share/aclocal/bison-i18n.m4' in Bison's installation directory. For example: cp /usr/local/share/aclocal/bison-i18n.m4 m4/bison-i18n.m4 2. In the top-level `configure.ac', after the `AM_GNU_GETTEXT' invocation, add an invocation of `BISON_I18N'. This macro is defined in the file `bison-i18n.m4' that you copied earlier. It causes `configure' to find the value of the `BISON_LOCALEDIR' variable, and it defines the source-language symbol `YYENABLE_NLS' to enable translations in the Bison-generated parser. 3. In the `main' function of your program, designate the directory containing Bison's runtime message catalog, through a call to `bindtextdomain' with domain name `bison-runtime'. For example: bindtextdomain ("bison-runtime", BISON_LOCALEDIR); Typically this appears after any other call `bindtextdomain (PACKAGE, LOCALEDIR)' that your package already has. Here we rely on `BISON_LOCALEDIR' to be defined as a string through the `Makefile'. 4. In the `Makefile.am' that controls the compilation of the `main' function, make `BISON_LOCALEDIR' available as a C preprocessor macro, either in `DEFS' or in `AM_CPPFLAGS'. For example: DEFS = @DEFS@ -DBISON_LOCALEDIR='"$(BISON_LOCALEDIR)"' or: AM_CPPFLAGS = -DBISON_LOCALEDIR='"$(BISON_LOCALEDIR)"' 5. Finally, invoke the command `autoreconf' to generate the build infrastructure.  File: bison.info, Node: Algorithm, Next: Error Recovery, Prev: Interface, Up: Top 5 The Bison Parser Algorithm **************************** As Bison reads tokens, it pushes them onto a stack along with their semantic values. The stack is called the "parser stack". Pushing a token is traditionally called "shifting". For example, suppose the infix calculator has read `1 + 5 *', with a `3' to come. The stack will have four elements, one for each token that was shifted. But the stack does not always have an element for each token read. When the last N tokens and groupings shifted match the components of a grammar rule, they can be combined according to that rule. This is called "reduction". Those tokens and groupings are replaced on the stack by a single grouping whose symbol is the result (left hand side) of that rule. Running the rule's action is part of the process of reduction, because this is what computes the semantic value of the resulting grouping. For example, if the infix calculator's parser stack contains this: 1 + 5 * 3 and the next input token is a newline character, then the last three elements can be reduced to 15 via the rule: expr: expr '*' expr; Then the stack contains just these three elements: 1 + 15 At this point, another reduction can be made, resulting in the single value 16. Then the newline token can be shifted. The parser tries, by shifts and reductions, to reduce the entire input down to a single grouping whose symbol is the grammar's start-symbol (*note Languages and Context-Free Grammars: Language and Grammar.). This kind of parser is known in the literature as a bottom-up parser. * Menu: * Lookahead:: Parser looks one token ahead when deciding what to do. * Shift/Reduce:: Conflicts: when either shifting or reduction is valid. * Precedence:: Operator precedence works by resolving conflicts. * Contextual Precedence:: When an operator's precedence depends on context. * Parser States:: The parser is a finite-state-machine with stack. * Reduce/Reduce:: When two rules are applicable in the same situation. * Mystery Conflicts:: Reduce/reduce conflicts that look unjustified. * Generalized LR Parsing:: Parsing arbitrary context-free grammars. * Memory Management:: What happens when memory is exhausted. How to avoid it.  File: bison.info, Node: Lookahead, Next: Shift/Reduce, Up: Algorithm 5.1 Lookahead Tokens ==================== The Bison parser does _not_ always reduce immediately as soon as the last N tokens and groupings match a rule. This is because such a simple strategy is inadequate to handle most languages. Instead, when a reduction is possible, the parser sometimes "looks ahead" at the next token in order to decide what to do. When a token is read, it is not immediately shifted; first it becomes the "lookahead token", which is not on the stack. Now the parser can perform one or more reductions of tokens and groupings on the stack, while the lookahead token remains off to the side. When no more reductions should take place, the lookahead token is shifted onto the stack. This does not mean that all possible reductions have been done; depending on the token type of the lookahead token, some rules may choose to delay their application. Here is a simple case where lookahead is needed. These three rules define expressions which contain binary addition operators and postfix unary factorial operators (`!'), and allow parentheses for grouping. expr: term '+' expr | term ; term: '(' expr ')' | term '!' | NUMBER ; Suppose that the tokens `1 + 2' have been read and shifted; what should be done? If the following token is `)', then the first three tokens must be reduced to form an `expr'. This is the only valid course, because shifting the `)' would produce a sequence of symbols `term ')'', and no rule allows this. If the following token is `!', then it must be shifted immediately so that `2 !' can be reduced to make a `term'. If instead the parser were to reduce before shifting, `1 + 2' would become an `expr'. It would then be impossible to shift the `!' because doing so would produce on the stack the sequence of symbols `expr '!''. No rule allows that sequence. The lookahead token is stored in the variable `yychar'. Its semantic value and location, if any, are stored in the variables `yylval' and `yylloc'. *Note Special Features for Use in Actions: Action Features.  File: bison.info, Node: Shift/Reduce, Next: Precedence, Prev: Lookahead, Up: Algorithm 5.2 Shift/Reduce Conflicts ========================== Suppose we are parsing a language which has if-then and if-then-else statements, with a pair of rules like this: if_stmt: IF expr THEN stmt | IF expr THEN stmt ELSE stmt ; Here we assume that `IF', `THEN' and `ELSE' are terminal symbols for specific keyword tokens. When the `ELSE' token is read and becomes the lookahead token, the contents of the stack (assuming the input is valid) are just right for reduction by the first rule. But it is also legitimate to shift the `ELSE', because that would lead to eventual reduction by the second rule. This situation, where either a shift or a reduction would be valid, is called a "shift/reduce conflict". Bison is designed to resolve these conflicts by choosing to shift, unless otherwise directed by operator precedence declarations. To see the reason for this, let's contrast it with the other alternative. Since the parser prefers to shift the `ELSE', the result is to attach the else-clause to the innermost if-statement, making these two inputs equivalent: if x then if y then win (); else lose; if x then do; if y then win (); else lose; end; But if the parser chose to reduce when possible rather than shift, the result would be to attach the else-clause to the outermost if-statement, making these two inputs equivalent: if x then if y then win (); else lose; if x then do; if y then win (); end; else lose; The conflict exists because the grammar as written is ambiguous: either parsing of the simple nested if-statement is legitimate. The established convention is that these ambiguities are resolved by attaching the else-clause to the innermost if-statement; this is what Bison accomplishes by choosing to shift rather than reduce. (It would ideally be cleaner to write an unambiguous grammar, but that is very hard to do in this case.) This particular ambiguity was first encountered in the specifications of Algol 60 and is called the "dangling `else'" ambiguity. To avoid warnings from Bison about predictable, legitimate shift/reduce conflicts, use the `%expect N' declaration. There will be no warning as long as the number of shift/reduce conflicts is exactly N. *Note Suppressing Conflict Warnings: Expect Decl. The definition of `if_stmt' above is solely to blame for the conflict, but the conflict does not actually appear without additional rules. Here is a complete Bison input file that actually manifests the conflict: %token IF THEN ELSE variable %% stmt: expr | if_stmt ; if_stmt: IF expr THEN stmt | IF expr THEN stmt ELSE stmt ; expr: variable ;  File: bison.info, Node: Precedence, Next: Contextual Precedence, Prev: Shift/Reduce, Up: Algorithm 5.3 Operator Precedence ======================= Another situation where shift/reduce conflicts appear is in arithmetic expressions. Here shifting is not always the preferred resolution; the Bison declarations for operator precedence allow you to specify when to shift and when to reduce. * Menu: * Why Precedence:: An example showing why precedence is needed. * Using Precedence:: How to specify precedence in Bison grammars. * Precedence Examples:: How these features are used in the previous example. * How Precedence:: How they work.  File: bison.info, Node: Why Precedence, Next: Using Precedence, Up: Precedence 5.3.1 When Precedence is Needed ------------------------------- Consider the following ambiguous grammar fragment (ambiguous because the input `1 - 2 * 3' can be parsed in two different ways): expr: expr '-' expr | expr '*' expr | expr '<' expr | '(' expr ')' ... ; Suppose the parser has seen the tokens `1', `-' and `2'; should it reduce them via the rule for the subtraction operator? It depends on the next token. Of course, if the next token is `)', we must reduce; shifting is invalid because no single rule can reduce the token sequence `- 2 )' or anything starting with that. But if the next token is `*' or `<', we have a choice: either shifting or reduction would allow the parse to complete, but with different results. To decide which one Bison should do, we must consider the results. If the next operator token OP is shifted, then it must be reduced first in order to permit another opportunity to reduce the difference. The result is (in effect) `1 - (2 OP 3)'. On the other hand, if the subtraction is reduced before shifting OP, the result is `(1 - 2) OP 3'. Clearly, then, the choice of shift or reduce should depend on the relative precedence of the operators `-' and OP: `*' should be shifted first, but not `<'. What about input such as `1 - 2 - 5'; should this be `(1 - 2) - 5' or should it be `1 - (2 - 5)'? For most operators we prefer the former, which is called "left association". The latter alternative, "right association", is desirable for assignment operators. The choice of left or right association is a matter of whether the parser chooses to shift or reduce when the stack contains `1 - 2' and the lookahead token is `-': shifting makes right-associativity.  File: bison.info, Node: Using Precedence, Next: Precedence Examples, Prev: Why Precedence, Up: Precedence 5.3.2 Specifying Operator Precedence ------------------------------------ Bison allows you to specify these choices with the operator precedence declarations `%left' and `%right'. Each such declaration contains a list of tokens, which are operators whose precedence and associativity is being declared. The `%left' declaration makes all those operators left-associative and the `%right' declaration makes them right-associative. A third alternative is `%nonassoc', which declares that it is a syntax error to find the same operator twice "in a row". The relative precedence of different operators is controlled by the order in which they are declared. The first `%left' or `%right' declaration in the file declares the operators whose precedence is lowest, the next such declaration declares the operators whose precedence is a little higher, and so on.  File: bison.info, Node: Precedence Examples, Next: How Precedence, Prev: Using Precedence, Up: Precedence 5.3.3 Precedence Examples ------------------------- In our example, we would want the following declarations: %left '<' %left '-' %left '*' In a more complete example, which supports other operators as well, we would declare them in groups of equal precedence. For example, `'+'' is declared with `'-'': %left '<' '>' '=' NE LE GE %left '+' '-' %left '*' '/' (Here `NE' and so on stand for the operators for "not equal" and so on. We assume that these tokens are more than one character long and therefore are represented by names, not character literals.)  File: bison.info, Node: How Precedence, Prev: Precedence Examples, Up: Precedence 5.3.4 How Precedence Works -------------------------- The first effect of the precedence declarations is to assign precedence levels to the terminal symbols declared. The second effect is to assign precedence levels to certain rules: each rule gets its precedence from the last terminal symbol mentioned in the components. (You can also specify explicitly the precedence of a rule. *Note Context-Dependent Precedence: Contextual Precedence.) Finally, the resolution of conflicts works by comparing the precedence of the rule being considered with that of the lookahead token. If the token's precedence is higher, the choice is to shift. If the rule's precedence is higher, the choice is to reduce. If they have equal precedence, the choice is made based on the associativity of that precedence level. The verbose output file made by `-v' (*note Invoking Bison: Invocation.) says how each conflict was resolved. Not all rules and not all tokens have precedence. If either the rule or the lookahead token has no precedence, then the default is to shift.  File: bison.info, Node: Contextual Precedence, Next: Parser States, Prev: Precedence, Up: Algorithm 5.4 Context-Dependent Precedence ================================ Often the precedence of an operator depends on the context. This sounds outlandish at first, but it is really very common. For example, a minus sign typically has a very high precedence as a unary operator, and a somewhat lower precedence (lower than multiplication) as a binary operator. The Bison precedence declarations, `%left', `%right' and `%nonassoc', can only be used once for a given token; so a token has only one precedence declared in this way. For context-dependent precedence, you need to use an additional mechanism: the `%prec' modifier for rules. The `%prec' modifier declares the precedence of a particular rule by specifying a terminal symbol whose precedence should be used for that rule. It's not necessary for that symbol to appear otherwise in the rule. The modifier's syntax is: %prec TERMINAL-SYMBOL and it is written after the components of the rule. Its effect is to assign the rule the precedence of TERMINAL-SYMBOL, overriding the precedence that would be deduced for it in the ordinary way. The altered rule precedence then affects how conflicts involving that rule are resolved (*note Operator Precedence: Precedence.). Here is how `%prec' solves the problem of unary minus. First, declare a precedence for a fictitious terminal symbol named `UMINUS'. There are no tokens of this type, but the symbol serves to stand for its precedence: ... %left '+' '-' %left '*' %left UMINUS Now the precedence of `UMINUS' can be used in specific rules: exp: ... | exp '-' exp ... | '-' exp %prec UMINUS  File: bison.info, Node: Parser States, Next: Reduce/Reduce, Prev: Contextual Precedence, Up: Algorithm 5.5 Parser States ================= The function `yyparse' is implemented using a finite-state machine. The values pushed on the parser stack are not simply token type codes; they represent the entire sequence of terminal and nonterminal symbols at or near the top of the stack. The current state collects all the information about previous input which is relevant to deciding what to do next. Each time a lookahead token is read, the current parser state together with the type of lookahead token are looked up in a table. This table entry can say, "Shift the lookahead token." In this case, it also specifies the new parser state, which is pushed onto the top of the parser stack. Or it can say, "Reduce using rule number N." This means that a certain number of tokens or groupings are taken off the top of the stack, and replaced by one grouping. In other words, that number of states are popped from the stack, and one new state is pushed. There is one other alternative: the table can say that the lookahead token is erroneous in the current state. This causes error processing to begin (*note Error Recovery::).  File: bison.info, Node: Reduce/Reduce, Next: Mystery Conflicts, Prev: Parser States, Up: Algorithm 5.6 Reduce/Reduce Conflicts =========================== A reduce/reduce conflict occurs if there are two or more rules that apply to the same sequence of input. This usually indicates a serious error in the grammar. For example, here is an erroneous attempt to define a sequence of zero or more `word' groupings. sequence: /* empty */ { printf ("empty sequence\n"); } | maybeword | sequence word { printf ("added word %s\n", $2); } ; maybeword: /* empty */ { printf ("empty maybeword\n"); } | word { printf ("single word %s\n", $1); } ; The error is an ambiguity: there is more than one way to parse a single `word' into a `sequence'. It could be reduced to a `maybeword' and then into a `sequence' via the second rule. Alternatively, nothing-at-all could be reduced into a `sequence' via the first rule, and this could be combined with the `word' using the third rule for `sequence'. There is also more than one way to reduce nothing-at-all into a `sequence'. This can be done directly via the first rule, or indirectly via `maybeword' and then the second rule. You might think that this is a distinction without a difference, because it does not change whether any particular input is valid or not. But it does affect which actions are run. One parsing order runs the second rule's action; the other runs the first rule's action and the third rule's action. In this example, the output of the program changes. Bison resolves a reduce/reduce conflict by choosing to use the rule that appears first in the grammar, but it is very risky to rely on this. Every reduce/reduce conflict must be studied and usually eliminated. Here is the proper way to define `sequence': sequence: /* empty */ { printf ("empty sequence\n"); } | sequence word { printf ("added word %s\n", $2); } ; Here is another common error that yields a reduce/reduce conflict: sequence: /* empty */ | sequence words | sequence redirects ; words: /* empty */ | words word ; redirects:/* empty */ | redirects redirect ; The intention here is to define a sequence which can contain either `word' or `redirect' groupings. The individual definitions of `sequence', `words' and `redirects' are error-free, but the three together make a subtle ambiguity: even an empty input can be parsed in infinitely many ways! Consider: nothing-at-all could be a `words'. Or it could be two `words' in a row, or three, or any number. It could equally well be a `redirects', or two, or any number. Or it could be a `words' followed by three `redirects' and another `words'. And so on. Here are two ways to correct these rules. First, to make it a single level of sequence: sequence: /* empty */ | sequence word | sequence redirect ; Second, to prevent either a `words' or a `redirects' from being empty: sequence: /* empty */ | sequence words | sequence redirects ; words: word | words word ; redirects:redirect | redirects redirect ;  File: bison.info, Node: Mystery Conflicts, Next: Generalized LR Parsing, Prev: Reduce/Reduce, Up: Algorithm 5.7 Mysterious Reduce/Reduce Conflicts ====================================== Sometimes reduce/reduce conflicts can occur that don't look warranted. Here is an example: %token ID %% def: param_spec return_spec ',' ; param_spec: type | name_list ':' type ; return_spec: type | name ':' type ; type: ID ; name: ID ; name_list: name | name ',' name_list ; It would seem that this grammar can be parsed with only a single token of lookahead: when a `param_spec' is being read, an `ID' is a `name' if a comma or colon follows, or a `type' if another `ID' follows. In other words, this grammar is LR(1). However, Bison, like most parser generators, cannot actually handle all LR(1) grammars. In this grammar, two contexts, that after an `ID' at the beginning of a `param_spec' and likewise at the beginning of a `return_spec', are similar enough that Bison assumes they are the same. They appear similar because the same set of rules would be active--the rule for reducing to a `name' and that for reducing to a `type'. Bison is unable to determine at that stage of processing that the rules would require different lookahead tokens in the two contexts, so it makes a single parser state for them both. Combining the two contexts causes a conflict later. In parser terminology, this occurrence means that the grammar is not LALR(1). In general, it is better to fix deficiencies than to document them. But this particular deficiency is intrinsically hard to fix; parser generators that can handle LR(1) grammars are hard to write and tend to produce parsers that are very large. In practice, Bison is more useful as it is now. When the problem arises, you can often fix it by identifying the two parser states that are being confused, and adding something to make them look distinct. In the above example, adding one rule to `return_spec' as follows makes the problem go away: %token BOGUS ... %% ... return_spec: type | name ':' type /* This rule is never used. */ | ID BOGUS ; This corrects the problem because it introduces the possibility of an additional active rule in the context after the `ID' at the beginning of `return_spec'. This rule is not active in the corresponding context in a `param_spec', so the two contexts receive distinct parser states. As long as the token `BOGUS' is never generated by `yylex', the added rule cannot alter the way actual input is parsed. In this particular example, there is another way to solve the problem: rewrite the rule for `return_spec' to use `ID' directly instead of via `name'. This also causes the two confusing contexts to have different sets of active rules, because the one for `return_spec' activates the altered rule for `return_spec' rather than the one for `name'. param_spec: type | name_list ':' type ; return_spec: type | ID ':' type ; For a more detailed exposition of LALR(1) parsers and parser generators, please see: Frank DeRemer and Thomas Pennello, Efficient Computation of LALR(1) Look-Ahead Sets, `ACM Transactions on Programming Languages and Systems', Vol. 4, No. 4 (October 1982), pp. 615-649 `http://doi.acm.org/10.1145/69622.357187'.  File: bison.info, Node: Generalized LR Parsing, Next: Memory Management, Prev: Mystery Conflicts, Up: Algorithm 5.8 Generalized LR (GLR) Parsing ================================ Bison produces _deterministic_ parsers that choose uniquely when to reduce and which reduction to apply based on a summary of the preceding input and on one extra token of lookahead. As a result, normal Bison handles a proper subset of the family of context-free languages. Ambiguous grammars, since they have strings with more than one possible sequence of reductions cannot have deterministic parsers in this sense. The same is true of languages that require more than one symbol of lookahead, since the parser lacks the information necessary to make a decision at the point it must be made in a shift-reduce parser. Finally, as previously mentioned (*note Mystery Conflicts::), there are languages where Bison's particular choice of how to summarize the input seen so far loses necessary information. When you use the `%glr-parser' declaration in your grammar file, Bison generates a parser that uses a different algorithm, called Generalized LR (or GLR). A Bison GLR parser uses the same basic algorithm for parsing as an ordinary Bison parser, but behaves differently in cases where there is a shift-reduce conflict that has not been resolved by precedence rules (*note Precedence::) or a reduce-reduce conflict. When a GLR parser encounters such a situation, it effectively _splits_ into a several parsers, one for each possible shift or reduction. These parsers then proceed as usual, consuming tokens in lock-step. Some of the stacks may encounter other conflicts and split further, with the result that instead of a sequence of states, a Bison GLR parsing stack is what is in effect a tree of states. In effect, each stack represents a guess as to what the proper parse is. Additional input may indicate that a guess was wrong, in which case the appropriate stack silently disappears. Otherwise, the semantics actions generated in each stack are saved, rather than being executed immediately. When a stack disappears, its saved semantic actions never get executed. When a reduction causes two stacks to become equivalent, their sets of semantic actions are both saved with the state that results from the reduction. We say that two stacks are equivalent when they both represent the same sequence of states, and each pair of corresponding states represents a grammar symbol that produces the same segment of the input token stream. Whenever the parser makes a transition from having multiple states to having one, it reverts to the normal LALR(1) parsing algorithm, after resolving and executing the saved-up actions. At this transition, some of the states on the stack will have semantic values that are sets (actually multisets) of possible actions. The parser tries to pick one of the actions by first finding one whose rule has the highest dynamic precedence, as set by the `%dprec' declaration. Otherwise, if the alternative actions are not ordered by precedence, but there the same merging function is declared for both rules by the `%merge' declaration, Bison resolves and evaluates both and then calls the merge function on the result. Otherwise, it reports an ambiguity. It is possible to use a data structure for the GLR parsing tree that permits the processing of any LALR(1) grammar in linear time (in the size of the input), any unambiguous (not necessarily LALR(1)) grammar in quadratic worst-case time, and any general (possibly ambiguous) context-free grammar in cubic worst-case time. However, Bison currently uses a simpler data structure that requires time proportional to the length of the input times the maximum number of stacks required for any prefix of the input. Thus, really ambiguous or nondeterministic grammars can require exponential time and space to process. Such badly behaving examples, however, are not generally of practical interest. Usually, nondeterminism in a grammar is local--the parser is "in doubt" only for a few tokens at a time. Therefore, the current data structure should generally be adequate. On LALR(1) portions of a grammar, in particular, it is only slightly slower than with the default Bison parser. For a more detailed exposition of GLR parsers, please see: Elizabeth Scott, Adrian Johnstone and Shamsa Sadaf Hussain, Tomita-Style Generalised LR Parsers, Royal Holloway, University of London, Department of Computer Science, TR-00-12, `http://www.cs.rhul.ac.uk/research/languages/publications/tomita_style_1.ps', (2000-12-24).  File: bison.info, Node: Memory Management, Prev: Generalized LR Parsing, Up: Algorithm 5.9 Memory Management, and How to Avoid Memory Exhaustion ========================================================= The Bison parser stack can run out of memory if too many tokens are shifted and not reduced. When this happens, the parser function `yyparse' calls `yyerror' and then returns 2. Because Bison parsers have growing stacks, hitting the upper limit usually results from using a right recursion instead of a left recursion, *Note Recursive Rules: Recursion. By defining the macro `YYMAXDEPTH', you can control how deep the parser stack can become before memory is exhausted. Define the macro with a value that is an integer. This value is the maximum number of tokens that can be shifted (and not reduced) before overflow. The stack space allowed is not necessarily allocated. If you specify a large value for `YYMAXDEPTH', the parser normally allocates a small stack at first, and then makes it bigger by stages as needed. This increasing allocation happens automatically and silently. Therefore, you do not need to make `YYMAXDEPTH' painfully small merely to save space for ordinary inputs that do not need much stack. However, do not allow `YYMAXDEPTH' to be a value so large that arithmetic overflow could occur when calculating the size of the stack space. Also, do not allow `YYMAXDEPTH' to be less than `YYINITDEPTH'. The default value of `YYMAXDEPTH', if you do not define it, is 10000. You can control how much stack is allocated initially by defining the macro `YYINITDEPTH' to a positive integer. For the C LALR(1) parser, this value must be a compile-time constant unless you are assuming C99 or some other target language or compiler that allows variable-length arrays. The default is 200. Do not allow `YYINITDEPTH' to be greater than `YYMAXDEPTH'. Because of semantic differences between C and C++, the LALR(1) parsers in C produced by Bison cannot grow when compiled by C++ compilers. In this precise case (compiling a C parser as C++) you are suggested to grow `YYINITDEPTH'. The Bison maintainers hope to fix this deficiency in a future release.  File: bison.info, Node: Error Recovery, Next: Context Dependency, Prev: Algorithm, Up: Top 6 Error Recovery **************** It is not usually acceptable to have a program terminate on a syntax error. For example, a compiler should recover sufficiently to parse the rest of the input file and check it for errors; a calculator should accept another expression. In a simple interactive command parser where each input is one line, it may be sufficient to allow `yyparse' to return 1 on error and have the caller ignore the rest of the input line when that happens (and then call `yyparse' again). But this is inadequate for a compiler, because it forgets all the syntactic context leading up to the error. A syntax error deep within a function in the compiler input should not cause the compiler to treat the following line like the beginning of a source file. You can define how to recover from a syntax error by writing rules to recognize the special token `error'. This is a terminal symbol that is always defined (you need not declare it) and reserved for error handling. The Bison parser generates an `error' token whenever a syntax error happens; if you have provided a rule to recognize this token in the current context, the parse can continue. For example: stmnts: /* empty string */ | stmnts '\n' | stmnts exp '\n' | stmnts error '\n' The fourth rule in this example says that an error followed by a newline makes a valid addition to any `stmnts'. What happens if a syntax error occurs in the middle of an `exp'? The error recovery rule, interpreted strictly, applies to the precise sequence of a `stmnts', an `error' and a newline. If an error occurs in the middle of an `exp', there will probably be some additional tokens and subexpressions on the stack after the last `stmnts', and there will be tokens to read before the next newline. So the rule is not applicable in the ordinary way. But Bison can force the situation to fit the rule, by discarding part of the semantic context and part of the input. First it discards states and objects from the stack until it gets back to a state in which the `error' token is acceptable. (This means that the subexpressions already parsed are discarded, back to the last complete `stmnts'.) At this point the `error' token can be shifted. Then, if the old lookahead token is not acceptable to be shifted next, the parser reads tokens and discards them until it finds a token which is acceptable. In this example, Bison reads and discards input until the next newline so that the fourth rule can apply. Note that discarded symbols are possible sources of memory leaks, see *note Freeing Discarded Symbols: Destructor Decl, for a means to reclaim this memory. The choice of error rules in the grammar is a choice of strategies for error recovery. A simple and useful strategy is simply to skip the rest of the current input line or current statement if an error is detected: stmnt: error ';' /* On error, skip until ';' is read. */ It is also useful to recover to the matching close-delimiter of an opening-delimiter that has already been parsed. Otherwise the close-delimiter will probably appear to be unmatched, and generate another, spurious error message: primary: '(' expr ')' | '(' error ')' ... ; Error recovery strategies are necessarily guesses. When they guess wrong, one syntax error often leads to another. In the above example, the error recovery rule guesses that an error is due to bad input within one `stmnt'. Suppose that instead a spurious semicolon is inserted in the middle of a valid `stmnt'. After the error recovery rule recovers from the first error, another syntax error will be found straightaway, since the text following the spurious semicolon is also an invalid `stmnt'. To prevent an outpouring of error messages, the parser will output no error message for another syntax error that happens shortly after the first; only after three consecutive input tokens have been successfully shifted will error messages resume. Note that rules which accept the `error' token may have actions, just as any other rules can. You can make error messages resume immediately by using the macro `yyerrok' in an action. If you do this in the error rule's action, no error messages will be suppressed. This macro requires no arguments; `yyerrok;' is a valid C statement. The previous lookahead token is reanalyzed immediately after an error. If this is unacceptable, then the macro `yyclearin' may be used to clear this token. Write the statement `yyclearin;' in the error rule's action. *Note Special Features for Use in Actions: Action Features. For example, suppose that on a syntax error, an error handling routine is called that advances the input stream to some point where parsing should once again commence. The next symbol returned by the lexical scanner is probably correct. The previous lookahead token ought to be discarded with `yyclearin;'. The expression `YYRECOVERING ()' yields 1 when the parser is recovering from a syntax error, and 0 otherwise. Syntax error diagnostics are suppressed while recovering from a syntax error.  File: bison.info, Node: Context Dependency, Next: Debugging, Prev: Error Recovery, Up: Top 7 Handling Context Dependencies ******************************* The Bison paradigm is to parse tokens first, then group them into larger syntactic units. In many languages, the meaning of a token is affected by its context. Although this violates the Bison paradigm, certain techniques (known as "kludges") may enable you to write Bison parsers for such languages. * Menu: * Semantic Tokens:: Token parsing can depend on the semantic context. * Lexical Tie-ins:: Token parsing can depend on the syntactic context. * Tie-in Recovery:: Lexical tie-ins have implications for how error recovery rules must be written. (Actually, "kludge" means any technique that gets its job done but is neither clean nor robust.)  File: bison.info, Node: Semantic Tokens, Next: Lexical Tie-ins, Up: Context Dependency 7.1 Semantic Info in Token Types ================================ The C language has a context dependency: the way an identifier is used depends on what its current meaning is. For example, consider this: foo (x); This looks like a function call statement, but if `foo' is a typedef name, then this is actually a declaration of `x'. How can a Bison parser for C decide how to parse this input? The method used in GNU C is to have two different token types, `IDENTIFIER' and `TYPENAME'. When `yylex' finds an identifier, it looks up the current declaration of the identifier in order to decide which token type to return: `TYPENAME' if the identifier is declared as a typedef, `IDENTIFIER' otherwise. The grammar rules can then express the context dependency by the choice of token type to recognize. `IDENTIFIER' is accepted as an expression, but `TYPENAME' is not. `TYPENAME' can start a declaration, but `IDENTIFIER' cannot. In contexts where the meaning of the identifier is _not_ significant, such as in declarations that can shadow a typedef name, either `TYPENAME' or `IDENTIFIER' is accepted--there is one rule for each of the two token types. This technique is simple to use if the decision of which kinds of identifiers to allow is made at a place close to where the identifier is parsed. But in C this is not always so: C allows a declaration to redeclare a typedef name provided an explicit type has been specified earlier: typedef int foo, bar; int baz (void) { static bar (bar); /* redeclare `bar' as static variable */ extern foo foo (foo); /* redeclare `foo' as function */ return foo (bar); } Unfortunately, the name being declared is separated from the declaration construct itself by a complicated syntactic structure--the "declarator". As a result, part of the Bison parser for C needs to be duplicated, with all the nonterminal names changed: once for parsing a declaration in which a typedef name can be redefined, and once for parsing a declaration in which that can't be done. Here is a part of the duplication, with actions omitted for brevity: initdcl: declarator maybeasm '=' init | declarator maybeasm ; notype_initdcl: notype_declarator maybeasm '=' init | notype_declarator maybeasm ; Here `initdcl' can redeclare a typedef name, but `notype_initdcl' cannot. The distinction between `declarator' and `notype_declarator' is the same sort of thing. There is some similarity between this technique and a lexical tie-in (described next), in that information which alters the lexical analysis is changed during parsing by other parts of the program. The difference is here the information is global, and is used for other purposes in the program. A true lexical tie-in has a special-purpose flag controlled by the syntactic context.  File: bison.info, Node: Lexical Tie-ins, Next: Tie-in Recovery, Prev: Semantic Tokens, Up: Context Dependency 7.2 Lexical Tie-ins =================== One way to handle context-dependency is the "lexical tie-in": a flag which is set by Bison actions, whose purpose is to alter the way tokens are parsed. For example, suppose we have a language vaguely like C, but with a special construct `hex (HEX-EXPR)'. After the keyword `hex' comes an expression in parentheses in which all integers are hexadecimal. In particular, the token `a1b' must be treated as an integer rather than as an identifier if it appears in that context. Here is how you can do it: %{ int hexflag; int yylex (void); void yyerror (char const *); %} %% ... expr: IDENTIFIER | constant | HEX '(' { hexflag = 1; } expr ')' { hexflag = 0; $$ = $4; } | expr '+' expr { $$ = make_sum ($1, $3); } ... ; constant: INTEGER | STRING ; Here we assume that `yylex' looks at the value of `hexflag'; when it is nonzero, all integers are parsed in hexadecimal, and tokens starting with letters are parsed as integers if possible. The declaration of `hexflag' shown in the prologue of the parser file is needed to make it accessible to the actions (*note The Prologue: Prologue.). You must also write the code in `yylex' to obey the flag.  File: bison.info, Node: Tie-in Recovery, Prev: Lexical Tie-ins, Up: Context Dependency 7.3 Lexical Tie-ins and Error Recovery ====================================== Lexical tie-ins make strict demands on any error recovery rules you have. *Note Error Recovery::. The reason for this is that the purpose of an error recovery rule is to abort the parsing of one construct and resume in some larger construct. For example, in C-like languages, a typical error recovery rule is to skip tokens until the next semicolon, and then start a new statement, like this: stmt: expr ';' | IF '(' expr ')' stmt { ... } ... error ';' { hexflag = 0; } ; If there is a syntax error in the middle of a `hex (EXPR)' construct, this error rule will apply, and then the action for the completed `hex (EXPR)' will never run. So `hexflag' would remain set for the entire rest of the input, or until the next `hex' keyword, causing identifiers to be misinterpreted as integers. To avoid this problem the error recovery rule itself clears `hexflag'. There may also be an error recovery rule that works within expressions. For example, there could be a rule which applies within parentheses and skips to the close-parenthesis: expr: ... | '(' expr ')' { $$ = $2; } | '(' error ')' ... If this rule acts within the `hex' construct, it is not going to abort that construct (since it applies to an inner level of parentheses within the construct). Therefore, it should not clear the flag: the rest of the `hex' construct should be parsed with the flag still in effect. What if there is an error recovery rule which might abort out of the `hex' construct or might not, depending on circumstances? There is no way you can write the action to determine whether a `hex' construct is being aborted or not. So if you are using a lexical tie-in, you had better make sure your error recovery rules are not of this kind. Each rule must be such that you can be sure that it always will, or always won't, have to clear the flag.  File: bison.info, Node: Debugging, Next: Invocation, Prev: Context Dependency, Up: Top 8 Debugging Your Parser *********************** Developing a parser can be a challenge, especially if you don't understand the algorithm (*note The Bison Parser Algorithm: Algorithm.). Even so, sometimes a detailed description of the automaton can help (*note Understanding Your Parser: Understanding.), or tracing the execution of the parser can give some insight on why it behaves improperly (*note Tracing Your Parser: Tracing.). * Menu: * Understanding:: Understanding the structure of your parser. * Tracing:: Tracing the execution of your parser.  File: bison.info, Node: Understanding, Next: Tracing, Up: Debugging 8.1 Understanding Your Parser ============================= As documented elsewhere (*note The Bison Parser Algorithm: Algorithm.) Bison parsers are "shift/reduce automata". In some cases (much more frequent than one would hope), looking at this automaton is required to tune or simply fix a parser. Bison provides two different representation of it, either textually or graphically (as a DOT file). The textual file is generated when the options `--report' or `--verbose' are specified, see *Note Invoking Bison: Invocation. Its name is made by removing `.tab.c' or `.c' from the parser output file name, and adding `.output' instead. Therefore, if the input file is `foo.y', then the parser file is called `foo.tab.c' by default. As a consequence, the verbose output file is called `foo.output'. The following grammar file, `calc.y', will be used in the sequel: %token NUM STR %left '+' '-' %left '*' %% exp: exp '+' exp | exp '-' exp | exp '*' exp | exp '/' exp | NUM ; useless: STR; %% `bison' reports: calc.y: warning: 1 nonterminal and 1 rule useless in grammar calc.y:11.1-7: warning: nonterminal useless in grammar: useless calc.y:11.10-12: warning: rule useless in grammar: useless: STR calc.y: conflicts: 7 shift/reduce When given `--report=state', in addition to `calc.tab.c', it creates a file `calc.output' with contents detailed below. The order of the output and the exact presentation might vary, but the interpretation is the same. The first section includes details on conflicts that were solved thanks to precedence and/or associativity: Conflict in state 8 between rule 2 and token '+' resolved as reduce. Conflict in state 8 between rule 2 and token '-' resolved as reduce. Conflict in state 8 between rule 2 and token '*' resolved as shift. ... The next section lists states that still have conflicts. State 8 conflicts: 1 shift/reduce State 9 conflicts: 1 shift/reduce State 10 conflicts: 1 shift/reduce State 11 conflicts: 4 shift/reduce The next section reports useless tokens, nonterminal and rules. Useless nonterminals and rules are removed in order to produce a smaller parser, but useless tokens are preserved, since they might be used by the scanner (note the difference between "useless" and "unused" below): Nonterminals useless in grammar: useless Terminals unused in grammar: STR Rules useless in grammar: #6 useless: STR; The next section reproduces the exact grammar that Bison used: Grammar Number, Line, Rule 0 5 $accept -> exp $end 1 5 exp -> exp '+' exp 2 6 exp -> exp '-' exp 3 7 exp -> exp '*' exp 4 8 exp -> exp '/' exp 5 9 exp -> NUM and reports the uses of the symbols: Terminals, with rules where they appear $end (0) 0 '*' (42) 3 '+' (43) 1 '-' (45) 2 '/' (47) 4 error (256) NUM (258) 5 Nonterminals, with rules where they appear $accept (8) on left: 0 exp (9) on left: 1 2 3 4 5, on right: 0 1 2 3 4 Bison then proceeds onto the automaton itself, describing each state with it set of "items", also known as "pointed rules". Each item is a production rule together with a point (marked by `.') that the input cursor. state 0 $accept -> . exp $ (rule 0) NUM shift, and go to state 1 exp go to state 2 This reads as follows: "state 0 corresponds to being at the very beginning of the parsing, in the initial rule, right before the start symbol (here, `exp'). When the parser returns to this state right after having reduced a rule that produced an `exp', the control flow jumps to state 2. If there is no such transition on a nonterminal symbol, and the lookahead is a `NUM', then this token is shifted on the parse stack, and the control flow jumps to state 1. Any other lookahead triggers a syntax error." Even though the only active rule in state 0 seems to be rule 0, the report lists `NUM' as a lookahead token because `NUM' can be at the beginning of any rule deriving an `exp'. By default Bison reports the so-called "core" or "kernel" of the item set, but if you want to see more detail you can invoke `bison' with `--report=itemset' to list all the items, include those that can be derived: state 0 $accept -> . exp $ (rule 0) exp -> . exp '+' exp (rule 1) exp -> . exp '-' exp (rule 2) exp -> . exp '*' exp (rule 3) exp -> . exp '/' exp (rule 4) exp -> . NUM (rule 5) NUM shift, and go to state 1 exp go to state 2 In the state 1... state 1 exp -> NUM . (rule 5) $default reduce using rule 5 (exp) the rule 5, `exp: NUM;', is completed. Whatever the lookahead token (`$default'), the parser will reduce it. If it was coming from state 0, then, after this reduction it will return to state 0, and will jump to state 2 (`exp: go to state 2'). state 2 $accept -> exp . $ (rule 0) exp -> exp . '+' exp (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp . '/' exp (rule 4) $ shift, and go to state 3 '+' shift, and go to state 4 '-' shift, and go to state 5 '*' shift, and go to state 6 '/' shift, and go to state 7 In state 2, the automaton can only shift a symbol. For instance, because of the item `exp -> exp . '+' exp', if the lookahead if `+', it will be shifted on the parse stack, and the automaton control will jump to state 4, corresponding to the item `exp -> exp '+' . exp'. Since there is no default action, any other token than those listed above will trigger a syntax error. The state 3 is named the "final state", or the "accepting state": state 3 $accept -> exp $ . (rule 0) $default accept the initial rule is completed (the start symbol and the end of input were read), the parsing exits successfully. The interpretation of states 4 to 7 is straightforward, and is left to the reader. state 4 exp -> exp '+' . exp (rule 1) NUM shift, and go to state 1 exp go to state 8 state 5 exp -> exp '-' . exp (rule 2) NUM shift, and go to state 1 exp go to state 9 state 6 exp -> exp '*' . exp (rule 3) NUM shift, and go to state 1 exp go to state 10 state 7 exp -> exp '/' . exp (rule 4) NUM shift, and go to state 1 exp go to state 11 As was announced in beginning of the report, `State 8 conflicts: 1 shift/reduce': state 8 exp -> exp . '+' exp (rule 1) exp -> exp '+' exp . (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp . '/' exp (rule 4) '*' shift, and go to state 6 '/' shift, and go to state 7 '/' [reduce using rule 1 (exp)] $default reduce using rule 1 (exp) Indeed, there are two actions associated to the lookahead `/': either shifting (and going to state 7), or reducing rule 1. The conflict means that either the grammar is ambiguous, or the parser lacks information to make the right decision. Indeed the grammar is ambiguous, as, since we did not specify the precedence of `/', the sentence `NUM + NUM / NUM' can be parsed as `NUM + (NUM / NUM)', which corresponds to shifting `/', or as `(NUM + NUM) / NUM', which corresponds to reducing rule 1. Because in LALR(1) parsing a single decision can be made, Bison arbitrarily chose to disable the reduction, see *note Shift/Reduce Conflicts: Shift/Reduce. Discarded actions are reported in between square brackets. Note that all the previous states had a single possible action: either shifting the next token and going to the corresponding state, or reducing a single rule. In the other cases, i.e., when shifting _and_ reducing is possible or when _several_ reductions are possible, the lookahead is required to select the action. State 8 is one such state: if the lookahead is `*' or `/' then the action is shifting, otherwise the action is reducing rule 1. In other words, the first two items, corresponding to rule 1, are not eligible when the lookahead token is `*', since we specified that `*' has higher precedence than `+'. More generally, some items are eligible only with some set of possible lookahead tokens. When run with `--report=lookahead', Bison specifies these lookahead tokens: state 8 exp -> exp . '+' exp (rule 1) exp -> exp '+' exp . [$, '+', '-', '/'] (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp . '/' exp (rule 4) '*' shift, and go to state 6 '/' shift, and go to state 7 '/' [reduce using rule 1 (exp)] $default reduce using rule 1 (exp) The remaining states are similar: state 9 exp -> exp . '+' exp (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp '-' exp . (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp . '/' exp (rule 4) '*' shift, and go to state 6 '/' shift, and go to state 7 '/' [reduce using rule 2 (exp)] $default reduce using rule 2 (exp) state 10 exp -> exp . '+' exp (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp '*' exp . (rule 3) exp -> exp . '/' exp (rule 4) '/' shift, and go to state 7 '/' [reduce using rule 3 (exp)] $default reduce using rule 3 (exp) state 11 exp -> exp . '+' exp (rule 1) exp -> exp . '-' exp (rule 2) exp -> exp . '*' exp (rule 3) exp -> exp . '/' exp (rule 4) exp -> exp '/' exp . (rule 4) '+' shift, and go to state 4 '-' shift, and go to state 5 '*' shift, and go to state 6 '/' shift, and go to state 7 '+' [reduce using rule 4 (exp)] '-' [reduce using rule 4 (exp)] '*' [reduce using rule 4 (exp)] '/' [reduce using rule 4 (exp)] $default reduce using rule 4 (exp) Observe that state 11 contains conflicts not only due to the lack of precedence of `/' with respect to `+', `-', and `*', but also because the associativity of `/' is not specified.  File: bison.info, Node: Tracing, Prev: Understanding, Up: Debugging 8.2 Tracing Your Parser ======================= If a Bison grammar compiles properly but doesn't do what you want when it runs, the `yydebug' parser-trace feature can help you figure out why. There are several means to enable compilation of trace facilities: the macro `YYDEBUG' Define the macro `YYDEBUG' to a nonzero value when you compile the parser. This is compliant with POSIX Yacc. You could use `-DYYDEBUG=1' as a compiler option or you could put `#define YYDEBUG 1' in the prologue of the grammar file (*note The Prologue: Prologue.). the option `-t', `--debug' Use the `-t' option when you run Bison (*note Invoking Bison: Invocation.). This is POSIX compliant too. the directive `%debug' Add the `%debug' directive (*note Bison Declaration Summary: Decl Summary.). This is a Bison extension, which will prove useful when Bison will output parsers for languages that don't use a preprocessor. Unless POSIX and Yacc portability matter to you, this is the preferred solution. We suggest that you always enable the debug option so that debugging is always possible. The trace facility outputs messages with macro calls of the form `YYFPRINTF (stderr, FORMAT, ARGS)' where FORMAT and ARGS are the usual `printf' format and variadic arguments. If you define `YYDEBUG' to a nonzero value but do not define `YYFPRINTF', `' is automatically included and `YYFPRINTF' is defined to `fprintf'. Once you have compiled the program with trace facilities, the way to request a trace is to store a nonzero value in the variable `yydebug'. You can do this by making the C code do it (in `main', perhaps), or you can alter the value with a C debugger. Each step taken by the parser when `yydebug' is nonzero produces a line or two of trace information, written on `stderr'. The trace messages tell you these things: * Each time the parser calls `yylex', what kind of token was read. * Each time a token is shifted, the depth and complete contents of the state stack (*note Parser States::). * Each time a rule is reduced, which rule it is, and the complete contents of the state stack afterward. To make sense of this information, it helps to refer to the listing file produced by the Bison `-v' option (*note Invoking Bison: Invocation.). This file shows the meaning of each state in terms of positions in various rules, and also what each state will do with each possible input token. As you read the successive trace messages, you can see that the parser is functioning according to its specification in the listing file. Eventually you will arrive at the place where something undesirable happens, and you will see which parts of the grammar are to blame. The parser file is a C program and you can use C debuggers on it, but it's not easy to interpret what it is doing. The parser function is a finite-state machine interpreter, and aside from the actions it executes the same code over and over. Only the values of variables show where in the grammar it is working. The debugging information normally gives the token type of each token read, but not its semantic value. You can optionally define a macro named `YYPRINT' to provide a way to print the value. If you define `YYPRINT', it should take three arguments. The parser will pass a standard I/O stream, the numeric code for the token type, and the token value (from `yylval'). Here is an example of `YYPRINT' suitable for the multi-function calculator (*note Declarations for `mfcalc': Mfcalc Declarations.): %{ static void print_token_value (FILE *, int, YYSTYPE); #define YYPRINT(file, type, value) print_token_value (file, type, value) %} ... %% ... %% ... static void print_token_value (FILE *file, int type, YYSTYPE value) { if (type == VAR) fprintf (file, "%s", value.tptr->name); else if (type == NUM) fprintf (file, "%d", value.val); }  File: bison.info, Node: Invocation, Next: Other Languages, Prev: Debugging, Up: Top 9 Invoking Bison **************** The usual way to invoke Bison is as follows: bison INFILE Here INFILE is the grammar file name, which usually ends in `.y'. The parser file's name is made by replacing the `.y' with `.tab.c' and removing any leading directory. Thus, the `bison foo.y' file name yields `foo.tab.c', and the `bison hack/foo.y' file name yields `foo.tab.c'. It's also possible, in case you are writing C++ code instead of C in your grammar file, to name it `foo.ypp' or `foo.y++'. Then, the output files will take an extension like the given one as input (respectively `foo.tab.cpp' and `foo.tab.c++'). This feature takes effect with all options that manipulate file names like `-o' or `-d'. For example : bison -d INFILE.YXX will produce `infile.tab.cxx' and `infile.tab.hxx', and bison -d -o OUTPUT.C++ INFILE.Y will produce `output.c++' and `outfile.h++'. For compatibility with POSIX, the standard Bison distribution also contains a shell script called `yacc' that invokes Bison with the `-y' option. * Menu: * Bison Options:: All the options described in detail, in alphabetical order by short options. * Option Cross Key:: Alphabetical list of long options. * Yacc Library:: Yacc-compatible `yylex' and `main'.  File: bison.info, Node: Bison Options, Next: Option Cross Key, Up: Invocation 9.1 Bison Options ================= Bison supports both traditional single-letter options and mnemonic long option names. Long option names are indicated with `--' instead of `-'. Abbreviations for option names are allowed as long as they are unique. When a long option takes an argument, like `--file-prefix', connect the option name and the argument with `='. Here is a list of options that can be used with Bison, alphabetized by short option. It is followed by a cross key alphabetized by long option. Operations modes: `-h' `--help' Print a summary of the command-line options to Bison and exit. `-V' `--version' Print the version number of Bison and exit. `--print-localedir' Print the name of the directory containing locale-dependent data. `--print-datadir' Print the name of the directory containing skeletons and XSLT. `-y' `--yacc' Act more like the traditional Yacc command. This can cause different diagnostics to be generated, and may change behavior in other minor ways. Most importantly, imitate Yacc's output file name conventions, so that the parser output file is called `y.tab.c', and the other outputs are called `y.output' and `y.tab.h'. Also, if generating an LALR(1) parser in C, generate `#define' statements in addition to an `enum' to associate token numbers with token names. Thus, the following shell script can substitute for Yacc, and the Bison distribution contains such a script for compatibility with POSIX: #! /bin/sh bison -y "$@" The `-y'/`--yacc' option is intended for use with traditional Yacc grammars. If your grammar uses a Bison extension like `%glr-parser', Bison might not be Yacc-compatible even if this option is specified. `-W [CATEGORY]' `--warnings[=CATEGORY]' Output warnings falling in CATEGORY. CATEGORY can be one of: `midrule-values' Warn about mid-rule values that are set but not used within any of the actions of the parent rule. For example, warn about unused `$2' in: exp: '1' { $$ = 1; } '+' exp { $$ = $1 + $4; }; Also warn about mid-rule values that are used but not set. For example, warn about unset `$$' in the mid-rule action in: exp: '1' { $1 = 1; } '+' exp { $$ = $2 + $4; }; These warnings are not enabled by default since they sometimes prove to be false alarms in existing grammars employing the Yacc constructs `$0' or `$-N' (where N is some positive integer). `yacc' Incompatibilities with POSIX Yacc. `all' All the warnings. `none' Turn off all the warnings. `error' Treat warnings as errors. A category can be turned off by prefixing its name with `no-'. For instance, `-Wno-syntax' will hide the warnings about unused variables. Tuning the parser: `-t' `--debug' In the parser file, define the macro `YYDEBUG' to 1 if it is not already defined, so that the debugging facilities are compiled. *Note Tracing Your Parser: Tracing. `-L LANGUAGE' `--language=LANGUAGE' Specify the programming language for the generated parser, as if `%language' was specified (*note Bison Declaration Summary: Decl Summary.). Currently supported languages include C, C++, and Java. LANGUAGE is case-insensitive. This option is experimental and its effect may be modified in future releases. `--locations' Pretend that `%locations' was specified. *Note Decl Summary::. `-p PREFIX' `--name-prefix=PREFIX' Pretend that `%name-prefix "PREFIX"' was specified. *Note Decl Summary::. `-l' `--no-lines' Don't put any `#line' preprocessor commands in the parser file. Ordinarily Bison puts them in the parser file so that the C compiler and debuggers will associate errors with your source file, the grammar file. This option causes them to associate errors with the parser file, treating it as an independent source file in its own right. `-S FILE' `--skeleton=FILE' Specify the skeleton to use, similar to `%skeleton' (*note Bison Declaration Summary: Decl Summary.). If FILE does not contain a `/', FILE is the name of a skeleton file in the Bison installation directory. If it does, FILE is an absolute file name or a file name relative to the current working directory. This is similar to how most shells resolve commands. `-k' `--token-table' Pretend that `%token-table' was specified. *Note Decl Summary::. Adjust the output: `--defines[=FILE]' Pretend that `%defines' was specified, i.e., write an extra output file containing macro definitions for the token type names defined in the grammar, as well as a few other declarations. *Note Decl Summary::. `-d' This is the same as `--defines' except `-d' does not accept a FILE argument since POSIX Yacc requires that `-d' can be bundled with other short options. `-b FILE-PREFIX' `--file-prefix=PREFIX' Pretend that `%file-prefix' was specified, i.e., specify prefix to use for all Bison output file names. *Note Decl Summary::. `-r THINGS' `--report=THINGS' Write an extra output file containing verbose description of the comma separated list of THINGS among: `state' Description of the grammar, conflicts (resolved and unresolved), and LALR automaton. `lookahead' Implies `state' and augments the description of the automaton with each rule's lookahead set. `itemset' Implies `state' and augments the description of the automaton with the full set of items for each state, instead of its core only. `--report-file=FILE' Specify the FILE for the verbose description. `-v' `--verbose' Pretend that `%verbose' was specified, i.e., write an extra output file containing verbose descriptions of the grammar and parser. *Note Decl Summary::. `-o FILE' `--output=FILE' Specify the FILE for the parser file. The other output files' names are constructed from FILE as described under the `-v' and `-d' options. `-g[FILE]' `--graph[=FILE]' Output a graphical representation of the LALR(1) grammar automaton computed by Bison, in Graphviz (http://www.graphviz.org/) DOT (http://www.graphviz.org/doc/info/lang.html) format. `FILE' is optional. If omitted and the grammar file is `foo.y', the output file will be `foo.dot'. `-x[FILE]' `--xml[=FILE]' Output an XML report of the LALR(1) automaton computed by Bison. `FILE' is optional. If omitted and the grammar file is `foo.y', the output file will be `foo.xml'. (The current XML schema is experimental and may evolve. More user feedback will help to stabilize it.)  File: bison.info, Node: Option Cross Key, Next: Yacc Library, Prev: Bison Options, Up: Invocation 9.2 Option Cross Key ==================== Here is a list of options, alphabetized by long option, to help you find the corresponding short option. Long Option Short Option ------------------------------------------------- `--debug' `-t' `--defines[=FILE]' `--file-prefix=PREFIX' `-b' PREFIX `--graph[=FILE]' `-g' [FILE] `--help' `-h' `--language=LANGUAGE' `-L' LANGUAGE `--locations' `--name-prefix=PREFIX' `-p' PREFIX `--no-lines' `-l' `--output=FILE' `-o' FILE `--print-datadir' `--print-localedir' `--report-file=FILE' `--report=THINGS' `-r' THINGS `--skeleton=FILE' `-S' FILE `--token-table' `-k' `--verbose' `-v' `--version' `-V' `--warnings[=CATEGORY]' `-W' [CATEGORY] `--xml[=FILE]' `-x' [FILE] `--yacc' `-y'  File: bison.info, Node: Yacc Library, Prev: Option Cross Key, Up: Invocation 9.3 Yacc Library ================ The Yacc library contains default implementations of the `yyerror' and `main' functions. These default implementations are normally not useful, but POSIX requires them. To use the Yacc library, link your program with the `-ly' option. Note that Bison's implementation of the Yacc library is distributed under the terms of the GNU General Public License (*note Copying::). If you use the Yacc library's `yyerror' function, you should declare `yyerror' as follows: int yyerror (char const *); Bison ignores the `int' value returned by this `yyerror'. If you use the Yacc library's `main' function, your `yyparse' function should have the following type signature: int yyparse (void);  File: bison.info, Node: Other Languages, Next: FAQ, Prev: Invocation, Up: Top 10 Parsers Written In Other Languages ************************************* * Menu: * C++ Parsers:: The interface to generate C++ parser classes * Java Parsers:: The interface to generate Java parser classes  File: bison.info, Node: C++ Parsers, Next: Java Parsers, Up: Other Languages 10.1 C++ Parsers ================ * Menu: * C++ Bison Interface:: Asking for C++ parser generation * C++ Semantic Values:: %union vs. C++ * C++ Location Values:: The position and location classes * C++ Parser Interface:: Instantiating and running the parser * C++ Scanner Interface:: Exchanges between yylex and parse * A Complete C++ Example:: Demonstrating their use  File: bison.info, Node: C++ Bison Interface, Next: C++ Semantic Values, Up: C++ Parsers 10.1.1 C++ Bison Interface -------------------------- The C++ LALR(1) parser is selected using the skeleton directive, `%skeleton "lalr1.c"', or the synonymous command-line option `--skeleton=lalr1.c'. *Note Decl Summary::. When run, `bison' will create several entities in the `yy' namespace. Use the `%define namespace' directive to change the namespace name, see *note Decl Summary::. The various classes are generated in the following files: `position.hh' `location.hh' The definition of the classes `position' and `location', used for location tracking. *Note C++ Location Values::. `stack.hh' An auxiliary class `stack' used by the parser. `FILE.hh' `FILE.cc' (Assuming the extension of the input file was `.yy'.) The declaration and implementation of the C++ parser class. The basename and extension of these two files follow the same rules as with regular C parsers (*note Invocation::). The header is _mandatory_; you must either pass `-d'/`--defines' to `bison', or use the `%defines' directive. All these files are documented using Doxygen; run `doxygen' for a complete and accurate documentation.  File: bison.info, Node: C++ Semantic Values, Next: C++ Location Values, Prev: C++ Bison Interface, Up: C++ Parsers 10.1.2 C++ Semantic Values -------------------------- The `%union' directive works as for C, see *note The Collection of Value Types: Union Decl. In particular it produces a genuine `union'(1), which have a few specific features in C++. - The type `YYSTYPE' is defined but its use is discouraged: rather you should refer to the parser's encapsulated type `yy::parser::semantic_type'. - Non POD (Plain Old Data) types cannot be used. C++ forbids any instance of classes with constructors in unions: only _pointers_ to such objects are allowed. Because objects have to be stored via pointers, memory is not reclaimed automatically: using the `%destructor' directive is the only means to avoid leaks. *Note Freeing Discarded Symbols: Destructor Decl. ---------- Footnotes ---------- (1) In the future techniques to allow complex types within pseudo-unions (similar to Boost variants) might be implemented to alleviate these issues.  File: bison.info, Node: C++ Location Values, Next: C++ Parser Interface, Prev: C++ Semantic Values, Up: C++ Parsers 10.1.3 C++ Location Values -------------------------- When the directive `%locations' is used, the C++ parser supports location tracking, see *note Locations Overview: Locations. Two auxiliary classes define a `position', a single point in a file, and a `location', a range composed of a pair of `position's (possibly spanning several files). -- Method on position: std::string* file The name of the file. It will always be handled as a pointer, the parser will never duplicate nor deallocate it. As an experimental feature you may change it to `TYPE*' using `%define filename_type "TYPE"'. -- Method on position: unsigned int line The line, starting at 1. -- Method on position: unsigned int lines (int HEIGHT = 1) Advance by HEIGHT lines, resetting the column number. -- Method on position: unsigned int column The column, starting at 0. -- Method on position: unsigned int columns (int WIDTH = 1) Advance by WIDTH columns, without changing the line number. -- Method on position: position& operator+= (position& POS, int WIDTH) -- Method on position: position operator+ (const position& POS, int WIDTH) -- Method on position: position& operator-= (const position& POS, int WIDTH) -- Method on position: position operator- (position& POS, int WIDTH) Various forms of syntactic sugar for `columns'. -- Method on position: position operator<< (std::ostream O, const position& P) Report P on O like this: `FILE:LINE.COLUMN', or `LINE.COLUMN' if FILE is null. -- Method on location: position begin -- Method on location: position end The first, inclusive, position of the range, and the first beyond. -- Method on location: unsigned int columns (int WIDTH = 1) -- Method on location: unsigned int lines (int HEIGHT = 1) Advance the `end' position. -- Method on location: location operator+ (const location& BEGIN, const location& END) -- Method on location: location operator+ (const location& BEGIN, int WIDTH) -- Method on location: location operator+= (const location& LOC, int WIDTH) Various forms of syntactic sugar. -- Method on location: void step () Move `begin' onto `end'.  File: bison.info, Node: C++ Parser Interface, Next: C++ Scanner Interface, Prev: C++ Location Values, Up: C++ Parsers 10.1.4 C++ Parser Interface --------------------------- The output files `OUTPUT.hh' and `OUTPUT.cc' declare and define the parser class in the namespace `yy'. The class name defaults to `parser', but may be changed using `%define parser_class_name "NAME"'. The interface of this class is detailed below. It can be extended using the `%parse-param' feature: its semantics is slightly changed since it describes an additional member of the parser class, and an additional argument for its constructor. -- Type of parser: semantic_value_type -- Type of parser: location_value_type The types for semantics value and locations. -- Method on parser: parser (TYPE1 ARG1, ...) Build a new parser object. There are no arguments by default, unless `%parse-param {TYPE1 ARG1}' was used. -- Method on parser: int parse () Run the syntactic analysis, and return 0 on success, 1 otherwise. -- Method on parser: std::ostream& debug_stream () -- Method on parser: void set_debug_stream (std::ostream& O) Get or set the stream used for tracing the parsing. It defaults to `std::cerr'. -- Method on parser: debug_level_type debug_level () -- Method on parser: void set_debug_level (debug_level L) Get or set the tracing level. Currently its value is either 0, no trace, or nonzero, full tracing. -- Method on parser: void error (const location_type& L, const std::string& M) The definition for this member function must be supplied by the user: the parser uses it to report a parser error occurring at L, described by M.  File: bison.info, Node: C++ Scanner Interface, Next: A Complete C++ Example, Prev: C++ Parser Interface, Up: C++ Parsers 10.1.5 C++ Scanner Interface ---------------------------- The parser invokes the scanner by calling `yylex'. Contrary to C parsers, C++ parsers are always pure: there is no point in using the `%define api.pure' directive. Therefore the interface is as follows. -- Method on parser: int yylex (semantic_value_type& YYLVAL, location_type& YYLLOC, TYPE1 ARG1, ...) Return the next token. Its type is the return value, its semantic value and location being YYLVAL and YYLLOC. Invocations of `%lex-param {TYPE1 ARG1}' yield additional arguments.  File: bison.info, Node: A Complete C++ Example, Prev: C++ Scanner Interface, Up: C++ Parsers 10.1.6 A Complete C++ Example ----------------------------- This section demonstrates the use of a C++ parser with a simple but complete example. This example should be available on your system, ready to compile, in the directory "../bison/examples/calc++". It focuses on the use of Bison, therefore the design of the various C++ classes is very naive: no accessors, no encapsulation of members etc. We will use a Lex scanner, and more precisely, a Flex scanner, to demonstrate the various interaction. A hand written scanner is actually easier to interface with. * Menu: * Calc++ --- C++ Calculator:: The specifications * Calc++ Parsing Driver:: An active parsing context * Calc++ Parser:: A parser class * Calc++ Scanner:: A pure C++ Flex scanner * Calc++ Top Level:: Conducting the band  File: bison.info, Node: Calc++ --- C++ Calculator, Next: Calc++ Parsing Driver, Up: A Complete C++ Example 10.1.6.1 Calc++ -- C++ Calculator ................................. Of course the grammar is dedicated to arithmetics, a single expression, possibly preceded by variable assignments. An environment containing possibly predefined variables such as `one' and `two', is exchanged with the parser. An example of valid input follows. three := 3 seven := one + two * three seven * seven  File: bison.info, Node: Calc++ Parsing Driver, Next: Calc++ Parser, Prev: Calc++ --- C++ Calculator, Up: A Complete C++ Example 10.1.6.2 Calc++ Parsing Driver .............................. To support a pure interface with the parser (and the scanner) the technique of the "parsing context" is convenient: a structure containing all the data to exchange. Since, in addition to simply launch the parsing, there are several auxiliary tasks to execute (open the file for parsing, instantiate the parser etc.), we recommend transforming the simple parsing context structure into a fully blown "parsing driver" class. The declaration of this driver class, `calc++-driver.hh', is as follows. The first part includes the CPP guard and imports the required standard library components, and the declaration of the parser class. #ifndef CALCXX_DRIVER_HH # define CALCXX_DRIVER_HH # include # include # include "calc++-parser.hh" Then comes the declaration of the scanning function. Flex expects the signature of `yylex' to be defined in the macro `YY_DECL', and the C++ parser expects it to be declared. We can factor both as follows. // Tell Flex the lexer's prototype ... # define YY_DECL \ yy::calcxx_parser::token_type \ yylex (yy::calcxx_parser::semantic_type* yylval, \ yy::calcxx_parser::location_type* yylloc, \ calcxx_driver& driver) // ... and declare it for the parser's sake. YY_DECL; The `calcxx_driver' class is then declared with its most obvious members. // Conducting the whole scanning and parsing of Calc++. class calcxx_driver { public: calcxx_driver (); virtual ~calcxx_driver (); std::map variables; int result; To encapsulate the coordination with the Flex scanner, it is useful to have two members function to open and close the scanning phase. // Handling the scanner. void scan_begin (); void scan_end (); bool trace_scanning; Similarly for the parser itself. // Run the parser. Return 0 on success. int parse (const std::string& f); std::string file; bool trace_parsing; To demonstrate pure handling of parse errors, instead of simply dumping them on the standard error output, we will pass them to the compiler driver using the following two member functions. Finally, we close the class declaration and CPP guard. // Error handling. void error (const yy::location& l, const std::string& m); void error (const std::string& m); }; #endif // ! CALCXX_DRIVER_HH The implementation of the driver is straightforward. The `parse' member function deserves some attention. The `error' functions are simple stubs, they should actually register the located error messages and set error state. #include "calc++-driver.hh" #include "calc++-parser.hh" calcxx_driver::calcxx_driver () : trace_scanning (false), trace_parsing (false) { variables["one"] = 1; variables["two"] = 2; } calcxx_driver::~calcxx_driver () { } int calcxx_driver::parse (const std::string &f) { file = f; scan_begin (); yy::calcxx_parser parser (*this); parser.set_debug_level (trace_parsing); int res = parser.parse (); scan_end (); return res; } void calcxx_driver::error (const yy::location& l, const std::string& m) { std::cerr << l << ": " << m << std::endl; } void calcxx_driver::error (const std::string& m) { std::cerr << m << std::endl; }  File: bison.info, Node: Calc++ Parser, Next: Calc++ Scanner, Prev: Calc++ Parsing Driver, Up: A Complete C++ Example 10.1.6.3 Calc++ Parser ...................... The parser definition file `calc++-parser.yy' starts by asking for the C++ LALR(1) skeleton, the creation of the parser header file, and specifies the name of the parser class. Because the C++ skeleton changed several times, it is safer to require the version you designed the grammar for. %skeleton "lalr1.cc" /* -*- C++ -*- */ %require "2.4.2" %defines %define parser_class_name "calcxx_parser" Then come the declarations/inclusions needed to define the `%union'. Because the parser uses the parsing driver and reciprocally, both cannot include the header of the other. Because the driver's header needs detailed knowledge about the parser class (in particular its inner types), it is the parser's header which will simply use a forward declaration of the driver. *Note %code: Decl Summary. %code requires { # include class calcxx_driver; } The driver is passed by reference to the parser and to the scanner. This provides a simple but effective pure interface, not relying on global variables. // The parsing context. %parse-param { calcxx_driver& driver } %lex-param { calcxx_driver& driver } Then we request the location tracking feature, and initialize the first location's file name. Afterward new locations are computed relatively to the previous locations: the file name will be automatically propagated. %locations %initial-action { // Initialize the initial location. @$.begin.filename = @$.end.filename = &driver.file; }; Use the two following directives to enable parser tracing and verbose error messages. %debug %error-verbose Semantic values cannot use "real" objects, but only pointers to them. // Symbols. %union { int ival; std::string *sval; }; The code between `%code {' and `}' is output in the `*.cc' file; it needs detailed knowledge about the driver. %code { # include "calc++-driver.hh" } The token numbered as 0 corresponds to end of file; the following line allows for nicer error messages referring to "end of file" instead of "$end". Similarly user friendly named are provided for each symbol. Note that the tokens names are prefixed by `TOKEN_' to avoid name clashes. %token END 0 "end of file" %token ASSIGN ":=" %token IDENTIFIER "identifier" %token NUMBER "number" %type exp To enable memory deallocation during error recovery, use `%destructor'. %printer { debug_stream () << *$$; } "identifier" %destructor { delete $$; } "identifier" %printer { debug_stream () << $$; } The grammar itself is straightforward. %% %start unit; unit: assignments exp { driver.result = $2; }; assignments: assignments assignment {} | /* Nothing. */ {}; assignment: "identifier" ":=" exp { driver.variables[*$1] = $3; delete $1; }; %left '+' '-'; %left '*' '/'; exp: exp '+' exp { $$ = $1 + $3; } | exp '-' exp { $$ = $1 - $3; } | exp '*' exp { $$ = $1 * $3; } | exp '/' exp { $$ = $1 / $3; } | "identifier" { $$ = driver.variables[*$1]; delete $1; } | "number" { $$ = $1; }; %% Finally the `error' member function registers the errors to the driver. void yy::calcxx_parser::error (const yy::calcxx_parser::location_type& l, const std::string& m) { driver.error (l, m); }  File: bison.info, Node: Calc++ Scanner, Next: Calc++ Top Level, Prev: Calc++ Parser, Up: A Complete C++ Example 10.1.6.4 Calc++ Scanner ....................... The Flex scanner first includes the driver declaration, then the parser's to get the set of defined tokens. %{ /* -*- C++ -*- */ # include # include # include # include # include "calc++-driver.hh" # include "calc++-parser.hh" /* Work around an incompatibility in flex (at least versions 2.5.31 through 2.5.33): it generates code that does not conform to C89. See Debian bug 333231 . */ # undef yywrap # define yywrap() 1 /* By default yylex returns int, we use token_type. Unfortunately yyterminate by default returns 0, which is not of token_type. */ #define yyterminate() return token::END %} Because there is no `#include'-like feature we don't need `yywrap', we don't need `unput' either, and we parse an actual file, this is not an interactive session with the user. Finally we enable the scanner tracing features. %option noyywrap nounput batch debug Abbreviations allow for more readable rules. id [a-zA-Z][a-zA-Z_0-9]* int [0-9]+ blank [ \t] The following paragraph suffices to track locations accurately. Each time `yylex' is invoked, the begin position is moved onto the end position. Then when a pattern is matched, the end position is advanced of its width. In case it matched ends of lines, the end cursor is adjusted, and each time blanks are matched, the begin cursor is moved onto the end cursor to effectively ignore the blanks preceding tokens. Comments would be treated equally. %{ # define YY_USER_ACTION yylloc->columns (yyleng); %} %% %{ yylloc->step (); %} {blank}+ yylloc->step (); [\n]+ yylloc->lines (yyleng); yylloc->step (); The rules are simple, just note the use of the driver to report errors. It is convenient to use a typedef to shorten `yy::calcxx_parser::token::identifier' into `token::identifier' for instance. %{ typedef yy::calcxx_parser::token token; %} /* Convert ints to the actual type of tokens. */ [-+*/] return yy::calcxx_parser::token_type (yytext[0]); ":=" return token::ASSIGN; {int} { errno = 0; long n = strtol (yytext, NULL, 10); if (! (INT_MIN <= n && n <= INT_MAX && errno != ERANGE)) driver.error (*yylloc, "integer is out of range"); yylval->ival = n; return token::NUMBER; } {id} yylval->sval = new std::string (yytext); return token::IDENTIFIER; . driver.error (*yylloc, "invalid character"); %% Finally, because the scanner related driver's member function depend on the scanner's data, it is simpler to implement them in this file. void calcxx_driver::scan_begin () { yy_flex_debug = trace_scanning; if (file == "-") yyin = stdin; else if (!(yyin = fopen (file.c_str (), "r"))) { error (std::string ("cannot open ") + file); exit (1); } } void calcxx_driver::scan_end () { fclose (yyin); }  File: bison.info, Node: Calc++ Top Level, Prev: Calc++ Scanner, Up: A Complete C++ Example 10.1.6.5 Calc++ Top Level ......................... The top level file, `calc++.cc', poses no problem. #include #include "calc++-driver.hh" int main (int argc, char *argv[]) { calcxx_driver driver; for (++argv; argv[0]; ++argv) if (*argv == std::string ("-p")) driver.trace_parsing = true; else if (*argv == std::string ("-s")) driver.trace_scanning = true; else if (!driver.parse (*argv)) std::cout << driver.result << std::endl; }  File: bison.info, Node: Java Parsers, Prev: C++ Parsers, Up: Other Languages 10.2 Java Parsers ================= * Menu: * Java Bison Interface:: Asking for Java parser generation * Java Semantic Values:: %type and %token vs. Java * Java Location Values:: The position and location classes * Java Parser Interface:: Instantiating and running the parser * Java Scanner Interface:: Specifying the scanner for the parser * Java Action Features:: Special features for use in actions * Java Differences:: Differences between C/C++ and Java Grammars * Java Declarations Summary:: List of Bison declarations used with Java  File: bison.info, Node: Java Bison Interface, Next: Java Semantic Values, Up: Java Parsers 10.2.1 Java Bison Interface --------------------------- (The current Java interface is experimental and may evolve. More user feedback will help to stabilize it.) The Java parser skeletons are selected using the `%language "Java"' directive or the `-L java'/`--language=java' option. When generating a Java parser, `bison BASENAME.y' will create a single Java source file named `BASENAME.java'. Using an input file without a `.y' suffix is currently broken. The basename of the output file can be changed by the `%file-prefix' directive or the `-p'/`--name-prefix' option. The entire output file name can be changed by the `%output' directive or the `-o'/`--output' option. The output file contains a single class for the parser. You can create documentation for generated parsers using Javadoc. Contrary to C parsers, Java parsers do not use global variables; the state of the parser is always local to an instance of the parser class. Therefore, all Java parsers are "pure", and the `%pure-parser' and `%define api.pure' directives does not do anything when used in Java. Push parsers are currently unsupported in Java and `%define api.push_pull' have no effect. GLR parsers are currently unsupported in Java. Do not use the `glr-parser' directive. No header file can be generated for Java parsers. Do not use the `%defines' directive or the `-d'/`--defines' options. Currently, support for debugging and verbose errors are always compiled in. Thus the `%debug' and `%token-table' directives and the `-t'/`--debug' and `-k'/`--token-table' options have no effect. This may change in the future to eliminate unused code in the generated parser, so use `%debug' and `%verbose-error' explicitly if needed. Also, in the future the `%token-table' directive might enable a public interface to access the token names and codes.  File: bison.info, Node: Java Semantic Values, Next: Java Location Values, Prev: Java Bison Interface, Up: Java Parsers 10.2.2 Java Semantic Values --------------------------- There is no `%union' directive in Java parsers. Instead, the semantic values' types (class names) should be specified in the `%type' or `%token' directive: %type expr assignment_expr term factor %type number By default, the semantic stack is declared to have `Object' members, which means that the class types you specify can be of any class. To improve the type safety of the parser, you can declare the common superclass of all the semantic values using the `%define stype' directive. For example, after the following declaration: %define stype "ASTNode" any `%type' or `%token' specifying a semantic type which is not a subclass of ASTNode, will cause a compile-time error. Types used in the directives may be qualified with a package name. Primitive data types are accepted for Java version 1.5 or later. Note that in this case the autoboxing feature of Java 1.5 will be used. Generic types may not be used; this is due to a limitation in the implementation of Bison, and may change in future releases. Java parsers do not support `%destructor', since the language adopts garbage collection. The parser will try to hold references to semantic values for as little time as needed. Java parsers do not support `%printer', as `toString()' can be used to print the semantic values. This however may change (in a backwards-compatible way) in future versions of Bison.  File: bison.info, Node: Java Location Values, Next: Java Parser Interface, Prev: Java Semantic Values, Up: Java Parsers 10.2.3 Java Location Values --------------------------- When the directive `%locations' is used, the Java parser supports location tracking, see *note Locations Overview: Locations. An auxiliary user-defined class defines a "position", a single point in a file; Bison itself defines a class representing a "location", a range composed of a pair of positions (possibly spanning several files). The location class is an inner class of the parser; the name is `Location' by default, and may also be renamed using `%define location_type "CLASS-NAME'. The location class treats the position as a completely opaque value. By default, the class name is `Position', but this can be changed with `%define position_type "CLASS-NAME"'. This class must be supplied by the user. -- Instance Variable of Location: Position begin -- Instance Variable of Location: Position end The first, inclusive, position of the range, and the first beyond. -- Constructor on Location: Location (Position LOC) Create a `Location' denoting an empty range located at a given point. -- Constructor on Location: Location (Position BEGIN, Position END) Create a `Location' from the endpoints of the range. -- Method on Location: String toString () Prints the range represented by the location. For this to work properly, the position class should override the `equals' and `toString' methods appropriately.  File: bison.info, Node: Java Parser Interface, Next: Java Scanner Interface, Prev: Java Location Values, Up: Java Parsers 10.2.4 Java Parser Interface ---------------------------- The name of the generated parser class defaults to `YYParser'. The `YY' prefix may be changed using the `%name-prefix' directive or the `-p'/`--name-prefix' option. Alternatively, use `%define parser_class_name "NAME"' to give a custom name to the class. The interface of this class is detailed below. By default, the parser class has package visibility. A declaration `%define public' will change to public visibility. Remember that, according to the Java language specification, the name of the `.java' file should match the name of the class in this case. Similarly, you can use `abstract', `final' and `strictfp' with the `%define' declaration to add other modifiers to the parser class. The Java package name of the parser class can be specified using the `%define package' directive. The superclass and the implemented interfaces of the parser class can be specified with the `%define extends' and `%define implements' directives. The parser class defines an inner class, `Location', that is used for location tracking (see *note Java Location Values::), and a inner interface, `Lexer' (see *note Java Scanner Interface::). Other than these inner class/interface, and the members described in the interface below, all the other members and fields are preceded with a `yy' or `YY' prefix to avoid clashes with user code. The parser class can be extended using the `%parse-param' directive. Each occurrence of the directive will add a `protected final' field to the parser class, and an argument to its constructor, which initialize them automatically. Token names defined by `%token' and the predefined `EOF' token name are added as constant fields to the parser class. -- Constructor on YYParser: YYParser (LEX_PARAM, ..., PARSE_PARAM, ...) Build a new parser object with embedded `%code lexer'. There are no parameters, unless `%parse-param's and/or `%lex-param's are used. -- Constructor on YYParser: YYParser (Lexer LEXER, PARSE_PARAM, ...) Build a new parser object using the specified scanner. There are no additional parameters unless `%parse-param's are used. If the scanner is defined by `%code lexer', this constructor is declared `protected' and is called automatically with a scanner created with the correct `%lex-param's. -- Method on YYParser: boolean parse () Run the syntactic analysis, and return `true' on success, `false' otherwise. -- Method on YYParser: boolean recovering () During the syntactic analysis, return `true' if recovering from a syntax error. *Note Error Recovery::. -- Method on YYParser: java.io.PrintStream getDebugStream () -- Method on YYParser: void setDebugStream (java.io.printStream O) Get or set the stream used for tracing the parsing. It defaults to `System.err'. -- Method on YYParser: int getDebugLevel () -- Method on YYParser: void setDebugLevel (int L) Get or set the tracing level. Currently its value is either 0, no trace, or nonzero, full tracing.  File: bison.info, Node: Java Scanner Interface, Next: Java Action Features, Prev: Java Parser Interface, Up: Java Parsers 10.2.5 Java Scanner Interface ----------------------------- There are two possible ways to interface a Bison-generated Java parser with a scanner: the scanner may be defined by `%code lexer', or defined elsewhere. In either case, the scanner has to implement the `Lexer' inner interface of the parser class. In the first case, the body of the scanner class is placed in `%code lexer' blocks. If you want to pass parameters from the parser constructor to the scanner constructor, specify them with `%lex-param'; they are passed before `%parse-param's to the constructor. In the second case, the scanner has to implement the `Lexer' interface, which is defined within the parser class (e.g., `YYParser.Lexer'). The constructor of the parser object will then accept an object implementing the interface; `%lex-param' is not used in this case. In both cases, the scanner has to implement the following methods. -- Method on Lexer: void yyerror (Location LOC, String MSG) This method is defined by the user to emit an error message. The first parameter is omitted if location tracking is not active. Its type can be changed using `%define location_type "CLASS-NAME".' -- Method on Lexer: int yylex () Return the next token. Its type is the return value, its semantic value and location are saved and returned by the their methods in the interface. Use `%define lex_throws' to specify any uncaught exceptions. Default is `java.io.IOException'. -- Method on Lexer: Position getStartPos () -- Method on Lexer: Position getEndPos () Return respectively the first position of the last token that `yylex' returned, and the first position beyond it. These methods are not needed unless location tracking is active. The return type can be changed using `%define position_type "CLASS-NAME".' -- Method on Lexer: Object getLVal () Return the semantic value of the last token that yylex returned. The return type can be changed using `%define stype "CLASS-NAME".'  File: bison.info, Node: Java Action Features, Next: Java Differences, Prev: Java Scanner Interface, Up: Java Parsers 10.2.6 Special Features for Use in Java Actions ----------------------------------------------- The following special constructs can be uses in Java actions. Other analogous C action features are currently unavailable for Java. Use `%define throws' to specify any uncaught exceptions from parser actions, and initial actions specified by `%initial-action'. -- Variable: $N The semantic value for the Nth component of the current rule. This may not be assigned to. *Note Java Semantic Values::. -- Variable: $N Like `$N' but specifies a alternative type TYPEALT. *Note Java Semantic Values::. -- Variable: $$ The semantic value for the grouping made by the current rule. As a value, this is in the base type (`Object' or as specified by `%define stype') as in not cast to the declared subtype because casts are not allowed on the left-hand side of Java assignments. Use an explicit Java cast if the correct subtype is needed. *Note Java Semantic Values::. -- Variable: $$ Same as `$$' since Java always allow assigning to the base type. Perhaps we should use this and `$<>$' for the value and `$$' for setting the value but there is currently no easy way to distinguish these constructs. *Note Java Semantic Values::. -- Variable: @N The location information of the Nth component of the current rule. This may not be assigned to. *Note Java Location Values::. -- Variable: @$ The location information of the grouping made by the current rule. *Note Java Location Values::. -- Statement: return YYABORT; Return immediately from the parser, indicating failure. *Note Java Parser Interface::. -- Statement: return YYACCEPT; Return immediately from the parser, indicating success. *Note Java Parser Interface::. -- Statement: return YYERROR; Start error recovery without printing an error message. *Note Error Recovery::. -- Function: boolean recovering () Return whether error recovery is being done. In this state, the parser reads token until it reaches a known state, and then restarts normal operation. *Note Error Recovery::. -- Function: protected void yyerror (String msg) -- Function: protected void yyerror (Position pos, String msg) -- Function: protected void yyerror (Location loc, String msg) Print an error message using the `yyerror' method of the scanner instance in use.  File: bison.info, Node: Java Differences, Next: Java Declarations Summary, Prev: Java Action Features, Up: Java Parsers 10.2.7 Differences between C/C++ and Java Grammars -------------------------------------------------- The different structure of the Java language forces several differences between C/C++ grammars, and grammars designed for Java parsers. This section summarizes these differences. * Java lacks a preprocessor, so the `YYERROR', `YYACCEPT', `YYABORT' symbols (*note Table of Symbols::) cannot obviously be macros. Instead, they should be preceded by `return' when they appear in an action. The actual definition of these symbols is opaque to the Bison grammar, and it might change in the future. The only meaningful operation that you can do, is to return them. See *note Java Action Features::. Note that of these three symbols, only `YYACCEPT' and `YYABORT' will cause a return from the `yyparse' method(1). * Java lacks unions, so `%union' has no effect. Instead, semantic values have a common base type: `Object' or as specified by `%define stype'. Angle brackets on `%token', `type', `$N' and `$$' specify subtypes rather than fields of an union. The type of `$$', even with angle brackets, is the base type since Java casts are not allow on the left-hand side of assignments. Also, `$N' and `@N' are not allowed on the left-hand side of assignments. See *note Java Semantic Values:: and *note Java Action Features::. * The prologue declarations have a different meaning than in C/C++ code. `%code imports' blocks are placed at the beginning of the Java source code. They may include copyright notices. For a `package' declarations, it is suggested to use `%define package' instead. unqualified `%code' blocks are placed inside the parser class. `%code lexer' blocks, if specified, should include the implementation of the scanner. If there is no such block, the scanner can be any class that implements the appropriate interface (see *note Java Scanner Interface::). Other `%code' blocks are not supported in Java parsers. In particular, `%{ ... %}' blocks should not be used and may give an error in future versions of Bison. The epilogue has the same meaning as in C/C++ code and it can be used to define other classes used by the parser _outside_ the parser class. ---------- Footnotes ---------- (1) Java parsers include the actions in a separate method than `yyparse' in order to have an intuitive syntax that corresponds to these C macros.  File: bison.info, Node: Java Declarations Summary, Prev: Java Differences, Up: Java Parsers 10.2.8 Java Declarations Summary -------------------------------- This summary only include declarations specific to Java or have special meaning when used in a Java parser. -- Directive: %language "Java" Generate a Java class for the parser. -- Directive: %lex-param {TYPE NAME} A parameter for the lexer class defined by `%code lexer' _only_, added as parameters to the lexer constructor and the parser constructor that _creates_ a lexer. Default is none. *Note Java Scanner Interface::. -- Directive: %name-prefix "PREFIX" The prefix of the parser class name `PREFIXParser' if `%define parser_class_name' is not used. Default is `YY'. *Note Java Bison Interface::. -- Directive: %parse-param {TYPE NAME} A parameter for the parser class added as parameters to constructor(s) and as fields initialized by the constructor(s). Default is none. *Note Java Parser Interface::. -- Directive: %token TOKEN ... Declare tokens. Note that the angle brackets enclose a Java _type_. *Note Java Semantic Values::. -- Directive: %type NONTERMINAL ... Declare the type of nonterminals. Note that the angle brackets enclose a Java _type_. *Note Java Semantic Values::. -- Directive: %code { CODE ... } Code appended to the inside of the parser class. *Note Java Differences::. -- Directive: %code imports { CODE ... } Code inserted just after the `package' declaration. *Note Java Differences::. -- Directive: %code lexer { CODE ... } Code added to the body of a inner lexer class within the parser class. *Note Java Scanner Interface::. -- Directive: %% CODE ... Code (after the second `%%') appended to the end of the file, _outside_ the parser class. *Note Java Differences::. -- Directive: %{ CODE ... %} Not supported. Use `%code import' instead. *Note Java Differences::. -- Directive: %define abstract Whether the parser class is declared `abstract'. Default is false. *Note Java Bison Interface::. -- Directive: %define extends "SUPERCLASS" The superclass of the parser class. Default is none. *Note Java Bison Interface::. -- Directive: %define final Whether the parser class is declared `final'. Default is false. *Note Java Bison Interface::. -- Directive: %define implements "INTERFACES" The implemented interfaces of the parser class, a comma-separated list. Default is none. *Note Java Bison Interface::. -- Directive: %define lex_throws "EXCEPTIONS" The exceptions thrown by the `yylex' method of the lexer, a comma-separated list. Default is `java.io.IOException'. *Note Java Scanner Interface::. -- Directive: %define location_type "CLASS" The name of the class used for locations (a range between two positions). This class is generated as an inner class of the parser class by `bison'. Default is `Location'. *Note Java Location Values::. -- Directive: %define package "PACKAGE" The package to put the parser class in. Default is none. *Note Java Bison Interface::. -- Directive: %define parser_class_name "NAME" The name of the parser class. Default is `YYParser' or `NAME-PREFIXParser'. *Note Java Bison Interface::. -- Directive: %define position_type "CLASS" The name of the class used for positions. This class must be supplied by the user. Default is `Position'. *Note Java Location Values::. -- Directive: %define public Whether the parser class is declared `public'. Default is false. *Note Java Bison Interface::. -- Directive: %define stype "CLASS" The base type of semantic values. Default is `Object'. *Note Java Semantic Values::. -- Directive: %define strictfp Whether the parser class is declared `strictfp'. Default is false. *Note Java Bison Interface::. -- Directive: %define throws "EXCEPTIONS" The exceptions thrown by user-supplied parser actions and `%initial-action', a comma-separated list. Default is none. *Note Java Parser Interface::.  File: bison.info, Node: FAQ, Next: Table of Symbols, Prev: Other Languages, Up: Top 11 Frequently Asked Questions ***************************** Several questions about Bison come up occasionally. Here some of them are addressed. * Menu: * Memory Exhausted:: Breaking the Stack Limits * How Can I Reset the Parser:: `yyparse' Keeps some State * Strings are Destroyed:: `yylval' Loses Track of Strings * Implementing Gotos/Loops:: Control Flow in the Calculator * Multiple start-symbols:: Factoring closely related grammars * Secure? Conform?:: Is Bison POSIX safe? * I can't build Bison:: Troubleshooting * Where can I find help?:: Troubleshouting * Bug Reports:: Troublereporting * More Languages:: Parsers in C++, Java, and so on * Beta Testing:: Experimenting development versions * Mailing Lists:: Meeting other Bison users  File: bison.info, Node: Memory Exhausted, Next: How Can I Reset the Parser, Up: FAQ 11.1 Memory Exhausted ===================== My parser returns with error with a `memory exhausted' message. What can I do? This question is already addressed elsewhere, *Note Recursive Rules: Recursion.  File: bison.info, Node: How Can I Reset the Parser, Next: Strings are Destroyed, Prev: Memory Exhausted, Up: FAQ 11.2 How Can I Reset the Parser =============================== The following phenomenon has several symptoms, resulting in the following typical questions: I invoke `yyparse' several times, and on correct input it works properly; but when a parse error is found, all the other calls fail too. How can I reset the error flag of `yyparse'? or My parser includes support for an `#include'-like feature, in which case I run `yyparse' from `yyparse'. This fails although I did specify `%define api.pure'. These problems typically come not from Bison itself, but from Lex-generated scanners. Because these scanners use large buffers for speed, they might not notice a change of input file. As a demonstration, consider the following source file, `first-line.l': %{ #include #include %} %% .*\n ECHO; return 1; %% int yyparse (char const *file) { yyin = fopen (file, "r"); if (!yyin) exit (2); /* One token only. */ yylex (); if (fclose (yyin) != 0) exit (3); return 0; } int main (void) { yyparse ("input"); yyparse ("input"); return 0; } If the file `input' contains input:1: Hello, input:2: World! then instead of getting the first line twice, you get: $ flex -ofirst-line.c first-line.l $ gcc -ofirst-line first-line.c -ll $ ./first-line input:1: Hello, input:2: World! Therefore, whenever you change `yyin', you must tell the Lex-generated scanner to discard its current buffer and switch to the new one. This depends upon your implementation of Lex; see its documentation for more. For Flex, it suffices to call `YY_FLUSH_BUFFER' after each change to `yyin'. If your Flex-generated scanner needs to read from several input streams to handle features like include files, you might consider using Flex functions like `yy_switch_to_buffer' that manipulate multiple input buffers. If your Flex-generated scanner uses start conditions (*note Start conditions: (flex)Start conditions.), you might also want to reset the scanner's state, i.e., go back to the initial start condition, through a call to `BEGIN (0)'.  File: bison.info, Node: Strings are Destroyed, Next: Implementing Gotos/Loops, Prev: How Can I Reset the Parser, Up: FAQ 11.3 Strings are Destroyed ========================== My parser seems to destroy old strings, or maybe it loses track of them. Instead of reporting `"foo", "bar"', it reports `"bar", "bar"', or even `"foo\nbar", "bar"'. This error is probably the single most frequent "bug report" sent to Bison lists, but is only concerned with a misunderstanding of the role of the scanner. Consider the following Lex code: %{ #include char *yylval = NULL; %} %% .* yylval = yytext; return 1; \n /* IGNORE */ %% int main () { /* Similar to using $1, $2 in a Bison action. */ char *fst = (yylex (), yylval); char *snd = (yylex (), yylval); printf ("\"%s\", \"%s\"\n", fst, snd); return 0; } If you compile and run this code, you get: $ flex -osplit-lines.c split-lines.l $ gcc -osplit-lines split-lines.c -ll $ printf 'one\ntwo\n' | ./split-lines "one two", "two" this is because `yytext' is a buffer provided for _reading_ in the action, but if you want to keep it, you have to duplicate it (e.g., using `strdup'). Note that the output may depend on how your implementation of Lex handles `yytext'. For instance, when given the Lex compatibility option `-l' (which triggers the option `%array') Flex generates a different behavior: $ flex -l -osplit-lines.c split-lines.l $ gcc -osplit-lines split-lines.c -ll $ printf 'one\ntwo\n' | ./split-lines "two", "two"  File: bison.info, Node: Implementing Gotos/Loops, Next: Multiple start-symbols, Prev: Strings are Destroyed, Up: FAQ 11.4 Implementing Gotos/Loops ============================= My simple calculator supports variables, assignments, and functions, but how can I implement gotos, or loops? Although very pedagogical, the examples included in the document blur the distinction to make between the parser--whose job is to recover the structure of a text and to transmit it to subsequent modules of the program--and the processing (such as the execution) of this structure. This works well with so called straight line programs, i.e., precisely those that have a straightforward execution model: execute simple instructions one after the others. If you want a richer model, you will probably need to use the parser to construct a tree that does represent the structure it has recovered; this tree is usually called the "abstract syntax tree", or "AST" for short. Then, walking through this tree, traversing it in various ways, will enable treatments such as its execution or its translation, which will result in an interpreter or a compiler. This topic is way beyond the scope of this manual, and the reader is invited to consult the dedicated literature.  File: bison.info, Node: Multiple start-symbols, Next: Secure? Conform?, Prev: Implementing Gotos/Loops, Up: FAQ 11.5 Multiple start-symbols =========================== I have several closely related grammars, and I would like to share their implementations. In fact, I could use a single grammar but with multiple entry points. Bison does not support multiple start-symbols, but there is a very simple means to simulate them. If `foo' and `bar' are the two pseudo start-symbols, then introduce two new tokens, say `START_FOO' and `START_BAR', and use them as switches from the real start-symbol: %token START_FOO START_BAR; %start start; start: START_FOO foo | START_BAR bar; These tokens prevents the introduction of new conflicts. As far as the parser goes, that is all that is needed. Now the difficult part is ensuring that the scanner will send these tokens first. If your scanner is hand-written, that should be straightforward. If your scanner is generated by Lex, them there is simple means to do it: recall that anything between `%{ ... %}' after the first `%%' is copied verbatim in the top of the generated `yylex' function. Make sure a variable `start_token' is available in the scanner (e.g., a global variable or using `%lex-param' etc.), and use the following: /* Prologue. */ %% %{ if (start_token) { int t = start_token; start_token = 0; return t; } %} /* The rules. */  File: bison.info, Node: Secure? Conform?, Next: I can't build Bison, Prev: Multiple start-symbols, Up: FAQ 11.6 Secure? Conform? ====================== Is Bison secure? Does it conform to POSIX? If you're looking for a guarantee or certification, we don't provide it. However, Bison is intended to be a reliable program that conforms to the POSIX specification for Yacc. If you run into problems, please send us a bug report.  File: bison.info, Node: I can't build Bison, Next: Where can I find help?, Prev: Secure? Conform?, Up: FAQ 11.7 I can't build Bison ======================== I can't build Bison because `make' complains that `msgfmt' is not found. What should I do? Like most GNU packages with internationalization support, that feature is turned on by default. If you have problems building in the `po' subdirectory, it indicates that your system's internationalization support is lacking. You can re-configure Bison with `--disable-nls' to turn off this support, or you can install GNU gettext from `ftp://ftp.gnu.org/gnu/gettext/' and re-configure Bison. See the file `ABOUT-NLS' for more information.  File: bison.info, Node: Where can I find help?, Next: Bug Reports, Prev: I can't build Bison, Up: FAQ 11.8 Where can I find help? =========================== I'm having trouble using Bison. Where can I find help? First, read this fine manual. Beyond that, you can send mail to . This mailing list is intended to be populated with people who are willing to answer questions about using and installing Bison. Please keep in mind that (most of) the people on the list have aspects of their lives which are not related to Bison (!), so you may not receive an answer to your question right away. This can be frustrating, but please try not to honk them off; remember that any help they provide is purely voluntary and out of the kindness of their hearts.  File: bison.info, Node: Bug Reports, Next: More Languages, Prev: Where can I find help?, Up: FAQ 11.9 Bug Reports ================ I found a bug. What should I include in the bug report? Before you send a bug report, make sure you are using the latest version. Check `ftp://ftp.gnu.org/pub/gnu/bison/' or one of its mirrors. Be sure to include the version number in your bug report. If the bug is present in the latest version but not in a previous version, try to determine the most recent version which did not contain the bug. If the bug is parser-related, you should include the smallest grammar you can which demonstrates the bug. The grammar file should also be complete (i.e., I should be able to run it through Bison without having to edit or add anything). The smaller and simpler the grammar, the easier it will be to fix the bug. Include information about your compilation environment, including your operating system's name and version and your compiler's name and version. If you have trouble compiling, you should also include a transcript of the build session, starting with the invocation of `configure'. Depending on the nature of the bug, you may be asked to send additional files as well (such as `config.h' or `config.cache'). Patches are most welcome, but not required. That is, do not hesitate to send a bug report just because you can not provide a fix. Send bug reports to .  File: bison.info, Node: More Languages, Next: Beta Testing, Prev: Bug Reports, Up: FAQ 11.10 More Languages ==================== Will Bison ever have C++ and Java support? How about INSERT YOUR FAVORITE LANGUAGE HERE? C++ and Java support is there now, and is documented. We'd love to add other languages; contributions are welcome.  File: bison.info, Node: Beta Testing, Next: Mailing Lists, Prev: More Languages, Up: FAQ 11.11 Beta Testing ================== What is involved in being a beta tester? It's not terribly involved. Basically, you would download a test release, compile it, and use it to build and run a parser or two. After that, you would submit either a bug report or a message saying that everything is okay. It is important to report successes as well as failures because test releases eventually become mainstream releases, but only if they are adequately tested. If no one tests, development is essentially halted. Beta testers are particularly needed for operating systems to which the developers do not have easy access. They currently have easy access to recent GNU/Linux and Solaris versions. Reports about other operating systems are especially welcome.  File: bison.info, Node: Mailing Lists, Prev: Beta Testing, Up: FAQ 11.12 Mailing Lists =================== How do I join the help-bison and bug-bison mailing lists? See `http://lists.gnu.org/'.  File: bison.info, Node: Table of Symbols, Next: Glossary, Prev: FAQ, Up: Top Appendix A Bison Symbols ************************ -- Variable: @$ In an action, the location of the left-hand side of the rule. *Note Locations Overview: Locations. -- Variable: @N In an action, the location of the N-th symbol of the right-hand side of the rule. *Note Locations Overview: Locations. -- Variable: $$ In an action, the semantic value of the left-hand side of the rule. *Note Actions::. -- Variable: $N In an action, the semantic value of the N-th symbol of the right-hand side of the rule. *Note Actions::. -- Delimiter: %% Delimiter used to separate the grammar rule section from the Bison declarations section or the epilogue. *Note The Overall Layout of a Bison Grammar: Grammar Layout. -- Delimiter: %{CODE%} All code listed between `%{' and `%}' is copied directly to the output file uninterpreted. Such code forms the prologue of the input file. *Note Outline of a Bison Grammar: Grammar Outline. -- Construct: /*...*/ Comment delimiters, as in C. -- Delimiter: : Separates a rule's result from its components. *Note Syntax of Grammar Rules: Rules. -- Delimiter: ; Terminates a rule. *Note Syntax of Grammar Rules: Rules. -- Delimiter: | Separates alternate rules for the same result nonterminal. *Note Syntax of Grammar Rules: Rules. -- Directive: <*> Used to define a default tagged `%destructor' or default tagged `%printer'. This feature is experimental. More user feedback will help to determine whether it should become a permanent feature. *Note Freeing Discarded Symbols: Destructor Decl. -- Directive: <> Used to define a default tagless `%destructor' or default tagless `%printer'. This feature is experimental. More user feedback will help to determine whether it should become a permanent feature. *Note Freeing Discarded Symbols: Destructor Decl. -- Symbol: $accept The predefined nonterminal whose only rule is `$accept: START $end', where START is the start symbol. *Note The Start-Symbol: Start Decl. It cannot be used in the grammar. -- Directive: %code {CODE} -- Directive: %code QUALIFIER {CODE} Insert CODE verbatim into output parser source. *Note %code: Decl Summary. -- Directive: %debug Equip the parser for debugging. *Note Decl Summary::. -- Directive: %define DEFINE-VARIABLE -- Directive: %define DEFINE-VARIABLE VALUE Define a variable to adjust Bison's behavior. *Note %define: Decl Summary. -- Directive: %defines Bison declaration to create a header file meant for the scanner. *Note Decl Summary::. -- Directive: %defines DEFINES-FILE Same as above, but save in the file DEFINES-FILE. *Note Decl Summary::. -- Directive: %destructor Specify how the parser should reclaim the memory associated to discarded symbols. *Note Freeing Discarded Symbols: Destructor Decl. -- Directive: %dprec Bison declaration to assign a precedence to a rule that is used at parse time to resolve reduce/reduce conflicts. *Note Writing GLR Parsers: GLR Parsers. -- Symbol: $end The predefined token marking the end of the token stream. It cannot be used in the grammar. -- Symbol: error A token name reserved for error recovery. This token may be used in grammar rules so as to allow the Bison parser to recognize an error in the grammar without halting the process. In effect, a sentence containing an error may be recognized as valid. On a syntax error, the token `error' becomes the current lookahead token. Actions corresponding to `error' are then executed, and the lookahead token is reset to the token that originally caused the violation. *Note Error Recovery::. -- Directive: %error-verbose Bison declaration to request verbose, specific error message strings when `yyerror' is called. -- Directive: %file-prefix "PREFIX" Bison declaration to set the prefix of the output files. *Note Decl Summary::. -- Directive: %glr-parser Bison declaration to produce a GLR parser. *Note Writing GLR Parsers: GLR Parsers. -- Directive: %initial-action Run user code before parsing. *Note Performing Actions before Parsing: Initial Action Decl. -- Directive: %language Specify the programming language for the generated parser. *Note Decl Summary::. -- Directive: %left Bison declaration to assign left associativity to token(s). *Note Operator Precedence: Precedence Decl. -- Directive: %lex-param {ARGUMENT-DECLARATION} Bison declaration to specifying an additional parameter that `yylex' should accept. *Note Calling Conventions for Pure Parsers: Pure Calling. -- Directive: %merge Bison declaration to assign a merging function to a rule. If there is a reduce/reduce conflict with a rule having the same merging function, the function is applied to the two semantic values to get a single result. *Note Writing GLR Parsers: GLR Parsers. -- Directive: %name-prefix "PREFIX" Bison declaration to rename the external symbols. *Note Decl Summary::. -- Directive: %no-lines Bison declaration to avoid generating `#line' directives in the parser file. *Note Decl Summary::. -- Directive: %nonassoc Bison declaration to assign nonassociativity to token(s). *Note Operator Precedence: Precedence Decl. -- Directive: %output "FILE" Bison declaration to set the name of the parser file. *Note Decl Summary::. -- Directive: %parse-param {ARGUMENT-DECLARATION} Bison declaration to specifying an additional parameter that `yyparse' should accept. *Note The Parser Function `yyparse': Parser Function. -- Directive: %prec Bison declaration to assign a precedence to a specific rule. *Note Context-Dependent Precedence: Contextual Precedence. -- Directive: %pure-parser Deprecated version of `%define api.pure' (*note %define: Decl Summary.), for which Bison is more careful to warn about unreasonable usage. -- Directive: %require "VERSION" Require version VERSION or higher of Bison. *Note Require a Version of Bison: Require Decl. -- Directive: %right Bison declaration to assign right associativity to token(s). *Note Operator Precedence: Precedence Decl. -- Directive: %skeleton Specify the skeleton to use; usually for development. *Note Decl Summary::. -- Directive: %start Bison declaration to specify the start symbol. *Note The Start-Symbol: Start Decl. -- Directive: %token Bison declaration to declare token(s) without specifying precedence. *Note Token Type Names: Token Decl. -- Directive: %token-table Bison declaration to include a token name table in the parser file. *Note Decl Summary::. -- Directive: %type Bison declaration to declare nonterminals. *Note Nonterminal Symbols: Type Decl. -- Symbol: $undefined The predefined token onto which all undefined values returned by `yylex' are mapped. It cannot be used in the grammar, rather, use `error'. -- Directive: %union Bison declaration to specify several possible data types for semantic values. *Note The Collection of Value Types: Union Decl. -- Macro: YYABORT Macro to pretend that an unrecoverable syntax error has occurred, by making `yyparse' return 1 immediately. The error reporting function `yyerror' is not called. *Note The Parser Function `yyparse': Parser Function. For Java parsers, this functionality is invoked using `return YYABORT;' instead. -- Macro: YYACCEPT Macro to pretend that a complete utterance of the language has been read, by making `yyparse' return 0 immediately. *Note The Parser Function `yyparse': Parser Function. For Java parsers, this functionality is invoked using `return YYACCEPT;' instead. -- Macro: YYBACKUP Macro to discard a value from the parser stack and fake a lookahead token. *Note Special Features for Use in Actions: Action Features. -- Variable: yychar External integer variable that contains the integer value of the lookahead token. (In a pure parser, it is a local variable within `yyparse'.) Error-recovery rule actions may examine this variable. *Note Special Features for Use in Actions: Action Features. -- Variable: yyclearin Macro used in error-recovery rule actions. It clears the previous lookahead token. *Note Error Recovery::. -- Macro: YYDEBUG Macro to define to equip the parser with tracing code. *Note Tracing Your Parser: Tracing. -- Variable: yydebug External integer variable set to zero by default. If `yydebug' is given a nonzero value, the parser will output information on input symbols and parser action. *Note Tracing Your Parser: Tracing. -- Macro: yyerrok Macro to cause parser to recover immediately to its normal mode after a syntax error. *Note Error Recovery::. -- Macro: YYERROR Macro to pretend that a syntax error has just been detected: call `yyerror' and then perform normal error recovery if possible (*note Error Recovery::), or (if recovery is impossible) make `yyparse' return 1. *Note Error Recovery::. For Java parsers, this functionality is invoked using `return YYERROR;' instead. -- Function: yyerror User-supplied function to be called by `yyparse' on error. *Note The Error Reporting Function `yyerror': Error Reporting. -- Macro: YYERROR_VERBOSE An obsolete macro that you define with `#define' in the prologue to request verbose, specific error message strings when `yyerror' is called. It doesn't matter what definition you use for `YYERROR_VERBOSE', just whether you define it. Using `%error-verbose' is preferred. -- Macro: YYINITDEPTH Macro for specifying the initial size of the parser stack. *Note Memory Management::. -- Function: yylex User-supplied lexical analyzer function, called with no arguments to get the next token. *Note The Lexical Analyzer Function `yylex': Lexical. -- Macro: YYLEX_PARAM An obsolete macro for specifying an extra argument (or list of extra arguments) for `yyparse' to pass to `yylex'. The use of this macro is deprecated, and is supported only for Yacc like parsers. *Note Calling Conventions for Pure Parsers: Pure Calling. -- Variable: yylloc External variable in which `yylex' should place the line and column numbers associated with a token. (In a pure parser, it is a local variable within `yyparse', and its address is passed to `yylex'.) You can ignore this variable if you don't use the `@' feature in the grammar actions. *Note Textual Locations of Tokens: Token Locations. In semantic actions, it stores the location of the lookahead token. *Note Actions and Locations: Actions and Locations. -- Type: YYLTYPE Data type of `yylloc'; by default, a structure with four members. *Note Data Types of Locations: Location Type. -- Variable: yylval External variable in which `yylex' should place the semantic value associated with a token. (In a pure parser, it is a local variable within `yyparse', and its address is passed to `yylex'.) *Note Semantic Values of Tokens: Token Values. In semantic actions, it stores the semantic value of the lookahead token. *Note Actions: Actions. -- Macro: YYMAXDEPTH Macro for specifying the maximum size of the parser stack. *Note Memory Management::. -- Variable: yynerrs Global variable which Bison increments each time it reports a syntax error. (In a pure parser, it is a local variable within `yyparse'. In a pure push parser, it is a member of yypstate.) *Note The Error Reporting Function `yyerror': Error Reporting. -- Function: yyparse The parser function produced by Bison; call this function to start parsing. *Note The Parser Function `yyparse': Parser Function. -- Function: yypstate_delete The function to delete a parser instance, produced by Bison in push mode; call this function to delete the memory associated with a parser. *Note The Parser Delete Function `yypstate_delete': Parser Delete Function. (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) -- Function: yypstate_new The function to create a parser instance, produced by Bison in push mode; call this function to create a new parser. *Note The Parser Create Function `yypstate_new': Parser Create Function. (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) -- Function: yypull_parse The parser function produced by Bison in push mode; call this function to parse the rest of the input stream. *Note The Pull Parser Function `yypull_parse': Pull Parser Function. (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) -- Function: yypush_parse The parser function produced by Bison in push mode; call this function to parse a single token. *Note The Push Parser Function `yypush_parse': Push Parser Function. (The current push parsing interface is experimental and may evolve. More user feedback will help to stabilize it.) -- Macro: YYPARSE_PARAM An obsolete macro for specifying the name of a parameter that `yyparse' should accept. The use of this macro is deprecated, and is supported only for Yacc like parsers. *Note Calling Conventions for Pure Parsers: Pure Calling. -- Macro: YYRECOVERING The expression `YYRECOVERING ()' yields 1 when the parser is recovering from a syntax error, and 0 otherwise. *Note Special Features for Use in Actions: Action Features. -- Macro: YYSTACK_USE_ALLOCA Macro used to control the use of `alloca' when the C LALR(1) parser needs to extend its stacks. If defined to 0, the parser will use `malloc' to extend its stacks. If defined to 1, the parser will use `alloca'. Values other than 0 and 1 are reserved for future Bison extensions. If not defined, `YYSTACK_USE_ALLOCA' defaults to 0. In the all-too-common case where your code may run on a host with a limited stack and with unreliable stack-overflow checking, you should set `YYMAXDEPTH' to a value that cannot possibly result in unchecked stack overflow on any of your target hosts when `alloca' is called. You can inspect the code that Bison generates in order to determine the proper numeric values. This will require some expertise in low-level implementation details. -- Type: YYSTYPE Data type of semantic values; `int' by default. *Note Data Types of Semantic Values: Value Type.  File: bison.info, Node: Glossary, Next: Copying This Manual, Prev: Table of Symbols, Up: Top Appendix B Glossary ******************* Backus-Naur Form (BNF; also called "Backus Normal Form") Formal method of specifying context-free grammars originally proposed by John Backus, and slightly improved by Peter Naur in his 1960-01-02 committee document contributing to what became the Algol 60 report. *Note Languages and Context-Free Grammars: Language and Grammar. Context-free grammars Grammars specified as rules that can be applied regardless of context. Thus, if there is a rule which says that an integer can be used as an expression, integers are allowed _anywhere_ an expression is permitted. *Note Languages and Context-Free Grammars: Language and Grammar. Dynamic allocation Allocation of memory that occurs during execution, rather than at compile time or on entry to a function. Empty string Analogous to the empty set in set theory, the empty string is a character string of length zero. Finite-state stack machine A "machine" that has discrete states in which it is said to exist at each instant in time. As input to the machine is processed, the machine moves from state to state as specified by the logic of the machine. In the case of the parser, the input is the language being parsed, and the states correspond to various stages in the grammar rules. *Note The Bison Parser Algorithm: Algorithm. Generalized LR (GLR) A parsing algorithm that can handle all context-free grammars, including those that are not LALR(1). It resolves situations that Bison's usual LALR(1) algorithm cannot by effectively splitting off multiple parsers, trying all possible parsers, and discarding those that fail in the light of additional right context. *Note Generalized LR Parsing: Generalized LR Parsing. Grouping A language construct that is (in general) grammatically divisible; for example, `expression' or `declaration' in C. *Note Languages and Context-Free Grammars: Language and Grammar. Infix operator An arithmetic operator that is placed between the operands on which it performs some operation. Input stream A continuous flow of data between devices or programs. Language construct One of the typical usage schemas of the language. For example, one of the constructs of the C language is the `if' statement. *Note Languages and Context-Free Grammars: Language and Grammar. Left associativity Operators having left associativity are analyzed from left to right: `a+b+c' first computes `a+b' and then combines with `c'. *Note Operator Precedence: Precedence. Left recursion A rule whose result symbol is also its first component symbol; for example, `expseq1 : expseq1 ',' exp;'. *Note Recursive Rules: Recursion. Left-to-right parsing Parsing a sentence of a language by analyzing it token by token from left to right. *Note The Bison Parser Algorithm: Algorithm. Lexical analyzer (scanner) A function that reads an input stream and returns tokens one by one. *Note The Lexical Analyzer Function `yylex': Lexical. Lexical tie-in A flag, set by actions in the grammar rules, which alters the way tokens are parsed. *Note Lexical Tie-ins::. Literal string token A token which consists of two or more fixed characters. *Note Symbols::. Lookahead token A token already read but not yet shifted. *Note Lookahead Tokens: Lookahead. LALR(1) The class of context-free grammars that Bison (like most other parser generators) can handle; a subset of LR(1). *Note Mysterious Reduce/Reduce Conflicts: Mystery Conflicts. LR(1) The class of context-free grammars in which at most one token of lookahead is needed to disambiguate the parsing of any piece of input. Nonterminal symbol A grammar symbol standing for a grammatical construct that can be expressed through rules in terms of smaller constructs; in other words, a construct that is not a token. *Note Symbols::. Parser A function that recognizes valid sentences of a language by analyzing the syntax structure of a set of tokens passed to it from a lexical analyzer. Postfix operator An arithmetic operator that is placed after the operands upon which it performs some operation. Reduction Replacing a string of nonterminals and/or terminals with a single nonterminal, according to a grammar rule. *Note The Bison Parser Algorithm: Algorithm. Reentrant A reentrant subprogram is a subprogram which can be in invoked any number of times in parallel, without interference between the various invocations. *Note A Pure (Reentrant) Parser: Pure Decl. Reverse polish notation A language in which all operators are postfix operators. Right recursion A rule whose result symbol is also its last component symbol; for example, `expseq1: exp ',' expseq1;'. *Note Recursive Rules: Recursion. Semantics In computer languages, the semantics are specified by the actions taken for each instance of the language, i.e., the meaning of each statement. *Note Defining Language Semantics: Semantics. Shift A parser is said to shift when it makes the choice of analyzing further input from the stream rather than reducing immediately some already-recognized rule. *Note The Bison Parser Algorithm: Algorithm. Single-character literal A single character that is recognized and interpreted as is. *Note From Formal Rules to Bison Input: Grammar in Bison. Start symbol The nonterminal symbol that stands for a complete valid utterance in the language being parsed. The start symbol is usually listed as the first nonterminal symbol in a language specification. *Note The Start-Symbol: Start Decl. Symbol table A data structure where symbol names and associated data are stored during parsing to allow for recognition and use of existing information in repeated uses of a symbol. *Note Multi-function Calc::. Syntax error An error encountered during parsing of an input stream due to invalid syntax. *Note Error Recovery::. Token A basic, grammatically indivisible unit of a language. The symbol that describes a token in the grammar is a terminal symbol. The input of the Bison parser is a stream of tokens which comes from the lexical analyzer. *Note Symbols::. Terminal symbol A grammar symbol that has no rules in the grammar and therefore is grammatically indivisible. The piece of text it represents is a token. *Note Languages and Context-Free Grammars: Language and Grammar.  File: bison.info, Node: Copying This Manual, Next: Index, Prev: Glossary, Up: Top Appendix C Copying This Manual ****************************** Version 1.2, November 2002 Copyright (C) 2000,2001,2002 Free Software Foundation, Inc. 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 0. PREAMBLE The purpose of this License is to make a manual, textbook, or other functional and useful document "free" in the sense of freedom: to assure everyone the effective freedom to copy and redistribute it, with or without modifying it, either commercially or noncommercially. Secondarily, this License preserves for the author and publisher a way to get credit for their work, while not being considered responsible for modifications made by others. This License is a kind of "copyleft", which means that derivative works of the document must themselves be free in the same sense. It complements the GNU General Public License, which is a copyleft license designed for free software. We have designed this License in order to use it for manuals for free software, because free software needs free documentation: a free program should come with manuals providing the same freedoms that the software does. But this License is not limited to software manuals; it can be used for any textual work, regardless of subject matter or whether it is published as a printed book. We recommend this License principally for works whose purpose is instruction or reference. 1. APPLICABILITY AND DEFINITIONS This License applies to any manual or other work, in any medium, that contains a notice placed by the copyright holder saying it can be distributed under the terms of this License. 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File: bison.info, Node: Index, Prev: Copying This Manual, Up: Top Index ***** [index] * Menu: * $ <1>: Table of Symbols. (line 19) * $ <2>: Java Action Features. (line 13) * $: Action Features. (line 14) * $$ <1>: Table of Symbols. (line 15) * $$ <2>: Java Action Features. (line 21) * $$ <3>: Action Features. (line 10) * $$: Actions. (line 6) * $< <1>: Java Action Features. (line 17) * $<: Action Features. (line 18) * $accept: Table of Symbols. (line 65) * $end: Table of Symbols. (line 101) * $N: Actions. (line 6) * $undefined: Table of Symbols. (line 209) * % <1>: Table of Symbols. (line 28) * %: Java Declarations Summary. (line 53) * %% <1>: Table of Symbols. (line 23) * %%: Java Declarations Summary. (line 49) * %code <1>: Table of Symbols. (line 70) * %code <2>: Java Declarations Summary. (line 37) * %code <3>: Calc++ Parser. (line 64) * %code <4>: Decl Summary. (line 46) * %code: Prologue Alternatives. (line 6) * %code imports <1>: Java Declarations Summary. (line 41) * %code imports: Decl Summary. (line 111) * %code lexer: Java Declarations Summary. (line 45) * %code provides <1>: Decl Summary. (line 82) * %code provides: Prologue Alternatives. (line 6) * %code requires <1>: Calc++ Parser. (line 17) * %code requires <2>: Decl Summary. (line 68) * %code requires: Prologue Alternatives. (line 6) * %code top <1>: Decl Summary. (line 94) * %code top: Prologue Alternatives. (line 6) * %debug <1>: Table of Symbols. (line 75) * %debug <2>: Tracing. (line 23) * %debug: Decl Summary. (line 126) * %define <1>: Table of Symbols. (line 78) * %define: Decl Summary. (line 131) * %define abstract: Java Declarations Summary. (line 57) * %define api.pure <1>: Decl Summary. (line 158) * %define api.pure: Pure Decl. (line 6) * %define api.push_pull <1>: Decl Summary. (line 169) * %define api.push_pull: Push Decl. (line 6) * %define extends: Java Declarations Summary. (line 61) * %define final: Java Declarations Summary. (line 65) * %define implements: Java Declarations Summary. (line 69) * %define lex_throws: Java Declarations Summary. (line 73) * %define location_type: Java Declarations Summary. (line 78) * %define lr.keep_unreachable_states: Decl Summary. (line 182) * %define namespace <1>: C++ Bison Interface. (line 10) * %define namespace: Decl Summary. (line 224) * %define package: Java Declarations Summary. (line 84) * %define parser_class_name: Java Declarations Summary. (line 88) * %define position_type: Java Declarations Summary. (line 92) * %define public: Java Declarations Summary. (line 97) * %define strictfp: Java Declarations Summary. (line 105) * %define stype: Java Declarations Summary. (line 101) * %define throws: Java Declarations Summary. (line 109) * %defines <1>: Table of Symbols. (line 83) * %defines: Decl Summary. (line 266) * %destructor <1>: Table of Symbols. (line 91) * %destructor <2>: Decl Summary. (line 302) * %destructor <3>: Destructor Decl. (line 6) * %destructor: Mid-Rule Actions. (line 59) * %dprec <1>: Table of Symbols. (line 96) * %dprec: Merging GLR Parses. (line 6) * %error-verbose <1>: Table of Symbols. (line 115) * %error-verbose: Error Reporting. (line 17) * %expect <1>: Decl Summary. (line 38) * %expect: Expect Decl. (line 6) * %expect-rr <1>: Expect Decl. (line 6) * %expect-rr: Simple GLR Parsers. (line 6) * %file-prefix <1>: Table of Symbols. (line 119) * %file-prefix: Decl Summary. (line 307) * %glr-parser <1>: Table of Symbols. (line 123) * %glr-parser <2>: Simple GLR Parsers. (line 6) * %glr-parser: GLR Parsers. (line 6) * %initial-action <1>: Table of Symbols. (line 127) * %initial-action: Initial Action Decl. (line 6) * %language <1>: Table of Symbols. (line 131) * %language: Decl Summary. (line 311) * %language "Java": Java Declarations Summary. (line 10) * %left <1>: Table of Symbols. (line 135) * %left <2>: Using Precedence. (line 6) * %left: Decl Summary. (line 21) * %lex-param <1>: Table of Symbols. (line 139) * %lex-param <2>: Java Declarations Summary. (line 13) * %lex-param: Pure Calling. (line 31) * %locations: Decl Summary. (line 319) * %merge <1>: Table of Symbols. (line 144) * %merge: Merging GLR Parses. (line 6) * %name-prefix <1>: Table of Symbols. (line 151) * %name-prefix <2>: Java Declarations Summary. (line 19) * %name-prefix: Decl Summary. (line 326) * %no-lines <1>: Table of Symbols. (line 155) * %no-lines: Decl Summary. (line 338) * %nonassoc <1>: Table of Symbols. (line 159) * %nonassoc <2>: Using Precedence. (line 6) * %nonassoc: Decl Summary. (line 25) * %output <1>: Table of Symbols. (line 163) * %output: Decl Summary. (line 346) * %parse-param <1>: Table of Symbols. (line 167) * %parse-param <2>: Java Declarations Summary. (line 24) * %parse-param: Parser Function. (line 36) * %prec <1>: Table of Symbols. (line 172) * %prec: Contextual Precedence. (line 6) * %pure-parser <1>: Table of Symbols. (line 176) * %pure-parser: Decl Summary. (line 349) * %require <1>: Table of Symbols. (line 181) * %require <2>: Decl Summary. (line 354) * %require: Require Decl. (line 6) * %right <1>: Table of Symbols. (line 185) * %right <2>: Using Precedence. (line 6) * %right: Decl Summary. (line 17) * %skeleton <1>: Table of Symbols. (line 189) * %skeleton: Decl Summary. (line 358) * %start <1>: Table of Symbols. (line 193) * %start <2>: Decl Summary. (line 34) * %start: Start Decl. (line 6) * %token <1>: Table of Symbols. (line 197) * %token <2>: Java Declarations Summary. (line 29) * %token <3>: Decl Summary. (line 13) * %token: Token Decl. (line 6) * %token-table <1>: Table of Symbols. (line 201) * %token-table: Decl Summary. (line 366) * %type <1>: Table of Symbols. (line 205) * %type <2>: Java Declarations Summary. (line 33) * %type <3>: Decl Summary. (line 30) * %type: Type Decl. (line 6) * %union <1>: Table of Symbols. (line 214) * %union <2>: Decl Summary. (line 9) * %union: Union Decl. (line 6) * %verbose: Decl Summary. (line 399) * %yacc: Decl Summary. (line 405) * *yypstate_new: Parser Create Function. (line 15) * /*: Table of Symbols. (line 33) * :: Table of Symbols. (line 36) * ;: Table of Symbols. (line 40) * <*> <1>: Table of Symbols. (line 47) * <*>: Destructor Decl. (line 6) * <> <1>: Table of Symbols. (line 56) * <>: Destructor Decl. (line 6) * @$ <1>: Table of Symbols. (line 7) * @$ <2>: Java Action Features. (line 39) * @$ <3>: Action Features. (line 98) * @$: Actions and Locations. (line 6) * @N <1>: Table of Symbols. (line 11) * @N <2>: Java Action Features. (line 35) * @N <3>: Action Features. (line 104) * @N: Actions and Locations. (line 6) * abstract syntax tree: Implementing Gotos/Loops. (line 17) * action: Actions. (line 6) * action data types: Action Types. (line 6) * action features summary: Action Features. (line 6) * actions in mid-rule <1>: Destructor Decl. (line 88) * actions in mid-rule: Mid-Rule Actions. (line 6) * actions, location: Actions and Locations. (line 6) * actions, semantic: Semantic Actions. (line 6) * additional C code section: Epilogue. (line 6) * algorithm of parser: Algorithm. (line 6) * ambiguous grammars <1>: Generalized LR Parsing. (line 6) * ambiguous grammars: Language and Grammar. (line 33) * associativity: Why Precedence. (line 33) * AST: Implementing Gotos/Loops. (line 17) * Backus-Naur form: Language and Grammar. (line 16) * begin of Location: Java Location Values. (line 21) * begin on location: C++ Location Values. (line 44) * Bison declaration summary: Decl Summary. (line 6) * Bison declarations: Declarations. (line 6) * Bison declarations (introduction): Bison Declarations. (line 6) * Bison grammar: Grammar in Bison. (line 6) * Bison invocation: Invocation. (line 6) * Bison parser: Bison Parser. (line 6) * Bison parser algorithm: Algorithm. (line 6) * Bison symbols, table of: Table of Symbols. (line 6) * Bison utility: Bison Parser. (line 6) * bison-i18n.m4: Internationalization. (line 20) * bison-po: Internationalization. (line 6) * BISON_I18N: Internationalization. (line 27) * BISON_LOCALEDIR: Internationalization. (line 27) * BNF: Language and Grammar. (line 16) * braced code: Rules. (line 31) * C code, section for additional: Epilogue. (line 6) * C-language interface: Interface. (line 6) * calc: Infix Calc. (line 6) * calculator, infix notation: Infix Calc. (line 6) * calculator, location tracking: Location Tracking Calc. (line 6) * calculator, multi-function: Multi-function Calc. (line 6) * calculator, simple: RPN Calc. (line 6) * character token: Symbols. (line 31) * column on position: C++ Location Values. (line 25) * columns on location: C++ Location Values. (line 48) * columns on position: C++ Location Values. (line 28) * compiling the parser: Rpcalc Compile. (line 6) * conflicts <1>: Shift/Reduce. (line 6) * conflicts <2>: Merging GLR Parses. (line 6) * conflicts <3>: Simple GLR Parsers. (line 6) * conflicts: GLR Parsers. (line 6) * conflicts, reduce/reduce: Reduce/Reduce. (line 6) * conflicts, suppressing warnings of: Expect Decl. (line 6) * context-dependent precedence: Contextual Precedence. (line 6) * context-free grammar: Language and Grammar. (line 6) * controlling function: Rpcalc Main. (line 6) * core, item set: Understanding. (line 129) * dangling else: Shift/Reduce. (line 6) * data type of locations: Location Type. (line 6) * data types in actions: Action Types. (line 6) * data types of semantic values: Value Type. (line 6) * debug_level on parser: C++ Parser Interface. (line 31) * debug_stream on parser: C++ Parser Interface. (line 26) * debugging: Tracing. (line 6) * declaration summary: Decl Summary. (line 6) * declarations: Prologue. (line 6) * declarations section: Prologue. (line 6) * declarations, Bison: Declarations. (line 6) * declarations, Bison (introduction): Bison Declarations. (line 6) * declaring literal string tokens: Token Decl. (line 6) * declaring operator precedence: Precedence Decl. (line 6) * declaring the start symbol: Start Decl. (line 6) * declaring token type names: Token Decl. (line 6) * declaring value types: Union Decl. (line 6) * declaring value types, nonterminals: Type Decl. (line 6) * default action: Actions. (line 50) * default data type: Value Type. (line 6) * default location type: Location Type. (line 6) * default stack limit: Memory Management. (line 30) * default start symbol: Start Decl. (line 6) * deferred semantic actions: GLR Semantic Actions. (line 6) * defining language semantics: Semantics. (line 6) * discarded symbols: Destructor Decl. (line 98) * discarded symbols, mid-rule actions: Mid-Rule Actions. (line 59) * else, dangling: Shift/Reduce. (line 6) * end of Location: Java Location Values. (line 22) * end on location: C++ Location Values. (line 45) * epilogue: Epilogue. (line 6) * error <1>: Table of Symbols. (line 105) * error: Error Recovery. (line 20) * error on parser: C++ Parser Interface. (line 37) * error recovery: Error Recovery. (line 6) * error recovery, mid-rule actions: Mid-Rule Actions. (line 59) * error recovery, simple: Simple Error Recovery. (line 6) * error reporting function: Error Reporting. (line 6) * error reporting routine: Rpcalc Error. (line 6) * examples, simple: Examples. (line 6) * exercises: Exercises. (line 6) * file format: Grammar Layout. (line 6) * file on position: C++ Location Values. (line 13) * finite-state machine: Parser States. (line 6) * formal grammar: Grammar in Bison. (line 6) * format of grammar file: Grammar Layout. (line 6) * freeing discarded symbols: Destructor Decl. (line 6) * frequently asked questions: FAQ. (line 6) * generalized LR (GLR) parsing <1>: Generalized LR Parsing. (line 6) * generalized LR (GLR) parsing <2>: GLR Parsers. (line 6) * generalized LR (GLR) parsing: Language and Grammar. (line 33) * generalized LR (GLR) parsing, ambiguous grammars: Merging GLR Parses. (line 6) * generalized LR (GLR) parsing, unambiguous grammars: Simple GLR Parsers. (line 6) * getDebugLevel on YYParser: Java Parser Interface. (line 67) * getDebugStream on YYParser: Java Parser Interface. (line 62) * getEndPos on Lexer: Java Scanner Interface. (line 39) * getLVal on Lexer: Java Scanner Interface. (line 47) * getStartPos on Lexer: Java Scanner Interface. (line 38) * gettext: Internationalization. (line 6) * glossary: Glossary. (line 6) * GLR parsers and inline: Compiler Requirements. (line 6) * GLR parsers and yychar: GLR Semantic Actions. (line 10) * GLR parsers and yyclearin: GLR Semantic Actions. (line 18) * GLR parsers and YYERROR: GLR Semantic Actions. (line 28) * GLR parsers and yylloc: GLR Semantic Actions. (line 10) * GLR parsers and YYLLOC_DEFAULT: Location Default Action. (line 6) * GLR parsers and yylval: GLR Semantic Actions. (line 10) * GLR parsing <1>: Generalized LR Parsing. (line 6) * GLR parsing <2>: GLR Parsers. (line 6) * GLR parsing: Language and Grammar. (line 33) * GLR parsing, ambiguous grammars: Merging GLR Parses. (line 6) * GLR parsing, unambiguous grammars: Simple GLR Parsers. (line 6) * grammar file: Grammar Layout. (line 6) * grammar rule syntax: Rules. (line 6) * grammar rules section: Grammar Rules. (line 6) * grammar, Bison: Grammar in Bison. (line 6) * grammar, context-free: Language and Grammar. (line 6) * grouping, syntactic: Language and Grammar. (line 47) * i18n: Internationalization. (line 6) * infix notation calculator: Infix Calc. (line 6) * inline: Compiler Requirements. (line 6) * interface: Interface. (line 6) * internationalization: Internationalization. (line 6) * introduction: Introduction. (line 6) * invoking Bison: Invocation. (line 6) * item: Understanding. (line 107) * item set core: Understanding. (line 129) * kernel, item set: Understanding. (line 129) * LALR(1): Mystery Conflicts. (line 36) * LALR(1) grammars: Language and Grammar. (line 22) * language semantics, defining: Semantics. (line 6) * layout of Bison grammar: Grammar Layout. (line 6) * left recursion: Recursion. (line 16) * lex-param: Pure Calling. (line 31) * lexical analyzer: Lexical. (line 6) * lexical analyzer, purpose: Bison Parser. (line 6) * lexical analyzer, writing: Rpcalc Lexer. (line 6) * lexical tie-in: Lexical Tie-ins. (line 6) * line on position: C++ Location Values. (line 19) * lines on location: C++ Location Values. (line 49) * lines on position: C++ Location Values. (line 22) * literal string token: Symbols. (line 53) * literal token: Symbols. (line 31) * location <1>: Locations. (line 6) * location: Locations Overview. (line 6) * location actions: Actions and Locations. (line 6) * Location on Location: Java Location Values. (line 25) * location tracking calculator: Location Tracking Calc. (line 6) * location, textual <1>: Locations. (line 6) * location, textual: Locations Overview. (line 6) * location_value_type: C++ Parser Interface. (line 16) * lookahead token: Lookahead. (line 6) * LR(1): Mystery Conflicts. (line 36) * LR(1) grammars: Language and Grammar. (line 22) * ltcalc: Location Tracking Calc. (line 6) * main function in simple example: Rpcalc Main. (line 6) * memory exhaustion: Memory Management. (line 6) * memory management: Memory Management. (line 6) * mfcalc: Multi-function Calc. (line 6) * mid-rule actions <1>: Destructor Decl. (line 88) * mid-rule actions: Mid-Rule Actions. (line 6) * multi-function calculator: Multi-function Calc. (line 6) * multicharacter literal: Symbols. (line 53) * mutual recursion: Recursion. (line 32) * NLS: Internationalization. (line 6) * nondeterministic parsing <1>: Generalized LR Parsing. (line 6) * nondeterministic parsing: Language and Grammar. (line 33) * nonterminal symbol: Symbols. (line 6) * nonterminal, useless: Understanding. (line 62) * operator precedence: Precedence. (line 6) * operator precedence, declaring: Precedence Decl. (line 6) * operator+ on location: C++ Location Values. (line 53) * operator+ on position: C++ Location Values. (line 33) * operator+= on location: C++ Location Values. (line 57) * operator+= on position: C++ Location Values. (line 31) * operator- on position: C++ Location Values. (line 36) * operator-= on position: C++ Location Values. (line 35) * operator<< on position: C++ Location Values. (line 40) * options for invoking Bison: Invocation. (line 6) * overflow of parser stack: Memory Management. (line 6) * parse error: Error Reporting. (line 6) * parse on parser: C++ Parser Interface. (line 23) * parse on YYParser: Java Parser Interface. (line 54) * parser: Bison Parser. (line 6) * parser on parser: C++ Parser Interface. (line 19) * parser stack: Algorithm. (line 6) * parser stack overflow: Memory Management. (line 6) * parser state: Parser States. (line 6) * pointed rule: Understanding. (line 107) * polish notation calculator: RPN Calc. (line 6) * precedence declarations: Precedence Decl. (line 6) * precedence of operators: Precedence. (line 6) * precedence, context-dependent: Contextual Precedence. (line 6) * precedence, unary operator: Contextual Precedence. (line 6) * preventing warnings about conflicts: Expect Decl. (line 6) * Prologue <1>: Decl Summary. (line 50) * Prologue: Prologue. (line 6) * Prologue Alternatives: Prologue Alternatives. (line 6) * pure parser: Pure Decl. (line 6) * push parser: Push Decl. (line 6) * questions: FAQ. (line 6) * recovering: Java Action Features. (line 55) * recovering on YYParser: Java Parser Interface. (line 58) * recovery from errors: Error Recovery. (line 6) * recursive rule: Recursion. (line 6) * reduce/reduce conflict: Reduce/Reduce. (line 6) * reduce/reduce conflicts <1>: Merging GLR Parses. (line 6) * reduce/reduce conflicts <2>: Simple GLR Parsers. (line 6) * reduce/reduce conflicts: GLR Parsers. (line 6) * reduction: Algorithm. (line 6) * reentrant parser: Pure Decl. (line 6) * requiring a version of Bison: Require Decl. (line 6) * return YYABORT;: Java Action Features. (line 43) * return YYACCEPT;: Java Action Features. (line 47) * return YYERROR;: Java Action Features. (line 51) * reverse polish notation: RPN Calc. (line 6) * right recursion: Recursion. (line 16) * rpcalc: RPN Calc. (line 6) * rule syntax: Rules. (line 6) * rule, pointed: Understanding. (line 107) * rule, useless: Understanding. (line 62) * rules section for grammar: Grammar Rules. (line 6) * running Bison (introduction): Rpcalc Generate. (line 6) * semantic actions: Semantic Actions. (line 6) * semantic value: Semantic Values. (line 6) * semantic value type: Value Type. (line 6) * semantic_value_type: C++ Parser Interface. (line 15) * set_debug_level on parser: C++ Parser Interface. (line 32) * set_debug_stream on parser: C++ Parser Interface. (line 27) * setDebugLevel on YYParser: Java Parser Interface. (line 68) * setDebugStream on YYParser: Java Parser Interface. (line 63) * shift/reduce conflicts <1>: Shift/Reduce. (line 6) * shift/reduce conflicts <2>: Simple GLR Parsers. (line 6) * shift/reduce conflicts: GLR Parsers. (line 6) * shifting: Algorithm. (line 6) * simple examples: Examples. (line 6) * single-character literal: Symbols. (line 31) * stack overflow: Memory Management. (line 6) * stack, parser: Algorithm. (line 6) * stages in using Bison: Stages. (line 6) * start symbol: Language and Grammar. (line 96) * start symbol, declaring: Start Decl. (line 6) * state (of parser): Parser States. (line 6) * step on location: C++ Location Values. (line 60) * string token: Symbols. (line 53) * summary, action features: Action Features. (line 6) * summary, Bison declaration: Decl Summary. (line 6) * suppressing conflict warnings: Expect Decl. (line 6) * symbol: Symbols. (line 6) * symbol table example: Mfcalc Symbol Table. (line 6) * symbols (abstract): Language and Grammar. (line 47) * symbols in Bison, table of: Table of Symbols. (line 6) * syntactic grouping: Language and Grammar. (line 47) * syntax error: Error Reporting. (line 6) * syntax of grammar rules: Rules. (line 6) * terminal symbol: Symbols. (line 6) * textual location <1>: Locations. (line 6) * textual location: Locations Overview. (line 6) * token: Language and Grammar. (line 47) * token type: Symbols. (line 6) * token type names, declaring: Token Decl. (line 6) * token, useless: Understanding. (line 62) * toString on Location: Java Location Values. (line 32) * tracing the parser: Tracing. (line 6) * unary operator precedence: Contextual Precedence. (line 6) * useless nonterminal: Understanding. (line 62) * useless rule: Understanding. (line 62) * useless token: Understanding. (line 62) * using Bison: Stages. (line 6) * value type, semantic: Value Type. (line 6) * value types, declaring: Union Decl. (line 6) * value types, nonterminals, declaring: Type Decl. (line 6) * value, semantic: Semantic Values. (line 6) * version requirement: Require Decl. (line 6) * warnings, preventing: Expect Decl. (line 6) * writing a lexical analyzer: Rpcalc Lexer. (line 6) * YYABORT <1>: Table of Symbols. (line 218) * YYABORT: Parser Function. (line 29) * YYABORT;: Action Features. (line 28) * YYACCEPT <1>: Table of Symbols. (line 227) * YYACCEPT: Parser Function. (line 26) * YYACCEPT;: Action Features. (line 32) * YYBACKUP <1>: Table of Symbols. (line 235) * YYBACKUP: Action Features. (line 36) * yychar <1>: Table of Symbols. (line 239) * yychar <2>: Lookahead. (line 47) * yychar <3>: Action Features. (line 69) * yychar: GLR Semantic Actions. (line 10) * yyclearin <1>: Table of Symbols. (line 245) * yyclearin <2>: Error Recovery. (line 97) * yyclearin: GLR Semantic Actions. (line 18) * yyclearin;: Action Features. (line 76) * yydebug: Table of Symbols. (line 253) * YYDEBUG <1>: Table of Symbols. (line 249) * YYDEBUG: Tracing. (line 12) * yydebug: Tracing. (line 6) * YYEMPTY: Action Features. (line 49) * YYENABLE_NLS: Internationalization. (line 27) * YYEOF: Action Features. (line 52) * yyerrok <1>: Table of Symbols. (line 258) * yyerrok: Error Recovery. (line 92) * yyerrok;: Action Features. (line 81) * yyerror: Table of Symbols. (line 271) * YYERROR: Table of Symbols. (line 262) * yyerror: Java Action Features. (line 60) * YYERROR: Action Features. (line 56) * yyerror: Error Reporting. (line 6) * YYERROR: GLR Semantic Actions. (line 28) * yyerror on Lexer: Java Scanner Interface. (line 25) * YYERROR;: Action Features. (line 56) * YYERROR_VERBOSE: Table of Symbols. (line 275) * YYINITDEPTH <1>: Table of Symbols. (line 282) * YYINITDEPTH: Memory Management. (line 32) * yylex <1>: Table of Symbols. (line 286) * yylex: Lexical. (line 6) * yylex on Lexer: Java Scanner Interface. (line 30) * yylex on parser: C++ Scanner Interface. (line 12) * YYLEX_PARAM: Table of Symbols. (line 291) * yylloc <1>: Table of Symbols. (line 297) * yylloc <2>: Lookahead. (line 47) * yylloc <3>: Action Features. (line 86) * yylloc <4>: Token Locations. (line 6) * yylloc <5>: Actions and Locations. (line 60) * yylloc: GLR Semantic Actions. (line 10) * YYLLOC_DEFAULT: Location Default Action. (line 6) * YYLTYPE <1>: Table of Symbols. (line 307) * YYLTYPE: Token Locations. (line 19) * yylval <1>: Table of Symbols. (line 311) * yylval <2>: Lookahead. (line 47) * yylval <3>: Action Features. (line 92) * yylval <4>: Token Values. (line 6) * yylval <5>: Actions. (line 74) * yylval: GLR Semantic Actions. (line 10) * YYMAXDEPTH <1>: Table of Symbols. (line 319) * YYMAXDEPTH: Memory Management. (line 14) * yynerrs <1>: Table of Symbols. (line 323) * yynerrs: Error Reporting. (line 92) * yyparse <1>: Table of Symbols. (line 329) * yyparse: Parser Function. (line 6) * YYPARSE_PARAM: Table of Symbols. (line 362) * YYParser on YYParser: Java Parser Interface. (line 41) * YYPRINT: Tracing. (line 71) * yypstate_delete <1>: Table of Symbols. (line 333) * yypstate_delete: Parser Delete Function. (line 6) * yypstate_new <1>: Table of Symbols. (line 341) * yypstate_new: Parser Create Function. (line 6) * yypull_parse <1>: Table of Symbols. (line 348) * yypull_parse: Pull Parser Function. (line 6) * yypush_parse <1>: Table of Symbols. (line 355) * yypush_parse: Push Parser Function. (line 6) * YYRECOVERING <1>: Table of Symbols. (line 368) * YYRECOVERING <2>: Error Recovery. (line 109) * YYRECOVERING: Action Features. (line 64) * YYSTACK_USE_ALLOCA: Table of Symbols. (line 373) * YYSTYPE: Table of Symbols. (line 389) * | <1>: Table of Symbols. (line 43) * |: Rules. (line 49)  Tag Table: Node: Top1040 Node: Introduction13525 Node: Conditions14788 Node: Copying16679 Node: Concepts54217 Node: Language and Grammar55398 Node: Grammar in Bison61287 Node: Semantic Values63216 Node: Semantic Actions65322 Node: GLR Parsers66509 Node: Simple GLR Parsers69256 Node: Merging GLR Parses75908 Node: GLR Semantic Actions80477 Node: Compiler Requirements82367 Node: Locations Overview83103 Node: Bison Parser84556 Node: Stages87496 Node: Grammar Layout88784 Node: Examples90116 Node: RPN Calc91319 Node: Rpcalc Declarations92319 Node: Rpcalc Rules94247 Node: Rpcalc Input96063 Node: Rpcalc Line97538 Node: Rpcalc Expr98666 Node: Rpcalc Lexer100633 Node: Rpcalc Main103227 Node: Rpcalc Error103634 Node: Rpcalc Generate104667 Node: Rpcalc Compile105802 Node: Infix Calc106681 Node: Simple Error Recovery109444 Node: Location Tracking Calc111339 Node: Ltcalc Declarations112035 Node: Ltcalc Rules113124 Node: Ltcalc Lexer115140 Node: Multi-function Calc117463 Node: Mfcalc Declarations119039 Node: Mfcalc Rules121086 Node: Mfcalc Symbol Table122481 Node: Exercises128657 Node: Grammar File129171 Node: Grammar Outline130020 Node: Prologue130870 Node: Prologue Alternatives132659 Node: Bison Declarations142189 Node: Grammar Rules142617 Node: Epilogue143088 Node: Symbols144104 Node: Rules150807 Node: Recursion153286 Node: Semantics155004 Node: Value Type156103 Node: Multiple Types156938 Node: Actions158105 Node: Action Types161520 Node: Mid-Rule Actions162832 Node: Locations169297 Node: Location Type169948 Node: Actions and Locations170959 Node: Location Default Action173420 Node: Declarations177140 Node: Require Decl178667 Node: Token Decl178986 Node: Precedence Decl181412 Node: Union Decl183422 Node: Type Decl185196 Node: Initial Action Decl186122 Node: Destructor Decl186893 Node: Expect Decl192357 Node: Start Decl194350 Node: Pure Decl194738 Node: Push Decl196488 Node: Decl Summary200987 Ref: Decl Summary-Footnote-1217515 Node: Multiple Parsers217719 Node: Interface219358 Node: Parser Function220676 Node: Push Parser Function222692 Node: Pull Parser Function223502 Node: Parser Create Function224153 Node: Parser Delete Function224977 Node: Lexical225748 Node: Calling Convention227180 Node: Token Values230140 Node: Token Locations231304 Node: Pure Calling232198 Node: Error Reporting234079 Node: Action Features238209 Node: Internationalization242511 Node: Algorithm245052 Node: Lookahead247418 Node: Shift/Reduce249627 Node: Precedence252522 Node: Why Precedence253178 Node: Using Precedence255051 Node: Precedence Examples256028 Node: How Precedence256738 Node: Contextual Precedence257895 Node: Parser States259691 Node: Reduce/Reduce260935 Node: Mystery Conflicts264476 Node: Generalized LR Parsing268183 Node: Memory Management272802 Node: Error Recovery275013 Node: Context Dependency280316 Node: Semantic Tokens281165 Node: Lexical Tie-ins284235 Node: Tie-in Recovery285812 Node: Debugging287989 Node: Understanding288655 Node: Tracing299814 Node: Invocation303916 Node: Bison Options305315 Node: Option Cross Key312341 Node: Yacc Library313404 Node: Other Languages314229 Node: C++ Parsers314556 Node: C++ Bison Interface315053 Node: C++ Semantic Values316321 Ref: C++ Semantic Values-Footnote-1317263 Node: C++ Location Values317416 Node: C++ Parser Interface319789 Node: C++ Scanner Interface321506 Node: A Complete C++ Example322208 Node: Calc++ --- C++ Calculator323150 Node: Calc++ Parsing Driver323664 Node: Calc++ Parser327445 Node: Calc++ Scanner331234 Node: Calc++ Top Level334658 Node: Java Parsers335307 Node: Java Bison Interface335984 Node: Java Semantic Values337947 Node: Java Location Values339561 Node: Java Parser Interface341117 Node: Java Scanner Interface344355 Node: Java Action Features346539 Node: Java Differences349151 Ref: Java Differences-Footnote-1351729 Node: Java Declarations Summary351879 Node: FAQ356127 Node: Memory Exhausted357074 Node: How Can I Reset the Parser357384 Node: Strings are Destroyed359653 Node: Implementing Gotos/Loops361242 Node: Multiple start-symbols362525 Node: Secure? Conform?364070 Node: I can't build Bison364518 Node: Where can I find help?365236 Node: Bug Reports366029 Node: More Languages367490 Node: Beta Testing367848 Node: Mailing Lists368722 Node: Table of Symbols368933 Node: Glossary384232 Node: Copying This Manual391129 Node: Index413522  End Tag Table 07070100062cd6000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000001d00000000root/usr/local/share/aclocal07070100062cd7000081a40000000000000000000000014c5138c900000782000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/aclocal/bison-i18n.m4# bison-i18n.m4 serial 2 dnl Copyright (C) 2005-2006, 2009-2010 Free Software Foundation, Inc. dnl This file is free software; the Free Software Foundation dnl gives unlimited permission to copy and/or distribute it, dnl with or without modifications, as long as this notice is preserved. dnl From Bruno Haible. dnl Support for internationalization of bison-generated parsers. dnl BISON_I18N dnl should be used in configure.ac, after AM_GNU_GETTEXT. If USE_NLS is yes, it dnl sets BISON_LOCALEDIR to indicate where to find the bison-runtime.mo files dnl and defines YYENABLE_NLS if there are bison-runtime.mo files at all. AC_DEFUN([BISON_I18N], [ if test -z "$USE_NLS"; then echo "The BISON-I18N macro is used without being preceded by AM-GNU-GETTEXT." 1>&2 exit 1 fi BISON_LOCALEDIR= BISON_USE_NLS=no if test "$USE_NLS" = yes; then dnl Determine bison's localedir. dnl AC_PROG_YACC sets the YACC variable; other macros set the BISON variable. dnl But even is YACC is called "yacc", it may be a script that invokes bison dnl and accepts the --print-localedir option. dnl YACC's default value is empty; BISON's default value is :. if (${YACC-${BISON-:}} --print-localedir) >/dev/null 2>&1; then BISON_LOCALEDIR=`${YACC-${BISON-:}} --print-localedir` fi AC_SUBST([BISON_LOCALEDIR]) if test -n "$BISON_LOCALEDIR"; then dnl There is no need to enable internationalization if the user doesn't dnl want message catalogs. So look at the language/locale names for dnl which the user wants message catalogs. This is $LINGUAS. If unset dnl or empty, he wants all of them. USER_LINGUAS="${LINGUAS-%UNSET%}" if test -n "$USER_LINGUAS"; then BISON_USE_NLS=yes fi fi fi if test $BISON_USE_NLS = yes; then AC_DEFINE([YYENABLE_NLS], 1, [Define to 1 to internationalize bison runtime messages.]) fi ]) 07070100062cf2000041ed0000000000000000000000224c5138f900000000000000b600010002ffffffffffffffff0000001c00000000root/usr/local/share/locale07070100062d29000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/lt07070100062d2a000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/lt/LC_MESSAGES07070100062d2b000081a40000000000000000000000014c5138c80000057f000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/lt/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷ë(& 8.Y6ˆ>¿Fþ$Ej  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime-2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-05-14 02:10+0300 Last-Translator: Gintautas Miliauskas Language-Team: Lithuanian MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit X-Generator: KBabel 1.11.4 Plural-Forms: nplurals=3; plural=(n%10==1 && n%100!=11 ? 0 : n%10>=2 && (n%100<10 || n%100>=20) ? 1 : 2); baigÄ—si atmintissintaksÄ—s klaidasintaksÄ—s klaida, netikÄ—tas %ssintaksÄ—s klaida, netikÄ—tas %s, tikÄ—tasi %ssintaksÄ—s klaida, netikÄ—tas %s, tikÄ—tasi %s arba %ssintaksÄ—s klaida, netikÄ—tas %s, tikÄ—tasi %s arba %s arba %ssintaksÄ—s klaida, netikÄ—tas %s, tikÄ—tasi %s arba %s arba %s arba %ssintaksÄ—s klaida: negalima grįžtisintaksÄ— dviprasmÄ—07070100062d26000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ky07070100062d27000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ky/LC_MESSAGES07070100062d28000081a40000000000000000000000014c5138c80000062e000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ky/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷ª(&Óú8OSW£_ûg[EÃ$   memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-01-29 11:47+0600 Last-Translator: Ilyas Bakirov Language-Team: Kirghiz MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Poedit-Language: Kyrgyz X-Poedit-Country: KYRGYZSTAN ÑÑ ÐºÐ¾Ð»Ð´Ð¾Ð½ÑƒÐ»ÑƒÐ¿ бүттүүÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹ÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹, күтүлбөгөн %sÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹, күтүлбөгөн %s, %s күтүлүүдөÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹, күтүлбөгөн %s, %s же %s күтүлүүдөÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹, күтүлбөгөн %s, %s же %s же %s күтүлүүдөÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹, күтүлбөгөн %s, %s же %s же %s же %s күтүлүүдөÑинтакÑÐ¸Ñ ÐºÐ°Ñ‚Ð°ÑÑ‹: көчурмө алынган жокÑинтакÑÐ¸Ñ Ð°Ð½Ñ‹Ðº ÑмеÑ07070100062d37000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/nl07070100062d38000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/nl/LC_MESSAGES07070100062d3a000081a40000000000000000000000014c5138c8000046e7000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/nl/LC_MESSAGES/bison.moÞ•‘¤Á, 0 1 œM ê ><@;}¹ Ò Üç6÷. No'xD 6å&8_w‘,­Ú%ø,-K y(šÃã%)%:#`$„©«ÂØ0í&E`#|  ¨I²ü*tG¼½(Ö ÿq {'—)¿—é&¨½Ù8î0'XZa~“¥»Òñ-*Xm€/†¶FÎD&Z ” °ÉÞ$ù 4 J ` !w ™ ® ¿ Û +÷ #!>!*W!*‚!­!"Ë!î! "- "*N".y"+¨""Ô"÷"'#69##p#”#¥#'½#å#$,$A$ J$ T$ u$A$Á$Ö$.ê$3%M% l%%#¬%(Ð%/ù%*)&T&d&v&Œ~&! (»-(Ré)><*>{*;º*ö*++ +?0+(p+)™+ Ã+2Î+f,Ph,)¹,.ã,-+-F-)c-!-$¯-)Ô-*þ-$).'N.v.’.+®.Ú.'ë.%/&9/`/b/5|/²/0É/7ú/'200Z0"‹0 ®0¹0ˆÂ05K141ζ1Ó…4*Y6C„6È6ÁÑ66“8/Ê8+ú8›&9*Â9í9:#:p<:4­;â; ä;%î;<)<B<_<&y<! <Â<4á<"=)9=c=8h=¡=aº=[>3x>¬> Å>Ñ>æ>??5?T?g?}?‘?¥?Ä?Ý?$ü?"!@%D@j@„@)œ@-Æ@"ô@2A%JApA1ƒA.µA2äA/BAGB‰B.¥BCÔBC8C#IC:mC¨CÇC7æC D *D!4D VDW`D¸DØD@øD>9E xE(™EÂE*áE: F9GF.F°FÆFàFToEŠ}gf~pme-Q(‚j%#l@G h=z„a|Ln019{†Œki3€B4s/!t…‹dF>&A[6MK‰: D2ƒŽO`,c?IuJRS "Cv'X\U ]w5_)$ Pry‡.8qxNVW*‘ˆ^Z<H;7 bY+ Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-01-29 20:54+0100 Last-Translator: Tim Van Holder Language-Team: Dutch MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); Uitvoeringstijden (in seconden) Werkwijzes: -h, --help toon deze hulptekst en beëindig het programma -V, --version toon versie-informatie en beëindig het programma --print-localedir toon de folder met regio-afhankelijke gegevens --print-datadir toon de folder met skeletten en XSLT-bestanden -y, --yacc emuleer POSIX Yacc -W, --warnings[=SOORT] waarschuw over problemen (van het type SOORT) Meld fouten in de vertaling aan . Meld bugs aan <%s>. Conflict tussen regel %d en token %s opgelost als een fout Conflict tussen regel %d en token %s opgelost als reductie Conflict tussen regel %d en token %s opgelost als shift TOTAAL : links: rechts: type %d is %s $$ voor de midrule op $%d van `%s' heeft geen gedeclareerd type$$ van `%s' heeft geen gedeclareerd type$%d van `%s' heeft geen gedeclareerd type$standaard%%expect-rr is enkel van toepassing op GLR-parsers%d niet-eindsymbool is nutteloos in de grammatica%d niet-eindsymbolen zijn nutteloos in de grammatica%d regel is nutteloos in de grammatica%d regels zijn nutteloos in de grammatica%s is enkel van toepassing op GLR-parsers%s moet gevolgd worden door een positief getal%s herdeclaratie voor %s%s herdeclaratie voor <%s>%s: ongeldige optie -- '%c' %s: optie '%c%s' staat geen argument toe %s: optie '%s' is niet eenduidig %s: optie '%s' vereist een argument %s: optie '--%s' staat geen argument toe %s: optie '-W %s' staat geen argument toe %s: optie '-W %s' is niet eenduidig %s: optie vereist een argument -- '%c' %s: onbekende optie '%c%s' %s: onbekende optie '--%s' %u bitset_allocs, %u vrijgegeven (%.2f%%). %u bitset_lists %u bitset_resets, %u gecached (%.2f%%) %u bitset_sets, %u gecached (%.2f%%) %u bitset_tests, %u gecached (%.2f%%) 'Aantal uitvoeringen = %u Het statistiekenbestand heeft een verkeerde grootte. Bitset-statistieken: Copyright (C) %d Free Software Foundation, Inc. Kon het statistiekenbestand niet openen voor schrijven.Kon het statistiekenbestand niet lezen.Kon niet schrijven naar het statistiekenbestand.Genereer LALR(1) en GLR parsers. GrammaticaI/O-foutWanneer een lange optie een argument als verplicht aanduidt, dan is dat argument eveneens verplicht bij de overeenkomstige korte optie. Niet-eindsymbolen die nutteloos zijn in de grammaticaNiet-eindsymbolen, met de regels waarin ze voorkomenUitvoer: --defines[=BESTAND] genereer ook een header-bestand -d idem, maar bestand kan niet opegegeven worden (voor POSIX Yacc) -r, --report=DINGEN genereer ook details over de automaat --report-file=BESTAND schrijf het rapport weg in BESTAND -v, --verbose hetzelfde als `--report=state' -b, --file-prefix=PREFIX geef de uitvoerbestandsnamen deze PREFIX -o, --output=BESTAND schrijf uitvoer naar BESTAND -g, --graph[=BESTAND] genereer ook een graaf van de automaat -x, --xml[=BESTAND] genereer ook een XML-rapport over de automaat (het XML schema is experimenteel) Parser: -L, --language=TAAL geef de te gebruiken programmeertaal op -S, --skeleton=BESTAND geef het te gebruiken skeletbestand op -t, --debug maak de parser geschikt voor debugging --locations houd symboollokaties bij -p, --name-prefix=PREFIX geef de externe symboolnamen deze PREFIX -l, --no-lines genereer geen `#line' directieven -k, --token-table genereer ook een tabel van tokennamen Regels die nutteloos zijn in de grammaticaRegels die, omwille van conflicten, nutteloos zijn in de grammaticaStaat %dDINGEN is een door komma's gescheiden lijst van woorden; geldige woorden zijn: `state' beschrijf de toestanden van de automaat `itemset' vervolledig de verzamelingen van kern-items met hun closures `look-ahead' verbind look-ahead tokens expliciet met items `solved' beschrijf het oplossen van shift/reductie conflicten `all' produceer alle bovengenoemde informatie `none' schakel de rapportering uit Eindsymbolen die niet gebruikt worden in de grammaticaEindsymbolen, met de regels waarin ze voorkomenHetzelfde geldt voor optionele argumenten. Dit is vrije software; zie de broncode voor kopieercondities. Er is GEEN garantie; zelfs niet voor VERKOOPBAARHEID of GESCHIKTHEID VOOR EEN BEPAALD DOEL. Probeer `%s --help' voor meer informatie. Onbekende systeemfoutGebruik: %s [OPTIE]... BESTAND Geldige argumenten zijn:Soorten van waarschuwing zijn: `midrule-values' midrule waarden die niet gezet of gebruikt worden `yacc' dingen die niet compatibel zijn met POSIX Yacc `all' alle waarschuwingen `no-SOORT' geen waarschuwingen van type SOORT `none' helemaal geen waarschuwingen `error' beschouw waarschuwingen als fouten Geschreven door Robert Corbett en Richard Stallman. `accepteerargument %s voor %s is niet eenduidigbison (GNU Bison) %skan bestand niet sluitenkan bestand `%s' niet openenoverflow van kolomnummersconflicterende uitvoer naar bestand %sconflicten: %d reductie/reductie conflicten: %d shift/reductie conflicten: %d shift/reductie, %d reductie/reductie histogram van aantal gezette bits histogram van dichtheid aan gezette bits leeglege regel voor niet-eindsymbool met type, en geen actiefout (niet associatief) er werd %d reductie/reductie conflict verwachter werden %d reductie/reductie conflicten verwachter werd %d shift/reductie conflict verwachter werden %d shift/reductie conflicten verwachtexpliciet type opgegeven in een typeloze grammaticaovertollige operand `%s'fatale foutga naar toestand %d integer buiten bereik: %songeldige $-waarde: $%dongeldig argument %s voor %songeldig teken na \-escape: %songeldig teken: %songeldig commando: %songeldige taal `%s'ongeldig null-tekenongeldig getal na \-escape: %soverflow van lijnnummersgeen geheugen meer beschikbaar`%s' ontbreekt aan einde van bestand`%s' ontbreekt aan einde van regelnaam ontbreekt in parameterdeclaratieoperand ontbreekt na `%s'meerdere %s declaratiesmeerdere talen opgeven is niet toegestaanmeerdere skeletten opgeven is niet toegestaaninvoergrammatica bevat geen regelsniet-eindsymbool is nutteloos in de grammatica: %sslechts één %s toegestaan per regeleerdere declaratieherdeclaratie van standaard "tagged" %%destructorherdeclaratie van standaard "tagged" %%printerherdeclaratie van standaard "tagless" %%destructorherdeclaratie van standaard "tagless" %%printerherdefinitie van het door de gebruiker gekozen tokennummer van %sreduceren via regel %d (%s)ik weiger om invoerbestand %s te overschrijvenconflict tussen resultaattypes bij merge-functie `%s': <%s> != <%s>regel opgegeven voor token (%s)regel is te langregel is nutteloos in de grammaticaregel is nutteloos in de grammatica omwille van conflictenshift, en ga naar toestand %d histogram van bitset-groottes uit startsymbool %s kan geen enkele zin afgeleid wordentoestand %dlosse `$'losse `,' behandeld als witruimtelosse `@'symbool %s wordt gebruikt, maar is niet gedefinieerd als een token en heeft geen regelssymbool %s opnieuw gedeclareerdsymbool %s opnieuw gedefinieerdsymbool `%s' krijgt meer dan één letterlijke string toegewezensymbool `%s' meer dan eens gebruikt als een letterlijke stringhet startsymbool %s is een tokenhet startsymbool %s is niet gedefinieerdtijd in %s: %ld.%06ld (%ld%%) token voor %%prec is niet gedefinieerd: %stokens %s en %s hebben beide nummer %d toegewezen gekregente veel symbolen in de invoergrammatica (de limiet is %d)type-conflict bij standaardaktie: <%s> != <%s>waarde niet gezet: $$waarde niet gebruikt: $%dlet op07070100062d39000081a40000000000000000000000014c5138c8000004fb000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/nl/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷‘(º Ùä'þ-&3T9ˆÂâ  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-21 11:22+0200 Last-Translator: Tim Van Holder Language-Team: Dutch MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); geen geheugen meer beschikbaarsyntaxfoutsyntaxfout, %s onverwachtsyntaxfout, %s onverwacht (%s verwacht)syntaxfout, %s onverwacht (%s of %s verwacht)syntaxfout, %s onverwacht (%s of %s of %s verwacht)syntaxfout, %s onverwacht (%s of %s of %s of %s verwacht)syntaxfout: kan niet terugkerensyntax is niet eenduidig07070100062d0e000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/fr07070100062d0f000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/fr/LC_MESSAGES07070100062d10000081a40000000000000000000000014c5138c800000510000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/fr/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷–(¿Ïá-3/9c?"Ý  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: GNU bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-21 08:00-0500 Last-Translator: Michel Robitaille Language-Team: French MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n > 1); mémoire épuiséeerreur de syntaxeerreur de syntaxe, %s inattenduerreur de syntaxe, %s inattendu, attendait %serreur de syntaxe, %s inattendu, attendait %s ou %serreur de syntaxe, %s inattendu, attendait %s ou %s ou %serreur de syntaxe, %s inattendu, attendait %s ou %s ou %s ou %serreur de syntaxe: ne peut reculersyntaxe ambiguë07070100062d11000081a40000000000000000000000014c5138c700002779000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/fr/LC_MESSAGES/bison.moÞ•fL‰| ¡>½<ü;9 u Ž ˜ £ ³ Ó ô 'ý % &A h € %š À %Ñ #÷ $ @ B Y o 0„ &µ Ü ÷   *% P qZ 'Ì —ô &Œ³Èä0ù*,3Pew¬É-å(;/AqF‰DÐ (4D]r£¹Ðåö+.ZuެÉ"Þ6#Rv‡¢,¶ã ìA Od.x3§Û ú(:/c*“¾ÎàèxF—=Þ<Y r }ˆ%œ%Âè0ð'!&IpŒ'ªÒ,ã*+;gi$…ª.Å*ô!#A eo4€µ±½0o¹ 1ZŒ¤Ã.Û  1F `%!§ É8ê# > X 4] ’ Z¬ X!`! z!ˆ!›!²!É!æ!ý!"+"K"7["#“"9·"ñ"#.#M#m#)„#-®#GÜ#%$$J$\$&{$O¢$ò$$ú$U%u%Ž%6¦%?Ý%'&(E&!n&5&;Æ&6'9'T' k'5S)I$,6:LH E%(X7=/A 1 _Y]9;2U+^M.*RCGB?[P'N#-&Fd04cT<W@ Q!b 3>8`feK JZ\V"ODa Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleprevious declarationredefining user token number of %sreduce using rule %d (%s)result type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: GNU bison 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2006-09-27 08:00-0500 Last-Translator: Michel Robitaille Language-Team: French MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n > 1); Temps d'exécution (secondes) Conflit entre la règle %d et le jeton %s résolu comme étant une erreurConflit entre la règle %d et le jeton %s résolu par réductionConflit entre la règle %d et le jeton %s résolu par décalage TOTAL : à gauche: à droite: le type %d est %s $$ de « %s » n'a pas son type déclaré$%d de « %s » n'a pas de type déclaré$défaut%%expect-rr affecte seulement les analyseurs GLR%s affecte seulement les analyseurs GLR%s doit être suivi d'un nombre positifredéclaration de %s pour %sredéclaration de %s pour <%s>%u bitset_allocs, %u libérés (%.2f%%). %u bitset_lists %u bitset_resets, %u dans la cache (%.2f%%) %u bitset_sets, %u dans la cache (%.2f%%) %u bitset_tests, %u dans la cache (%.2f%%) 'Exécutions accumulées = %u Taille erronée du fichier de stats. Statistiques des bitset: Copyright © %d Free Software Foundation, Inc. Ne ouvrir en écriture le fichier de stats.Ne peut lire le fichier de stats.Ne peut écrire le fichier de stats.Grammaireune erreur d'E/SNon-terminaux, suivis des règles où ils apparaissentÉtat %dCHOSES est une liste de mots séparés par des virgules qui peuvent inclure: `state' décrire des états `itemset' compléter le corps du jeu d'items avec leur fermeture `lookahead' associer explicitement les jetons lookahead aux items `solved' décrire la résolution des conflits décalage/réduction `all' inclure toutes les informations ci-haut `none' désactiver la génération de rapport Terminaux, suivis des règles où ils apparaissentCe logiciel est libre; voir les sources pour les conditions de reproduction. AUCUNE garantie n'est donnée; tant pour des raisons COMMERCIALES que pour RÉPONDRE À UN BESOIN PARTICULIER. Pour en savoir davantage, faites: « %s --help ». Erreur système inconnueUsage: %s [OPTION]... FICHIER Arguments valides sont:Écrit par Robert Corbett et Richard Stallman. `accepterargument ambiguë %s pour %sbison (GNU Bison) %sne peut fermer le fichierne peut ouvrir le fichier « %s »sorties en conflit vers le fichier %sconflits: %d réduction/réduction conflits: %d décalage/réduction conflits: %d décalage/réduction, %d réduction/réduction histogramme des compteurs densité de l'histogramme viderègle vide pour une catégorie typée et aucune actionerreur (non-associative) attendait %d conflit par réduction/réductionattendait %d conflits par réduction/réductionattendait %d conflit par décalage/réductionattendait %d conflits par décalage/réductionopérande superflue « %s »erreur fatalealler à l'état %d entier hors limite: %svaleur $ invalide: $%dargument invalide %s pour %scaractère invalide: %sdirective invalide: %scaractère nul invalidedébordement du nombre de lignesmémoire épuiséechaîne de caractères « %s » manquante en fin de fichier« %s » manquant à la fin de fichieridentificateur manquant dans la déclaration de paramètresopérande manquante après « %s »déclarations multiples de %sla grammaire n'a pas de règlesseul un %s est permis par règledéclaration précédanteredéfinition du jeton usager numéro de %sréduction par utilisation de la règle %d (%s)conflit dans le type clash sur la fonction de fusion `%s': <%s> != <%s>la règle pour %s, qui est un terminalrègle trop longuedécalage et aller à l'état %d taille de l'histogramme des compteurs symbole de départ %s ne peut permettre la dérivation de n'importe quelle phraseétat %d« , » errante traitée comme un blancle symbole %s est utilisé mais ce n'est pas un terminal et il ne possède pas de règlesymbole %s est redéclarésymbole %s est redéfinisymbole « %s » présent dans plus d'une chaîne litéralesymbole « %s » utilisé plus d'une fois dans une chaîne litéralele symbole de départ %s est un terminalle symbole de départ %s n'est pas définitemps dans %s: %ld.%06ld (%ld%%) les jetons %s et %s se sont vus assigner le nombre %dtrop de symboles dans la grammaire d'entrée (limite est %d)conflit de type pour l'action par défaut: <%s> != <%s>valeur non initialisée: $$valeur inutilisée: $%dAVERTISSEMENT07070100062cf3000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000002000000000root/usr/local/share/locale/ast07070100062cf4000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002c00000000root/usr/local/share/locale/ast/LC_MESSAGES07070100062cf5000081a40000000000000000000000014c5138c800000523000000b600010002ffffffffffffffff0000003d00000000root/usr/local/share/locale/ast/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷•(¾Ï!á-217d<œ5Ù  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4.1a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-02-03 17:17+0100 Last-Translator: Marquinos Language-Team: Asturian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); memoria escosadafallu de sistasisfallu de sistasis, %s nun esperáufallu de sistasis, %s nun esperáu, esperáu %sfallu de sistasis, %s nun esperáu, esperáu %s o %sfallu de sistasis, %s nun esperáu, esperáu %s o %s o %sfallu de sistasis, %s nun esperáu, esperáu %s o %s o %s o %sfallu de sistasis: nun puede facese copia de seguridásistasis ye ambigüa07070100062d65000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000002200000000root/usr/local/share/locale/zh_CN07070100062d66000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002e00000000root/usr/local/share/locale/zh_CN/LC_MESSAGES07070100062d67000081a40000000000000000000000014c5138c8000004c7000000b600010002ffffffffffffffff0000003f00000000root/usr/local/share/locale/zh_CN/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷i( ’ Ÿ¬*Ë1ö6(;_›·  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-08-13 23:19+0800 Last-Translator: Meng Jie Language-Team: Chinese (simplified) MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit 内存耗尽语法错误语法错误,éžé¢„期的 %s语法错误,éžé¢„期的 %sï¼Œéœ€è¦ %s语法错误,éžé¢„期的 %sï¼Œéœ€è¦ %s 或 %s语法错误,éžé¢„期的 %sï¼Œéœ€è¦ %s,%s 或 %s语法错误,éžé¢„期的 %sï¼Œéœ€è¦ %s,%s,%s 或 %s语法错误:ä¸èƒ½å¤‡ä»½è¯­æ³•有歧义07070100062d06000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/et07070100062d07000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/et/LC_MESSAGES07070100062d09000081a40000000000000000000000014c5138c700002553000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/et/LC_MESSAGES/bison.moÞ•d<‰\€><Ü; U n x ƒ “ 'œ Ä &à   %9 _ %p #– $º ß á ø  0# &T { – ² º *Ä ï qù 'k —“ &+Rgƒ0˜ÉËÒï,Kh-„²ÇÚ/àF(Do´ ÇÓãü,BXo„•±+Íù-Kh"} 6º#ñ&A,U‚ ‹A¬î.3Fz ™º(Ù/*2]m‚‡ 9'Da;¦â û )( R%s!™!»*Ý*(D)m—™ ´Õ0ê,H"h ‹–0ŸÐOÙ+)‚U)Ø3/Jz|„²Ëã-*0K[§ÁÖ8Ûg0a˜ú   . J ` y Ž Ÿ ² Ê Ø ð 0!7!Q!m! !®!-Ä!%ò!@")Y"ƒ"˜"´",Î"û"##S'#!{# #2¾#8ñ#*$#B$f$2$:´$.ï$%3%K%3Q'G"*48JFVC#&5;-?/ ]W[790S)\K,(PAE@=YN%L!+$Db.2aR:U> O`1<6^dcI HXZT M B_ Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleprevious declarationredefining user token number of %sreduce using rule %d (%s)result type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2006-09-21 11:21+0300 Last-Translator: Toomas Soome Language-Team: Estonian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-15 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); Täitmise ajad (sekundites) Konflikt reegli %d ja märgi %s vahel lahendatud veana Konflikt reegli %d ja märgi %s vahel lahendatud redutseerimisega Konflikt reegli %d ja märgi %s vahel lahendatud nihkega KOKKU : vasakul: paremal: tüüp %d on %s $default%%expect-rr puudutab ainult GLR parsereid%s puudutab ainult GLR parsereid%s järel peab olema positiivne number%s uuesti deklareerimine %s jaoks%s deklareeriti <%s> jaoks uuesti%u bitset_allocs, %u vabastatud (%.2f%%). %u bitset_lists %u bitset_resets, %u puhverdatud (%.2f%%) %u bitset_sets, %u puhverdatud (%.2f%%) %u bitset_tests, %u puhverdatud (%.2f%%) 'Salvestatud läbimisi = %u Vigane statistika faili suurus. Bitset statistika: Autoriõigus © %d Free Software Foundation, Inc. Statistika faili ei saa kirjutamiseks avada.Statistika faili ei saa lugeda.Statistika faili ei saa kirjutada.GrammatikaS/V vigaMitteterminalid, koos reeglitega kus nad ilmuvadOlek %d ASJAD on loend komadega eraldatud järgnevaid sõnu: `state' olekute kirjeldus `itemset' täienda põhilisi elemente nende sulunditega `look-ahead' seo ettevaatamised elementidega `solved' kirjelda nihuta/redutseeri konfliktide lahendamisi `all' kogu ülaltoodud info `none' blokeeri raport Terminalid, koos reeglitega kus nad ilmuvadSee on vaba tarkvara; kopeerimistingimused leiate lähtetekstidest. Garantii PUUDUB; ka müügiks või mingil eesmärgil kasutamiseks. Lisainfo saamiseks proovige `%s --help'. Tundmatu süsteemi vigaKasuta: %s [VÕTI]...FAIL Lubatud argumendid on:Kirjutanud Robert Corbett ja Richard Stallman. `nõustunsegane argument %s %s'lebison (GNU Bison) %sfaili ei õnnestu sulgedafaili `%s' ei saa avadakonfliktsed väljundid faili %skonfliktid: %d redutseerimine/redutseerimine konfliktid: %d nihutamine/redutseerimine konfliktid: %d nihutamine/redutseerimine, %d redutseerimine/redutseerimine loenduri logi histogramm tiheduse histogramm tühitüübiga mitteterminalil on tühi reegel ja puudub tegevusviga (mitteassotsiatiivne) eeldasin %d redutseerimine/redutseerimine konfliktieeldasin %d redutseerimine/redutseerimine konfliktieeldasime %d nihutamine/redutseerimine konfliktieeldasime %d nihutamine/redutseerimine konfliktiLiigne operand `%s'fataalne vigaliigu olekule %d number piiridest väljas: %svigane $ väärtus: $%dvigane argument %s %s'levigased sümbolid: %svigane juhus: %svigane null sümbolrea numbri ületäituminemälu on otsasfaili lõpus puudub `%s'rea lõpus puudub `%s'parameetri deklaratsioonis puudub identifikaator`%s' järel puudub operandkorduvad %s deklaratsioonidsisendgrammatikas pole reegleidreeglis on lubatud ainult üks %seelmine deklaratsioon%s kasutaja märgi numbri uuesti defineerimineredutseerin kasutades reeglit %d (%s)tulemuse tüübikonflikt mestimise funktsioonis `%s': <%s> != <%s>%s jaoks on antud reegel, aga see on märkreegel on liiga pikknihuta ja liigu olekule %d suuruste logi histogramm stardisümbolist %s ei tuletata ühtegi lausetolek %dkäsitlen juhuslikku `,' kui tühikutkasutatakse sümbolit %s, mis ei ole defineeritud märgina ja millel puuduvad reeglidsümbol %s on uuesti deklareeritudsümbol %s on uuesti defineeritudsümbolile `%s' on antud enam kui üks literaal sõnesümbolit `%s' on kasutatud enam kui kord literaal sõnenastardisümbol %s on märkstardisümbol %s ei ole defineeritudaeg %s: %ld.%06ld (%ld%%) märkidele %s ja %s on mõlemale omistatud number %dsisendgrammatikas on liiga palju sümboleid (piirang on %d)vaikimisi tegevuse tüübikonflikt: <%s> != <%s>seadmata väärtus: $$kasutamata väärtus: $%dhoiatus07070100062d08000081a40000000000000000000000014c5138c8000004e0000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/et/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷Š( ³ ÁÏ&ê-4?;t°Î  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.0b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-08-02 08:28+0300 Last-Translator: Toomas Soome Language-Team: Estonian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-15 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); mälu on otsassüntaksi vigasüntaksi viga, ootamatu %ssüntaksi viga, ootamatu %s, ootasin %ssüntaksi viga, ootamatu %s, ootasin %s või %ssüntaksi viga, ootamatu %s, ootasin %s või %s või %ssüntaksi viga, ootamatu %s, ootasin %s või %s või %s või %ssüntaksi viga: ei saa toetadasüntaks on segane07070100062d16000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/hr07070100062d17000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/hr/LC_MESSAGES07070100062d19000081a40000000000000000000000014c5138c700000c23000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/hr/LC_MESSAGES/bison.moÞ• +È É ÓÞî /1*9'd—Œ&$K`|~“¥»/Áñ#9]Af¨.¼3ë >(_ˆ #,; [| ~2ˆ0»šì)‡ ± $Ì ñ ó  # B /I y — ± Ò ó Aý ? .Z /‰ ¹ !Ó -õ       on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type'GrammarNonterminals, with rules where they appearTerminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE `bison (GNU Bison) %scannot close filecannot open file `%s'emptyempty rule for typed nonterminal, and no actionmemory exhaustedmultiple %s declarationsno rules in the input grammarrule given for %s, which is a tokenstate %dsymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtokens %s and %s both assigned number %dProject-Id-Version: bison 1.34a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2002-04-10 22:20+01 Last-Translator: Denis Lackovic Language-Team: Croatian MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-2 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n==1 ? 0 : 1); s lijeva:s desna: tip %d je %s $$ od `%s' nema deklarirani tip$%d od `%s' nema deklarirani tip'GramatikaNezavr¹ni znakovi, sa pravilima gdje se pojavljujuZavr¹ni znakovi, sa pravilima gdje se pojavljujuOvo je slobodni softver; pogledajte kod kako biste doznali uvjete kopiranja. NEMA garancije; èak ni tvrdnje o ISPLATIVOSTI ili POGODNOSTI ZA NEKU SVRHU. Poku¹aj `%s --help' za vi¹e informacija. Nepoznata sistemska gre¹kaKori¹tenje: %s [OPCIJA]... DATOTEKA `bison (GNU Bison) %sne mogu zatvoriti datotekune mogu otvoriti datoteku `%s'praznoprazno pravilo za nezavr¹ni znak, i nema akcijeiscrpljeni memorijski resursivi¹estruke %s deklaracijenema pravila u ulaznoj gramaticipravilo dato za %s, a to je znakstanje %dsimbol %s je kori¹ten, ali nije definiran kao znak i nema pravilasimbol %s ponovo definiransimbolz `%s' dat vi¹e od jednog znakovnog nizasimbol `%s' kori¹ten vi¹e puta kao znakovni nizpoèetni simbol %s je znakpoèetni simbol %s nije definiranobjema znakovima %s i %s je pridru¾en broj %d07070100062d18000081a40000000000000000000000014c5138c800000211000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/hr/LC_MESSAGES/bison-runtime.moÞ•,<PQbómemory exhaustedProject-Id-Version: bison 1.34a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2002-04-10 22:20+01 Last-Translator: Denis Lackovic Language-Team: Croatian MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-2 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n==1 ? 0 : 1); iscrpljeni memorijski resursi07070100062d12000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ga07070100062d13000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ga/LC_MESSAGES07070100062d15000081a40000000000000000000000014c5138c7000040fe000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/ga/LC_MESSAGES/bison.moÞ•ƒ4³L  5 >L <‹ ;È   ' 2 6B y ™ º 'à Dë 60 g &ƒ ª  %Ü %#9$]‚„›±0Æ&÷9#Uy I‹Õ*õt •–(¯ ØqâT'p)˜—Â&Z–²8Ç013:Wl~”«Êç-1FY/_F§Dî&3Z my‰¢·Òèþ+@Qm+‰µÐ*é*?"]€-²*à. +:"f‰'£6Ë#&7'Ow’,¦Ó Ü æ  A S h .| 3« ß þ !(>!/g!*—!Â!Ò!ä!Èì!µ#*Ì#Q÷#PI$Rš$í$% %%<0%&m%'”%¼%/Í%ñý%®ï&0ž'3Ï'(((+(T(/e(-•(.Ã(ò(ô(&)/).D)@s)-´)1â)#* 8* B*PN*-Ÿ*(Í*sö* j-"w/8š/ Ó/ŸÝ/+}1(©1<Ò1¿2:Ï2 3$3A3RU3)¨4Ò4 Ô4Þ4ü45,5L5(i5!’5#´55Ø56&6:6MA6$6ü´6±7-¸8æ8û8 9969O9n9ˆ9Ÿ9·9×9î9&ý9"$:.G:#v:š:'µ:*Ý:&;0/;%`;†;4—;1Ì;3þ;02<,c<#<&´<JÛ<8&= _=m=5=&Ã=ê=1>2> ;>(H> q>T~>Ó>í>? ?DL?1‘?"Ã?æ?F@;J@F†@Í@á@ö@Dq7‚nY€]-3$_s6bNƒJSP5.T~U&|>! 4:W1;Lt )zl8vF^h[XpG}oC9kr%0ABeO`Kw+(Z*iQfx#V/= Mu\yEjRagd'2I"m H,@ c{?<  Execution times (seconds) Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-11-02 18:52-0500 Last-Translator: Kevin Scannell Language-Team: Irish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=5; plural=n==1 ? 0 : n==2 ? 1 : (n>2 && n<7) ? 2 :(n>6 && n<11) ? 3 : 4; Agaí rite (soicindí) Seol tuairiscí ar fhabhtanna chuig <%s>. Coinbhleacht idir riail %d agus teaghrán comharthach %s: réitíodh mar earráid Coinbhleacht idir riail %d agus teaghrán comharthach %s: réitíodh mar laghdú Coinbhleacht idir riail %d agus teaghrán comharthach %s: réitíodh mar iomlaoid IOMLÁN : ar clé: ar dheis: de chineál %d is %s Níl aon chineál fógartha ag $$ na meánrialach ag $%d de `%s'Níl aon chineál fógartha ag $$ de `%s'Níl aon chineál fógartha ag $%d de `%s'$réamhshocraitheNíl %%expect-rr in úsáid ach le parsálaithe GLR%d slonn inlaghdaithe gan tairbhe sa ghramadach%d shlonn inlaghdaithe gan tairbhe sa ghramadach%d shlonn inlaghdaithe gan tairbhe sa ghramadach%d slonn inlaghdaithe gan tairbhe sa ghramadach%d slonn inlaghdaithe gan tairbhe sa ghramadach%d riail gan tairbhe sa ghramadach%d riail gan tairbhe sa ghramadach%d riail gan tairbhe sa ghramadach%d riail gan tairbhe sa ghramadach%d riail gan tairbhe sa ghramadachNíl %s curtha i bhfeidhm ach ar pharsálaithe GLRNí foláir uimhir dheimhneach a theacht i ndiaidh %sathfhógra %s ar %sathfhógra %s ar <%s>%u bitset_allocs, %u scaoilte (%.2f%%). %u bitset_lists %u bitset_resets, %u curtha i dtaisce (%.2f%%) %u bitset_sets, %u curtha i dtaisce (%.2f%%) %u bitset_tests, %u curtha i dtaisce (%.2f%%) 'Rití carnacha = %u Méid comhaid staitistice earráideach. Staitistic Bitset: Copyright © %d Free Software Foundation, Inc. Níorbh fhéidir an comhad staitistice a oscailt chun scríobh ann.Níorbh fhéidir an comhad staitistice a léamh.Níorbh fhéidir scríobh ar an chomhad staitistice.Gin parsálaithe LALR(1) agus GLR. GramadachEarráid I/AIs riachtanach le rogha ghearr aon argóint atá riachtanach leis an rogha fhada. Sloinn inlaghdaithe gan tairbhe sa ghramadachSloinn inlaghdaithe, le rialacha más cuíAschur: --defines[=COMHAD] gin comhad ceanntásca freisin -d mar an gcéanna, ach gan COMHAD (le haghaidh Yacc POSIX) -r, --report=RUDAÍ tabhair sonraí faoin uathoibreán --report-file=COMHAD scríobh tuairisc i gCOMHAD -v, --verbose ar comhbhrí le `--report=state' -b, --file-prefix=RÉIMÍR RÉIMÍR ar aschomhaid -o, --output=COMHAD scríobh aschur sa CHOMHAD -g, --graph[=COMHAD] scríobh graf an uathoibreáin -x, --xml[=COMHAD] scríobh tuairisc ar an uathoibreán mar XML (is trialach é an scéimre XML) Parsálaí: -L, --language=TEANGA socraigh an ríomhtheanga le haschur (gné thurgnamhach é seo) -S, --skeleton=COMHAD socraigh an chreatlach le húsáid -t, --debug ullmhaigh an parsálaí le haghaidh dífhabhtaithe --locations cumasaigh ríomh na suímh -p, --name-prefix=RÉIMÍR cuir RÉIMÍR roimh gach siombail sheachtrach -l, --no-lines ná gin treoracha `#line' -k, --token-table cuir tábla d'ainmneacha teaghrán san áireamh Rialacha gan tairbhe sa ghramadachRialacha gan tairbhe sa pharsálaí de bhrí coinbhleachtaíStaid %d Is éard atá i RUDAÍ ná liosta focal, scartha le camóga, as na roghanna seo: `state' déan cur síos ar na staideanna `itemset' comhlíon na croíthacair míre lena gclabhsúr `look-ahead' ceangail teaghráin réamhfheiceála le míreanna go follasach `solved' réiteach de choinbhleachtaí iomlaoid/laghdú `all' cuir gach sonra thuas san áireamh `none' díchumasaigh an tuairisc Sloinn dolaghdaithe gan úsáid sa ghramadachSloinn dolaghdaithe, le rialacha más cuíAgus mar an gcéanna le haghaidh argóintí roghnacha freisin. Is saorbhogearra an ríomhchlár seo; féach ar an bhunchód le haghaidh coinníollacha cóipeála. Níl baránta ar bith ann; go fiú níl baránta ann d'INDÍOLTACHT nó FEILIÚNACHT D'FHEIDHM AR LEITH. Bain triail as `%s --help' chun tuilleadh eolais a fháil. Earráid chórais anaithnidÚsáid: %s [ROGHA]... COMHAD Na hargóintí bailí:Seo iad catagóirí na rabhadh: `midrule-values' luachanna meánrialach gan socrú nó gan úsáid `yacc' neamh-chomhoiriúintí le YACC POSIX `all' gach rabhadh `no-CATAGÓIR' ná taispeáin rabhaidh ó CATAGÓIR `none' ná taispeáin rabhaidh ar bith `error' caith le rabhaidh mar earráidí Le Robert Corbett agus Richard Stallman. `glac leisargóint dhébhríoch %s chun %sbison (GNU Bison) %sní féidir comhad a dhúnadhní féidir comhad `%s' a oscailtuimhir an cholúin thar maoilaschuir chontrártha scríofa i gcomhad %scoinbhleachtaí: %d laghdú/laghdú coinbhleachtaí: %d iomlaoid/laghdú coinbhleachtaí: %d iomlaoid/laghdú, %d laghdú/laghdú histeagram loga áirimh histeagram dlúithe folamhriail fholamh i gcomhair teaghrán inlaghdaithe le cineál, ach níl aon ghníomhearráid (neamh-chomhthiomsaitheach) bhíothas ag súil le %d coinbhleacht laghdú/laghdúbhíothas ag súil le %d choinbhleacht laghdú/laghdúbhíothas ag súil le %d choinbhleacht laghdú/laghdúbhíothas ag súil le %d gcoinbhleacht laghdú/laghdúbhíothas ag súil le %d coinbhleacht laghdú/laghdúbhíothas ag súil le %d coinbhleacht iomlaoid/laghdúbhíothas ag súil le %d choinbhleacht iomlaoid/laghdúbhíothas ag súil le %d choinbhleacht iomlaoid/laghdúbhíothas ag súil le %d gcoinbhleacht iomlaoid/laghdúbhíothas ag súil le %d coinbhleacht iomlaoid/laghdúcineál follasach i ngramadach gan chineálachaoibreann breise `%s'earráid mharfachtéigh go staid %d slánuimhir as raon: %sluach neamhbhailí $: $%dargóint neamhbhailí %s chun %scarachtar neamhbhailí: %streoir neamhbhailí: %steanga neamhbhailí `%s'carachtar neamhbhailí nialasachlíne-uimhir thar maoilcuimhne ídithe`%s' ar iarraidh ag críoch an chomhaid`%s' ar iarraidh ag críoch na líneaitheantóir ar iarraidh i bhfógra paraiméadairoibreann ar iarraidh i ndiaidh `%s'níos mó ná fógra amháin %sní cheadaítear níos mó ná teanga amháinní cheadaítear níos mó ná creatlach amháinníl aon riail sa ghramadach ionchurthaslonn inlaghdaithe gan tairbhe sa ghramadach: %sní cheadaítear ach %s amháin an riailfógra roimhe seoathfhógra ar %%destructor réamhshocraithe clibeáilteathfhógra ar %%printer réamhshocraithe clibeáilteathfhógra ar %%destructor réamhshocraithe gan chlibathfhógra ar %%printer réamhshocraithe gan chlibsainmhíniú nua ar an uimhir theaghráin do %slaghdaigh, ag úsáid rialach %d (%s)diúltaítear inchomhad %s a fhorscríobhcaismirt idir cineálacha toraidh i bhfeidhm chumaiscthe `%s': <%s> != <%s>tugadh riail i gcomhair %s atá ina theaghrán comharthachriail rófhadariail gan tairbhe sa ghramadachriail gan tairbhe sa pharsálaí de bhrí coinbhleachtaídéan iomlaoid, agus téigh go staid %d histeagram loga méid níl aon abairt díorthaithe ón siombail tosaigh %sstaid %d`$' ar strae`,' ar seachrán, caith leis mar spás bán`@' ar straetá siombail %s in úsáid, ach níl sé ina teaghrán comharthach agus níl aon riail aiciathfhógra ar shiombail %ssainmhíniú nua ar shiombail %stá níos mó ná aon teaghrán litriúil amháin ag an tsiombail `%s'siombail `%s' in úsáid níos mó ná uair amháin mar theaghrán litriúilis teaghrán comharthach í an tsiombail tosaigh %ssiombail tosaigh %s gan sainmhíniúaga i %s: %ld.%06ld (%ld%%) tá teaghráin chomharthach ann (%s agus %s) leis an uimhir chéanna (%d)an iomarca siombailí sa ghramadach ionchurtha (uasmhéid %d)caismirt idir cineálacha leis an ghníomh réamhshocraithe: <%s> != <%s>luach gan socrú: $$luach gan úsáid: $%drabhadh07070100062d14000081a40000000000000000000000014c5138c80000052c000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ga/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷w( ¯"Â:å@ FaL¨"õ  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-18 23:14-0500 Last-Translator: Kevin Patrick Scannell Language-Team: Irish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit cuimhne íditheearráid chomhréireearráid chomhréire, %s gan choinneearráid chomhréire, %s gan choinne, bhíothas ag súil le %searráid chomhréire, %s gan choinne, bhíothas ag súil le %s nó %searráid chomhréire, %s gan choinne, bhíothas ag súil le %s nó %s nó %searráid chomhréire, %s gan choinne, bhíothas ag súil le %s nó %s nó %s nó %searráid chomhréire: ní féidir cúlúcomhréir dhébhríoch07070100062d33000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/nb07070100062d34000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/nb/LC_MESSAGES07070100062d35000081a40000000000000000000000014c5138c800000516000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/nb/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷¤(Í Ýé(1-:_Cš Þÿ  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-21 09:35+0200 Last-Translator: Trond Endrestøl Language-Team: Norwegian Bokmaal MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); minne er uttømtsyntaksfeilsyntaksfeil, uforventet %ssyntaksfeil, uforventet %s, forventet %ssyntaksfeil, uforventet %s, forventet %s eller %ssyntaksfeil, uforventet %s, forventet %s eller %s eller %ssyntaksfeil, uforventet %s, forventet %s eller %s eller %s eller %ssyntaksfeil: kan ikke gå tilbakesyntaksen er flertydig07070100062d36000081a40000000000000000000000014c5138c700002029000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/nb/LC_MESSAGES/bison.moÞ•[ôÌÈÉ>å<$;a ¶ ÀËÛ û '% M &i  %¨ Î %ß # $) N P g } 0’ &à ê  ! ) *3 ^ 'h — &( O d € 0• Æ È Ï ì   ) H e - ¯ Ä × /Ý  F%Dl±ÄÔí4K\x+”ÀÛô"/R#l«,¿ì õAX.l3›Ï î(./W*‡²œºW=s?±;ñ- F T`$p$•º(Ãì# -(Js+„)°*Ú#B0Y(Š³Ï íø* ,%9Ÿ_&ÿ&8U/lœž¥Â×ì#%I7i¡¶É3ÍUMo½Ñå0EW!g!‰.«Úõ'7&V$}'¢Êç(û $'0KX¤.¿;î*Ge.„6³5ê NG[!QY,+JH8*E3 %SX.R:&?DP #W70=M(-K1  IZA2"TV)OC 4'$@U6>; F/<L5B9 Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null charactermemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>warningProject-Id-Version: bison 2.0 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-03-01 10:06+0100 Last-Translator: Trond Endrestøl Language-Team: Norwegian Bokmaal MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); Utføringstider (sekunder) Konflikt mellom regel %d og token %s ble løst som en feil Konflikt mellom regel %d og token %s ble løst som reduksjon Konflikt mellom regel %d og token %s ble løst som skift TOTAL : til venstre: til høyre: type %d er %s $$ til «%s» har ingen deklarert type$%d av «%s» har ingen deklarert type$default%%expect-rr gjelder bare for GLR-parsere%s påvirker bare GLR-parsere%s må bli fulgt av et positivt tall%s er en redeklarasjon av %s%u bitset_allocs, %u frigjort (%.2f%%). %u bitset_lists %u bitset_resets, %u mellomlagret (%.2f%%) %u bitset_sets, %u mellomlagret (%.2f%%) %u bitset_tests, %u mellomlagret (%.2f%%) »Akkumulerte kjøringer = %u Feil størrelse på statsfilen. Bitmengdestatistikk: Copyright (C) %d Free Software Foundation, Inc. Kunne ikke åpne statsfilen for skriving.Kunne ikke lese statsfilen.Kunne ikke skrive statsfilen.GrammatikkI/O-feilIkke-terminaler med regler hvor de opptrerTilstand %d Terminaler med regler hvor de opptrerDette er fri programvare; se i kildekoden for kopieringsbetingelser. Det er INGEN garanti; ikke en gang for SALGBARHET eller SKIKKETHET FOR ET BESTEMT FORMÅL. Prøv «%s --help» for mer informasjon. Ukjent systemfeilBruksmåte: %s [VALG]... FIL Gyldige argumenter er:Skrevet av Robert Corbett og Richard Stallman. «akseptflertydig argument %s for %sbison (GNU Bison) %skan ikke lukke filenkan ikke åpne filen «%s»motstridende output til fila %skonflikter: %d reduksjon/reduksjon konflikter: %d skift/reduksjon konflikter: %d skift/reduksjon, %d reduksjon/reduksjon count log histogram tetthetshistogram tomtom regel for typet ikke-terminal og ingen handlingfeil (ikke-assosiativ) forventet %d reduksjon/reduksjon-konfliktforventet %d reduksjon/reduksjon-konflikterforventet %d skift/reduksjon-konfliktforventet %d skift/reduksjon-konflikterekstra operand «%s»gå til tilstand %d heltall utenfor tallområde: %sugyldig argument %s for %sugyldig tegn: %sugyldig direktiv: %sugyldig null-tegnminne er uttømtmangler «%s» ved slutten av filenmangler «%s» på slutten av linjenmangler identifikator i parameterdeklarasjonenmangler operand etter «%s»flere deklarasjoner av %singen regler i den angitte grammatikkenbare en %s pr regel er tillattredefinerer brukertokennummeret til %sreduksjon ved hjelp av regel %d (%s)regel er angitt for %s, som er et tokenskift og gå til tilstand %d size log histogram startsymbolet %s avleder ingen setningertilstand %doverflødig «,» ble behandlet som tomromsymbolet %s er brukt, men er ikke definert som et token og har ingen reglersymbolet %s ble redefinertsymbolet «%s» er gitt mer enn en literalstrengsymbolet «%s» er brukt mer enn en gang som en literalstrengstartsymbolet %s er et tokenstartsymbolet %s er udefinerttid for %s: %ld.%06ld (%ld%%) tokene %s og %s er begge tilordnet nummeret %dfor mange symboler i inputgrammatikken (grensen er %d)kollisjon på type for standard handling: <%s> != <%s>advarsel07070100062d68000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000002200000000root/usr/local/share/locale/zh_TW07070100062d69000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002e00000000root/usr/local/share/locale/zh_TW/LC_MESSAGES07070100062d6a000081a40000000000000000000000014c5138c80000050e000000b600010002ffffffffffffffff0000003f00000000root/usr/local/share/locale/zh_TW/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷’(» Ë!Ø0ú7+<cA âþ  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-27 10:31+0800 Last-Translator: Wei-Lun Chao Language-Team: Chinese (traditional) MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; è¨˜æ†¶é«”è€—ç›¡èªžæ³•éŒ¯èª¤èªžæ³•éŒ¯èª¤ï¼Œé æœŸä¹‹å¤–çš„ %sèªžæ³•éŒ¯èª¤ï¼Œé æœŸä¹‹å¤–çš„ %sï¼Œé æœŸç‚º %sèªžæ³•éŒ¯èª¤ï¼Œé æœŸä¹‹å¤–çš„ %sï¼Œé æœŸç‚º %s 或 %sèªžæ³•éŒ¯èª¤ï¼Œé æœŸä¹‹å¤–çš„ %sï¼Œé æœŸç‚º %sã€%s 或 %sèªžæ³•éŒ¯èª¤ï¼Œé æœŸä¹‹å¤–çš„ %sï¼Œé æœŸç‚º %sã€%sã€%s 或 %sèªžæ³•éŒ¯èª¤ï¼šç„¡æ³•å‚™ä»½èªžæ³•ä¸æ˜Žç¢º07070100062d6b000081a40000000000000000000000014c5138c80000243c000000b600010002ffffffffffffffff0000003700000000root/usr/local/share/locale/zh_TW/LC_MESSAGES/bison.moÞ•d<‰\€><Ü; U n x ƒ “ 'œ Ä &à   %9 _ %p #– $º ß á ø  0# &T { – ² º *Ä ï qù 'k —“ &+Rgƒ0˜ÉËÒï,Kh-„²ÇÚ/àF(Do´ ÇÓãü,BXo„•±+Íù-Kh"} 6º#ñ&A,U‚ ‹A¬î.3Fz ™º(Ù/*2]m‡‡E$?j?ªê   2&:a|•«,Ãð)'+(S|€–³-Æ!ô/HO0c ”bŸ-¡07Ò  @2V‰”²ÇÚ"õ63TˆŸ°E·ý##8\ w„•­ÃÞó  ( 8 S !h Š « ¼ Û ú (!0!;O!‹! «!¸!Õ!%ò! """"CE"‰"£"/½"5í"##C#$\#,#-®#-Ü# $$5$3Q'G"*48JFVC#&5;-?/ ]W[790S)\K,(PAE@=YN%L!+$Db.2aR:U> O`1<6^dcI HXZT M B_ Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleprevious declarationredefining user token number of %sreduce using rule %d (%s)result type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-07-23 22:36+0800 Last-Translator: Wei-Lun Chao Language-Team: Chinese (traditional) MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; 執行時間 (ç§’) 在è¦å‰‡ %d 與記號 %s 之間的è¡çªä»¥è¦–為錯誤來解決 在è¦å‰‡ %d 與記號 %s 之間的è¡çªä»¥ç¸®æ¸›ä¾†è§£æ±º 在è¦å‰‡ %d 與記號 %s 之間的è¡çªä»¥å移來解決 總計 :於左å´ï¼šæ–¼å³å´ï¼šé¡žåž‹ %d 為 %s $é è¨­%%expect-rr åªå¥—用到 GLR 剖æžå™¨%s åªå½±éŸ¿ GLR 剖æžå™¨%s 必須在正數之後%s é‡è¤‡å®£å‘Šäº† %s%s é‡è¤‡å®£å‘Šäº† <%s>%u bitset_allocs,%u 已釋放 (%.2f%%)。 %u bitset_lists %u bitset_resets,%u å·²å¿«å– (%.2f%%) %u bitset_sets,%u å·²å¿«å– (%.2f%%) %u bitset_tests,%u å·²å¿«å– (%.2f%%) ã€ç´¯ç©çš„執行 = %u ä¸ç•¶çš„統計檔大å°ã€‚ Bitset 統計: 版權所有 (C) %d 自由軟體基金會。 寫入時無法開啟統計檔。無法讀å–統計檔。無法寫入統計檔。文法輸入/輸出錯誤éžçµ‚çµèªžè©žï¼Œé™„有它們出ç¾è™•çš„è¦å‰‡ç‹€æ…‹ %d THINGS 是以逗號所分隔的字詞清單,其中å¯ä»¥åŒ…å«ï¼š `state' æè¿°ç‹€æ…‹ `itemset' å®Œæˆæ ¸å¿ƒé …目集åˆä¸¦é™„æœ‰å®ƒå€‘çš„çµæŸ `lookahead' 明確地將é ä¼°è¨˜è™Ÿé—œè¯åˆ°é …ç›® `solved' æè¿°æ­£åœ¨è§£æ±ºçš„åç§»/縮減è¡çª `all' åŒ…å«æ‰€æœ‰ä»¥ä¸Šçš„資訊 `none' åœç”¨å ±å‘Š çµ‚çµèªžè©žï¼Œé™„有它們出ç¾è™•çš„è¦å‰‡é€™æ˜¯è‡ªç”±è»Ÿé«”;請åƒè€ƒåŽŸå§‹ç¢¼çš„ç‰ˆæ¬Šè²æ˜Žã€‚æœ¬è»Ÿé«”ä¸æä¾›ä»»ä½•ä¿è­‰ï¼Œç”šè‡³ä¸æœƒåŒ…括 å¯å”®æ€§æˆ–é©ç”¨æ–¼ä»»ä½•特定目的的ä¿è­‰ã€‚ 請嘗試執行「%s --helpã€ä¾†ç²å–更多資訊。 䏿˜Žçš„系統錯誤用法:%s [é¸é …]... 檔案 有效的引數為:由 Robert Corbett 與 Richard Stallman 編寫。 「接å—%2$s 的引數 %1$s 䏿˜Žç¢ºbison (GNU Bison) %s無法關閉檔案無法開啟檔案「%sã€è¼¸å‡ºè‡³æª”案 %s 時發生è¡çªè¡çªï¼š%d 項縮減/縮減 è¡çªï¼š%d é …åç§»/縮減 è¡çªï¼š%d é …åç§»/縮減,%d 項縮減/縮減 計算日誌長æ¢åœ– 密度長æ¢åœ– 空白空白è¦å‰‡ç”¨æ–¼è³¦äºˆé¡žåž‹çš„éžçµ‚çµèªžè©žï¼Œä»¥åŠæ²’有動作錯誤 (éžç›¸è¯çš„) é æœŸæœ‰ %d 項縮減/縮減è¡çªé æœŸæœ‰ %d é …åç§»/縮減è¡çªå¤šé¤˜çš„é‹ç®—元「%sã€åš´é‡éŒ¯èª¤é€²å…¥ç‹€æ…‹ %d 整數超éŽç¯„åœï¼š%s無效的 $ 值:$%d%2$s 的引數 %1$s 無效無效的字元:%s無效的指令:%s無效的空字元列號溢ä½è¨˜æ†¶é«”耗盡檔案末端缺少「%sã€åˆ—尾缺少「%sã€åœ¨åƒæ•¸å®£å‘Šä¸­ç¼ºå°‘識別項「%sã€ä¹‹å¾Œç¼ºå°‘了é‹ç®—å…ƒå¤šé‡ %s 宣告在輸入文法中沒有è¦å‰‡æ¯å€‹è¦å‰‡åªå…許一個 %s剿¬¡å®£å‘Šé‡æ–°å®šç¾© %s 的使用者記號數目使用è¦å‰‡ %d 以縮減 (%s)çµæžœé¡žåž‹èˆ‡åˆä½µåŠŸèƒ½ç›¸æŠµè§¸ã€Œ%sã€ï¼š<%s> != <%s>用於 %s 這項記號的è¦å‰‡è¦å‰‡å¤ªé•·å移,並進入狀態 %d 調整日誌長æ¢åœ–å¤§å° å•Ÿå§‹ç¬¦è™Ÿ %s ä¸è¡ç”Ÿä»»ä½•å¥å­ç‹€æ…‹ %d零星的「,ã€æœƒè¢«è¦–為空白符號 %s 已使用éŽï¼Œä½†æ˜¯ä¸¦æœªå®šç¾©ç‚ºè¨˜è™Ÿä¹Ÿæ²’有è¦å‰‡ç¬¦è™Ÿ %s è¢«é‡æ–°å®£å‘Šç¬¦è™Ÿ %s è¢«é‡æ–°å®šç¾©ç¬¦è™Ÿã€Œ%sã€çµ¦äºˆä¸€å€‹ä»¥ä¸Šçš„原文字串符號「%sã€è¢«è¶…éŽä¸€æ¬¡åšç‚ºå¸¸å€¼å­—串使用起始符號 %s 是一項記號未定義起始符號 %s%s 中的時間:%ld.%06ld (%ld%%) 記號 %s 與 %s 兩者都指派了數字 %d在輸入文法中太多符號 (é™åˆ¶ç‚º %d)類型與é è¨­å‹•作相抵觸:<%s> != <%s>解除設定值:$$未使用的值:$%d警告07070100062d2f000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ms07070100062d30000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ms/LC_MESSAGES07070100062d31000081a40000000000000000000000014c5138c800000552000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ms/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷¾(ç ø!/(7X?GÐ$=  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-10-10 10:50+0800 Last-Translator: Sharuzzaman Ahmat Raslan Language-Team: Malay MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; X-Generator: KBabel 0.9.5 kehabisan memoriralat sintaksralat sintaks, tidak menjangka %sralat sintaks, tidak menjangka %s, menjangka %sralat sintaks, tidak menjangka %s, menjangka %s atau %sralat sintaks, tidak menjangka %s, menjangka %s atau %s atau %sralat sintaks, tidak menjangka %s, menjangka %s atau %s atau %s atau %sralat sintaks: tidak dapat mengundursintaks adalah kabur07070100062d32000081a40000000000000000000000014c5138c700003cbe000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/ms/LC_MESSAGES/bison.moÞ•ƒ4³L  5 >L <‹ ;È   ' 2 6B y ™ º 'à Dë 60 g &ƒ ª  %Ü %#9$]‚„›±0Æ&÷9#Uy I‹Õ*õt •–(¯ ØqâT'p)˜—Â&Z–²8Ç013:Wl~”«Êç-1FY/_F§Dî&3Z my‰¢·Òèþ+@Qm+‰µÐ*é*?"]€-²*à. +:"f‰'£6Ë#&7'Ow’,¦Ó Ü æ  A S h .| 3« ß þ !(>!/g!*—!Â!Ò!ä!¸ì!¥#¿#CØ#I$Ff$­$ Ç$ Ó$à$Nõ$#D%$h%%,–%2Ã%)ö%# &&D&!k&#&*±&Ü&'í&%'&;'b'd'€'ž'/²'-â'(0($P( u( €(KŠ(/Ö(4)ž;)ìÚ+$Ç-4ì- !.€-.)®/.Ø/&0§.0'Ö0þ0!1=1@T12•2È2Ê2Ñ2é2þ2353"K3$n3#“3?·3÷3 4 4<'4d4.}4*¬4;×45 (535H5a5x5”5©5¾5Ô5ê56 6!26.T6ƒ6ž6/¹6(é6$7177%i776¨73ß7:87N8)†8 °8)Ñ8<û8-89f9 €9$¡9 Æ9ç99û9 5: @: J: k:Pu:Æ:à:<ú:B7; z;%›;!Á;,ã;><8O<ˆ<œ<·<Dq7‚nY€]-3$_s6bNƒJSP5.T~U&|>! 4:W1;Lt )zl8vF^h[XpG}oC9kr%0ABeO`Kw+(Z*iQfx#V/= Mu\yEjRagd'2I"m H,@ c{?<  Execution times (seconds) Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-01-13 00:35+0800 Last-Translator: Sharuzzaman Ahmat Raslan Language-Team: Malay MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; X-Generator: KBabel 0.9.5 Masa pelaksanaan (saat) Lapor pepijat ke <%s>. Konflik antara hukum %d dan token %s diselesaikan sebagai ralat Konflik antara hukum %d dan token %s diselesaikan sebagai pengurangan Konflik antara hukum %d dan token %s diselesaikan sebagai pindahan JUMLAH : pada kiri: pada kanan: jenis %d adalah %s $$ untuk hukum pertengahan pada $%d bagi `%s' tidak mempunyai jenis dinyatakan$$ bagi `%s' tiada jenis dinyatakan$%d bagi `%s' tiada jenis dinyatakan$default%%expect-rr hanya berkesan kepada parser GLR%d bukan terminal tidak digunakan dalam tatabahasa%d hukum tidak digunakan dalam tatabahasa%s hanya berkesan kepada parser GLR%s mesti diikuti dengan nombor positif%s pengisytiharan semula untuk %s%s pengisytiharan semula untuk <%s>%u bitset_allocs, %u dibebaskan (%.2f%%). %u bitset_lists %u bitset_resets, %u disimpan (%.2f%%) %u bitset_sets, %u disimpan (%.2f%%) %u bitset_tests, %u disimpan (%.2f%%) 'Pelaksanaan terkumpul = %u Saiz fail stats tidak betul. Statistik bitset: Hakcipta (C) %d Free Software Foundation, Inc. Tidak dapat membuka fail stats untuk menulis.Tidak dapat membaca fail stats.Tidak dapat menulis fail stats.Janakan penghurai LALR(1) dan GLR. TatabahasaRalat I/OHujah wajib kepada pilihan panjang adalah wajib untuk pilihan pendek juga. Bukan terminal tidak digunakan dalam tatabahasaTidak terminal, dengan hukum dimana mereka kelihatanKeluaran: --defines[=FAIL] juga hasilkan fail pengepala -d, sama juga tetapi tidak boleh menyatakan FAIL (untuk Yacc POSIX) -r, --report=PERKARA juga hasilkan butir terperinci bagi automaton --report-file=FAIL tulis laporan ke FAIL -v, --verbose sama seperti `--report=state' -b, --file-prefix=AWALAN nyatakan AWALAN untuk fail keluaran -o, --output=FAIL biarkan keluaran kepada FAIL -g, --graph juga hasilkan graf bagi automaton -x, --xml[=FAIL] juga hasilkan laporan XML bagi automaton (skema XML adalah masih tahap kajian) Penghurai: -L, --language=BAHASA nyatakan bahasa pengaturcaraan keluaran (ini adalah ciri ujikaji) -S, --skeleton=FAIL nyatakan rangka untuk digunakan -t, --debug peralatan parser untuk nyahpepijat --locations hidupkan pengiraan lokasi -p, --name-prefix=AWALAN tambah AWALAN kepada simbol luaran -l, --no-lines jangan jana arahan `#line' -k, --token-table sertakan jadual nama token Hukum tidak berguna dalam tatabahasaHukum tidak digunakan dalam penghurai kerana konflikKeadaan %d PERKARA adalah senarai perkataan dipisah koma yang boleh termasuk: `state' nyatakan keadaan `itemset' lengkapkan set perkara asas dengan penutupnya `lookahead' dengan jelas kaitkan token lookahead kepada perkara `solved' nyatakan penyelesaian konflik pemindahan/pengurangan `all' masukkan semua maklumat diatas `none' matikan laporan Terminal tidak digunakan dalam tatabahasaTerminal, dengan hukum dimana mereka kelihatanPerkara yang sama bagi hujah pilihan. Ini adalah perisian bebas; lihat sumber untuk syarat menyalin. TIADA jaminan disediakan; tidak juga untuk KEBOLEHDAGANGAN atau KEUPAYAAN UNTUK SESUATU TUJUAN KHUSUS. Cuba `%s --help' untuk lebih maklumat. Ralat sistem tidak diketahuiPenggunaan: %s [PILIHAN]... FAIL Hujah yang sah adalah:Kategori amaran termasuk: `midrule-values' nilai hukumtengah nyahtetap atau tidak digunakan `yacc' tidak serasi dengan POSIX YACC `all' semua amaran `no-CATEGORY' matikan amaran dalam CATEGORY `none' matikan semua amaran `error' jadikan amaran sebagai ralat Ditulis oleh Robert Corbett dan Richard Stallman. `terimahujah kabur %s untuk %sbison (GNU Bison) %stidak dapat menutup failtidak dapat membuka fail `%s'nombor lajur melimpahkeluaran berkonflik kepada fail %skonflik: %d pengurangan/pengurangan konflik: %d pemindahan/pengurangan konflik: %d pemindahan/pengurangan, %d pengurangan/pengurangan kira histogram log histogram kepadatan kosonghukum kosong untuk bukan terminal ditaip, dan tiada tindakanralat (tidak bergabung) dijangkakan %d pengurangan/pengurangan konflikjangkaan %d konflik pemindahan/penguranganJenis tidak tersirat diberikan dalam tatabahasa tanpa jenisoperan tambahan `%s'ralat mautpergi ke keadaan %d integer diluar julat: %snilai $ tidak sah: $%dhujah tidak sah %s untuk %saksara tidak sah: %sarahan tidak sah: %sbahasa `%s' tidak sahaksara null tidak sahnombor baris melimpahkehabisan memori`%s' hilang pada penghujung fail`%s' hilang pada penghujung barispengecam hilang dalam parameter pengisytiharanoperan hilang selepas `%s'pelbagai pengisytiharan %spelbagai pengisytiharan bahasa adalah tidak sahpelbagai rangka pengisytiharan tidak sahtiada hukum dalam masukan tatabahasabukan terminal tidak berguna dalam tatabahasa: %shanya satu %s dibenarkan setiap hukumpengisytiharan terdahulupengisytiharan semula untuk %%destructor ditag defaultpengisytiharan semula untuk %%printer ditag defaultpengisytiharan semula untuk %%destructor tanpa tag defaultpengisytiharan semula untuk %%printer tanpa tag defaultmentakrif semula nombor token pengguna %skurang menggunakan hukum %d (%s)enggan untuk menulisganti fail masukan %sjenis hasil bertelingkah pada fungsi gabung %s: <%s> != <%s>hukum diberi untuk %s, dimana ia adalah tokenperaturan terlalu panjanghukum tidak digunakan tatabahasahukum tidak digunakan kerana konflikpindah, dan pergi ke keadaan %d saiz histogram log simbol permulaan %s tidak menghasilkan sebarang perkataankeadaan %d`$' lilau`,' sesat dianggap sebagai ruang`@' lilausimbol %s digunakan, tetapi tidak ditakrifkan sebagai token atau mempunyai hukumsimbol %s ditakrif semulasimbol %s ditakrif semulasimbol `%s' diberikan lebih daripada satu rentetan perkataansimbol `%s' digunakan lebih dari sekali sebagai rentetan perkataansimbol permulaan %s adalah tokensimbol permulaan %s tidak ditakrifkanmasa dalam %s: %ld.%06ld (%ld%%) token %s dan %s kedua-dunya diberi nombor %dterlalu banyak simbol dalam tatabahasa masukan (had adalah %d)pertelingkahan jenis pada tindakan default: <%s> != <%s>nyahtetap nilai: $$nilai tidak digunakan: $%damaran07070100062d02000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/es07070100062d03000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/es/LC_MESSAGES07070100062d04000081a40000000000000000000000014c5138c800000202000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/es/LC_MESSAGES/bison-runtime.moÞ•,<PQbòmemory exhaustedProject-Id-Version: GNU bison 1.875 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2003-01-02 12:47+0100 Last-Translator: Nicolás García-Pedrajas Language-Team: Spanish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); memoria agotada07070100062d05000081a40000000000000000000000014c5138c700002413000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/es/LC_MESSAGES/bison.moÞ•d<‰\€><Ü; U n x ƒ “ ³ Ô 'Ý  &! H %` † %— #½ $á    5 0J &{ ¢ ½ Ù á *ë  ' —H &à   8 0M ~ € ‡ ¤ ¹ Ë á ø 4-P~“¦/¬ÜFôD;€“£¼Ñì/DUq+¹Ôí "(K#e‰šµ,Éö ÿ  *A4v‹.Ÿ3Î !B(a/Š*ºåõ N¾O T]²ËÝí"##G.P%,¥Ò)é*$(O)x¢¤"Áä0ü7-$e,Š · Á+Î ú(¥.)Ôþ$A/]—´É!ç$ "./Q1@³"ô/@5vU_ãCWh‚™¸Ïç"ÿ"&2&Y6€!·Ù(÷ 6@ w 0– Ç ã "!<#! `! j!.x! §!Kµ!""73"9k"/¥"1Õ" #:(#@c#@¤#å#ù# $4O'G"*J59ZF C#&]6L-? 0 VW[8:1Q)bK,(NAE@=YM%\+$DT.3aP;S> `2<7^dcI/ HXR!UB_ Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenrule is too longshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: GNU bison 2.2 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2006-06-05 13:51+0200 Last-Translator: Nicolás García-Pedrajas Language-Team: Spanish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); Tiempos de ejecución (segundo) El conflicto entre la regla %d y el terminal %s se resuelve como un error. El conflicto entre la regla %d y el terminal %s se resuelve como reducción. El conflicto entre la regla %d y el terminal %s se resuelve como desplazamiento. TOTAL : en la izquierda: en la derecha: el tipo %d es %s $$ de `%s' no tiene tipo declarado$%d de `%s' no tiene tipo declarado$default%%expect-rr afecta sólo a los analizadores GLR%s afecta sólo a los analizadores GLR%s debe estar seguido por un número positivo%s redeclaración de %s%u bitset_allocs, %u liberados (%.2f%%). %u bitset_lists %u bitset_resets, %u en la caché (%.2f%%) %u bitset_sets, %u en la caché (%.2f%%) %u bitset_tests, %u en la caché (%.2f%%) 'Ejecuciones acumuladas = %u Fichero de estadística no válido. Estadísticas de bitset Copyright (C) %d Free Software Foundation, Inc. No pude abrir el fichero de estadísticas para escrituraNo pude leer fichero de estadísticasNo pude escribir el fichero de estadísticas.GramáticaError de E/SNo terminales con las reglas donde aparecenEstado %d Terminales con las reglas donde aparecenEsto es software libre; mire el fuente para las condiciones de copia. No hay NINGUNA garantía; ni siquiera para COMERCIALIZACIÓN o ADAPTACIÓN PARA UN USO PARTICULAR Pruebe `%s --help' para más información. Error del sistema desconocidoUtilización: %s [OPCIÓN]... FICHERO Los argumentos válidos son:Escrito por Robert Corbett y Richard Stallman. `aceptarargumento %s ambigüo para %sbison (GNU bison) %sno se puede cerrar el ficherono se puede abrir el fichero `%s'desbordamiento del número de columnasalidas en conflicto al fichero %sconflictos: %d reducción(ones)/reducción(ones) conflictos: %d desplazamiento(s)/reducción(ones) conflictos: %d desplazamiento/reducción, %d reducción/reducción histograma del registro de conteo histograma de densidad vacíoregla vacía para un no terminal con tipo y no hay ninguna acciónerror (no asociativo) esperado %d conflicto reducción/reducciónesperados %d conflictos reducción/reducciónesperado %d conflicto desplazamiento/reducciónesperados %d conflictos desplazamiento/reducciónoperando extra `%s'ir al estado %d entero fuera de rango: %svalor $ no válido: $%dargumento no válido %s para %scarácter no válido: %sdirectiva no válida: %scarácter nulo no válidodesbordamiento del número de líneamemoria agotadafalta cadena `%s' al final del ficherofalta cadena `%s' al final del ficherofalta el identificador el la declaración del parámetrofalta un operando después de `%s'múltiples declaraciones de %sno hay reglas en la gramática de entradasólo se permite un %s por reglaredefinición del número del terminal del usuario de %sreduce usando la regla %d (%s)se ha dado una regla para %s, que es un terminalla regla es demasiado largadesplazar e ir al estado %d histograma del registro de tamaño El símbolo de inicio (axioma) %s no deriva ninguna sentenciaestado %d`$ extraviado`,' perdido se trato como un espacio en blanco`@ extraviadose usa el símbolo %s, pero no está definido como terminal y no tiene reglasredefinido el símbolo %sredefinido el símbolo %sal símbolo `%s' se le ha dado más de una cadena literalsímbolo `%s' utilizado más de una vez como cadena literalel símbolo de inicio (axioma) %s es un terminalel símbolo de inicio (axioma) %s no está definidotiempo en %s: %ld.%06ld (%ld%%) los terminales %s y %s tienen asignados ambos el número %ddemasiados símbolos en la gramática de entrada (el límite es %d)incompatibilidad de tipos en la acción por defecto: <%s> != <%s>valor no fijado: $$valor no usado: $%daviso07070100062d3b000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/pl07070100062d3c000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/pl/LC_MESSAGES07070100062d3d000081a40000000000000000000000014c5138c8000005b8000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/pl/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷Ó(ü) 8J?ƒ?ÃMGQ™  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4.1a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-01-30 19:11+0100 Last-Translator: Wojciech Polak Language-Team: Polish MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=(n==1 ? 0 : n%10>=2 && n%10<=4 && (n%100<10 || n%100>=20) ? 1 : 2); pamięć wyczerpanabłąd skÅ‚adnibłąd skÅ‚adni, niespodziewany symbol %sbłąd skÅ‚adni, niespodziewany symbol %s, oczekiwano %sbłąd skÅ‚adni, niespodziewany symbol %s, oczekiwano %s lub %sbłąd skÅ‚adni, niespodziewany %s, oczekiwano %s lub %s lub %sbłąd skÅ‚adni, niespodziewany symbol %s, oczekiwano %s lub %s lub %s lub %sbłąd skÅ‚adni: nie można cofnąć przesuniÄ™cia symbolu leksykalnegoskÅ‚adnia jest niejednoznaczna07070100062d3e000081a40000000000000000000000014c5138c800004e8c000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/pl/LC_MESSAGES/bison.moÞ•œüÓÜ ( ) œE â>ù<8;u± Ê Ôß6ï& Fg'pD˜6Ý&&Bi›,·ä%,(-U ƒ(¤Íí% 3%D#j$޳µÌâ0÷&(Oj#†ª ²I¼*&tQÆÇ(à q…'¡)É—ó&‹²Çã8ø01bdkˆ¯ÅÜû-4bwŠ/ÀFØD &d ‹ ž ª º Ó è $!(!>!T!j!!!0£!.Ô!"")"E"+a""¨"*Á"*ì"#"5#X#u#Š#-ž#*Ì#.÷#+&$"R$u$'$6·$#î$%#%';%c%~%,’%¿% È% Ò% ó%Aý%?&T&.h&3—&Ë& ê& '#*'(N'.w'/¦'/Ö'*(!1(MS(H¡(Hê(M3))‘)£)Ë«)w+¾–++U-T-VÖ-[-.‰. £. ®.º.XË.6$/7[/ “/;Ÿ/›Û/ow0ç0,1+21^1u1Ž1-ª1$Ø1 ý1-2.L2'{2#£2Ç2â2)ý2'3+83)d3*Ž3¹3»3Ø3÷30 4/=4%m4$“46¸4 ï4ù4Z5/m575œÕ5ór8!f:9ˆ:Â:²Ë:*~<4©<*Þ<Ô =6Þ=>->J>]d>6Â?ù? û?"@+@@@[@{@™@ ¶@%×@;ý@9AVAlAJrA#½A“áA¢uB C9CQC`C#xCœC!¼C#ÞCDD7DRD%lDA’D9ÔDE*E>E^E1~E°EÌE3æE3F#NF2rF+¥FÑFçF5üF22G8eG5žG/ÔG%H'*HIRH(œHÅH!ÙH9ûH(5I^I4}I²IºI2ÊIýIR J`JyJ9’JBÌJ/K*?KjK6ˆK=¿K2ýK20L<cL. L'ÏLV÷LQNMQ MVòMINdN N˜r UKve•\†z:ZV™NŠƒ 'kp"“…3 -.x‰PE|SFt,‘#‹258=m?]YC$h›6„’O7w&”I uRs€qŽ![L*_yA+i‚X0o`—Bœ T9H@ŒW‡d~/aj%M{(D;–^šc4f> Jb<n1Gˆg)lQ} Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s `%s' redefined%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sinvalid value for %%define Boolean variable `%s'invalid value for %%define variable `%s': `%s'line number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationprevious definitionredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo few arguments for %s directive in skeletontoo many arguments for %s directive in skeletontoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unclosed %s directive in skeletonundefined %%define variable `%s' passed to muscle_percent_define_check_valuesundefined %%define variable `%s' passed to muscle_percent_define_flag_ifundefined %%define variable `%s' passed to muscle_percent_define_get_locundefined %%define variable `%s' passed to muscle_percent_define_get_synclineunset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-02-24 23:08+0100 Last-Translator: Wojciech Polak Language-Team: Polish MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=(n==1 ? 0 : n%10>=2 && n%10<=4 && (n%100<10 || n%100>=20) ? 1 : 2); Czas wykonania (w sekundach) Tryby dziaÅ‚ania: -h, --help wyÅ›wietla pomoc i koÅ„czy pracÄ™ -V, --version wyÅ›wietla informacje o wersji i koÅ„czy pracÄ™ --print-localedir wyÅ›wietla katalog z danymi dotyczÄ…cymi lokalizacji --print-datadir wyÅ›wietla katalog zawierajÄ…cy szkielety i XSLT -y, --yacc emuluje POSIX Yacc -W, --warnings[=KATEGORIA] zgÅ‚asza ostrzeżenia dotyczÄ…ce danej kategorii Błędy proszÄ™ zgÅ‚aszać na adres <%s>. Konflikt pomiÄ™dzy regułą %d i symbolem leksykalnym %s rozwiÄ…zany jako błąd Konflikt pomiÄ™dzy regułą %d i symbolem leksykalnym %s rozwiÄ…zany jako redukcja Konflikt pomiÄ™dzy regułą %d i symbolem leksykalnym %s rozwiÄ…zany jako przesuniÄ™cie CAÅKOWITY : po lewej: po prawej: typ %d jest %s $$ w pozycji $%d należący do poÅ›redniej reguÅ‚y `%s' nie posiada zadeklarowanego typu$$ należący do `%s' nie posiada zadeklarowanego typu$%d należący do `%s' nie posiada zadeklarowanego typu$domyÅ›lnie%%expect-rr odnosi siÄ™ tylko do analizatorów skÅ‚adni GLR%d bezużyteczny symbol nieterminalny w gramatyce%d bezużyteczne symbole nieterminalne w gramatyce%d bezużytecznych symboli nieterminalnych w gramatyce%d bezużyteczna reguÅ‚a w gramatyce%d bezużyteczne reguÅ‚y w gramatyce%d bezużytecznych reguÅ‚ w gramatyce%s zredefiniowany symbol `%s'%s wpÅ‚ywa tylko na analizatory skÅ‚adni GLRza %s musi być umieszczona liczba dodatnia%s redeklaracja dla %s%s redeklaracja dla <%s>%s: błędna opcja -- '%c' %s: opcja '%c%s' nie może mieć argumentów %s: opcja '%s' jest niejednoznaczna %s: opcja '%s' wymaga argumentu %s: opcja '--%s' nie może mieć argumentów %s: opcja '-W %s' nie może mieć argumentów %s: opcja '-W %s' jest niejednoznaczna %s: opcja wymaga argumentu -- '%c' %s: nieznana opcja '%c%s' %s: nieznana opcja '--%s' %u bitset_allocs, %u zwolnione (%.2f%%). %u bitset_lists %u bitset_resets, %u zapamiÄ™tane (%.2f%%) %u bitset_sets, %u zapamiÄ™tane (%.2f%%) %u bitset_tests, %u zapamiÄ™tane (%.2f%%) 'Zakumulowane przebiegi = %u ZÅ‚y rozmiar pliku statystyk. Statystyki bitset: Copyright (C) %d Free Software Foundation, Inc. Nie można otworzyć pliku statystyk do zapisu.Nie można odczytać pliku statystyk.Nie można zapisać pliku statystyk.GNU Bison tworzy analizatory skÅ‚adni LALR(1) i GLR. Gramatykabłąd wejÅ›cia/wyjÅ›ciaObowiÄ…zkowe argumenty dla dÅ‚ugich opcji sÄ… obowiÄ…zkowe również dla krótkich opcji. Symbole nieterminalne bezużyteczne w gramatyceSymbole nieterminalne i reguÅ‚y, w których wystÄ™pujÄ…WyjÅ›cie: --defines[=PLIK] produkuje także plik nagłówkowy -d podobnie, ale bez podania PLIKU (dla POSIX Yacc) -r, --report=LISTA produkuje także szczegóły na temat automatu --report-file=PLIK zapisuje raport do PLIKU -v, --verbose to samo co `--report=state' -b, --file-prefix=PREFIKS ustaw PREFIKS dla plików wyjÅ›ciowych -o, --output=PLIK przekierowuje wyjÅ›cie do PLIKU -g, --graph[=PLIK] produkuje także graf automatu -x, --xml[=PLIK] produkuje także raport XML na temat automatu (schemat XML jest eksperymentalny) Analizator skÅ‚adni: -L, --language=JĘZYK używa wyjÅ›ciowy jÄ™zyk programowania -S, --skeleton=PLIK używa podanego szkieletu -t, --debug produkuje analizator zdolny do odpluskwiania --locations włącza obliczanie lokacji -p, --name-prefix=PREFIKS dopisuje poczÄ…tkowy PREFIKS do zewnÄ™trznych symboli -l, --no-lines zabrania tworzenia dyrektyw `#line' -k, --token-table dołącza tablicÄ™ nazw symboli leksykalnych Bezużyteczne reguÅ‚y w gramatyceBezużyteczne reguÅ‚y w analizatorze z powodu konfliktówStan %d LISTA stanowi sÅ‚owa przedzielone przecinkami. Dopuszczalne sÄ… nastÄ™pujÄ…ce sÅ‚owa: `state' opisuje stany `itemset' dodaje symbole pochodne do listy symboli podstawowych `look-ahead' drukuje listÄ™ możliwych w każdej pozycji symboli-nastÄ™pców `solved' opisuje rozwiÄ…zanie konfliktów przesuniÄ™cie/redukcja `all' dołącza wszystkie powyższe informacje `none' wyłącza raport Nieużywane symbole terminalne w gramatyceSymbole terminalne i reguÅ‚y, w których wystÄ™pujÄ…To samo dotyczy argumentów opcjonalnych. Niniejszy program jest wolnym oprogramowaniem; warunki kopiowania sÄ… opisane w źródÅ‚ach. Autorzy nie dajÄ… Å»ADNYCH gwarancji, w tym również gwarancji PRZYDATNOÅšCI DO SPRZEDAÅ»Y LUB DO KONKRETNYCH CELÓW. Spróbuj `%s --help' aby uzyskać wiÄ™cej informacji. Nieznany błąd systemuUżycie: %s [OPCJA]... PLIK PrawidÅ‚owe argumenty to:Kategorie ostrzeżeÅ„: `midrule-values' nieustawione lub nieużywane wartoÅ›ci reguÅ‚ `yacc' niekompatybilnoÅ›ci z POSIX YACC `all' wszystkie ostrzeżenia `no-KATEGORIA' wyłącza ostrzeżenia w KATEGORII `none' wyłącza wszystkie ostrzeżenia `error' traktuje ostrzeżenia jako błędy Napisany przez Roberta Corbetta i Richarda Stallmana. `akceptowanieniejednoznaczny argument %s dla %sbison (GNU Bison) %snie można zamknąć plikunie można otworzyć pliku `%s'przepeÅ‚nienie numeru kolumnykonflikt wyjść do pliku %skonflikty: %d redukcja/redukcja konflikty: %d przesuniÄ™cie/redukcja konflikty: %d przesuniÄ™cie/redukcja, %d redukcja/redukcja histogram rejestru zliczeÅ„ histogram gÄ™stoÅ›ci pustapusta reguÅ‚a i brak akcji dla symbolu nieterminalnego z okreÅ›leniem typubłąd (symbol niełączÄ…cy siÄ™) spodziewano siÄ™ %d konfliktu redukcja/redukcjaspodziewano siÄ™ %d konfliktów redukcja/redukcjaspodziewano siÄ™ %d konfliktów redukcja/redukcjaspodziewano siÄ™ %d konfliktu przesuniÄ™cie/redukcjaspodziewano siÄ™ %d konfliktów przesuniÄ™cie/redukcjaspodziewano siÄ™ %d konfliktów przesuniÄ™cie/redukcjajawny typ w gramatyce beztypowejdodatkowy argument `%s'fatalny błądprzejÅ›cie do stanu %d liczba caÅ‚kowita poza zakresem: %snieprawidÅ‚owa wartość $: $%dnieprawidÅ‚owy argument %s dla %snieprawidÅ‚owy znak po \-escape: %snieprawidÅ‚owy znak: %snieprawidÅ‚owa dyrektywa: %snieprawidÅ‚owy jÄ™zyk `%s'nieprawidÅ‚owy pusty znaknieprawidÅ‚owa liczba po \-escape: %snieprawidÅ‚owa wartość dla boole'owskiej zmiennej %%define `%s'nieprawidÅ‚owa wartość dla zmiennej %%define `%s': `%s'przepeÅ‚nienie numeru liniipamięć wyczerpanabrakujÄ…cy `%s' na koÅ„cu plikubrakujÄ…cy `%s' na koÅ„cu liniibrakujÄ…cy identyfikator w deklaracji parametrówbrakujÄ…cy argument za `%s'wielokrotne deklaracje %swielokrotne deklaracje jÄ™zykowe sÄ… nieprawidÅ‚owewielokrotne deklaracje szkieletu sÄ… nieprawidÅ‚owebrak reguÅ‚ w gramatyce wejÅ›ciowejSymbol nieterminalny bezużyteczny w gramatyce: %stylko jedno %s dozwolone na jednÄ… regułępoprzednia deklaracjapoprzednia definicjadomyÅ›lny oznaczony %%destructor deklarowany ponowniedomyÅ›lny oznaczony %%printer deklarowany ponowniedomyÅ›lny nieoznaczony %%destructor deklarowany ponowniedomyÅ›lny nieoznaczony %%printer deklarowany ponownieprzedefiniowanie numeru symbolu leksykalnego %sredukcja przy użyciu reguÅ‚y %d (%s)odmowa nadpisania pliku wejÅ›ciowego %sniezgodność typów powrotu przy połączeniu funkcji `%s': <%s> != <%s>reguÅ‚a dana dla symbolu leksykalnego %szbyt dÅ‚uga reguÅ‚areguÅ‚a bezużyteczna w gramatycebezużyteczna reguÅ‚a w analizatorze z powodu konfliktówprzesuniÄ™cie, i przejÅ›cie do stanu %d histogram rejestru wielkoÅ›ci poczÄ…tkowy symbol %s nie dziedziczy żadnego zdaniastan %dzabłąkany `$'zabłąkany znak `,' potraktowany jako biaÅ‚y znakzabłąkany `@'użyty symbol %s nie jest zdefiniowany jako symbol leksykalny i nie posiada reguÅ‚zredefiniowany symbol %szredefiniowany symbol %ssymbol `%s' podany wiÄ™cej niż jeden Å‚aÅ„cuch literalnysymbol `%s' użyty wiÄ™cej niż jeden raz jako Å‚aÅ„cuch literalnysymbol poczÄ…tkowy %s jest symbolem leksykalnymsymbol poczÄ…tkowy %s jest niezdefiniowanyczas w %s: %ld.%06ld (%ld%%) symbol leksykalny dla %%prec nie jest zdefiniowany: %soba symbole leksykalne %s i %s majÄ… przypisanÄ… wartość %dza maÅ‚o argumentów dla dyrektywy %s w szkielecieza dużo argumentów dla dyrektywy %s w szkieleciezbyt dużo symboli w gramatyce wejÅ›ciowej (limit wynosi %d)konflikt typu w domyÅ›lnej akcji: <%s> != <%s>niedomkniÄ™ta dyrektywa %s w szkielecieniezdefiniowana zmienna %%define `%s' przekazana do muscle_percent_define_check_valuesniezdefiniowana zmienna %%define `%s' przekazana do muscle_percent_define_flag_ifniezdefiniowana zmienna %%define `%s' przekazana do muscle_percent_define_get_locniezdefiniowana zmienna %%define `%s' przekazana do muscle_percent_define_get_synclinenieustawiona wartość: $$nieużywana wartość: $%dostrzeżenie07070100062d4f000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/sl07070100062d50000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/sl/LC_MESSAGES07070100062d51000081a40000000000000000000000014c5138c8000005e9000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/sl/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷;(dy$Œ6±=èB&Gi&±Ø  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-10-06 14:58+0200 Last-Translator: Primož Peterlin Language-Team: Slovenian MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=4; plural=(n%100==1 ? 1 : n%100==2 ? 2 : n%100==3 || n%100==4 ? 3 : 0); X-Poedit-Language: Slovenian X-Poedit-Country: SLOVENIA X-Poedit-SourceCharset: utf-8 zmanjkalo pomnilnikaskladenjska napakaskladenjska napaka, nepriÄakovan %sskladenjska napaka, nepriÄakovan %s, priÄakuje se %sskladenjska napaka, nepriÄakovan %s, priÄakuje se %s ali %sskladenjska napaka, nepriÄakovan %s, priÄakuje se %s , %s ali %sskladenjska napaka, nepriÄakovan %s, priÄakuje se %s , %s , %s ali %snapaÄna skladnja: ni mogoÄe povrnitidvoumna skladnja07070100062d1e000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/it07070100062d1f000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/it/LC_MESSAGES07070100062d20000081a40000000000000000000000014c5138c8000004d0000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/it/LC_MESSAGES/bison-runtime.moÞ• d ¬àá òÿ)/E5u;«ç~ƒ”!§*É1ô8&?_0Ÿ memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upProject-Id-Version: bison 2.0 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-05-23 12:37+0100 Last-Translator: Paolo Bonzini Language-Team: Italian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); memoria esauritaerrore di sintassierrore di sintassi, %s non attesoerrore di sintassi, atteso %2$s e non %1$serrore di sintassi, atteso %2$s o %3$s e non %1$serrore di sintassi, atteso %2$s o %3$s o %4$s e non %1$serrore di sintassi, atteso %2$s o %3$s o %4$s o %5$s e non %1$serrore di sintassi: impossibile tornare indietro07070100062d21000081a40000000000000000000000014c5138c700002118000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/it/LC_MESSAGES/bison.moÞ•Z켸¹>Õ<;Q ¦ °»Ë ë ' = &Y € %˜ ¾ %Ï #õ $ > @ W m 0‚ &³ Ú õ   *# N 'X —€ & ? T p 0… ¶ ¸ ¿ Ü ñ  & C -_  ¢ µ /» ë FDJ¢²Ëæü):V+rž¹Òð" 0#Jn‰,Ê ÓAô6.J3y­ Ìí( /5*e~˜"@:C{?¿ÿ+@.R/±+º"æ, $6'[ƒ&“$º%ß.#R0l:.Ø/ 7B-Y‡*»»0w¨Ææ.02:Vk!‹"­Ð6ï&?Y:_šO´GLh„ ¿Øñ  #>:b¹(×#A$f"†#©Í/ê)#6M„5š<Ð- ; \ )| 0¦ 5× !MFZ!PX,+IG7*D2 %RW-Q9&>CO #V6/<L(J0  HY@1"SU)NB 3'$?T5=: E.;K4A8 Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null charactermemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>warningProject-Id-Version: bison 2.0 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-05-23 12:37+0100 Last-Translator: Paolo Bonzini Language-Team: Italian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n != 1); Tempo di esecuzione (in secondi) Conflitto tra la regola %d e il token %s risolto come errore Conflitto tra la regola %d e il token %s risolto come riduzione Conflitto tra la regola %d e il token %s risolto come shift TOTALE : nel primo membro: nel secondo membro: il tipo %d è %s Manca una dichiarazione di tipo per $$ di `%s'Manca una dichiarazione di tipo per $%d di `%s'$default%%expect-rr considerato solo nei parser GLR%s considerato solo nei parser GLR%s deve essere seguito da un intero positivodichiarazione due volte di %s per %s%u bitset_alloc, %u liberati (%.2f%%). %u bitset_list %u bitset_reset, %u in cache (%.2f%%) %u bitset_set, %u in cache (%.2f%%) %u bitset_test, %u in cache (%.2f%%) 'Esecuzioni accumulate = %u Dimensione errata del file delle statistiche. Statistiche dei bitset: Copyright (C) %d Free Software Foundation, Inc. Impossibile aprire in scrittura il file delle statistiche.Impossibile leggere il file delle statistiche.Impossibile scrivere il file delle statistiche.Grammaticaerrore di input/outputSimboli nonterminali e regole in cui appaionoStato %dSimboli terminali e regole in cui appaionoQuesto e' software libero; vedere il sorgente per le condizioni cui e' sottoposta la copia. NON c'è ALCUNA garanzia, neanche di COMMERCIABILITA` o di ADEGUATEZZA AD UN PARTICOLARE SCOPO. Provare `%s --help' per ulteriori informazioni. Errore di sistema sconosciutoUtilizzo: %s [OPZIONE]... FILE Gli argomenti validi sono:Scritto da Robert Corbett e Richard Stallman. `accettaargomento ambiguo %s per %sbison (GNU Bison) %simpossibile aprire il file `%s'conflitto nell'output sul file %s %d conflitti riduzione/riduzione %d conflitti shift/riduzione conflitti: %d shift/riduzione, %d riduzione/riduzione istogramma dei conteggi istogranna delle densità vuotoregola vuota e nessuna azione per un nonterminale con tipoerrore (non associativo) atteso %d conflitto riduzione/riduzioneattesi %d conflitti riduzione/riduzioneatteso %d conflitto shift/riduzioneattesi %d conflitti shift/riduzioneoperando non richiesto `%s'prosecuzione allo stato %d intero fuori dai limiti: %sargomento non valido %s per %scarattere non valido: %sdirettiva non valida: %scarattere nullo non validomemoria esauritamanca un `%s' alla fine del filemanca un `%s' alla fine della lineamanca un identificatore nella dichirazione di un parametromanca un operando dopo `%s'dichiarazioni multiple per %snessuna regola nella grammatica di inputsolo un %s è permesso in una regolanumero di token definito dall'utente specificato due volte per %sriduzione con la regola %d (%s)fornita una regola per il token %sshift e prosecuzione allo stato %d istogramma delle dimensioni dal simbolo iniziale %s non deriva alcuna frasestato %d`,' inattesa interpretata come uno spaziousato il simbolo %s, ma non è un token e non ha regolesimbolo %s ridefinitoil simbolo `%s' dà pi` di una stringa letteralesimbolo `%s' usato più di una volta in una stringa letteralespecificato il token %s come simbolo inizialesimbolo iniziale %s non definitotempo in %s: %ld.%06ld (%ld%%) i token %s e %s hanno lo stesso numero %dtroppi simboli nella grammatica (il limite è %d)conflitto di tipo nell'azione di default: <%s> e <%s>attenzione07070100062d47000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ro07070100062d48000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ro/LC_MESSAGES07070100062d49000081a40000000000000000000000014c5138c800000556000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ro/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷Ö(ÿ "+C2o9¢@Ü#A  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-20 12:00-0500 Last-Translator: Laurentiu Buzdugan Language-Team: Romanian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-2 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=(n==1 ? 0 : (n==0 || ((n%100) > 0 && (n%100) < 20)) ? 1 : 2); memorie epuizatãeroare de sintaxãeroare de sintaxã, %s neaºteptateroare de sintaxã, %s neaºteptat, aºtept %seroare de sintaxã, %s neaºteptat, aºtept %s sau %seroare de sintaxã, %s neaºteptat, aºtept %s sau %s sau %seroare de sintaxã, %s neaºteptat, aºtept %s sau %s sau %s sau %seroare de sintaxã: nu pot da înapoisintaxa este ambiguã07070100062d4a000081a40000000000000000000000014c5138c80000216f000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/ro/LC_MESSAGES/bison.moÞ•[ôÌÈÉ>å<$;a ¶ ÀËÛ û '% M &i  %¨ Î %ß # $) N P g } 0’ &à ê  ! ) *3 ^ 'h — &( O d € 0• Æ È Ï ì   ) H e - ¯ Ä × /Ý  F%Dl±ÄÔí4K\x+”ÀÛô"/R#l«,¿ì õAX.l3›Ï î(./W*‡²›ºVGsG»FJ c o|)*¹ ä6î%*Do)ˆ²/Ã-ó.!PR+i•0ª;Û($@ e o0z«,´²á6”Ë!è -!OQXv‹"£!Æè-!Oi8‡ÀLÜJ)tˆœ»Ùî",O.n¶$Í%òE^3}±Ï1í*(US©=½:û,6 $c ˆ E§ =í 7+! c!NG[!QY,+JH8*E3 %SX.R:&?DP #W70=M(-K1  IZA2"TV)OC 4'$@U6>; F/<L5B9 Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null charactermemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>warningProject-Id-Version: bison 2.0a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-06-03 12:00-0500 Last-Translator: Laurentiu Buzdugan Language-Team: Romanian MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-2 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); Timp de execuþie (secunde) Conflict între regula %d ºi elementul (token) %s rezolvat ca eroare Conflict între regula %d ºi elementul (token) %s rezolvat ca reduce Conflict între regula %d ºi elementul (token) %s rezolvat ca shift TOTAL : pe stânga: pe dreapta: tipul %d este %s $$ a lui `%s' nu are nici un tip declarat$%d a lui `%s' nu are nici un tip declarat$implicit%% expect-rr poate fi folosit numai pentru parsere GLR%s afecteazã numai parsere GLR%s trebuie sã fie urmat de numere pozitiveredeclarare %s pentru %s%u bitset_allocs, %u eliberate (%.2f%%). %u bitset_lists %u bitset_resets, %u stocate (cached) (%.2f%%) %u bitset_sets, %u stocate (cached) (%.2f%%) %u bitset_tests, %u stocate (cached) (%.2f%%) 'Rulãri acumulate = %u Dimensiune fiºier cu statistici incorectã. Statistici bitset: Copyright (C) %d Free Software Foundation, Inc. Nu am putut deschide fiºierul de statistici pentru scriere.Nu am putut citi fiºierul de statistici.Nu am putut scrie fiºier statistici.GramaticãEroare I/ONon-terminale, cu reguli acolo unde acestea aparStare %dTerminale, cu reguli acolo unde acestea aparAcesta este software liber; vedeþi codul sursã pentru condiþii despre copiere. Nu existã nici o garanþie; nici chiar pentru COMERCIALIZARE sau de POTRIVIRE PENTRU UN SCOP ANUME. Încercaþi `%s --help' pentru informaþii suplimentare. Eroare de sistem necunoscutãFolosire: %s [OPÞIUNE]... FIªIER Argumente valide sunt:Scris de Robert Corbett ºi Richard Stallman. `acceptargument ambiguu %s pentru %sbison (GNU Bison) %snu pot închide fiºierulnu am putut deschide fiºierul `%s'ieºiri în conflict în fiºierul %sconflicte: %d reduce/reduce conflicte: %d shift/reduce conflicte: %d shift/reduce, %d reduce/reduce numãrã histograma jurnal densitate histogramã goleºteregulã vidã pentru nonterminal cu tip, ºi nici o acþiuneeroare (ne-asociativitate) am aºteptat %d conflict reduce/reduceam aºteptat %d conflicte reduce/reduceam aºteptat %d conflict shift/reduceam aºteptat %d conflicte shift/reduceextra operator `%s'mergi în starea %d întreg în afara domeniului: %sargument invalid %s pentru %scaracter invalid: %sdirectivã invalidã: %scaracter null invalidmemorie epuizatã`%s' lipsã la sfârºitul fiºierului`%s' lipsã la sfârºitul linieiidentificator lipsã în declaraþia parametruluioperator lipsã dupã `%s'declaraþii %s multiplenici o regulã în gramatica furnizatãun singur %s permis pe fiecare regulãnumãrul elementului (token) definit de utilizator redefinit pentru %sreduce folosind regula %d (%s)regula datã pentru %s, care este un element (token)shift, ºi mergi în starea %d dimensiune histogramã jurnal simbol de start %s nu deriveazã nici o propoziþiestare %dVirgulã `,' rãtãcitã tratatã ca spaþiu golsimbolul %s e folosit, dar nu este definit ca element (token) ºi nu are nici o regulãsimbol %s redefinitsimbolului `%s' îi este dat mai mult de un singur ºir literarsimbolul `%s' este folosit de mai multe ori ca ºir literarsimbolul de start %s este un element (token)simbolul de start %s nu este definittimp în %s: %ld.%06ld (%ld%%) ambelor elementele (tokens) %s ºi %s le sunt alocate acelaºi numãr %dprea multe simboluri în gramatica de intrare (limita este %d)conflict de tip pentru acþiunea implicitã: <%s> != <%s>avertisment07070100062cf6000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/da07070100062cf7000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/da/LC_MESSAGES07070100062cf9000081a40000000000000000000000014c5138c700001fbf000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/da/LC_MESSAGES/bison.moÞ•Z켸¹>Õ<;Q ¦ °»Ë ë ' = &Y € %˜ ¾ %Ï #õ $ > @ W m 0‚ &³ Ú õ   *# N 'X —€ & ? T p 0… ¶ ¸ ¿ Ü ñ   8 U -q Ÿ ´ Ç /Í ý FD\¡´ÄÝø$;Lh+„°Ëä"B#\€›,¯Ü åAH.\3‹¿ Þÿ(*Grzú==U;“Ï è ö#$6[-d’!±Ó0ð!/5/e&•¼¾Ùø.+=i‡ §±.Ï þ) Ÿ5+Õ+/Brt}›°Ã Ü ý1=o‚–4šÏOçK7ƒ›&¯Öò,&@'g.¾Û"ò$1V$p•³*Ë ö'J*u3‹=¿ý;-X/†¶NGZ!Q,+JH8*E3 %SX.R:&?DP #W70=M(-K1  IYA2"TV)OC 4'$@U6>; F/<L5B9 Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null charactermemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtype clash on default action: <%s> != <%s>warningProject-Id-Version: bison 1.875d Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2004-05-22 11:14+0200 Last-Translator: Byrial Ole Jensen Language-Team: Danish MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); Udførelsestider (sekunder) Konflikt mellem regel %d og element %s løstes som en fejl Konflikt mellem regel %d og element %s løstes som reducér Konflikt mellem regel %d og element %s løstes som skift TOTALT : til venstre: til højre: type %d er %s $$ for "%s" har ingen erklæret type$%d for "%s" har ingen erklæret type$default%%expect-rr kan kun bruges ved GLR-fortolkere%s påvirker kun GLR-fortolkere%s skal følges af et positivt talgentagen %s-erklæring for %s%u bitmængdeallokeringer, %u frigjort (%.2f%%). %u bitmængdelister %u bitmængdenulstillinger, %u cachede (%.2f%%) %u bitmængdeindstillinger, %u cachede (%.2f%%) %u bitmængdetest, %u cachede (%.2f%%) "Akkumulerede kørsler = %u Dårlig statistikfilstørrelse. Bitmængdestatistik: Copyright © %d Free Software Foundation, Inc. Kunne ikke åbne statistikfil for skrivning.Kunne ikke læse statistikfil.Kunne ikke skrive statistikfil.GrammatikFejl ved ind- eller udlæsningIkke-terminaler, med regler hvor de forekommerTilstand %d Terminaler, med regler hvor de forekommerDette er frit programmel, se kildekoden for kopieringsbetingelser. Der gives INGEN garanti, endog ikke for SALGBARHED eller EGNETHED FOR NOGET BESTEMT FORMÅL. Prøv med "%s --help" for mere information. Ukendt systemfejlBrug: %s [FLAG]... FIL Gyldige argumenter er:Skrevet af Robert Corbett og Richard Stallman. "acceptérflertydigt argument %s til %sbison (GNU Bison) %skan ikke lukke filkan ikke åbne filen "%s"konfliktende uddata til filen %skonflikter: %d reducér/reducér konflikter: %d skift/reducér konflikter: %d skift/reducér, %d reducér/reducér kaldsloghistogram densitetshistogram tomtom regel for typet ikke-terminal, og ingen handlingfejl (ikke-associativ) forventede %d reducér/reducér-konfliktforventede %d reducér/reducér-konflikterforventede %d skift/reducér-konfliktforventede %d skift/reducér-konflikterovertallig operand "%s"gå til tilstand %d heltal uden for gyldigshedsområdet: %sugyldigt argument %s til %sugyldigt tegn: %sugyldigt direktiv: %sugyldigt NUL-tegnhukommelsen opbrugtmanglende "%s" ved slutningen af filenmanglende "%s" ved slutningen af linjenmanglende identifikator i parameterdeklarationmanglende operand efter "%s"flere %s-deklarationeringen regler i inddatagrammatikkenkun en %s tilladt per regelredefinition af elementnummer for %sreducér med regel %d (%s)regel givet for %s som er et elementskift, og gå til tilstand %d størrelsesloghistogram startsymbolet %s genererer ingen sætningertilstand %dMalplaceret "," behandlet som blanktegnsymbol %s bruges, men er ikke defineret som et element og har ingen reglersymbol %s redefineretsymbol "%s" har fået mere end én bogstavelig strengsymbol "%s" bruges mere end en gang som en bogstavelig strengstartsymbolet %s er et elementstartsymbolet %s er udefinerettid i %s: %ld.%06ld (%ld%%) elementerne %s og %s har begge fået nummer %dtypekonflikt for standardhandling: <%s> != <%s>advarsel07070100062cf8000081a40000000000000000000000014c5138c8000004f4000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/da/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷ƒ(¬ ÀÌ&ä/ 8;At)¶à  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime-2.3b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-08-25 00:00+0000 Last-Translator: Keld Simonsen Language-Team: Danish MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); hukommelsen opbrugtsyntaksfejlsyntaksfejl, uventet %ssyntaksfejl, uventet %s, forventede %ssyntaksfejl, uventet %s, forventede %s eller %ssyntaksfejl, uventet %s, forventede %s eller %s eller %ssyntaksfejl, uventet %s, forventede %s eller %s eller %s eller %ssyntaksfejl: kan ikke lave sikkerhedskopisyntaks er tvetydig07070100062d59000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/tr07070100062d5a000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/tr/LC_MESSAGES07070100062d5b000081a40000000000000000000000014c5138c8000001fd000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/tr/LC_MESSAGES/bison-runtime.moÞ•,<PQ‹bîmemory exhaustedProject-Id-Version: GNU bison 2.0 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-03-20 22:03+0100 Last-Translator: Çaðrý Çöltekin Language-Team: Turkish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-9 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; bellek tükendi07070100062d5c000081a40000000000000000000000014c5138c80000205e000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/tr/LC_MESSAGES/bison.moÞ•[ôÌÈÉ>å<$;a ¶ ÀËÛ û '% M &i  %¨ Î %ß # $) N P g } 0’ &à ê  ! ) *3 ^ 'h — &( O d € 0• Æ È Ï ì   ) H e - ¯ Ä × /Ý  F%Dl±ÄÔí4K\x+”ÀÛô"/R#l«,¿ì õAX.l3›Ï î(./W*‡²‹ºFA`B¢Bå(BRb%r)˜ Â6Í%*I1i›1¬/Þ0?A%[2š)Í÷ 6 =8H 5‹¹Á){¥ ¾ß.ó"$+I^rŠ#¨!Ì9î(9NGRš+³)ß , Ef|‘ª¹Õ%î.D+b'޶%Òø4'\$eGŠÒ.ð7W"v%™4¿.ô4# X NG[!QY,+JH8*E3 %SX.R:&?DP #W70=M(-K1  IZA2"TV)OC 4'$@U6>; F/<L5B9 Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null charactermemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>warningProject-Id-Version: GNU bison 2.0 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-03-20 22:03+0100 Last-Translator: Çaðrý Çöltekin Language-Team: Turkish MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-9 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; Çalýþma süresi (saniye) %d durumu %s andacý arasýndaki çeliþki hata olarak çözümlendi %d durumu %s andacý arasýndaki çeliþki indirgenerek çözümlendi %d durumu %s andacý arasýndaki çeliþki kaydýrýlarak çözümlendi TOPLAM : (sol tarafta): (sað tarafta): tip %d %s'dir `%s''in $$'ý için bildirilmiþ tip yok`%2$s''in %1$d'i için bildirilmiþ tip yok$öntanýmlý%%expect-rr sadece GLR ayrýþtýrýcýlarý için geçerlidir%s sadece GLR ayrýþtýrýcýlarý etkiler%s'i pozitif bir sayý izlemeli%2$s için tekrar %1$s bildirimi%u bitset_allocs, %u serbest býrakýlan (%.2f%%). %u bitset_lists %u bitset_resets, %u önbellek kullanýmý (%.2f%%) %u bitset_sets, %u önbellek kullanýmý (%.2f%%) %u bitset_tests, %u önbellek kullanýmý (%.2f%%) 'Toplam çalýþtýrýlan = %u Ýstatistik dosyasý büyüklüðü yanlýþ. Bitset istatistikleri: Telif Hakký (C) %d Free Software Foundation, Inc. Ýstatistik dosyasý yazmak için açýlamadý.Ýstatistik dosyasý okunamadý.Ýstatistik dosyasýna yazýlamadý.GramerG/Ç hatasýDeðiþken simgeler, içinde geçtikleri kurallarla birlikteDurum %d Sabit simgeler, içinde geçtikleri kurallarla birlikteBu bir serbest yazýlýmdýr; kopyalama koþullarý için kaynak koduna bakýnýz. Hiçbir garantisi yoktur; hatta SATILABÝLÝRLÝÐÝ veya ÞAHSÝ KULLANIMINIZA UYGUNLUÐU için bile garanti verilmez. Daha fazla bilgi için `%s --help' yazýn. Bilinmeyen sistem hatasýKullaným: %s [SEÇENEK]... DOSYA Geçerli argümanlar:Yazanlar: Robert Corbett ve Richard Stallman. `onayla%s argümaný, %s için belirsizbison (GNU Bison) %sdosya kapatýlamýyor`%s' dosyasý açýlamýyor%s dosyasýna çeliþen çýktýlarçeliþkiler: %d indirgeme/indirgeme çeliþkiler: %d öteleme/indirgeme çeliþkiler: %d öteleme/indirgeme, %d indirgeme/indirgeme sayý histogramý yogunluk histogramý boþTipli deðiþken simge için boþ kural tanýmlanmýþ, ve eylem belirtilmemiþhata (birleþmeli deðil) %d indirgeme/indirgeme çeliþkisi bekleniyor%d öteleme/indirgeme çeliþkisi bekleniyorfazla iþleç: `%s'durum %d'ye git tam sayý kapsam dýþý: %sgeçersiz argüman: %2$s için %1$sgeçersiz karakter: %sgeçersiz yönerge: %sgeçersiz 'null' karakterbellek tükendidosyanýn sonunda eksik `%s'satýr sonunda eksik `%s'parametre bildiriminde eksik tanýtýcý`%s'ten sonra eksik iþleççoklu %s bildirimlerigirdi gramer içinde kural yokher kural icin sadece bir %s kullanýlabilirkullanýcý andacý %s tekrar tanýmlanýyorkural %d (%s) ile indirgemebir andaç olan %s için kural verilmiþötele, ve durum %d'ye git büyükük histogramý baþlangýç simgesi %s herhangi bir cümleden türemiyordurum %dfazladan `,' boþluk olarak algýlandýsimge %s kullanýlmýþ, fakat andaç olarak tanýmlanmamýþ ve kurallarý yok%s simgesi tekrar tanýmlanmýþsimge `%s', birden fazla yalýn dizgeye atanmýþsimge `%s', yalýn dizge olarak birden fazla kullanýlmýþbaþlangýç simgesi %s bir andaçbaþlangýç simgesi %s tanýmlanmamýþ%s'te geçen zaman: %ld.%06ld (%ld%%) %s ve %s andaçlarýnýn her ikisi %d sayýsýna atandmýþgirdi gramerde çok fazla simge var (sýnýr: %d)öntanýmlý eylem üzerinde tip çatýþmasý: `%s' != `%s'uyarý07070100062d56000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/th07070100062d57000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/th/LC_MESSAGES07070100062d58000081a40000000000000000000000014c5138c800000790000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/th/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷¨(NÑ- VNp¥€— (kÉZ5  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-12-13 01:56+0700 Last-Translator: Seksan Poltree Language-Team: Thai MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Poedit-Language: Thai X-Poedit-Country: THAILAND หน่วยความจำถูà¸à¹ƒà¸Šà¹‰à¸ˆà¸™à¸«à¸¡à¸”สิ้นผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œà¸œà¸´à¸”วาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ, ไม่คาดคิดà¸à¸±à¸š %sผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ, ไม่คาดคิดà¸à¸±à¸š %s, คาดหวัง %sผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ, ไม่คาดคิดà¸à¸±à¸š %s, คาดหวัง %s หรือ %sผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ, ไม่คาดคิดà¸à¸±à¸š %s, คาดหวัง %s หรือ %s หรือ %sผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ, ไม่คาดคิดà¸à¸±à¸š %s, คาดหวัง %s หรือ %s หรือ %s หรือ %sผิดวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œ: ไม่สามารถสำรองข้อมูลวาà¸à¸¢à¸ªà¸±à¸¡à¸žà¸±à¸™à¸˜à¹Œà¸„ลุมเครือไม่ชัดเจน07070100062cfe000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/el07070100062cff000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/el/LC_MESSAGES07070100062d01000081a40000000000000000000000014c5138c700005134000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/el/LC_MESSAGES/bison.moÞ•ƒ4³L  5 >L <‹ ;È   ' 2 6B y ™ º 'à Dë 60 g &ƒ ª  %Ü %#9$]‚„›±0Æ&÷9#Uy I‹Õ*õt •–(¯ ØqâT'p)˜—Â&Z–²8Ç013:Wl~”«Êç-1FY/_F§Dî&3Z my‰¢·Òèþ+@Qm+‰µÐ*é*?"]€-²*à. +:"f‰'£6Ë#&7'Ow’,¦Ó Ü æ  A S h .| 3« ß þ !(>!/g!*—!Â!Ò!ä!œì!<‰#.Æ#“õ#—‰$—!%¹%Ø%ñ%&[$&:€&;»&÷&a'©b'› (3¨(NÜ()+)+U):)¼)CÍ)A*BS*–*1™*DË*'+08+oi+IÙ+W#,;{,·,Ì,˜Ý,Qv-]È-&.2-2;`5Wœ5ô5— 6c£8X9\`9—½9WU:0­:0Þ:);t9;I®=ø=û=& >1>5F>B|>2¿>@ò>=3?=q?c¯?(@*<@g@}p@3î@‘"A‘´A_FB+¦BÒB.îB*C!HC+jC,–C"ÃC#æC; D4FD!{D;D;ÙDEE6[E-’EQÀESF=fFU¤FBúF#=GSaGMµGSHMWHW¥H<ýHP:Iz‹IXJ(_J;ˆJeÄJG*K$rKS—KëKLLLeL¬|L/)M3YMM¤NQ´NRO(YOl‚OkïO`[P(¼P3åPQDq7‚nY€]-3$_s6bNƒJSP5.T~U&|>! 4:W1;Lt )zl8vF^h[XpG}oC9kr%0ABeO`Kw+(Z*iQfx#V/= Mu\yEjRagd'2I"m H,@ c{?<  Execution times (seconds) Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison-2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-11-30 17:57+0300 Last-Translator: Lefteris Dimitroulakis Language-Team: Greek MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=( n !=1); X-Generator: KBabel 1.11.4 ΧÏόνος εκτέλεσης (δευτεÏόλεπτα) ΑναφοÏά σφαλμάτων σε <%s>. Η σÏγκÏουση Î¼ÎµÏ„Î±Î¾Ï Ï„Î¿Ï… κανόνα %d και της λεκτικής μονάδας %s επιλÏθηκε ως σφάλμα Η σÏγκÏουση Î¼ÎµÏ„Î±Î¾Ï Ï„Î¿Ï… κανόνα %d και της λεκτικής μονάδας %s επιλÏθηκε ως ελάττωση Η σÏγκÏουση Î¼ÎµÏ„Î±Î¾Ï Ï„Î¿Ï… κανόνα %d και της λεκτικής μονάδας %s επιλÏθηκε ως ολίσθησηΣΥÎΟΛΟ :στα αÏιστεÏά:στα δεξιά:ο Ï„Ïπος %d είναι %s $$ για την midrule στο $%d του «%s» δεν έχει δηλωμένο Ï„Ïπο$$ του «%s» δεν έχει δηλωμένο Ï„Ïπο$%d του «%s» δεν έχει δηλωμένο Ï„Ïπο$default%%expect-rr έχει εφαÏμογή μόνο σε συντακτικοÏÏ‚ αναλυτές GLRμη τεÏματικό σÏμβολο %d άχÏηστο στη γÏαμματικήμη τεÏματικά σÏμβολα %d άχÏηστα στη γÏαμματικήο κανόνας %d είναι άχÏηστος στη γÏαμματικήοι κανόνες %d είναι άχÏηστοι στη γÏαμματική%s επηÏεάζει μόνο αναλυτές GLR%s Ï€Ïέπει να ακολουθείται από θετικό αÏιθμόδήλωση ξανά του %s για %sδήλωση ξανά του %s για <%s>%u bitset_allocs, %u ελευθεÏώθηκαν (%.2f%%). %u bitset_lists %u bitset_resets, %u στη βοηθητική μνήμη (%.2f%%) %u bitset_sets, %u στη βοηθητική μνήμη (%.2f%%) %u bitset_tests, %u στη βοηθητική μνήμη (%.2f%%) »ΣυσσωÏευμένα Ï„Ïεξίματα = %u Λάθος μέγεθος αÏχείου με στατιστικά. Στατιστικές των Bitset: Copyright (C) %d Free Software Foundation, Inc. Δεν μπόÏεσα να ανοίξω για γÏάψιμο το αÏχείο με τα στατιστικά.Αδυναμία ανάγνωσης αÏχείου στατιστικώνΔεν μπόÏεσα να γÏάψω το αÏχείο με τα στατιστικά.ΔημιουÏγία αναλυτών LALR(1) και GLR. ΓÏαμματικήσφάλμα I/OΥποχÏεωτικά οÏίσματα σε μακÏές επιλογές είναι υποχÏεωτικά επίσης και στις κοντές. Μη τεÏματικά σÏμβολα άχÏηστα στη γÏαμματικήΜη τεÏματικά σÏμβολα, με κανόνες όπου εμφανίζονταιΈξοδος: --defines[=ΑΡΧΕΙΟ] παÏάγει επίσης ένα αÏχείο επικεφαλίδας -d το ίδιο αλλά χωÏίς οÏισμό ΑΡΧΕΙΟΥ (για το POSIX Yacc) -r, --report=ΠΡΑΓΜΑΤΑ παÏάγει λεπτομέÏειες σχετικές με τα αυτόματα --report-file=ΑΡΧΕΙΟ γÏάψιμο αναφοÏάς στο ΑΡΧΕΙΟ -v, --verbose το ίδιο με «--report=state» -b, --file-prefix=ΠΡΟΘΕΜΑ καθοÏίζει ΠΡΟΘΕΜΑ για τα αÏχεία εξόδου -o, --output=ΑΡΧΕΙΟ έξοδος στο ΑΡΧΕΙΟ -g, --graph[=ΑΡΧΕΙΟ] καθοÏισμός σε VCG της εξόδου του αυτομάτου -x, --xml[=ΑΡΧΕΙΟ] αναφοÏά από το αυτόματο σε μοÏφή XML (η μοÏφή XML είναι σε πειÏαματικό στάδιο) Αναλυτής: -L, --language=ΓΛΩΣΣΑ Ï€ÏοσδιοÏίζει τη γλώσσα Ï€ÏογÏÎ±Î¼Î¼Î±Ï„Î¹ÏƒÎ¼Î¿Ï ÏƒÏ„Î·Î½ έξοδο -S, --skeleton=ΑΡΧΕΙΟ Ï€ÏοσδιοÏίζει τον Ï€Ïος χÏήση skeleton -t, --debug ενεÏγοποίηση της δυνατότητας αποσφαλμάτωσης --locations επιτÏέπει τον υπολογισμό των θέσεων -p, --name-prefix=ΠΡΟΘΕΜΑ βάλε το ΠΡΟΘΕΜΑ μπÏοστά από τα εξωτεÏικά σÏμβολα -l, --no-lines να μην δημιουÏγοÏνται οδηγίες της μοÏφής «#line» -k, --token-table συμπεÏιλαμβάνει πίνακα ονομάτων λεκτικών μονάδων ΆχÏηστοι κανόνες στη γÏαμματικήΚανόνες άχÏηστοι στον αναλυτή λόγω συγκÏοÏσεωνΚατάσταση %d ΠΡΑΓΜΑΤΑ είναι μια λίστα λέξεων που χωÏίζονται από κόμματα και πεÏιλαμβάνουν: `state' πεÏιγÏάφει καταστάσεις `itemset' complete the core item sets with their closure `lookahead' Ïητή συσχέτιση ήδη διαβασμένων λεκτικών μονάδων με items `solved' πεÏιγÏάφει επίλυση συγκÏοÏσεων με ολίσθηση/ελάττωση `all' πεÏιλαμβάνει όλες τις παÏαπάνω πληÏοφοÏίες `none' απενεÏγοποίηση αναφοÏάς ΤεÏματικά σÏμβολα μη χÏησιμοποιοÏμενα στη γÏαμματικήΤεÏματικά σÏμβολα, με κανόνες όπου εμφανίζονταιΤο ίδιο ισχÏει και για τα μη υποχÏεωτικά οÏίσματα. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Δοκίμασε «%s --help» για πεÏισσότεÏες πληÏοφοÏίες. Άγνωστο σφάλμα συστήματοςΧÏήση: %s [ΕΠΛΟΓΕΣ]... ΑΡΧΕΙΟ ΈγκυÏα οÏίσματα είναι:ΚατηγοÏίες Ï€Ïοειδοποίησης πεÏιλαμβάνουν: `midrule-values' μη ενεÏγοποιημένες ή μη χÏησιμοποιοÏμενες τιμές midrule `yacc' ασυμβατότητες με POSIX YACC `all' όλες οι Ï€Ïοειδοποιήσεις `no-CATEGORY' απενεÏγοποίηση Ï€Ïοειδοποιήσεων για την CATEGORY `none' απενεÏγοποίηση όλων των Ï€Ïοειδοποιήσεων `error' θεώÏησε όλες τις Ï€Ïοειδοποιήσεις ως σφάλματα ΓÏάφτηκε από τους Robert Corbett και Richard Stallman. «αποδοχήασαφές ÏŒÏισμα %s για %sbison (GNU Bison) %sδεν μποÏÏŽ να κλείσω το αÏχείοαδυναμία ανοίγματος του αÏχείου «%s»υπεÏχείλιση αÏÎ¹Î¸Î¼Î¿Ï ÏƒÏ„Î·Î»ÏŽÎ½Î±Î½Ï„Î¹ÎºÏουόμενες έξοδοι στο αÏχείο %sσυγκÏοÏσεις: %d ελάττωση/ελάττωση συγκÏοÏσεις: %d ολίσθηση/ελάττωση συγκÏοÏσεις: %d ολίσθηση/ελάττωση, %d ελάττωση/ελάττωση ιστόγÏαμμα μετÏήσεων ιστόγÏαμμα πυκνότητας κενόκενός κανόνας για μη τεÏματικό σÏμβολο με Ï„Ïπο, και ουδεμία ενέÏγειασφάλμα (μη Ï€ÏοσεταιÏιστικό) ανέμενα %d σÏγκÏουση ελάττωση/ελάττωσηανέμενα %d συγκÏοÏσεις ελάττωση/ελάττωσηανέμενα %d σÏγκÏουση ολίσθηση/ελάττωσηανέμενα %d συγκÏοÏσεις ολίσθηση/ελάττωσηÏητή δήλωση Ï„Ïπου δόθηκε σε γÏαμματική χωÏίς Ï„Ïπουςεπί πλέον τελεστέος «%s»μοιÏαίο σφάλμαπήγαινε στην κατάσταση %d ακέÏαιος εκτός οÏίων: %sτιμή $ μη έγκυÏη: $%dμη έγκυÏο ÏŒÏισμα %s για %sμη έγκυÏος χαÏακτήÏας: %sμη έγκυÏη οδηγία: %sμη έγκυÏη γλώσσα `%s'μη έγκυÏος μηδενικός χαÏακτήÏαςυπεÏχείλιση αÏÎ¹Î¸Î¼Î¿Ï Î³Ïαμμώνεξαντλημένη μνήμηστο τέλος του αÏχείου λείπει «%s»στο τέλος της γÏαμμής λείπει «%s»το όνομα λείπει στη δήλωση παÏαμέτÏουλείπει τελεστέος μετά από «%s»πολλαπλές δηλώσεις του %sπολλαπλές δηλώσεις γλώσσας είναι μη έγκυÏεςπολλαπλές δηλώσεις ÏƒÎºÎµÎ»ÎµÏ„Î¿Ï ÎµÎ¯Î½Î±Î¹ μη έγκυÏεςγÏαμματική εισόδου χωÏίς κανόνεςμη τεÏματικό σÏμβολο άχÏηστο στη γÏαμματική: %sμόνο ένα %s ανά κανόνα έχει επιτÏαπείπÏοηγοÏμενη δήλωσηδήλωση ξανά του Ï€Ïοεπιλεγμένου καταστÏοφέα %%δήλωση ξανά του Ï€Ïοεπιλεγμένου εκτυπωτή %%δήλωση ξανά του Ï€Ïοεπιλεγμένου καταστÏοφέα %%δήλωση ξανά του Ï€Ïοεπιλεγμένου εκτυπωτή %%οÏισμός ξανά του αÏÎ¹Î¸Î¼Î¿Ï Î»ÎµÎºÏ„Î¹ÎºÎ®Ï‚ μονάδας του %sελάττωση με χÏήση του κανόνα %d (%s)άÏνηση γÏαψίματος πάνω στο αÏχείο εισόδου %sσÏγκÏουση παÏαγόμενου Ï„Ïπου στη συνάÏτηση συγχώνευσης «%s»: <%s> != <%s>κανόνας δοσμένος για %s, που είναι λεκτική μονάδακανόνας Ï€Î¿Î»Ï ÎµÏ€Î¹Î¼Î®ÎºÎ·Ï‚Î¬Ï‡Ïηστος κανόνας στη γÏαμματικήο κανόνας είναι άχÏηστος στον αναλυτή λόγω συγκÏοÏσεωνολίσθηση, και μετάβαση στη κατάσταση %d ιστόγÏαμμα μεγεθών το αÏχικό σÏμβολο %s δεν παÏάγει καμιά Ï€Ïότασηκατάσταση %dμοναχικό «$»μοναχικό « , » θεωÏήθηκε ως λευκό διάστημαμοναχικό «@»το σÏμβολο %s χÏησιμοποιείται, αλλά δεν καθοÏίζεται ως λεκτική μονάδα και δεν διαθέτει κανόνεςτο σÏμβολο %s ξαναδηλώθηκετο σÏμβολο %s ανακαθοÏίστηκε το σÏμβολο «%s» έδωσε πεÏισσότεÏα του ενός κυÏιολεκτικά αλφαÏιθμητικάτο σÏμβολο «%s» χÏησιμοποιήθηκε πεÏισσότεÏες από μια φοÏές ως κυÏιολεκτικό αλφαÏιθμητικότο σÏμβολο εκκίνησης %s είναι λεκτική μονάδατο σÏμβολο εκκίνησης %s δεν είναι καθοÏισμένοχÏόνος σε %s: %ld.%06ld (%ld%%) οι λεκτικές μονάδες %s και %s ανάθεσαν τον αÏιθμό %d και οι δÏοπάÏα πολλά σÏμβολα στη γÏαμματική εισόδου (το ÏŒÏιο είναι %d)σÏγκÏουση Ï„Ïπων στην Ï€Ïοεπιλεγμένη ενέÏγεια: <%s> != <%s>μη καθοÏισμένη τιμή: $$μη χÏησιμοποιοÏμενη τιμή: $%dÏ€Ïοειδοποίηση07070100062d00000081a40000000000000000000000014c5138c800000609000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/el/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷z($£!È:êU%[{a×g9K¡í  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime-2.3b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-06-21 19:17+0300 Last-Translator: Lefteris Dimitroulakis Language-Team: Greek MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit X-Generator: KBabel 1.11.4 η μνήμη εξαντλήθηκεσυντακτικό σφάλμασυντακτικό σφάλμα, αναπάντεχο %sσυντακτικό σφάλμα, αναπάντεχο %s, αναμενόμενο %sσυντακτικό σφάλμα, αναπάντεχο %s, αναμενόμενο %s ή %sσυντακτικό σφάλμα, αναπάντεχο %s, αναμενόμενο %s ή %s ή %sσυντακτικό σφάλμα, αναπάντεχο %s, αναμενόμενο %s ή %s ή %s ή %sσυντακτικό σφάλμα: δεν μποÏÏŽ να κάνω πίσωασαφής σÏνταξη07070100062d5d000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/uk07070100062d5e000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/uk/LC_MESSAGES07070100062d60000081a40000000000000000000000014c5138c800003106000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/uk/LC_MESSAGES/bison.moÞ•d<‰\€><Ü; U n x ƒ “ 'œ Ä &à   %9 _ %p #– $º ß á ø  0# &T { – ² º *Ä ï qù 'k —“ &+Rgƒ0˜ÉËÒï,Kh-„²ÇÚ/àF(Do´ ÇÓãü,BXo„•±+Íù-Kh"} 6º#ñ&A,U‚ ‹A¬î.3Fz ™º(Ù/*2]mê‡/rr¢kkí 1CQL:žCÙ(*F2q¤/µ-å.B-D6r1©0ÛY GfH®÷& k1 3ªgÞ+F [r!0Î!6ÿ!&6"J]"¨"ª"8»"ô"- #47#2l#1Ÿ#/Ñ#M$;O$(‹$´$‰Å$-O%Ô}%ÌR& '!@'b'G',É'8ö'+/(+[(,‡(0´( å(5)5<)Nr)1Á)&ó)D*?_*'Ÿ*YÇ*?!+Ma+C¯+$ó+-,3F,Xz, Ó,5ß,„-5š-7Ð-i.{r.8î.='/ e/I†/tÐ/DE00Š01»0í03Q'G"*48JFVC#&5;-?/ ]W[790S)\K,(PAE@=YN%L!+$Db.2aR:U> O`1<6^dcI HXZT M B_ Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $default%%expect-rr applies only to GLR parsers%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleprevious declarationredefining user token number of %sreduce using rule %d (%s)result type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-07-13 20:35+0300 Last-Translator: Maxim V. Dziumanenko Language-Team: Ukrainian MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=(n%10==1 && n%100!=11 ? 0 : n%10>=2 && n%10<=4 && (n%100<10 || n%100>=20) ? 1 : 2); Ð§Ð°Ñ Ð²Ð¸ÐºÐ¾Ð½Ð°Ð½Ð½Ñ (у Ñекунда) Конфлікт між правилом %d та лекÑемою %s розв'Ñзаний Ñк помилка Конфлікт між правилом %d та лекÑемою %s розв'Ñзаний виводу Конфлікт між правилом %d та лекÑемою %s розв'Ñзаний зÑувом ЗÐГÐЛОМ : ліворуч: правируч: тип %d Ñ” %s $default%%expect-rr заÑтоÑовуєтьÑÑ Ð»Ð¸ÑˆÐµ до аналізатору GLR%s впливає лише на аналізатори GLRза %s повинно Ñлідувати додатне чиÑлоповторний Ð¾Ð¿Ð¸Ñ %s Ð´Ð»Ñ %sповторний Ð¾Ð¿Ð¸Ñ %s Ð´Ð»Ñ <%s>%u bitset_allocs, %u звільнено (%.2f%%). %u bitset_lists %u bitset_resets, %u кешовано (%.2f%%) %u bitset_sets, %u кешовано (%.2f%%) %u bitset_tests, %u кешовано (%.2f%%) 'Ðкумульовані запуÑки = %u Ðекоректний файл ÑтатиÑтики. СтатиÑтика бітових полів: Copyright (C) %d Free Software Foundation, Inc. Ðе вдаєтьÑÑ Ð²Ñ–Ð´ÐºÑ€Ð¸Ñ‚Ð¸ файл ÑтатиÑтики Ð´Ð»Ñ Ð·Ð°Ð¿Ð¸Ñу.Ðе вдаєтьÑÑ Ð¿Ñ€Ð¾Ñ‡Ð¸Ñ‚Ð°Ñ‚Ð¸ файл ÑтатиÑтики.Ðе вдаєтьÑÑ Ð·Ð°Ð¿Ð¸Ñати у файл ÑтатиÑтики.Граматикапомилка вводу-виводуÐетермінальні Ñимволи з правилами, у Ñких вони з'ÑвлÑютьÑÑСтан %d THINGS - ÑпиÑок розділених комою Ñлів, Ñкі можуть включати: `state' опиÑує Ñтани `itemset' завершити набір елементів Ñдра та закрити Ñ—Ñ… `lookahead' Ñвна прив'Ñзати ознаки lookahead до елементів `solved' опиÑати Ð²Ð¸Ñ€Ñ–ÑˆÐµÐ½Ð½Ñ ÐºÐ¾Ð½Ñ„Ð»Ñ–ÐºÑ‚Ñ–Ð² зÑуву/виводу `all' включати вÑÑŽ наведену вище інформацію `none' вимкнути звіт Термінальні Ñимволи з правилами, у Ñких вони з'ÑвлÑютьÑÑЦе - вільна програма; умови розповÑÑŽÐ´Ð¶ÐµÐ½Ð½Ñ Ð´Ð¸Ð²Ñ–Ñ‚ÑŒÑÑ Ñƒ первинних текÑтах. не надаєтьÑÑ Ð–ÐžÐ”ÐИХ гарантій, навіть гарантії КОРИСÐОСТІ або ПРИДÐТÐОСТІ ДЛЯ ПЕВÐОЇ МЕТИ. ВикориÑтовуйте `%s --help' Ð´Ð»Ñ Ð´Ð¾Ð´Ð°Ñ‚ÐºÐ¾Ð²Ð¾Ñ— інформації. Ðевідома ÑиÑтемна помилкаВикориÑтаннÑ: %s [КЛЮЧІ]... ФÐЙЛ ДопуÑтимі аргументи:Ðвтори: Роберт Корбет та Річард Столмен. `прийнÑтинеоднозначний аргумент %s Ð´Ð»Ñ %sbison (GNU Bison) %sне вдаєтьÑÑ Ð·Ð°ÐºÑ€Ð¸Ñ‚Ð¸ файлне вдаєтьÑÑ Ð²Ñ–Ð´ÐºÑ€Ð¸Ñ‚Ð¸ файл `%s'Ñуперечливий вивід у файл %sконфлікти: %d виводу/виводу конфлікти: %d зÑуву/виводу конфлікти: %d зÑуву/виводу, %d виводу/виводу гіÑтограма журналу лічильників гіÑтограма щільноÑті порожнійпорожнє правило Ð´Ð»Ñ Ñ‚Ð¸Ð¿Ñ–Ð·Ð¾Ð²Ð°Ð½Ð¾Ð³Ð¾ нетермінального Ñимволу, та відÑÑƒÑ‚Ð½Ñ Ð´Ñ–Ñпомилка (не аÑоціативна) очікувалоÑÑŒ %d конфлікт виводу/виводуочікувалоÑÑŒ %d конфлікти виводу/виводуочікувалоÑÑŒ %d конфліктів виводу/виводуочікувавÑÑ %d конфлікт зÑуву/виводуочікувалоÑÑŒ %d конфлікти зÑуву/виводуочікувалоÑÑŒ %d конфліктів зÑуву/виводузайвий операнд `%s'критична помилка: перехід у Ñтан %d вихід за межі діапазону цілого чиÑла: %sнекоректне $ значеннÑ: $%dнеприпуÑтимий аргумент %s Ð´Ð»Ñ %sнеприпуÑтимий Ñимвол: %sнекоректна директива: %sнеприпуÑтимий null-ÑÐ¸Ð¼Ð²Ð¾Ð»Ð¿ÐµÑ€ÐµÐ¿Ð¾Ð²Ð½ÐµÐ½Ð½Ñ Ð½Ð¾Ð¼ÐµÑ€Ñƒ Ñ€Ñдкапам'Ñть вичерпановідÑÑƒÑ‚Ð½Ñ `%s' наприкінці файлувідÑÑƒÑ‚Ð½Ñ `%s' наприкінці Ñ€Ñдкау опиÑÑ– параметра відÑутній ідентифікаторпіÑÐ»Ñ `%s' пропущено операндбагатократні опиÑи %sвідÑутні правила у вхідній граматиціу правилі допуÑкаєтьÑÑ Ð»Ð¸ÑˆÐµ один %sпопереднє оголошеннÑÐ¿ÐµÑ€ÐµÐ²Ð¸Ð·Ð½Ð°Ñ‡ÐµÐ½Ð½Ñ Ð½Ð¾Ð¼ÐµÑ€Ð° лекÑеми кориÑтувача Ð´Ð»Ñ %sвивід з викориÑтаннÑм правила %d (%s)конфлікт типів у функції Ð·Ð»Ð¸Ñ‚Ñ‚Ñ `%s': <%s> != <%s>правило задано Ð´Ð»Ñ %s, Ñкий Ñ” лекÑемоюправило надто довгезÑув, та перехід у Ñтан %d гіÑтограма журналу розміру початковий Ñимвол %s не виводить жодного реченнÑÑтан %dзайва `,', вважаєтьÑÑ Ð¿Ñ€Ð¾Ð±Ñ–Ð»Ð¾Ð¼Ñимвол %s викориÑтовуєтьÑÑ, але не визначений Ñк лекÑема та не має правилÑимвол %s визначений повторноповторне Ð²Ð¸Ð·Ð½Ð°Ñ‡ÐµÐ½Ð½Ñ Ñимволу %sÑимвол `%s' вказаний більш ніж один раз Ñк Ñимвольний Ñ€ÑдокÑимвол `%s' викориÑтовуєтьÑÑ Ð±Ñ–Ð»ÑŒÑˆ ніж один раз Ñк Ñимвольний Ñ€Ñдокюпочатковий Ñимвол %s Ñ” лекÑемоюпочатковий Ñимвол %s Ð½ÐµÐ²Ð¸Ð·Ð½Ð°Ñ‡ÐµÐ½Ð¸Ð¹Ñ‡Ð°Ñ Ñƒ %s: %ld.%06ld (%ld%%) обом лекÑемам %s та %s призначений номер %dнадто багато Ñимволів (лекÑеми Ð¿Ð»ÑŽÑ Ð½ÐµÑ‚ÐµÑ€Ð¼Ñ–Ð½Ð°Ð»Ð¸); макÑимально %dконфлікт типів на типовій дії: <%s> != <%s>не вÑтановлене значеннÑ: $$не викориÑтане значеннÑ: $%dпопередженнÑ07070100062d5f000081a40000000000000000000000014c5138c8000006f5000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/uk/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷ò(!%=Bc]¦gsl~àg_-Ç  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-07-13 20:35+0300 Last-Translator: Maxim V. Dziumanenko Language-Team: Ukrainian MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=(n%10==1 && n%100!=11 ? 0 : n%10>=2 && n%10<=4 && (n%100<10 || n%100>=20) ? 1 : 2); пам'Ñть вичерпано'ÑинтакÑична помилкаÑинтакÑична помилка, неочікуваний %sÑинтакÑична помилка, неочікуваний %s, очікувалоÑÑŒ %sÑинтакÑична помилка, неочікуваний %s, очікувалоÑÑŒ %s або %sÑинтакÑична помилка, неочікуваний %s, очікувалоÑÑŒ %s, або %s, або %sÑинтакÑична помилка, неочікуваний %s, очікувалоÑÑŒ %s, або %s, або %s, або %sÑинтакÑична помилка: не вдаєтьÑÑ Ð·Ñ€Ð¾Ð±Ð¸Ñ‚Ð¸ резервну копіюÑинтакÑÐ¸Ñ Ð½ÐµÐ¾Ð´Ð½Ð¾Ð·Ð½Ð°Ñ‡Ð½Ð¸Ð¹07070100062d61000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/vi07070100062d62000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/vi/LC_MESSAGES07070100062d63000081a40000000000000000000000014c5138c800000591000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/vi/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷¯(Øé)ù>#LbL¯Tü&Qx  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4.1a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-02-09 23:54+1030 Last-Translator: Clytie Siddall Language-Team: Vietnamese MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; X-Generator: LocFactoryEditor 1.8 cạn bá»™ nhá»›lá»—i cú pháplá»—i cú pháp, gặp %s bất thưá»nglá»—i cú pháp, gặp %s bất thưá»ng, còn mong đợi %slá»—i cú pháp, gặp %s bất thưá»ng, còn mong đợi đợi %s hay %slá»—i cú pháp, gặp %s bất thưá»ng, còn mong đợi %s hay %s hay %slá»—i cú pháp, gặp %s bất thưá»ng, còn mong đợi %s hay %s hay %s hay %s lá»—i cú pháp: không thể sao lưucú pháp vẫn mÆ¡ hồ07070100062d64000081a40000000000000000000000014c5138c8000052b0000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/vi/LC_MESSAGES/bison.moÞ•œüÓÜ ( ) œE â>ù<8;u± Ê Ôß6ï& Fg'pD˜6Ý&&Bi›,·ä%,(-U ƒ(¤Íí% 3%D#j$޳µÌâ0÷&(Oj#†ª ²I¼*&tQÆÇ(à q…'¡)É—ó&‹²Çã8ø01bdkˆ¯ÅÜû-4bwŠ/ÀFØD &d ‹ ž ª º Ó è $!(!>!T!j!!!0£!.Ô!"")"E"+a""¨"*Á"*ì"#"5#X#u#Š#-ž#*Ì#.÷#+&$"R$u$'$6·$#î$%#%';%c%~%,’%¿% È% Ò% ó%Aý%?&T&.h&3—&Ë& ê& '#*'(N'.w'/¦'/Ö'*(!1(MS(H¡(Hê(M3))‘)£)§«)#S+ßw+"W-hz-dã-aH.ª. Ä. Ñ.ß.Sò.6F/7}/µ/=¾/6ü/'30/[0?‹0'Ë0ó0 1.)18X1(‘16º18ñ19*2+d292,Ê2,÷2C$3&h3E3<Õ3>4Q4U4&s4š46²42é4*5'G54o5 ¤5 °5vº53166e6œ6v­9$$<=I<‡<Ô™</n>/ž>0Î>ÿÿ>Rÿ?R@+p@œ@•´@1JB|B €BŽB­BÂB$àBCB!CdCƒC/¡C/ÑC&D(DX/DˆD.¤D-ÓDCEEE_EuE&•E#¼E&àE)F1FPF&pF)—F%ÁF>çFD&GkG‡G,˜G(ÅG5îG$$HIH+^H-ŠH2¸H7ëH,#IPIcI8I5ºI?ðI<0JNmJ¼J2ÛJJK.YKˆK$œK7ÁK*ùK.$L6SLŠL›LL´LMsM+ŽM0ºM7ëMZ#N2~N/±N'áN. O98O;rO?®OGîO@6P5wPu­Pk#QkQpûQlRˆR ¤R˜r UKve•\†z:ZV™NŠƒ 'kp"“…3 -.x‰PE|SFt,‘#‹258=m?]YC$h›6„’O7w&”I uRs€qŽ![L*_yA+i‚X0o`—Bœ T9H@ŒW‡d~/aj%M{(D;–^šc4f> Jb<n1Gˆg)lQ} Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s `%s' redefined%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sinvalid value for %%define Boolean variable `%s'invalid value for %%define variable `%s': `%s'line number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationprevious definitionredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo few arguments for %s directive in skeletontoo many arguments for %s directive in skeletontoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unclosed %s directive in skeletonundefined %%define variable `%s' passed to muscle_percent_define_check_valuesundefined %%define variable `%s' passed to muscle_percent_define_flag_ifundefined %%define variable `%s' passed to muscle_percent_define_get_locundefined %%define variable `%s' passed to muscle_percent_define_get_synclineunset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-03-06 21:16+0930 Last-Translator: Clytie Siddall Language-Team: Vietnamese MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; X-Generator: LocFactoryEditor 1.8 Thá»i gian thá»±c hiện (giây) Chế độ thao tác: -h, --help hiển thị trợ giúp này, sau đó thoát -V, --version xuất thông tin phiên bản, sau đó thoát --print-localedir xuất thư mục chứa dữ liệu phụ thuá»™c vào miá»n địa phương --print-datadir xuất thư mục chứa khung sưá»n và XSLT -y, --yacc mô phá»ng POSIX Yacc -W, --warnings[=LOẠI] thông báo các cảnh báo thuá»™c vá» phân loại này Hãy thông báo lá»—i cho <%s>. Xung đột giữa quy tắc %d và hiệu bài %s được quyết định là má»™t lá»—i (error). Xung đột giữa quy tắc %d và hiệu bài %s được quyết định là giảm (reduce). Xung đột giữa quy tắc %d và hiệu bài %s được quyết định là dá»i (shift) Tá»”NG : bên trái: bên phải: kiểu %d là %s $$ cho quy tắc giữa ở $%d cá»§a « %s » không có kiểu được khai báo$$ cá»§a « %s » không có kiểu được khai báo$%d cá»§a « %s » không có kiểu được khai báo$default%%expect-rr chỉ áp dụng cho bá»™ phân tích kiểu GLR.%d đồ không kết thúc vô ích trong ngữ pháp%d quy tắc vô ích trong ngữ pháp%s: « %s » đã được định nghÄ©a lại%s chỉ ảnh hưởng đến cÆ¡ chế phân tích kiểu GLR%s phải có con số dương theo sau%s khai báo lại cho %s%s khai báo lại cho <%s>%s: tùy chá»n không hợp lệ -- « %c » %s: tùy chá»n « %c%s » không cho phép đối số %s: tùy chá»n « %s » vẫn mÆ¡ hồ %s: tùy chá»n « %s » yêu cầu má»™t đối số %s: tùy chá»n « --%s » không cho phép đối số %s: tùy chá»n « -W %s » không cho phép đối số %s: tùy chá»n « -W %s » vẫn mÆ¡ hồ %s: tùy chá»n yêu cầu má»™t đối số -- « %c » %s: không nhận ra tùy chá»n « %c%s » %s: không nhận ra tùy chá»n « --%s » %u bitset_allocs (cấp bá»™ bit), %u đã giải phóng (%.2f%%). %u bitset_lists (danh sách bá»™ bit) %u bitset_resets (lập lại bá»™ bit), %u đã lưu tạm (%.2f%%) %u bitset_sets (bá»™ bá»™ bit), %u đã lưu tạm (%.2f%%) %u bitset_tests (thá»­ bá»™ bit), %u đã lưu tạm (%.2f%%) »Lần chạy tích lÅ©y = %u Kích cỡ tập tin thống kê sai. Thống kê bá»™ bit: Bản quyá»n © %d Tổ chức Phần má»m Tá»± do. Không thể mở tập tin thống kê để ghi.Không thể Ä‘á»c tập tin thống kê.Không thể ghi tập tin thống kê.Tạo cÆ¡ chế phân tích kiểu LALR(1) và GLR. Ngữ phápLá»—i V/RMá»i đối số bắt buá»™c phải sá»­ dụng vá»›i tùy chá»n dài cÅ©ng bắt buá»™c vá»›i tùy chá»n ngắn. Äồ không kết thúc vô ích trong ngữ phápÄồ không kết thúc, vá»›i quy tắc nÆ¡i mà cóKết xuất: --defines[=TẬP_TIN] cÅ©ng tạo má»™t tập tin phần đầu -d cÅ©ng vậy nhưng không thể đặt TẬP_TIN (cho POSIX Yacc) -r, --report=CÃI cÅ©ng hiện chi tiết vá» hàm tá»± động --report-file=TẬP_TIN ghi báo cáo vào tập tin này -v, --verbose tương đương vá»›i « --report=state » -b, --file-prefix=TIỀN_Tá» xác định má»™t tiá»n tố cho các tập tin kết xuất -o, --output=TẬP_TIN xuất vào tập tin này -g, --graph[=TẬP_TIN] cÅ©ng xuất má»™t đồ thị vá» hàm tá»± động -x, --xml[=TẬP_TIN] cÅ©ng xuất má»™t báo cáo XML vá» hàm tá»± động (giản đồ XML vẫn còn thá»±c nghiệm) CÆ¡ chế phân tích cú pháp: -L, --language=NGÔN_NGá»® ghi rõ ngôn ngữ lập trình kết xuất (đây là má»™t tính năng vẫn còn thá»±c nghiệm) -S, --skeleton=TẬP_TIN xác định khung sưá»n cần dùng -t, --debug thiết lập cÆ¡ chế phân tích để gỡ lá»—i --locations hiệu lá»±c phép tính vá» vị trí -p, --name-prefix=TIỀN_TỠđặt tiá»n tố nào vào trước ký hiệu ngoài -l, --no-lines đừng tạo chỉ thị kiểu « #line » -k, --token-table thêm má»™t bảng các tên hiệu bài Quy tắc vô ích trong ngữ phápQuy tắc vô ích trong cÆ¡ chế phân tích do xung độtTình trạng %d CÃI là danh sách những từ định giá»›i bằng dấu phẩy có thể bao gồm: • state diá»…n tả các tình trạng • itemset Ä‘iá»n nốt má»—i tập hợp mục lõi vá»›i kết thúc nó • look-ahead liên quan dứt khoát má»—i hiệu bài nhìn trước đến mục • solved diá»…n tả tiến trình giải sá»± xung đột kiểu dá»i/giảm • all bao gồm tất cả thông tin trên • none tắt báo cáo Äồ kết thúc chưa dùng trong ngữ phápÄồ kết thúc, vá»›i quy tắc nÆ¡i mà cóCÅ©ng vậy vá»›i đối số còn tùy chá»n. Chương trình này là phần má»m tá»± do; xem mã nguồn để tìm Ä‘iá»u kiện sao chép. KHÔNG CÓ BẢO HÀNH GÃŒ CẢ, THẬM CHà KHÔNG CÓ BẢO ÄẢM ÄÆ¯á»¢C NGỤ à KHẢ NÄ‚NG BÃN HAY KHẢ NÄ‚NG LÀM ÄÆ¯á»¢C VIỆC DỨT KHOÃT. Hãy chạy câu lệnh « %s --help » (trợ giúp) để xem thêm thông tin. Lá»—i hệ thống không rõSá»­ dụng: %s [TÙY_CHỌN]... TẬP_TIN Äối số hợp lệ:Các phân loại cảnh báo bao gồm: • midrule-values giá trị ở giữa quy tắc mà chưa dùng hay đặt • yacc sá»± không tương thích vá»›i POSIX YACC • all tất cả các cảnh báo • no-LOẠI tắt cảnh báo trong loại này • none tắt má»i cảnh báo • error xá»­ lý cảnh báo dưới dạng lá»—i Tác giả: Robert Corbett và Richard Stallman. « chấp nhậnđối số mÆ¡ hồ %s cho %sbison (GNU Bison) %skhông thể đóng tập tinkhông thể mở tập tin « %s »tràn số thứ tá»± cá»™ttập tin « %s » có nhiá»u kết xuất xung đột vá»›i nhauxung đột: %d giảm/giảm xung đột: %d dá»i/giảm xung đột: %d dá»i/giảm, %d giảm/giảm biểu đồ tần xuất ghi lưu số đếm biểu đồ tần xuất mật độ rá»—ngquy tắc rá»—ng cho đồ không kết thúc có kiểu, cÅ©ng không có hành độnglá»—i (không kết hợp) mong đợi %d lần xung đột giảm/giảmmong đợi %d lần xung đột dá»i/giảmđưa ra kiểu dứt khoát theo ngữ cảnh không đặt kiểutác tá»­ thừa « %s »lá»—i nghiêm trá»ngchuyển sang tình trạng %d số nguyên ở ngoại phạm vi: %sgiá trị $ không hợp lệ: $%dđối sô không hợp lệ %s cho %sgặp ký tá»± sai nằm sau \-escape: %ský tá»± không hợp lệ: %schi thị không hợp lệ: %sngôn ngữ không hợp lệ « %s »ký tá»± vô giá trị không hợp lệgặp số sai nằm sau \-escape: %sgặp giá trị sai đối vá»›i biến Bun %%define « %s »gặp giá trị sai đối vá»›i biến %%define « %s »: « %s »tràn số thứ tá»± dòngcạn bá»™ nhá»›thiếu « %s » tại kết thúc tập tinthiếu « %s » tại kết thúc dòngthiếu dấu nhận diện trong khai báo tham sốthiếu tác tá»­ phía sau « %s »nhiá»u khai báo %schỉ cho phép má»™t khai báo ngôn ngữchỉ cho phép má»™t khai báo khung sưá»nkhông có quy tắc trong ngữ pháp nhập vàođồ không kết thúc vô ích trong ngữ pháp: %schỉ cho phép má»™t %s cho má»—i quy tắckhai báo trướclá»i định nghÄ©a trướckhai báo lại cho %%destructor có thẻ mặc địnhkhai báo lại cho %%printer có thẻ mặc địnhkhai báo lại cho %%destructor không có thẻ mặc địnhkhai báo lại cho %%printer không có thẻ mặc địnhÄ‘ang định nghÄ©a lại số thứ tá»± hiệu bài ngưá»i dùng cá»§a %sgiảm dùng quy tắc %d (%s)từ chối ghi đè lên tập tin nhập vào %skiểu kết quả xung đột ở hàm gá»™p lại « %s »: <%s> != <%s>đưa ra quy tắc cho %s, mà là hiệu bàiquy tắc quá dàiquy tắc vô ích trong ngữ phápquy vô ích trong cÆ¡ chế phân tích do xung độtdá»i, và chuyển sang tình trạng %d biểu đồ tần xuất ghi lưu kích cỡ ký hiệu bắt đầu %s không nhận được câutình trạng %dký hiệu « $ » lạcdấu phẩy « , » lạc được xá»­ lý dưới dạng khoảng trắngký hiệu « @ » lạcký hiệu %s được dùng, nhưng chưa được định nghÄ©a như là hiệu bài, cÅ©ng không có quy tắcký hiệu %s đã được khai báo lạiký hiệu %s đã được định nghÄ©a lạiký hiệu « %s » nhận nhiá»u chuá»—i nghÄ©a chữký hiệu « %s » được dùng nhiá»u lần dưới dạng má»™t chuá»—i nghÄ©a chữký hiệu bắt đầu %s là má»™t hiệụ bàichưa định nghÄ©a ký hiệu bắt đầu %sthá»i gian theo %s: %ld.%06ld (%ld%%) chưa xác định hiệu bài cho %%prec : %scả hiệu bài %s lẫn %s Ä‘á»u được gán số %dquá ít đối số cho chỉ thị %s trong khung sưá»nquá nhiá»u đối số cho chỉ thị %s trong khung sưá»nquá nhiá»u ký hiệu trong ngữ pháp nhập vào (giá»›i hạn %d)kiểu xung đột ở hành động mặc định: <%s> != <%s>gặp chỉ thị %s chưa đóng trong khung sưá»nbiến %%define chưa xác định « %s » được gá»­i qua cho hàm « muscle_percent_define_flag_check_values »biến %%define chưa xác định « %s » được gá»­i qua cho hàm « muscle_percent_define_flag_if »biến %%define chưa xác định « %s » được gá»­i qua cho hàm « muscle_percent_define_get_loc »biến %%define chưa xác định « %s » được gá»­i qua cho hàm « muscle_percent_define_get_syncline »giá trị chưa đặt: $$giá trị chưa dùng: $%dcảnh báo07070100062d43000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000002200000000root/usr/local/share/locale/pt_BR07070100062d44000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002e00000000root/usr/local/share/locale/pt_BR/LC_MESSAGES07070100062d46000081a40000000000000000000000014c5138c800001f1a000000b600010002ffffffffffffffff0000003700000000root/usr/local/share/locale/pt_BR/LC_MESSAGES/bison.moÞ•VÌ|xy>•<Ô;M f p{‹ «ÌÕ&ñ %0 V %g # $± Ö Ø ï  0 &K r  © ± *» æ 'ð — &° × ì  0 N P W t ‰ › ± Ð í - 7 L _ /e • D­ ò .I_u†+¢Îé "=`#zž¹,Íú A$f.z3©Ý ü(<*eª˜CBcC¦Bê- F S_!n"³ »*Ü)"L']%…&«ÒÔ-ï.76f)2Ç ú . ?+IÊu)@j‡£/»ëíõ'C%c!‰&«=Ò0J9PŠ]¢(B`w!ž1Àò%,"R,u¢'Áé0% V`B€Ã3Ù; $I(n —,¸.åJCV M+*FD<)A2 $T-8%=@L "S6/;I',G07EU>1!PR(K 3&#NQ59 B.:H4?O Execution times (seconds) Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type$default%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.GrammarI/O errorNonterminals, with rules where they appearState %d Terminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'conflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d shift/reduce conflictexpected %d shift/reduce conflictsextra operand `%s'go to state %d integer out of range: %sinvalid argument %s for %sinvalid character: %sinvalid directive: %smemory exhaustedmissing `%s' at end of filemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsno rules in the input grammaronly one %s allowed per ruleredefining user token number of %sreduce using rule %d (%s)rule given for %s, which is a tokenshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `,' treated as white spacesymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtype clash on default action: <%s> != <%s>warningProject-Id-Version: bison 1.875 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2003-01-06 02:30-0300 Last-Translator: Alexandre Folle de Menezes Language-Team: Brazilian Portuguese MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=(n > 1); Tempos de execução (segundos) Conflito entre a regra %d e a token %s resolvido como um erro. Conflito entre a regra %d e a token %s resolvido como `reduce`. Conflito entre a regra %d e a token %s resolvido como `shift`. TOTAL : à esquerda: à direita: tipo %d é %s $$ de `%s' não tem tipo declarado$%d de `%s' não tem tipo declarado$padrão%s afeta apenas analisadores GLR%s deve ser seguido por um número positivoredeclaração de %s para %s%u bitset_allocs, %u liberados (%.2f%%). %u bitset_lists %u bitset_resets, %u em cache (%.2f%%) %u bitset_sets, %u em cache (%.2f%%) %u bitset_tests, %u em cache (%.2f%%) 'Execuções acumuladas = %u Tamanho do arquivo de estatísticas com erro. Estatísticas de bitset: Copyright © %d Free Software Foundation, Inc. Impossível abrir arquivo de estatísticas para escrita.Impossível ler o arquivo de estatísticas.Impossível de escrever no arquivo de estatísticas.GramáticaErro de E/SNão-terminais com as regras onde eles aparecemEstado %dTerminais, com as regras onde eles aparecemEste é um software livre; veja o código fonte para condições de copyright. Não existe NENHUMA garantia; nem mesmo a garantia implícita de COMERCIABILIDADE ou ADEQUAÇÃO À QUALQUER FINALIDADE PARTICULAR. tente `%s --help' para mais informações. Erro de sistema desconhecidoUso: %s [OPCAO]... ARQUIVO Argumentos válidos são:Escrito por Robert Corbett e Richard Stallman. `aceitarargumento %s ambíguo para %sbison (GNU bison) %simpossível fechar o arquivoimpossível abrir o arquivo `%s'saídas conflitantes para o arquivo %sconflitos: %d de redução/redução conflitos: %d de deslocamento/redução conflitos: %d de deslocamento/redução, %d de redução/redução histograma de log de contagens histograma de densidades vazioregra vazia para um não-terminal com tipo, e não há açõeserro (não associativo) esperado: %d conflito de deslocamento/reduçãoesperados: %d conflitos de deslocamento/reduçãooperando `%s' sobrandoir ao estado %d inteiro fora de faixa: %sargumento %s inválido para %scaractere inválido: %sdiretiva inválida: %smemória esgotada`%s' faltando no final do arquivoidentificador faltando na declaração do parâmetrofalta operando depois de `%s'declarações de %s múltiplasnão há regras na gramática de entradaapenas um %s é permitido por regraredefinindo número de token de usuário de %sreduzir usando a regra %d (%s)regra fornecida para %s, que é um tokendeslocar, e ir ao estado %d histograma de log de tamanhos símbolo de início %s não deriva nenhuma sentençaestado %d`,' perdida tratada como brancosímbolo %s usado, mas não definido como uma token e não tem regrassímbolo %s redefinidosímbolo `%s' associado a mais de uma string literalsímbolo `%s' usado mais the uma vez como uma string literalo símbolo de início %s é um terminalo símbolo de início %s não está definidotempo em %s: %ld.%06ld (%ld%%) tokens %s e %s associadas ao mesmo número %dconflito de tipos na ação padrão: <%s> != <%s>aviso07070100062d45000081a40000000000000000000000014c5138c800000504000000b600010002ffffffffffffffff0000003f00000000root/usr/local/share/locale/pt_BR/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷~(§¸ È.é4:M@ˆ&Éð  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-05-03 22:39-0300 Last-Translator: Leslie Harlley Watter Language-Team: Brazilian Portuguese MIME-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit falta de memóriaerro de sintaxeerro de sintaxe, %s não esperadoerro de sintaxe, %s não esperado, esperando %serro de sintaxe, %s não esperado, esperando %s ou %serro de sintaxe, %s não esperado, esperando %s ou %s ou %serro de sintaxe, %s não esperado, esperando %s ou %s ou %s ou %serro de sintaxe: não é possível voltara sintaxe é ambígua07070100062d22000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ja07070100062d23000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ja/LC_MESSAGES07070100062d25000081a40000000000000000000000014c5138c700000ce4000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/ja/LC_MESSAGES/bison.moÞ• +È É ÓÞî /1*9'd—Œ&$K`|~“¥»/Áñ#9]Af¨.¼3ë >(_}ˆ #+,O|~ƒžT·) 6 $K p r ‡ ¨ à 6Æ ý  &0 -W … P Þ 4ý 62 i $ˆ 6­       on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared type'GrammarNonterminals, with rules where they appearTerminals, with rules where they appearThis is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE `bison (GNU Bison) %scannot close filecannot open file `%s'emptyempty rule for typed nonterminal, and no actionmemory exhaustedmultiple %s declarationsno rules in the input grammarrule given for %s, which is a tokenstate %dsymbol %s is used, but is not defined as a token and has no rulessymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtokens %s and %s both assigned number %dProject-Id-Version: GNU bison 1.30f Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2002-10-29 01:00-05:00 Last-Translator: Daisuke Yamashita Language-Team: Japanese MIME-Version: 1.0 Content-Type: text/plain; charset=EUC-JP Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; º¸ÊÕ: ±¦ÊÕ: ¥¿¥¤¥× %d ¤Ï %s ¤Ç¤¹ `%s' ¤Î $$ ¤ËÀë¸À¤Î¤Ê¤¤·¿¤¬¤¢¤ê¤Þ¤¹$%d ¸Ä¤Î `%s' ¤¬Àë¸À¤µ¤ì¤¿·¿¤ò»ý¤Ã¤Æ¤¤¤Þ¤»¤ó'ʸˡ½Ð¸½°ÌÃ֤ε¬Â§¤Ë¤è¤ëÈó½ªÃ¼½Ð¸½°ÌÃ֤ε¬Â§¤Ë¤è¤ë½ªÃ¼This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. [»²¹ÍÌõ -- ˡŪ¸úÎϤϱÑʸ¤¬Å¬ÍѤµ¤ì¤Þ¤¹] ¤³¤ì¤Ï¥Õ¥ê¡¼¥½¥Õ¥È¥¦¥§¥¢¤Ç¤¹ -- Ê£À½¤Ë¤Ä¤¤¤Æ¤Î¾ò·ï¤Ï¥½¡¼¥¹¤ò¸«¤Þ¤·¤ç¤¦¡£ °ìÀÚ¤ÎÊݾڤϤ¢¤ê¤Þ¤»¤ó -- ¾¦¶ÈÀ­¤äÌÜŪŬ¹çÀ­¤Ë¤Ä¤¤¤Æ¤ÎÊݾڤ¹¤é¤¢¤ê¤Þ¤»¤ó¡£ `%s --help' ¤Ç¾ÜºÙ¾ðÊó¤ò»²¾È¤·¤Æ¤¯¤À¤µ¤¤ ÉÔÌÀ¤Ê¥·¥¹¥Æ¥à¥¨¥é¡¼»È¤¤Êý: %s [¥ª¥×¥·¥ç¥ó]... ¥Õ¥¡¥¤¥ë `bison (GNU Bison) %s¥Õ¥¡¥¤¥ë¤òÊĤ¸¤ë¤³¤È¤¬¤Ç¤­¤Þ¤»¤ó¥Õ¥¡¥¤¥ë `%s' ¤ò³«¤±¤Þ¤»¤ó¶õ¶õ¤Î·¿ÉÕ¤­Èó½ªÃ¼¥¢¥¤¥Æ¥àÍѵ¬Â§¤Ç¤¢¤ê¡¢Æ°ºî¤¬µ¯¤ê¤Þ¤»¤ó¥á¥â¥ê¤ò»È¤¤²Ì¤¿¤·¤Þ¤·¤¿%s ¤¬Ê£¿ô¸ÄÀë¸À¤µ¤ì¤Þ¤·¤¿ÆþÎϤ·¤¿Ê¸Ë¡¤Ëµ¬Â§¤¬ÄêµÁ¤µ¤ì¤Æ¤¤¤Þ¤»¤ó%s ¤Ëµ¬Â§¤¬Í¿¤¨¤é¤ì¡¢¤½¤ì¤Ï¥È¡¼¥¯¥ó¤È¤Ê¤ê¤Þ¤¹¾õÂÖ %d¥·¥ó¥Ü¥ë %s ¤¬»È¤ï¤ì¤Æ¤¤¤Þ¤¹¤¬¡¢¥È¡¼¥¯¥ó¤È¤·¤ÆÄêµÁ¤µ¤ì¤Æ¤ª¤é¤º¡¢µ¬Â§¤ò»ý¤Á¤Þ¤»¤ó¥·¥ó¥Ü¥ë %s ¤¬ºÆÄêµÁ¤µ¤ì¤Þ¤·¤¿¥·¥ó¥Ü¥ë `%s' ¤ÏÊ£¿ô¤Î¥ê¥Æ¥é¥ëʸ»úÎó¤¬Í¿¤¨¤é¤ì¤Þ¤·¤¿¥·¥ó¥Ü¥ë `%s' ¤Ï¥ê¥Æ¥é¥ëʸ»úÎó¤È¤·¤ÆÊ£¿ô²ó»È¤ï¤ì¤Þ¤·¤¿³«»Ï¥·¥ó¥Ü¥ë %s ¤Ï¥È¡¼¥¯¥ó¤Ç¤¹³«»Ï¥·¥ó¥Ü¥ë %s ¤ÏÄêµÁ¤µ¤ì¤Æ¤¤¤Þ¤»¤ó¥È¡¼¥¯¥ó %s ¤È %s ¤ÎÁÐÊý¤¬ÈÖ¹æ %d ¤Ë³ä¤êÅö¤Æ¤é¤ì¤Þ¤·¤¿07070100062d24000081a40000000000000000000000014c5138c8000005ef000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ja/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷™($Âç+÷M#Zq`Ìi-A—Ù  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-01-10 14:26+0900 Last-Translator: Yasuaki Taniguchi Language-Team: Japanese MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; ãƒ¡ãƒ¢ãƒªã‚’ä½¿ã„æžœãŸã—ã¾ã—ãŸæ§‹æ–‡ã‚¨ãƒ©ãƒ¼æ§‹æ–‡ã‚¨ãƒ©ãƒ¼ã€äºˆæœŸã—ãªã„ %s ã§ã™æ§‹æ–‡ã‚¨ãƒ©ãƒ¼ã€äºˆæœŸã—ãªã„ %s ã§ã™ã€‚予期ã•れるã®ã¯ %s ã§ã™æ§‹æ–‡ã‚¨ãƒ©ãƒ¼ã€äºˆæœŸã—ãªã„ %s ã§ã™ã€‚予期ã•れるã®ã¯ %s ã¾ãŸã¯ %s ã§ã™æ§‹æ–‡ã‚¨ãƒ©ãƒ¼ã€ 予期ã—ãªã„ %s ã§ã™ã€‚予期ã•れるã®ã¯ %sã€%s ã¾ãŸã¯ %s ã§ã™æ§‹æ–‡ã‚¨ãƒ©ãƒ¼ã€äºˆæœŸã—ãªã„ %s ã§ã™ã€‚予期ã•れるã®ã¯ %sã€%sã€%sã€ã¾ãŸã¯ %s ã§ã™ã€‚構文エラー: ãƒãƒƒã‚¯ã‚¢ãƒƒãƒ—ã™ã‚‹ã“ã¨ãŒã§ãã¾ã›ã‚“æ§‹æ–‡ãŒæ›–昧ã§ã™07070100062cfa000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/de07070100062cfb000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/de/LC_MESSAGES07070100062cfc000081a40000000000000000000000014c5138c800000543000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/de/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷§(Ð çô08C@|H½&-  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2006-12-12 09:38+0100 Last-Translator: Michael Piefel Language-Team: German MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=n != 1; Speicher ausgeschöpftSyntaxfehlerSyntaxfehler, unerwartetes %sSyntaxfehler, unerwartetes %s, hatte %s erwartetSyntaxfehler, unerwartetes %s, hatte %s oder %s erwartetSyntaxfehler, unerwartetes %s, hatte %s oder %s oder %s erwartetSyntaxfehler, unerwartetes %s, hatte %s oder %s oder %s oder %s erwartetSyntaxfehler: Kann nicht zurück gehenSyntax ist mehrdeutig07070100062cfd000081a40000000000000000000000014c5138c700003f12000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/de/LC_MESSAGES/bison.moÞ•ƒ4³L  5 >L <‹ ;È   ' 2 6B y ™ º 'à Dë 60 g &ƒ ª  %Ü %#9$]‚„›±0Æ&÷9#Uy I‹Õ*õt •–(¯ ØqâT'p)˜—Â&Z–²8Ç013:Wl~”«Êç-1FY/_F§Dî&3Z my‰¢·Òèþ+@Qm+‰µÐ*é*?"]€-²*à. +:"f‰'£6Ë#&7'Ow’,¦Ó Ü æ  A S h .| 3« ß þ !(>!/g!*—!Â!Ò!ä!žì!‹#<«#Gè#K0$H|$Å$Þ$õ$ %C%+a%,%º%#Ã%aç%OI&™&'´&Ü& û&+'H'2Y'0Œ'1½'ï'ó'$(5(/K(3{(#¯('Ó($û( ) *)T5).Š)<¹)§ö)%ž,%Ä.)ê. /› /*¼07ç0+1™K1,å12+2I2‡b25ê3 4$4 -4N4c4!4 ¡4&Â4"é4 58-5f5z558’5Ë5Tæ5P;61Œ6¾6Ý6ì6)707!J7l7„77½7Ö7ö7$ 8$28,W8„8¤8-Á8.ï8&9'E9m9Š9A¤9>æ9G%:Dm:)²:Ü:.ø:>';3f;š;¬;(È;%ñ;<7+< c<n<.‡<¶<NÏ< =?=@_=F = ç=">+>)J>5t>.ª>Ù>ò> ?Dq7‚nY€]-3$_s6bNƒJSP5.T~U&|>! 4:W1;Lt )zl8vF^h[XpG}oC9kr%0ABeO`Kw+(Z*iQfx#V/= Mu\yEjRagd'2I"m H,@ c{?<  Execution times (seconds) Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2008-11-04 08:55+0100 Last-Translator: Michael Piefel Language-Team: German MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8-bit Plural-Forms: nplurals=2; plural=n != 1; Ausführungszeiten (Sekunden) Berichten Sie Fehler (auf Englisch, mit LC_ALL=C) an <%s>. Konflikt zwischen Regel %d and Token %s wurde als Fehler betrachtet Konflikt zwischen Regel %d and Token %s wurde durch Reduzierung gelöst Konflikt zwischen Regel %d and Token %s wurde durch Schieben gelöst ZUSAMMEN : auf der linken Seite: auf der rechten Seite: Typ %d ist %s $$ für Regelmitte bei $%d von „%s“ hat keinen deklarierten Typ$$ von „%s“ hat keinen deklarierten Typ$%d von „%s“ hat keinen deklarierten Typ$default%%expect-rr betrifft nur GLR-Parser%d Nicht-Terminal, das in Grammatik nutzlos ist%d Nicht-Terminale, die in Grammatik nutzlos sind%d Regel, die in Grammatik nutzlos ist%d Regeln, die in Grammatik nutzlos sind%s betrifft nur GLR-Parser%s muss von positiver Zahl gefolgt sein%s erneute Deklaration für %s%s erneute Deklaration für <%s>%u bitset_allocs, %u freigegeben (%.2f%%). %u bitset_lists %u bitset_resets, %u zwischengespeichert (%.2f%%) %u bitset_sets, %u zwischengespeichert (%.2f%%) %u bitset_tests, %u zwischengespeichert (%.2f%%) “Gesammelte Durchläufe = %u Ungültige Statistik-Datei-Größe. Bitset-Statistiken: Copyright © %d Free Software Foundation, Inc. Konnte Statistik-Datei nicht zum Schreiben öffnen.Konnte Statistik-Datei nicht lesen.Konnte Statistik-Datei nicht schreiben.Generiert LALR(1)- und GLR-Parser. GrammatikE/A-FehlerErforderliche Argumente für lange Optionen sind auch für Kurzformen erforderlich. Nicht-Terminale, die in Grammatik nutzlos sindNicht-Terminal und die Regeln, in denen sie verwendet werdenAusgabe: --defines[=DATEI] auch eine Header-Datei herstellen -d genauso, aber DATEI kann nicht angegeben werden -r, --report=DINGE auch Details des Automaten ausgeben --report-file=DATEI Report in DATEI ausgeben -v, --verbose das Gleiche wie „--report=state“ -b, --file-prefix=PRÄFIX einen PRÄFIX für Ausgabe-Dateien angeben -o, --output=DATEI Ausgabe in DATEI schreiben -g, --graph[=DATEI] auch einen Graphen des Automaten herstellen -x, --xml[=DATEI] auch einen XML-Report des Automaten herstellen (das XML-Schema ist experimentell) Parser: -L, --language=SPRACHE die Ausgabesprache bestimmen (eine experimentelle Funktion) -S, --skeleton=DATEI zu benutzende Skelettdatei angeben -t, --debug den Parser auf Debugging-Unterstützung vorbereiten --locations Standortberechnung ermöglichen -p, --name-prefix=PRÄFIX PRÄFIX vor alle externen Symbole setzen -l, --no-lines keine „#line“-Direktiven erzeugen -k, --token-table eine Tabelle der Token-Namen mit einschließen Regeln, die in Grammatik nutzlos sindRegeln nutzlos im Parser wegen KonfliktenZustand %d DINGE ist eine Liste kommagetrennter Wörter aus: „state“ die Zustände beschreiben „itemset“ die Kernsymbolmengen mit ihrem Abschluss vervollständigen „lookahead“ explizit Vorschautoken mit Symbolen verbinden „solved“ Schiebe-/Reduzier-Konfliktlösungen beschreiben „all“ alle oben genannten Informationen „none“ den Report abschalten Terminale, die in Grammatik unbenutzt sindTerminale und die Regeln, in denen sie verwendet werdenDas gleiche gilt für optionale Argumente. Dies ist freie Software; die Kopierbedingungen stehen in den Quellen. Es gibt keine Garantie; auch nicht für VERKAUFBARKEIT oder FÜR SPEZIELLE ZWECKE. „%s --help“ gibt weitere Informationen. Unbekannter SystemfehlerAufruf: %s [OPTION]... DATEI Gültige Argumente sind:Die Warnungs-Kategorien schließen ein: „midrule-values“ nicht gesetzte oder nicht benutzte Werte inmitten einer Regel „yacc“ Inkompatibilitäten mit POSIX’ YACC „all“ alle Warnungen „no-KATEGORIE“ Warnungen in KATEGORIE abschalten „none“ alle Warnungen abschalten „error“ Warnungen als Fehler behandeln Geschrieben von Robert Corbett und Richard Stallman. „annehmenmehrdeutiges Argument %s für %sbison (GNU Bison) %skann Datei nicht schließenkann Datei „%s“ nicht öffnenÜberlauf bei den Spaltennummernwidersprüchliche Ausgaben in Datei %sKonflikte: %d Reduziere/Reduziere Konflikte: %d Schiebe/Reduziere Konflikte: %d Schiebe/Reduziere, %d Reduziere/Reduziere Zähler-Histogramm Dichte-Histogramm leerleere Regel für Nicht-Terminal mit Typ und keine AktionFehler (nicht assoziativ) erwartete %d Reduziere/Reduziere-Konflikterwartete %d Reduziere/Reduziere-Konflikteerwartete %d Schiebe/Reduziere-Konflikterwartete %d Schiebe/Reduziere-Konflikteexpliziter Typ angegeben und ungetypter Grammatikzusätzlicher Operand „%s“fataler Fehlergehe zu Zustand %d über Ganzzahl außerhalb des Wertebereichs: %sunzulässiger $-Wert: $%dunzulässiges Argument %s für %sungültiges Zeichen: %sungültige Direktive: %sunzulässiger Sprache: „%s“ungültiges Null-ZeichenÜberlauf bei den ZeilennummernSpeicher ausgeschöpftfehlendes „%s“ am Ende der Dateifehlendes „%s“ am Ende der Zeilefehlender Bezeichner in Parameterdeklarationfehlender Operand nach „%s“mehr als eine %s-Deklarationmehrfache Sprach-Deklarationen sind ungültigmehrfache Skelett-Deklarationen sind ungültigEingabegrammatik enthält keine RegelnNicht-Terminal nutzlos in Grammatik: %snur ein %s pro Regel erlaubtvorhergehende Deklarationerneute Deklaration für voreingestellten markierten %%destructorerneute Deklaration für voreingestellten markierten %%printererneute Deklaration für voreingestellten nicht-markierten %%destructorerneute Deklaration für voreingestellten nicht-markierten %%printerdefiniere Nutzertokennummer von %s erneutreduziere mit Regel %d (%s)werde die Eingabedatei %s nicht überschreibenRückgabetyp-Konflikt in merge-Funktion „%s“: <%s> != <%s>Regel für %s vorhanden, welches aber ein Token istRegel ist zu langRegeln nutzlos in GrammatikRegel nutzlos im Parser wegen Konfliktenschiebe und gehe zu Zustand %d über Größe-Histogramm es lassen sich keine Sätze vom Startsymbol %s ableitenZustand %dherumstreunendes „$“überzähliges „,“ als Freiraum betrachtetherumstreunendes „@“Symbol %s wird benutzt, ist aber nicht als Token definiert und hat keine RegelSymbol %s noch einmal deklariertSymbol %s noch einmal definiertSymbol „%s“ wird mehr als eine literale Zeichenkette gegebenSymbol „%s“ wird mehr als einmal als literale Zeichenkette benutztdas Startsymbol %s ist ein Tokendas Startsymbol %s ist undefiniertZeit in %s: %ld.%06ld (%ld%%) Token %s und %s haben die selbe Nummer %dzu viele Symbole in Eingabegrammatik (Maximum ist %d)Typkonflikt bei Default-Aktion: <%s> != <%s>) nicht gesetzter Wert: $$unzulässiger Wert: $%dWarnung07070100062d1a000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/id07070100062d1b000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/id/LC_MESSAGES07070100062d1c000081a40000000000000000000000014c5138c800000571000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/id/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷»( äñ&7*?bG¢Oê(: c  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.0b.id Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2005-09-14 20:39+0700 Last-Translator: Tedi Heriyanto Language-Team: Indonesian MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; X-Generator: KBabel 1.10 memori habiskesalahan sintakskesalahan sintaks, %s tidak diharapkankesalahan sintaks, %s tidak diharapkan, mengharapkan %skesalahan sintaks, %s tidak diharapkan, mengharapkan %s atau %skesalahan sintaks, %s tidak diharapkan, mengharapkan %s atau %s atau %skesalahan sintaks, %s tidak diharapkan, mengharapkan %s atau %s atau %s atau %skesalahan sintaks: tidak dapat membackupsintaks rancu07070100062d1d000081a40000000000000000000000014c5138c7000049ca000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/id/LC_MESSAGES/bison.moÞ•œüÓÜ ( ) œE â>ù<8;u± Ê Ôß6ï& Fg'pD˜6Ý&&Bi›,·ä%,(-U ƒ(¤Íí% 3%D#j$޳µÌâ0÷&(Oj#†ª ²I¼*&tQÆÇ(à q…'¡)É—ó&‹²Çã8ø01bdkˆ¯ÅÜû-4bwŠ/ÀFØD &d ‹ ž ª º Ó è $!(!>!T!j!!!0£!.Ô!"")"E"+a""¨"*Á"*ì"#"5#X#u#Š#-ž#*Ì#.÷#+&$"R$u$'$6·$#î$%#%';%c%~%,’%¿% È% Ò% ó%Aý%?&T&.h&3—&Ë& ê& '#*'(N'.w'/¦'/Ö'*(!1(MS(H¡(Hê(M3))‘)£)–«)B+£[+ÿ,H-Ea-D§-ì- . ..M..2|.3¯.ã.)ì.1/)H/r/ Ž/¯/Î/æ/ 04!0V0,o04œ05Ñ01/#1!S1!u1%—1½1%Î1#ô1$2=2?2V2o20ƒ2-´2â23" 3C3 K3DY3/ž3/Î3þ306&D80k8 œ8n¦8*:,@:'m:—•:/-;]; |;;b³;0=G=I=P=k=€=™=·=Í=ç=>.>N>d>y>9€>º>%Ó>$ù>??^?r? ‚??©? Á?)â? @%@>@W@&q@6˜@4Ï@A A&ADA._AŽAªA"½A$àA*B20B(cBŒB¡B.µB+äB/C-@C(nC—C)¶C7àC6DOD&fD0D¾DÖD'ìDE E&+E REV`E·EÖE4ôEA)F"kF"ŽF"±F*ÔF*ÿF8*G7cG>›G+ÚG)HY0HTŠHTßHY4IŽI¤I ¿I˜r UKve•\†z:ZV™NŠƒ 'kp"“…3 -.x‰PE|SFt,‘#‹258=m?]YC$h›6„’O7w&”I uRs€qŽ![L*_yA+i‚X0o`—Bœ T9H@ŒW‡d~/aj%M{(D;–^šc4f> Jb<n1Gˆg)lQ} Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s `%s' redefined%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sinvalid value for %%define Boolean variable `%s'invalid value for %%define variable `%s': `%s'line number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationprevious definitionredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo few arguments for %s directive in skeletontoo many arguments for %s directive in skeletontoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unclosed %s directive in skeletonundefined %%define variable `%s' passed to muscle_percent_define_check_valuesundefined %%define variable `%s' passed to muscle_percent_define_flag_ifundefined %%define variable `%s' passed to muscle_percent_define_get_locundefined %%define variable `%s' passed to muscle_percent_define_get_synclineunset value: $$unused value: $%dwarningProject-Id-Version: bison-2.4.1b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-02-27 07:30+0700 Last-Translator: Arif E. Nugroho Language-Team: Indonesian MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=1; plural=0; Waktu eksekusi (detik) Mode Operasi: -h, --help tampilkan bantuan ini dan keluar -V, --version tampilkan informasi versi dan keluar --print-localedir direktori hasil berisikan data locale-dependent --print-datadir direktori hasil berisikan kerangka dan XSLT -y, --yacc emulasikan POSIX yacc -W, --warnings=[KATEGORI] laporkan peringatan kegagalan dalam KATEGORI Laporkan bugs ke <%s>. Konflik antara aturan %d dan token %s diselesaikan sebagai kesalahan Konflik antara aturan %d dan token %s diselesaikan sebagai reduce Konflik antara aturan %d dan token %s diselesaikan sebagai shift TOTAL : di kiri: di kanan: tipe %d adalah %s $$ untuk aturan tengah di $%d dari `%s' tidak memiliki tipe yang terdeklarasi$$ dari `%s' tidak memiliki tipe yang terdeklarasi$%d dari `%s' tidak memiliki tipe yang terdeklarasi$default%%expect-rr hanya berlaku bagi parser GLR%d bukan terminal tidak berguna dalam tata bahasa%d aturan tidak berguna dalam tata bahasa%s `%s' didefinisikan ulang%s hanya mempengaruhi parser GLR%s harus diikuti angka positif%s redeklarasi untuk %s%s redeklarasi untuk <%s>%s: pilihan tidak valid -- '%c' %s: pilihan '%c%s' tidak membolehkan sebuah argumen %s: pilihan '%s' ambigu %s: pilihan '%s' membutuhkan sebuah argumen %s: pilihan '--%s' tidak membolehkan sebuah argumen %s: pilihan '-W %s' tidak membolehkan sebuah argumen %s: pilihan '-W %s' ambigu %s: pilihan membutuhkan sebuah argumen -- '%c' %s: pilihan tidak dikenal '%c%s' %s: pilihan tidak dikenal '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Run terakumulasi = %u Ukuran file stat buruk. Statistik bitset: Copyright (C) %d Free Software Foundation, Inc. Tidak dapat membuka file stat untuk ditulisi.Tidak dapat membaca file stat.Tidak dapat menulis file stat.Hasilkan parser LALR(1) dan GLR. GrammarKesalahan I/OArgumen wajib untuk opsi panjang juga wajib untuk opsi pendek juga. Bukan terminal, tidak berguna dalam tata bahasaNonterminal, dengan aturan tempat mereka munculOutput: --defines juga hasilkan file header -d seperti itu tetapi tidak dapat menspesifikasikan BERKAS (untuk POSIX Yacc) -r, --report=THINGS juga hasilkan detil tentang otomaton --report-file=BERKAS tulis laporan ke BERKAS -v, --verbose sama seperti `--report=state' -b, --file-prefix=PREFIX spesifikasikan PREFIX untuk file output -o, --output=FILE simpan output ke FILE -g, --graph juga hasilkan deskripsi VCG automaton Parser: -L, --language=BAHASA spesifikasikan bahasa keluaran pemrograman (ini adalah fitur uji coba) -S, --skeleton=FILE specifikasikan rangka yang akan digunakan -t, --debug instrumen parser untuk debugging --locations aktifkan lokasi perhitungan -p, --name-prefix=PREFIX tambahkan PREFIX ke simbol eksternal -l, --no-lines jangan hasilkan direktiv `#line' -n, --no-parser hasilkan hanya tabel -k, --token-table sertakan tabel nama token Aturan tidak berguna dalam tata bahasaaturan tidak berguna dalam parser karena konflikState %d THINGS adalah daftar kata yang dipisahkan koma mencakup: `state' menggambarkan state `itemset' lengkapi himpunan item inti dengan klosurnya `lookahead' asosiasikan lookaheads ke item secara eksplisit `solved' gambarkan penyelesaian konflik shift/reduce `all' sertakan semua informasi di atas `none' tiadakan laporan Terminal tidak digunakan dalam tata bahasaTerminal, dengan aturan tempat mereka munculItu juga benar untuk opsional argumen. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Coba `%s --help' untuk informasi lebih lanjut. Kesalahan sistem tidak dikenalPenggunaan: %s [OPTION]... FILE Argumen valid adalah:Kategori peringatan termasuk: `midrule-values' unset atau tidak menggunakan aturan midrule `yacc' tidak kompatibel dengan POSIX YACC `all' seluruh peringatan `no-CATEGORY' non-aktifkan peringatan di KATEGORI `none' non-aktifkan seluruh peringatan `error' perlakukan peringatan sebagai errors Written by Robert Corbett and Richard Stallman. `terimaargumen %s ambigu untuk %sbison (GNU Bison) %stidak dapat menutup filetidak dapat membuka file `%s'overflow jumlah kolomoutput konflik ke file %skonflik: %d kurangi/kurangi konflik: %d geser/kurangi konflik: %d geser/kurangi, %d kurangi/kurangi hitung log histogram kepadatan histogram kosongaturan kosong untuk nonterminal typed, dan tidak ada aksikesalahan(nonasosiatif) diharapkan %d kurangi/kurangi konflikmengharapkan %d shift/reduce konfliktipe eksplisit diberikan dalam tata bahasa yang tidak diketikanoperand ekstra `%s'kesalahan fatalke state %d integer ke luar batas: %snilai $ tidak valid: %dargument %s tidak valid untuk %skarakter tidak valid setelah \-escape: %skarakter tidak valid: %sdirektif tidak valid: %sbahasa tidak valid: `%s'karakter null tidak validnomor tidak valid setelah \-escape: %snilai tidak valid untuk %%define Boolean variable `%s'nilai tidak valid untuk %%define variable `%s': `%s'overflow nomor barismemori habiskehilangan `%s' di akhir filehilang `%s' di akhir barisidentifier tidak ada dalam deklarasi parameteroperand hilang setelah `%s'deklarasi ganda %sdeklarasi bahasa ganda tidak validdeklarasi kerangka ganda tidak validtidak ada aturan dalam tata bahasa masukanbukan terminal tidak berguna dalam tata bahasa: %shanya satu %s yang dibolehkan per aturandeklarasi sebelumnyadefinisi sebelumnyadeklarasi ulang untuk tagged %%destructor bakudeklarasi ulang untuk tagged %%printer bakudeklarasi ulang untuk tagless %%destructor bakudeklarasi ulang untuk taggless %%printer bakumendefinisikan ulang nomor token user %skurangi gunakan aturan %d (%s)menolak untuk overwrite berkas masukan %stipe hasil bentrok pada fungsi merge '%s': <%s> != <%s>aturan diberikan untuk %s, yang merupakan sebuah tokenaturan terlalu panjangaturan tidak berguna dalam tata bahasaaturan tidak berguna dalam parser karena konflikgeser, dan ke state %d ukuran log histogram simbol awal %s tidak melahirkan kalimatstate %dkelebihan `$'stray `,' dianggap sebagai white spacekelebihan `@'simbol %s digunakan, namun tidak didefinisikan sebagai token dan tidak memiliki aturansimbol %s dideklarasikan ulangsimbol %s didefinisikan ulangsimbol `%s' diberikan lebih dari satu string literalsimbol `%s' digunakan lebih dari satu kali sebagai string literalsimbol awal %s adalah sebuah tokensimbol awal %s tidak didefinisikanwaktu dalam %s: %ld.%06ld (%ld%%) tanda untuk %%prec belum didefinisikan: %stoken %s dan %s keduanya memiliki angka %dterlalu sedikit argumen untuk direktif %s dalam skeletonterlalu banyak argumen untuk direktif %s dalam skeletonterlalu banyak simbol dalam grammar input (batasnya adalah %d)bentrokan tipe pada aksi baku: <%s> != <%s>direktif %s tidak tertutup dalam kerangkatidak terdefinisi %%define variabel `%s' dilewatkan ke muscle_percent_define_check_valuestidak terdefinisi %%define variable `%s' dilewatkan ke muscle_percent_define_flag_iftidak terdefinisi %%define variabel `%s' dilewatkan ke muscle_percent_define_get_loctidak terdefinisi %%define variabel `%s' dilewatkan ke muscle_percent_define_get_synclinenilai tidak diset: $$nilai tidak digunakan: $%dperingatan07070100062d4b000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/ru07070100062d4c000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/ru/LC_MESSAGES07070100062d4e000081a40000000000000000000000014c5138c800004ff3000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/ru/LC_MESSAGES/bison.moÞ•ƒ4³L  5 >L <‹ ;È   ' 2 6B y ™ º 'à Dë 60 g &ƒ ª  %Ü %#9$]‚„›±0Æ&÷9#Uy I‹Õ*õt •–(¯ ØqâT'p)˜—Â&Z–²8Ç013:Wl~”«Êç-1FY/_F§Dî&3Z my‰¢·Òèþ+@Qm+‰µÐ*é*?"]€-²*à. +:"f‰'£6Ë#&7'Ow’,¦Ó Ü æ  A S h .| 3« ß þ !(>!/g!*—!Â!Ò!ä!½ì!+ª#9Ö#o$j€$jë$V%t%ƒ%”%V´%: &=F&„&C&ÔÑ&¼¦'4c(M˜(0æ(,)6D){)3Œ)1À)2ò)%*)(*?R*’*0±*Uâ*E8+F~+5Å+û+$,5,A·,pù,’j-ðý0Dî3W34‹4m¢4H7lY7SÆ7M8_h96È98ÿ9(8:Sa:Hµ<þ<=8=I=+^=2Š=4½=,ò=1>1Q>Oƒ>9Ó>* ? 8?‹C?.Ï?Æþ?ÆÅ@LŒA"ÙAüA(BBEB0ˆB6¹B)ðB'C(BC4kC2 CÓC6óC8*DXcD1¼D.îDNERlEN¿EEF?TF%”FdºFaGhGeêG]PHA®H>ðHj/IWšI,òI=JW]J7µJ5íJ_#KƒK™K6¸KïK|L0‹L;¼LTøLrMMDÀM:N$@NCeNq©NWO+sO6ŸOÖODq7‚nY€]-3$_s6bNƒJSP5.T~U&|>! 4:W1;Lt )zl8vF^h[XpG}oC9kr%0ABeO`Kw+(Z*iQfx#V/= Mu\yEjRagd'2I"m H,@ c{?<  Execution times (seconds) Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterline number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) tokens %s and %s both assigned number %dtoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-02-04 19:44+0200 Last-Translator: Pavel Maryanov Language-Team: Russian MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=3; plural=n%10==1 && n%100!=11 ? 0 : n%10>=2 && n%10<=4 && (n%100<10 || n%100>=20) ? 1 : 2; Ð’Ñ€ÐµÐ¼Ñ Ð²Ñ‹Ð¿Ð¾Ð»Ð½ÐµÐ½Ð¸Ñ (Ñек.) Ошибки Ñообщайте по адреÑу <%s>. Конфликт между правилом %d и лекÑемой %s разрешен как ошибка Конфликт между правилом %d и лекÑемой %s разрешен выводом Конфликт между правилом %d и лекÑемой %s разрешен Ñдвигом СУММР: налево: направо: тип %d ÑвлÑетÑÑ %s $$ Ð´Ð»Ñ Ð¿Ñ€Ð°Ð²Ð¸Ð»Ð° $%d из «%s» не имеет опиÑанного типа$$ в «%s» не имеет опиÑанного типа$%d из «%s» не имеет опиÑанного типа$default%%expect-rr применимо только к GLR парÑерам%d нетерминал беÑполезен в грамматике%d нетерминала беÑполезно в грамматике%d нетерминалов беÑполезно в грамматике%d правило беÑполезно в грамматике%d правила беÑполезно в грамматике%d правила беÑполезно в грамматике%s влиÑет только на GLR парÑерыза %s должно Ñледовать положительное чиÑлоповторное опиÑание %s Ð´Ð»Ñ %s%s повторно опиÑан Ð´Ð»Ñ <%s>%u bitset_allocs, %u оÑвобождено (%.2f%%). %u bitset_lists %u bitset_resets, %u кÑшировано (%.2f%%) %u bitset_sets, %u кÑшировано (%.2f%%) %u bitset_tests, %u кÑшировано (%.2f%%) »Ðакоплено запуÑков = %u Ðеверный размер файла ÑтатиÑтики. СтатиÑтика bitset: Copyright (C) %d Free Software Foundation, Inc. Ðе удаетÑÑ Ð¾Ñ‚ÐºÑ€Ñ‹Ñ‚ÑŒ файл ÑтатиÑтики Ð´Ð»Ñ Ð·Ð°Ð¿Ð¸Ñи.Ðе удаетÑÑ Ð¿Ñ€Ð¾Ñ‡Ð¸Ñ‚Ð°Ñ‚ÑŒ файл ÑтатиÑтики.Ðе удаетÑÑ Ð·Ð°Ð¿Ð¸Ñать в файл ÑтатиÑтики.Генерирует LALR(1) и GLR парÑеры. Грамматикаошибка ввода-выводаСоответÑтвующие длÑнные опции также ÑоответÑтвуют и коротким опциÑм. Ðетерминал беÑполезен в грамматикеÐетерминальные Ñимволы Ñ Ð¿Ñ€Ð°Ð²Ð¸Ð»Ð°Ð¼Ð¸, в которых они поÑвлÑÑŽÑ‚ÑÑВывод: --defines[=ФÐЙЛ] Ñоздать также файл заголовков -d или еÑли мы не можем указать ФÐЙЛ (ÑовмеÑтимоÑть Ñ POSIX Yacc) -r, --report=ВЕЩИ Ñоздать также поÑÑÐ½ÐµÐ½Ð¸Ñ Ð² автомату --report-file=FILE запиÑать отчет в ФÐЙЛ -v, --verbose то же, что и «--report=state» -b, --file-prefix=ПРЕФИКС указать ПРЕФИКС Ð´Ð»Ñ Ð²Ñ‹Ñ…Ð¾Ð´Ð½Ñ‹Ñ… файлов -o, --output=ФÐЙЛ помеÑтить вывод в ФÐЙЛ -g, --graph[=ФÐЙЛ] также вывеÑти граф автомата -x, --xml[=ФÐЙЛ] также вывеÑти XML отчет автомата (Ñценарий XML - ÑкÑперементальный) Ðнализатор: -L, --language=ЯЗЫК указать выходной Ñзык Ð¿Ñ€Ð¾Ð³Ñ€Ð°Ð¼Ð¼Ð¸Ñ€Ð¾Ð²Ð°Ð½Ð¸Ñ (ÑкÑÐ¿ÐµÑ€ÐµÐ¼ÐµÐ½Ñ‚Ð°Ð»ÑŒÐ½Ð°Ñ Ñ„ÑƒÐ½ÐºÑ†Ð¸Ñ) -S, --skeleton=ФÐЙЛ указать файл шаблона -t, --debug наÑтроить анализатор Ð´Ð»Ñ Ð¾Ñ‚Ð»Ð°Ð´ÐºÐ¸ --locations включить вычиÑление меÑтоположений -p, --name-prefix=ПРЕФИКС подÑтавить ПРЕФИКС Ð´Ð»Ñ Ð²Ð½ÐµÑˆÐ½Ð¸Ñ… Ñимволов -l, --no-lines не генерировать директивы «#line» -k, --token-table включить таблицу имен лекÑем Правила не иÑпользуютÑÑ Ð² грамматикеПравило не применимо в парÑере из-за конфликтовСоÑтоÑние %d ВЕЩИ - Ñто ÑпиÑок разделенных запÑтой Ñлов, который может включать: «state» опиÑать ÑоÑтоÑÐ½Ð¸Ñ Â«itemset» полный набор оÑновных Ñлементов вмеÑте Ñ Ð¸Ñ… ÑоÑедÑми «look-ahead» точные ÑоответÑÑ‚Ð²Ð¸Ñ Ñледующих токенов Ñлементам «solved» опиÑание Ñ€ÐµÑˆÐµÐ½Ð¸Ñ ÐºÐ¾Ð½Ñ„Ð»Ð¸ÐºÑ‚Ð¾Ð² Ñдвига/вывода «all» включить вÑÑŽ Ñту информацию «none» отключить отчет Терминалы не иÑпользуютÑÑ Ð² грамматикеТерминальные Ñимволы Ñ Ð¿Ñ€Ð°Ð²Ð¸Ð»Ð°Ð¼Ð¸, в которых они поÑвлÑÑŽÑ‚ÑÑТо-же допуÑтимо Ð´Ð»Ñ Ð¾Ð¿Ñ†Ð¸Ð¾Ð½Ð°Ð»ÑŒÐ½Ñ‹Ñ… параметров. Это ÑÐ²Ð¾Ð±Ð¾Ð´Ð½Ð°Ñ Ð¿Ñ€Ð¾Ð³Ñ€Ð°Ð¼Ð¼Ð°; уÑÐ»Ð¾Ð²Ð¸Ñ Ñ€Ð°ÑпроÑÑ‚Ñ€Ð°Ð½ÐµÐ½Ð¸Ñ Ñмотрите в иÑходных текÑтах. ÐИКÐКИХ гарантий не предоÑтавлÑетÑÑ, даже гарантии ПОЛЕЗÐОСТИ или ПРИГОДÐОСТИ ДЛЯ ОПРЕДЕЛЕÐÐОЙ ЦЕЛИ. ИÑпользуйте «%s --help» Ð´Ð»Ñ Ð´Ð¾Ð¿Ð¾Ð»Ð½Ð¸Ñ‚ÐµÐ»ÑŒÐ½Ð¾Ð¹ информации. ÐеизвеÑÑ‚Ð½Ð°Ñ ÑиÑÑ‚ÐµÐ¼Ð½Ð°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°Ð˜Ñпользование: %s [КЛЮЧИ]... ФÐЙЛ ДопуÑтимые аргументы:Категории Ð¿Ñ€ÐµÐ´ÑƒÐ¿Ñ€ÐµÐ¶Ð´ÐµÐ½Ð¸Ñ Ð²ÐºÐ»ÑŽÑ‡Ð°ÑŽÑ‚: «midrule-values» неназначенные или неиÑпользуемые Ð·Ð½Ð°Ñ‡ÐµÐ½Ð¸Ñ Ð² правилах «yacc» неÑовмеÑтимоÑти Ñ POSIX YACC «all» вÑе Ð¿Ñ€ÐµÐ´ÑƒÐ¿Ñ€ÐµÐ¶Ð´ÐµÐ½Ð¸Ñ Â«no-КÐТЕГОРИЯ» выключить Ð¿Ñ€ÐµÐ´ÑƒÐ¿Ñ€ÐµÐ¶Ð´ÐµÐ½Ð¸Ñ Ð² КÐТЕГОРИЯ «none» выключить вÑе Ð¿Ñ€ÐµÐ´ÑƒÐ¿Ñ€ÐµÐ¶Ð´ÐµÐ½Ð¸Ñ Â«error» воÑпринимать вÑе Ð¿Ñ€ÐµÐ´ÑƒÐ¿Ñ€ÐµÐ¶Ð´ÐµÐ½Ð¸Ñ ÐºÐ°Ðº ошибки Ðвторы: Роберт Корбет и Ричард Столмен. «принÑтьнеоднозначный аргумент %s Ð´Ð»Ñ %sbison (GNU Bison) %sне удаетÑÑ Ð·Ð°ÐºÑ€Ñ‹Ñ‚ÑŒ файлне удаетÑÑ Ð¾Ñ‚ÐºÑ€Ñ‹Ñ‚ÑŒ файл «%s»переполнение номера Ñтолбцаконфликт вывода в файл %sконфликты: %d вывода/вывода конфликты: %d Ñдвига/вывода конфликты: %d Ñдвига/вывода, %d вывода/вывода поÑчитать гиÑтограмму журнала гиÑтограмма плотноÑти пуÑтопуÑтое правило Ð´Ð»Ñ Ñ‚Ð¸Ð¿Ð¸Ð·Ð¸Ñ€Ð¾Ð²Ð°Ð½Ð½Ð¾Ð³Ð¾ нетерминального Ñимвола, и нет дейÑтвиÑошибка (неаÑÑоциативнаÑ) ожидалÑÑ %d конфликт вывода/выводаожидалоÑÑŒ %d конфликта вывода/выводаожидалоÑÑŒ %d конфликтов вывода/выводаожидалÑÑ %d конфликт Ñдвига/выводаожидалоÑÑŒ %d конфликта Ñдвига/выводаожидалоÑÑŒ %d конфликтов Ñдвига/выводауказан тип в нетипизированной грамматикелишний операнд «%sÂ»Ñ„Ð°Ñ‚Ð°Ð»ÑŒÐ½Ð°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°Ð¿ÐµÑ€ÐµÑ…Ð¾Ð´ в ÑоÑтоÑние %d выход за границы диапазона целого: %sнедопуÑтимое $ значение: $%dнедопуÑтимый аргумент %s Ð´Ð»Ñ %sнедопуÑтимый Ñимвол: %sÐ½ÐµÐ²ÐµÑ€Ð½Ð°Ñ Ð´Ð¸Ñ€ÐµÐºÑ‚Ð¸Ð²Ð°: %sнедопуÑтимый Ñзык «%s»недопуÑтимый нулевой Ñимволпереполнение номера ÑтрокипамÑть иÑчерпанаотÑутÑтвует «%s» в конце файлаотÑутÑтвует «%s» в конце Ñтрокив опиÑании параметра отÑутÑтвует идентификаторпоÑле «%s» пропущен операндмножеÑтвенное опиÑание %sмножеÑтвенные опиÑÐ°Ð½Ð¸Ñ Ñзыка не применимомножеÑтвенные опиÑÐ°Ð½Ð¸Ñ Ñкелета не применимоотÑутÑтвуют правила во входной грамматикенетерминал беÑполезен в грамматике: %sтолько одно %s разрешено на правилопредыдущее опиÑаниепереопределение Ð´Ð»Ñ Ñтандартного назначенного %%destructorпереопределение Ð´Ð»Ñ Ñтандартного назначенного %%printerпереопределение Ð´Ð»Ñ Ñтандартного неназначенного %%destructorпереопределение Ð´Ð»Ñ Ñтандартного неназначенного %%printerпереопределение номера лекÑемы Ð¿Ð¾Ð»ÑŒÐ·Ð¾Ð²Ð°Ñ‚ÐµÐ»Ñ Ð´Ð»Ñ %sвывод Ñ Ð¸Ñпользованием правила %d (%s)отказ перезапиÑи входного файла %sконфликт типов результата при ÑлиÑнии функции «%s»: <%s> != <%s>правило задано Ð´Ð»Ñ %s, который ÑвлÑетÑÑ Ð»ÐµÐºÑемойÑлишком длинное правилобеÑполезное правило в грамматикеправило не применимо в парÑере из-за конфликтовÑдвиг, и переход в ÑоÑтоÑние %d гиÑтограмма размера журнала начальный Ñимвол %s не выводит ни одного предложениÑÑоÑтоÑние %dнекорректный «$»лишнÑÑ Â«,» ÑчитаетÑÑ Ð¿Ñ€Ð¾Ð±ÐµÐ»Ð¾Ð¼Ð½ÐµÐºÐ¾Ñ€Ñ€ÐµÐºÑ‚Ð½Ñ‹Ð¹ «@»Ñимвол %s иÑпользуетÑÑ, но не определен как лекÑема и не имеет правилпереопределение Ñимвола %sповторное определение Ñимвола %sÑимвол «%s» указан более одной Ñтроки литералаÑимвол «%s» иÑпользуетÑÑ Ð±Ð¾Ð»ÐµÐµ одного раза как Ñтрока литераланачальный Ñимвол %s ÑвлÑетÑÑ Ð»ÐµÐºÑемойначальный Ñимвол %s не Ð¾Ð¿Ñ€ÐµÐ´ÐµÐ»ÐµÐ½Ð²Ñ€ÐµÐ¼Ñ Ð² %s: %ld.%06ld (%ld%%) обеим лекÑемам %s и %s приÑвоен номер %dÑлишком много Ñимволов во входÑщей грамматике (макÑимально %d)конфликт типов на дейÑтвии по умолчанию: <%s> != <%s>неуказанное значение: $$неиÑÐ¿Ð¾Ð»ÑŒÐ·ÑƒÐµÐ¼Ð°Ñ Ð¿ÐµÑ€ÐµÐ¼ÐµÐ½Ð½Ð°Ñ: $%dпредупреждение07070100062d4d000081a40000000000000000000000014c5138c8000006a0000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/ru/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷{(%¤)ÊJôa?k¡v „k-r  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-02-04 19:48+0200 Last-Translator: Pavel Maryanov Language-Team: Russian MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); недоÑтаточно памÑтиÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°ÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°, Ð½ÐµÐ¿Ñ€ÐµÐ´Ð²Ð¸Ð´ÐµÐ½Ð½Ð°Ñ %sÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°, Ð½ÐµÐ¿Ñ€ÐµÐ´Ð²Ð¸Ð´ÐµÐ½Ð½Ð°Ñ %s, ожидаетÑÑ %sÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°, Ð½ÐµÐ¿Ñ€ÐµÐ´Ð²Ð¸Ð´ÐµÐ½Ð½Ð°Ñ %s, ожидаетÑÑ %s или %sÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°, Ð½ÐµÐ¿Ñ€ÐµÐ´Ð²Ð¸Ð´ÐµÐ½Ð½Ð°Ñ %s, ожидаетÑÑ %s или %s, или %sÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°, Ð½ÐµÐ¿Ñ€ÐµÐ´Ð²Ð¸Ð´ÐµÐ½Ð½Ð°Ñ %s, ожидаетÑÑ %s или %s, или %s, или %sÑинтакÑичеÑÐºÐ°Ñ Ð¾ÑˆÐ¸Ð±ÐºÐ°: не удалоÑÑŒ Ñоздать резервную копиюнеоднозначный ÑинтакÑиÑ07070100062d3f000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/pt07070100062d40000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/pt/LC_MESSAGES07070100062d42000081a40000000000000000000000014c5138c800000839000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/pt/LC_MESSAGES/bison.moÞ•ì%¼P Q [fv –0·è ð0ú+2GYpv ŽšªÃÙï,=ÌE  +":#]0 ² ½/Éù!'IO hsˆ¥¼Ô ì 3    on left: on right: type %d is %s $$ of `%s' has no declared type$%d of `%s' has no declared typeCopyright (C) %d Free Software Foundation, Inc. GrammarI/O errorWritten by Robert Corbett and Richard Stallman. acceptbison (GNU Bison) %scannot close filecolumn number overflowemptyerror (nonassociative) fatal errorgo to state %d integer out of range: %sinvalid character: %sinvalid directive: %sinvalid null characterline number overflowmemory exhaustedrule is too longwarningProject-Id-Version: bison-2.4.1 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-01-28 00:15+0100 Last-Translator: Hugo Patrício Language-Team: Portuguese MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Poedit-Language: Portuguese X-Poedit-Country: PORTUGAL X-Poedit-SourceCharset: utf-8 à esquerda:à direita:tipo %d é %s $$ de `%s' não tem tipo declarado$%d de `%s' não tem tipo declaradoCopyright (C) %d Free Software Foundation, Inc. GramáticaErro de E/SEscrito por Robert Corbett e Richard Stallman. aceitebison (GNU Bison) %scannot close fileultrapassado o número de colunasvazioerro (não-associativo) erro fatalir para o estado %d integral fora de alcance: %scaracter inválido: %sdirectriz inválida: %scaracter nulo inválidoultrapassado o número de linhasmemória exaustaregra é muito longaaviso07070100062d41000081a40000000000000000000000014c5138c800000553000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/pt/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷Ò(û ,;2h8›>Ô)=  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime-2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-01-27 03:16+0100 Last-Translator: Hugo Patrício Language-Team: Portuguese MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Poedit-Language: Portuguese X-Poedit-Country: PORTUGAL X-Poedit-SourceCharset: utf-8 memória exaustaerro de sintaxeerro de sintaxe, %s inesperadoerro de sintaxe, %s inesperado, esperando %serro de sintaxe, %s inesperado, esperando %s ou %serro de sintaxe, %s inesperado, esperando %s ou %s ou %serro de sintaxe, %s inesperado, esperando %s ou %s ou %s ou %serro de sintaxe: não é possível voltara sintaxe é ambígua07070100062d2c000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/lv07070100062d2d000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/lv/LC_MESSAGES07070100062d2e000081a40000000000000000000000014c5138c80000059d000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/lv/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷ù("3 E2f9™AÓI&_†  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime-2.4 Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2009-07-28 21:28+0200 Last-Translator: Rihards PriedÄ«tis Language-Team: Latvian MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 8bit X-Poedit-Language: Latvian X-Poedit-Country: LATVIA Plural-Forms: nplurals=3; plural=(n%10==1 && n%100!=11 ? 0 : n != 0 ? 1 : 2); izsmelta atmiņasintakses kļūdasintakses kļūda, negaidÄ«ts %ssintakses kļūda, negaidÄ«ts %s, tika gaidÄ«ts %ssintakses kļūda, negaidÄ«ts %s, tika gaidÄ«ts %s vai %ssintakses kļūda, negaidÄ«ts %s, tika gaidÄ«ts %s vai %s, vai %ssintakses kļūda, negaidÄ«ts %s, tika gaidÄ«ts %s vai %s, vai %s, vai %ssintakses kļūda: nevar dublÄ“t datussintakse ir divdomÄ«ga07070100062d52000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/sv07070100062d53000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/sv/LC_MESSAGES07070100062d55000081a40000000000000000000000014c5138c800004973000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/sv/LC_MESSAGES/bison.moÞ•œüÓÜ ( ) œE â>ù<8;u± Ê Ôß6ï& Fg'pD˜6Ý&&Bi›,·ä%,(-U ƒ(¤Íí% 3%D#j$޳µÌâ0÷&(Oj#†ª ²I¼*&tQÆÇ(à q…'¡)É—ó&‹²Çã8ø01bdkˆ¯ÅÜû-4bwŠ/ÀFØD &d ‹ ž ª º Ó è $!(!>!T!j!!!0£!.Ô!"")"E"+a""¨"*Á"*ì"#"5#X#u#Š#-ž#*Ì#.÷#+&$"R$u$'$6·$#î$%#%';%c%~%,’%¿% È% Ò% ó%Aý%?&T&.h&3—&Ë& ê& '#*'(N'.w'/¦'/Ö'*(!1(MS(H¡(Hê(M3))‘)£)ˆ«)4+¨R+aû,>]-?œ-<Ü-.2. A.N.=].$›.%À. æ.%ð.T/Ek/±/Æ/#å/ 0!0;0&V0}0&›0&Â0'é0 1)21\1u1/Ž1¾1/Ñ1(2'*2R2T2q22.£2,Ò2ÿ23$=3 b3l3Nt3(Ã3,ì3h4‚6 ƒ82¤8 ×8‰å8!o:(‘:"º:œÝ:,z;§;·;×;Gì;04=e= g=q==¤=¸=Ò=%ä=! >,>5L>‚>—>«>2¯>â>Qø>MJ?%˜?¾?Ñ?à?ö?@*@*G@r@†@œ@°@'Ä@1ì@/ANA ]AiAA*™AÄAÞA)õA+BKB)gB‘B°BÇB/ÝB, C0:C-kC$™C¾C%ÙCCÿC&CDjD}D1œD!ÎDðD(E 0E=E"MEpEO€EÐEéE2F=5FsF“F³F+ÐF+üF,(G/UG2…G)¸G!âGRHMWHM¥HRóHFIXIkI˜r UKve•\†z:ZV™NŠƒ 'kp"“…3 -.x‰PE|SFt,‘#‹258=m?]YC$h›6„’O7w&”I uRs€qŽ![L*_yA+i‚X0o`—Bœ T9H@ŒW‡d~/aj%M{(D;–^šc4f> Jb<n1Gˆg)lQ} Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s `%s' redefined%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sinvalid value for %%define Boolean variable `%s'invalid value for %%define variable `%s': `%s'line number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationprevious definitionredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo few arguments for %s directive in skeletontoo many arguments for %s directive in skeletontoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unclosed %s directive in skeletonundefined %%define variable `%s' passed to muscle_percent_define_check_valuesundefined %%define variable `%s' passed to muscle_percent_define_flag_ifundefined %%define variable `%s' passed to muscle_percent_define_get_locundefined %%define variable `%s' passed to muscle_percent_define_get_synclineunset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-03-01 22:24+0100 Last-Translator: Göran Uddeborg Language-Team: Swedish MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); Exekveringstider (sekunder) Arbetslägen: -h, --help visa denna hjälptext och avsluta -V, --version visa versionsinformation och avsluta --print-localedir skriv katalogen som innehåller lokalberoende data --print-datadir skriv katalogen som innehåller skelett och XSLT -y, --yacc emulera POSIX-Yacc -W, --warnings[=KATEGORI] rapportera varningarna som faller inom KATEGORI Rapportera fel till <%s>. Rapportera synpunkter på översättningen till . Konflikt mellan regel %d och element %s löstes som ett fel Konflikt mellan regel %d och element %s löstes som reducera Konflikt mellan regel %d och element %s löstes som skift TOTALT : till vänster: till höger: typ %d är %s $$ för mitt-i-regeln vid $%d av "%s" har ingen deklarerad typ$$ för "%s" har ingen deklarerad typ$%d för "%s" har ingen deklarerad typ$standard%%expect-rr gäller endast GLR-parsrar%d oanvändbar icketerminal i grammatiken%d oanvändbara icketerminaler i grammatiken%d oanvändbar regel i grammatiken%d oanvändbara regler i grammatiken%s "%s" omdefinierad%s påverkar endast GLR-parsrar%s måste följas av ett positivt tal%s-omdeklaration för %s%s-omdeklaration för <%s>%s: ogiltig flagga --"%c" %s: flaggan "%c%s" tar inget argument %s: flaggan "%s" är tvetydig %s: flaggan "%s" behöver ett argument %s: flaggan "--%s" tar inget argument %s: flaggan "-W %s" tar inget argument %s: flaggan "-W %s" är tvetydig %s: flaggan behöver ett argument -- "%c" %s: okänd flagga "%c%s" %s: okänd flagga "--%s" %u bitmängdallokeringar, %u frianden (%.2f%%). %u bitmängdlistor %u bitmängdåterställanden, %u cachade (%.2f%%) %u bitmängdmängder, %u cachade (%.2f%%) %u bitmängdtester, %u cachade (%.2f%%) "Ackumulerade körningar = %u Dålig statistikfilstorlek. Bitmängdsstatistik: Copyright © %d Free Software Foundation, Inc. Kunde inte öppna statistikfil för skrivning.Kunde inte läsa statistikfil.Kunde inte skriva statistikfil.Generera LALR(1)- och GLR-parsrar. GrammatikI/O-felObligatoriska argument till långa flaggor är obligatoriska även för de korta. Oanvändbara icketerminaler i grammatikenIcketerminaler, med regler där de förekommerUtdata: --defines[=FIL] skapa också en huvudfil -d detsamma, utan att kunna ange FIL (för POSIX-Yacc) -r, --report=SAKER skapa också detaljer om automaten --report-file=FIL skriv en rapport till FIL -v, --verbose samma som "--report=state" -b, --file-prefix=PREFIX ange ett PREFIX för utdatafiler -o, --output=FIL lägg utdata i FIL -g, --graph[=FIL] skapa också en graf av automaten -x, --xml[=FIL] skapa också en XML-rapport om automaten (XML-schemat är experimentellt) Tolk: -L, --language=SPRÅK ange programspråk för utmatning (detta är en experimentell funktion) -S, --skeleton=FIL ange skelettfilen som skall användas -t, --debug instrumentera tolken för felsökning --locations aktivera lägesberäkning -p, --name-prefix=PREFIX lägg till PREFIX före externa symboler -l, --no-lines generera inte "#line"-direktiv -k, --token-table inkludera en tabell över elementnamn Oanvändbara regler i grammatikenOanvändbara regler i parser på grund av konflikterTillstånd %d SAKER är en lista med kommaseparerade ord som kan innehålla: "state" beskriv tillstånden "itemset" komplettera kärnobjektmängderna med sina höljen "lookahead" koppla uttryckligen framåtblickande element till objekt "solved" beskriv lösningar av skifta/reducerakonflikter "all" inkludera all ovanstående information "none" avaktivera rapporten Oanvända terminaler i grammatikenTerminaler, med regler där de förekommerDetsamma gäller valfria argument. Detta är fri programvara, se källkoden för kopieringsvillkor. Det finns INGEN garanti, inte ens för SÄLJBARHET eller LÄMPLIGHET FÖR ETT SPECIELLT ÄNDAMÅL. Försök med "%s --help" för mer information. Okänt systemfelAnvändning: %s [FLAGGA]... FIL Giltiga argument är:Varningskategorier innefattar: `midrule-values' ej satta eller oanvända värden mitt i regler `yacc' inkompatibiliteter med POSIX YACC `all' alla varningarna `no-KATEGORI' slå av varningar i KATEGORI `none' slå av alla varningarna `error' behandla varningar som fel Skriven av Robert Corbett och Richard Stallman. "accepteratvetydigt argument %s till %sbison (GNU Bison) %skan inte stänga filkan inte öppna filen "%s"kolumnnummerspillmotstridiga utmatningar till filen %skonflikter: %d reducera/reducera konflikter: %d skifta/reducera konflikter: %d skifta/reducera, %d reducera/reducera anropslogghistogram densitetshistogram tomtom regel för typad icketerminal, och ingen åtgärdfel (ickeassociativ) förväntade %d reducera/reducerakonfliktförväntade %d reducera/reducerakonflikterförväntade %d skifta/reducerakonfliktförväntade %d skifta/reducerakonflikterexplicit typ given i otypad grammatikextra operand "%s"ödesdigert felgå till tillstånd %d heltal utanför intervall: %sfelaktigt $-värde: $%dogiltigt argument %s till %sogiltigt tecken efter \-specialsekvens: %sogiltigt tecken: %sogiltigt direktiv: %sogiltigt språk "%s"ogiltigt nollteckenogiltigt tal efter \-specialsekvens: %sogiltigt värde för boolesk %%define-variabel "%s"ogiltigt värde för %%define-variabel "%s": "%s"radnummerspillminnet slutsaknat "%s" vid filslutsaknat "%s" vid radslutidentiferare saknas i parameterdeklarationsaknad operand efter "%s"flera %s-deklarationerflera språkdeklarationer är inte tillåtetflera skelettdeklarationer är inte tillåtetinga regler i ingrammatikenoanvändbar icketerminal i grammatiken: %sendast en %s tillåts per regelföregående deklarationföregående definitionomdeklaration av standard-%%destructor med taggomdeklaration av standard-%%printer med taggomdeklaration av standard-%%destructor utan taggomdeklaration av standard-%%printer utan taggomdefinition av elementnummer för %sreducera med regel %d (%s)vägrar att skriva över indatafilen %sresultattypskonflikt vid sammanslagningsfunktion "%s": <%s> != <%s>regel given för %s, som är ett elementregeln är för långoanvändbar regel i grammatikenoanvändbar regel i parsern på grund av konflikterskifta, och gå till tillstånd %d storlekslogghistogram startsymbolen %s genererar inga meningartillstånd %dvilsekommet "$"vilsekommet "," hanterat som blankvilsekommet "@"symbolen %s används, men är inte definierad som ett element och har inga reglersymbolen %s omdeklareradsymbolen %s omdefinieradsymbolen "%s" har fått mer än en bokstavlig strängsymbolen "%s" används mer än en gång som en bokstavlig strängstartsymbolen %s är ett elementstartsymbolen %s är odefinieradtid i %s: %ld.%06ld (%ld%%) elementet för %%prec är inte definierat: %selementen %s och %s har båda fått nummer %dför få argument till %s-direktiv i skelettetför många argument till %s-direktiv i skelettetför många symboler i ingrammatiken (gränsen är %d)typkonflikt för standardåtgärd: <%s> <%s>oavslutat %s-direktiv i skelettetodefinierad %%define-variabel "%s" skickad till muscle_percent_define_check_valuesodefinierad %%define-variabel "%s" skickad till muscle_percent_define_flag_ifodefinierad %%define-variabel "%s" skickad till muscle_percent_define_get_locodefinierad %%define-variabel "%s" skickad till muscle_percent_define_get_synclineej satt värde: $$oanvänt värde: $%dvarning07070100062d54000081a40000000000000000000000014c5138c8000004d9000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/sv/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷( ¹ ÅÏ$å- 68?o¯É  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.4.1a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-01-23 10:49+0100 Last-Translator: Göran Uddeborg Language-Team: Swedish MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-1 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); minnet slutsyntaxfelsyntaxfel, oväntad %ssyntaxfel, oväntad %s, förväntade %ssyntaxfel, oväntad %s, förväntade %s eller %ssyntaxfel, oväntad %s, förväntade %s eller %s eller %ssyntaxfel, oväntad %s, förväntade %s eller %s eller %s eller %ssyntaxfel: kan inte backatvetydig syntax07070100062d0a000041ed0000000000000000000000034c5138f900000000000000b600010002ffffffffffffffff0000001f00000000root/usr/local/share/locale/fi07070100062d0b000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002b00000000root/usr/local/share/locale/fi/LC_MESSAGES07070100062d0c000081a40000000000000000000000014c5138c800000517000000b600010002ffffffffffffffff0000003c00000000root/usr/local/share/locale/fi/LC_MESSAGES/bison-runtime.moÞ• l ¼ðñ )+/U5…;»÷( ¹ ÇÕ+ó29R@Œ-Íû  memory exhaustedsyntax errorsyntax error, unexpected %ssyntax error, unexpected %s, expecting %ssyntax error, unexpected %s, expecting %s or %ssyntax error, unexpected %s, expecting %s or %s or %ssyntax error, unexpected %s, expecting %s or %s or %s or %ssyntax error: cannot back upsyntax is ambiguousProject-Id-Version: bison-runtime 2.3a Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2007-11-16 19:37+0200 Last-Translator: Jorma Karvonen Language-Team: Finnish MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit X-Generator: KBabel 1.11.2 muisti loppuisyntaksivirhesyntaksivirhe, odottamaton %ssyntaksivirhe, odottamaton %s, odotetaan %ssyntaksivirhe, odottamaton %s, odotetaan %s tai %ssyntaksivirhe, odottamaton %s, odotetaan %s tai %s tai %ssyntaksivirhe, odottamaton %s, odotetaan %s tai %s tai %s tai %ssyntaksivirhe: ei voida tehdä varmuuskopiotasyntaksi on moniselitteinen07070100062d0d000081a40000000000000000000000014c5138c700004eed000000b600010002ffffffffffffffff0000003400000000root/usr/local/share/locale/fi/LC_MESSAGES/bison.moÞ•œüÓÜ ( ) œE â>ù<8;u± Ê Ôß6ï& Fg'pD˜6Ý&&Bi›,·ä%,(-U ƒ(¤Íí% 3%D#j$޳µÌâ0÷&(Oj#†ª ²I¼*&tQÆÇ(à q…'¡)É—ó&‹²Çã8ø01bdkˆ¯ÅÜû-4bwŠ/ÀFØD &d ‹ ž ª º Ó è $!(!>!T!j!!!0£!.Ô!"")"E"+a""¨"*Á"*ì"#"5#X#u#Š#-ž#*Ì#.÷#+&$"R$u$'$6·$#î$%#%';%c%~%,’%¿% È% Ò% ó%Aý%?&T&.h&3—&Ë& ê& '#*'(N'.w'/¦'/Ö'*(!1(MS(H¡(Hê(M3))‘)£)Ы)|+Ç—+Œ_-Qì-U>.P”.å. ÿ. //G)/"q/#”/¸/*Á/Yì/UF0-œ0"Ê0,í0!1#<1'`1-ˆ1-¶1(ä1- 2.;20j2,›2&È2&ï2*3A38R36‹37Â3ú3þ3!494/Q454·4$×4$ü4 !5+5Y<5-–55Ä5›ú5–8*®:BÙ:;–%;/¼<0ì<)=«G=0ó=$>$B>g>‡„>2 @?@C@0J@{@@¨@È@3ß@*A$>ABcA¦AÃAÖA>ÝAB\8B\•B;òB!.C PC]C+oC›C*´C5ßCD-DIDeD5~D>´D@óD4E IE#WE{E'›E+ÃEïE%F%+F!QF(sF+œFÈFÛF/òF-"G3PG0„GDµG+úG/&HEVH5œHÒH#ìH;ILIiI%~I¤I¬I1ÀIòIgJ nJ$JK´JIK"JK(mK%–K7¼K4ôK4)L1^L3L<ÄL!Mf#MaŠMaìMfNNµNÊNäN˜r UKve•\†z:ZV™NŠƒ 'kp"“…3 -.x‰PE|SFt,‘#‹258=m?]YC$h›6„’O7w&”I uRs€qŽ![L*_yA+i‚X0o`—Bœ T9H@ŒW‡d~/aj%M{(D;–^šc4f> Jb<n1Gˆg)lQ} Execution times (seconds) Operation modes: -h, --help display this help and exit -V, --version output version information and exit --print-localedir output directory containing locale-dependent data --print-datadir output directory containing skeletons and XSLT -y, --yacc emulate POSIX Yacc -W, --warnings[=CATEGORY] report the warnings falling in CATEGORY Report bugs to <%s>. Conflict between rule %d and token %s resolved as an error Conflict between rule %d and token %s resolved as reduce Conflict between rule %d and token %s resolved as shift TOTAL : on left: on right: type %d is %s $$ for the midrule at $%d of `%s' has no declared type$$ of `%s' has no declared type$%d of `%s' has no declared type$default%%expect-rr applies only to GLR parsers%d nonterminal useless in grammar%d nonterminals useless in grammar%d rule useless in grammar%d rules useless in grammar%s `%s' redefined%s affects only GLR parsers%s must be followed by positive number%s redeclaration for %s%s redeclaration for <%s>%s: invalid option -- '%c' %s: option '%c%s' doesn't allow an argument %s: option '%s' is ambiguous %s: option '%s' requires an argument %s: option '--%s' doesn't allow an argument %s: option '-W %s' doesn't allow an argument %s: option '-W %s' is ambiguous %s: option requires an argument -- '%c' %s: unrecognized option '%c%s' %s: unrecognized option '--%s' %u bitset_allocs, %u freed (%.2f%%). %u bitset_lists %u bitset_resets, %u cached (%.2f%%) %u bitset_sets, %u cached (%.2f%%) %u bitset_tests, %u cached (%.2f%%) 'Accumulated runs = %u Bad stats file size. Bitset statistics: Copyright (C) %d Free Software Foundation, Inc. Could not open stats file for writing.Could not read stats file.Could not write stats file.Generate LALR(1) and GLR parsers. GrammarI/O errorMandatory arguments to long options are mandatory for short options too. Nonterminals useless in grammarNonterminals, with rules where they appearOutput: --defines[=FILE] also produce a header file -d likewise but cannot specify FILE (for POSIX Yacc) -r, --report=THINGS also produce details on the automaton --report-file=FILE write report to FILE -v, --verbose same as `--report=state' -b, --file-prefix=PREFIX specify a PREFIX for output files -o, --output=FILE leave output to FILE -g, --graph[=FILE] also output a graph of the automaton -x, --xml[=FILE] also output an XML report of the automaton (the XML schema is experimental) Parser: -L, --language=LANGUAGE specify the output programming language (this is an experimental feature) -S, --skeleton=FILE specify the skeleton to use -t, --debug instrument the parser for debugging --locations enable locations computation -p, --name-prefix=PREFIX prepend PREFIX to the external symbols -l, --no-lines don't generate `#line' directives -k, --token-table include a table of token names Rules useless in grammarRules useless in parser due to conflictsState %d THINGS is a list of comma separated words that can include: `state' describe the states `itemset' complete the core item sets with their closure `lookahead' explicitly associate lookahead tokens to items `solved' describe shift/reduce conflicts solving `all' include all the above information `none' disable the report Terminals unused in grammarTerminals, with rules where they appearThe same is true for optional arguments. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Try `%s --help' for more information. Unknown system errorUsage: %s [OPTION]... FILE Valid arguments are:Warning categories include: `midrule-values' unset or unused midrule values `yacc' incompatibilities with POSIX YACC `all' all the warnings `no-CATEGORY' turn off warnings in CATEGORY `none' turn off all the warnings `error' treat warnings as errors Written by Robert Corbett and Richard Stallman. `acceptambiguous argument %s for %sbison (GNU Bison) %scannot close filecannot open file `%s'column number overflowconflicting outputs to file %sconflicts: %d reduce/reduce conflicts: %d shift/reduce conflicts: %d shift/reduce, %d reduce/reduce count log histogram density histogram emptyempty rule for typed nonterminal, and no actionerror (nonassociative) expected %d reduce/reduce conflictexpected %d reduce/reduce conflictsexpected %d shift/reduce conflictexpected %d shift/reduce conflictsexplicit type given in untyped grammarextra operand `%s'fatal errorgo to state %d integer out of range: %sinvalid $ value: $%dinvalid argument %s for %sinvalid character after \-escape: %sinvalid character: %sinvalid directive: %sinvalid language `%s'invalid null characterinvalid number after \-escape: %sinvalid value for %%define Boolean variable `%s'invalid value for %%define variable `%s': `%s'line number overflowmemory exhaustedmissing `%s' at end of filemissing `%s' at end of linemissing identifier in parameter declarationmissing operand after `%s'multiple %s declarationsmultiple language declarations are invalidmultiple skeleton declarations are invalidno rules in the input grammarnonterminal useless in grammar: %sonly one %s allowed per ruleprevious declarationprevious definitionredeclaration for default tagged %%destructorredeclaration for default tagged %%printerredeclaration for default tagless %%destructorredeclaration for default tagless %%printerredefining user token number of %sreduce using rule %d (%s)refusing to overwrite the input file %sresult type clash on merge function `%s': <%s> != <%s>rule given for %s, which is a tokenrule is too longrule useless in grammarrule useless in parser due to conflictsshift, and go to state %d size log histogram start symbol %s does not derive any sentencestate %dstray `$'stray `,' treated as white spacestray `@'symbol %s is used, but is not defined as a token and has no rulessymbol %s redeclaredsymbol %s redefinedsymbol `%s' given more than one literal stringsymbol `%s' used more than once as a literal stringthe start symbol %s is a tokenthe start symbol %s is undefinedtime in %s: %ld.%06ld (%ld%%) token for %%prec is not defined: %stokens %s and %s both assigned number %dtoo few arguments for %s directive in skeletontoo many arguments for %s directive in skeletontoo many symbols in input grammar (limit is %d)type clash on default action: <%s> != <%s>unclosed %s directive in skeletonundefined %%define variable `%s' passed to muscle_percent_define_check_valuesundefined %%define variable `%s' passed to muscle_percent_define_flag_ifundefined %%define variable `%s' passed to muscle_percent_define_get_locundefined %%define variable `%s' passed to muscle_percent_define_get_synclineunset value: $$unused value: $%dwarningProject-Id-Version: bison 2.4.1b Report-Msgid-Bugs-To: bug-bison@gnu.org POT-Creation-Date: 2010-03-20 13:15-0400 PO-Revision-Date: 2010-02-24 18:25+0200 Last-Translator: Jorma Karvonen Language-Team: Finnish MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); X-Poedit-Bookmarks: 136,-1,-1,-1,-1,-1,-1,-1,-1,-1 Suoritusajat (sekunteja) Toimintotilat: -h, --help näytä tämä opaste ja poistu -V, --version tulosta versiotiedot ja poistu --print-localedir tulostehakemisto, joka sisältää maa-asetuksesta riippuvaa dataa --print-datadir tulostehakemisto, joka sisältää rungot ja XSLT-koodin -y, --yacc matki POSIX Yacc -ohjelmaa -W, --warnings=[KATEGORIA] raportoi tähän KATEGORIAan kuuluvat varoitukset Ilmoita virheistä (englanniksi) osoitteeseen <%s>. Ilmoita käännösvirheistä osoitteeseen . Säännön %d ja merkkisymbolin %s välinen ristiriita on ratkaistu virheenä Säännön %d ja merkkisymbolin %s välinen ristiriita on ratkaistu supistamisena Säännön %d ja merkkisymbolin %s välinen ristiriita on ratkaistu siirtona YHTEENSÄ : vasemmalla: oikealla: tyyppi %d on %s $$ midrule-lohkolle osoitteessa $%d/â€%s†ei ole esiteltyä tyyppiä$$/â€%s†ei ole esitelty tyyppi$%d/â€%s†ei ole esitelty tyyppi$default%%expect-rr soveltuu vain GLR-jäsentimiin%d ei-pääte on hyödytön kieliopissa%d ei-päätettä ovat hyödyttömiä kieliopissa%d sääntö on hyödytön kieliopissa%d sääntöä ovat hyödyttömiä kieliopissasymboli %s â€%s†on määritelty uudelleen%s vaikuttaa vain GLR-jäsentimiinkohdetta %s on seurattava postiivinen numero%s uudelleenesittely kohteelle %s%s uudelleenesittely kohteelle <%s>%s: virheellinen valitsin — ’%c’ %s: valitsin ’%c%s’ ei salli argumenttia %s: valitsin ’%s’ ei ole yksiselitteinen %s: valitsin ’%s’ vaatii argumentin %s: valitsin ’--%s’ ei salli argumenttia %s: valitsin ’-W %s’ ei salli argumenttia %s: valitsin ’-W %s’ ei ole yksiselitteinen %s: valitsin vaatii argumentin — ’%c’ %s: tunnistamaton valitsin ’%c%s’ %s: tunnistamaton valitsin ’--%s’ %u bitset_allocs, %u vapautettu (%.2f%%). %u bitset_lists %u bitset_resets, %u tallennettu välimuistiin (%.2f%%) %u bitset_sets, %u tallennettu välimuistiin (%.2f%%) %u bitset_tests, %u tallennettu välimuistiin (%.2f%%) â€Kumuloituneet ajot = %u Virheellinen stats-tiedostokoko. Bittivektoritilastot: Copyright © %d Free Software Foundation, Inc. Ei voitu avata stats-tiedostoa kirjoittamista varten.Ei voitu lukea stats-tiedostoa.Ei voitu kirjoittaa stats-tiedostoa.Tuota LALR(1) ja GLR -jäsentimet. KielioppiSiirräntävirhePakolliset argumentit pitkille valitsimille ovat pakollisia myös lyhyille valitsimille. Ei-päätteet ovat hyödyttömiä kieliopissaEi-päätteet, säännöillä missä niitä tarvitaanTuloste: --defines[=TIEDOSTO] tuota myös otsaketiedosto -d samoin, mutta ei voi määritellä TIEDOSTOa (POSIX Yacc -yhteensopivuus) -r, --report=THINGS tuota myös yksityiskohdat automaatissa --report-file=TIEDOSTO kirjoita raportti TIEDOSTOon -v, --verbose sama kuin â€--report=state†-b, --file-prefix=ETULIITE määrittele ETULIITE tulostetiedostoille -o, --output=TIEDOSTO jätä tuloste TIEDOSTOon -g, --graph[=TIEDOSTO] tulosta myös automaatin kaavio -x, --xml[=TIEDOSTO] tulosta myös automaatin XML-raportti (XML-skeema on kokeellinen) Jäsennin: -L, --language=KIELI määrittele tulosteohjelmointikieli (tämä on kokeellinen ominaisuus) -S, --skeleton=TIEDOSTO määrittele käytettävä runko -t, --debug lisää jäsennin vianjäljitykseen --locations ota käyttöön paikkojen laskenta -p, --name-prefix=ETULIITE lisää ETULIITE ulkoisiin symboleihin -l, --no-lines älä tuota â€#lineâ€-direktiivejä -k, --token-table sisällytä merkkisymbolinimien taulu Säännöt ovat hyödyttömiä kieliopissaSäännöt ovat hyödyttömiä jäsentimessä ristiriitojen vuoksiTila %d THINGS on pilkuilla eroteltu luettelo, joka voi sisältää: `state' kuvaa tilat `itemset' täydentää ydinalkiojoukot niiden sulkeumalla `lookahead' eksplisiittisesti liittää ennakointimerkkisymbolit alkioihin `solved' kuvailee siirto/supistaminen -ristiriitojen ratkaisemisen `all' sisältää kaikki yllä mainitut tiedot `none' poistaa raportoinnin Päätteet ovat käyttämättömiä kieliopissaPäätteet, säännöillä missä niin tarvitaanSama pätee valinnaisille argumenteille. Tämä on vapaa ohjelmisto: katso lähdekoodista kopiointiehdot. Ohjelmalle EI OLE MITÄÄN TAKUUTA; ei edes KAUPPAKELPOISUUDELLE tai SOPIVUUDELLE TIETTYYN TARKOITUKSEEN. Pyydä lisätietoja komennolla â€%s --helpâ€. Tuntematon järjestelmävirheKäyttö: %s [VALITSIN]... TIEDOSTO Mahdolliset argumentit ovat:Varoituskategoriat sisältävät: `midrule-values' asettaa ja poistaa midrule-arvoja `yacc' yhteensopimattomuudet POSIX YACC -ohjelman kanssa `all' kaikki varoitukset `no-CATEGORY' käännä pois päältä kaikki varoitukset kategoriassa CATEGORY `none' käännä pois kaikki varoitukset `error' käsittele varoituksia virheinä Kirjoittajat: Robert Corbett ja Richard Stallman. â€acceptei-yksiselitteinen argumentti %s valitsimelle %sbison (GNU Bison) %stiedostoa ei voi sulkeaei voi avata tiedostoa â€%sâ€sarakenumeron ylivuotokeskenään ristiriitaisia tulosteita tiedostoon %sristiriidat: %d supistaminen/supistaminen ristiriidat: %d siirto/supistaminen ristiriidat: %d siirto/supistaminen, %d supistaminen/supistaminen lukumäärälokihistogrammi tiheyshistogrammi tyhjätyhjä sääntö tyypitetylle ei-päätteelle, ja ei toimintoavirhe (ei-assosiatiivinen) odotettiin %d siirto/supistaminen -ristiriitaodotettiin %d siirto/supistaminen -ristiriitaaodotettiin %d siirto/supistaminen -ristiriitaodotettiin %d siirto/supistaminen -ristiriitaaeksplisiittinen tyyppi annettu tyypittömässä kieliopissaylimääräinen operandi â€%sâ€vakava virhesiirry tilaan %d kokonaisluku on lukualueen ulkopuolella: %svirheellinen $-arvo: $%dvirheellinen argumentti %s valitsimelle %svirheellinen merkki \-koodinvaihtomerkin jälkeen: %svirheellinen merkki: %svirheellinen direktiivi: %svirheellinen kieli â€%sâ€virheellinen null-merkkivirheellinen numero \-koodinvaihtomerkin jälkeen: %svirheellinen arvo kohteelle %%define Boolean muuttuja â€%sâ€virheellinen arvo kohteelle %%define-muuttuja â€%sâ€: â€%sâ€rivinumeron ylivuotomuisti loppuipuuttuva â€%s†tiedoston lopussapuuttuva â€%s†rivin lopussapuuttuva tunniste parametriesittelyssäpuuttuva operandi kohteen â€%s†jälkeenuseita %s esittelyjämonikieliesittelyt ovat virheellisiämonirunkoesittelyt ovat virheellisiäei sääntöjä syötekieliopissaei-pääte on hyödytön kieliopissa: %svain yksi %s on sallittu sääntöä kohdenedellinen esittelyedellinen määrittelyuudelleenesittely oletusmerkitylle %%destructoruudelleenesittely oletus-merkitylle %%printeruudelleenesittely oletus-ei-merkitylle %%destructoruudelleenesittely oletus-ei-merkitylle %%printermääritellään uudelleen kohteen %s käyttäjämerkkisymbolinumerosupistaminen käyttäen sääntöä %d (%s)kieltäydytään korvaamasta syötetiedostoa %stulostyyppien yhteentörmäys merge-funktiossa â€%sâ€: <%s> != <%s>sääntö annettu kohteelle %s, joka on merkkisymbolisääntö on liian pitkäsääntö on hyödytön kieliopissasääntö on hyödytön jäsentimessä ristiriitojen vuoksisiirto, ja siirry tilaan %d kokolokihistogrammi aloitussymboli %s ei johda lauseeseentila %dyksinäinen â€$â€yksinäinen â€,†käsitellään tyhjemerkkinäyksinäinen â€@â€symbolia %s käytetään, mutta sitä ei ole määritelty merkkisymbolina eikä sillä ole sääntöjäsymboli %s on esitelty uudelleensymboli %s on määritelty uudelleensymboli â€%s†on annettu useammassa kuin yhdessä literaalimerkkijonossasymbolia â€%s†on käytetty useammin kuin kerran literaalimerkkijononaaloitussymboli %s on merkkisymbolialoitussymboli %s on määrittelemätönaika kohteessa %s: %ld.%06ld (%ld%%) merkkisymbolia kohteelle %%prec ei ole määritelty: %smerkkisymboleille %s ja %s on annettu sama numero %dliian vähän argumentteja %s-direktiiville rungossaliian monta argumenttia %s-direktiiville rungossaliian monta symbolia syötekieliopissa (raja on %d)tyyppien törmäys vastakkain oletustoiminassa: <%s> != <%s>sulkematon %s-direktiivi rungossamäärittelemätön %%define-muuttuja â€%s†välitetty kohteelle muscle_percent_define_check_valuesmäärittelemätön %%define-muuttuja â€%s†välitetty kohteelle muscle_percent_define_flag_ifmäärittelemätön %%define-muuttuja â€%s†välitetty kohteelle muscle_percent_define_get_locmäärittelemätön %%define-muuttuja â€%s†välitetty kohteelle muscle_percent_define_get_synclineasettamaton arvo: $$käyttämätön arvo: $%dvaroitus07070100062cd8000041ed0000000000000000000000044c5138f900000000000000b600010002ffffffffffffffff0000001b00000000root/usr/local/share/bison07070100062ce2000081a40000000000000000000000014c5138c800001fd2000000b600010002ffffffffffffffff0000002300000000root/usr/local/share/bison/java.m4 -*- Autoconf -*- # Java language support for Bison # Copyright (C) 2007-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # b4_comment(TEXT) # ---------------- m4_define([b4_comment], [/* m4_bpatsubst([$1], [ ], [ ]) */]) # b4_list2(LIST1, LIST2) # -------------------------- # Join two lists with a comma if necessary. m4_define([b4_list2], [$1[]m4_ifval(m4_quote($1), [m4_ifval(m4_quote($2), [[, ]])])[]$2]) # b4_percent_define_get3(DEF, PRE, POST, NOT) # ------------------------------------------- # Expand to the value of DEF surrounded by PRE and POST if it's %define'ed, # otherwise NOT. m4_define([b4_percent_define_get3], [m4_ifval(m4_quote(b4_percent_define_get([$1])), [$2[]b4_percent_define_get([$1])[]$3], [$4])]) # b4_flag_value(BOOLEAN-FLAG) # --------------------------- m4_define([b4_flag_value], [b4_flag_if([$1], [true], [false])]) # b4_public_if(TRUE, FALSE) # ------------------------- b4_percent_define_default([[public]], [[false]]) m4_define([b4_public_if], [b4_percent_define_flag_if([public], [$1], [$2])]) # b4_abstract_if(TRUE, FALSE) # --------------------------- b4_percent_define_default([[abstract]], [[false]]) m4_define([b4_abstract_if], [b4_percent_define_flag_if([abstract], [$1], [$2])]) # b4_final_if(TRUE, FALSE) # --------------------------- b4_percent_define_default([[final]], [[false]]) m4_define([b4_final_if], [b4_percent_define_flag_if([final], [$1], [$2])]) # b4_strictfp_if(TRUE, FALSE) # --------------------------- b4_percent_define_default([[strictfp]], [[false]]) m4_define([b4_strictfp_if], [b4_percent_define_flag_if([strictfp], [$1], [$2])]) # b4_lexer_if(TRUE, FALSE) # ------------------------ m4_define([b4_lexer_if], [b4_percent_code_ifdef([[lexer]], [$1], [$2])]) # b4_identification # ----------------- m4_define([b4_identification], [ /** Version number for the Bison executable that generated this parser. */ public static final String bisonVersion = "b4_version"; /** Name of the skeleton that generated this parser. */ public static final String bisonSkeleton = b4_skeleton; ]) ## ------------ ## ## Data types. ## ## ------------ ## # b4_int_type(MIN, MAX) # --------------------- # Return the smallest int type able to handle numbers ranging from # MIN to MAX (included). m4_define([b4_int_type], [m4_if(b4_ints_in($@, [-128], [127]), [1], [byte], b4_ints_in($@, [-32768], [32767]), [1], [short], [int])]) # b4_int_type_for(NAME) # --------------------- # Return the smallest int type able to handle numbers ranging from # `NAME_min' to `NAME_max' (included). m4_define([b4_int_type_for], [b4_int_type($1_min, $1_max)]) # b4_null # ------- m4_define([b4_null], [null]) ## ------------------------- ## ## Assigning token numbers. ## ## ------------------------- ## # b4_token_enum(TOKEN-NAME, TOKEN-NUMBER) # --------------------------------------- # Output the definition of this token as an enum. m4_define([b4_token_enum], [ /** Token number, to be returned by the scanner. */ public static final int $1 = $2; ]) # b4_token_enums(LIST-OF-PAIRS-TOKEN-NAME-TOKEN-NUMBER) # ----------------------------------------------------- # Output the definition of the tokens (if there are) as enums. m4_define([b4_token_enums], [m4_if([$#$1], [1], [], [/* Tokens. */ m4_map([b4_token_enum], [$@])]) ]) # b4-case(ID, CODE) # ----------------- # We need to fool Java's stupid unreachable code detection. m4_define([b4_case], [ case $1: if (yyn == $1) $2; break; ]) ## ---------------- ## ## Default values. ## ## ---------------- ## m4_define([b4_yystype], [b4_percent_define_get([[stype]])]) b4_percent_define_default([[stype]], [[Object]])]) # %name-prefix m4_define_default([b4_prefix], [[YY]]) b4_percent_define_default([[parser_class_name]], [b4_prefix[]Parser])]) m4_define([b4_parser_class_name], [b4_percent_define_get([[parser_class_name]])]) b4_percent_define_default([[lex_throws]], [[java.io.IOException]])]) m4_define([b4_lex_throws], [b4_percent_define_get([[lex_throws]])]) b4_percent_define_default([[throws]], [])]) m4_define([b4_throws], [b4_percent_define_get([[throws]])]) b4_percent_define_default([[location_type]], [Location])]) m4_define([b4_location_type], [b4_percent_define_get([[location_type]])]) b4_percent_define_default([[position_type]], [Position])]) m4_define([b4_position_type], [b4_percent_define_get([[position_type]])]) ## ----------------- ## ## Semantic Values. ## ## ----------------- ## # b4_lhs_value([TYPE]) # -------------------- # Expansion of $$. m4_define([b4_lhs_value], [yyval]) # b4_rhs_value(RULE-LENGTH, NUM, [TYPE]) # -------------------------------------- # Expansion of $NUM, where the current rule has RULE-LENGTH # symbols on RHS. # # In this simple implementation, %token and %type have class names # between the angle brackets. m4_define([b4_rhs_value], [(m4_ifval($3, [($3)])[](yystack.valueAt ($1-($2))))]) # b4_lhs_location() # ----------------- # Expansion of @$. m4_define([b4_lhs_location], [(yyloc)]) # b4_rhs_location(RULE-LENGTH, NUM) # --------------------------------- # Expansion of @NUM, where the current rule has RULE-LENGTH symbols # on RHS. m4_define([b4_rhs_location], [yystack.locationAt ($1-($2))]) # b4_lex_param # b4_parse_param # -------------- # If defined, b4_lex_param arrives double quoted, but below we prefer # it to be single quoted. Same for b4_parse_param. # TODO: should be in bison.m4 m4_define_default([b4_lex_param], [[]])) m4_define([b4_lex_param], b4_lex_param)) m4_define([b4_parse_param], b4_parse_param)) # b4_lex_param_decl # ------------------- # Extra formal arguments of the constructor. m4_define([b4_lex_param_decl], [m4_ifset([b4_lex_param], [b4_remove_comma([$1], b4_param_decls(b4_lex_param))], [$1])]) m4_define([b4_param_decls], [m4_map([b4_param_decl], [$@])]) m4_define([b4_param_decl], [, $1]) m4_define([b4_remove_comma], [m4_ifval(m4_quote($1), [$1, ], [])m4_shift2($@)]) # b4_parse_param_decl # ------------------- # Extra formal arguments of the constructor. m4_define([b4_parse_param_decl], [m4_ifset([b4_parse_param], [b4_remove_comma([$1], b4_param_decls(b4_parse_param))], [$1])]) # b4_lex_param_call # ------------------- # Delegating the lexer parameters to the lexer constructor. m4_define([b4_lex_param_call], [m4_ifset([b4_lex_param], [b4_remove_comma([$1], b4_param_calls(b4_lex_param))], [$1])]) m4_define([b4_param_calls], [m4_map([b4_param_call], [$@])]) m4_define([b4_param_call], [, $2]) # b4_parse_param_cons # ------------------- # Extra initialisations of the constructor. m4_define([b4_parse_param_cons], [m4_ifset([b4_parse_param], [b4_constructor_calls(b4_parse_param)])]) m4_define([b4_constructor_calls], [m4_map([b4_constructor_call], [$@])]) m4_define([b4_constructor_call], [this.$2 = $2; ]) # b4_parse_param_vars # ------------------- # Extra instance variables. m4_define([b4_parse_param_vars], [m4_ifset([b4_parse_param], [ /* User arguments. */ b4_var_decls(b4_parse_param)])]) m4_define([b4_var_decls], [m4_map_sep([b4_var_decl], [ ], [$@])]) m4_define([b4_var_decl], [ protected final $1;]) # b4_maybe_throws(THROWS) # ----------------------- # Expand to either an empty string or "throws THROWS". m4_define([b4_maybe_throws], [m4_ifval($1, [throws $1])]) 07070100062cdd000081a40000000000000000000000014c5138c800000477000000b600010002ffffffffffffffff0000002500000000root/usr/local/share/bison/c-skel.m4 -*- Autoconf -*- # C skeleton dispatching for Bison. # Copyright (C) 2006-2007, 2009-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . b4_glr_if( [m4_define([b4_used_skeleton], [b4_pkgdatadir/[glr.c]])]) b4_nondeterministic_if([m4_define([b4_used_skeleton], [b4_pkgdatadir/[glr.c]])]) m4_define_default([b4_used_skeleton], [b4_pkgdatadir/[yacc.c]]) m4_define_default([b4_skeleton], ["b4_basename(b4_used_skeleton)"]) m4_include(b4_used_skeleton) 07070100062cde000081a40000000000000000000000014c5138c80000326d000000b600010002ffffffffffffffff0000002000000000root/usr/local/share/bison/c.m4 -*- Autoconf -*- # C M4 Macros for Bison. # Copyright (C) 2002, 2004-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . ## ---------------- ## ## Identification. ## ## ---------------- ## # b4_comment(TEXT) # ---------------- m4_define([b4_comment], [/* m4_bpatsubst([$1], [ ], [ ]) */]) # b4_identification # ----------------- # Depends on individual skeletons to define b4_pure_flag, b4_push_flag, or # b4_pull_flag if they use the values of the %define variables api.pure or # api.push_pull. m4_define([b4_identification], [[/* Identify Bison output. */ #define YYBISON 1 /* Bison version. */ #define YYBISON_VERSION "]b4_version[" /* Skeleton name. */ #define YYSKELETON_NAME ]b4_skeleton[]m4_ifdef([b4_pure_flag], [[ /* Pure parsers. */ #define YYPURE ]b4_pure_flag])[]m4_ifdef([b4_push_flag], [[ /* Push parsers. */ #define YYPUSH ]b4_push_flag])[]m4_ifdef([b4_pull_flag], [[ /* Pull parsers. */ #define YYPULL ]b4_pull_flag])[ /* Using locations. */ #define YYLSP_NEEDED ]b4_locations_flag[ ]]) ## ---------------- ## ## Default values. ## ## ---------------- ## # If the %union is not named, its name is YYSTYPE. m4_define_default([b4_union_name], [YYSTYPE]) # If the %name-prefix is not given, it is yy. m4_define_default([b4_prefix], [yy]) ## ------------------------ ## ## Pure/impure interfaces. ## ## ------------------------ ## # b4_user_args # ------------ m4_define([b4_user_args], [m4_ifset([b4_parse_param], [, b4_c_args(b4_parse_param)])]) # b4_parse_param # -------------- # If defined, b4_parse_param arrives double quoted, but below we prefer # it to be single quoted. m4_define([b4_parse_param], b4_parse_param) # b4_parse_param_for(DECL, FORMAL, BODY) # --------------------------------------- # Iterate over the user parameters, binding the declaration to DECL, # the formal name to FORMAL, and evaluating the BODY. m4_define([b4_parse_param_for], [m4_foreach([$1_$2], m4_defn([b4_parse_param]), [m4_pushdef([$1], m4_unquote(m4_car($1_$2)))dnl m4_pushdef([$2], m4_shift($1_$2))dnl $3[]dnl m4_popdef([$2])dnl m4_popdef([$1])dnl ])]) # b4_parse_param_use # ------------------ # `YYUSE' all the parse-params. m4_define([b4_parse_param_use], [b4_parse_param_for([Decl], [Formal], [ YYUSE (Formal); ])dnl ]) ## ------------ ## ## Data Types. ## ## ------------ ## # b4_int_type(MIN, MAX) # --------------------- # Return the smallest int type able to handle numbers ranging from # MIN to MAX (included). m4_define([b4_int_type], [m4_if(b4_ints_in($@, [0], [255]), [1], [unsigned char], b4_ints_in($@, [-128], [127]), [1], [signed char], b4_ints_in($@, [0], [65535]), [1], [unsigned short int], b4_ints_in($@, [-32768], [32767]), [1], [short int], m4_eval([0 <= $1]), [1], [unsigned int], [int])]) # b4_int_type_for(NAME) # --------------------- # Return the smallest int type able to handle numbers ranging from # `NAME_min' to `NAME_max' (included). m4_define([b4_int_type_for], [b4_int_type($1_min, $1_max)]) ## ---------## ## Values. ## ## ---------## # b4_null --------- # Return a null pointer constant. NULL infringes on the user name # space in C, so use 0 rather than NULL. m4_define([b4_null], [0]) ## ------------------------- ## ## Assigning token numbers. ## ## ------------------------- ## # b4_token_define(TOKEN-NAME, TOKEN-NUMBER) # ----------------------------------------- # Output the definition of this token as #define. m4_define([b4_token_define], [#define $1 $2 ]) # b4_token_defines(LIST-OF-PAIRS-TOKEN-NAME-TOKEN-NUMBER) # ------------------------------------------------------- # Output the definition of the tokens (if there are) as #defines. m4_define([b4_token_defines], [m4_if([$#$1], [1], [], [/* Tokens. */ m4_map([b4_token_define], [$@])]) ]) # b4_token_enum(TOKEN-NAME, TOKEN-NUMBER) # --------------------------------------- # Output the definition of this token as an enum. m4_define([b4_token_enum], [$1 = $2]) # b4_token_enums(LIST-OF-PAIRS-TOKEN-NAME-TOKEN-NUMBER) # ----------------------------------------------------- # Output the definition of the tokens (if there are) as enums. m4_define([b4_token_enums], [m4_if([$#$1], [1], [], [/* Tokens. */ #ifndef YYTOKENTYPE # define YYTOKENTYPE /* Put the tokens into the symbol table, so that GDB and other debuggers know about them. */ enum yytokentype { m4_map_sep([ b4_token_enum], [, ], [$@]) }; #endif ])]) # b4_token_enums_defines(LIST-OF-PAIRS-TOKEN-NAME-TOKEN-NUMBER) # ------------------------------------------------------------- # Output the definition of the tokens (if there are any) as enums and, if POSIX # Yacc is enabled, as #defines. m4_define([b4_token_enums_defines], [b4_token_enums($@)b4_yacc_if([b4_token_defines($@)], []) ]) ## --------------------------------------------- ## ## Defining C functions in both K&R and ANSI-C. ## ## --------------------------------------------- ## # b4_modern_c # ----------- # A predicate useful in #if to determine whether C is ancient or modern. # # If __STDC__ is defined, the compiler is modern. IBM xlc 7.0 when run # as 'cc' doesn't define __STDC__ (or __STDC_VERSION__) for pedantic # reasons, but it defines __C99__FUNC__ so check that as well. # Microsoft C normally doesn't define these macros, but it defines _MSC_VER. # Consider a C++ compiler to be modern if it defines __cplusplus. # m4_define([b4_c_modern], [[(defined __STDC__ || defined __C99__FUNC__ \ || defined __cplusplus || defined _MSC_VER)]]) # b4_c_function_def(NAME, RETURN-VALUE, [DECL1, NAME1], ...) # ---------------------------------------------------------- # Declare the function NAME. m4_define([b4_c_function_def], [#if b4_c_modern b4_c_ansi_function_def($@) #else $2 $1 (b4_c_knr_formal_names(m4_shift2($@))) b4_c_knr_formal_decls(m4_shift2($@)) #endif[]dnl ]) # b4_c_ansi_function_def(NAME, RETURN-VALUE, [DECL1, NAME1], ...) # --------------------------------------------------------------- # Declare the function NAME in ANSI. m4_define([b4_c_ansi_function_def], [$2 $1 (b4_c_ansi_formals(m4_shift2($@)))[]dnl ]) # b4_c_ansi_formals([DECL1, NAME1], ...) # -------------------------------------- # Output the arguments ANSI-C definition. m4_define([b4_c_ansi_formals], [m4_if([$#], [0], [void], [$#$1], [1], [void], [m4_map_sep([b4_c_ansi_formal], [, ], [$@])])]) m4_define([b4_c_ansi_formal], [$1]) # b4_c_knr_formal_names([DECL1, NAME1], ...) # ------------------------------------------ # Output the argument names. m4_define([b4_c_knr_formal_names], [m4_map_sep([b4_c_knr_formal_name], [, ], [$@])]) m4_define([b4_c_knr_formal_name], [$2]) # b4_c_knr_formal_decls([DECL1, NAME1], ...) # ------------------------------------------ # Output the K&R argument declarations. m4_define([b4_c_knr_formal_decls], [m4_map_sep([b4_c_knr_formal_decl], [ ], [$@])]) m4_define([b4_c_knr_formal_decl], [ $1;]) ## ------------------------------------------------------------ ## ## Declaring (prototyping) C functions in both K&R and ANSI-C. ## ## ------------------------------------------------------------ ## # b4_c_function_decl(NAME, RETURN-VALUE, [DECL1, NAME1], ...) # ----------------------------------------------------------- # Declare the function NAME. m4_define([b4_c_function_decl], [#if defined __STDC__ || defined __cplusplus b4_c_ansi_function_decl($@) #else $2 $1 (); #endif[]dnl ]) # b4_c_ansi_function_decl(NAME, RETURN-VALUE, [DECL1, NAME1], ...) # ---------------------------------------------------------------- # Declare the function NAME. m4_define([b4_c_ansi_function_decl], [$2 $1 (b4_c_ansi_formals(m4_shift2($@)));[]dnl ]) ## --------------------- ## ## Calling C functions. ## ## --------------------- ## # b4_c_function_call(NAME, RETURN-VALUE, [DECL1, NAME1], ...) # ----------------------------------------------------------- # Call the function NAME with arguments NAME1, NAME2 etc. m4_define([b4_c_function_call], [$1 (b4_c_args(m4_shift2($@)))[]dnl ]) # b4_c_args([DECL1, NAME1], ...) # ------------------------------ # Output the arguments NAME1, NAME2... m4_define([b4_c_args], [m4_map_sep([b4_c_arg], [, ], [$@])]) m4_define([b4_c_arg], [$2]) ## ----------- ## ## Synclines. ## ## ----------- ## # b4_sync_start(LINE, FILE) # ----------------------- m4_define([b4_sync_start], [[#]line $1 $2]) ## -------------- ## ## User actions. ## ## -------------- ## # b4_case(LABEL, STATEMENTS) # -------------------------- m4_define([b4_case], [ case $1: $2 break;]) # b4_symbol_actions(FILENAME, LINENO, # SYMBOL-TAG, SYMBOL-NUM, # SYMBOL-ACTION, SYMBOL-TYPENAME) # ------------------------------------------------- m4_define([b4_symbol_actions], [m4_pushdef([b4_dollar_dollar], [m4_ifval([$6], [(yyvaluep->$6)], [(*yyvaluep)])])dnl m4_pushdef([b4_at_dollar], [(*yylocationp)])dnl case $4: /* $3 */ b4_syncline([$2], [$1]) $5; b4_syncline([@oline@], [@ofile@]) break; m4_popdef([b4_at_dollar])dnl m4_popdef([b4_dollar_dollar])dnl ]) # b4_yydestruct_generate(FUNCTION-DECLARATOR) # ------------------------------------------- # Generate the "yydestruct" function, which declaration is issued using # FUNCTION-DECLARATOR, which may be "b4_c_ansi_function_def" for ISO C # or "b4_c_function_def" for K&R. m4_define_default([b4_yydestruct_generate], [[/*-----------------------------------------------. | Release the memory associated to this symbol. | `-----------------------------------------------*/ /*ARGSUSED*/ ]$1([yydestruct], [static void], [[const char *yymsg], [yymsg]], [[int yytype], [yytype]], [[YYSTYPE *yyvaluep], [yyvaluep]][]dnl b4_locations_if( [, [[YYLTYPE *yylocationp], [yylocationp]]])[]dnl m4_ifset([b4_parse_param], [, b4_parse_param]))[ { YYUSE (yyvaluep); ]b4_locations_if([ YYUSE (yylocationp); ])dnl b4_parse_param_use[]dnl [ if (!yymsg) yymsg = "Deleting"; YY_SYMBOL_PRINT (yymsg, yytype, yyvaluep, yylocationp); switch (yytype) { ]m4_map([b4_symbol_actions], m4_defn([b4_symbol_destructors]))[ default: break; } }]dnl ]) # b4_yy_symbol_print_generate(FUNCTION-DECLARATOR) # ------------------------------------------------ # Generate the "yy_symbol_print" function, which declaration is issued using # FUNCTION-DECLARATOR, which may be "b4_c_ansi_function_def" for ISO C # or "b4_c_function_def" for K&R. m4_define_default([b4_yy_symbol_print_generate], [[ /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ /*ARGSUSED*/ ]$1([yy_symbol_value_print], [static void], [[FILE *yyoutput], [yyoutput]], [[int yytype], [yytype]], [[YYSTYPE const * const yyvaluep], [yyvaluep]][]dnl b4_locations_if([, [[YYLTYPE const * const yylocationp], [yylocationp]]])[]dnl m4_ifset([b4_parse_param], [, b4_parse_param]))[ { if (!yyvaluep) return; ]b4_locations_if([ YYUSE (yylocationp); ])dnl b4_parse_param_use[]dnl [# ifdef YYPRINT if (yytype < YYNTOKENS) YYPRINT (yyoutput, yytoknum[yytype], *yyvaluep); # else YYUSE (yyoutput); # endif switch (yytype) { ]m4_map([b4_symbol_actions], m4_defn([b4_symbol_printers]))dnl [ default: break; } } /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ ]$1([yy_symbol_print], [static void], [[FILE *yyoutput], [yyoutput]], [[int yytype], [yytype]], [[YYSTYPE const * const yyvaluep], [yyvaluep]][]dnl b4_locations_if([, [[YYLTYPE const * const yylocationp], [yylocationp]]])[]dnl m4_ifset([b4_parse_param], [, b4_parse_param]))[ { if (yytype < YYNTOKENS) YYFPRINTF (yyoutput, "token %s (", yytname[yytype]); else YYFPRINTF (yyoutput, "nterm %s (", yytname[yytype]); ]b4_locations_if([ YY_LOCATION_PRINT (yyoutput, *yylocationp); YYFPRINTF (yyoutput, ": "); ])dnl [ yy_symbol_value_print (yyoutput, yytype, yyvaluep]dnl b4_locations_if([, yylocationp])[]b4_user_args[); YYFPRINTF (yyoutput, ")"); }]dnl ]) 07070100062cdc000081a40000000000000000000000014c5138c80000177e000000b600010002ffffffffffffffff0000002200000000root/usr/local/share/bison/c++.m4 -*- Autoconf -*- # C++ skeleton for Bison # Copyright (C) 2002-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . m4_include(b4_pkgdatadir/[c.m4]) ## ---------------- ## ## Default values. ## ## ---------------- ## # Default parser class name. b4_percent_define_default([[parser_class_name]], [[parser]]) b4_percent_define_default([[location_type]], [[location]]) b4_percent_define_default([[filename_type]], [[std::string]]) b4_percent_define_default([[namespace]], m4_defn([b4_prefix])) b4_percent_define_default([[global_tokens_and_yystype]], [[false]]) b4_percent_define_default([[define_location_comparison]], [m4_if(b4_percent_define_get([[filename_type]]), [std::string], [[true]], [[false]])]) ## ----------- ## ## Namespace. ## ## ----------- ## m4_define([b4_namespace_ref], [b4_percent_define_get([[namespace]])]) # Don't permit an empty b4_namespace_ref. Any `::parser::foo' appended to it # would compile as an absolute reference with `parser' in the global namespace. # b4_namespace_open would open an anonymous namespace and thus establish # internal linkage. This would compile. However, it's cryptic, and internal # linkage for the parser would be specified in all translation units that # include the header, which is always generated. If we ever need to permit # internal linkage somehow, surely we can find a cleaner approach. m4_if(m4_bregexp(b4_namespace_ref, [^[ ]*$]), [-1], [], [b4_complain_at(b4_percent_define_get_loc([[namespace]]), [[namespace reference is empty]])]) # Instead of assuming the C++ compiler will do it, Bison should reject any # invalid b4_namepsace_ref that would be converted to a valid # b4_namespace_open. The problem is that Bison doesn't always output # b4_namespace_ref to uncommented code but should reserve the ability to do so # in future releases without risking breaking any existing user grammars. # Specifically, don't allow empty names as b4_namespace_open would just convert # those into anonymous namespaces, and that might tempt some users. m4_if(m4_bregexp(b4_namespace_ref, [::[ ]*::]), [-1], [], [b4_complain_at(b4_percent_define_get_loc([[namespace]]), [[namespace reference has consecutive "::"]])]) m4_if(m4_bregexp(b4_namespace_ref, [::[ ]*$]), [-1], [], [b4_complain_at(b4_percent_define_get_loc([[namespace]]), [[namespace reference has a trailing "::"]])]) m4_define([b4_namespace_open], [b4_user_code([b4_percent_define_get_syncline([[namespace]]) [namespace ]m4_bpatsubst(m4_dquote(m4_bpatsubst(m4_dquote(b4_namespace_ref), [^\(.\)[ ]*::], [\1])), [::], [ { namespace ])[ {]])]) m4_define([b4_namespace_close], [b4_user_code([b4_percent_define_get_syncline([[namespace]]) m4_bpatsubst(m4_dquote(m4_bpatsubst(m4_dquote(b4_namespace_ref[ ]), [^\(.\)[ ]*\(::\)?\([^][:]\|:[^][:]\)*], [\1])), [::\([^][:]\|:[^][:]\)*], [} ])[} // ]b4_namespace_ref])]) # b4_token_enums(LIST-OF-PAIRS-TOKEN-NAME-TOKEN-NUMBER) # ----------------------------------------------------- # Output the definition of the tokens as enums. m4_define([b4_token_enums], [/* Tokens. */ enum yytokentype { m4_map_sep([ b4_token_enum], [, ], [$@]) }; ]) ## ----------------- ## ## Semantic Values. ## ## ----------------- ## # b4_lhs_value([TYPE]) # -------------------- # Expansion of $$. m4_define([b4_lhs_value], [(yyval[]m4_ifval([$1], [.$1]))]) # b4_rhs_value(RULE-LENGTH, NUM, [TYPE]) # -------------------------------------- # Expansion of $NUM, where the current rule has RULE-LENGTH # symbols on RHS. m4_define([b4_rhs_value], [(yysemantic_stack_@{($1) - ($2)@}m4_ifval([$3], [.$3]))]) # b4_lhs_location() # ----------------- # Expansion of @$. m4_define([b4_lhs_location], [(yyloc)]) # b4_rhs_location(RULE-LENGTH, NUM) # --------------------------------- # Expansion of @NUM, where the current rule has RULE-LENGTH symbols # on RHS. m4_define([b4_rhs_location], [(yylocation_stack_@{($1) - ($2)@})]) # b4_parse_param_decl # ------------------- # Extra formal arguments of the constructor. # Change the parameter names from "foo" into "foo_yyarg", so that # there is no collision bw the user chosen attribute name, and the # argument name in the constructor. m4_define([b4_parse_param_decl], [m4_ifset([b4_parse_param], [m4_map_sep([b4_parse_param_decl_1], [, ], [b4_parse_param])])]) m4_define([b4_parse_param_decl_1], [$1_yyarg]) # b4_parse_param_cons # ------------------- # Extra initialisations of the constructor. m4_define([b4_parse_param_cons], [m4_ifset([b4_parse_param], [ b4_cc_constructor_calls(b4_parse_param)])]) m4_define([b4_cc_constructor_calls], [m4_map_sep([b4_cc_constructor_call], [, ], [$@])]) m4_define([b4_cc_constructor_call], [$2 ($2_yyarg)]) # b4_parse_param_vars # ------------------- # Extra instance variables. m4_define([b4_parse_param_vars], [m4_ifset([b4_parse_param], [ /* User arguments. */ b4_cc_var_decls(b4_parse_param)])]) m4_define([b4_cc_var_decls], [m4_map_sep([b4_cc_var_decl], [ ], [$@])]) m4_define([b4_cc_var_decl], [ $1;]) 07070100062ce1000081a40000000000000000000000014c5138c80000047e000000b600010002ffffffffffffffff0000002800000000root/usr/local/share/bison/java-skel.m4 -*- Autoconf -*- # Java skeleton dispatching for Bison. # Copyright (C) 2007, 2009-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . b4_glr_if( [b4_complain([%%glr-parser not supported for Java])]) b4_nondeterministic_if([b4_complain([%%nondeterministic-parser not supported for Java])]) m4_define_default([b4_used_skeleton], [b4_pkgdatadir/[lalr1.java]]) m4_define_default([b4_skeleton], ["b4_basename(b4_used_skeleton)"]) m4_include(b4_used_skeleton) 07070100062ce4000081a40000000000000000000000014c5138c80000678d000000b600010002ffffffffffffffff0000002600000000root/usr/local/share/bison/lalr1.java# Java skeleton for Bison -*- autoconf -*- # Copyright (C) 2007-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . m4_include(b4_pkgdatadir/[java.m4]) b4_defines_if([b4_fatal([%s: %%defines does not make sense in Java], [b4_skeleton])]) m4_ifval(m4_defn([b4_symbol_destructors]), [b4_fatal([%s: %%destructor does not make sense in Java], [b4_skeleton])], []) m4_divert_push(0)dnl @output(b4_parser_file_name@)@ b4_copyright([Skeleton implementation for Bison LALR(1) parsers in Java], [2007-2010]) b4_percent_define_ifdef([package], [package b4_percent_define_get([package]); ])[/* First part of user declarations. */ ]b4_pre_prologue b4_percent_code_get([[imports]]) [/** * A Bison parser, automatically generated from ]m4_bpatsubst(b4_file_name, [^"\(.*\)"$], [\1])[. * * @@author LALR (1) parser skeleton written by Paolo Bonzini. */ ]b4_public_if([public ])dnl b4_abstract_if([abstract ])dnl b4_final_if([final ])dnl b4_strictfp_if([strictfp ])dnl [class ]b4_parser_class_name[]dnl b4_percent_define_get3([extends], [ extends ])dnl b4_percent_define_get3([implements], [ implements ])[ { ]b4_identification[ /** True if verbose error messages are enabled. */ public boolean errorVerbose = ]b4_flag_value([error_verbose]); b4_locations_if([[ /** * A class defining a pair of positions. Positions, defined by the * ]b4_position_type[ class, denote a point in the input. * Locations represent a part of the input through the beginning * and ending positions. */ public class ]b4_location_type[ { /** The first, inclusive, position in the range. */ public ]b4_position_type[ begin; /** The first position beyond the range. */ public ]b4_position_type[ end; /** * Create a ]b4_location_type[ denoting an empty range located at * a given point. * @@param loc The position at which the range is anchored. */ public ]b4_location_type[ (]b4_position_type[ loc) { this.begin = this.end = loc; } /** * Create a ]b4_location_type[ from the endpoints of the range. * @@param begin The first position included in the range. * @@param end The first position beyond the range. */ public ]b4_location_type[ (]b4_position_type[ begin, ]b4_position_type[ end) { this.begin = begin; this.end = end; } /** * Print a representation of the location. For this to be correct, * ]b4_position_type[ should override the equals * method. */ public String toString () { if (begin.equals (end)) return begin.toString (); else return begin.toString () + "-" + end.toString (); } } ]]) [ /** Token returned by the scanner to signal the end of its input. */ public static final int EOF = 0;] b4_token_enums(b4_tokens) b4_locations_if([[ private ]b4_location_type[ yylloc (YYStack rhs, int n) { if (n > 0) return new ]b4_location_type[ (rhs.locationAt (1).begin, rhs.locationAt (n).end); else return new ]b4_location_type[ (rhs.locationAt (0).end); }]])[ /** * Communication interface between the scanner and the Bison-generated * parser ]b4_parser_class_name[. */ public interface Lexer { ]b4_locations_if([[/** * Method to retrieve the beginning position of the last scanned token. * @@return the position at which the last scanned token starts. */ ]b4_position_type[ getStartPos (); /** * Method to retrieve the ending position of the last scanned token. * @@return the first position beyond the last scanned token. */ ]b4_position_type[ getEndPos ();]])[ /** * Method to retrieve the semantic value of the last scanned token. * @@return the semantic value of the last scanned token. */ ]b4_yystype[ getLVal (); /** * Entry point for the scanner. Returns the token identifier corresponding * to the next token and prepares to return the semantic value * ]b4_locations_if([and beginning/ending positions ])[of the token. * @@return the token identifier corresponding to the next token. */ int yylex () ]b4_maybe_throws([b4_lex_throws])[; /** * Entry point for error reporting. Emits an error * ]b4_locations_if([referring to the given location ])[in a user-defined way. * * ]b4_locations_if([[@@param loc The location of the element to which the * error message is related]])[ * @@param s The string for the error message. */ void yyerror (]b4_locations_if([b4_location_type[ loc, ]])[String s);] } b4_lexer_if([[private class YYLexer implements Lexer { ]b4_percent_code_get([[lexer]])[ } ]])[/** The object doing lexical analysis for us. */ private Lexer yylexer; ] b4_parse_param_vars b4_lexer_if([[ /** * Instantiates the Bison-generated parser. */ public ]b4_parser_class_name (b4_parse_param_decl([b4_lex_param_decl])[) { this.yylexer = new YYLexer(]b4_lex_param_call[); ]b4_parse_param_cons[ } ]]) /** * Instantiates the Bison-generated parser. * @@param yylexer The scanner that will supply tokens to the parser. */ b4_lexer_if([[protected]], [[public]]) b4_parser_class_name[ (]b4_parse_param_decl([[Lexer yylexer]])[) { this.yylexer = yylexer; ]b4_parse_param_cons[ } private java.io.PrintStream yyDebugStream = System.err; /** * Return the PrintStream on which the debugging output is * printed. */ public final java.io.PrintStream getDebugStream () { return yyDebugStream; } /** * Set the PrintStream on which the debug output is printed. * @@param s The stream that is used for debugging output. */ public final void setDebugStream(java.io.PrintStream s) { yyDebugStream = s; } private int yydebug = 0; /** * Answer the verbosity of the debugging output; 0 means that all kinds of * output from the parser are suppressed. */ public final int getDebugLevel() { return yydebug; } /** * Set the verbosity of the debugging output; 0 means that all kinds of * output from the parser are suppressed. * @@param level The verbosity level for debugging output. */ public final void setDebugLevel(int level) { yydebug = level; } private final int yylex () ]b4_maybe_throws([b4_lex_throws]) [{ return yylexer.yylex (); } protected final void yyerror (]b4_locations_if([b4_location_type[ loc, ]])[String s) { yylexer.yyerror (]b4_locations_if([loc, ])[s); } ]b4_locations_if([ protected final void yyerror (String s) { yylexer.yyerror ((]b4_location_type[)null, s); } protected final void yyerror (]b4_position_type[ loc, String s) { yylexer.yyerror (new ]b4_location_type[ (loc), s); }]) [protected final void yycdebug (String s) { if (yydebug > 0) yyDebugStream.println (s); } private final class YYStack { private int[] stateStack = new int[16]; ]b4_locations_if([[private ]b4_location_type[[] locStack = new ]b4_location_type[[16];]])[ private ]b4_yystype[[] valueStack = new ]b4_yystype[[16]; public int size = 16; public int height = -1; public final void push (int state, ]b4_yystype[ value]dnl b4_locations_if([, ]b4_location_type[ loc])[) { height++; if (size == height) { int[] newStateStack = new int[size * 2]; System.arraycopy (stateStack, 0, newStateStack, 0, height); stateStack = newStateStack; ]b4_locations_if([[ ]b4_location_type[[] newLocStack = new ]b4_location_type[[size * 2]; System.arraycopy (locStack, 0, newLocStack, 0, height); locStack = newLocStack;]]) b4_yystype[[] newValueStack = new ]b4_yystype[[size * 2]; System.arraycopy (valueStack, 0, newValueStack, 0, height); valueStack = newValueStack; size *= 2; } stateStack[height] = state; ]b4_locations_if([[locStack[height] = loc;]])[ valueStack[height] = value; } public final void pop () { height--; } public final void pop (int num) { // Avoid memory leaks... garbage collection is a white lie! if (num > 0) { java.util.Arrays.fill (valueStack, height - num + 1, height, null); ]b4_locations_if([[java.util.Arrays.fill (locStack, height - num + 1, height, null);]])[ } height -= num; } public final int stateAt (int i) { return stateStack[height - i]; } ]b4_locations_if([[public final ]b4_location_type[ locationAt (int i) { return locStack[height - i]; } ]])[public final ]b4_yystype[ valueAt (int i) { return valueStack[height - i]; } // Print the state stack on the debug stream. public void print (java.io.PrintStream out) { out.print ("Stack now"); for (int i = 0; i < height; i++) { out.print (' '); out.print (stateStack[i]); } out.println (); } } /** * Returned by a Bison action in order to stop the parsing process and * return success (true). */ public static final int YYACCEPT = 0; /** * Returned by a Bison action in order to stop the parsing process and * return failure (false). */ public static final int YYABORT = 1; /** * Returned by a Bison action in order to start error recovery without * printing an error message. */ public static final int YYERROR = 2; /** * Returned by a Bison action in order to print an error message and start * error recovery. Formally deprecated in Bison 2.4.2's NEWS entry, where * a plan to phase it out is discussed. */ public static final int YYFAIL = 3; private static final int YYNEWSTATE = 4; private static final int YYDEFAULT = 5; private static final int YYREDUCE = 6; private static final int YYERRLAB1 = 7; private static final int YYRETURN = 8; private int yyerrstatus_ = 0; /** * Return whether error recovery is being done. In this state, the parser * reads token until it reaches a known state, and then restarts normal * operation. */ public final boolean recovering () { return yyerrstatus_ == 0; } private int yyaction (int yyn, YYStack yystack, int yylen) ]b4_maybe_throws([b4_throws])[ { ]b4_yystype[ yyval; ]b4_locations_if([b4_location_type[ yyloc = yylloc (yystack, yylen);]])[ /* If YYLEN is nonzero, implement the default value of the action: `$$ = $1'. Otherwise, use the top of the stack. Otherwise, the following line sets YYVAL to garbage. This behavior is undocumented and Bison users should not rely upon it. */ if (yylen > 0) yyval = yystack.valueAt (yylen - 1); else yyval = yystack.valueAt (0); yy_reduce_print (yyn, yystack); switch (yyn) { ]b4_user_actions[ default: break; } yy_symbol_print ("-> $$ =", yyr1_[yyn], yyval]b4_locations_if([, yyloc])[); yystack.pop (yylen); yylen = 0; /* Shift the result of the reduction. */ yyn = yyr1_[yyn]; int yystate = yypgoto_[yyn - yyntokens_] + yystack.stateAt (0); if (0 <= yystate && yystate <= yylast_ && yycheck_[yystate] == yystack.stateAt (0)) yystate = yytable_[yystate]; else yystate = yydefgoto_[yyn - yyntokens_]; yystack.push (yystate, yyval]b4_locations_if([, yyloc])[); return YYNEWSTATE; } /* Return YYSTR after stripping away unnecessary quotes and backslashes, so that it's suitable for yyerror. The heuristic is that double-quoting is unnecessary unless the string contains an apostrophe, a comma, or backslash (other than backslash-backslash). YYSTR is taken from yytname. */ private final String yytnamerr_ (String yystr) { if (yystr.charAt (0) == '"') { StringBuffer yyr = new StringBuffer (); strip_quotes: for (int i = 1; i < yystr.length (); i++) switch (yystr.charAt (i)) { case '\'': case ',': break strip_quotes; case '\\': if (yystr.charAt(++i) != '\\') break strip_quotes; /* Fall through. */ default: yyr.append (yystr.charAt (i)); break; case '"': return yyr.toString (); } } else if (yystr.equals ("$end")) return "end of input"; return yystr; } /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ private void yy_symbol_print (String s, int yytype, ]b4_yystype[ yyvaluep]dnl b4_locations_if([, Object yylocationp])[) { if (yydebug > 0) yycdebug (s + (yytype < yyntokens_ ? " token " : " nterm ") + yytname_[yytype] + " ("]b4_locations_if([ + yylocationp + ": "])[ + (yyvaluep == null ? "(null)" : yyvaluep.toString ()) + ")"); } /** * Parse input from the scanner that was specified at object construction * time. Return whether the end of the input was reached successfully. * * @@return true if the parsing succeeds. Note that this does not * imply that there were no syntax errors. */ public boolean parse () ]b4_maybe_throws([b4_list2([b4_lex_throws], [b4_throws])])[ { /// Lookahead and lookahead in internal form. int yychar = yyempty_; int yytoken = 0; /* State. */ int yyn = 0; int yylen = 0; int yystate = 0; YYStack yystack = new YYStack (); /* Error handling. */ int yynerrs_ = 0; ]b4_locations_if([/// The location where the error started. ]b4_location_type[ yyerrloc = null; /// ]b4_location_type[ of the lookahead. ]b4_location_type[ yylloc = new ]b4_location_type[ (null, null); /// @@$. ]b4_location_type[ yyloc;]) /// Semantic value of the lookahead. b4_yystype[ yylval = null; int yyresult; yycdebug ("Starting parse\n"); yyerrstatus_ = 0; ]m4_ifdef([b4_initial_action], [ m4_pushdef([b4_at_dollar], [yylloc])dnl m4_pushdef([b4_dollar_dollar], [yylval])dnl /* User initialization code. */ b4_user_initial_action m4_popdef([b4_dollar_dollar])dnl m4_popdef([b4_at_dollar])])dnl [ /* Initialize the stack. */ yystack.push (yystate, yylval]b4_locations_if([, yylloc])[); int label = YYNEWSTATE; for (;;) switch (label) { /* New state. Unlike in the C/C++ skeletons, the state is already pushed when we come here. */ case YYNEWSTATE: yycdebug ("Entering state " + yystate + "\n"); if (yydebug > 0) yystack.print (yyDebugStream); /* Accept? */ if (yystate == yyfinal_) return true; /* Take a decision. First try without lookahead. */ yyn = yypact_[yystate]; if (yyn == yypact_ninf_) { label = YYDEFAULT; break; } /* Read a lookahead token. */ if (yychar == yyempty_) { yycdebug ("Reading a token: "); yychar = yylex ();] b4_locations_if([[ yylloc = new ]b4_location_type[(yylexer.getStartPos (), yylexer.getEndPos ());]]) yylval = yylexer.getLVal ();[ } /* Convert token to internal form. */ if (yychar <= EOF) { yychar = yytoken = EOF; yycdebug ("Now at end of input.\n"); } else { yytoken = yytranslate_ (yychar); yy_symbol_print ("Next token is", yytoken, yylval]b4_locations_if([, yylloc])[); } /* If the proper action on seeing token YYTOKEN is to reduce or to detect an error, take that action. */ yyn += yytoken; if (yyn < 0 || yylast_ < yyn || yycheck_[yyn] != yytoken) label = YYDEFAULT; /* <= 0 means reduce or error. */ else if ((yyn = yytable_[yyn]) <= 0) { if (yyn == 0 || yyn == yytable_ninf_) label = YYFAIL; else { yyn = -yyn; label = YYREDUCE; } } else { /* Shift the lookahead token. */ yy_symbol_print ("Shifting", yytoken, yylval]b4_locations_if([, yylloc])[); /* Discard the token being shifted. */ yychar = yyempty_; /* Count tokens shifted since error; after three, turn off error status. */ if (yyerrstatus_ > 0) --yyerrstatus_; yystate = yyn; yystack.push (yystate, yylval]b4_locations_if([, yylloc])[); label = YYNEWSTATE; } break; /*-----------------------------------------------------------. | yydefault -- do the default action for the current state. | `-----------------------------------------------------------*/ case YYDEFAULT: yyn = yydefact_[yystate]; if (yyn == 0) label = YYFAIL; else label = YYREDUCE; break; /*-----------------------------. | yyreduce -- Do a reduction. | `-----------------------------*/ case YYREDUCE: yylen = yyr2_[yyn]; label = yyaction (yyn, yystack, yylen); yystate = yystack.stateAt (0); break; /*------------------------------------. | yyerrlab -- here on detecting error | `------------------------------------*/ case YYFAIL: /* If not already recovering from an error, report this error. */ if (yyerrstatus_ == 0) { ++yynerrs_; yyerror (]b4_locations_if([yylloc, ])[yysyntax_error (yystate, yytoken)); } ]b4_locations_if([yyerrloc = yylloc;])[ if (yyerrstatus_ == 3) { /* If just tried and failed to reuse lookahead token after an error, discard it. */ if (yychar <= EOF) { /* Return failure if at end of input. */ if (yychar == EOF) return false; } else yychar = yyempty_; } /* Else will try to reuse lookahead token after shifting the error token. */ label = YYERRLAB1; break; /*---------------------------------------------------. | errorlab -- error raised explicitly by YYERROR. | `---------------------------------------------------*/ case YYERROR: ]b4_locations_if([yyerrloc = yystack.locationAt (yylen - 1);])[ /* Do not reclaim the symbols of the rule which action triggered this YYERROR. */ yystack.pop (yylen); yylen = 0; yystate = yystack.stateAt (0); label = YYERRLAB1; break; /*-------------------------------------------------------------. | yyerrlab1 -- common code for both syntax error and YYERROR. | `-------------------------------------------------------------*/ case YYERRLAB1: yyerrstatus_ = 3; /* Each real token shifted decrements this. */ for (;;) { yyn = yypact_[yystate]; if (yyn != yypact_ninf_) { yyn += yyterror_; if (0 <= yyn && yyn <= yylast_ && yycheck_[yyn] == yyterror_) { yyn = yytable_[yyn]; if (0 < yyn) break; } } /* Pop the current state because it cannot handle the error token. */ if (yystack.height == 1) return false; ]b4_locations_if([yyerrloc = yystack.locationAt (0);])[ yystack.pop (); yystate = yystack.stateAt (0); if (yydebug > 0) yystack.print (yyDebugStream); } ]b4_locations_if([ /* Muck with the stack to setup for yylloc. */ yystack.push (0, null, yylloc); yystack.push (0, null, yyerrloc); yyloc = yylloc (yystack, 2); yystack.pop (2);])[ /* Shift the error token. */ yy_symbol_print ("Shifting", yystos_[yyn], yylval]b4_locations_if([, yyloc])[); yystate = yyn; yystack.push (yyn, yylval]b4_locations_if([, yyloc])[); label = YYNEWSTATE; break; /* Accept. */ case YYACCEPT: return true; /* Abort. */ case YYABORT: return false; } } // Generate an error message. private String yysyntax_error (int yystate, int tok) { if (errorVerbose) { int yyn = yypact_[yystate]; if (yypact_ninf_ < yyn && yyn <= yylast_) { StringBuffer res; /* Start YYX at -YYN if negative to avoid negative indexes in YYCHECK. */ int yyxbegin = yyn < 0 ? -yyn : 0; /* Stay within bounds of both yycheck and yytname. */ int yychecklim = yylast_ - yyn + 1; int yyxend = yychecklim < yyntokens_ ? yychecklim : yyntokens_; int count = 0; for (int x = yyxbegin; x < yyxend; ++x) if (yycheck_[x + yyn] == x && x != yyterror_) ++count; // FIXME: This method of building the message is not compatible // with internationalization. res = new StringBuffer ("syntax error, unexpected "); res.append (yytnamerr_ (yytname_[tok])); if (count < 5) { count = 0; for (int x = yyxbegin; x < yyxend; ++x) if (yycheck_[x + yyn] == x && x != yyterror_) { res.append (count++ == 0 ? ", expecting " : " or "); res.append (yytnamerr_ (yytname_[x])); } } return res.toString (); } } return "syntax error"; } /* YYPACT[STATE-NUM] -- Index in YYTABLE of the portion describing STATE-NUM. */ private static final ]b4_int_type_for([b4_pact])[ yypact_ninf_ = ]b4_pact_ninf[; private static final ]b4_int_type_for([b4_pact])[ yypact_[] = { ]b4_pact[ }; /* YYDEFACT[S] -- default rule to reduce with in state S when YYTABLE doesn't specify something else to do. Zero means the default is an error. */ private static final ]b4_int_type_for([b4_defact])[ yydefact_[] = { ]b4_defact[ }; /* YYPGOTO[NTERM-NUM]. */ private static final ]b4_int_type_for([b4_pgoto])[ yypgoto_[] = { ]b4_pgoto[ }; /* YYDEFGOTO[NTERM-NUM]. */ private static final ]b4_int_type_for([b4_defgoto])[ yydefgoto_[] = { ]b4_defgoto[ }; /* YYTABLE[YYPACT[STATE-NUM]]. What to do in state STATE-NUM. If positive, shift that token. If negative, reduce the rule which number is the opposite. If zero, do what YYDEFACT says. */ private static final ]b4_int_type_for([b4_table])[ yytable_ninf_ = ]b4_table_ninf[; private static final ]b4_int_type_for([b4_table])[ yytable_[] = { ]b4_table[ }; /* YYCHECK. */ private static final ]b4_int_type_for([b4_check])[ yycheck_[] = { ]b4_check[ }; /* STOS_[STATE-NUM] -- The (internal number of the) accessing symbol of state STATE-NUM. */ private static final ]b4_int_type_for([b4_stos])[ yystos_[] = { ]b4_stos[ }; /* TOKEN_NUMBER_[YYLEX-NUM] -- Internal symbol number corresponding to YYLEX-NUM. */ private static final ]b4_int_type_for([b4_toknum])[ yytoken_number_[] = { ]b4_toknum[ }; /* YYR1[YYN] -- Symbol number of symbol that rule YYN derives. */ private static final ]b4_int_type_for([b4_r1])[ yyr1_[] = { ]b4_r1[ }; /* YYR2[YYN] -- Number of symbols composing right hand side of rule YYN. */ private static final ]b4_int_type_for([b4_r2])[ yyr2_[] = { ]b4_r2[ }; /* YYTNAME[SYMBOL-NUM] -- String name of the symbol SYMBOL-NUM. First, the terminals, then, starting at \a yyntokens_, nonterminals. */ private static final String yytname_[] = { ]b4_tname[ }; /* YYRHS -- A `-1'-separated list of the rules' RHS. */ private static final ]b4_int_type_for([b4_rhs])[ yyrhs_[] = { ]b4_rhs[ }; /* YYPRHS[YYN] -- Index of the first RHS symbol of rule number YYN in YYRHS. */ private static final ]b4_int_type_for([b4_prhs])[ yyprhs_[] = { ]b4_prhs[ }; /* YYRLINE[YYN] -- Source line where rule number YYN was defined. */ private static final ]b4_int_type_for([b4_rline])[ yyrline_[] = { ]b4_rline[ }; // Report on the debug stream that the rule yyrule is going to be reduced. private void yy_reduce_print (int yyrule, YYStack yystack) { if (yydebug == 0) return; int yylno = yyrline_[yyrule]; int yynrhs = yyr2_[yyrule]; /* Print the symbols being reduced, and their result. */ yycdebug ("Reducing stack by rule " + (yyrule - 1) + " (line " + yylno + "), "); /* The symbols being reduced. */ for (int yyi = 0; yyi < yynrhs; yyi++) yy_symbol_print (" $" + (yyi + 1) + " =", yyrhs_[yyprhs_[yyrule] + yyi], ]b4_rhs_value(yynrhs, yyi + 1)b4_locations_if([, b4_rhs_location(yynrhs, yyi + 1)])[); } /* YYTRANSLATE(YYLEX) -- Bison symbol number corresponding to YYLEX. */ private static final ]b4_int_type_for([b4_translate])[ yytranslate_table_[] = { ]b4_translate[ }; private static final ]b4_int_type_for([b4_translate])[ yytranslate_ (int t) { if (t >= 0 && t <= yyuser_token_number_max_) return yytranslate_table_[t]; else return yyundef_token_; } private static final int yylast_ = ]b4_last[; private static final int yynnts_ = ]b4_nterms_number[; private static final int yyempty_ = -2; private static final int yyfinal_ = ]b4_final_state_number[; private static final int yyterror_ = 1; private static final int yyerrcode_ = 256; private static final int yyntokens_ = ]b4_tokens_number[; private static final int yyuser_token_number_max_ = ]b4_user_token_number_max[; private static final int yyundef_token_ = ]b4_undef_token_number[; ]/* User implementation code. */ b4_percent_code_get[]dnl } b4_epilogue m4_divert_pop(0)dnl 07070100062ce0000081a40000000000000000000000014c5138c800002988000000b600010002ffffffffffffffff0000002200000000root/usr/local/share/bison/glr.cc -*- C -*- # C++ GLR skeleton for Bison # Copyright (C) 2002-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # This skeleton produces a C++ class that encapsulates a C glr parser. # This is in order to reduce the maintenance burden. The glr.c # skeleton is clean and pure enough so that there are no real # problems. The C++ interface is the same as that of lalr1.cc. In # fact, glr.c can replace yacc.c without the user noticing any # difference, and similarly for glr.cc replacing lalr1.cc. # # The passing of parse-params # # The additional arguments are stored as members of the parser # object, yyparser. The C routines need to carry yyparser # throughout the C parser; that easy: just let yyparser become an # additional parse-param. But because the C++ skeleton needs to # know the "real" original parse-param, we save them # (b4_parse_param_orig). Note that b4_parse_param is overquoted # (and c.m4 strips one level of quotes). This is a PITA, and # explains why there are so many levels of quotes. # # The locations # # We use location.cc just like lalr1.cc, but because glr.c stores # the locations in a (C++) union, the position and location classes # must not have a constructor. Therefore, contrary to lalr1.cc, we # must not define "b4_location_constructors". As a consequence the # user must initialize the first positions (in particular the # filename member). # We require a pure interface using locations. m4_define([b4_locations_flag], [1]) m4_define([b4_pure_flag], [1]) # The header is mandatory. b4_defines_if([], [b4_fatal([b4_skeleton[: using %%defines is mandatory]])]) m4_include(b4_pkgdatadir/[c++.m4]) m4_include(b4_pkgdatadir/[location.cc]) m4_define([b4_parser_class_name], [b4_percent_define_get([[parser_class_name]])]) # Save the parse parameters. m4_define([b4_parse_param_orig], m4_defn([b4_parse_param])) # b4_yy_symbol_print_generate # --------------------------- # Bypass the default implementation to generate the "yy_symbol_print" # and "yy_symbol_value_print" functions. m4_define([b4_yy_symbol_print_generate], [[ /*--------------------. | Print this symbol. | `--------------------*/ ]b4_c_ansi_function_def([yy_symbol_print], [static void], [[FILE *], []], [[int yytype], [yytype]], [[const b4_namespace_ref::b4_parser_class_name::semantic_type *yyvaluep], [yyvaluep]], [[const b4_namespace_ref::b4_parser_class_name::location_type *yylocationp], [yylocationp]], b4_parse_param)[ { ]b4_parse_param_use[]dnl [ yyparser.yy_symbol_print_ (yytype, yyvaluep]b4_locations_if([, yylocationp])[); } ]]) # Declare yyerror. m4_append([b4_post_prologue], [b4_syncline([@oline@], [@ofile@]) b4_c_ansi_function_decl([yyerror], [static void], [[b4_namespace_ref::b4_parser_class_name::location_type *yylocationp], [yylocationp]], b4_parse_param, [[const char* msg], [msg]])]) # Define yyerror. m4_append([b4_epilogue], [b4_syncline([@oline@], [@ofile@])[ /*------------------. | Report an error. | `------------------*/ ]b4_c_ansi_function_def([yyerror], [static void], [[b4_namespace_ref::b4_parser_class_name::location_type *yylocationp], [yylocationp]], b4_parse_param, [[const char* msg], [msg]])[ { ]b4_parse_param_use[]dnl [ yyparser.error (*yylocationp, msg); } ]b4_namespace_open[ ]dnl In this section, the parse param are the original parse_params. m4_pushdef([b4_parse_param], m4_defn([b4_parse_param_orig]))dnl [ /// Build a parser object. ]b4_parser_class_name::b4_parser_class_name[ (]b4_parse_param_decl[)]m4_ifset([b4_parse_param], [ :])[ #if YYDEBUG ]m4_ifset([b4_parse_param], [ ], [ :])[yydebug_ (false), yycdebug_ (&std::cerr)]m4_ifset([b4_parse_param], [,])[ #endif]b4_parse_param_cons[ { } ]b4_parser_class_name::~b4_parser_class_name[ () { } int ]b4_parser_class_name[::parse () { return ::yyparse (*this]b4_user_args[); } #if YYDEBUG /*--------------------. | Print this symbol. | `--------------------*/ inline void ]b4_parser_class_name[::yy_symbol_value_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp) { /* Pacify ``unused variable'' warnings. */ YYUSE (yyvaluep); YYUSE (yylocationp); switch (yytype) { ]m4_map([b4_symbol_actions], m4_defn([b4_symbol_printers]))dnl [ default: break; } } void ]b4_parser_class_name[::yy_symbol_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp) { *yycdebug_ << (yytype < YYNTOKENS ? "token" : "nterm") << ' ' << yytname[yytype] << " (" << *yylocationp << ": "; yy_symbol_value_print_ (yytype, yyvaluep, yylocationp); *yycdebug_ << ')'; } std::ostream& ]b4_parser_class_name[::debug_stream () const { return *yycdebug_; } void ]b4_parser_class_name[::set_debug_stream (std::ostream& o) { yycdebug_ = &o; } ]b4_parser_class_name[::debug_level_type ]b4_parser_class_name[::debug_level () const { return yydebug_; } void ]b4_parser_class_name[::set_debug_level (debug_level_type l) { yydebug_ = l; } #endif ]m4_popdef([b4_parse_param])dnl b4_namespace_close[ ]]) # Let glr.c believe that the user arguments include the parser itself. m4_ifset([b4_parse_param], [m4_pushdef([b4_parse_param], m4_dquote([[[b4_namespace_ref::b4_parser_class_name& yyparser], [[yyparser]]],] m4_defn([b4_parse_param])))], [m4_pushdef([b4_parse_param], [[[[b4_namespace_ref::b4_parser_class_name& yyparser], [[yyparser]]]]]) ]) m4_include(b4_pkgdatadir/[glr.c]) m4_popdef([b4_parse_param]) m4_divert_push(0) @output(b4_spec_defines_file@)@ b4_copyright([Skeleton interface for Bison GLR parsers in C++], [2002-2006, 2009-2010])[ /* C++ GLR parser skeleton written by Akim Demaille. */ #ifndef PARSER_HEADER_H # define PARSER_HEADER_H ]b4_percent_code_get([[requires]])[ #include #include /* Using locations. */ #define YYLSP_NEEDED ]b4_locations_flag[ ]b4_namespace_open[ class position; class location; ]b4_namespace_close[ #include "location.hh" /* Enabling traces. */ #ifndef YYDEBUG # define YYDEBUG ]b4_debug_flag[ #endif /* YYLLOC_DEFAULT -- Set CURRENT to span from RHS[1] to RHS[N]. If N is 0, then set CURRENT to the empty location which ends the previous symbol: RHS[0] (always defined). */ #ifndef YYLLOC_DEFAULT # define YYLLOC_DEFAULT(Current, Rhs, N) \ do \ if (N) \ { \ (Current).begin = YYRHSLOC (Rhs, 1).begin; \ (Current).end = YYRHSLOC (Rhs, N).end; \ } \ else \ { \ (Current).begin = (Current).end = YYRHSLOC (Rhs, 0).end; \ } \ while (/*CONSTCOND*/ 0) #endif ]b4_namespace_open[ /// A Bison parser. class ]b4_parser_class_name[ { public: /// Symbol semantic values. #ifndef YYSTYPE ]m4_ifdef([b4_stype], [ union semantic_type { b4_user_stype };], [m4_if(b4_tag_seen_flag, 0, [[ typedef int semantic_type;]], [[ typedef YYSTYPE semantic_type;]])])[ #else typedef YYSTYPE semantic_type; #endif /// Symbol locations. typedef ]b4_percent_define_get([[location_type]])[ location_type; /// Tokens. struct token { ]b4_token_enums(b4_tokens)[ }; /// Token type. typedef token::yytokentype token_type; /// Build a parser object. ]b4_parser_class_name[ (]b4_parse_param_decl[); virtual ~]b4_parser_class_name[ (); /// Parse. /// \returns 0 iff parsing succeeded. virtual int parse (); /// The current debugging stream. std::ostream& debug_stream () const; /// Set the current debugging stream. void set_debug_stream (std::ostream &); /// Type for debugging levels. typedef int debug_level_type; /// The current debugging level. debug_level_type debug_level () const; /// Set the current debugging level. void set_debug_level (debug_level_type l); private: public: /// Report a syntax error. /// \param loc where the syntax error is found. /// \param msg a description of the syntax error. virtual void error (const location_type& loc, const std::string& msg); private: #if YYDEBUG public: /// \brief Report a symbol value on the debug stream. /// \param yytype The token type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. virtual void yy_symbol_value_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp); /// \brief Report a symbol on the debug stream. /// \param yytype The token type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. virtual void yy_symbol_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp); private: /* Debugging. */ int yydebug_; std::ostream* yycdebug_; #endif /// \brief Reclaim the memory associated to a symbol. /// \param yymsg Why this token is reclaimed. /// \param yytype The symbol type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. inline void yydestruct_ (const char* yymsg, int yytype, semantic_type* yyvaluep, location_type* yylocationp); ]b4_parse_param_vars[ }; ]dnl Redirections for glr.c. b4_percent_define_flag_if([[global_tokens_and_yystype]], [b4_token_defines(b4_tokens)]) [ #ifndef YYSTYPE # define YYSTYPE ]b4_namespace_ref[::]b4_parser_class_name[::semantic_type #endif #ifndef YYLTYPE # define YYLTYPE ]b4_namespace_ref[::]b4_parser_class_name[::location_type #endif ]b4_namespace_close[ ]b4_percent_code_get([[provides]])[]dnl [#endif /* ! defined PARSER_HEADER_H */] m4_divert_pop(0) 07070100062ce3000081a40000000000000000000000014c5138c800007790000000b600010002ffffffffffffffff0000002400000000root/usr/local/share/bison/lalr1.cc# C++ skeleton for Bison # Copyright (C) 2002-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . m4_include(b4_pkgdatadir/[c++.m4]) m4_define([b4_parser_class_name], [b4_percent_define_get([[parser_class_name]])]) # The header is mandatory. b4_defines_if([], [b4_fatal([b4_skeleton[: using %%defines is mandatory]])]) # Backward compatibility. m4_define([b4_location_constructors]) m4_include(b4_pkgdatadir/[location.cc]) # We do want M4 expansion after # for CPP macros. m4_changecom() m4_divert_push(0)dnl b4_defines_if( [@output(b4_spec_defines_file@)@ b4_copyright([Skeleton interface for Bison LALR(1) parsers in C++], [2002-2010]) dnl FIXME: This is wrong, we want computed header guards. [ /* C++ LALR(1) parser skeleton written by Akim Demaille. */ #ifndef PARSER_HEADER_H # define PARSER_HEADER_H ]b4_percent_code_get([[requires]])[ #include #include #include "stack.hh" ]b4_namespace_open[ class position; class location; ]b4_namespace_close[ #include "location.hh" /* Enabling traces. */ #ifndef YYDEBUG # define YYDEBUG ]b4_debug_flag[ #endif /* Enabling verbose error messages. */ #ifdef YYERROR_VERBOSE # undef YYERROR_VERBOSE # define YYERROR_VERBOSE 1 #else # define YYERROR_VERBOSE ]b4_error_verbose_flag[ #endif /* Enabling the token table. */ #ifndef YYTOKEN_TABLE # define YYTOKEN_TABLE ]b4_token_table[ #endif /* YYLLOC_DEFAULT -- Set CURRENT to span from RHS[1] to RHS[N]. If N is 0, then set CURRENT to the empty location which ends the previous symbol: RHS[0] (always defined). */ #ifndef YYLLOC_DEFAULT # define YYLLOC_DEFAULT(Current, Rhs, N) \ do { \ if (N) \ { \ (Current).begin = (Rhs)[1].begin; \ (Current).end = (Rhs)[N].end; \ } \ else \ { \ (Current).begin = (Current).end = (Rhs)[0].end; \ } \ } while (false) #endif ]b4_namespace_open[ /// A Bison parser. class ]b4_parser_class_name[ { public: /// Symbol semantic values. #ifndef YYSTYPE ]m4_ifdef([b4_stype], [ union semantic_type { b4_user_stype };], [m4_if(b4_tag_seen_flag, 0, [[ typedef int semantic_type;]], [[ typedef YYSTYPE semantic_type;]])])[ #else typedef YYSTYPE semantic_type; #endif /// Symbol locations. typedef ]b4_percent_define_get([[location_type]])[ location_type; /// Tokens. struct token { ]b4_token_enums(b4_tokens)[ }; /// Token type. typedef token::yytokentype token_type; /// Build a parser object. ]b4_parser_class_name[ (]b4_parse_param_decl[); virtual ~]b4_parser_class_name[ (); /// Parse. /// \returns 0 iff parsing succeeded. virtual int parse (); #if YYDEBUG /// The current debugging stream. std::ostream& debug_stream () const; /// Set the current debugging stream. void set_debug_stream (std::ostream &); /// Type for debugging levels. typedef int debug_level_type; /// The current debugging level. debug_level_type debug_level () const; /// Set the current debugging level. void set_debug_level (debug_level_type l); #endif private: /// Report a syntax error. /// \param loc where the syntax error is found. /// \param msg a description of the syntax error. virtual void error (const location_type& loc, const std::string& msg); /// Generate an error message. /// \param state the state where the error occurred. /// \param tok the lookahead token. virtual std::string yysyntax_error_ (int yystate]dnl b4_error_verbose_if([, int tok])[); #if YYDEBUG /// \brief Report a symbol value on the debug stream. /// \param yytype The token type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. virtual void yy_symbol_value_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp); /// \brief Report a symbol on the debug stream. /// \param yytype The token type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. virtual void yy_symbol_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp); #endif /// State numbers. typedef int state_type; /// State stack type. typedef stack state_stack_type; /// Semantic value stack type. typedef stack semantic_stack_type; /// location stack type. typedef stack location_stack_type; /// The state stack. state_stack_type yystate_stack_; /// The semantic value stack. semantic_stack_type yysemantic_stack_; /// The location stack. location_stack_type yylocation_stack_; /// Internal symbol numbers. typedef ]b4_int_type_for([b4_translate])[ token_number_type; /* Tables. */ /// For a state, the index in \a yytable_ of its portion. static const ]b4_int_type_for([b4_pact])[ yypact_[]; static const ]b4_int_type(b4_pact_ninf, b4_pact_ninf)[ yypact_ninf_; /// For a state, default rule to reduce. /// Unless\a yytable_ specifies something else to do. /// Zero means the default is an error. static const ]b4_int_type_for([b4_defact])[ yydefact_[]; static const ]b4_int_type_for([b4_pgoto])[ yypgoto_[]; static const ]b4_int_type_for([b4_defgoto])[ yydefgoto_[]; /// What to do in a state. /// \a yytable_[yypact_[s]]: what to do in state \a s. /// - if positive, shift that token. /// - if negative, reduce the rule which number is the opposite. /// - if zero, do what YYDEFACT says. static const ]b4_int_type_for([b4_table])[ yytable_[]; static const ]b4_int_type(b4_table_ninf, b4_table_ninf)[ yytable_ninf_; static const ]b4_int_type_for([b4_check])[ yycheck_[]; /// For a state, its accessing symbol. static const ]b4_int_type_for([b4_stos])[ yystos_[]; /// For a rule, its LHS. static const ]b4_int_type_for([b4_r1])[ yyr1_[]; /// For a rule, its RHS length. static const ]b4_int_type_for([b4_r2])[ yyr2_[]; #if YYDEBUG || YYERROR_VERBOSE || YYTOKEN_TABLE /// For a symbol, its name in clear. static const char* const yytname_[]; #endif #if YYERROR_VERBOSE /// Convert the symbol name \a n to a form suitable for a diagnostic. virtual std::string yytnamerr_ (const char *n); #endif #if YYDEBUG /// A type to store symbol numbers and -1. typedef ]b4_int_type_for([b4_rhs])[ rhs_number_type; /// A `-1'-separated list of the rules' RHS. static const rhs_number_type yyrhs_[]; /// For each rule, the index of the first RHS symbol in \a yyrhs_. static const ]b4_int_type_for([b4_prhs])[ yyprhs_[]; /// For each rule, its source line number. static const ]b4_int_type_for([b4_rline])[ yyrline_[]; /// For each scanner token number, its symbol number. static const ]b4_int_type_for([b4_toknum])[ yytoken_number_[]; /// Report on the debug stream that the rule \a r is going to be reduced. virtual void yy_reduce_print_ (int r); /// Print the state stack on the debug stream. virtual void yystack_print_ (); /* Debugging. */ int yydebug_; std::ostream* yycdebug_; #endif /// Convert a scanner token number \a t to a symbol number. token_number_type yytranslate_ (int t); /// \brief Reclaim the memory associated to a symbol. /// \param yymsg Why this token is reclaimed. /// \param yytype The symbol type. /// \param yyvaluep Its semantic value. /// \param yylocationp Its location. inline void yydestruct_ (const char* yymsg, int yytype, semantic_type* yyvaluep, location_type* yylocationp); /// Pop \a n symbols the three stacks. inline void yypop_ (unsigned int n = 1); /* Constants. */ static const int yyeof_; /* LAST_ -- Last index in TABLE_. */ static const int yylast_; static const int yynnts_; static const int yyempty_; static const int yyfinal_; static const int yyterror_; static const int yyerrcode_; static const int yyntokens_; static const unsigned int yyuser_token_number_max_; static const token_number_type yyundef_token_; ]b4_parse_param_vars[ }; ]b4_namespace_close[ ]b4_percent_define_flag_if([[global_tokens_and_yystype]], [b4_token_defines(b4_tokens) #ifndef YYSTYPE /* Redirection for backward compatibility. */ # define YYSTYPE b4_namespace_ref::b4_parser_class_name::semantic_type #endif ]) b4_percent_code_get([[provides]])[]dnl [#endif /* ! defined PARSER_HEADER_H */] ])dnl @output(b4_parser_file_name@)@ b4_copyright([Skeleton implementation for Bison LALR(1) parsers in C++], [2002-2010]) b4_percent_code_get([[top]])[]dnl m4_if(b4_prefix, [yy], [], [ // Take the name prefix into account. #define yylex b4_prefix[]lex])[ /* First part of user declarations. */ ]b4_user_pre_prologue b4_defines_if([[ #include "@basename(]b4_spec_defines_file[@)"]])[ /* User implementation prologue. */ ]b4_user_post_prologue b4_percent_code_get[]dnl [#ifndef YY_ # if defined YYENABLE_NLS && YYENABLE_NLS # if ENABLE_NLS # include /* FIXME: INFRINGES ON USER NAME SPACE */ # define YY_(msgid) dgettext ("bison-runtime", msgid) # endif # endif # ifndef YY_ # define YY_(msgid) msgid # endif #endif /* Suppress unused-variable warnings by "using" E. */ #define YYUSE(e) ((void) (e)) /* Enable debugging if requested. */ #if YYDEBUG /* A pseudo ostream that takes yydebug_ into account. */ # define YYCDEBUG if (yydebug_) (*yycdebug_) # define YY_SYMBOL_PRINT(Title, Type, Value, Location) \ do { \ if (yydebug_) \ { \ *yycdebug_ << Title << ' '; \ yy_symbol_print_ ((Type), (Value), (Location)); \ *yycdebug_ << std::endl; \ } \ } while (false) # define YY_REDUCE_PRINT(Rule) \ do { \ if (yydebug_) \ yy_reduce_print_ (Rule); \ } while (false) # define YY_STACK_PRINT() \ do { \ if (yydebug_) \ yystack_print_ (); \ } while (false) #else /* !YYDEBUG */ # define YYCDEBUG if (false) std::cerr # define YY_SYMBOL_PRINT(Title, Type, Value, Location) # define YY_REDUCE_PRINT(Rule) # define YY_STACK_PRINT() #endif /* !YYDEBUG */ #define yyerrok (yyerrstatus_ = 0) #define yyclearin (yychar = yyempty_) #define YYACCEPT goto yyacceptlab #define YYABORT goto yyabortlab #define YYERROR goto yyerrorlab #define YYRECOVERING() (!!yyerrstatus_) ]b4_namespace_open[ #if YYERROR_VERBOSE /* Return YYSTR after stripping away unnecessary quotes and backslashes, so that it's suitable for yyerror. The heuristic is that double-quoting is unnecessary unless the string contains an apostrophe, a comma, or backslash (other than backslash-backslash). YYSTR is taken from yytname. */ std::string ]b4_parser_class_name[::yytnamerr_ (const char *yystr) { if (*yystr == '"') { std::string yyr = ""; char const *yyp = yystr; for (;;) switch (*++yyp) { case '\'': case ',': goto do_not_strip_quotes; case '\\': if (*++yyp != '\\') goto do_not_strip_quotes; /* Fall through. */ default: yyr += *yyp; break; case '"': return yyr; } do_not_strip_quotes: ; } return yystr; } #endif /// Build a parser object. ]b4_parser_class_name::b4_parser_class_name[ (]b4_parse_param_decl[)]m4_ifset([b4_parse_param], [ :])[ #if YYDEBUG ]m4_ifset([b4_parse_param], [ ], [ :])[yydebug_ (false), yycdebug_ (&std::cerr)]m4_ifset([b4_parse_param], [,])[ #endif]b4_parse_param_cons[ { } ]b4_parser_class_name::~b4_parser_class_name[ () { } #if YYDEBUG /*--------------------------------. | Print this symbol on YYOUTPUT. | `--------------------------------*/ inline void ]b4_parser_class_name[::yy_symbol_value_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp) { YYUSE (yylocationp); YYUSE (yyvaluep); switch (yytype) { ]m4_map([b4_symbol_actions], m4_defn([b4_symbol_printers]))dnl [ default: break; } } void ]b4_parser_class_name[::yy_symbol_print_ (int yytype, const semantic_type* yyvaluep, const location_type* yylocationp) { *yycdebug_ << (yytype < yyntokens_ ? "token" : "nterm") << ' ' << yytname_[yytype] << " (" << *yylocationp << ": "; yy_symbol_value_print_ (yytype, yyvaluep, yylocationp); *yycdebug_ << ')'; } #endif void ]b4_parser_class_name[::yydestruct_ (const char* yymsg, int yytype, semantic_type* yyvaluep, location_type* yylocationp) { YYUSE (yylocationp); YYUSE (yymsg); YYUSE (yyvaluep); YY_SYMBOL_PRINT (yymsg, yytype, yyvaluep, yylocationp); switch (yytype) { ]m4_map([b4_symbol_actions], m4_defn([b4_symbol_destructors]))[ default: break; } } void ]b4_parser_class_name[::yypop_ (unsigned int n) { yystate_stack_.pop (n); yysemantic_stack_.pop (n); yylocation_stack_.pop (n); } #if YYDEBUG std::ostream& ]b4_parser_class_name[::debug_stream () const { return *yycdebug_; } void ]b4_parser_class_name[::set_debug_stream (std::ostream& o) { yycdebug_ = &o; } ]b4_parser_class_name[::debug_level_type ]b4_parser_class_name[::debug_level () const { return yydebug_; } void ]b4_parser_class_name[::set_debug_level (debug_level_type l) { yydebug_ = l; } #endif int ]b4_parser_class_name[::parse () { /// Lookahead and lookahead in internal form. int yychar = yyempty_; int yytoken = 0; /* State. */ int yyn; int yylen = 0; int yystate = 0; /* Error handling. */ int yynerrs_ = 0; int yyerrstatus_ = 0; /// Semantic value of the lookahead. semantic_type yylval; /// Location of the lookahead. location_type yylloc; /// The locations where the error started and ended. location_type yyerror_range[2]; /// $$. semantic_type yyval; /// @@$. location_type yyloc; int yyresult; YYCDEBUG << "Starting parse" << std::endl; ]m4_ifdef([b4_initial_action], [ m4_pushdef([b4_at_dollar], [yylloc])dnl m4_pushdef([b4_dollar_dollar], [yylval])dnl /* User initialization code. */ b4_user_initial_action m4_popdef([b4_dollar_dollar])dnl m4_popdef([b4_at_dollar])])dnl [ /* Initialize the stacks. The initial state will be pushed in yynewstate, since the latter expects the semantical and the location values to have been already stored, initialize these stacks with a primary value. */ yystate_stack_ = state_stack_type (0); yysemantic_stack_ = semantic_stack_type (0); yylocation_stack_ = location_stack_type (0); yysemantic_stack_.push (yylval); yylocation_stack_.push (yylloc); /* New state. */ yynewstate: yystate_stack_.push (yystate); YYCDEBUG << "Entering state " << yystate << std::endl; /* Accept? */ if (yystate == yyfinal_) goto yyacceptlab; goto yybackup; /* Backup. */ yybackup: /* Try to take a decision without lookahead. */ yyn = yypact_[yystate]; if (yyn == yypact_ninf_) goto yydefault; /* Read a lookahead token. */ if (yychar == yyempty_) { YYCDEBUG << "Reading a token: "; yychar = ]b4_c_function_call([yylex], [int], [[YYSTYPE*], [&yylval]][]dnl b4_locations_if([, [[location*], [&yylloc]]])dnl m4_ifdef([b4_lex_param], [, ]b4_lex_param))[; } /* Convert token to internal form. */ if (yychar <= yyeof_) { yychar = yytoken = yyeof_; YYCDEBUG << "Now at end of input." << std::endl; } else { yytoken = yytranslate_ (yychar); YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc); } /* If the proper action on seeing token YYTOKEN is to reduce or to detect an error, take that action. */ yyn += yytoken; if (yyn < 0 || yylast_ < yyn || yycheck_[yyn] != yytoken) goto yydefault; /* Reduce or error. */ yyn = yytable_[yyn]; if (yyn <= 0) { if (yyn == 0 || yyn == yytable_ninf_) goto yyerrlab; yyn = -yyn; goto yyreduce; } /* Shift the lookahead token. */ YY_SYMBOL_PRINT ("Shifting", yytoken, &yylval, &yylloc); /* Discard the token being shifted. */ yychar = yyempty_; yysemantic_stack_.push (yylval); yylocation_stack_.push (yylloc); /* Count tokens shifted since error; after three, turn off error status. */ if (yyerrstatus_) --yyerrstatus_; yystate = yyn; goto yynewstate; /*-----------------------------------------------------------. | yydefault -- do the default action for the current state. | `-----------------------------------------------------------*/ yydefault: yyn = yydefact_[yystate]; if (yyn == 0) goto yyerrlab; goto yyreduce; /*-----------------------------. | yyreduce -- Do a reduction. | `-----------------------------*/ yyreduce: yylen = yyr2_[yyn]; /* If YYLEN is nonzero, implement the default value of the action: `$$ = $1'. Otherwise, use the top of the stack. Otherwise, the following line sets YYVAL to garbage. This behavior is undocumented and Bison users should not rely upon it. */ if (yylen) yyval = yysemantic_stack_[yylen - 1]; else yyval = yysemantic_stack_[0]; { slice slice (yylocation_stack_, yylen); YYLLOC_DEFAULT (yyloc, slice, yylen); } YY_REDUCE_PRINT (yyn); switch (yyn) { ]b4_user_actions[ default: break; } YY_SYMBOL_PRINT ("-> $$ =", yyr1_[yyn], &yyval, &yyloc); yypop_ (yylen); yylen = 0; YY_STACK_PRINT (); yysemantic_stack_.push (yyval); yylocation_stack_.push (yyloc); /* Shift the result of the reduction. */ yyn = yyr1_[yyn]; yystate = yypgoto_[yyn - yyntokens_] + yystate_stack_[0]; if (0 <= yystate && yystate <= yylast_ && yycheck_[yystate] == yystate_stack_[0]) yystate = yytable_[yystate]; else yystate = yydefgoto_[yyn - yyntokens_]; goto yynewstate; /*------------------------------------. | yyerrlab -- here on detecting error | `------------------------------------*/ yyerrlab: /* If not already recovering from an error, report this error. */ if (!yyerrstatus_) { ++yynerrs_; error (yylloc, yysyntax_error_ (yystate]dnl b4_error_verbose_if([, yytoken])[)); } yyerror_range[0] = yylloc; if (yyerrstatus_ == 3) { /* If just tried and failed to reuse lookahead token after an error, discard it. */ if (yychar <= yyeof_) { /* Return failure if at end of input. */ if (yychar == yyeof_) YYABORT; } else { yydestruct_ ("Error: discarding", yytoken, &yylval, &yylloc); yychar = yyempty_; } } /* Else will try to reuse lookahead token after shifting the error token. */ goto yyerrlab1; /*---------------------------------------------------. | yyerrorlab -- error raised explicitly by YYERROR. | `---------------------------------------------------*/ yyerrorlab: /* Pacify compilers like GCC when the user code never invokes YYERROR and the label yyerrorlab therefore never appears in user code. */ if (false) goto yyerrorlab; yyerror_range[0] = yylocation_stack_[yylen - 1]; /* Do not reclaim the symbols of the rule which action triggered this YYERROR. */ yypop_ (yylen); yylen = 0; yystate = yystate_stack_[0]; goto yyerrlab1; /*-------------------------------------------------------------. | yyerrlab1 -- common code for both syntax error and YYERROR. | `-------------------------------------------------------------*/ yyerrlab1: yyerrstatus_ = 3; /* Each real token shifted decrements this. */ for (;;) { yyn = yypact_[yystate]; if (yyn != yypact_ninf_) { yyn += yyterror_; if (0 <= yyn && yyn <= yylast_ && yycheck_[yyn] == yyterror_) { yyn = yytable_[yyn]; if (0 < yyn) break; } } /* Pop the current state because it cannot handle the error token. */ if (yystate_stack_.height () == 1) YYABORT; yyerror_range[0] = yylocation_stack_[0]; yydestruct_ ("Error: popping", yystos_[yystate], &yysemantic_stack_[0], &yylocation_stack_[0]); yypop_ (); yystate = yystate_stack_[0]; YY_STACK_PRINT (); } yyerror_range[1] = yylloc; // Using YYLLOC is tempting, but would change the location of // the lookahead. YYLOC is available though. YYLLOC_DEFAULT (yyloc, (yyerror_range - 1), 2); yysemantic_stack_.push (yylval); yylocation_stack_.push (yyloc); /* Shift the error token. */ YY_SYMBOL_PRINT ("Shifting", yystos_[yyn], &yysemantic_stack_[0], &yylocation_stack_[0]); yystate = yyn; goto yynewstate; /* Accept. */ yyacceptlab: yyresult = 0; goto yyreturn; /* Abort. */ yyabortlab: yyresult = 1; goto yyreturn; yyreturn: if (yychar != yyempty_) yydestruct_ ("Cleanup: discarding lookahead", yytoken, &yylval, &yylloc); /* Do not reclaim the symbols of the rule which action triggered this YYABORT or YYACCEPT. */ yypop_ (yylen); while (yystate_stack_.height () != 1) { yydestruct_ ("Cleanup: popping", yystos_[yystate_stack_[0]], &yysemantic_stack_[0], &yylocation_stack_[0]); yypop_ (); } return yyresult; } // Generate an error message. std::string ]b4_parser_class_name[::yysyntax_error_ (int yystate]dnl b4_error_verbose_if([, int tok])[) { std::string res; YYUSE (yystate); #if YYERROR_VERBOSE int yyn = yypact_[yystate]; if (yypact_ninf_ < yyn && yyn <= yylast_) { /* Start YYX at -YYN if negative to avoid negative indexes in YYCHECK. */ int yyxbegin = yyn < 0 ? -yyn : 0; /* Stay within bounds of both yycheck and yytname. */ int yychecklim = yylast_ - yyn + 1; int yyxend = yychecklim < yyntokens_ ? yychecklim : yyntokens_; int count = 0; for (int x = yyxbegin; x < yyxend; ++x) if (yycheck_[x + yyn] == x && x != yyterror_) ++count; // FIXME: This method of building the message is not compatible // with internationalization. It should work like yacc.c does it. // That is, first build a string that looks like this: // "syntax error, unexpected %s or %s or %s" // Then, invoke YY_ on this string. // Finally, use the string as a format to output // yytname_[tok], etc. // Until this gets fixed, this message appears in English only. res = "syntax error, unexpected "; res += yytnamerr_ (yytname_[tok]); if (count < 5) { count = 0; for (int x = yyxbegin; x < yyxend; ++x) if (yycheck_[x + yyn] == x && x != yyterror_) { res += (!count++) ? ", expecting " : " or "; res += yytnamerr_ (yytname_[x]); } } } else #endif res = YY_("syntax error"); return res; } /* YYPACT[STATE-NUM] -- Index in YYTABLE of the portion describing STATE-NUM. */ const ]b4_int_type(b4_pact_ninf, b4_pact_ninf) b4_parser_class_name::yypact_ninf_ = b4_pact_ninf[; const ]b4_int_type_for([b4_pact])[ ]b4_parser_class_name[::yypact_[] = { ]b4_pact[ }; /* YYDEFACT[S] -- default rule to reduce with in state S when YYTABLE doesn't specify something else to do. Zero means the default is an error. */ const ]b4_int_type_for([b4_defact])[ ]b4_parser_class_name[::yydefact_[] = { ]b4_defact[ }; /* YYPGOTO[NTERM-NUM]. */ const ]b4_int_type_for([b4_pgoto])[ ]b4_parser_class_name[::yypgoto_[] = { ]b4_pgoto[ }; /* YYDEFGOTO[NTERM-NUM]. */ const ]b4_int_type_for([b4_defgoto])[ ]b4_parser_class_name[::yydefgoto_[] = { ]b4_defgoto[ }; /* YYTABLE[YYPACT[STATE-NUM]]. What to do in state STATE-NUM. If positive, shift that token. If negative, reduce the rule which number is the opposite. If zero, do what YYDEFACT says. */ const ]b4_int_type(b4_table_ninf, b4_table_ninf) b4_parser_class_name::yytable_ninf_ = b4_table_ninf[; const ]b4_int_type_for([b4_table])[ ]b4_parser_class_name[::yytable_[] = { ]b4_table[ }; /* YYCHECK. */ const ]b4_int_type_for([b4_check])[ ]b4_parser_class_name[::yycheck_[] = { ]b4_check[ }; /* STOS_[STATE-NUM] -- The (internal number of the) accessing symbol of state STATE-NUM. */ const ]b4_int_type_for([b4_stos])[ ]b4_parser_class_name[::yystos_[] = { ]b4_stos[ }; #if YYDEBUG /* TOKEN_NUMBER_[YYLEX-NUM] -- Internal symbol number corresponding to YYLEX-NUM. */ const ]b4_int_type_for([b4_toknum])[ ]b4_parser_class_name[::yytoken_number_[] = { ]b4_toknum[ }; #endif /* YYR1[YYN] -- Symbol number of symbol that rule YYN derives. */ const ]b4_int_type_for([b4_r1])[ ]b4_parser_class_name[::yyr1_[] = { ]b4_r1[ }; /* YYR2[YYN] -- Number of symbols composing right hand side of rule YYN. */ const ]b4_int_type_for([b4_r2])[ ]b4_parser_class_name[::yyr2_[] = { ]b4_r2[ }; #if YYDEBUG || YYERROR_VERBOSE || YYTOKEN_TABLE /* YYTNAME[SYMBOL-NUM] -- String name of the symbol SYMBOL-NUM. First, the terminals, then, starting at \a yyntokens_, nonterminals. */ const char* const ]b4_parser_class_name[::yytname_[] = { ]b4_tname[ }; #endif #if YYDEBUG /* YYRHS -- A `-1'-separated list of the rules' RHS. */ const ]b4_parser_class_name[::rhs_number_type ]b4_parser_class_name[::yyrhs_[] = { ]b4_rhs[ }; /* YYPRHS[YYN] -- Index of the first RHS symbol of rule number YYN in YYRHS. */ const ]b4_int_type_for([b4_prhs])[ ]b4_parser_class_name[::yyprhs_[] = { ]b4_prhs[ }; /* YYRLINE[YYN] -- Source line where rule number YYN was defined. */ const ]b4_int_type_for([b4_rline])[ ]b4_parser_class_name[::yyrline_[] = { ]b4_rline[ }; // Print the state stack on the debug stream. void ]b4_parser_class_name[::yystack_print_ () { *yycdebug_ << "Stack now"; for (state_stack_type::const_iterator i = yystate_stack_.begin (); i != yystate_stack_.end (); ++i) *yycdebug_ << ' ' << *i; *yycdebug_ << std::endl; } // Report on the debug stream that the rule \a yyrule is going to be reduced. void ]b4_parser_class_name[::yy_reduce_print_ (int yyrule) { unsigned int yylno = yyrline_[yyrule]; int yynrhs = yyr2_[yyrule]; /* Print the symbols being reduced, and their result. */ *yycdebug_ << "Reducing stack by rule " << yyrule - 1 << " (line " << yylno << "):" << std::endl; /* The symbols being reduced. */ for (int yyi = 0; yyi < yynrhs; yyi++) YY_SYMBOL_PRINT (" $" << yyi + 1 << " =", yyrhs_[yyprhs_[yyrule] + yyi], &]b4_rhs_value(yynrhs, yyi + 1)[, &]b4_rhs_location(yynrhs, yyi + 1)[); } #endif // YYDEBUG /* YYTRANSLATE(YYLEX) -- Bison symbol number corresponding to YYLEX. */ ]b4_parser_class_name[::token_number_type ]b4_parser_class_name[::yytranslate_ (int t) { static const token_number_type translate_table[] = { ]b4_translate[ }; if ((unsigned int) t <= yyuser_token_number_max_) return translate_table[t]; else return yyundef_token_; } const int ]b4_parser_class_name[::yyeof_ = 0; const int ]b4_parser_class_name[::yylast_ = ]b4_last[; const int ]b4_parser_class_name[::yynnts_ = ]b4_nterms_number[; const int ]b4_parser_class_name[::yyempty_ = -2; const int ]b4_parser_class_name[::yyfinal_ = ]b4_final_state_number[; const int ]b4_parser_class_name[::yyterror_ = 1; const int ]b4_parser_class_name[::yyerrcode_ = 256; const int ]b4_parser_class_name[::yyntokens_ = ]b4_tokens_number[; const unsigned int ]b4_parser_class_name[::yyuser_token_number_max_ = ]b4_user_token_number_max[; const ]b4_parser_class_name[::token_number_type ]b4_parser_class_name[::yyundef_token_ = ]b4_undef_token_number[; ]b4_namespace_close[ ]b4_epilogue dnl @output(b4_dir_prefix[]stack.hh@)@ b4_copyright([Stack handling for Bison parsers in C++], [2002-2010])[ #ifndef BISON_STACK_HH # define BISON_STACK_HH #include ]b4_namespace_open[ template > class stack { public: // Hide our reversed order. typedef typename S::reverse_iterator iterator; typedef typename S::const_reverse_iterator const_iterator; stack () : seq_ () { } stack (unsigned int n) : seq_ (n) { } inline T& operator [] (unsigned int i) { return seq_[i]; } inline const T& operator [] (unsigned int i) const { return seq_[i]; } inline void push (const T& t) { seq_.push_front (t); } inline void pop (unsigned int n = 1) { for (; n; --n) seq_.pop_front (); } inline unsigned int height () const { return seq_.size (); } inline const_iterator begin () const { return seq_.rbegin (); } inline const_iterator end () const { return seq_.rend (); } private: S seq_; }; /// Present a slice of the top of a stack. template > class slice { public: slice (const S& stack, unsigned int range) : stack_ (stack), range_ (range) { } inline const T& operator [] (unsigned int i) const { return stack_[range_ - i]; } private: const S& stack_; unsigned int range_; }; ]b4_namespace_close[ #endif // not BISON_STACK_HH[]dnl ] m4_divert_pop(0) 07070100062ce5000081a40000000000000000000000014c5138c800001aea000000b600010002ffffffffffffffff0000002700000000root/usr/local/share/bison/location.cc# C++ skeleton for Bison # Copyright (C) 2002-2007, 2009-2010 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # We do want M4 expansion after # for CPP macros. m4_changecom() m4_divert_push(0)dnl @output(b4_dir_prefix[]position.hh@)@ b4_copyright([Positions for Bison parsers in C++], [2002-2007, 2009-2010])[ /** ** \file position.hh ** Define the ]b4_namespace_ref[::position class. */ #ifndef BISON_POSITION_HH # define BISON_POSITION_HH # include # include # include ]b4_namespace_open[ /// Abstract a position. class position { public: ]m4_ifdef([b4_location_constructors], [ /// Construct a position. position () : filename (0), line (]b4_location_initial_line[), column (]b4_location_initial_column[) { } ])[ /// Initialization. inline void initialize (]b4_percent_define_get([[filename_type]])[* fn) { filename = fn; line = ]b4_location_initial_line[; column = ]b4_location_initial_column[; } /** \name Line and Column related manipulators ** \{ */ public: /// (line related) Advance to the COUNT next lines. inline void lines (int count = 1) { column = ]b4_location_initial_column[; line += count; } /// (column related) Advance to the COUNT next columns. inline void columns (int count = 1) { column = std::max (]b4_location_initial_column[u, column + count); } /** \} */ public: /// File name to which this position refers. ]b4_percent_define_get([[filename_type]])[* filename; /// Current line number. unsigned int line; /// Current column number. unsigned int column; }; /// Add and assign a position. inline const position& operator+= (position& res, const int width) { res.columns (width); return res; } /// Add two position objects. inline const position operator+ (const position& begin, const int width) { position res = begin; return res += width; } /// Add and assign a position. inline const position& operator-= (position& res, const int width) { return res += -width; } /// Add two position objects. inline const position operator- (const position& begin, const int width) { return begin + -width; } ]b4_percent_define_flag_if([[define_location_comparison]], [[ /// Compare two position objects. inline bool operator== (const position& pos1, const position& pos2) { return (pos1.line == pos2.line && pos1.column == pos2.column && (pos1.filename == pos2.filename || (pos1.filename && pos2.filename && *pos1.filename == *pos2.filename))); } /// Compare two position objects. inline bool operator!= (const position& pos1, const position& pos2) { return !(pos1 == pos2); } ]])[ /** \brief Intercept output stream redirection. ** \param ostr the destination output stream ** \param pos a reference to the position to redirect */ inline std::ostream& operator<< (std::ostream& ostr, const position& pos) { if (pos.filename) ostr << *pos.filename << ':'; return ostr << pos.line << '.' << pos.column; } ]b4_namespace_close[ #endif // not BISON_POSITION_HH] @output(b4_dir_prefix[]location.hh@)@ b4_copyright([Locations for Bison parsers in C++], [2002-2007, 2009-2010])[ /** ** \file location.hh ** Define the ]b4_namespace_ref[::location class. */ #ifndef BISON_LOCATION_HH # define BISON_LOCATION_HH # include # include # include "position.hh" ]b4_namespace_open[ /// Abstract a location. class location { public: ]m4_ifdef([b4_location_constructors], [ /// Construct a location. location () : begin (), end () { } ])[ /// Initialization. inline void initialize (]b4_percent_define_get([[filename_type]])[* fn) { begin.initialize (fn); end = begin; } /** \name Line and Column related manipulators ** \{ */ public: /// Reset initial location to final location. inline void step () { begin = end; } /// Extend the current location to the COUNT next columns. inline void columns (unsigned int count = 1) { end += count; } /// Extend the current location to the COUNT next lines. inline void lines (unsigned int count = 1) { end.lines (count); } /** \} */ public: /// Beginning of the located region. position begin; /// End of the located region. position end; }; /// Join two location objects to create a location. inline const location operator+ (const location& begin, const location& end) { location res = begin; res.end = end.end; return res; } /// Add two location objects. inline const location operator+ (const location& begin, unsigned int width) { location res = begin; res.columns (width); return res; } /// Add and assign a location. inline location& operator+= (location& res, unsigned int width) { res.columns (width); return res; } ]b4_percent_define_flag_if([[define_location_comparison]], [[ /// Compare two location objects. inline bool operator== (const location& loc1, const location& loc2) { return loc1.begin == loc2.begin && loc1.end == loc2.end; } /// Compare two location objects. inline bool operator!= (const location& loc1, const location& loc2) { return !(loc1 == loc2); } ]])[ /** \brief Intercept output stream redirection. ** \param ostr the destination output stream ** \param loc a reference to the location to redirect ** ** Avoid duplicate information. */ inline std::ostream& operator<< (std::ostream& ostr, const location& loc) { position last = loc.end - 1; ostr << loc.begin; if (last.filename && (!loc.begin.filename || *loc.begin.filename != *last.filename)) ostr << '-' << last; else if (loc.begin.line != last.line) ostr << '-' << last.line << '.' << last.column; else if (loc.begin.column != last.column) ostr << '-' << last.column; return ostr; } ]b4_namespace_close[ #endif // not BISON_LOCATION_HH] m4_divert_pop(0) m4_changecom([#]) 07070100062ce6000041ed0000000000000000000000024c5138f900000000000000b600010002ffffffffffffffff0000002300000000root/usr/local/share/bison/m4sugar07070100062ce8000081a40000000000000000000000014c5138c80001802c000000b600010002ffffffffffffffff0000002e00000000root/usr/local/share/bison/m4sugar/m4sugar.m4divert(-1)# -*- Autoconf -*- # This file is part of Autoconf. # Base M4 layer. # Requires GNU M4. # # Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, # 2008 Free Software Foundation, Inc. # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # As a special exception, the Free Software Foundation gives unlimited # permission to copy, distribute and modify the configure scripts that # are the output of Autoconf. You need not follow the terms of the GNU # General Public License when using or distributing such scripts, even # though portions of the text of Autoconf appear in them. The GNU # General Public License (GPL) does govern all other use of the material # that constitutes the Autoconf program. # # Certain portions of the Autoconf source text are designed to be copied # (in certain cases, depending on the input) into the output of # Autoconf. We call these the "data" portions. The rest of the Autoconf # source text consists of comments plus executable code that decides which # of the data portions to output in any given case. We call these # comments and executable code the "non-data" portions. Autoconf never # copies any of the non-data portions into its output. # # This special exception to the GPL applies to versions of Autoconf # released by the Free Software Foundation. When you make and # distribute a modified version of Autoconf, you may extend this special # exception to the GPL to apply to your modified version as well, *unless* # your modified version has the potential to copy into its output some # of the text that was the non-data portion of the version that you started # with. (In other words, unless your change moves or copies text from # the non-data portions to the data portions.) If your modification has # such potential, you must delete any notice of this special exception # to the GPL from your modified version. # # Written by Akim Demaille. # # Set the quotes, whatever the current quoting system. changequote() changequote([, ]) # Some old m4's don't support m4exit. But they provide # equivalent functionality by core dumping because of the # long macros we define. ifdef([__gnu__], , [errprint(M4sugar requires GNU M4. Install it before installing M4sugar or set the M4 environment variable to its absolute file name.) m4exit(2)]) ## ------------------------------- ## ## 1. Simulate --prefix-builtins. ## ## ------------------------------- ## # m4_define # m4_defn # m4_undefine define([m4_define], defn([define])) define([m4_defn], defn([defn])) define([m4_undefine], defn([undefine])) m4_undefine([define]) m4_undefine([defn]) m4_undefine([undefine]) # m4_copy(SRC, DST) # ----------------- # Define DST as the definition of SRC. # What's the difference between: # 1. m4_copy([from], [to]) # 2. m4_define([to], [from($@)]) # Well, obviously 1 is more expensive in space. Maybe 2 is more expensive # in time, but because of the space cost of 1, it's not that obvious. # Nevertheless, one huge difference is the handling of `$0'. If `from' # uses `$0', then with 1, `to''s `$0' is `to', while it is `from' in 2. # The user would certainly prefer to see `to'. m4_define([m4_copy], [m4_define([$2], m4_defn([$1]))]) # m4_rename(SRC, DST) # ------------------- # Rename the macro SRC to DST. m4_define([m4_rename], [m4_copy([$1], [$2])m4_undefine([$1])]) # m4_rename_m4(MACRO-NAME) # ------------------------ # Rename MACRO-NAME to m4_MACRO-NAME. m4_define([m4_rename_m4], [m4_rename([$1], [m4_$1])]) # m4_copy_unm4(m4_MACRO-NAME) # --------------------------- # Copy m4_MACRO-NAME to MACRO-NAME. m4_define([m4_copy_unm4], [m4_copy([$1], m4_bpatsubst([$1], [^m4_\(.*\)], [[\1]]))]) # Some m4 internals have names colliding with tokens we might use. # Rename them a` la `m4 --prefix-builtins'. Conditionals first, since # some subsequent renames are conditional. m4_rename_m4([ifdef]) m4_rename([ifelse], [m4_if]) m4_rename_m4([builtin]) m4_rename_m4([changecom]) m4_rename_m4([changequote]) m4_ifdef([changeword],dnl conditionally available in 1.4.x [m4_undefine([changeword])]) m4_rename_m4([debugfile]) m4_rename_m4([debugmode]) m4_rename_m4([decr]) m4_undefine([divert]) m4_rename_m4([divnum]) m4_rename_m4([dumpdef]) m4_rename_m4([errprint]) m4_rename_m4([esyscmd]) m4_rename_m4([eval]) m4_rename_m4([format]) m4_undefine([include]) m4_rename_m4([incr]) m4_rename_m4([index]) m4_rename_m4([indir]) m4_rename_m4([len]) m4_rename([m4exit], [m4_exit]) m4_undefine([m4wrap]) m4_ifdef([mkstemp],dnl added in M4 1.4.8 [m4_rename_m4([mkstemp]) m4_copy([m4_mkstemp], [m4_maketemp]) m4_undefine([maketemp])], [m4_rename_m4([maketemp]) m4_copy([m4_maketemp], [m4_mkstemp])]) m4_rename([patsubst], [m4_bpatsubst]) m4_rename_m4([popdef]) m4_rename_m4([pushdef]) m4_rename([regexp], [m4_bregexp]) m4_rename_m4([shift]) m4_undefine([sinclude]) m4_rename_m4([substr]) m4_ifdef([symbols],dnl present only in alpha-quality 1.4o [m4_rename_m4([symbols])]) m4_rename_m4([syscmd]) m4_rename_m4([sysval]) m4_rename_m4([traceoff]) m4_rename_m4([traceon]) m4_rename_m4([translit]) m4_undefine([undivert]) ## ------------------- ## ## 2. Error messages. ## ## ------------------- ## # m4_location # ----------- m4_define([m4_location], [__file__:__line__]) # m4_errprintn(MSG) # ----------------- # Same as `errprint', but with the missing end of line. m4_define([m4_errprintn], [m4_errprint([$1 ])]) # m4_warning(MSG) # --------------- # Warn the user. m4_define([m4_warning], [m4_errprintn(m4_location[: warning: $1])]) # m4_fatal(MSG, [EXIT-STATUS]) # ---------------------------- # Fatal the user. :) m4_define([m4_fatal], [m4_errprintn(m4_location[: error: $1])dnl m4_expansion_stack_dump()dnl m4_exit(m4_if([$2],, 1, [$2]))]) # m4_assert(EXPRESSION, [EXIT-STATUS = 1]) # ---------------------------------------- # This macro ensures that EXPRESSION evaluates to true, and exits if # EXPRESSION evaluates to false. m4_define([m4_assert], [m4_if(m4_eval([$1]), 0, [m4_fatal([assert failed: $1], [$2])])]) ## ------------- ## ## 3. Warnings. ## ## ------------- ## # _m4_warn(CATEGORY, MESSAGE, STACK-TRACE) # ---------------------------------------- # Report a MESSAGE to the user if the CATEGORY of warnings is enabled. # This is for traces only. # The STACK-TRACE is a \n-separated list of "LOCATION: MESSAGE". # # Within m4, the macro is a no-op. This macro really matters # when autom4te post-processes the trace output. m4_define([_m4_warn], []) # m4_warn(CATEGORY, MESSAGE) # -------------------------- # Report a MESSAGE to the user if the CATEGORY of warnings is enabled. m4_define([m4_warn], [_m4_warn([$1], [$2], m4_ifdef([m4_expansion_stack], [_m4_defn([m4_expansion_stack]) m4_location[: the top level]]))dnl ]) ## ------------------- ## ## 4. File inclusion. ## ## ------------------- ## # We also want to neutralize include (and sinclude for symmetry), # but we want to extend them slightly: warn when a file is included # several times. This is, in general, a dangerous operation, because # too many people forget to quote the first argument of m4_define. # # For instance in the following case: # m4_define(foo, [bar]) # then a second reading will turn into # m4_define(bar, [bar]) # which is certainly not what was meant. # m4_include_unique(FILE) # ----------------------- # Declare that the FILE was loading; and warn if it has already # been included. m4_define([m4_include_unique], [m4_ifdef([m4_include($1)], [m4_warn([syntax], [file `$1' included several times])])dnl m4_define([m4_include($1)])]) # m4_include(FILE) # ---------------- # Like the builtin include, but warns against multiple inclusions. m4_define([m4_include], [m4_include_unique([$1])dnl m4_builtin([include], [$1])]) # m4_sinclude(FILE) # ----------------- # Like the builtin sinclude, but warns against multiple inclusions. m4_define([m4_sinclude], [m4_include_unique([$1])dnl m4_builtin([sinclude], [$1])]) ## ------------------------------------ ## ## 5. Additional branching constructs. ## ## ------------------------------------ ## # Both `m4_ifval' and `m4_ifset' tests against the empty string. The # difference is that `m4_ifset' is specialized on macros. # # In case of arguments of macros, eg. $1, it makes little difference. # In the case of a macro `FOO', you don't want to check `m4_ifval(FOO, # TRUE)', because if `FOO' expands with commas, there is a shifting of # the arguments. So you want to run `m4_ifval([FOO])', but then you just # compare the *string* `FOO' against `', which, of course fails. # # So you want the variation `m4_ifset' that expects a macro name as $1. # If this macro is both defined and defined to a non empty value, then # it runs TRUE, etc. # m4_ifval(COND, [IF-TRUE], [IF-FALSE]) # ------------------------------------- # If COND is not the empty string, expand IF-TRUE, otherwise IF-FALSE. # Comparable to m4_ifdef. m4_define([m4_ifval], [m4_if([$1], [], [$3], [$2])]) # m4_n(TEXT) # ---------- # If TEXT is not empty, return TEXT and a new line, otherwise nothing. m4_define([m4_n], [m4_if([$1], [], [], [$1 ])]) # m4_ifvaln(COND, [IF-TRUE], [IF-FALSE]) # -------------------------------------- # Same as `m4_ifval', but add an extra newline to IF-TRUE or IF-FALSE # unless that argument is empty. m4_define([m4_ifvaln], [m4_if([$1], [], [m4_n([$3])], [m4_n([$2])])]) # m4_ifset(MACRO, [IF-TRUE], [IF-FALSE]) # -------------------------------------- # If MACRO has no definition, or of its definition is the empty string, # expand IF-FALSE, otherwise IF-TRUE. m4_define([m4_ifset], [m4_ifdef([$1], [m4_ifval(_m4_defn([$1]), [$2], [$3])], [$3])]) # m4_ifndef(NAME, [IF-NOT-DEFINED], [IF-DEFINED]) # ----------------------------------------------- m4_define([m4_ifndef], [m4_ifdef([$1], [$3], [$2])]) # m4_case(SWITCH, VAL1, IF-VAL1, VAL2, IF-VAL2, ..., DEFAULT) # ----------------------------------------------------------- # m4 equivalent of # switch (SWITCH) # { # case VAL1: # IF-VAL1; # break; # case VAL2: # IF-VAL2; # break; # ... # default: # DEFAULT; # break; # }. # All the values are optional, and the macro is robust to active # symbols properly quoted. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_case], [m4_if([$#], 0, [], [$#], 1, [], [$#], 2, [$2], [$1], [$2], [$3], [$0([$1], m4_shift3($@))])]) # m4_bmatch(SWITCH, RE1, VAL1, RE2, VAL2, ..., DEFAULT) # ----------------------------------------------------- # m4 equivalent of # # if (SWITCH =~ RE1) # VAL1; # elif (SWITCH =~ RE2) # VAL2; # elif ... # ... # else # DEFAULT # # All the values are optional, and the macro is robust to active symbols # properly quoted. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_bmatch], [m4_if([$#], 0, [m4_fatal([$0: too few arguments: $#])], [$#], 1, [m4_fatal([$0: too few arguments: $#: $1])], [$#], 2, [$2], [m4_if(m4_bregexp([$1], [$2]), -1, [$0([$1], m4_shift3($@))], [$3])])]) # m4_car(LIST) # m4_cdr(LIST) # ------------ # Manipulate m4 lists. m4_define([m4_car], [[$1]]) m4_define([m4_cdr], [m4_if([$#], 0, [m4_fatal([$0: cannot be called without arguments])], [$#], 1, [], [m4_dquote(m4_shift($@))])]) # _m4_cdr(LIST) # ------------- # Like m4_cdr, except include a leading comma unless only one element # remains. Why? Because comparing a large list against [] is more # expensive in expansion time than comparing the number of arguments; so # _m4_cdr can be used to reduce the number of arguments when it is time # to end recursion. m4_define([_m4_cdr], [m4_if([$#], 1, [], [, m4_dquote(m4_shift($@))])]) # m4_cond(TEST1, VAL1, IF-VAL1, TEST2, VAL2, IF-VAL2, ..., [DEFAULT]) # ------------------------------------------------------------------- # Similar to m4_if, except that each TEST is expanded when encountered. # If the expansion of TESTn matches the string VALn, the result is IF-VALn. # The result is DEFAULT if no tests passed. This macro allows # short-circuiting of expensive tests, where it pays to arrange quick # filter tests to run first. # # For an example, consider a previous implementation of _AS_QUOTE_IFELSE: # # m4_if(m4_index([$1], [\]), [-1], [$2], # m4_eval(m4_index([$1], [\\]) >= 0), [1], [$2], # m4_eval(m4_index([$1], [\$]) >= 0), [1], [$2], # m4_eval(m4_index([$1], [\`]) >= 0), [1], [$3], # m4_eval(m4_index([$1], [\"]) >= 0), [1], [$3], # [$2]) # # Here, m4_index is computed 5 times, and m4_eval 4, even if $1 contains # no backslash. It is more efficient to do: # # m4_cond([m4_index([$1], [\])], [-1], [$2], # [m4_eval(m4_index([$1], [\\]) >= 0)], [1], [$2], # [m4_eval(m4_index([$1], [\$]) >= 0)], [1], [$2], # [m4_eval(m4_index([$1], [\`]) >= 0)], [1], [$3], # [m4_eval(m4_index([$1], [\"]) >= 0)], [1], [$3], # [$2]) # # In the common case of $1 with no backslash, only one m4_index expansion # occurs, and m4_eval is avoided altogether. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_cond], [m4_if([$#], [0], [m4_fatal([$0: cannot be called without arguments])], [$#], [1], [$1], m4_eval([$# % 3]), [2], [m4_fatal([$0: missing an argument])], [_$0($@)])]) m4_define([_m4_cond], [m4_if(($1), [($2)], [$3], [$#], [3], [], [$#], [4], [$4], [$0(m4_shift3($@))])]) ## ---------------------------------------- ## ## 6. Enhanced version of some primitives. ## ## ---------------------------------------- ## # m4_bpatsubsts(STRING, RE1, SUBST1, RE2, SUBST2, ...) # ---------------------------------------------------- # m4 equivalent of # # $_ = STRING; # s/RE1/SUBST1/g; # s/RE2/SUBST2/g; # ... # # All the values are optional, and the macro is robust to active symbols # properly quoted. # # I would have liked to name this macro `m4_bpatsubst', unfortunately, # due to quotation problems, I need to double quote $1 below, therefore # the anchors are broken :( I can't let users be trapped by that. # # Recall that m4_shift3 always results in an argument. Hence, we need # to distinguish between a final deletion vs. ending recursion. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_bpatsubsts], [m4_if([$#], 0, [m4_fatal([$0: too few arguments: $#])], [$#], 1, [m4_fatal([$0: too few arguments: $#: $1])], [$#], 2, [m4_unquote(m4_builtin([patsubst], [[$1]], [$2]))], [$#], 3, [m4_unquote(m4_builtin([patsubst], [[$1]], [$2], [$3]))], [_$0($@m4_if(m4_eval($# & 1), 0, [,]))])]) m4_define([_m4_bpatsubsts], [m4_if([$#], 2, [$1], [$0(m4_builtin([patsubst], [[$1]], [$2], [$3]), m4_shift3($@))])]) # m4_define_default(MACRO, VALUE) # ------------------------------- # If MACRO is undefined, set it to VALUE. m4_define([m4_define_default], [m4_ifndef([$1], [m4_define($@)])]) # m4_default(EXP1, EXP2) # ---------------------- # Returns EXP1 if non empty, otherwise EXP2. # # This macro is called on hot paths, so inline the contents of m4_ifval, # for one less round of expansion. m4_define([m4_default], [m4_if([$1], [], [$2], [$1])]) # m4_defn(NAME) # ------------- # Like the original, except guarantee a warning when using something which is # undefined (unlike M4 1.4.x). This replacement is not a full-featured # replacement: if any of the defined macros contain unbalanced quoting, but # when pasted together result in a well-quoted string, then only native m4 # support is able to get it correct. But that's where quadrigraphs come in # handy, if you really need unbalanced quotes inside your macros. # # This macro is called frequently, so minimize the amount of additional # expansions by skipping m4_ifndef. Better yet, if __m4_version__ exists, # (added in M4 1.6), then let m4 do the job for us (see m4_init). # # _m4_defn is for internal use only - it bypasses the wrapper, so it # must only be used on one argument at a time, and only on macros # known to be defined. Make sure this still works if the user renames # m4_defn but not _m4_defn. m4_copy([m4_defn], [_m4_defn]) m4_define([m4_defn], [m4_if([$#], [0], [[$0]], [$#], [1], [m4_ifdef([$1], [_m4_defn([$1])], [m4_fatal([$0: undefined macro: $1])])], [m4_foreach([_m4_macro], [$@], [$0(_m4_defn([_m4_macro]))])])]) # _m4_dumpdefs_up(NAME) # --------------------- m4_define([_m4_dumpdefs_up], [m4_ifdef([$1], [m4_pushdef([_m4_dumpdefs], _m4_defn([$1]))dnl m4_dumpdef([$1])dnl _m4_popdef([$1])dnl _m4_dumpdefs_up([$1])])]) # _m4_dumpdefs_down(NAME) # ----------------------- m4_define([_m4_dumpdefs_down], [m4_ifdef([_m4_dumpdefs], [m4_pushdef([$1], _m4_defn([_m4_dumpdefs]))dnl _m4_popdef([_m4_dumpdefs])dnl _m4_dumpdefs_down([$1])])]) # m4_dumpdefs(NAME) # ----------------- # Similar to `m4_dumpdef(NAME)', but if NAME was m4_pushdef'ed, display its # value stack (most recent displayed first). m4_define([m4_dumpdefs], [_m4_dumpdefs_up([$1])dnl _m4_dumpdefs_down([$1])]) # m4_popdef(NAME) # --------------- # Like the original, except guarantee a warning when using something which is # undefined (unlike M4 1.4.x). # # This macro is called frequently, so minimize the amount of additional # expansions by skipping m4_ifndef. Better yet, if __m4_version__ exists, # (added in M4 1.6), then let m4 do the job for us (see m4_init). # # _m4_popdef is for internal use only - it bypasses the wrapper, so it # must only be used on macros known to be defined. Make sure this # still works if the user renames m4_popdef but not _m4_popdef. m4_copy([m4_popdef], [_m4_popdef]) m4_define([m4_popdef], [m4_if([$#], [0], [[$0]], [$#], [1], [m4_ifdef([$1], [_m4_popdef([$1])], [m4_fatal([$0: undefined macro: $1])])], [m4_foreach([_m4_macro], [$@], [$0(_m4_defn([_m4_macro]))])])]) # m4_shiftn(N, ...) # ----------------- # Returns ... shifted N times. Useful for recursive "varargs" constructs. # # Autoconf does not use this macro, because it is inherently slower than # calling the common cases of m4_shift2 or m4_shift3 directly. But it # might as well be fast for other clients, such as Libtool. One way to # do this is to expand $@ only once in _m4_shiftn (otherwise, for long # lists, the expansion of m4_if takes twice as much memory as what the # list itself occupies, only to throw away the unused branch). The end # result is strictly equivalent to # m4_if([$1], 1, [m4_shift(,m4_shift(m4_shift($@)))], # [_m4_shiftn(m4_decr([$1]), m4_shift(m4_shift($@)))]) # but with the final `m4_shift(m4_shift($@)))' shared between the two # paths. The first leg uses a no-op m4_shift(,$@) to balance out the (). # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_shiftn], [m4_assert(0 < $1 && $1 < $#)_$0($@)]) m4_define([_m4_shiftn], [m4_if([$1], 1, [m4_shift(], [$0(m4_decr([$1])]), m4_shift(m4_shift($@)))]) # m4_shift2(...) # m4_shift3(...) # ----------------- # Returns ... shifted twice, and three times. Faster than m4_shiftn. m4_define([m4_shift2], [m4_shift(m4_shift($@))]) m4_define([m4_shift3], [m4_shift(m4_shift(m4_shift($@)))]) # _m4_shift2(...) # _m4_shift3(...) # --------------- # Like m4_shift2 or m4_shift3, except include a leading comma unless shifting # consumes all arguments. Why? Because in recursion, it is nice to # distinguish between 1 element left and 0 elements left, based on how many # arguments this shift expands to. m4_define([_m4_shift2], [m4_if([$#], [2], [], [, m4_shift(m4_shift($@))])]) m4_define([_m4_shift3], [m4_if([$#], [3], [], [, m4_shift(m4_shift(m4_shift($@)))])]) # m4_undefine(NAME) # ----------------- # Like the original, except guarantee a warning when using something which is # undefined (unlike M4 1.4.x). # # This macro is called frequently, so minimize the amount of additional # expansions by skipping m4_ifndef. Better yet, if __m4_version__ exists, # (added in M4 1.6), then let m4 do the job for us (see m4_init). # # _m4_undefine is for internal use only - it bypasses the wrapper, so # it must only be used on macros known to be defined. Make sure this # still works if the user renames m4_undefine but not _m4_undefine. m4_copy([m4_undefine], [_m4_undefine]) m4_define([m4_undefine], [m4_if([$#], [0], [[$0]], [$#], [1], [m4_ifdef([$1], [_m4_undefine([$1])], [m4_fatal([$0: undefined macro: $1])])], [m4_foreach([_m4_macro], [$@], [$0(_m4_defn([_m4_macro]))])])]) # _m4_wrap(PRE, POST) # ------------------- # Helper macro for m4_wrap and m4_wrap_lifo. Allows nested calls to # m4_wrap within wrapped text. Use _m4_defn and _m4_popdef for speed. m4_define([_m4_wrap], [m4_ifdef([$0_text], [m4_define([$0_text], [$1]_m4_defn([$0_text])[$2])], [m4_builtin([m4wrap], [m4_unquote( _m4_defn([$0_text])_m4_popdef([$0_text]))])m4_define([$0_text], [$1$2])])]) # m4_wrap(TEXT) # ------------- # Append TEXT to the list of hooks to be executed at the end of input. # Whereas the order of the original may be LIFO in the underlying m4, # this version is always FIFO. m4_define([m4_wrap], [_m4_wrap([], [$1[]])]) # m4_wrap_lifo(TEXT) # ------------------ # Prepend TEXT to the list of hooks to be executed at the end of input. # Whereas the order of m4_wrap may be FIFO in the underlying m4, this # version is always LIFO. m4_define([m4_wrap_lifo], [_m4_wrap([$1[]])]) ## ------------------------- ## ## 7. Quoting manipulation. ## ## ------------------------- ## # m4_apply(MACRO, LIST) # --------------------- # Invoke MACRO, with arguments provided from the quoted list of # comma-separated quoted arguments. If LIST is empty, invoke MACRO # without arguments. The expansion will not be concatenated with # subsequent text. m4_define([m4_apply], [m4_if([$2], [], [$1], [$1($2)])[]]) # _m4_apply(MACRO, LIST) # ---------------------- # Like m4_apply, except do nothing if LIST is empty. m4_define([_m4_apply], [m4_if([$2], [], [], [$1($2)[]])]) # m4_count(ARGS) # -------------- # Return a count of how many ARGS are present. m4_define([m4_count], [$#]) # m4_do(STRING, ...) # ------------------ # This macro invokes all its arguments (in sequence, of course). It is # useful for making your macros more structured and readable by dropping # unnecessary dnl's and have the macros indented properly. No concatenation # occurs after a STRING; use m4_unquote(m4_join(,STRING)) for that. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_do], [m4_if([$#], 0, [], [$#], 1, [$1[]], [$1[]$0(m4_shift($@))])]) # m4_dquote(ARGS) # --------------- # Return ARGS as a quoted list of quoted arguments. m4_define([m4_dquote], [[$@]]) # m4_dquote_elt(ARGS) # ------------------- # Return ARGS as an unquoted list of double-quoted arguments. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_dquote_elt], [m4_if([$#], [0], [], [$#], [1], [[[$1]]], [[[$1]],$0(m4_shift($@))])]) # m4_echo(ARGS) # ------------- # Return the ARGS, with the same level of quoting. Whitespace after # unquoted commas are consumed. m4_define([m4_echo], [$@]) # m4_expand(ARG) # -------------- # Return the expansion of ARG as a single string. Unlike m4_quote($1), this # correctly preserves whitespace following single-quoted commas that appeared # within ARG. # # m4_define([active], [ACT, IVE]) # m4_define([active2], [[ACT, IVE]]) # m4_quote(active, active2) # => ACT,IVE,ACT, IVE # m4_expand([active, active2]) # => ACT, IVE, ACT, IVE # # Unfortunately, due to limitations in m4, ARG must expand to something # with balanced quotes (use quadrigraphs to get around this). The input # is not likely to have unbalanced -=<{(/)}>=- quotes, and it is possible # to have unbalanced (), provided it was specified with proper [] quotes. # # Exploit that extra () will group unquoted commas and the following # whitespace, then convert () to []. m4_bpatsubst can't handle newlines # inside $1, and m4_substr strips quoting. So we (ab)use m4_changequote. m4_define([m4_expand], [_$0(-=<{($1)}>=-)]) m4_define([_m4_expand], [m4_changequote([-=<{(], [)}>=-])$1m4_changequote([, ])]) # m4_ignore(ARGS) # --------------- # Expands to nothing. Useful for conditionally ignoring an arbitrary # number of arguments (see _m4_list_cmp for an example). m4_define([m4_ignore]) # m4_make_list(ARGS) # ------------------ # Similar to m4_dquote, this creates a quoted list of quoted ARGS. This # version is less efficient than m4_dquote, but separates each argument # with a comma and newline, rather than just comma, for readability. # When developing an m4sugar algorithm, you could temporarily use # m4_pushdef([m4_dquote],m4_defn([m4_make_list])) # around your code to make debugging easier. m4_define([m4_make_list], [m4_join([, ], m4_dquote_elt($@))]) # m4_noquote(STRING) # ------------------ # Return the result of ignoring all quotes in STRING and invoking the # macros it contains. Amongst other things, this is useful for enabling # macro invocations inside strings with [] blocks (for instance regexps # and help-strings). On the other hand, since all quotes are disabled, # any macro expanded during this time that relies on nested [] quoting # will likely crash and burn. This macro is seldom useful; consider # m4_unquote or m4_expand instead. m4_define([m4_noquote], [m4_changequote([-=<{(],[)}>=-])$1-=<{()}>=-m4_changequote([,])]) # m4_quote(ARGS) # -------------- # Return ARGS as a single argument. Any whitespace after unquoted commas # is stripped. There is always output, even when there were no arguments. # # It is important to realize the difference between `m4_quote(exp)' and # `[exp]': in the first case you obtain the quoted *result* of the # expansion of EXP, while in the latter you just obtain the string # `exp'. m4_define([m4_quote], [[$*]]) # _m4_quote(ARGS) # --------------- # Like m4_quote, except that when there are no arguments, there is no # output. For conditional scenarios (such as passing _m4_quote as the # macro name in m4_mapall), this feature can be used to distinguish between # one argument of the empty string vs. no arguments. However, in the # normal case with arguments present, this is less efficient than m4_quote. m4_define([_m4_quote], [m4_if([$#], [0], [], [[$*]])]) # m4_reverse(ARGS) # ---------------- # Output ARGS in reverse order. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_reverse], [m4_if([$#], [0], [], [$#], [1], [[$1]], [$0(m4_shift($@)), [$1]])]) # m4_unquote(ARGS) # ---------------- # Remove one layer of quotes from each ARG, performing one level of # expansion. For one argument, m4_unquote([arg]) is more efficient than # m4_do([arg]), but for multiple arguments, the difference is that # m4_unquote separates arguments with commas while m4_do concatenates. # Follow this macro with [] if concatenation with subsequent text is # undesired. m4_define([m4_unquote], [$*]) ## -------------------------- ## ## 8. Implementing m4 loops. ## ## -------------------------- ## # m4_for(VARIABLE, FIRST, LAST, [STEP = +/-1], EXPRESSION) # -------------------------------------------------------- # Expand EXPRESSION defining VARIABLE to FROM, FROM + 1, ..., TO with # increments of STEP. Both limits are included, and bounds are # checked for consistency. The algorithm is robust to indirect # VARIABLE names. Changing VARIABLE inside EXPRESSION will not impact # the number of iterations. # # Uses _m4_defn for speed, and avoid dnl in the macro body. m4_define([m4_for], [m4_pushdef([$1], m4_eval([$2]))]dnl [m4_cond([m4_eval(([$3]) > ([$2]))], 1, [m4_pushdef([_m4_step], m4_eval(m4_default([$4], 1)))m4_assert(_m4_step > 0)_$0([$1], _m4_defn([$1]), m4_eval((([$3]) - ([$2])) / _m4_step * _m4_step + ([$2])), _m4_step, [$5])], [m4_eval(([$3]) < ([$2]))], 1, [m4_pushdef([_m4_step], m4_eval(m4_default([$4], -1)))m4_assert(_m4_step < 0)_$0([$1], _m4_defn([$1]), m4_eval((([$2]) - ([$3])) / -(_m4_step) * _m4_step + ([$2])), _m4_step, [$5])], [m4_pushdef([_m4_step])$5])[]]dnl [m4_popdef([_m4_step], [$1])]) # _m4_for(VARIABLE, COUNT, LAST, STEP, EXPRESSION) # ------------------------------------------------ # Core of the loop, no consistency checks, all arguments are plain # numbers. Define VARIABLE to COUNT, expand EXPRESSION, then alter # COUNT by STEP and iterate if COUNT is not LAST. m4_define([_m4_for], [m4_define([$1], [$2])$5[]m4_if([$2], [$3], [], [$0([$1], m4_eval([$2 + $4]), [$3], [$4], [$5])])]) # Implementing `foreach' loops in m4 is much more tricky than it may # seem. For example, the old M4 1.4.4 manual had an incorrect example, # which looked like this (when translated to m4sugar): # # | # foreach(VAR, (LIST), STMT) # | m4_define([foreach], # | [m4_pushdef([$1])_foreach([$1], [$2], [$3])m4_popdef([$1])]) # | m4_define([_arg1], [$1]) # | m4_define([_foreach], # | [m4_if([$2], [()], , # | [m4_define([$1], _arg1$2)$3[]_foreach([$1], (m4_shift$2), [$3])])]) # # But then if you run # # | m4_define(a, 1) # | m4_define(b, 2) # | m4_define(c, 3) # | foreach([f], [([a], [(b], [c)])], [echo f # | ]) # # it gives # # => echo 1 # => echo (2,3) # # which is not what is expected. # # Of course the problem is that many quotes are missing. So you add # plenty of quotes at random places, until you reach the expected # result. Alternatively, if you are a quoting wizard, you directly # reach the following implementation (but if you really did, then # apply to the maintenance of m4sugar!). # # | # foreach(VAR, (LIST), STMT) # | m4_define([foreach], [m4_pushdef([$1])_foreach($@)m4_popdef([$1])]) # | m4_define([_arg1], [[$1]]) # | m4_define([_foreach], # | [m4_if($2, [()], , # | [m4_define([$1], [_arg1$2])$3[]_foreach([$1], [(m4_shift$2)], [$3])])]) # # which this time answers # # => echo a # => echo (b # => echo c) # # Bingo! # # Well, not quite. # # With a better look, you realize that the parens are more a pain than # a help: since anyway you need to quote properly the list, you end up # with always using an outermost pair of parens and an outermost pair # of quotes. Rejecting the parens both eases the implementation, and # simplifies the use: # # | # foreach(VAR, (LIST), STMT) # | m4_define([foreach], [m4_pushdef([$1])_foreach($@)m4_popdef([$1])]) # | m4_define([_arg1], [$1]) # | m4_define([_foreach], # | [m4_if($2, [], , # | [m4_define([$1], [_arg1($2)])$3[]_foreach([$1], [m4_shift($2)], [$3])])]) # # # Now, just replace the `$2' with `m4_quote($2)' in the outer `m4_if' # to improve robustness, and you come up with a nice implementation # that doesn't require extra parentheses in the user's LIST. # # But wait - now the algorithm is quadratic, because every recursion of # the algorithm keeps the entire LIST and merely adds another m4_shift to # the quoted text. If the user has a lot of elements in LIST, you can # bring the system to its knees with the memory m4 then requires, or trip # the m4 --nesting-limit recursion factor. The only way to avoid # quadratic growth is ensure m4_shift is expanded prior to the recursion. # Hence the design below. # # The M4 manual now includes a chapter devoted to this issue, with # the lessons learned from m4sugar. And still, this design is only # optimal for M4 1.6; see foreach.m4 for yet more comments on why # M4 1.4.x uses yet another implementation. # m4_foreach(VARIABLE, LIST, EXPRESSION) # -------------------------------------- # # Expand EXPRESSION assigning each value of the LIST to VARIABLE. # LIST should have the form `item_1, item_2, ..., item_n', i.e. the # whole list must *quoted*. Quote members too if you don't want them # to be expanded. # # This macro is robust to active symbols: # | m4_define(active, [ACT, IVE]) # | m4_foreach(Var, [active, active], [-Var-]) # => -ACT--IVE--ACT--IVE- # # | m4_foreach(Var, [[active], [active]], [-Var-]) # => -ACT, IVE--ACT, IVE- # # | m4_foreach(Var, [[[active]], [[active]]], [-Var-]) # => -active--active- # # This macro is called frequently, so avoid extra expansions such as # m4_ifval and dnl. Also, since $2 might be quite large, try to use it # as little as possible in _m4_foreach; each extra use requires that much # more memory for expansion. So, rather than directly compare $2 against # [] and use m4_car/m4_cdr for recursion, we instead unbox the list (which # requires swapping the argument order in the helper), insert an ignored # third argument, and use m4_shift3 to detect when recursion is complete. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_foreach], [m4_if([$2], [], [], [m4_pushdef([$1])_$0([$1], [$3], [], $2)m4_popdef([$1])])]) m4_define([_m4_foreach], [m4_if([$#], [3], [], [m4_define([$1], [$4])$2[]$0([$1], [$2], m4_shift3($@))])]) # m4_foreach_w(VARIABLE, LIST, EXPRESSION) # ---------------------------------------- # # Like m4_foreach, but the list is whitespace separated. # # This macro is robust to active symbols: # m4_foreach_w([Var], [ active # b act\ # ive ], [-Var-])end # => -active--b--active-end # m4_define([m4_foreach_w], [m4_foreach([$1], m4_split(m4_normalize([$2]), [ ]), [$3])]) # m4_map(MACRO, LIST) # m4_mapall(MACRO, LIST) # ---------------------- # Invoke MACRO($1), MACRO($2) etc. where $1, $2... are the elements of # LIST. $1, $2... must in turn be lists, appropriate for m4_apply. # If LIST contains an empty sublist, m4_map skips the expansion of # MACRO, while m4_mapall expands MACRO with no arguments. # # Since LIST may be quite large, we want to minimize how often it # appears in the expansion. Rather than use m4_car/m4_cdr iteration, # we unbox the list, ignore the second argument, and use m4_shift2 to # detect the end of recursion. The mismatch in () is intentional; see # _m4_map. For m4_map, an empty list behaves like an empty sublist # and gets ignored; for m4_mapall, we must special-case the empty # list. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_map], [_m4_map([_m4_apply([$1]], [], $2)]) m4_define([m4_mapall], [m4_if([$2], [], [], [_m4_map([m4_apply([$1]], [], $2)])]) # m4_map_sep(MACRO, SEPARATOR, LIST) # m4_mapall_sep(MACRO, SEPARATOR, LIST) # ------------------------------------- # Invoke MACRO($1), SEPARATOR, MACRO($2), ..., MACRO($N) where $1, # $2... $N are the elements of LIST, and are in turn lists appropriate # for m4_apply. SEPARATOR is expanded, in order to allow the creation # of a list of arguments by using a single-quoted comma as the # separator. For each empty sublist, m4_map_sep skips the expansion # of MACRO and SEPARATOR, while m4_mapall_sep expands MACRO with no # arguments. # # For m4_mapall_sep, merely expand the first iteration without the # separator, then include separator as part of subsequent recursion; # but avoid extra expansion of LIST's side-effects via a helper macro. # For m4_map_sep, things are trickier - we don't know if the first # list element is an empty sublist, so we must define a self-modifying # helper macro and use that as the separator instead. m4_define([m4_map_sep], [m4_pushdef([m4_Sep], [m4_define([m4_Sep], _m4_defn([m4_unquote]))])]dnl [_m4_map([_m4_apply([m4_Sep([$2])[]$1]], [], $3)m4_popdef([m4_Sep])]) m4_define([m4_mapall_sep], [m4_if([$3], [], [], [_$0([$1], [$2], $3)])]) m4_define([_m4_mapall_sep], [m4_apply([$1], [$3])_m4_map([m4_apply([$2[]$1]], m4_shift2($@))]) # _m4_map(PREFIX, IGNORED, SUBLIST, ...) # -------------------------------------- # Common implementation for all four m4_map variants. The mismatch in # the number of () is intentional. PREFIX must supply a form of # m4_apply, the open `(', and the MACRO to be applied. Each iteration # then appends `,', the current SUBLIST and the closing `)', then # recurses to the next SUBLIST. IGNORED is an aid to ending recursion # efficiently. # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([_m4_map], [m4_if([$#], [2], [], [$1, [$3])$0([$1], m4_shift2($@))])]) # m4_transform(EXPRESSION, ARG...) # -------------------------------- # Expand EXPRESSION([ARG]) for each argument. More efficient than # m4_foreach([var], [ARG...], [EXPRESSION(m4_defn([var]))]) # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_transform], [m4_if([$#], [0], [m4_fatal([$0: too few arguments: $#])], [$#], [1], [], [$#], [2], [$1([$2])[]], [$1([$2])[]$0([$1], m4_shift2($@))])]) # m4_transform_pair(EXPRESSION, [END-EXPR = EXPRESSION], ARG...) # -------------------------------------------------------------- # Perform a pairwise grouping of consecutive ARGs, by expanding # EXPRESSION([ARG1], [ARG2]). If there are an odd number of ARGs, the # final argument is expanded with END-EXPR([ARGn]). # # For example: # m4_define([show], [($*)m4_newline])dnl # m4_transform_pair([show], [], [a], [b], [c], [d], [e])dnl # => (a,b) # => (c,d) # => (e) # # Please keep foreach.m4 in sync with any adjustments made here. m4_define([m4_transform_pair], [m4_if([$#], [0], [m4_fatal([$0: too few arguments: $#])], [$#], [1], [m4_fatal([$0: too few arguments: $#: $1])], [$#], [2], [], [$#], [3], [m4_default([$2], [$1])([$3])[]], [$#], [4], [$1([$3], [$4])[]], [$1([$3], [$4])[]$0([$1], [$2], m4_shift(m4_shift3($@)))])]) ## --------------------------- ## ## 9. More diversion support. ## ## --------------------------- ## # _m4_divert(DIVERSION-NAME or NUMBER) # ------------------------------------ # If DIVERSION-NAME is the name of a diversion, return its number, # otherwise if it is a NUMBER return it. m4_define([_m4_divert], [m4_ifdef([_m4_divert($1)], [m4_indir([_m4_divert($1)])], [$1])]) # KILL is only used to suppress output. m4_define([_m4_divert(KILL)], -1) # The empty diversion name is a synonym for 0. m4_define([_m4_divert()], 0) # _m4_divert_n_stack # ------------------ # Print m4_divert_stack with newline prepended, if it's nonempty. m4_define([_m4_divert_n_stack], [m4_ifdef([m4_divert_stack], [ _m4_defn([m4_divert_stack])])]) # m4_divert(DIVERSION-NAME) # ------------------------- # Change the diversion stream to DIVERSION-NAME. m4_define([m4_divert], [m4_define([m4_divert_stack], m4_location[: $0: $1]_m4_divert_n_stack)]dnl [m4_builtin([divert], _m4_divert([$1]))]) # m4_divert_push(DIVERSION-NAME) # ------------------------------ # Change the diversion stream to DIVERSION-NAME, while stacking old values. m4_define([m4_divert_push], [m4_pushdef([m4_divert_stack], m4_location[: $0: $1]_m4_divert_n_stack)]dnl [m4_pushdef([_m4_divert_diversion], [$1])]dnl [m4_builtin([divert], _m4_divert([$1]))]) # m4_divert_pop([DIVERSION-NAME]) # ------------------------------- # Change the diversion stream to its previous value, unstacking it. # If specified, verify we left DIVERSION-NAME. # When we pop the last value from the stack, we divert to -1. m4_define([m4_divert_pop], [m4_ifndef([_m4_divert_diversion], [m4_fatal([too many m4_divert_pop])])]dnl [m4_if([$1], [], [], [$1], _m4_defn([_m4_divert_diversion]), [], [m4_fatal([$0($1): diversion mismatch: ]_m4_divert_n_stack)])]dnl [_m4_popdef([m4_divert_stack], [_m4_divert_diversion])]dnl [m4_builtin([divert], m4_ifdef([_m4_divert_diversion], [_m4_divert(_m4_defn([_m4_divert_diversion]))], -1))]) # m4_divert_text(DIVERSION-NAME, CONTENT) # --------------------------------------- # Output CONTENT into DIVERSION-NAME (which may be a number actually). # An end of line is appended for free to CONTENT. m4_define([m4_divert_text], [m4_divert_push([$1])$2 m4_divert_pop([$1])]) # m4_divert_once(DIVERSION-NAME, CONTENT) # --------------------------------------- # Output CONTENT into DIVERSION-NAME once, if not already there. # An end of line is appended for free to CONTENT. m4_define([m4_divert_once], [m4_expand_once([m4_divert_text([$1], [$2])])]) # m4_undivert(DIVERSION-NAME) # --------------------------- # Undivert DIVERSION-NAME. Unlike the M4 version, this only takes a single # diversion identifier, and should not be used to undivert files. m4_define([m4_undivert], [m4_builtin([undivert], _m4_divert([$1]))]) ## --------------------------------------------- ## ## 10. Defining macros with bells and whistles. ## ## --------------------------------------------- ## # `m4_defun' is basically `m4_define' but it equips the macro with the # needed machinery for `m4_require'. A macro must be m4_defun'd if # either it is m4_require'd, or it m4_require's. # # Two things deserve attention and are detailed below: # 1. Implementation of m4_require # 2. Keeping track of the expansion stack # # 1. Implementation of m4_require # =============================== # # Of course m4_defun AC_PROVIDE's the macro, so that a macro which has # been expanded is not expanded again when m4_require'd, but the # difficult part is the proper expansion of macros when they are # m4_require'd. # # The implementation is based on two ideas, (i) using diversions to # prepare the expansion of the macro and its dependencies (by Franc,ois # Pinard), and (ii) expand the most recently m4_require'd macros _after_ # the previous macros (by Axel Thimm). # # # The first idea: why use diversions? # ----------------------------------- # # When a macro requires another, the other macro is expanded in new # diversion, GROW. When the outer macro is fully expanded, we first # undivert the most nested diversions (GROW - 1...), and finally # undivert GROW. To understand why we need several diversions, # consider the following example: # # | m4_defun([TEST1], [Test...REQUIRE([TEST2])1]) # | m4_defun([TEST2], [Test...REQUIRE([TEST3])2]) # | m4_defun([TEST3], [Test...3]) # # Because m4_require is not required to be first in the outer macros, we # must keep the expansions of the various levels of m4_require separated. # Right before executing the epilogue of TEST1, we have: # # GROW - 2: Test...3 # GROW - 1: Test...2 # GROW: Test...1 # BODY: # # Finally the epilogue of TEST1 undiverts GROW - 2, GROW - 1, and # GROW into the regular flow, BODY. # # GROW - 2: # GROW - 1: # GROW: # BODY: Test...3; Test...2; Test...1 # # (The semicolons are here for clarification, but of course are not # emitted.) This is what Autoconf 2.0 (I think) to 2.13 (I'm sure) # implement. # # # The second idea: first required first out # ----------------------------------------- # # The natural implementation of the idea above is buggy and produces # very surprising results in some situations. Let's consider the # following example to explain the bug: # # | m4_defun([TEST1], [REQUIRE([TEST2a])REQUIRE([TEST2b])]) # | m4_defun([TEST2a], []) # | m4_defun([TEST2b], [REQUIRE([TEST3])]) # | m4_defun([TEST3], [REQUIRE([TEST2a])]) # | # | AC_INIT # | TEST1 # # The dependencies between the macros are: # # 3 --- 2b # / \ is m4_require'd by # / \ left -------------------- right # 2a ------------ 1 # # If you strictly apply the rules given in the previous section you get: # # GROW - 2: TEST3 # GROW - 1: TEST2a; TEST2b # GROW: TEST1 # BODY: # # (TEST2a, although required by TEST3 is not expanded in GROW - 3 # because is has already been expanded before in GROW - 1, so it has # been AC_PROVIDE'd, so it is not expanded again) so when you undivert # the stack of diversions, you get: # # GROW - 2: # GROW - 1: # GROW: # BODY: TEST3; TEST2a; TEST2b; TEST1 # # i.e., TEST2a is expanded after TEST3 although the latter required the # former. # # Starting from 2.50, we use an implementation provided by Axel Thimm. # The idea is simple: the order in which macros are emitted must be the # same as the one in which macros are expanded. (The bug above can # indeed be described as: a macro has been AC_PROVIDE'd before its # dependent, but it is emitted after: the lack of correlation between # emission and expansion order is guilty). # # How to do that? You keep the stack of diversions to elaborate the # macros, but each time a macro is fully expanded, emit it immediately. # # In the example above, when TEST2a is expanded, but it's epilogue is # not run yet, you have: # # GROW - 2: # GROW - 1: TEST2a # GROW: Elaboration of TEST1 # BODY: # # The epilogue of TEST2a emits it immediately: # # GROW - 2: # GROW - 1: # GROW: Elaboration of TEST1 # BODY: TEST2a # # TEST2b then requires TEST3, so right before the epilogue of TEST3, you # have: # # GROW - 2: TEST3 # GROW - 1: Elaboration of TEST2b # GROW: Elaboration of TEST1 # BODY: TEST2a # # The epilogue of TEST3 emits it: # # GROW - 2: # GROW - 1: Elaboration of TEST2b # GROW: Elaboration of TEST1 # BODY: TEST2a; TEST3 # # TEST2b is now completely expanded, and emitted: # # GROW - 2: # GROW - 1: # GROW: Elaboration of TEST1 # BODY: TEST2a; TEST3; TEST2b # # and finally, TEST1 is finished and emitted: # # GROW - 2: # GROW - 1: # GROW: # BODY: TEST2a; TEST3; TEST2b: TEST1 # # The idea is simple, but the implementation is a bit evolved. If you # are like me, you will want to see the actual functioning of this # implementation to be convinced. The next section gives the full # details. # # # The Axel Thimm implementation at work # ------------------------------------- # # We consider the macros above, and this configure.ac: # # AC_INIT # TEST1 # # You should keep the definitions of _m4_defun_pro, _m4_defun_epi, and # m4_require at hand to follow the steps. # # This implements tries not to assume that the current diversion is # BODY, so as soon as a macro (m4_defun'd) is expanded, we first # record the current diversion under the name _m4_divert_dump (denoted # DUMP below for short). This introduces an important difference with # the previous versions of Autoconf: you cannot use m4_require if you # are not inside an m4_defun'd macro, and especially, you cannot # m4_require directly from the top level. # # We have not tried to simulate the old behavior (better yet, we # diagnose it), because it is too dangerous: a macro m4_require'd from # the top level is expanded before the body of `configure', i.e., before # any other test was run. I let you imagine the result of requiring # AC_STDC_HEADERS for instance, before AC_PROG_CC was actually run.... # # After AC_INIT was run, the current diversion is BODY. # * AC_INIT was run # DUMP: undefined # diversion stack: BODY |- # # * TEST1 is expanded # The prologue of TEST1 sets _m4_divert_dump, which is the diversion # where the current elaboration will be dumped, to the current # diversion. It also m4_divert_push to GROW, where the full # expansion of TEST1 and its dependencies will be elaborated. # DUMP: BODY # BODY: empty # diversions: GROW, BODY |- # # * TEST1 requires TEST2a # _m4_require_call m4_divert_pushes another temporary diversion, # GROW - 1, and expands TEST2a in there. # DUMP: BODY # BODY: empty # GROW - 1: TEST2a # diversions: GROW - 1, GROW, BODY |- # Than the content of the temporary diversion is moved to DUMP and the # temporary diversion is popped. # DUMP: BODY # BODY: TEST2a # diversions: GROW, BODY |- # # * TEST1 requires TEST2b # Again, _m4_require_call pushes GROW - 1 and heads to expand TEST2b. # DUMP: BODY # BODY: TEST2a # diversions: GROW - 1, GROW, BODY |- # # * TEST2b requires TEST3 # _m4_require_call pushes GROW - 2 and expands TEST3 here. # (TEST3 requires TEST2a, but TEST2a has already been m4_provide'd, so # nothing happens.) # DUMP: BODY # BODY: TEST2a # GROW - 2: TEST3 # diversions: GROW - 2, GROW - 1, GROW, BODY |- # Than the diversion is appended to DUMP, and popped. # DUMP: BODY # BODY: TEST2a; TEST3 # diversions: GROW - 1, GROW, BODY |- # # * TEST1 requires TEST2b (contd.) # The content of TEST2b is expanded... # DUMP: BODY # BODY: TEST2a; TEST3 # GROW - 1: TEST2b, # diversions: GROW - 1, GROW, BODY |- # ... and moved to DUMP. # DUMP: BODY # BODY: TEST2a; TEST3; TEST2b # diversions: GROW, BODY |- # # * TEST1 is expanded: epilogue # TEST1's own content is in GROW... # DUMP: BODY # BODY: TEST2a; TEST3; TEST2b # GROW: TEST1 # diversions: BODY |- # ... and it's epilogue moves it to DUMP and then undefines DUMP. # DUMP: undefined # BODY: TEST2a; TEST3; TEST2b; TEST1 # diversions: BODY |- # # # 2. Keeping track of the expansion stack # ======================================= # # When M4 expansion goes wrong it is often extremely hard to find the # path amongst macros that drove to the failure. What is needed is # the stack of macro `calls'. One could imagine that GNU M4 would # maintain a stack of macro expansions, unfortunately it doesn't, so # we do it by hand. This is of course extremely costly, but the help # this stack provides is worth it. Nevertheless to limit the # performance penalty this is implemented only for m4_defun'd macros, # not for define'd macros. # # The scheme is simplistic: each time we enter an m4_defun'd macros, # we prepend its name in m4_expansion_stack, and when we exit the # macro, we remove it (thanks to pushdef/popdef). # # In addition, we want to detect circular m4_require dependencies. # Each time we expand a macro FOO we define _m4_expanding(FOO); and # m4_require(BAR) simply checks whether _m4_expanding(BAR) is defined. # m4_expansion_stack_push(TEXT) # ----------------------------- m4_define([m4_expansion_stack_push], [m4_pushdef([m4_expansion_stack], [$1]m4_ifdef([m4_expansion_stack], [ _m4_defn([m4_expansion_stack])]))]) # m4_expansion_stack_pop # ---------------------- m4_define([m4_expansion_stack_pop], [m4_popdef([m4_expansion_stack])]) # m4_expansion_stack_dump # ----------------------- # Dump the expansion stack. m4_define([m4_expansion_stack_dump], [m4_ifdef([m4_expansion_stack], [m4_errprintn(_m4_defn([m4_expansion_stack]))])dnl m4_errprintn(m4_location[: the top level])]) # _m4_divert(GROW) # ---------------- # This diversion is used by the m4_defun/m4_require machinery. It is # important to keep room before GROW because for each nested # AC_REQUIRE we use an additional diversion (i.e., two m4_require's # will use GROW - 2. More than 3 levels has never seemed to be # needed.) # # ... # - GROW - 2 # m4_require'd code, 2 level deep # - GROW - 1 # m4_require'd code, 1 level deep # - GROW # m4_defun'd macros are elaborated here. m4_define([_m4_divert(GROW)], 10000) # _m4_defun_pro(MACRO-NAME) # ------------------------- # The prologue for Autoconf macros. # # This is called frequently, so minimize the number of macro invocations # by avoiding dnl and m4_defn overhead. m4_define([_m4_defun_pro], m4_do([[m4_ifdef([m4_expansion_stack], [], [_m4_defun_pro_outer[]])]], [[m4_expansion_stack_push(_m4_defn( [m4_location($1)])[: $1 is expanded from...])]], [[m4_pushdef([_m4_expanding($1)])]])) m4_define([_m4_defun_pro_outer], [m4_copy([_m4_divert_diversion], [_m4_divert_dump])m4_divert_push([GROW])]) # _m4_defun_epi(MACRO-NAME) # ------------------------- # The Epilogue for Autoconf macros. MACRO-NAME only helps tracing # the PRO/EPI pairs. # # This is called frequently, so minimize the number of macro invocations # by avoiding dnl and m4_popdef overhead. m4_define([_m4_defun_epi], m4_do([[_m4_popdef([_m4_expanding($1)])]], [[m4_expansion_stack_pop()]], [[m4_ifdef([m4_expansion_stack], [], [_m4_defun_epi_outer[]])]], [[m4_provide([$1])]])) m4_define([_m4_defun_epi_outer], [_m4_undefine([_m4_divert_dump])m4_divert_pop([GROW])m4_undivert([GROW])]) # m4_defun(NAME, EXPANSION) # ------------------------- # Define a macro which automatically provides itself. Add machinery # so the macro automatically switches expansion to the diversion # stack if it is not already using it. In this case, once finished, # it will bring back all the code accumulated in the diversion stack. # This, combined with m4_require, achieves the topological ordering of # macros. We don't use this macro to define some frequently called # macros that are not involved in ordering constraints, to save m4 # processing. m4_define([m4_defun], [m4_define([m4_location($1)], m4_location)dnl m4_define([$1], [_m4_defun_pro([$1])$2[]_m4_defun_epi([$1])])]) # m4_defun_once(NAME, EXPANSION) # ------------------------------ # As m4_defun, but issues the EXPANSION only once, and warns if used # several times. m4_define([m4_defun_once], [m4_define([m4_location($1)], m4_location)dnl m4_define([$1], [m4_provide_if([$1], [m4_warn([syntax], [$1 invoked multiple times])], [_m4_defun_pro([$1])$2[]_m4_defun_epi([$1])])])]) # m4_pattern_forbid(ERE, [WHY]) # ----------------------------- # Declare that no token matching the forbidden extended regular # expression ERE should be seen in the output unless... m4_define([m4_pattern_forbid], []) # m4_pattern_allow(ERE) # --------------------- # ... that token also matches the allowed extended regular expression ERE. # Both used via traces. m4_define([m4_pattern_allow], []) ## --------------------------------- ## ## 11. Dependencies between macros. ## ## --------------------------------- ## # m4_before(THIS-MACRO-NAME, CALLED-MACRO-NAME) # --------------------------------------------- # Issue a warning if CALLED-MACRO-NAME was called before THIS-MACRO-NAME. m4_define([m4_before], [m4_provide_if([$2], [m4_warn([syntax], [$2 was called before $1])])]) # m4_require(NAME-TO-CHECK, [BODY-TO-EXPAND = NAME-TO-CHECK]) # ----------------------------------------------------------- # If NAME-TO-CHECK has never been expanded (actually, if it is not # m4_provide'd), expand BODY-TO-EXPAND *before* the current macro # expansion. Once expanded, emit it in _m4_divert_dump. Keep track # of the m4_require chain in m4_expansion_stack. # # The normal cases are: # # - NAME-TO-CHECK == BODY-TO-EXPAND # Which you can use for regular macros with or without arguments, e.g., # m4_require([AC_PROG_CC], [AC_PROG_CC]) # m4_require([AC_CHECK_HEADERS(limits.h)], [AC_CHECK_HEADERS(limits.h)]) # which is just the same as # m4_require([AC_PROG_CC]) # m4_require([AC_CHECK_HEADERS(limits.h)]) # # - BODY-TO-EXPAND == m4_indir([NAME-TO-CHECK]) # In the case of macros with irregular names. For instance: # m4_require([AC_LANG_COMPILER(C)], [indir([AC_LANG_COMPILER(C)])]) # which means `if the macro named `AC_LANG_COMPILER(C)' (the parens are # part of the name, it is not an argument) has not been run, then # call it.' # Had you used # m4_require([AC_LANG_COMPILER(C)], [AC_LANG_COMPILER(C)]) # then m4_require would have tried to expand `AC_LANG_COMPILER(C)', i.e., # call the macro `AC_LANG_COMPILER' with `C' as argument. # # You could argue that `AC_LANG_COMPILER', when it receives an argument # such as `C' should dispatch the call to `AC_LANG_COMPILER(C)'. But this # `extension' prevents `AC_LANG_COMPILER' from having actual arguments that # it passes to `AC_LANG_COMPILER(C)'. # # This is called frequently, so minimize the number of macro invocations # by avoiding dnl and other overhead on the common path. m4_define([m4_require], m4_do([[m4_ifdef([_m4_expanding($1)], [m4_fatal([$0: circular dependency of $1])])]], [[m4_ifdef([_m4_divert_dump], [], [m4_fatal([$0($1): cannot be used outside of an ]dnl m4_bmatch([$0], [^AC_], [[AC_DEFUN]], [[m4_defun]])['d macro])])]], [[m4_provide_if([$1], [], [_m4_require_call([$1], [$2])])]])) # _m4_require_call(NAME-TO-CHECK, [BODY-TO-EXPAND = NAME-TO-CHECK]) # ----------------------------------------------------------------- # If m4_require decides to expand the body, it calls this macro. # # This is called frequently, so minimize the number of macro invocations # by avoiding dnl and other overhead on the common path. m4_define([_m4_require_call], m4_do([[m4_define([_m4_divert_grow], m4_decr(_m4_divert_grow))]], [[m4_divert_push(_m4_divert_grow)]], [[m4_default([$2], [$1]) m4_provide_if([$1], [], [m4_warn([syntax], [$1 is m4_require'd but not m4_defun'd])])]], [[m4_divert(_m4_defn([_m4_divert_dump]))]], [[m4_undivert(_m4_divert_grow)]], [[m4_divert_pop(_m4_divert_grow)]], [[m4_define([_m4_divert_grow], m4_incr(_m4_divert_grow))]])) # _m4_divert_grow # --------------- # The counter for _m4_require_call. m4_define([_m4_divert_grow], _m4_divert([GROW])) # m4_expand_once(TEXT, [WITNESS = TEXT]) # -------------------------------------- # If TEXT has never been expanded, e