# PaCkAgE DaTaStReAm xproto 1 2505 # end of header 070701000a5c9c000081a40000000000000000000000014f867ab4000001140000010000010007ffffffffffffffff0000000f00000000xproto/pkginfoPKG=xproto NAME=xproto 7.0.23 SPARC 64bit Solaris 10 VERSION=7.0.23 PSTAMP=12th April 2012 VENDOR=X.org EMAIL=http://cgit.freedesktop.org/xorg/proto/xproto/ DESC=X.org X11 protocol headers ARCH=sparc CATEGORY=utility CLASSES=none BASEDIR=/ ISTATES=S s 1 2 3 RSTATES=S s 1 2 3 070701000a5c9b000081a40000000000000000000000014f867ab400000bc70000010000010007ffffffffffffffff0000000e00000000xproto/pkgmap: 1 2505 1 d none /usr ? ? ? 1 d none /usr/local ? ? ? 1 d none /usr/local/include 0755 root root 1 d none /usr/local/include/X11 0755 root root 1 f none /usr/local/include/X11/DECkeysym.h 0644 root root 2820 25464 1334213123 1 f none /usr/local/include/X11/HPkeysym.h 0644 root root 6044 7847 1334213123 1 f none /usr/local/include/X11/Sunkeysym.h 0644 root root 4022 50957 1334213123 1 f none /usr/local/include/X11/X.h 0644 root root 20205 24407 1334213123 1 f none /usr/local/include/X11/XF86keysym.h 0644 root root 13468 4780 1334213123 1 f none /usr/local/include/X11/XWDFile.h 0644 root root 3968 53900 1334213123 1 f none /usr/local/include/X11/Xalloca.h 0644 root root 4578 37485 1334213123 1 f none /usr/local/include/X11/Xarch.h 0644 root root 2951 28672 1334213123 1 f none /usr/local/include/X11/Xatom.h 0644 root root 2518 50755 1334213123 1 f none /usr/local/include/X11/Xdefs.h 0644 root root 2406 56213 1334213123 1 f none /usr/local/include/X11/Xfuncproto.h 0644 root root 5989 16993 1334213123 1 f none /usr/local/include/X11/Xfuncs.h 0644 root root 2200 42606 1334213123 1 f none /usr/local/include/X11/Xmd.h 0644 root root 6338 49925 1334213123 1 f none /usr/local/include/X11/Xos.h 0644 root root 4323 17698 1334213123 1 f none /usr/local/include/X11/Xos_r.h 0644 root root 33693 7219 1334213123 1 f none /usr/local/include/X11/Xosdefs.h 0644 root root 3115 50750 1334213123 1 f none /usr/local/include/X11/Xpoll.h 0644 root root 7038 2827 1334213123 1 f none /usr/local/include/X11/Xproto.h 0644 root root 56677 41758 1334213123 1 f none /usr/local/include/X11/Xprotostr.h 0644 root root 2805 22420 1334213123 1 f none /usr/local/include/X11/Xthreads.h 0644 root root 12362 62509 1334213123 1 f none /usr/local/include/X11/Xw32defs.h 0644 root root 1910 17273 1334213123 1 f none /usr/local/include/X11/Xwindows.h 0644 root root 2680 25810 1334213123 1 f none /usr/local/include/X11/Xwinsock.h 0644 root root 1886 25967 1334213123 1 f none /usr/local/include/X11/ap_keysym.h 0644 root root 2298 40648 1334213123 1 f none /usr/local/include/X11/keysym.h 0644 root root 2774 23136 1334213123 1 f none /usr/local/include/X11/keysymdef.h 0644 root root 175017 29795 1334213123 1 d none /usr/local/lib 0755 root root 1 d none /usr/local/lib/pkgconfig 0755 root root 1 f none /usr/local/lib/pkgconfig/xproto.pc 0644 root root 214 19683 1334213123 1 d none /usr/local/share 0755 root root 1 d none /usr/local/share/doc 0755 root root 1 d none /usr/local/share/doc/xproto 0755 root root 1 f none /usr/local/share/doc/xproto/encoding.xml 0644 root root 133533 23894 1334213123 1 f none /usr/local/share/doc/xproto/glossary.xml 0644 root root 49732 20807 1334213123 1 f none /usr/local/share/doc/xproto/keysyms.xml 0644 root root 150187 51794 1334213123 1 f none /usr/local/share/doc/xproto/sect1-9.xml 0644 root root 467109 57431 1334213123 1 f none /usr/local/share/doc/xproto/x11protocol.xml 0644 root root 2588 18704 1334213123 1 i checkinstall 785 2565 1334213300 1 i pkginfo 276 21500 1334213300 07070100000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000b00000000TRAILER!!!070701000a5c9c000081a40000000000000000000000014f867ab4000001140000010000010007ffffffffffffffff0000000800000000pkginfoPKG=xproto NAME=xproto 7.0.23 SPARC 64bit Solaris 10 VERSION=7.0.23 PSTAMP=12th April 2012 VENDOR=X.org EMAIL=http://cgit.freedesktop.org/xorg/proto/xproto/ DESC=X.org X11 protocol headers ARCH=sparc CATEGORY=utility CLASSES=none BASEDIR=/ ISTATES=S s 1 2 3 RSTATES=S s 1 2 3 070701000a5c9b000081a40000000000000000000000014f867ab400000bc70000010000010007ffffffffffffffff0000000700000000pkgmap: 1 2505 1 d none /usr ? ? ? 1 d none /usr/local ? ? ? 1 d none /usr/local/include 0755 root root 1 d none /usr/local/include/X11 0755 root root 1 f none /usr/local/include/X11/DECkeysym.h 0644 root root 2820 25464 1334213123 1 f none /usr/local/include/X11/HPkeysym.h 0644 root root 6044 7847 1334213123 1 f none /usr/local/include/X11/Sunkeysym.h 0644 root root 4022 50957 1334213123 1 f none /usr/local/include/X11/X.h 0644 root root 20205 24407 1334213123 1 f none /usr/local/include/X11/XF86keysym.h 0644 root root 13468 4780 1334213123 1 f none /usr/local/include/X11/XWDFile.h 0644 root root 3968 53900 1334213123 1 f none /usr/local/include/X11/Xalloca.h 0644 root root 4578 37485 1334213123 1 f none /usr/local/include/X11/Xarch.h 0644 root root 2951 28672 1334213123 1 f none /usr/local/include/X11/Xatom.h 0644 root root 2518 50755 1334213123 1 f none /usr/local/include/X11/Xdefs.h 0644 root root 2406 56213 1334213123 1 f none /usr/local/include/X11/Xfuncproto.h 0644 root root 5989 16993 1334213123 1 f none /usr/local/include/X11/Xfuncs.h 0644 root root 2200 42606 1334213123 1 f none /usr/local/include/X11/Xmd.h 0644 root root 6338 49925 1334213123 1 f none /usr/local/include/X11/Xos.h 0644 root root 4323 17698 1334213123 1 f none /usr/local/include/X11/Xos_r.h 0644 root root 33693 7219 1334213123 1 f none /usr/local/include/X11/Xosdefs.h 0644 root root 3115 50750 1334213123 1 f none /usr/local/include/X11/Xpoll.h 0644 root root 7038 2827 1334213123 1 f none /usr/local/include/X11/Xproto.h 0644 root root 56677 41758 1334213123 1 f none /usr/local/include/X11/Xprotostr.h 0644 root root 2805 22420 1334213123 1 f none /usr/local/include/X11/Xthreads.h 0644 root root 12362 62509 1334213123 1 f none /usr/local/include/X11/Xw32defs.h 0644 root root 1910 17273 1334213123 1 f none /usr/local/include/X11/Xwindows.h 0644 root root 2680 25810 1334213123 1 f none /usr/local/include/X11/Xwinsock.h 0644 root root 1886 25967 1334213123 1 f none /usr/local/include/X11/ap_keysym.h 0644 root root 2298 40648 1334213123 1 f none /usr/local/include/X11/keysym.h 0644 root root 2774 23136 1334213123 1 f none /usr/local/include/X11/keysymdef.h 0644 root root 175017 29795 1334213123 1 d none /usr/local/lib 0755 root root 1 d none /usr/local/lib/pkgconfig 0755 root root 1 f none /usr/local/lib/pkgconfig/xproto.pc 0644 root root 214 19683 1334213123 1 d none /usr/local/share 0755 root root 1 d none /usr/local/share/doc 0755 root root 1 d none /usr/local/share/doc/xproto 0755 root root 1 f none /usr/local/share/doc/xproto/encoding.xml 0644 root root 133533 23894 1334213123 1 f none /usr/local/share/doc/xproto/glossary.xml 0644 root root 49732 20807 1334213123 1 f none /usr/local/share/doc/xproto/keysyms.xml 0644 root root 150187 51794 1334213123 1 f none /usr/local/share/doc/xproto/sect1-9.xml 0644 root root 467109 57431 1334213123 1 f none /usr/local/share/doc/xproto/x11protocol.xml 0644 root root 2588 18704 1334213123 1 i checkinstall 785 2565 1334213300 1 i pkginfo 276 21500 1334213300 070701000a5cc8000041ed0000000000000000000000024f867ab4000000000000010000010007ffffffffffffffff0000000800000000install070701000a5cc9000081ed0000000000000000000000014f867ab4000003110000010000010007ffffffffffffffff0000001500000000install/checkinstall#!/bin/sh # expected_bits="64" expected_release="5.10" expected_platform="sparc" # 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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.h/* * Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * * The X Window System is a Trademark of The Open Group. * */ /* This is a collection of things to try and minimize system dependencies * in a "significant" number of source files. */ #ifndef _XOS_H_ # define _XOS_H_ # include /* * Get major data types (esp. caddr_t) */ # include # if defined(__SCO__) || defined(__UNIXWARE__) # include # endif /* * Just about everyone needs the strings routines. We provide both forms here, * index/rindex and strchr/strrchr, so any systems that don't provide them all * need to have #defines here. * * These macros are defined this way, rather than, e.g.: * #defined index(s,c) strchr(s,c) * because someone might be using them as function pointers, and such * a change would break compatibility for anyone who's relying on them * being the way they currently are. So we're stuck with them this way, * which can be really inconvenient. :-( */ # include # if defined(__SCO__) || defined(__UNIXWARE__) || defined(__sun) || defined(__CYGWIN__) # include # else # ifndef index # define index(s,c) (strchr((s),(c))) # endif # ifndef rindex # define rindex(s,c) (strrchr((s),(c))) # endif # endif /* * Get open(2) constants */ # if defined(X_NOT_POSIX) # include # if defined(USL) || defined(__i386__) && (defined(SYSV) || defined(SVR4)) # include # endif # ifdef WIN32 # include # else # include # endif # else /* X_NOT_POSIX */ # include # include # endif /* X_NOT_POSIX else */ /* * Get struct timeval and struct tm */ # if defined(_POSIX_SOURCE) && defined(SVR4) /* need to omit _POSIX_SOURCE in order to get what we want in SVR4 */ # undef _POSIX_SOURCE # include # define _POSIX_SOURCE # elif defined(WIN32) # include # if !defined(_WINSOCKAPI_) && !defined(_WILLWINSOCK_) && !defined(_TIMEVAL_DEFINED) && !defined(_STRUCT_TIMEVAL) struct timeval { long tv_sec; /* seconds */ long tv_usec; /* and microseconds */ }; # define _TIMEVAL_DEFINED # endif # include # define gettimeofday(t) \ { \ struct _timeb _gtodtmp; \ _ftime (&_gtodtmp); \ (t)->tv_sec = _gtodtmp.time; \ (t)->tv_usec = _gtodtmp.millitm * 1000; \ } # else # include # include # endif /* defined(_POSIX_SOURCE) && defined(SVR4) */ /* define X_GETTIMEOFDAY macro, a portable gettimeofday() */ # if defined(_XOPEN_XPG4) || defined(_XOPEN_UNIX) /* _XOPEN_UNIX is XPG4.2 */ # define X_GETTIMEOFDAY(t) gettimeofday(t, (struct timezone*)0) # else # if defined(SVR4) || defined(__SVR4) || defined(WIN32) # define X_GETTIMEOFDAY(t) gettimeofday(t) # else # define X_GETTIMEOFDAY(t) gettimeofday(t, (struct timezone*)0) # endif # endif /* XPG4 else */ # ifdef __GNU__ # define PATH_MAX 4096 # define MAXPATHLEN 4096 # define OPEN_MAX 256 /* We define a reasonable limit. */ # endif /* use POSIX name for signal */ # if defined(X_NOT_POSIX) && defined(SYSV) && !defined(SIGCHLD) # define SIGCHLD SIGCLD # endif # include #endif /* _XOS_H_ */ 070701000a5cb7000081a40000000000000000000000014f867a03000007760000010000010007ffffffffffffffff0000002600000000root/usr/local/include/X11/Xw32defs.h#ifndef _XW32DEFS_H # define _XW32DEFS_H # ifdef __GNUC__ /* mingw is more close to unix than msvc */ # if !defined(__daddr_t_defined) typedef char *caddr_t; # endif # define lstat stat # else typedef char *caddr_t; # define access _access # define alloca _alloca # define chdir _chdir # define chmod _chmod # define close _close # define creat _creat # define dup _dup # define dup2 _dup2 # define environ _environ # define execl _execl # define execle _execle # define execlp _execlp # define execlpe _execlpe # define execv _execv # define execve _execve # define execvp _execvp # define execvpe _execvpe # define fdopen _fdopen # define fileno _fileno # define fstat _fstat # define getcwd _getcwd # define getpid _getpid # define hypot _hypot # define isascii __isascii # define isatty _isatty # define lseek _lseek # define mkdir _mkdir # define mktemp _mktemp # define open _open # define putenv _putenv # define read _read # define rmdir _rmdir # define sleep(x) Sleep((x) * 1000) # define stat _stat # define sys_errlist _sys_errlist # define sys_nerr _sys_nerr # define umask _umask # define unlink _unlink # define write _write # define random rand # define srandom srand # define O_RDONLY _O_RDONLY # define O_WRONLY _O_WRONLY # define O_RDWR _O_RDWR # define O_APPEND _O_APPEND # define O_CREAT _O_CREAT # define O_TRUNC _O_TRUNC # define O_EXCL _O_EXCL # define O_TEXT _O_TEXT # define O_BINARY _O_BINARY # define O_RAW _O_BINARY # define S_IFMT _S_IFMT # define S_IFDIR _S_IFDIR # define S_IFCHR _S_IFCHR # define S_IFREG _S_IFREG # define S_IREAD _S_IREAD # define S_IWRITE _S_IWRITE # define S_IEXEC _S_IEXEC # define F_OK 0 # define X_OK 1 # define W_OK 2 # define R_OK 4 # endif /* __GNUC__ */ #endif 070701000a5cb6000081a40000000000000000000000014f867a030000304a0000010000010007ffffffffffffffff0000002600000000root/usr/local/include/X11/Xthreads.h/* * Copyright 1993, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * * */ #ifndef _XTHREADS_H_ # define _XTHREADS_H_ /* Redefine these to XtMalloc/XtFree or whatever you want before including * this header file. */ # ifndef xmalloc # define xmalloc malloc # endif # ifndef xfree # define xfree free # endif # ifdef CTHREADS # include typedef cthread_t xthread_t; typedef struct condition xcondition_rec; typedef struct mutex xmutex_rec; # define xthread_init() cthread_init() # define xthread_self cthread_self # define xthread_fork(func,closure) cthread_fork(func,closure) # define xthread_yield() cthread_yield() # define xthread_exit(v) cthread_exit(v) # define xthread_set_name(t,str) cthread_set_name(t,str) # define xmutex_init(m) mutex_init(m) # define xmutex_clear(m) mutex_clear(m) # define xmutex_lock(m) mutex_lock(m) # define xmutex_unlock(m) mutex_unlock(m) # define xmutex_set_name(m,str) mutex_set_name(m,str) # define xcondition_init(cv) condition_init(cv) # define xcondition_clear(cv) condition_clear(cv) # define xcondition_wait(cv,m) condition_wait(cv,m) # define xcondition_signal(cv) condition_signal(cv) # define xcondition_broadcast(cv) condition_broadcast(cv) # define xcondition_set_name(cv,str) condition_set_name(cv,str) # else /* !CTHREADS */ # if defined(SVR4) # include # include typedef thread_t xthread_t; typedef thread_key_t xthread_key_t; typedef cond_t xcondition_rec; typedef mutex_t xmutex_rec; # if defined(__UNIXWARE__) extern xthread_t (*_x11_thr_self)(); # define xthread_self (_x11_thr_self) # else # define xthread_self thr_self # endif # define xthread_fork(func,closure) thr_create(NULL,0,func,closure,THR_NEW_LWP|THR_DETACHED,NULL) # define xthread_yield() thr_yield() # define xthread_exit(v) thr_exit(v) # define xthread_key_create(kp,d) thr_keycreate(kp,d) # ifdef __sun # define xthread_key_delete(k) 0 # else # define xthread_key_delete(k) thr_keydelete(k) # endif # define xthread_set_specific(k,v) thr_setspecific(k,v) # define xthread_get_specific(k,vp) thr_getspecific(k,vp) # define xmutex_init(m) mutex_init(m,USYNC_THREAD,0) # define xmutex_clear(m) mutex_destroy(m) # define xmutex_lock(m) mutex_lock(m) # define xmutex_unlock(m) mutex_unlock(m) # define xcondition_init(cv) cond_init(cv,USYNC_THREAD,0) # define xcondition_clear(cv) cond_destroy(cv) # define xcondition_wait(cv,m) cond_wait(cv,m) # define xcondition_signal(cv) cond_signal(cv) # define xcondition_broadcast(cv) cond_broadcast(cv) # else /* !SVR4 */ # ifdef WIN32 # include typedef DWORD xthread_t; typedef DWORD xthread_key_t; struct _xthread_waiter { HANDLE sem; struct _xthread_waiter *next; }; typedef struct { CRITICAL_SECTION cs; struct _xthread_waiter *waiters; } xcondition_rec; typedef CRITICAL_SECTION xmutex_rec; # define xthread_init() _Xthread_init() # define xthread_self GetCurrentThreadId # define xthread_fork(func,closure) { \ DWORD _tmptid; \ CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)func, (LPVOID)closure, 0, \ &_tmptid); \ } # define xthread_yield() Sleep(0) # define xthread_exit(v) ExitThread((DWORD)(v)) # define xthread_key_create(kp,d) *(kp) = TlsAlloc() # define xthread_key_delete(k) TlsFree(k) # define xthread_set_specific(k,v) TlsSetValue(k,v) # define xthread_get_specific(k,vp) TlsGetValue(k) # define xmutex_init(m) InitializeCriticalSection(m) # define xmutex_clear(m) DeleteCriticalSection(m) # define _XMUTEX_NESTS # define xmutex_lock(m) EnterCriticalSection(m) # define xmutex_unlock(m) LeaveCriticalSection(m) # define xcondition_init(cv) { \ InitializeCriticalSection(&(cv)->cs); \ (cv)->waiters = NULL; \ } # define xcondition_clear(cv) DeleteCriticalSection(&(cv)->cs) extern struct _xthread_waiter *_Xthread_waiter(); # define xcondition_wait(cv,m) { \ struct _xthread_waiter *_tmpthr = _Xthread_waiter(); \ EnterCriticalSection(&(cv)->cs); \ _tmpthr->next = (cv)->waiters; \ (cv)->waiters = _tmpthr; \ LeaveCriticalSection(&(cv)->cs); \ LeaveCriticalSection(m); \ WaitForSingleObject(_tmpthr->sem, INFINITE); \ EnterCriticalSection(m); \ } # define xcondition_signal(cv) { \ EnterCriticalSection(&(cv)->cs); \ if ((cv)->waiters) { \ ReleaseSemaphore((cv)->waiters->sem, 1, NULL); \ (cv)->waiters = (cv)->waiters->next; \ } \ LeaveCriticalSection(&(cv)->cs); \ } # define xcondition_broadcast(cv) { \ struct _xthread_waiter *_tmpthr; \ EnterCriticalSection(&(cv)->cs); \ for (_tmpthr = (cv)->waiters; _tmpthr; _tmpthr = _tmpthr->next) \ ReleaseSemaphore(_tmpthr->sem, 1, NULL); \ (cv)->waiters = NULL; \ LeaveCriticalSection(&(cv)->cs); \ } # else /* !WIN32 */ # ifdef USE_TIS_SUPPORT /* * TIS support is intended for thread safe libraries. * This should not be used for general client programming. */ # include typedef pthread_t xthread_t; typedef pthread_key_t xthread_key_t; typedef pthread_cond_t xcondition_rec; typedef pthread_mutex_t xmutex_rec; # define xthread_self tis_self # define xthread_fork(func,closure) { pthread_t _tmpxthr; \ pthread_create(&_tmpxthr,NULL,func,closure); } # define xthread_yield() pthread_yield_np() # define xthread_exit(v) pthread_exit(v) # define xthread_key_create(kp,d) tis_key_create(kp,d) # define xthread_key_delete(k) tis_key_delete(k) # define xthread_set_specific(k,v) tis_setspecific(k,v) # define xthread_get_specific(k,vp) *(vp) = tis_getspecific(k) # define XMUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER # define xmutex_init(m) tis_mutex_init(m) # define xmutex_clear(m) tis_mutex_destroy(m) # define xmutex_lock(m) tis_mutex_lock(m) # define xmutex_unlock(m) tis_mutex_unlock(m) # define xcondition_init(c) tis_cond_init(c) # define xcondition_clear(c) tis_cond_destroy(c) # define xcondition_wait(c,m) tis_cond_wait(c,m) # define xcondition_signal(c) tis_cond_signal(c) # define xcondition_broadcast(c) tis_cond_broadcast(c) # else # ifdef USE_NBSD_THREADLIB /* * NetBSD threadlib support is intended for thread safe libraries. * This should not be used for general client programming. */ # include typedef thr_t xthread_t; typedef thread_key_t xthread_key_t; typedef cond_t xcondition_rec; typedef mutex_t xmutex_rec; # define xthread_self thr_self # define xthread_fork(func,closure) { thr_t _tmpxthr; \ /* XXX Create it detached? --thorpej */ \ thr_create(&_tmpxthr,NULL,func,closure); } # define xthread_yield() thr_yield() # define xthread_exit(v) thr_exit(v) # define xthread_key_create(kp,d) thr_keycreate(kp,d) # define xthread_key_delete(k) thr_keydelete(k) # define xthread_set_specific(k,v) thr_setspecific(k,v) # define xthread_get_specific(k,vp) *(vp) = thr_getspecific(k) # define XMUTEX_INITIALIZER MUTEX_INITIALIZER # define xmutex_init(m) mutex_init(m, 0) # define xmutex_clear(m) mutex_destroy(m) # define xmutex_lock(m) mutex_lock(m) # define xmutex_unlock(m) mutex_unlock(m) # define xcondition_init(c) cond_init(c, 0, 0) # define xcondition_clear(c) cond_destroy(c) # define xcondition_wait(c,m) cond_wait(c,m) # define xcondition_signal(c) cond_signal(c) # define xcondition_broadcast(c) cond_broadcast(c) # else # include typedef pthread_t xthread_t; typedef pthread_key_t xthread_key_t; typedef pthread_cond_t xcondition_rec; typedef pthread_mutex_t xmutex_rec; # define xthread_self pthread_self # define xthread_yield() pthread_yield() # define xthread_exit(v) pthread_exit(v) # define xthread_set_specific(k,v) pthread_setspecific(k,v) # define xmutex_clear(m) pthread_mutex_destroy(m) # define xmutex_lock(m) pthread_mutex_lock(m) # define xmutex_unlock(m) pthread_mutex_unlock(m) # ifndef XPRE_STANDARD_API # define xthread_key_create(kp,d) pthread_key_create(kp,d) # define xthread_key_delete(k) pthread_key_delete(k) # define xthread_get_specific(k,vp) *(vp) = pthread_getspecific(k) # define xthread_fork(func,closure) { pthread_t _tmpxthr; \ pthread_create(&_tmpxthr,NULL,func,closure); } # define XMUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER # define xmutex_init(m) pthread_mutex_init(m, NULL) # define xcondition_init(c) pthread_cond_init(c, NULL) # else /* XPRE_STANDARD_API */ # define xthread_key_create(kp,d) pthread_keycreate(kp,d) # define xthread_key_delete(k) 0 # define xthread_get_specific(k,vp) pthread_getspecific(k,vp) # define xthread_fork(func,closure) { pthread_t _tmpxthr; \ pthread_create(&_tmpxthr,pthread_attr_default,func,closure); } # define xmutex_init(m) pthread_mutex_init(m, pthread_mutexattr_default) # define xcondition_init(c) pthread_cond_init(c, pthread_condattr_default) # endif /* XPRE_STANDARD_API */ # define xcondition_clear(c) pthread_cond_destroy(c) # define xcondition_wait(c,m) pthread_cond_wait(c,m) # define xcondition_signal(c) pthread_cond_signal(c) # define xcondition_broadcast(c) pthread_cond_broadcast(c) # if defined(_DECTHREADS_) static xthread_t _X_no_thread_id; # define xthread_have_id(id) !pthread_equal(id, _X_no_thread_id) # define xthread_clear_id(id) id = _X_no_thread_id # define xthread_equal(id1,id2) pthread_equal(id1, id2) # endif /* _DECTHREADS_ */ # if defined(__linux__) # define xthread_have_id(id) !pthread_equal(id, 0) # define xthread_clear_id(id) id = 0 # define xthread_equal(id1,id2) pthread_equal(id1, id2) # endif /* linux */ # if defined(_CMA_VENDOR_) && defined(_CMA__IBM) && (_CMA_VENDOR_ == _CMA__IBM) # ifdef DEBUG /* too much of a hack to enable normally */ /* see also cma__obj_set_name() */ # define xmutex_set_name(m,str) ((char**)(m)->field1)[5] = (str) # define xcondition_set_name(cv,str) ((char**)(cv)->field1)[5] = (str) # endif /* DEBUG */ # endif /* _CMA_VENDOR_ == _CMA__IBM */ # endif /* USE_NBSD_THREADLIB */ # endif /* USE_TIS_SUPPORT */ # endif /* WIN32 */ # endif /* SVR4 */ # endif /* CTHREADS */ typedef xcondition_rec *xcondition_t; typedef xmutex_rec *xmutex_t; # ifndef xcondition_malloc # define xcondition_malloc() (xcondition_t)xmalloc(sizeof(xcondition_rec)) # endif # ifndef xcondition_free # define xcondition_free(c) xfree((char *)c) # endif # ifndef xmutex_malloc # define xmutex_malloc() (xmutex_t)xmalloc(sizeof(xmutex_rec)) # endif # ifndef xmutex_free # define xmutex_free(m) xfree((char *)m) # endif # ifndef xthread_have_id # define xthread_have_id(id) id # endif # ifndef xthread_clear_id # define xthread_clear_id(id) id = 0 # endif # ifndef xthread_equal # define xthread_equal(id1,id2) ((id1) == (id2)) # endif /* aids understood by some debuggers */ # ifndef xthread_set_name # define xthread_set_name(t,str) # endif # ifndef xmutex_set_name # define xmutex_set_name(m,str) # endif # ifndef xcondition_set_name # define xcondition_set_name(cv,str) # endif #endif /* _XTHREADS_H_ */ 070701000a5ca7000081a40000000000000000000000014f867a030000349c0000010000010007ffffffffffffffff0000002800000000root/usr/local/include/X11/XF86keysym.h/* * XFree86 vendor specific keysyms. * * The XFree86 keysym range is 0x10080001 - 0x1008FFFF. * * When adding new entries, the xc/lib/XKeysymDB file should also be * updated to make the new entries visible to Xlib. */ /* * ModeLock * * This one is old, and not really used any more since XKB offers this * functionality. */ #define XF86XK_ModeLock 0x1008FF01 /* Mode Switch Lock */ /* * Note, 0x1008FF07 - 0x1008FF0F are free and should be used for misc new * keysyms that don't fit into any of the groups below. * * 0x1008FF64, 0x1008FF6F, 0x1008FF71, 0x1008FF83 are no longer used, * and should be used first for new keysyms. * * Check in keysymdef.h for generic symbols before adding new XFree86-specific * symbols here. * * X.Org will not be adding to the XF86 set of keysyms, though they have * been adopted and are considered a "standard" part of X keysym definitions. * XFree86 never properly commented these keysyms, so we have done our * best to explain the semantic meaning of these keys. * * XFree86 has removed their mail archives of the period, that might have * shed more light on some of these definitions. Until/unless we resurrect * these archives, these are from memory and usage. */ /* Backlight controls. */ #define XF86XK_MonBrightnessUp 0x1008FF02 /* Monitor/panel brightness */ #define XF86XK_MonBrightnessDown 0x1008FF03 /* Monitor/panel brightness */ #define XF86XK_KbdLightOnOff 0x1008FF04 /* Keyboards may be lit */ #define XF86XK_KbdBrightnessUp 0x1008FF05 /* Keyboards may be lit */ #define XF86XK_KbdBrightnessDown 0x1008FF06 /* Keyboards may be lit */ /* * Keys found on some "Internet" keyboards. */ #define XF86XK_Standby 0x1008FF10 /* System into standby mode */ #define XF86XK_AudioLowerVolume 0x1008FF11 /* Volume control down */ #define XF86XK_AudioMute 0x1008FF12 /* Mute sound from the system */ #define XF86XK_AudioRaiseVolume 0x1008FF13 /* Volume control up */ #define XF86XK_AudioPlay 0x1008FF14 /* Start playing of audio > */ #define XF86XK_AudioStop 0x1008FF15 /* Stop playing audio */ #define XF86XK_AudioPrev 0x1008FF16 /* Previous track */ #define XF86XK_AudioNext 0x1008FF17 /* Next track */ #define XF86XK_HomePage 0x1008FF18 /* Display user's home page */ #define XF86XK_Mail 0x1008FF19 /* Invoke user's mail program */ #define XF86XK_Start 0x1008FF1A /* Start application */ #define XF86XK_Search 0x1008FF1B /* Search */ #define XF86XK_AudioRecord 0x1008FF1C /* Record audio application */ /* These are sometimes found on PDA's (e.g. Palm, PocketPC or elsewhere) */ #define XF86XK_Calculator 0x1008FF1D /* Invoke calculator program */ #define XF86XK_Memo 0x1008FF1E /* Invoke Memo taking program */ #define XF86XK_ToDoList 0x1008FF1F /* Invoke To Do List program */ #define XF86XK_Calendar 0x1008FF20 /* Invoke Calendar program */ #define XF86XK_PowerDown 0x1008FF21 /* Deep sleep the system */ #define XF86XK_ContrastAdjust 0x1008FF22 /* Adjust screen contrast */ #define XF86XK_RockerUp 0x1008FF23 /* Rocker switches exist up */ #define XF86XK_RockerDown 0x1008FF24 /* and down */ #define XF86XK_RockerEnter 0x1008FF25 /* and let you press them */ /* Some more "Internet" keyboard symbols */ #define XF86XK_Back 0x1008FF26 /* Like back on a browser */ #define XF86XK_Forward 0x1008FF27 /* Like forward on a browser */ #define XF86XK_Stop 0x1008FF28 /* Stop current operation */ #define XF86XK_Refresh 0x1008FF29 /* Refresh the page */ #define XF86XK_PowerOff 0x1008FF2A /* Power off system entirely */ #define XF86XK_WakeUp 0x1008FF2B /* Wake up system from sleep */ #define XF86XK_Eject 0x1008FF2C /* Eject device (e.g. DVD) */ #define XF86XK_ScreenSaver 0x1008FF2D /* Invoke screensaver */ #define XF86XK_WWW 0x1008FF2E /* Invoke web browser */ #define XF86XK_Sleep 0x1008FF2F /* Put system to sleep */ #define XF86XK_Favorites 0x1008FF30 /* Show favorite locations */ #define XF86XK_AudioPause 0x1008FF31 /* Pause audio playing */ #define XF86XK_AudioMedia 0x1008FF32 /* Launch media collection app */ #define XF86XK_MyComputer 0x1008FF33 /* Display "My Computer" window */ #define XF86XK_VendorHome 0x1008FF34 /* Display vendor home web site */ #define XF86XK_LightBulb 0x1008FF35 /* Light bulb keys exist */ #define XF86XK_Shop 0x1008FF36 /* Display shopping web site */ #define XF86XK_History 0x1008FF37 /* Show history of web surfing */ #define XF86XK_OpenURL 0x1008FF38 /* Open selected URL */ #define XF86XK_AddFavorite 0x1008FF39 /* Add URL to favorites list */ #define XF86XK_HotLinks 0x1008FF3A /* Show "hot" links */ #define XF86XK_BrightnessAdjust 0x1008FF3B /* Invoke brightness adj. UI */ #define XF86XK_Finance 0x1008FF3C /* Display financial site */ #define XF86XK_Community 0x1008FF3D /* Display user's community */ #define XF86XK_AudioRewind 0x1008FF3E /* "rewind" audio track */ #define XF86XK_BackForward 0x1008FF3F /* ??? */ #define XF86XK_Launch0 0x1008FF40 /* Launch Application */ #define XF86XK_Launch1 0x1008FF41 /* Launch Application */ #define XF86XK_Launch2 0x1008FF42 /* Launch Application */ #define XF86XK_Launch3 0x1008FF43 /* Launch Application */ #define XF86XK_Launch4 0x1008FF44 /* Launch Application */ #define XF86XK_Launch5 0x1008FF45 /* Launch Application */ #define XF86XK_Launch6 0x1008FF46 /* Launch Application */ #define XF86XK_Launch7 0x1008FF47 /* Launch Application */ #define XF86XK_Launch8 0x1008FF48 /* Launch Application */ #define XF86XK_Launch9 0x1008FF49 /* Launch Application */ #define XF86XK_LaunchA 0x1008FF4A /* Launch Application */ #define XF86XK_LaunchB 0x1008FF4B /* Launch Application */ #define XF86XK_LaunchC 0x1008FF4C /* Launch Application */ #define XF86XK_LaunchD 0x1008FF4D /* Launch Application */ #define XF86XK_LaunchE 0x1008FF4E /* Launch Application */ #define XF86XK_LaunchF 0x1008FF4F /* Launch Application */ #define XF86XK_ApplicationLeft 0x1008FF50 /* switch to application, left */ #define XF86XK_ApplicationRight 0x1008FF51 /* switch to application, right*/ #define XF86XK_Book 0x1008FF52 /* Launch bookreader */ #define XF86XK_CD 0x1008FF53 /* Launch CD/DVD player */ #define XF86XK_Calculater 0x1008FF54 /* Launch Calculater */ #define XF86XK_Clear 0x1008FF55 /* Clear window, screen */ #define XF86XK_Close 0x1008FF56 /* Close window */ #define XF86XK_Copy 0x1008FF57 /* Copy selection */ #define XF86XK_Cut 0x1008FF58 /* Cut selection */ #define XF86XK_Display 0x1008FF59 /* Output switch key */ #define XF86XK_DOS 0x1008FF5A /* Launch DOS (emulation) */ #define XF86XK_Documents 0x1008FF5B /* Open documents window */ #define XF86XK_Excel 0x1008FF5C /* Launch spread sheet */ #define XF86XK_Explorer 0x1008FF5D /* Launch file explorer */ #define XF86XK_Game 0x1008FF5E /* Launch game */ #define XF86XK_Go 0x1008FF5F /* Go to URL */ #define XF86XK_iTouch 0x1008FF60 /* Logitch iTouch- don't use */ #define XF86XK_LogOff 0x1008FF61 /* Log off system */ #define XF86XK_Market 0x1008FF62 /* ?? */ #define XF86XK_Meeting 0x1008FF63 /* enter meeting in calendar */ #define XF86XK_MenuKB 0x1008FF65 /* distingush keyboard from PB */ #define XF86XK_MenuPB 0x1008FF66 /* distinuish PB from keyboard */ #define XF86XK_MySites 0x1008FF67 /* Favourites */ #define XF86XK_New 0x1008FF68 /* New (folder, document... */ #define XF86XK_News 0x1008FF69 /* News */ #define XF86XK_OfficeHome 0x1008FF6A /* Office home (old Staroffice)*/ #define XF86XK_Open 0x1008FF6B /* Open */ #define XF86XK_Option 0x1008FF6C /* ?? */ #define XF86XK_Paste 0x1008FF6D /* Paste */ #define XF86XK_Phone 0x1008FF6E /* Launch phone; dial number */ #define XF86XK_Q 0x1008FF70 /* Compaq's Q - don't use */ #define XF86XK_Reply 0x1008FF72 /* Reply e.g., mail */ #define XF86XK_Reload 0x1008FF73 /* Reload web page, file, etc. */ #define XF86XK_RotateWindows 0x1008FF74 /* Rotate windows e.g. xrandr */ #define XF86XK_RotationPB 0x1008FF75 /* don't use */ #define XF86XK_RotationKB 0x1008FF76 /* don't use */ #define XF86XK_Save 0x1008FF77 /* Save (file, document, state */ #define XF86XK_ScrollUp 0x1008FF78 /* Scroll window/contents up */ #define XF86XK_ScrollDown 0x1008FF79 /* Scrool window/contentd down */ #define XF86XK_ScrollClick 0x1008FF7A /* Use XKB mousekeys instead */ #define XF86XK_Send 0x1008FF7B /* Send mail, file, object */ #define XF86XK_Spell 0x1008FF7C /* Spell checker */ #define XF86XK_SplitScreen 0x1008FF7D /* Split window or screen */ #define XF86XK_Support 0x1008FF7E /* Get support (??) */ #define XF86XK_TaskPane 0x1008FF7F /* Show tasks */ #define XF86XK_Terminal 0x1008FF80 /* Launch terminal emulator */ #define XF86XK_Tools 0x1008FF81 /* toolbox of desktop/app. */ #define XF86XK_Travel 0x1008FF82 /* ?? */ #define XF86XK_UserPB 0x1008FF84 /* ?? */ #define XF86XK_User1KB 0x1008FF85 /* ?? */ #define XF86XK_User2KB 0x1008FF86 /* ?? */ #define XF86XK_Video 0x1008FF87 /* Launch video player */ #define XF86XK_WheelButton 0x1008FF88 /* button from a mouse wheel */ #define XF86XK_Word 0x1008FF89 /* Launch word processor */ #define XF86XK_Xfer 0x1008FF8A #define XF86XK_ZoomIn 0x1008FF8B /* zoom in view, map, etc. */ #define XF86XK_ZoomOut 0x1008FF8C /* zoom out view, map, etc. */ #define XF86XK_Away 0x1008FF8D /* mark yourself as away */ #define XF86XK_Messenger 0x1008FF8E /* as in instant messaging */ #define XF86XK_WebCam 0x1008FF8F /* Launch web camera app. */ #define XF86XK_MailForward 0x1008FF90 /* Forward in mail */ #define XF86XK_Pictures 0x1008FF91 /* Show pictures */ #define XF86XK_Music 0x1008FF92 /* Launch music application */ #define XF86XK_Battery 0x1008FF93 /* Display battery information */ #define XF86XK_Bluetooth 0x1008FF94 /* Enable/disable Bluetooth */ #define XF86XK_WLAN 0x1008FF95 /* Enable/disable WLAN */ #define XF86XK_UWB 0x1008FF96 /* Enable/disable UWB */ #define XF86XK_AudioForward 0x1008FF97 /* fast-forward audio track */ #define XF86XK_AudioRepeat 0x1008FF98 /* toggle repeat mode */ #define XF86XK_AudioRandomPlay 0x1008FF99 /* toggle shuffle mode */ #define XF86XK_Subtitle 0x1008FF9A /* cycle through subtitle */ #define XF86XK_AudioCycleTrack 0x1008FF9B /* cycle through audio tracks */ #define XF86XK_CycleAngle 0x1008FF9C /* cycle through angles */ #define XF86XK_FrameBack 0x1008FF9D /* video: go one frame back */ #define XF86XK_FrameForward 0x1008FF9E /* video: go one frame forward */ #define XF86XK_Time 0x1008FF9F /* display, or shows an entry for time seeking */ #define XF86XK_Select 0x1008FFA0 /* Select button on joypads and remotes */ #define XF86XK_View 0x1008FFA1 /* Show a view options/properties */ #define XF86XK_TopMenu 0x1008FFA2 /* Go to a top-level menu in a video */ #define XF86XK_Red 0x1008FFA3 /* Red button */ #define XF86XK_Green 0x1008FFA4 /* Green button */ #define XF86XK_Yellow 0x1008FFA5 /* Yellow button */ #define XF86XK_Blue 0x1008FFA6 /* Blue button */ #define XF86XK_Suspend 0x1008FFA7 /* Sleep to RAM */ #define XF86XK_Hibernate 0x1008FFA8 /* Sleep to disk */ #define XF86XK_TouchpadToggle 0x1008FFA9 /* Toggle between touchpad/trackstick */ #define XF86XK_TouchpadOn 0x1008FFB0 /* The touchpad got switched on */ #define XF86XK_TouchpadOff 0x1008FFB1 /* The touchpad got switched off */ /* Keys for special action keys (hot keys) */ /* Virtual terminals on some operating systems */ #define XF86XK_Switch_VT_1 0x1008FE01 #define XF86XK_Switch_VT_2 0x1008FE02 #define XF86XK_Switch_VT_3 0x1008FE03 #define XF86XK_Switch_VT_4 0x1008FE04 #define XF86XK_Switch_VT_5 0x1008FE05 #define XF86XK_Switch_VT_6 0x1008FE06 #define XF86XK_Switch_VT_7 0x1008FE07 #define XF86XK_Switch_VT_8 0x1008FE08 #define XF86XK_Switch_VT_9 0x1008FE09 #define XF86XK_Switch_VT_10 0x1008FE0A #define XF86XK_Switch_VT_11 0x1008FE0B #define XF86XK_Switch_VT_12 0x1008FE0C #define XF86XK_Ungrab 0x1008FE20 /* force ungrab */ #define XF86XK_ClearGrab 0x1008FE21 /* kill application with grab */ #define XF86XK_Next_VMode 0x1008FE22 /* next video mode available */ #define XF86XK_Prev_VMode 0x1008FE23 /* prev. video mode available */ #define XF86XK_LogWindowTree 0x1008FE24 /* print window tree to log */ #define XF86XK_LogGrabInfo 0x1008FE25 /* print all active grabs to log */ 070701000a5cb4000081a40000000000000000000000014f867a030000dd650000010000010007ffffffffffffffff0000002400000000root/usr/local/include/X11/Xproto.h/* Definitions for the X window system used by server and c bindings */ /* * This packet-construction scheme makes the following assumptions: * * 1. The compiler is able * to generate code which addresses one- and two-byte quantities. * In the worst case, this would be done with bit-fields. If bit-fields * are used it may be necessary to reorder the request fields in this file, * depending on the order in which the machine assigns bit fields to * machine words. There may also be a problem with sign extension, * as K+R specify that bitfields are always unsigned. * * 2. 2- and 4-byte fields in packet structures must be ordered by hand * such that they are naturally-aligned, so that no compiler will ever * insert padding bytes. * * 3. All packets are hand-padded to a multiple of 4 bytes, for * the same reason. */ #ifndef XPROTO_H #define XPROTO_H /*********************************************************** Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ #include #include /* * Define constants for the sizes of the network packets. The sz_ prefix is * used instead of something more descriptive so that the symbols are no more * than 32 characters in length (which causes problems for some compilers). */ #define sz_xSegment 8 #define sz_xPoint 4 #define sz_xRectangle 8 #define sz_xArc 12 #define sz_xConnClientPrefix 12 #define sz_xConnSetupPrefix 8 #define sz_xConnSetup 32 #define sz_xPixmapFormat 8 #define sz_xDepth 8 #define sz_xVisualType 24 #define sz_xWindowRoot 40 #define sz_xTimecoord 8 #define sz_xHostEntry 4 #define sz_xCharInfo 12 #define sz_xFontProp 8 #define sz_xTextElt 2 #define sz_xColorItem 12 #define sz_xrgb 8 #define sz_xGenericReply 32 #define sz_xGetWindowAttributesReply 44 #define sz_xGetGeometryReply 32 #define sz_xQueryTreeReply 32 #define sz_xInternAtomReply 32 #define sz_xGetAtomNameReply 32 #define sz_xGetPropertyReply 32 #define sz_xListPropertiesReply 32 #define sz_xGetSelectionOwnerReply 32 #define sz_xGrabPointerReply 32 #define sz_xQueryPointerReply 32 #define sz_xGetMotionEventsReply 32 #define sz_xTranslateCoordsReply 32 #define sz_xGetInputFocusReply 32 #define sz_xQueryKeymapReply 40 #define sz_xQueryFontReply 60 #define sz_xQueryTextExtentsReply 32 #define sz_xListFontsReply 32 #define sz_xGetFontPathReply 32 #define sz_xGetImageReply 32 #define sz_xListInstalledColormapsReply 32 #define sz_xAllocColorReply 32 #define sz_xAllocNamedColorReply 32 #define sz_xAllocColorCellsReply 32 #define sz_xAllocColorPlanesReply 32 #define sz_xQueryColorsReply 32 #define sz_xLookupColorReply 32 #define sz_xQueryBestSizeReply 32 #define sz_xQueryExtensionReply 32 #define sz_xListExtensionsReply 32 #define sz_xSetMappingReply 32 #define sz_xGetKeyboardControlReply 52 #define sz_xGetPointerControlReply 32 #define sz_xGetScreenSaverReply 32 #define sz_xListHostsReply 32 #define sz_xSetModifierMappingReply 32 #define sz_xError 32 #define sz_xEvent 32 #define sz_xKeymapEvent 32 #define sz_xReq 4 #define sz_xResourceReq 8 #define sz_xCreateWindowReq 32 #define sz_xChangeWindowAttributesReq 12 #define sz_xChangeSaveSetReq 8 #define sz_xReparentWindowReq 16 #define sz_xConfigureWindowReq 12 #define sz_xCirculateWindowReq 8 #define sz_xInternAtomReq 8 #define sz_xChangePropertyReq 24 #define sz_xDeletePropertyReq 12 #define sz_xGetPropertyReq 24 #define sz_xSetSelectionOwnerReq 16 #define sz_xConvertSelectionReq 24 #define sz_xSendEventReq 44 #define sz_xGrabPointerReq 24 #define sz_xGrabButtonReq 24 #define sz_xUngrabButtonReq 12 #define sz_xChangeActivePointerGrabReq 16 #define sz_xGrabKeyboardReq 16 #define sz_xGrabKeyReq 16 #define sz_xUngrabKeyReq 12 #define sz_xAllowEventsReq 8 #define sz_xGetMotionEventsReq 16 #define sz_xTranslateCoordsReq 16 #define sz_xWarpPointerReq 24 #define sz_xSetInputFocusReq 12 #define sz_xOpenFontReq 12 #define sz_xQueryTextExtentsReq 8 #define sz_xListFontsReq 8 #define sz_xSetFontPathReq 8 #define sz_xCreatePixmapReq 16 #define sz_xCreateGCReq 16 #define sz_xChangeGCReq 12 #define sz_xCopyGCReq 16 #define sz_xSetDashesReq 12 #define sz_xSetClipRectanglesReq 12 #define sz_xCopyAreaReq 28 #define sz_xCopyPlaneReq 32 #define sz_xPolyPointReq 12 #define sz_xPolySegmentReq 12 #define sz_xFillPolyReq 16 #define sz_xPutImageReq 24 #define sz_xGetImageReq 20 #define sz_xPolyTextReq 16 #define sz_xImageTextReq 16 #define sz_xCreateColormapReq 16 #define sz_xCopyColormapAndFreeReq 12 #define sz_xAllocColorReq 16 #define sz_xAllocNamedColorReq 12 #define sz_xAllocColorCellsReq 12 #define sz_xAllocColorPlanesReq 16 #define sz_xFreeColorsReq 12 #define sz_xStoreColorsReq 8 #define sz_xStoreNamedColorReq 16 #define sz_xQueryColorsReq 8 #define sz_xLookupColorReq 12 #define sz_xCreateCursorReq 32 #define sz_xCreateGlyphCursorReq 32 #define sz_xRecolorCursorReq 20 #define sz_xQueryBestSizeReq 12 #define sz_xQueryExtensionReq 8 #define sz_xChangeKeyboardControlReq 8 #define sz_xBellReq 4 #define sz_xChangePointerControlReq 12 #define sz_xSetScreenSaverReq 12 #define sz_xChangeHostsReq 8 #define sz_xListHostsReq 4 #define sz_xChangeModeReq 4 #define sz_xRotatePropertiesReq 12 #define sz_xReply 32 #define sz_xGrabKeyboardReply 32 #define sz_xListFontsWithInfoReply 60 #define sz_xSetPointerMappingReply 32 #define sz_xGetKeyboardMappingReply 32 #define sz_xGetPointerMappingReply 32 #define sz_xGetModifierMappingReply 32 #define sz_xListFontsWithInfoReq 8 #define sz_xPolyLineReq 12 #define sz_xPolyArcReq 12 #define sz_xPolyRectangleReq 12 #define sz_xPolyFillRectangleReq 12 #define sz_xPolyFillArcReq 12 #define sz_xPolyText8Req 16 #define sz_xPolyText16Req 16 #define sz_xImageText8Req 16 #define sz_xImageText16Req 16 #define sz_xSetPointerMappingReq 4 #define sz_xForceScreenSaverReq 4 #define sz_xSetCloseDownModeReq 4 #define sz_xClearAreaReq 16 #define sz_xSetAccessControlReq 4 #define sz_xGetKeyboardMappingReq 8 #define sz_xSetModifierMappingReq 4 #define sz_xPropIconSize 24 #define sz_xChangeKeyboardMappingReq 8 /* For the purpose of the structure definitions in this file, we must redefine the following types in terms of Xmd.h's types, which may include bit fields. All of these are #undef'd at the end of this file, restoring the definitions in X.h. */ #define Window CARD32 #define Drawable CARD32 #define Font CARD32 #define Pixmap CARD32 #define Cursor CARD32 #define Colormap CARD32 #define GContext CARD32 #define Atom CARD32 #define VisualID CARD32 #define Time CARD32 #define KeyCode CARD8 #define KeySym CARD32 #define X_TCP_PORT 6000 /* add display number */ #define xTrue 1 #define xFalse 0 typedef CARD16 KeyButMask; /***************** connection setup structure. This is followed by numRoots xWindowRoot structs. *****************/ typedef struct { CARD8 byteOrder; BYTE pad; CARD16 majorVersion B16, minorVersion B16; CARD16 nbytesAuthProto B16; /* Authorization protocol */ CARD16 nbytesAuthString B16; /* Authorization string */ CARD16 pad2 B16; } xConnClientPrefix; typedef struct { CARD8 success; BYTE lengthReason; /*num bytes in string following if failure */ CARD16 majorVersion B16, minorVersion B16; CARD16 length B16; /* 1/4 additional bytes in setup info */ } xConnSetupPrefix; typedef struct { CARD32 release B32; CARD32 ridBase B32, ridMask B32; CARD32 motionBufferSize B32; CARD16 nbytesVendor B16; /* number of bytes in vendor string */ CARD16 maxRequestSize B16; CARD8 numRoots; /* number of roots structs to follow */ CARD8 numFormats; /* number of pixmap formats */ CARD8 imageByteOrder; /* LSBFirst, MSBFirst */ CARD8 bitmapBitOrder; /* LeastSignificant, MostSign...*/ CARD8 bitmapScanlineUnit, /* 8, 16, 32 */ bitmapScanlinePad; /* 8, 16, 32 */ KeyCode minKeyCode, maxKeyCode; CARD32 pad2 B32; } xConnSetup; typedef struct { CARD8 depth; CARD8 bitsPerPixel; CARD8 scanLinePad; CARD8 pad1; CARD32 pad2 B32; } xPixmapFormat; /* window root */ typedef struct { CARD8 depth; CARD8 pad1; CARD16 nVisuals B16; /* number of xVisualType structures following */ CARD32 pad2 B32; } xDepth; typedef struct { VisualID visualID B32; #if defined(__cplusplus) || defined(c_plusplus) CARD8 c_class; #else CARD8 class; #endif CARD8 bitsPerRGB; CARD16 colormapEntries B16; CARD32 redMask B32, greenMask B32, blueMask B32; CARD32 pad B32; } xVisualType; typedef struct { Window windowId B32; Colormap defaultColormap B32; CARD32 whitePixel B32, blackPixel B32; CARD32 currentInputMask B32; CARD16 pixWidth B16, pixHeight B16; CARD16 mmWidth B16, mmHeight B16; CARD16 minInstalledMaps B16, maxInstalledMaps B16; VisualID rootVisualID B32; CARD8 backingStore; BOOL saveUnders; CARD8 rootDepth; CARD8 nDepths; /* number of xDepth structures following */ } xWindowRoot; /***************************************************************** * Structure Defns * Structures needed for replies *****************************************************************/ /* Used in GetMotionEvents */ typedef struct { CARD32 time B32; INT16 x B16, y B16; } xTimecoord; typedef struct { CARD8 family; BYTE pad; CARD16 length B16; } xHostEntry; typedef struct { INT16 leftSideBearing B16, rightSideBearing B16, characterWidth B16, ascent B16, descent B16; CARD16 attributes B16; } xCharInfo; typedef struct { Atom name B32; CARD32 value B32; } xFontProp; /* * non-aligned big-endian font ID follows this struct */ typedef struct { /* followed by string */ CARD8 len; /* number of *characters* in string, or FontChange (255) for font change, or 0 if just delta given */ INT8 delta; } xTextElt; typedef struct { CARD32 pixel B32; CARD16 red B16, green B16, blue B16; CARD8 flags; /* DoRed, DoGreen, DoBlue booleans */ CARD8 pad; } xColorItem; typedef struct { CARD16 red B16, green B16, blue B16, pad B16; } xrgb; typedef CARD8 KEYCODE; /***************** * XRep: * meant to be 32 byte quantity *****************/ /* GenericReply is the common format of all replies. The "data" items are specific to each individual reply type. */ typedef struct { BYTE type; /* X_Reply */ BYTE data1; /* depends on reply type */ CARD16 sequenceNumber B16; /* of last request received by server */ CARD32 length B32; /* 4 byte quantities beyond size of GenericReply */ CARD32 data00 B32; CARD32 data01 B32; CARD32 data02 B32; CARD32 data03 B32; CARD32 data04 B32; CARD32 data05 B32; } xGenericReply; /* Individual reply formats. */ typedef struct { BYTE type; /* X_Reply */ CARD8 backingStore; CARD16 sequenceNumber B16; CARD32 length B32; /* NOT 0; this is an extra-large reply */ VisualID visualID B32; #if defined(__cplusplus) || defined(c_plusplus) CARD16 c_class B16; #else CARD16 class B16; #endif CARD8 bitGravity; CARD8 winGravity; CARD32 backingBitPlanes B32; CARD32 backingPixel B32; BOOL saveUnder; BOOL mapInstalled; CARD8 mapState; BOOL override; Colormap colormap B32; CARD32 allEventMasks B32; CARD32 yourEventMask B32; CARD16 doNotPropagateMask B16; CARD16 pad B16; } xGetWindowAttributesReply; typedef struct { BYTE type; /* X_Reply */ CARD8 depth; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Window root B32; INT16 x B16, y B16; CARD16 width B16, height B16; CARD16 borderWidth B16; CARD16 pad1 B16; CARD32 pad2 B32; CARD32 pad3 B32; } xGetGeometryReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; Window root B32, parent B32; CARD16 nChildren B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xQueryTreeReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Atom atom B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xInternAtomReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* of additional bytes */ CARD16 nameLength B16; /* # of characters in name */ CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGetAtomNameReply; typedef struct { BYTE type; /* X_Reply */ CARD8 format; CARD16 sequenceNumber B16; CARD32 length B32; /* of additional bytes */ Atom propertyType B32; CARD32 bytesAfter B32; CARD32 nItems B32; /* # of 8, 16, or 32-bit entities in reply */ CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; } xGetPropertyReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nProperties B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xListPropertiesReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Window owner B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGetSelectionOwnerReply; typedef struct { BYTE type; /* X_Reply */ BYTE status; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGrabPointerReply; typedef xGrabPointerReply xGrabKeyboardReply; typedef struct { BYTE type; /* X_Reply */ BOOL sameScreen; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Window root B32, child B32; INT16 rootX B16, rootY B16, winX B16, winY B16; CARD16 mask B16; CARD16 pad1 B16; CARD32 pad B32; } xQueryPointerReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 nEvents B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGetMotionEventsReply; typedef struct { BYTE type; /* X_Reply */ BOOL sameScreen; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Window child B32; INT16 dstX B16, dstY B16; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xTranslateCoordsReply; typedef struct { BYTE type; /* X_Reply */ CARD8 revertTo; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ Window focus B32; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xGetInputFocusReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 2, NOT 0; this is an extra-large reply */ BYTE map[32]; } xQueryKeymapReply; /* Warning: this MUST match (up to component renaming) xListFontsWithInfoReply */ typedef struct _xQueryFontReply { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* definitely > 0, even if "nCharInfos" is 0 */ xCharInfo minBounds; #ifndef WORD64 CARD32 walign1 B32; #endif xCharInfo maxBounds; #ifndef WORD64 CARD32 walign2 B32; #endif CARD16 minCharOrByte2 B16, maxCharOrByte2 B16; CARD16 defaultChar B16; CARD16 nFontProps B16; /* followed by this many xFontProp structures */ CARD8 drawDirection; CARD8 minByte1, maxByte1; BOOL allCharsExist; INT16 fontAscent B16, fontDescent B16; CARD32 nCharInfos B32; /* followed by this many xCharInfo structures */ } xQueryFontReply; typedef struct { BYTE type; /* X_Reply */ CARD8 drawDirection; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ INT16 fontAscent B16, fontDescent B16; INT16 overallAscent B16, overallDescent B16; INT32 overallWidth B32, overallLeft B32, overallRight B32; CARD32 pad B32; } xQueryTextExtentsReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nFonts B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xListFontsReply; /* Warning: this MUST match (up to component renaming) xQueryFontReply */ typedef struct { BYTE type; /* X_Reply */ CARD8 nameLength; /* 0 indicates end-of-reply-sequence */ CARD16 sequenceNumber B16; CARD32 length B32; /* definitely > 0, even if "nameLength" is 0 */ xCharInfo minBounds; #ifndef WORD64 CARD32 walign1 B32; #endif xCharInfo maxBounds; #ifndef WORD64 CARD32 walign2 B32; #endif CARD16 minCharOrByte2 B16, maxCharOrByte2 B16; CARD16 defaultChar B16; CARD16 nFontProps B16; /* followed by this many xFontProp structures */ CARD8 drawDirection; CARD8 minByte1, maxByte1; BOOL allCharsExist; INT16 fontAscent B16, fontDescent B16; CARD32 nReplies B32; /* hint as to how many more replies might be coming */ } xListFontsWithInfoReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nPaths B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGetFontPathReply; typedef struct { BYTE type; /* X_Reply */ CARD8 depth; CARD16 sequenceNumber B16; CARD32 length B32; VisualID visual B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGetImageReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nColormaps B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xListInstalledColormapsReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD16 red B16, green B16, blue B16; CARD16 pad2 B16; CARD32 pixel B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xAllocColorReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD32 pixel B32; CARD16 exactRed B16, exactGreen B16, exactBlue B16; CARD16 screenRed B16, screenGreen B16, screenBlue B16; CARD32 pad2 B32; CARD32 pad3 B32; } xAllocNamedColorReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nPixels B16, nMasks B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xAllocColorCellsReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nPixels B16; CARD16 pad2 B16; CARD32 redMask B32, greenMask B32, blueMask B32; CARD32 pad3 B32; CARD32 pad4 B32; } xAllocColorPlanesReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nColors B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xQueryColorsReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD16 exactRed B16, exactGreen B16, exactBlue B16; CARD16 screenRed B16, screenGreen B16, screenBlue B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xLookupColorReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD16 width B16, height B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xQueryBestSizeReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ BOOL present; CARD8 major_opcode; CARD8 first_event; CARD8 first_error; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xQueryExtensionReply; typedef struct { BYTE type; /* X_Reply */ CARD8 nExtensions; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xListExtensionsReply; typedef struct { BYTE type; /* X_Reply */ CARD8 success; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xSetMappingReply; typedef xSetMappingReply xSetPointerMappingReply; typedef xSetMappingReply xSetModifierMappingReply; typedef struct { BYTE type; /* X_Reply */ CARD8 nElts; /* how many elements does the map have */ CARD16 sequenceNumber B16; CARD32 length B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGetPointerMappingReply; typedef struct { BYTE type; CARD8 keySymsPerKeyCode; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGetKeyboardMappingReply; typedef struct { BYTE type; CARD8 numKeyPerModifier; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGetModifierMappingReply; typedef struct { BYTE type; /* X_Reply */ BOOL globalAutoRepeat; CARD16 sequenceNumber B16; CARD32 length B32; /* 5 */ CARD32 ledMask B32; CARD8 keyClickPercent, bellPercent; CARD16 bellPitch B16, bellDuration B16; CARD16 pad B16; BYTE map[32]; /* bit masks start here */ } xGetKeyboardControlReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD16 accelNumerator B16, accelDenominator B16; CARD16 threshold B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGetPointerControlReply; typedef struct { BYTE type; /* X_Reply */ BYTE pad1; CARD16 sequenceNumber B16; CARD32 length B32; /* 0 */ CARD16 timeout B16, interval B16; BOOL preferBlanking; BOOL allowExposures; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; } xGetScreenSaverReply; typedef struct { BYTE type; /* X_Reply */ BOOL enabled; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nHosts B16; CARD16 pad1 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xListHostsReply; /***************************************************************** * Xerror * All errors are 32 bytes *****************************************************************/ typedef struct { BYTE type; /* X_Error */ BYTE errorCode; CARD16 sequenceNumber B16; /* the nth request from this client */ CARD32 resourceID B32; CARD16 minorCode B16; CARD8 majorCode; BYTE pad1; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xError; /***************************************************************** * xEvent * All events are 32 bytes *****************************************************************/ typedef struct _xEvent { union { struct { BYTE type; BYTE detail; CARD16 sequenceNumber B16; } u; struct { CARD32 pad00 B32; Time time B32; Window root B32, event B32, child B32; INT16 rootX B16, rootY B16, eventX B16, eventY B16; KeyButMask state B16; BOOL sameScreen; BYTE pad1; } keyButtonPointer; struct { CARD32 pad00 B32; Time time B32; Window root B32, event B32, child B32; INT16 rootX B16, rootY B16, eventX B16, eventY B16; KeyButMask state B16; BYTE mode; /* really XMode */ BYTE flags; /* sameScreen and focus booleans, packed together */ #define ELFlagFocus (1<<0) #define ELFlagSameScreen (1<<1) } enterLeave; struct { CARD32 pad00 B32; Window window B32; BYTE mode; /* really XMode */ BYTE pad1, pad2, pad3; } focus; struct { CARD32 pad00 B32; Window window B32; CARD16 x B16, y B16, width B16, height B16; CARD16 count B16; CARD16 pad2 B16; } expose; struct { CARD32 pad00 B32; Drawable drawable B32; CARD16 x B16, y B16, width B16, height B16; CARD16 minorEvent B16; CARD16 count B16; BYTE majorEvent; BYTE pad1, pad2, pad3; } graphicsExposure; struct { CARD32 pad00 B32; Drawable drawable B32; CARD16 minorEvent B16; BYTE majorEvent; BYTE bpad; } noExposure; struct { CARD32 pad00 B32; Window window B32; CARD8 state; BYTE pad1, pad2, pad3; } visibility; struct { CARD32 pad00 B32; Window parent B32, window B32; INT16 x B16, y B16; CARD16 width B16, height B16, borderWidth B16; BOOL override; BYTE bpad; } createNotify; /* * The event fields in the structures for DestroyNotify, UnmapNotify, * MapNotify, ReparentNotify, ConfigureNotify, CirculateNotify, GravityNotify, * must be at the same offset because server internal code is depending upon * this to patch up the events before they are delivered. * Also note that MapRequest, ConfigureRequest and CirculateRequest have * the same offset for the event window. */ struct { CARD32 pad00 B32; Window event B32, window B32; } destroyNotify; struct { CARD32 pad00 B32; Window event B32, window B32; BOOL fromConfigure; BYTE pad1, pad2, pad3; } unmapNotify; struct { CARD32 pad00 B32; Window event B32, window B32; BOOL override; BYTE pad1, pad2, pad3; } mapNotify; struct { CARD32 pad00 B32; Window parent B32, window B32; } mapRequest; struct { CARD32 pad00 B32; Window event B32, window B32, parent B32; INT16 x B16, y B16; BOOL override; BYTE pad1, pad2, pad3; } reparent; struct { CARD32 pad00 B32; Window event B32, window B32, aboveSibling B32; INT16 x B16, y B16; CARD16 width B16, height B16, borderWidth B16; BOOL override; BYTE bpad; } configureNotify; struct { CARD32 pad00 B32; Window parent B32, window B32, sibling B32; INT16 x B16, y B16; CARD16 width B16, height B16, borderWidth B16; CARD16 valueMask B16; CARD32 pad1 B32; } configureRequest; struct { CARD32 pad00 B32; Window event B32, window B32; INT16 x B16, y B16; CARD32 pad1 B32, pad2 B32, pad3 B32, pad4 B32; } gravity; struct { CARD32 pad00 B32; Window window B32; CARD16 width B16, height B16; } resizeRequest; struct { /* The event field in the circulate record is really the parent when this is used as a CirculateRequest instead of a CirculateNotify */ CARD32 pad00 B32; Window event B32, window B32, parent B32; BYTE place; /* Top or Bottom */ BYTE pad1, pad2, pad3; } circulate; struct { CARD32 pad00 B32; Window window B32; Atom atom B32; Time time B32; BYTE state; /* NewValue or Deleted */ BYTE pad1; CARD16 pad2 B16; } property; struct { CARD32 pad00 B32; Time time B32; Window window B32; Atom atom B32; } selectionClear; struct { CARD32 pad00 B32; Time time B32; Window owner B32, requestor B32; Atom selection B32, target B32, property B32; } selectionRequest; struct { CARD32 pad00 B32; Time time B32; Window requestor B32; Atom selection B32, target B32, property B32; } selectionNotify; struct { CARD32 pad00 B32; Window window B32; Colormap colormap B32; #if defined(__cplusplus) || defined(c_plusplus) BOOL c_new; #else BOOL new; #endif BYTE state; /* Installed or UnInstalled */ BYTE pad1, pad2; } colormap; struct { CARD32 pad00 B32; CARD8 request; KeyCode firstKeyCode; CARD8 count; BYTE pad1; } mappingNotify; struct { CARD32 pad00 B32; Window window B32; union { struct { Atom type B32; INT32 longs0 B32; INT32 longs1 B32; INT32 longs2 B32; INT32 longs3 B32; INT32 longs4 B32; } l; struct { Atom type B32; INT16 shorts0 B16; INT16 shorts1 B16; INT16 shorts2 B16; INT16 shorts3 B16; INT16 shorts4 B16; INT16 shorts5 B16; INT16 shorts6 B16; INT16 shorts7 B16; INT16 shorts8 B16; INT16 shorts9 B16; } s; struct { Atom type B32; INT8 bytes[20]; } b; } u; } clientMessage; } u; } xEvent; /********************************************************* * * Generic event * * Those events are not part of the core protocol spec and can be used by * various extensions. * type is always GenericEvent * extension is the minor opcode of the extension the event belongs to. * evtype is the actual event type, unique __per extension__. * * GenericEvents can be longer than 32 bytes, with the length field * specifying the number of 4 byte blocks after the first 32 bytes. * * */ typedef struct { BYTE type; CARD8 extension; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 evtype B16; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xGenericEvent; /* KeymapNotify events are not included in the above union because they are different from all other events: they do not have a "detail" or "sequenceNumber", so there is room for a 248-bit key mask. */ typedef struct { BYTE type; BYTE map[31]; } xKeymapEvent; #define XEventSize (sizeof(xEvent)) /* XReply is the union of all the replies above whose "fixed part" fits in 32 bytes. It does NOT include GetWindowAttributesReply, QueryFontReply, QueryKeymapReply, or GetKeyboardControlReply ListFontsWithInfoReply */ typedef union { xGenericReply generic; xGetGeometryReply geom; xQueryTreeReply tree; xInternAtomReply atom; xGetAtomNameReply atomName; xGetPropertyReply property; xListPropertiesReply listProperties; xGetSelectionOwnerReply selection; xGrabPointerReply grabPointer; xGrabKeyboardReply grabKeyboard; xQueryPointerReply pointer; xGetMotionEventsReply motionEvents; xTranslateCoordsReply coords; xGetInputFocusReply inputFocus; xQueryTextExtentsReply textExtents; xListFontsReply fonts; xGetFontPathReply fontPath; xGetImageReply image; xListInstalledColormapsReply colormaps; xAllocColorReply allocColor; xAllocNamedColorReply allocNamedColor; xAllocColorCellsReply colorCells; xAllocColorPlanesReply colorPlanes; xQueryColorsReply colors; xLookupColorReply lookupColor; xQueryBestSizeReply bestSize; xQueryExtensionReply extension; xListExtensionsReply extensions; xSetModifierMappingReply setModifierMapping; xGetModifierMappingReply getModifierMapping; xSetPointerMappingReply setPointerMapping; xGetKeyboardMappingReply getKeyboardMapping; xGetPointerMappingReply getPointerMapping; xGetPointerControlReply pointerControl; xGetScreenSaverReply screenSaver; xListHostsReply hosts; xError error; xEvent event; } xReply; /***************************************************************** * REQUESTS *****************************************************************/ /* Request structure */ typedef struct _xReq { CARD8 reqType; CARD8 data; /* meaning depends on request type */ CARD16 length B16; /* length in 4 bytes quantities of whole request, including this header */ } xReq; /***************************************************************** * structures that follow request. *****************************************************************/ /* ResourceReq is used for any request which has a resource ID (or Atom or Time) as its one and only argument. */ typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; CARD32 id B32; /* a Window, Drawable, Font, GContext, Pixmap, etc. */ } xResourceReq; typedef struct { CARD8 reqType; CARD8 depth; CARD16 length B16; Window wid B32, parent B32; INT16 x B16, y B16; CARD16 width B16, height B16, borderWidth B16; #if defined(__cplusplus) || defined(c_plusplus) CARD16 c_class B16; #else CARD16 class B16; #endif VisualID visual B32; CARD32 mask B32; } xCreateWindowReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32; CARD32 valueMask B32; } xChangeWindowAttributesReq; typedef struct { CARD8 reqType; BYTE mode; CARD16 length B16; Window window B32; } xChangeSaveSetReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32, parent B32; INT16 x B16, y B16; } xReparentWindowReq; typedef struct { CARD8 reqType; CARD8 pad; CARD16 length B16; Window window B32; CARD16 mask B16; CARD16 pad2 B16; } xConfigureWindowReq; typedef struct { CARD8 reqType; CARD8 direction; CARD16 length B16; Window window B32; } xCirculateWindowReq; typedef struct { /* followed by padded string */ CARD8 reqType; BOOL onlyIfExists; CARD16 length B16; CARD16 nbytes B16; /* number of bytes in string */ CARD16 pad B16; } xInternAtomReq; typedef struct { CARD8 reqType; CARD8 mode; CARD16 length B16; Window window B32; Atom property B32, type B32; CARD8 format; BYTE pad[3]; CARD32 nUnits B32; /* length of stuff following, depends on format */ } xChangePropertyReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32; Atom property B32; } xDeletePropertyReq; typedef struct { CARD8 reqType; #if defined(__cplusplus) || defined(c_plusplus) BOOL c_delete; #else BOOL delete; #endif CARD16 length B16; Window window B32; Atom property B32, type B32; CARD32 longOffset B32; CARD32 longLength B32; } xGetPropertyReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32; Atom selection B32; Time time B32; } xSetSelectionOwnerReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window requestor B32; Atom selection B32, target B32, property B32; Time time B32; } xConvertSelectionReq; typedef struct { CARD8 reqType; BOOL propagate; CARD16 length B16; Window destination B32; CARD32 eventMask B32; #ifdef WORD64 /* the structure should have been quad-aligned */ BYTE eventdata[SIZEOF(xEvent)]; #else xEvent event; #endif /* WORD64 */ } xSendEventReq; typedef struct { CARD8 reqType; BOOL ownerEvents; CARD16 length B16; Window grabWindow B32; CARD16 eventMask B16; BYTE pointerMode, keyboardMode; Window confineTo B32; Cursor cursor B32; Time time B32; } xGrabPointerReq; typedef struct { CARD8 reqType; BOOL ownerEvents; CARD16 length B16; Window grabWindow B32; CARD16 eventMask B16; BYTE pointerMode, keyboardMode; Window confineTo B32; Cursor cursor B32; CARD8 button; BYTE pad; CARD16 modifiers B16; } xGrabButtonReq; typedef struct { CARD8 reqType; CARD8 button; CARD16 length B16; Window grabWindow B32; CARD16 modifiers B16; CARD16 pad B16; } xUngrabButtonReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Cursor cursor B32; Time time B32; CARD16 eventMask B16; CARD16 pad2 B16; } xChangeActivePointerGrabReq; typedef struct { CARD8 reqType; BOOL ownerEvents; CARD16 length B16; Window grabWindow B32; Time time B32; BYTE pointerMode, keyboardMode; CARD16 pad B16; } xGrabKeyboardReq; typedef struct { CARD8 reqType; BOOL ownerEvents; CARD16 length B16; Window grabWindow B32; CARD16 modifiers B16; CARD8 key; BYTE pointerMode, keyboardMode; BYTE pad1, pad2, pad3; } xGrabKeyReq; typedef struct { CARD8 reqType; CARD8 key; CARD16 length B16; Window grabWindow B32; CARD16 modifiers B16; CARD16 pad B16; } xUngrabKeyReq; typedef struct { CARD8 reqType; CARD8 mode; CARD16 length B16; Time time B32; } xAllowEventsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32; Time start B32, stop B32; } xGetMotionEventsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window srcWid B32, dstWid B32; INT16 srcX B16, srcY B16; } xTranslateCoordsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Window srcWid B32, dstWid B32; INT16 srcX B16, srcY B16; CARD16 srcWidth B16, srcHeight B16; INT16 dstX B16, dstY B16; } xWarpPointerReq; typedef struct { CARD8 reqType; CARD8 revertTo; CARD16 length B16; Window focus B32; Time time B32; } xSetInputFocusReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Font fid B32; CARD16 nbytes B16; BYTE pad1, pad2; /* string follows on word boundary */ } xOpenFontReq; typedef struct { CARD8 reqType; BOOL oddLength; CARD16 length B16; Font fid B32; } xQueryTextExtentsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; CARD16 maxNames B16; CARD16 nbytes B16; /* followed immediately by string bytes */ } xListFontsReq; typedef xListFontsReq xListFontsWithInfoReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; CARD16 nFonts B16; BYTE pad1, pad2; /* LISTofSTRING8 follows on word boundary */ } xSetFontPathReq; typedef struct { CARD8 reqType; CARD8 depth; CARD16 length B16; Pixmap pid B32; Drawable drawable B32; CARD16 width B16, height B16; } xCreatePixmapReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; GContext gc B32; Drawable drawable B32; CARD32 mask B32; } xCreateGCReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; GContext gc B32; CARD32 mask B32; } xChangeGCReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; GContext srcGC B32, dstGC B32; CARD32 mask B32; } xCopyGCReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; GContext gc B32; CARD16 dashOffset B16; CARD16 nDashes B16; /* length LISTofCARD8 of values following */ } xSetDashesReq; typedef struct { CARD8 reqType; BYTE ordering; CARD16 length B16; GContext gc B32; INT16 xOrigin B16, yOrigin B16; } xSetClipRectanglesReq; typedef struct { CARD8 reqType; BOOL exposures; CARD16 length B16; Window window B32; INT16 x B16, y B16; CARD16 width B16, height B16; } xClearAreaReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Drawable srcDrawable B32, dstDrawable B32; GContext gc B32; INT16 srcX B16, srcY B16, dstX B16, dstY B16; CARD16 width B16, height B16; } xCopyAreaReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Drawable srcDrawable B32, dstDrawable B32; GContext gc B32; INT16 srcX B16, srcY B16, dstX B16, dstY B16; CARD16 width B16, height B16; CARD32 bitPlane B32; } xCopyPlaneReq; typedef struct { CARD8 reqType; BYTE coordMode; CARD16 length B16; Drawable drawable B32; GContext gc B32; } xPolyPointReq; typedef xPolyPointReq xPolyLineReq; /* same request structure */ /* The following used for PolySegment, PolyRectangle, PolyArc, PolyFillRectangle, PolyFillArc */ typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Drawable drawable B32; GContext gc B32; } xPolySegmentReq; typedef xPolySegmentReq xPolyArcReq; typedef xPolySegmentReq xPolyRectangleReq; typedef xPolySegmentReq xPolyFillRectangleReq; typedef xPolySegmentReq xPolyFillArcReq; typedef struct _FillPolyReq { CARD8 reqType; BYTE pad; CARD16 length B16; Drawable drawable B32; GContext gc B32; BYTE shape; BYTE coordMode; CARD16 pad1 B16; } xFillPolyReq; typedef struct _PutImageReq { CARD8 reqType; CARD8 format; CARD16 length B16; Drawable drawable B32; GContext gc B32; CARD16 width B16, height B16; INT16 dstX B16, dstY B16; CARD8 leftPad; CARD8 depth; CARD16 pad B16; } xPutImageReq; typedef struct { CARD8 reqType; CARD8 format; CARD16 length B16; Drawable drawable B32; INT16 x B16, y B16; CARD16 width B16, height B16; CARD32 planeMask B32; } xGetImageReq; /* the following used by PolyText8 and PolyText16 */ typedef struct { CARD8 reqType; CARD8 pad; CARD16 length B16; Drawable drawable B32; GContext gc B32; INT16 x B16, y B16; /* items (xTextElt) start after struct */ } xPolyTextReq; typedef xPolyTextReq xPolyText8Req; typedef xPolyTextReq xPolyText16Req; typedef struct { CARD8 reqType; BYTE nChars; CARD16 length B16; Drawable drawable B32; GContext gc B32; INT16 x B16, y B16; } xImageTextReq; typedef xImageTextReq xImageText8Req; typedef xImageTextReq xImageText16Req; typedef struct { CARD8 reqType; BYTE alloc; CARD16 length B16; Colormap mid B32; Window window B32; VisualID visual B32; } xCreateColormapReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap mid B32; Colormap srcCmap B32; } xCopyColormapAndFreeReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; CARD16 red B16, green B16, blue B16; CARD16 pad2 B16; } xAllocColorReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; CARD16 nbytes B16; /* followed by structure */ BYTE pad1, pad2; } xAllocNamedColorReq; typedef struct { CARD8 reqType; BOOL contiguous; CARD16 length B16; Colormap cmap B32; CARD16 colors B16, planes B16; } xAllocColorCellsReq; typedef struct { CARD8 reqType; BOOL contiguous; CARD16 length B16; Colormap cmap B32; CARD16 colors B16, red B16, green B16, blue B16; } xAllocColorPlanesReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; CARD32 planeMask B32; } xFreeColorsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; } xStoreColorsReq; typedef struct { CARD8 reqType; CARD8 flags; /* DoRed, DoGreen, DoBlue, as in xColorItem */ CARD16 length B16; Colormap cmap B32; CARD32 pixel B32; CARD16 nbytes B16; /* number of name string bytes following structure */ BYTE pad1, pad2; } xStoreNamedColorReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; } xQueryColorsReq; typedef struct { /* followed by string of length len */ CARD8 reqType; BYTE pad; CARD16 length B16; Colormap cmap B32; CARD16 nbytes B16; /* number of string bytes following structure*/ BYTE pad1, pad2; } xLookupColorReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Cursor cid B32; Pixmap source B32, mask B32; CARD16 foreRed B16, foreGreen B16, foreBlue B16; CARD16 backRed B16, backGreen B16, backBlue B16; CARD16 x B16, y B16; } xCreateCursorReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Cursor cid B32; Font source B32, mask B32; CARD16 sourceChar B16, maskChar B16; CARD16 foreRed B16, foreGreen B16, foreBlue B16; CARD16 backRed B16, backGreen B16, backBlue B16; } xCreateGlyphCursorReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; Cursor cursor B32; CARD16 foreRed B16, foreGreen B16, foreBlue B16; CARD16 backRed B16, backGreen B16, backBlue B16; } xRecolorCursorReq; typedef struct { CARD8 reqType; #if defined(__cplusplus) || defined(c_plusplus) CARD8 c_class; #else CARD8 class; #endif CARD16 length B16; Drawable drawable B32; CARD16 width B16, height B16; } xQueryBestSizeReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; CARD16 nbytes B16; /* number of string bytes following structure */ BYTE pad1, pad2; } xQueryExtensionReq; typedef struct { CARD8 reqType; CARD8 numKeyPerModifier; CARD16 length B16; } xSetModifierMappingReq; typedef struct { CARD8 reqType; CARD8 nElts; /* how many elements in the map */ CARD16 length B16; } xSetPointerMappingReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; KeyCode firstKeyCode; CARD8 count; CARD16 pad1 B16; } xGetKeyboardMappingReq; typedef struct { CARD8 reqType; CARD8 keyCodes; CARD16 length B16; KeyCode firstKeyCode; CARD8 keySymsPerKeyCode; CARD16 pad1 B16; } xChangeKeyboardMappingReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; CARD32 mask B32; } xChangeKeyboardControlReq; typedef struct { CARD8 reqType; INT8 percent; /* -100 to 100 */ CARD16 length B16; } xBellReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; INT16 accelNum B16, accelDenum B16; INT16 threshold B16; BOOL doAccel, doThresh; } xChangePointerControlReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; INT16 timeout B16, interval B16; BYTE preferBlank, allowExpose; CARD16 pad2 B16; } xSetScreenSaverReq; typedef struct { CARD8 reqType; BYTE mode; CARD16 length B16; CARD8 hostFamily; BYTE pad; CARD16 hostLength B16; } xChangeHostsReq; typedef struct { CARD8 reqType; BYTE pad; CARD16 length B16; } xListHostsReq; typedef struct { CARD8 reqType; BYTE mode; CARD16 length B16; } xChangeModeReq; typedef xChangeModeReq xSetAccessControlReq; typedef xChangeModeReq xSetCloseDownModeReq; typedef xChangeModeReq xForceScreenSaverReq; typedef struct { /* followed by LIST of ATOM */ CARD8 reqType; BYTE pad; CARD16 length B16; Window window B32; CARD16 nAtoms B16; INT16 nPositions B16; } xRotatePropertiesReq; /* Reply codes */ #define X_Reply 1 /* Normal reply */ #define X_Error 0 /* Error */ /* Request codes */ #define X_CreateWindow 1 #define X_ChangeWindowAttributes 2 #define X_GetWindowAttributes 3 #define X_DestroyWindow 4 #define X_DestroySubwindows 5 #define X_ChangeSaveSet 6 #define X_ReparentWindow 7 #define X_MapWindow 8 #define X_MapSubwindows 9 #define X_UnmapWindow 10 #define X_UnmapSubwindows 11 #define X_ConfigureWindow 12 #define X_CirculateWindow 13 #define X_GetGeometry 14 #define X_QueryTree 15 #define X_InternAtom 16 #define X_GetAtomName 17 #define X_ChangeProperty 18 #define X_DeleteProperty 19 #define X_GetProperty 20 #define X_ListProperties 21 #define X_SetSelectionOwner 22 #define X_GetSelectionOwner 23 #define X_ConvertSelection 24 #define X_SendEvent 25 #define X_GrabPointer 26 #define X_UngrabPointer 27 #define X_GrabButton 28 #define X_UngrabButton 29 #define X_ChangeActivePointerGrab 30 #define X_GrabKeyboard 31 #define X_UngrabKeyboard 32 #define X_GrabKey 33 #define X_UngrabKey 34 #define X_AllowEvents 35 #define X_GrabServer 36 #define X_UngrabServer 37 #define X_QueryPointer 38 #define X_GetMotionEvents 39 #define X_TranslateCoords 40 #define X_WarpPointer 41 #define X_SetInputFocus 42 #define X_GetInputFocus 43 #define X_QueryKeymap 44 #define X_OpenFont 45 #define X_CloseFont 46 #define X_QueryFont 47 #define X_QueryTextExtents 48 #define X_ListFonts 49 #define X_ListFontsWithInfo 50 #define X_SetFontPath 51 #define X_GetFontPath 52 #define X_CreatePixmap 53 #define X_FreePixmap 54 #define X_CreateGC 55 #define X_ChangeGC 56 #define X_CopyGC 57 #define X_SetDashes 58 #define X_SetClipRectangles 59 #define X_FreeGC 60 #define X_ClearArea 61 #define X_CopyArea 62 #define X_CopyPlane 63 #define X_PolyPoint 64 #define X_PolyLine 65 #define X_PolySegment 66 #define X_PolyRectangle 67 #define X_PolyArc 68 #define X_FillPoly 69 #define X_PolyFillRectangle 70 #define X_PolyFillArc 71 #define X_PutImage 72 #define X_GetImage 73 #define X_PolyText8 74 #define X_PolyText16 75 #define X_ImageText8 76 #define X_ImageText16 77 #define X_CreateColormap 78 #define X_FreeColormap 79 #define X_CopyColormapAndFree 80 #define X_InstallColormap 81 #define X_UninstallColormap 82 #define X_ListInstalledColormaps 83 #define X_AllocColor 84 #define X_AllocNamedColor 85 #define X_AllocColorCells 86 #define X_AllocColorPlanes 87 #define X_FreeColors 88 #define X_StoreColors 89 #define X_StoreNamedColor 90 #define X_QueryColors 91 #define X_LookupColor 92 #define X_CreateCursor 93 #define X_CreateGlyphCursor 94 #define X_FreeCursor 95 #define X_RecolorCursor 96 #define X_QueryBestSize 97 #define X_QueryExtension 98 #define X_ListExtensions 99 #define X_ChangeKeyboardMapping 100 #define X_GetKeyboardMapping 101 #define X_ChangeKeyboardControl 102 #define X_GetKeyboardControl 103 #define X_Bell 104 #define X_ChangePointerControl 105 #define X_GetPointerControl 106 #define X_SetScreenSaver 107 #define X_GetScreenSaver 108 #define X_ChangeHosts 109 #define X_ListHosts 110 #define X_SetAccessControl 111 #define X_SetCloseDownMode 112 #define X_KillClient 113 #define X_RotateProperties 114 #define X_ForceScreenSaver 115 #define X_SetPointerMapping 116 #define X_GetPointerMapping 117 #define X_SetModifierMapping 118 #define X_GetModifierMapping 119 #define X_NoOperation 127 /* restore these definitions back to the typedefs in X.h */ #undef Window #undef Drawable #undef Font #undef Pixmap #undef Cursor #undef Colormap #undef GContext #undef Atom #undef VisualID #undef Time #undef KeyCode #undef KeySym #endif /* XPROTO_H */ 070701000a5cbc000081a40000000000000000000000014f867a030002aba90000010000010007ffffffffffffffff0000002700000000root/usr/local/include/X11/keysymdef.h/*********************************************************** Copyright 1987, 1994, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* * The "X11 Window System Protocol" standard defines in Appendix A the * keysym codes. These 29-bit integer values identify characters or * functions associated with each key (e.g., via the visible * engraving) of a keyboard layout. This file assigns mnemonic macro * names for these keysyms. * * This file is also compiled (by src/util/makekeys.c in libX11) into * hash tables that can be accessed with X11 library functions such as * XStringToKeysym() and XKeysymToString(). * * Where a keysym corresponds one-to-one to an ISO 10646 / Unicode * character, this is noted in a comment that provides both the U+xxxx * Unicode position, as well as the official Unicode name of the * character. * * Where the correspondence is either not one-to-one or semantically * unclear, the Unicode position and name are enclosed in * parentheses. Such legacy keysyms should be considered deprecated * and are not recommended for use in future keyboard mappings. * * For any future extension of the keysyms with characters already * found in ISO 10646 / Unicode, the following algorithm shall be * used. The new keysym code position will simply be the character's * Unicode number plus 0x01000000. The keysym values in the range * 0x01000100 to 0x0110ffff are reserved to represent Unicode * characters in the range U+0100 to U+10FFFF. * * While most newer Unicode-based X11 clients do already accept * Unicode-mapped keysyms in the range 0x01000100 to 0x0110ffff, it * will remain necessary for clients -- in the interest of * compatibility with existing servers -- to also understand the * existing legacy keysym values in the range 0x0100 to 0x20ff. * * Where several mnemonic names are defined for the same keysym in this * file, all but the first one listed should be considered deprecated. * * Mnemonic names for keysyms are defined in this file with lines * that match one of these Perl regular expressions: * * /^\#define XK_([a-zA-Z_0-9]+)\s+0x([0-9a-f]+)\s*\/\* U+([0-9A-F]{4,6}) (.*) \*\/\s*$/ * /^\#define XK_([a-zA-Z_0-9]+)\s+0x([0-9a-f]+)\s*\/\*\(U+([0-9A-F]{4,6}) (.*)\)\*\/\s*$/ * /^\#define XK_([a-zA-Z_0-9]+)\s+0x([0-9a-f]+)\s*(\/\*\s*(.*)\s*\*\/)?\s*$/ * * Before adding new keysyms, please do consider the following: In * addition to the keysym names defined in this file, the * XStringToKeysym() and XKeysymToString() functions will also handle * any keysym string of the form "U0020" to "U007E" and "U00A0" to * "U10FFFF" for all possible Unicode characters. In other words, * every possible Unicode character has already a keysym string * defined algorithmically, even if it is not listed here. Therefore, * defining an additional keysym macro is only necessary where a * non-hexadecimal mnemonic name is needed, or where the new keysym * does not represent any existing Unicode character. * * When adding new keysyms to this file, do not forget to also update the * following as needed: * * - the mappings in src/KeyBind.c in the repo * git://anongit.freedesktop.org/xorg/lib/libX11.git * * - the protocol specification in specs/keysyms.xml * in the repo git://anongit.freedesktop.org/xorg/proto/x11proto.git * */ #define XK_VoidSymbol 0xffffff /* Void symbol */ #ifdef XK_MISCELLANY /* * TTY function keys, cleverly chosen to map to ASCII, for convenience of * programming, but could have been arbitrary (at the cost of lookup * tables in client code). */ #define XK_BackSpace 0xff08 /* Back space, back char */ #define XK_Tab 0xff09 #define XK_Linefeed 0xff0a /* Linefeed, LF */ #define XK_Clear 0xff0b #define XK_Return 0xff0d /* Return, enter */ #define XK_Pause 0xff13 /* Pause, hold */ #define XK_Scroll_Lock 0xff14 #define XK_Sys_Req 0xff15 #define XK_Escape 0xff1b #define XK_Delete 0xffff /* Delete, rubout */ /* International & multi-key character composition */ #define XK_Multi_key 0xff20 /* Multi-key character compose */ #define XK_Codeinput 0xff37 #define XK_SingleCandidate 0xff3c #define XK_MultipleCandidate 0xff3d #define XK_PreviousCandidate 0xff3e /* Japanese keyboard support */ #define XK_Kanji 0xff21 /* Kanji, Kanji convert */ #define XK_Muhenkan 0xff22 /* Cancel Conversion */ #define XK_Henkan_Mode 0xff23 /* Start/Stop Conversion */ #define XK_Henkan 0xff23 /* Alias for Henkan_Mode */ #define XK_Romaji 0xff24 /* to Romaji */ #define XK_Hiragana 0xff25 /* to Hiragana */ #define XK_Katakana 0xff26 /* to Katakana */ #define XK_Hiragana_Katakana 0xff27 /* Hiragana/Katakana toggle */ #define XK_Zenkaku 0xff28 /* to Zenkaku */ #define XK_Hankaku 0xff29 /* to Hankaku */ #define XK_Zenkaku_Hankaku 0xff2a /* Zenkaku/Hankaku toggle */ #define XK_Touroku 0xff2b /* Add to Dictionary */ #define XK_Massyo 0xff2c /* Delete from Dictionary */ #define XK_Kana_Lock 0xff2d /* Kana Lock */ #define XK_Kana_Shift 0xff2e /* Kana Shift */ #define XK_Eisu_Shift 0xff2f /* Alphanumeric Shift */ #define XK_Eisu_toggle 0xff30 /* Alphanumeric toggle */ #define XK_Kanji_Bangou 0xff37 /* Codeinput */ #define XK_Zen_Koho 0xff3d /* Multiple/All Candidate(s) */ #define XK_Mae_Koho 0xff3e /* Previous Candidate */ /* 0xff31 thru 0xff3f are under XK_KOREAN */ /* Cursor control & motion */ #define XK_Home 0xff50 #define XK_Left 0xff51 /* Move left, left arrow */ #define XK_Up 0xff52 /* Move up, up arrow */ #define XK_Right 0xff53 /* Move right, right arrow */ #define XK_Down 0xff54 /* Move down, down arrow */ #define XK_Prior 0xff55 /* Prior, previous */ #define XK_Page_Up 0xff55 #define XK_Next 0xff56 /* Next */ #define XK_Page_Down 0xff56 #define XK_End 0xff57 /* EOL */ #define XK_Begin 0xff58 /* BOL */ /* Misc functions */ #define XK_Select 0xff60 /* Select, mark */ #define XK_Print 0xff61 #define XK_Execute 0xff62 /* Execute, run, do */ #define XK_Insert 0xff63 /* Insert, insert here */ #define XK_Undo 0xff65 #define XK_Redo 0xff66 /* Redo, again */ #define XK_Menu 0xff67 #define XK_Find 0xff68 /* Find, search */ #define XK_Cancel 0xff69 /* Cancel, stop, abort, exit */ #define XK_Help 0xff6a /* Help */ #define XK_Break 0xff6b #define XK_Mode_switch 0xff7e /* Character set switch */ #define XK_script_switch 0xff7e /* Alias for mode_switch */ #define XK_Num_Lock 0xff7f /* Keypad functions, keypad numbers cleverly chosen to map to ASCII */ #define XK_KP_Space 0xff80 /* Space */ #define XK_KP_Tab 0xff89 #define XK_KP_Enter 0xff8d /* Enter */ #define XK_KP_F1 0xff91 /* PF1, KP_A, ... */ #define XK_KP_F2 0xff92 #define XK_KP_F3 0xff93 #define XK_KP_F4 0xff94 #define XK_KP_Home 0xff95 #define XK_KP_Left 0xff96 #define XK_KP_Up 0xff97 #define XK_KP_Right 0xff98 #define XK_KP_Down 0xff99 #define XK_KP_Prior 0xff9a #define XK_KP_Page_Up 0xff9a #define XK_KP_Next 0xff9b #define XK_KP_Page_Down 0xff9b #define XK_KP_End 0xff9c #define XK_KP_Begin 0xff9d #define XK_KP_Insert 0xff9e #define XK_KP_Delete 0xff9f #define XK_KP_Equal 0xffbd /* Equals */ #define XK_KP_Multiply 0xffaa #define XK_KP_Add 0xffab #define XK_KP_Separator 0xffac /* Separator, often comma */ #define XK_KP_Subtract 0xffad #define XK_KP_Decimal 0xffae #define XK_KP_Divide 0xffaf #define XK_KP_0 0xffb0 #define XK_KP_1 0xffb1 #define XK_KP_2 0xffb2 #define XK_KP_3 0xffb3 #define XK_KP_4 0xffb4 #define XK_KP_5 0xffb5 #define XK_KP_6 0xffb6 #define XK_KP_7 0xffb7 #define XK_KP_8 0xffb8 #define XK_KP_9 0xffb9 /* * Auxiliary functions; note the duplicate definitions for left and right * function keys; Sun keyboards and a few other manufacturers have such * function key groups on the left and/or right sides of the keyboard. * We've not found a keyboard with more than 35 function keys total. */ #define XK_F1 0xffbe #define XK_F2 0xffbf #define XK_F3 0xffc0 #define XK_F4 0xffc1 #define XK_F5 0xffc2 #define XK_F6 0xffc3 #define XK_F7 0xffc4 #define XK_F8 0xffc5 #define XK_F9 0xffc6 #define XK_F10 0xffc7 #define XK_F11 0xffc8 #define XK_L1 0xffc8 #define XK_F12 0xffc9 #define XK_L2 0xffc9 #define XK_F13 0xffca #define XK_L3 0xffca #define XK_F14 0xffcb #define XK_L4 0xffcb #define XK_F15 0xffcc #define XK_L5 0xffcc #define XK_F16 0xffcd #define XK_L6 0xffcd #define XK_F17 0xffce #define XK_L7 0xffce #define XK_F18 0xffcf #define XK_L8 0xffcf #define XK_F19 0xffd0 #define XK_L9 0xffd0 #define XK_F20 0xffd1 #define XK_L10 0xffd1 #define XK_F21 0xffd2 #define XK_R1 0xffd2 #define XK_F22 0xffd3 #define XK_R2 0xffd3 #define XK_F23 0xffd4 #define XK_R3 0xffd4 #define XK_F24 0xffd5 #define XK_R4 0xffd5 #define XK_F25 0xffd6 #define XK_R5 0xffd6 #define XK_F26 0xffd7 #define XK_R6 0xffd7 #define XK_F27 0xffd8 #define XK_R7 0xffd8 #define XK_F28 0xffd9 #define XK_R8 0xffd9 #define XK_F29 0xffda #define XK_R9 0xffda #define XK_F30 0xffdb #define XK_R10 0xffdb #define XK_F31 0xffdc #define XK_R11 0xffdc #define XK_F32 0xffdd #define XK_R12 0xffdd #define XK_F33 0xffde #define XK_R13 0xffde #define XK_F34 0xffdf #define XK_R14 0xffdf #define XK_F35 0xffe0 #define XK_R15 0xffe0 /* Modifiers */ #define XK_Shift_L 0xffe1 /* Left shift */ #define XK_Shift_R 0xffe2 /* Right shift */ #define XK_Control_L 0xffe3 /* Left control */ #define XK_Control_R 0xffe4 /* Right control */ #define XK_Caps_Lock 0xffe5 /* Caps lock */ #define XK_Shift_Lock 0xffe6 /* Shift lock */ #define XK_Meta_L 0xffe7 /* Left meta */ #define XK_Meta_R 0xffe8 /* Right meta */ #define XK_Alt_L 0xffe9 /* Left alt */ #define XK_Alt_R 0xffea /* Right alt */ #define XK_Super_L 0xffeb /* Left super */ #define XK_Super_R 0xffec /* Right super */ #define XK_Hyper_L 0xffed /* Left hyper */ #define XK_Hyper_R 0xffee /* Right hyper */ #endif /* XK_MISCELLANY */ /* * Keyboard (XKB) Extension function and modifier keys * (from Appendix C of "The X Keyboard Extension: Protocol Specification") * Byte 3 = 0xfe */ #ifdef XK_XKB_KEYS #define XK_ISO_Lock 0xfe01 #define XK_ISO_Level2_Latch 0xfe02 #define XK_ISO_Level3_Shift 0xfe03 #define XK_ISO_Level3_Latch 0xfe04 #define XK_ISO_Level3_Lock 0xfe05 #define XK_ISO_Level5_Shift 0xfe11 #define XK_ISO_Level5_Latch 0xfe12 #define XK_ISO_Level5_Lock 0xfe13 #define XK_ISO_Group_Shift 0xff7e /* Alias for mode_switch */ #define XK_ISO_Group_Latch 0xfe06 #define XK_ISO_Group_Lock 0xfe07 #define XK_ISO_Next_Group 0xfe08 #define XK_ISO_Next_Group_Lock 0xfe09 #define XK_ISO_Prev_Group 0xfe0a #define XK_ISO_Prev_Group_Lock 0xfe0b #define XK_ISO_First_Group 0xfe0c #define XK_ISO_First_Group_Lock 0xfe0d #define XK_ISO_Last_Group 0xfe0e #define XK_ISO_Last_Group_Lock 0xfe0f #define XK_ISO_Left_Tab 0xfe20 #define XK_ISO_Move_Line_Up 0xfe21 #define XK_ISO_Move_Line_Down 0xfe22 #define XK_ISO_Partial_Line_Up 0xfe23 #define XK_ISO_Partial_Line_Down 0xfe24 #define XK_ISO_Partial_Space_Left 0xfe25 #define XK_ISO_Partial_Space_Right 0xfe26 #define XK_ISO_Set_Margin_Left 0xfe27 #define XK_ISO_Set_Margin_Right 0xfe28 #define XK_ISO_Release_Margin_Left 0xfe29 #define XK_ISO_Release_Margin_Right 0xfe2a #define XK_ISO_Release_Both_Margins 0xfe2b #define XK_ISO_Fast_Cursor_Left 0xfe2c #define XK_ISO_Fast_Cursor_Right 0xfe2d #define XK_ISO_Fast_Cursor_Up 0xfe2e #define XK_ISO_Fast_Cursor_Down 0xfe2f #define XK_ISO_Continuous_Underline 0xfe30 #define XK_ISO_Discontinuous_Underline 0xfe31 #define XK_ISO_Emphasize 0xfe32 #define XK_ISO_Center_Object 0xfe33 #define XK_ISO_Enter 0xfe34 #define XK_dead_grave 0xfe50 #define XK_dead_acute 0xfe51 #define XK_dead_circumflex 0xfe52 #define XK_dead_tilde 0xfe53 #define XK_dead_perispomeni 0xfe53 /* alias for dead_tilde */ #define XK_dead_macron 0xfe54 #define XK_dead_breve 0xfe55 #define XK_dead_abovedot 0xfe56 #define XK_dead_diaeresis 0xfe57 #define XK_dead_abovering 0xfe58 #define XK_dead_doubleacute 0xfe59 #define XK_dead_caron 0xfe5a #define XK_dead_cedilla 0xfe5b #define XK_dead_ogonek 0xfe5c #define XK_dead_iota 0xfe5d #define XK_dead_voiced_sound 0xfe5e #define XK_dead_semivoiced_sound 0xfe5f #define XK_dead_belowdot 0xfe60 #define XK_dead_hook 0xfe61 #define XK_dead_horn 0xfe62 #define XK_dead_stroke 0xfe63 #define XK_dead_abovecomma 0xfe64 #define XK_dead_psili 0xfe64 /* alias for dead_abovecomma */ #define XK_dead_abovereversedcomma 0xfe65 #define XK_dead_dasia 0xfe65 /* alias for dead_abovereversedcomma */ #define XK_dead_doublegrave 0xfe66 #define XK_dead_belowring 0xfe67 #define XK_dead_belowmacron 0xfe68 #define XK_dead_belowcircumflex 0xfe69 #define XK_dead_belowtilde 0xfe6a #define XK_dead_belowbreve 0xfe6b #define XK_dead_belowdiaeresis 0xfe6c #define XK_dead_invertedbreve 0xfe6d #define XK_dead_belowcomma 0xfe6e #define XK_dead_currency 0xfe6f /* dead vowels for universal syllable entry */ #define XK_dead_a 0xfe80 #define XK_dead_A 0xfe81 #define XK_dead_e 0xfe82 #define XK_dead_E 0xfe83 #define XK_dead_i 0xfe84 #define XK_dead_I 0xfe85 #define XK_dead_o 0xfe86 #define XK_dead_O 0xfe87 #define XK_dead_u 0xfe88 #define XK_dead_U 0xfe89 #define XK_dead_small_schwa 0xfe8a #define XK_dead_capital_schwa 0xfe8b #define XK_dead_greek 0xfe8c #define XK_First_Virtual_Screen 0xfed0 #define XK_Prev_Virtual_Screen 0xfed1 #define XK_Next_Virtual_Screen 0xfed2 #define XK_Last_Virtual_Screen 0xfed4 #define XK_Terminate_Server 0xfed5 #define XK_AccessX_Enable 0xfe70 #define XK_AccessX_Feedback_Enable 0xfe71 #define XK_RepeatKeys_Enable 0xfe72 #define XK_SlowKeys_Enable 0xfe73 #define XK_BounceKeys_Enable 0xfe74 #define XK_StickyKeys_Enable 0xfe75 #define XK_MouseKeys_Enable 0xfe76 #define XK_MouseKeys_Accel_Enable 0xfe77 #define XK_Overlay1_Enable 0xfe78 #define XK_Overlay2_Enable 0xfe79 #define XK_AudibleBell_Enable 0xfe7a #define XK_Pointer_Left 0xfee0 #define XK_Pointer_Right 0xfee1 #define XK_Pointer_Up 0xfee2 #define XK_Pointer_Down 0xfee3 #define XK_Pointer_UpLeft 0xfee4 #define XK_Pointer_UpRight 0xfee5 #define XK_Pointer_DownLeft 0xfee6 #define XK_Pointer_DownRight 0xfee7 #define XK_Pointer_Button_Dflt 0xfee8 #define XK_Pointer_Button1 0xfee9 #define XK_Pointer_Button2 0xfeea #define XK_Pointer_Button3 0xfeeb #define XK_Pointer_Button4 0xfeec #define XK_Pointer_Button5 0xfeed #define XK_Pointer_DblClick_Dflt 0xfeee #define XK_Pointer_DblClick1 0xfeef #define XK_Pointer_DblClick2 0xfef0 #define XK_Pointer_DblClick3 0xfef1 #define XK_Pointer_DblClick4 0xfef2 #define XK_Pointer_DblClick5 0xfef3 #define XK_Pointer_Drag_Dflt 0xfef4 #define XK_Pointer_Drag1 0xfef5 #define XK_Pointer_Drag2 0xfef6 #define XK_Pointer_Drag3 0xfef7 #define XK_Pointer_Drag4 0xfef8 #define XK_Pointer_Drag5 0xfefd #define XK_Pointer_EnableKeys 0xfef9 #define XK_Pointer_Accelerate 0xfefa #define XK_Pointer_DfltBtnNext 0xfefb #define XK_Pointer_DfltBtnPrev 0xfefc /* Single-Stroke Multiple-Character N-Graph Keysyms For The X Input Method */ #define XK_ch 0xfea0 #define XK_Ch 0xfea1 #define XK_CH 0xfea2 #define XK_c_h 0xfea3 #define XK_C_h 0xfea4 #define XK_C_H 0xfea5 #endif /* XK_XKB_KEYS */ /* * 3270 Terminal Keys * Byte 3 = 0xfd */ #ifdef XK_3270 #define XK_3270_Duplicate 0xfd01 #define XK_3270_FieldMark 0xfd02 #define XK_3270_Right2 0xfd03 #define XK_3270_Left2 0xfd04 #define XK_3270_BackTab 0xfd05 #define XK_3270_EraseEOF 0xfd06 #define XK_3270_EraseInput 0xfd07 #define XK_3270_Reset 0xfd08 #define XK_3270_Quit 0xfd09 #define XK_3270_PA1 0xfd0a #define XK_3270_PA2 0xfd0b #define XK_3270_PA3 0xfd0c #define XK_3270_Test 0xfd0d #define XK_3270_Attn 0xfd0e #define XK_3270_CursorBlink 0xfd0f #define XK_3270_AltCursor 0xfd10 #define XK_3270_KeyClick 0xfd11 #define XK_3270_Jump 0xfd12 #define XK_3270_Ident 0xfd13 #define XK_3270_Rule 0xfd14 #define XK_3270_Copy 0xfd15 #define XK_3270_Play 0xfd16 #define XK_3270_Setup 0xfd17 #define XK_3270_Record 0xfd18 #define XK_3270_ChangeScreen 0xfd19 #define XK_3270_DeleteWord 0xfd1a #define XK_3270_ExSelect 0xfd1b #define XK_3270_CursorSelect 0xfd1c #define XK_3270_PrintScreen 0xfd1d #define XK_3270_Enter 0xfd1e #endif /* XK_3270 */ /* * Latin 1 * (ISO/IEC 8859-1 = Unicode U+0020..U+00FF) * Byte 3 = 0 */ #ifdef XK_LATIN1 #define XK_space 0x0020 /* U+0020 SPACE */ #define XK_exclam 0x0021 /* U+0021 EXCLAMATION MARK */ #define XK_quotedbl 0x0022 /* U+0022 QUOTATION MARK */ #define XK_numbersign 0x0023 /* U+0023 NUMBER SIGN */ #define XK_dollar 0x0024 /* U+0024 DOLLAR SIGN */ #define XK_percent 0x0025 /* U+0025 PERCENT SIGN */ #define XK_ampersand 0x0026 /* U+0026 AMPERSAND */ #define XK_apostrophe 0x0027 /* U+0027 APOSTROPHE */ #define XK_quoteright 0x0027 /* deprecated */ #define XK_parenleft 0x0028 /* U+0028 LEFT PARENTHESIS */ #define XK_parenright 0x0029 /* U+0029 RIGHT PARENTHESIS */ #define XK_asterisk 0x002a /* U+002A ASTERISK */ #define XK_plus 0x002b /* U+002B PLUS SIGN */ #define XK_comma 0x002c /* U+002C COMMA */ #define XK_minus 0x002d /* U+002D HYPHEN-MINUS */ #define XK_period 0x002e /* U+002E FULL STOP */ #define XK_slash 0x002f /* U+002F SOLIDUS */ #define XK_0 0x0030 /* U+0030 DIGIT ZERO */ #define XK_1 0x0031 /* U+0031 DIGIT ONE */ #define XK_2 0x0032 /* U+0032 DIGIT TWO */ #define XK_3 0x0033 /* U+0033 DIGIT THREE */ #define XK_4 0x0034 /* U+0034 DIGIT FOUR */ #define XK_5 0x0035 /* U+0035 DIGIT FIVE */ #define XK_6 0x0036 /* U+0036 DIGIT SIX */ #define XK_7 0x0037 /* U+0037 DIGIT SEVEN */ #define XK_8 0x0038 /* U+0038 DIGIT EIGHT */ #define XK_9 0x0039 /* U+0039 DIGIT NINE */ #define XK_colon 0x003a /* U+003A COLON */ #define XK_semicolon 0x003b /* U+003B SEMICOLON */ #define XK_less 0x003c /* U+003C LESS-THAN SIGN */ #define XK_equal 0x003d /* U+003D EQUALS SIGN */ #define XK_greater 0x003e /* U+003E GREATER-THAN SIGN */ #define XK_question 0x003f /* U+003F QUESTION MARK */ #define XK_at 0x0040 /* U+0040 COMMERCIAL AT */ #define XK_A 0x0041 /* U+0041 LATIN CAPITAL LETTER A */ #define XK_B 0x0042 /* U+0042 LATIN CAPITAL LETTER B */ #define XK_C 0x0043 /* U+0043 LATIN CAPITAL LETTER C */ #define XK_D 0x0044 /* U+0044 LATIN CAPITAL LETTER D */ #define XK_E 0x0045 /* U+0045 LATIN CAPITAL LETTER E */ #define XK_F 0x0046 /* U+0046 LATIN CAPITAL LETTER F */ #define XK_G 0x0047 /* U+0047 LATIN CAPITAL LETTER G */ #define XK_H 0x0048 /* U+0048 LATIN CAPITAL LETTER H */ #define XK_I 0x0049 /* U+0049 LATIN CAPITAL LETTER I */ #define XK_J 0x004a /* U+004A LATIN CAPITAL LETTER J */ #define XK_K 0x004b /* U+004B LATIN CAPITAL LETTER K */ #define XK_L 0x004c /* U+004C LATIN CAPITAL LETTER L */ #define XK_M 0x004d /* U+004D LATIN CAPITAL LETTER M */ #define XK_N 0x004e /* U+004E LATIN CAPITAL LETTER N */ #define XK_O 0x004f /* U+004F LATIN CAPITAL LETTER O */ #define XK_P 0x0050 /* U+0050 LATIN CAPITAL LETTER P */ #define XK_Q 0x0051 /* U+0051 LATIN CAPITAL LETTER Q */ #define XK_R 0x0052 /* U+0052 LATIN CAPITAL LETTER R */ #define XK_S 0x0053 /* U+0053 LATIN CAPITAL LETTER S */ #define XK_T 0x0054 /* U+0054 LATIN CAPITAL LETTER T */ #define XK_U 0x0055 /* U+0055 LATIN CAPITAL LETTER U */ #define XK_V 0x0056 /* U+0056 LATIN CAPITAL LETTER V */ #define XK_W 0x0057 /* U+0057 LATIN CAPITAL LETTER W */ #define XK_X 0x0058 /* U+0058 LATIN CAPITAL LETTER X */ #define XK_Y 0x0059 /* U+0059 LATIN CAPITAL LETTER Y */ #define XK_Z 0x005a /* U+005A LATIN CAPITAL LETTER Z */ #define XK_bracketleft 0x005b /* U+005B LEFT SQUARE BRACKET */ #define XK_backslash 0x005c /* U+005C REVERSE SOLIDUS */ #define XK_bracketright 0x005d /* U+005D RIGHT SQUARE BRACKET */ #define XK_asciicircum 0x005e /* U+005E CIRCUMFLEX ACCENT */ #define XK_underscore 0x005f /* U+005F LOW LINE */ #define XK_grave 0x0060 /* U+0060 GRAVE ACCENT */ #define XK_quoteleft 0x0060 /* deprecated */ #define XK_a 0x0061 /* U+0061 LATIN SMALL LETTER A */ #define XK_b 0x0062 /* U+0062 LATIN SMALL LETTER B */ #define XK_c 0x0063 /* U+0063 LATIN SMALL LETTER C */ #define XK_d 0x0064 /* U+0064 LATIN SMALL LETTER D */ #define XK_e 0x0065 /* U+0065 LATIN SMALL LETTER E */ #define XK_f 0x0066 /* U+0066 LATIN SMALL LETTER F */ #define XK_g 0x0067 /* U+0067 LATIN SMALL LETTER G */ #define XK_h 0x0068 /* U+0068 LATIN SMALL LETTER H */ #define XK_i 0x0069 /* U+0069 LATIN SMALL LETTER I */ #define XK_j 0x006a /* U+006A LATIN SMALL LETTER J */ #define XK_k 0x006b /* U+006B LATIN SMALL LETTER K */ #define XK_l 0x006c /* U+006C LATIN SMALL LETTER L */ #define XK_m 0x006d /* U+006D LATIN SMALL LETTER M */ #define XK_n 0x006e /* U+006E LATIN SMALL LETTER N */ #define XK_o 0x006f /* U+006F LATIN SMALL LETTER O */ #define XK_p 0x0070 /* U+0070 LATIN SMALL LETTER P */ #define XK_q 0x0071 /* U+0071 LATIN SMALL LETTER Q */ #define XK_r 0x0072 /* U+0072 LATIN SMALL LETTER R */ #define XK_s 0x0073 /* U+0073 LATIN SMALL LETTER S */ #define XK_t 0x0074 /* U+0074 LATIN SMALL LETTER T */ #define XK_u 0x0075 /* U+0075 LATIN SMALL LETTER U */ #define XK_v 0x0076 /* U+0076 LATIN SMALL LETTER V */ #define XK_w 0x0077 /* U+0077 LATIN SMALL LETTER W */ #define XK_x 0x0078 /* U+0078 LATIN SMALL LETTER X */ #define XK_y 0x0079 /* U+0079 LATIN SMALL LETTER Y */ #define XK_z 0x007a /* U+007A LATIN SMALL LETTER Z */ #define XK_braceleft 0x007b /* U+007B LEFT CURLY BRACKET */ #define XK_bar 0x007c /* U+007C VERTICAL LINE */ #define XK_braceright 0x007d /* U+007D RIGHT CURLY BRACKET */ #define XK_asciitilde 0x007e /* U+007E TILDE */ #define XK_nobreakspace 0x00a0 /* U+00A0 NO-BREAK SPACE */ #define XK_exclamdown 0x00a1 /* U+00A1 INVERTED EXCLAMATION MARK */ #define XK_cent 0x00a2 /* U+00A2 CENT SIGN */ #define XK_sterling 0x00a3 /* U+00A3 POUND SIGN */ #define XK_currency 0x00a4 /* U+00A4 CURRENCY SIGN */ #define XK_yen 0x00a5 /* U+00A5 YEN SIGN */ #define XK_brokenbar 0x00a6 /* U+00A6 BROKEN BAR */ #define XK_section 0x00a7 /* U+00A7 SECTION SIGN */ #define XK_diaeresis 0x00a8 /* U+00A8 DIAERESIS */ #define XK_copyright 0x00a9 /* U+00A9 COPYRIGHT SIGN */ #define XK_ordfeminine 0x00aa /* U+00AA FEMININE ORDINAL INDICATOR */ #define XK_guillemotleft 0x00ab /* U+00AB LEFT-POINTING DOUBLE ANGLE QUOTATION MARK */ #define XK_notsign 0x00ac /* U+00AC NOT SIGN */ #define XK_hyphen 0x00ad /* U+00AD SOFT HYPHEN */ #define XK_registered 0x00ae /* U+00AE REGISTERED SIGN */ #define XK_macron 0x00af /* U+00AF MACRON */ #define XK_degree 0x00b0 /* U+00B0 DEGREE SIGN */ #define XK_plusminus 0x00b1 /* U+00B1 PLUS-MINUS SIGN */ #define XK_twosuperior 0x00b2 /* U+00B2 SUPERSCRIPT TWO */ #define XK_threesuperior 0x00b3 /* U+00B3 SUPERSCRIPT THREE */ #define XK_acute 0x00b4 /* U+00B4 ACUTE ACCENT */ #define XK_mu 0x00b5 /* U+00B5 MICRO SIGN */ #define XK_paragraph 0x00b6 /* U+00B6 PILCROW SIGN */ #define XK_periodcentered 0x00b7 /* U+00B7 MIDDLE DOT */ #define XK_cedilla 0x00b8 /* U+00B8 CEDILLA */ #define XK_onesuperior 0x00b9 /* U+00B9 SUPERSCRIPT ONE */ #define XK_masculine 0x00ba /* U+00BA MASCULINE ORDINAL INDICATOR */ #define XK_guillemotright 0x00bb /* U+00BB RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK */ #define XK_onequarter 0x00bc /* U+00BC VULGAR FRACTION ONE QUARTER */ #define XK_onehalf 0x00bd /* U+00BD VULGAR FRACTION ONE HALF */ #define XK_threequarters 0x00be /* U+00BE VULGAR FRACTION THREE QUARTERS */ #define XK_questiondown 0x00bf /* U+00BF INVERTED QUESTION MARK */ #define XK_Agrave 0x00c0 /* U+00C0 LATIN CAPITAL LETTER A WITH GRAVE */ #define XK_Aacute 0x00c1 /* U+00C1 LATIN CAPITAL LETTER A WITH ACUTE */ #define XK_Acircumflex 0x00c2 /* U+00C2 LATIN CAPITAL LETTER A WITH CIRCUMFLEX */ #define XK_Atilde 0x00c3 /* U+00C3 LATIN CAPITAL LETTER A WITH TILDE */ #define XK_Adiaeresis 0x00c4 /* U+00C4 LATIN CAPITAL LETTER A WITH DIAERESIS */ #define XK_Aring 0x00c5 /* U+00C5 LATIN CAPITAL LETTER A WITH RING ABOVE */ #define XK_AE 0x00c6 /* U+00C6 LATIN CAPITAL LETTER AE */ #define XK_Ccedilla 0x00c7 /* U+00C7 LATIN CAPITAL LETTER C WITH CEDILLA */ #define XK_Egrave 0x00c8 /* U+00C8 LATIN CAPITAL LETTER E WITH GRAVE */ #define XK_Eacute 0x00c9 /* U+00C9 LATIN CAPITAL LETTER E WITH ACUTE */ #define XK_Ecircumflex 0x00ca /* U+00CA LATIN CAPITAL LETTER E WITH CIRCUMFLEX */ #define XK_Ediaeresis 0x00cb /* U+00CB LATIN CAPITAL LETTER E WITH DIAERESIS */ #define XK_Igrave 0x00cc /* U+00CC LATIN CAPITAL LETTER I WITH GRAVE */ #define XK_Iacute 0x00cd /* U+00CD LATIN CAPITAL LETTER I WITH ACUTE */ #define XK_Icircumflex 0x00ce /* U+00CE LATIN CAPITAL LETTER I WITH CIRCUMFLEX */ #define XK_Idiaeresis 0x00cf /* U+00CF LATIN CAPITAL LETTER I WITH DIAERESIS */ #define XK_ETH 0x00d0 /* U+00D0 LATIN CAPITAL LETTER ETH */ #define XK_Eth 0x00d0 /* deprecated */ #define XK_Ntilde 0x00d1 /* U+00D1 LATIN CAPITAL LETTER N WITH TILDE */ #define XK_Ograve 0x00d2 /* U+00D2 LATIN CAPITAL LETTER O WITH GRAVE */ #define XK_Oacute 0x00d3 /* U+00D3 LATIN CAPITAL LETTER O WITH ACUTE */ #define XK_Ocircumflex 0x00d4 /* U+00D4 LATIN CAPITAL LETTER O WITH CIRCUMFLEX */ #define XK_Otilde 0x00d5 /* U+00D5 LATIN CAPITAL LETTER O WITH TILDE */ #define XK_Odiaeresis 0x00d6 /* U+00D6 LATIN CAPITAL LETTER O WITH DIAERESIS */ #define XK_multiply 0x00d7 /* U+00D7 MULTIPLICATION SIGN */ #define XK_Oslash 0x00d8 /* U+00D8 LATIN CAPITAL LETTER O WITH STROKE */ #define XK_Ooblique 0x00d8 /* U+00D8 LATIN CAPITAL LETTER O WITH STROKE */ #define XK_Ugrave 0x00d9 /* U+00D9 LATIN CAPITAL LETTER U WITH GRAVE */ #define XK_Uacute 0x00da /* U+00DA LATIN CAPITAL LETTER U WITH ACUTE */ #define XK_Ucircumflex 0x00db /* U+00DB LATIN CAPITAL LETTER U WITH CIRCUMFLEX */ #define XK_Udiaeresis 0x00dc /* U+00DC LATIN CAPITAL LETTER U WITH DIAERESIS */ #define XK_Yacute 0x00dd /* U+00DD LATIN CAPITAL LETTER Y WITH ACUTE */ #define XK_THORN 0x00de /* U+00DE LATIN CAPITAL LETTER THORN */ #define XK_Thorn 0x00de /* deprecated */ #define XK_ssharp 0x00df /* U+00DF LATIN SMALL LETTER SHARP S */ #define XK_agrave 0x00e0 /* U+00E0 LATIN SMALL LETTER A WITH GRAVE */ #define XK_aacute 0x00e1 /* U+00E1 LATIN SMALL LETTER A WITH ACUTE */ #define XK_acircumflex 0x00e2 /* U+00E2 LATIN SMALL LETTER A WITH CIRCUMFLEX */ #define XK_atilde 0x00e3 /* U+00E3 LATIN SMALL LETTER A WITH TILDE */ #define XK_adiaeresis 0x00e4 /* U+00E4 LATIN SMALL LETTER A WITH DIAERESIS */ #define XK_aring 0x00e5 /* U+00E5 LATIN SMALL LETTER A WITH RING ABOVE */ #define XK_ae 0x00e6 /* U+00E6 LATIN SMALL LETTER AE */ #define XK_ccedilla 0x00e7 /* U+00E7 LATIN SMALL LETTER C WITH CEDILLA */ #define XK_egrave 0x00e8 /* U+00E8 LATIN SMALL LETTER E WITH GRAVE */ #define XK_eacute 0x00e9 /* U+00E9 LATIN SMALL LETTER E WITH ACUTE */ #define XK_ecircumflex 0x00ea /* U+00EA LATIN SMALL LETTER E WITH CIRCUMFLEX */ #define XK_ediaeresis 0x00eb /* U+00EB LATIN SMALL LETTER E WITH DIAERESIS */ #define XK_igrave 0x00ec /* U+00EC LATIN SMALL LETTER I WITH GRAVE */ #define XK_iacute 0x00ed /* U+00ED LATIN SMALL LETTER I WITH ACUTE */ #define XK_icircumflex 0x00ee /* U+00EE LATIN SMALL LETTER I WITH CIRCUMFLEX */ #define XK_idiaeresis 0x00ef /* U+00EF LATIN SMALL LETTER I WITH DIAERESIS */ #define XK_eth 0x00f0 /* U+00F0 LATIN SMALL LETTER ETH */ #define XK_ntilde 0x00f1 /* U+00F1 LATIN SMALL LETTER N WITH TILDE */ #define XK_ograve 0x00f2 /* U+00F2 LATIN SMALL LETTER O WITH GRAVE */ #define XK_oacute 0x00f3 /* U+00F3 LATIN SMALL LETTER O WITH ACUTE */ #define XK_ocircumflex 0x00f4 /* U+00F4 LATIN SMALL LETTER O WITH CIRCUMFLEX */ #define XK_otilde 0x00f5 /* U+00F5 LATIN SMALL LETTER O WITH TILDE */ #define XK_odiaeresis 0x00f6 /* U+00F6 LATIN SMALL LETTER O WITH DIAERESIS */ #define XK_division 0x00f7 /* U+00F7 DIVISION SIGN */ #define XK_oslash 0x00f8 /* U+00F8 LATIN SMALL LETTER O WITH STROKE */ #define XK_ooblique 0x00f8 /* U+00F8 LATIN SMALL LETTER O WITH STROKE */ #define XK_ugrave 0x00f9 /* U+00F9 LATIN SMALL LETTER U WITH GRAVE */ #define XK_uacute 0x00fa /* U+00FA LATIN SMALL LETTER U WITH ACUTE */ #define XK_ucircumflex 0x00fb /* U+00FB LATIN SMALL LETTER U WITH CIRCUMFLEX */ #define XK_udiaeresis 0x00fc /* U+00FC LATIN SMALL LETTER U WITH DIAERESIS */ #define XK_yacute 0x00fd /* U+00FD LATIN SMALL LETTER Y WITH ACUTE */ #define XK_thorn 0x00fe /* U+00FE LATIN SMALL LETTER THORN */ #define XK_ydiaeresis 0x00ff /* U+00FF LATIN SMALL LETTER Y WITH DIAERESIS */ #endif /* XK_LATIN1 */ /* * Latin 2 * Byte 3 = 1 */ #ifdef XK_LATIN2 #define XK_Aogonek 0x01a1 /* U+0104 LATIN CAPITAL LETTER A WITH OGONEK */ #define XK_breve 0x01a2 /* U+02D8 BREVE */ #define XK_Lstroke 0x01a3 /* U+0141 LATIN CAPITAL LETTER L WITH STROKE */ #define XK_Lcaron 0x01a5 /* U+013D LATIN CAPITAL LETTER L WITH CARON */ #define XK_Sacute 0x01a6 /* U+015A LATIN CAPITAL LETTER S WITH ACUTE */ #define XK_Scaron 0x01a9 /* U+0160 LATIN CAPITAL LETTER S WITH CARON */ #define XK_Scedilla 0x01aa /* U+015E LATIN CAPITAL LETTER S WITH CEDILLA */ #define XK_Tcaron 0x01ab /* U+0164 LATIN CAPITAL LETTER T WITH CARON */ #define XK_Zacute 0x01ac /* U+0179 LATIN CAPITAL LETTER Z WITH ACUTE */ #define XK_Zcaron 0x01ae /* U+017D LATIN CAPITAL LETTER Z WITH CARON */ #define XK_Zabovedot 0x01af /* U+017B LATIN CAPITAL LETTER Z WITH DOT ABOVE */ #define XK_aogonek 0x01b1 /* U+0105 LATIN SMALL LETTER A WITH OGONEK */ #define XK_ogonek 0x01b2 /* U+02DB OGONEK */ #define XK_lstroke 0x01b3 /* U+0142 LATIN SMALL LETTER L WITH STROKE */ #define XK_lcaron 0x01b5 /* U+013E LATIN SMALL LETTER L WITH CARON */ #define XK_sacute 0x01b6 /* U+015B LATIN SMALL LETTER S WITH ACUTE */ #define XK_caron 0x01b7 /* U+02C7 CARON */ #define XK_scaron 0x01b9 /* U+0161 LATIN SMALL LETTER S WITH CARON */ #define XK_scedilla 0x01ba /* U+015F LATIN SMALL LETTER S WITH CEDILLA */ #define XK_tcaron 0x01bb /* U+0165 LATIN SMALL LETTER T WITH CARON */ #define XK_zacute 0x01bc /* U+017A LATIN SMALL LETTER Z WITH ACUTE */ #define XK_doubleacute 0x01bd /* U+02DD DOUBLE ACUTE ACCENT */ #define XK_zcaron 0x01be /* U+017E LATIN SMALL LETTER Z WITH CARON */ #define XK_zabovedot 0x01bf /* U+017C LATIN SMALL LETTER Z WITH DOT ABOVE */ #define XK_Racute 0x01c0 /* U+0154 LATIN CAPITAL LETTER R WITH ACUTE */ #define XK_Abreve 0x01c3 /* U+0102 LATIN CAPITAL LETTER A WITH BREVE */ #define XK_Lacute 0x01c5 /* U+0139 LATIN CAPITAL LETTER L WITH ACUTE */ #define XK_Cacute 0x01c6 /* U+0106 LATIN CAPITAL LETTER C WITH ACUTE */ #define XK_Ccaron 0x01c8 /* U+010C LATIN CAPITAL LETTER C WITH CARON */ #define XK_Eogonek 0x01ca /* U+0118 LATIN CAPITAL LETTER E WITH OGONEK */ #define XK_Ecaron 0x01cc /* U+011A LATIN CAPITAL LETTER E WITH CARON */ #define XK_Dcaron 0x01cf /* U+010E LATIN CAPITAL LETTER D WITH CARON */ #define XK_Dstroke 0x01d0 /* U+0110 LATIN CAPITAL LETTER D WITH STROKE */ #define XK_Nacute 0x01d1 /* U+0143 LATIN CAPITAL LETTER N WITH ACUTE */ #define XK_Ncaron 0x01d2 /* U+0147 LATIN CAPITAL LETTER N WITH CARON */ #define XK_Odoubleacute 0x01d5 /* U+0150 LATIN CAPITAL LETTER O WITH DOUBLE ACUTE */ #define XK_Rcaron 0x01d8 /* U+0158 LATIN CAPITAL LETTER R WITH CARON */ #define XK_Uring 0x01d9 /* U+016E LATIN CAPITAL LETTER U WITH RING ABOVE */ #define XK_Udoubleacute 0x01db /* U+0170 LATIN CAPITAL LETTER U WITH DOUBLE ACUTE */ #define XK_Tcedilla 0x01de /* U+0162 LATIN CAPITAL LETTER T WITH CEDILLA */ #define XK_racute 0x01e0 /* U+0155 LATIN SMALL LETTER R WITH ACUTE */ #define XK_abreve 0x01e3 /* U+0103 LATIN SMALL LETTER A WITH BREVE */ #define XK_lacute 0x01e5 /* U+013A LATIN SMALL LETTER L WITH ACUTE */ #define XK_cacute 0x01e6 /* U+0107 LATIN SMALL LETTER C WITH ACUTE */ #define XK_ccaron 0x01e8 /* U+010D LATIN SMALL LETTER C WITH CARON */ #define XK_eogonek 0x01ea /* U+0119 LATIN SMALL LETTER E WITH OGONEK */ #define XK_ecaron 0x01ec /* U+011B LATIN SMALL LETTER E WITH CARON */ #define XK_dcaron 0x01ef /* U+010F LATIN SMALL LETTER D WITH CARON */ #define XK_dstroke 0x01f0 /* U+0111 LATIN SMALL LETTER D WITH STROKE */ #define XK_nacute 0x01f1 /* U+0144 LATIN SMALL LETTER N WITH ACUTE */ #define XK_ncaron 0x01f2 /* U+0148 LATIN SMALL LETTER N WITH CARON */ #define XK_odoubleacute 0x01f5 /* U+0151 LATIN SMALL LETTER O WITH DOUBLE ACUTE */ #define XK_rcaron 0x01f8 /* U+0159 LATIN SMALL LETTER R WITH CARON */ #define XK_uring 0x01f9 /* U+016F LATIN SMALL LETTER U WITH RING ABOVE */ #define XK_udoubleacute 0x01fb /* U+0171 LATIN SMALL LETTER U WITH DOUBLE ACUTE */ #define XK_tcedilla 0x01fe /* U+0163 LATIN SMALL LETTER T WITH CEDILLA */ #define XK_abovedot 0x01ff /* U+02D9 DOT ABOVE */ #endif /* XK_LATIN2 */ /* * Latin 3 * Byte 3 = 2 */ #ifdef XK_LATIN3 #define XK_Hstroke 0x02a1 /* U+0126 LATIN CAPITAL LETTER H WITH STROKE */ #define XK_Hcircumflex 0x02a6 /* U+0124 LATIN CAPITAL LETTER H WITH CIRCUMFLEX */ #define XK_Iabovedot 0x02a9 /* U+0130 LATIN CAPITAL LETTER I WITH DOT ABOVE */ #define XK_Gbreve 0x02ab /* U+011E LATIN CAPITAL LETTER G WITH BREVE */ #define XK_Jcircumflex 0x02ac /* U+0134 LATIN CAPITAL LETTER J WITH CIRCUMFLEX */ #define XK_hstroke 0x02b1 /* U+0127 LATIN SMALL LETTER H WITH STROKE */ #define XK_hcircumflex 0x02b6 /* U+0125 LATIN SMALL LETTER H WITH CIRCUMFLEX */ #define XK_idotless 0x02b9 /* U+0131 LATIN SMALL LETTER DOTLESS I */ #define XK_gbreve 0x02bb /* U+011F LATIN SMALL LETTER G WITH BREVE */ #define XK_jcircumflex 0x02bc /* U+0135 LATIN SMALL LETTER J WITH CIRCUMFLEX */ #define XK_Cabovedot 0x02c5 /* U+010A LATIN CAPITAL LETTER C WITH DOT ABOVE */ #define XK_Ccircumflex 0x02c6 /* U+0108 LATIN CAPITAL LETTER C WITH CIRCUMFLEX */ #define XK_Gabovedot 0x02d5 /* U+0120 LATIN CAPITAL LETTER G WITH DOT ABOVE */ #define XK_Gcircumflex 0x02d8 /* U+011C LATIN CAPITAL LETTER G WITH CIRCUMFLEX */ #define XK_Ubreve 0x02dd /* U+016C LATIN CAPITAL LETTER U WITH BREVE */ #define XK_Scircumflex 0x02de /* U+015C LATIN CAPITAL LETTER S WITH CIRCUMFLEX */ #define XK_cabovedot 0x02e5 /* U+010B LATIN SMALL LETTER C WITH DOT ABOVE */ #define XK_ccircumflex 0x02e6 /* U+0109 LATIN SMALL LETTER C WITH CIRCUMFLEX */ #define XK_gabovedot 0x02f5 /* U+0121 LATIN SMALL LETTER G WITH DOT ABOVE */ #define XK_gcircumflex 0x02f8 /* U+011D LATIN SMALL LETTER G WITH CIRCUMFLEX */ #define XK_ubreve 0x02fd /* U+016D LATIN SMALL LETTER U WITH BREVE */ #define XK_scircumflex 0x02fe /* U+015D LATIN SMALL LETTER S WITH CIRCUMFLEX */ #endif /* XK_LATIN3 */ /* * Latin 4 * Byte 3 = 3 */ #ifdef XK_LATIN4 #define XK_kra 0x03a2 /* U+0138 LATIN SMALL LETTER KRA */ #define XK_kappa 0x03a2 /* deprecated */ #define XK_Rcedilla 0x03a3 /* U+0156 LATIN CAPITAL LETTER R WITH CEDILLA */ #define XK_Itilde 0x03a5 /* U+0128 LATIN CAPITAL LETTER I WITH TILDE */ #define XK_Lcedilla 0x03a6 /* U+013B LATIN CAPITAL LETTER L WITH CEDILLA */ #define XK_Emacron 0x03aa /* U+0112 LATIN CAPITAL LETTER E WITH MACRON */ #define XK_Gcedilla 0x03ab /* U+0122 LATIN CAPITAL LETTER G WITH CEDILLA */ #define XK_Tslash 0x03ac /* U+0166 LATIN CAPITAL LETTER T WITH STROKE */ #define XK_rcedilla 0x03b3 /* U+0157 LATIN SMALL LETTER R WITH CEDILLA */ #define XK_itilde 0x03b5 /* U+0129 LATIN SMALL LETTER I WITH TILDE */ #define XK_lcedilla 0x03b6 /* U+013C LATIN SMALL LETTER L WITH CEDILLA */ #define XK_emacron 0x03ba /* U+0113 LATIN SMALL LETTER E WITH MACRON */ #define XK_gcedilla 0x03bb /* U+0123 LATIN SMALL LETTER G WITH CEDILLA */ #define XK_tslash 0x03bc /* U+0167 LATIN SMALL LETTER T WITH STROKE */ #define XK_ENG 0x03bd /* U+014A LATIN CAPITAL LETTER ENG */ #define XK_eng 0x03bf /* U+014B LATIN SMALL LETTER ENG */ #define XK_Amacron 0x03c0 /* U+0100 LATIN CAPITAL LETTER A WITH MACRON */ #define XK_Iogonek 0x03c7 /* U+012E LATIN CAPITAL LETTER I WITH OGONEK */ #define XK_Eabovedot 0x03cc /* U+0116 LATIN CAPITAL LETTER E WITH DOT ABOVE */ #define XK_Imacron 0x03cf /* U+012A LATIN CAPITAL LETTER I WITH MACRON */ #define XK_Ncedilla 0x03d1 /* U+0145 LATIN CAPITAL LETTER N WITH CEDILLA */ #define XK_Omacron 0x03d2 /* U+014C LATIN CAPITAL LETTER O WITH MACRON */ #define XK_Kcedilla 0x03d3 /* U+0136 LATIN CAPITAL LETTER K WITH CEDILLA */ #define XK_Uogonek 0x03d9 /* U+0172 LATIN CAPITAL LETTER U WITH OGONEK */ #define XK_Utilde 0x03dd /* U+0168 LATIN CAPITAL LETTER U WITH TILDE */ #define XK_Umacron 0x03de /* U+016A LATIN CAPITAL LETTER U WITH MACRON */ #define XK_amacron 0x03e0 /* U+0101 LATIN SMALL LETTER A WITH MACRON */ #define XK_iogonek 0x03e7 /* U+012F LATIN SMALL LETTER I WITH OGONEK */ #define XK_eabovedot 0x03ec /* U+0117 LATIN SMALL LETTER E WITH DOT ABOVE */ #define XK_imacron 0x03ef /* U+012B LATIN SMALL LETTER I WITH MACRON */ #define XK_ncedilla 0x03f1 /* U+0146 LATIN SMALL LETTER N WITH CEDILLA */ #define XK_omacron 0x03f2 /* U+014D LATIN SMALL LETTER O WITH MACRON */ #define XK_kcedilla 0x03f3 /* U+0137 LATIN SMALL LETTER K WITH CEDILLA */ #define XK_uogonek 0x03f9 /* U+0173 LATIN SMALL LETTER U WITH OGONEK */ #define XK_utilde 0x03fd /* U+0169 LATIN SMALL LETTER U WITH TILDE */ #define XK_umacron 0x03fe /* U+016B LATIN SMALL LETTER U WITH MACRON */ #endif /* XK_LATIN4 */ /* * Latin 8 */ #ifdef XK_LATIN8 #define XK_Wcircumflex 0x1000174 /* U+0174 LATIN CAPITAL LETTER W WITH CIRCUMFLEX */ #define XK_wcircumflex 0x1000175 /* U+0175 LATIN SMALL LETTER W WITH CIRCUMFLEX */ #define XK_Ycircumflex 0x1000176 /* U+0176 LATIN CAPITAL LETTER Y WITH CIRCUMFLEX */ #define XK_ycircumflex 0x1000177 /* U+0177 LATIN SMALL LETTER Y WITH CIRCUMFLEX */ #define XK_Babovedot 0x1001e02 /* U+1E02 LATIN CAPITAL LETTER B WITH DOT ABOVE */ #define XK_babovedot 0x1001e03 /* U+1E03 LATIN SMALL LETTER B WITH DOT ABOVE */ #define XK_Dabovedot 0x1001e0a /* U+1E0A LATIN CAPITAL LETTER D WITH DOT ABOVE */ #define XK_dabovedot 0x1001e0b /* U+1E0B LATIN SMALL LETTER D WITH DOT ABOVE */ #define XK_Fabovedot 0x1001e1e /* U+1E1E LATIN CAPITAL LETTER F WITH DOT ABOVE */ #define XK_fabovedot 0x1001e1f /* U+1E1F LATIN SMALL LETTER F WITH DOT ABOVE */ #define XK_Mabovedot 0x1001e40 /* U+1E40 LATIN CAPITAL LETTER M WITH DOT ABOVE */ #define XK_mabovedot 0x1001e41 /* U+1E41 LATIN SMALL LETTER M WITH DOT ABOVE */ #define XK_Pabovedot 0x1001e56 /* U+1E56 LATIN CAPITAL LETTER P WITH DOT ABOVE */ #define XK_pabovedot 0x1001e57 /* U+1E57 LATIN SMALL LETTER P WITH DOT ABOVE */ #define XK_Sabovedot 0x1001e60 /* U+1E60 LATIN CAPITAL LETTER S WITH DOT ABOVE */ #define XK_sabovedot 0x1001e61 /* U+1E61 LATIN SMALL LETTER S WITH DOT ABOVE */ #define XK_Tabovedot 0x1001e6a /* U+1E6A LATIN CAPITAL LETTER T WITH DOT ABOVE */ #define XK_tabovedot 0x1001e6b /* U+1E6B LATIN SMALL LETTER T WITH DOT ABOVE */ #define XK_Wgrave 0x1001e80 /* U+1E80 LATIN CAPITAL LETTER W WITH GRAVE */ #define XK_wgrave 0x1001e81 /* U+1E81 LATIN SMALL LETTER W WITH GRAVE */ #define XK_Wacute 0x1001e82 /* U+1E82 LATIN CAPITAL LETTER W WITH ACUTE */ #define XK_wacute 0x1001e83 /* U+1E83 LATIN SMALL LETTER W WITH ACUTE */ #define XK_Wdiaeresis 0x1001e84 /* U+1E84 LATIN CAPITAL LETTER W WITH DIAERESIS */ #define XK_wdiaeresis 0x1001e85 /* U+1E85 LATIN SMALL LETTER W WITH DIAERESIS */ #define XK_Ygrave 0x1001ef2 /* U+1EF2 LATIN CAPITAL LETTER Y WITH GRAVE */ #define XK_ygrave 0x1001ef3 /* U+1EF3 LATIN SMALL LETTER Y WITH GRAVE */ #endif /* XK_LATIN8 */ /* * Latin 9 * Byte 3 = 0x13 */ #ifdef XK_LATIN9 #define XK_OE 0x13bc /* U+0152 LATIN CAPITAL LIGATURE OE */ #define XK_oe 0x13bd /* U+0153 LATIN SMALL LIGATURE OE */ #define XK_Ydiaeresis 0x13be /* U+0178 LATIN CAPITAL LETTER Y WITH DIAERESIS */ #endif /* XK_LATIN9 */ /* * Katakana * Byte 3 = 4 */ #ifdef XK_KATAKANA #define XK_overline 0x047e /* U+203E OVERLINE */ #define XK_kana_fullstop 0x04a1 /* U+3002 IDEOGRAPHIC FULL STOP */ #define XK_kana_openingbracket 0x04a2 /* U+300C LEFT CORNER BRACKET */ #define XK_kana_closingbracket 0x04a3 /* U+300D RIGHT CORNER BRACKET */ #define XK_kana_comma 0x04a4 /* U+3001 IDEOGRAPHIC COMMA */ #define XK_kana_conjunctive 0x04a5 /* U+30FB KATAKANA MIDDLE DOT */ #define XK_kana_middledot 0x04a5 /* deprecated */ #define XK_kana_WO 0x04a6 /* U+30F2 KATAKANA LETTER WO */ #define XK_kana_a 0x04a7 /* U+30A1 KATAKANA LETTER SMALL A */ #define XK_kana_i 0x04a8 /* U+30A3 KATAKANA LETTER SMALL I */ #define XK_kana_u 0x04a9 /* U+30A5 KATAKANA LETTER SMALL U */ #define XK_kana_e 0x04aa /* U+30A7 KATAKANA LETTER SMALL E */ #define XK_kana_o 0x04ab /* U+30A9 KATAKANA LETTER SMALL O */ #define XK_kana_ya 0x04ac /* U+30E3 KATAKANA LETTER SMALL YA */ #define XK_kana_yu 0x04ad /* U+30E5 KATAKANA LETTER SMALL YU */ #define XK_kana_yo 0x04ae /* U+30E7 KATAKANA LETTER SMALL YO */ #define XK_kana_tsu 0x04af /* U+30C3 KATAKANA LETTER SMALL TU */ #define XK_kana_tu 0x04af /* deprecated */ #define XK_prolongedsound 0x04b0 /* U+30FC KATAKANA-HIRAGANA PROLONGED SOUND MARK */ #define XK_kana_A 0x04b1 /* U+30A2 KATAKANA LETTER A */ #define XK_kana_I 0x04b2 /* U+30A4 KATAKANA LETTER I */ #define XK_kana_U 0x04b3 /* U+30A6 KATAKANA LETTER U */ #define XK_kana_E 0x04b4 /* U+30A8 KATAKANA LETTER E */ #define XK_kana_O 0x04b5 /* U+30AA KATAKANA LETTER O */ #define XK_kana_KA 0x04b6 /* U+30AB KATAKANA LETTER KA */ #define XK_kana_KI 0x04b7 /* U+30AD KATAKANA LETTER KI */ #define XK_kana_KU 0x04b8 /* U+30AF KATAKANA LETTER KU */ #define XK_kana_KE 0x04b9 /* U+30B1 KATAKANA LETTER KE */ #define XK_kana_KO 0x04ba /* U+30B3 KATAKANA LETTER KO */ #define XK_kana_SA 0x04bb /* U+30B5 KATAKANA LETTER SA */ #define XK_kana_SHI 0x04bc /* U+30B7 KATAKANA LETTER SI */ #define XK_kana_SU 0x04bd /* U+30B9 KATAKANA LETTER SU */ #define XK_kana_SE 0x04be /* U+30BB KATAKANA LETTER SE */ #define XK_kana_SO 0x04bf /* U+30BD KATAKANA LETTER SO */ #define XK_kana_TA 0x04c0 /* U+30BF KATAKANA LETTER TA */ #define XK_kana_CHI 0x04c1 /* U+30C1 KATAKANA LETTER TI */ #define XK_kana_TI 0x04c1 /* deprecated */ #define XK_kana_TSU 0x04c2 /* U+30C4 KATAKANA LETTER TU */ #define XK_kana_TU 0x04c2 /* deprecated */ #define XK_kana_TE 0x04c3 /* U+30C6 KATAKANA LETTER TE */ #define XK_kana_TO 0x04c4 /* U+30C8 KATAKANA LETTER TO */ #define XK_kana_NA 0x04c5 /* U+30CA KATAKANA LETTER NA */ #define XK_kana_NI 0x04c6 /* U+30CB KATAKANA LETTER NI */ #define XK_kana_NU 0x04c7 /* U+30CC KATAKANA LETTER NU */ #define XK_kana_NE 0x04c8 /* U+30CD KATAKANA LETTER NE */ #define XK_kana_NO 0x04c9 /* U+30CE KATAKANA LETTER NO */ #define XK_kana_HA 0x04ca /* U+30CF KATAKANA LETTER HA */ #define XK_kana_HI 0x04cb /* U+30D2 KATAKANA LETTER HI */ #define XK_kana_FU 0x04cc /* U+30D5 KATAKANA LETTER HU */ #define XK_kana_HU 0x04cc /* deprecated */ #define XK_kana_HE 0x04cd /* U+30D8 KATAKANA LETTER HE */ #define XK_kana_HO 0x04ce /* U+30DB KATAKANA LETTER HO */ #define XK_kana_MA 0x04cf /* U+30DE KATAKANA LETTER MA */ #define XK_kana_MI 0x04d0 /* U+30DF KATAKANA LETTER MI */ #define XK_kana_MU 0x04d1 /* U+30E0 KATAKANA LETTER MU */ #define XK_kana_ME 0x04d2 /* U+30E1 KATAKANA LETTER ME */ #define XK_kana_MO 0x04d3 /* U+30E2 KATAKANA LETTER MO */ #define XK_kana_YA 0x04d4 /* U+30E4 KATAKANA LETTER YA */ #define XK_kana_YU 0x04d5 /* U+30E6 KATAKANA LETTER YU */ #define XK_kana_YO 0x04d6 /* U+30E8 KATAKANA LETTER YO */ #define XK_kana_RA 0x04d7 /* U+30E9 KATAKANA LETTER RA */ #define XK_kana_RI 0x04d8 /* U+30EA KATAKANA LETTER RI */ #define XK_kana_RU 0x04d9 /* U+30EB KATAKANA LETTER RU */ #define XK_kana_RE 0x04da /* U+30EC KATAKANA LETTER RE */ #define XK_kana_RO 0x04db /* U+30ED KATAKANA LETTER RO */ #define XK_kana_WA 0x04dc /* U+30EF KATAKANA LETTER WA */ #define XK_kana_N 0x04dd /* U+30F3 KATAKANA LETTER N */ #define XK_voicedsound 0x04de /* U+309B KATAKANA-HIRAGANA VOICED SOUND MARK */ #define XK_semivoicedsound 0x04df /* U+309C KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK */ #define XK_kana_switch 0xff7e /* Alias for mode_switch */ #endif /* XK_KATAKANA */ /* * Arabic * Byte 3 = 5 */ #ifdef XK_ARABIC #define XK_Farsi_0 0x10006f0 /* U+06F0 EXTENDED ARABIC-INDIC DIGIT ZERO */ #define XK_Farsi_1 0x10006f1 /* U+06F1 EXTENDED ARABIC-INDIC DIGIT ONE */ #define XK_Farsi_2 0x10006f2 /* U+06F2 EXTENDED ARABIC-INDIC DIGIT TWO */ #define XK_Farsi_3 0x10006f3 /* U+06F3 EXTENDED ARABIC-INDIC DIGIT THREE */ #define XK_Farsi_4 0x10006f4 /* U+06F4 EXTENDED ARABIC-INDIC DIGIT FOUR */ #define XK_Farsi_5 0x10006f5 /* U+06F5 EXTENDED ARABIC-INDIC DIGIT FIVE */ #define XK_Farsi_6 0x10006f6 /* U+06F6 EXTENDED ARABIC-INDIC DIGIT SIX */ #define XK_Farsi_7 0x10006f7 /* U+06F7 EXTENDED ARABIC-INDIC DIGIT SEVEN */ #define XK_Farsi_8 0x10006f8 /* U+06F8 EXTENDED ARABIC-INDIC DIGIT EIGHT */ #define XK_Farsi_9 0x10006f9 /* U+06F9 EXTENDED ARABIC-INDIC DIGIT NINE */ #define XK_Arabic_percent 0x100066a /* U+066A ARABIC PERCENT SIGN */ #define XK_Arabic_superscript_alef 0x1000670 /* U+0670 ARABIC LETTER SUPERSCRIPT ALEF */ #define XK_Arabic_tteh 0x1000679 /* U+0679 ARABIC LETTER TTEH */ #define XK_Arabic_peh 0x100067e /* U+067E ARABIC LETTER PEH */ #define XK_Arabic_tcheh 0x1000686 /* U+0686 ARABIC LETTER TCHEH */ #define XK_Arabic_ddal 0x1000688 /* U+0688 ARABIC LETTER DDAL */ #define XK_Arabic_rreh 0x1000691 /* U+0691 ARABIC LETTER RREH */ #define XK_Arabic_comma 0x05ac /* U+060C ARABIC COMMA */ #define XK_Arabic_fullstop 0x10006d4 /* U+06D4 ARABIC FULL STOP */ #define XK_Arabic_0 0x1000660 /* U+0660 ARABIC-INDIC DIGIT ZERO */ #define XK_Arabic_1 0x1000661 /* U+0661 ARABIC-INDIC DIGIT ONE */ #define XK_Arabic_2 0x1000662 /* U+0662 ARABIC-INDIC DIGIT TWO */ #define XK_Arabic_3 0x1000663 /* U+0663 ARABIC-INDIC DIGIT THREE */ #define XK_Arabic_4 0x1000664 /* U+0664 ARABIC-INDIC DIGIT FOUR */ #define XK_Arabic_5 0x1000665 /* U+0665 ARABIC-INDIC DIGIT FIVE */ #define XK_Arabic_6 0x1000666 /* U+0666 ARABIC-INDIC DIGIT SIX */ #define XK_Arabic_7 0x1000667 /* U+0667 ARABIC-INDIC DIGIT SEVEN */ #define XK_Arabic_8 0x1000668 /* U+0668 ARABIC-INDIC DIGIT EIGHT */ #define XK_Arabic_9 0x1000669 /* U+0669 ARABIC-INDIC DIGIT NINE */ #define XK_Arabic_semicolon 0x05bb /* U+061B ARABIC SEMICOLON */ #define XK_Arabic_question_mark 0x05bf /* U+061F ARABIC QUESTION MARK */ #define XK_Arabic_hamza 0x05c1 /* U+0621 ARABIC LETTER HAMZA */ #define XK_Arabic_maddaonalef 0x05c2 /* U+0622 ARABIC LETTER ALEF WITH MADDA ABOVE */ #define XK_Arabic_hamzaonalef 0x05c3 /* U+0623 ARABIC LETTER ALEF WITH HAMZA ABOVE */ #define XK_Arabic_hamzaonwaw 0x05c4 /* U+0624 ARABIC LETTER WAW WITH HAMZA ABOVE */ #define XK_Arabic_hamzaunderalef 0x05c5 /* U+0625 ARABIC LETTER ALEF WITH HAMZA BELOW */ #define XK_Arabic_hamzaonyeh 0x05c6 /* U+0626 ARABIC LETTER YEH WITH HAMZA ABOVE */ #define XK_Arabic_alef 0x05c7 /* U+0627 ARABIC LETTER ALEF */ #define XK_Arabic_beh 0x05c8 /* U+0628 ARABIC LETTER BEH */ #define XK_Arabic_tehmarbuta 0x05c9 /* U+0629 ARABIC LETTER TEH MARBUTA */ #define XK_Arabic_teh 0x05ca /* U+062A ARABIC LETTER TEH */ #define XK_Arabic_theh 0x05cb /* U+062B ARABIC LETTER THEH */ #define XK_Arabic_jeem 0x05cc /* U+062C ARABIC LETTER JEEM */ #define XK_Arabic_hah 0x05cd /* U+062D ARABIC LETTER HAH */ #define XK_Arabic_khah 0x05ce /* U+062E ARABIC LETTER KHAH */ #define XK_Arabic_dal 0x05cf /* U+062F ARABIC LETTER DAL */ #define XK_Arabic_thal 0x05d0 /* U+0630 ARABIC LETTER THAL */ #define XK_Arabic_ra 0x05d1 /* U+0631 ARABIC LETTER REH */ #define XK_Arabic_zain 0x05d2 /* U+0632 ARABIC LETTER ZAIN */ #define XK_Arabic_seen 0x05d3 /* U+0633 ARABIC LETTER SEEN */ #define XK_Arabic_sheen 0x05d4 /* U+0634 ARABIC LETTER SHEEN */ #define XK_Arabic_sad 0x05d5 /* U+0635 ARABIC LETTER SAD */ #define XK_Arabic_dad 0x05d6 /* U+0636 ARABIC LETTER DAD */ #define XK_Arabic_tah 0x05d7 /* U+0637 ARABIC LETTER TAH */ #define XK_Arabic_zah 0x05d8 /* U+0638 ARABIC LETTER ZAH */ #define XK_Arabic_ain 0x05d9 /* U+0639 ARABIC LETTER AIN */ #define XK_Arabic_ghain 0x05da /* U+063A ARABIC LETTER GHAIN */ #define XK_Arabic_tatweel 0x05e0 /* U+0640 ARABIC TATWEEL */ #define XK_Arabic_feh 0x05e1 /* U+0641 ARABIC LETTER FEH */ #define XK_Arabic_qaf 0x05e2 /* U+0642 ARABIC LETTER QAF */ #define XK_Arabic_kaf 0x05e3 /* U+0643 ARABIC LETTER KAF */ #define XK_Arabic_lam 0x05e4 /* U+0644 ARABIC LETTER LAM */ #define XK_Arabic_meem 0x05e5 /* U+0645 ARABIC LETTER MEEM */ #define XK_Arabic_noon 0x05e6 /* U+0646 ARABIC LETTER NOON */ #define XK_Arabic_ha 0x05e7 /* U+0647 ARABIC LETTER HEH */ #define XK_Arabic_heh 0x05e7 /* deprecated */ #define XK_Arabic_waw 0x05e8 /* U+0648 ARABIC LETTER WAW */ #define XK_Arabic_alefmaksura 0x05e9 /* U+0649 ARABIC LETTER ALEF MAKSURA */ #define XK_Arabic_yeh 0x05ea /* U+064A ARABIC LETTER YEH */ #define XK_Arabic_fathatan 0x05eb /* U+064B ARABIC FATHATAN */ #define XK_Arabic_dammatan 0x05ec /* U+064C ARABIC DAMMATAN */ #define XK_Arabic_kasratan 0x05ed /* U+064D ARABIC KASRATAN */ #define XK_Arabic_fatha 0x05ee /* U+064E ARABIC FATHA */ #define XK_Arabic_damma 0x05ef /* U+064F ARABIC DAMMA */ #define XK_Arabic_kasra 0x05f0 /* U+0650 ARABIC KASRA */ #define XK_Arabic_shadda 0x05f1 /* U+0651 ARABIC SHADDA */ #define XK_Arabic_sukun 0x05f2 /* U+0652 ARABIC SUKUN */ #define XK_Arabic_madda_above 0x1000653 /* U+0653 ARABIC MADDAH ABOVE */ #define XK_Arabic_hamza_above 0x1000654 /* U+0654 ARABIC HAMZA ABOVE */ #define XK_Arabic_hamza_below 0x1000655 /* U+0655 ARABIC HAMZA BELOW */ #define XK_Arabic_jeh 0x1000698 /* U+0698 ARABIC LETTER JEH */ #define XK_Arabic_veh 0x10006a4 /* U+06A4 ARABIC LETTER VEH */ #define XK_Arabic_keheh 0x10006a9 /* U+06A9 ARABIC LETTER KEHEH */ #define XK_Arabic_gaf 0x10006af /* U+06AF ARABIC LETTER GAF */ #define XK_Arabic_noon_ghunna 0x10006ba /* U+06BA ARABIC LETTER NOON GHUNNA */ #define XK_Arabic_heh_doachashmee 0x10006be /* U+06BE ARABIC LETTER HEH DOACHASHMEE */ #define XK_Farsi_yeh 0x10006cc /* U+06CC ARABIC LETTER FARSI YEH */ #define XK_Arabic_farsi_yeh 0x10006cc /* U+06CC ARABIC LETTER FARSI YEH */ #define XK_Arabic_yeh_baree 0x10006d2 /* U+06D2 ARABIC LETTER YEH BARREE */ #define XK_Arabic_heh_goal 0x10006c1 /* U+06C1 ARABIC LETTER HEH GOAL */ #define XK_Arabic_switch 0xff7e /* Alias for mode_switch */ #endif /* XK_ARABIC */ /* * Cyrillic * Byte 3 = 6 */ #ifdef XK_CYRILLIC #define XK_Cyrillic_GHE_bar 0x1000492 /* U+0492 CYRILLIC CAPITAL LETTER GHE WITH STROKE */ #define XK_Cyrillic_ghe_bar 0x1000493 /* U+0493 CYRILLIC SMALL LETTER GHE WITH STROKE */ #define XK_Cyrillic_ZHE_descender 0x1000496 /* U+0496 CYRILLIC CAPITAL LETTER ZHE WITH DESCENDER */ #define XK_Cyrillic_zhe_descender 0x1000497 /* U+0497 CYRILLIC SMALL LETTER ZHE WITH DESCENDER */ #define XK_Cyrillic_KA_descender 0x100049a /* U+049A CYRILLIC CAPITAL LETTER KA WITH DESCENDER */ #define XK_Cyrillic_ka_descender 0x100049b /* U+049B CYRILLIC SMALL LETTER KA WITH DESCENDER */ #define XK_Cyrillic_KA_vertstroke 0x100049c /* U+049C CYRILLIC CAPITAL LETTER KA WITH VERTICAL STROKE */ #define XK_Cyrillic_ka_vertstroke 0x100049d /* U+049D CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE */ #define XK_Cyrillic_EN_descender 0x10004a2 /* U+04A2 CYRILLIC CAPITAL LETTER EN WITH DESCENDER */ #define XK_Cyrillic_en_descender 0x10004a3 /* U+04A3 CYRILLIC SMALL LETTER EN WITH DESCENDER */ #define XK_Cyrillic_U_straight 0x10004ae /* U+04AE CYRILLIC CAPITAL LETTER STRAIGHT U */ #define XK_Cyrillic_u_straight 0x10004af /* U+04AF CYRILLIC SMALL LETTER STRAIGHT U */ #define XK_Cyrillic_U_straight_bar 0x10004b0 /* U+04B0 CYRILLIC CAPITAL LETTER STRAIGHT U WITH STROKE */ #define XK_Cyrillic_u_straight_bar 0x10004b1 /* U+04B1 CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE */ #define XK_Cyrillic_HA_descender 0x10004b2 /* U+04B2 CYRILLIC CAPITAL LETTER HA WITH DESCENDER */ #define XK_Cyrillic_ha_descender 0x10004b3 /* U+04B3 CYRILLIC SMALL LETTER HA WITH DESCENDER */ #define XK_Cyrillic_CHE_descender 0x10004b6 /* U+04B6 CYRILLIC CAPITAL LETTER CHE WITH DESCENDER */ #define XK_Cyrillic_che_descender 0x10004b7 /* U+04B7 CYRILLIC SMALL LETTER CHE WITH DESCENDER */ #define XK_Cyrillic_CHE_vertstroke 0x10004b8 /* U+04B8 CYRILLIC CAPITAL LETTER CHE WITH VERTICAL STROKE */ #define XK_Cyrillic_che_vertstroke 0x10004b9 /* U+04B9 CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE */ #define XK_Cyrillic_SHHA 0x10004ba /* U+04BA CYRILLIC CAPITAL LETTER SHHA */ #define XK_Cyrillic_shha 0x10004bb /* U+04BB CYRILLIC SMALL LETTER SHHA */ #define XK_Cyrillic_SCHWA 0x10004d8 /* U+04D8 CYRILLIC CAPITAL LETTER SCHWA */ #define XK_Cyrillic_schwa 0x10004d9 /* U+04D9 CYRILLIC SMALL LETTER SCHWA */ #define XK_Cyrillic_I_macron 0x10004e2 /* U+04E2 CYRILLIC CAPITAL LETTER I WITH MACRON */ #define XK_Cyrillic_i_macron 0x10004e3 /* U+04E3 CYRILLIC SMALL LETTER I WITH MACRON */ #define XK_Cyrillic_O_bar 0x10004e8 /* U+04E8 CYRILLIC CAPITAL LETTER BARRED O */ #define XK_Cyrillic_o_bar 0x10004e9 /* U+04E9 CYRILLIC SMALL LETTER BARRED O */ #define XK_Cyrillic_U_macron 0x10004ee /* U+04EE CYRILLIC CAPITAL LETTER U WITH MACRON */ #define XK_Cyrillic_u_macron 0x10004ef /* U+04EF CYRILLIC SMALL LETTER U WITH MACRON */ #define XK_Serbian_dje 0x06a1 /* U+0452 CYRILLIC SMALL LETTER DJE */ #define XK_Macedonia_gje 0x06a2 /* U+0453 CYRILLIC SMALL LETTER GJE */ #define XK_Cyrillic_io 0x06a3 /* U+0451 CYRILLIC SMALL LETTER IO */ #define XK_Ukrainian_ie 0x06a4 /* U+0454 CYRILLIC SMALL LETTER UKRAINIAN IE */ #define XK_Ukranian_je 0x06a4 /* deprecated */ #define XK_Macedonia_dse 0x06a5 /* U+0455 CYRILLIC SMALL LETTER DZE */ #define XK_Ukrainian_i 0x06a6 /* U+0456 CYRILLIC SMALL LETTER BYELORUSSIAN-UKRAINIAN I */ #define XK_Ukranian_i 0x06a6 /* deprecated */ #define XK_Ukrainian_yi 0x06a7 /* U+0457 CYRILLIC SMALL LETTER YI */ #define XK_Ukranian_yi 0x06a7 /* deprecated */ #define XK_Cyrillic_je 0x06a8 /* U+0458 CYRILLIC SMALL LETTER JE */ #define XK_Serbian_je 0x06a8 /* deprecated */ #define XK_Cyrillic_lje 0x06a9 /* U+0459 CYRILLIC SMALL LETTER LJE */ #define XK_Serbian_lje 0x06a9 /* deprecated */ #define XK_Cyrillic_nje 0x06aa /* U+045A CYRILLIC SMALL LETTER NJE */ #define XK_Serbian_nje 0x06aa /* deprecated */ #define XK_Serbian_tshe 0x06ab /* U+045B CYRILLIC SMALL LETTER TSHE */ #define XK_Macedonia_kje 0x06ac /* U+045C CYRILLIC SMALL LETTER KJE */ #define XK_Ukrainian_ghe_with_upturn 0x06ad /* U+0491 CYRILLIC SMALL LETTER GHE WITH UPTURN */ #define XK_Byelorussian_shortu 0x06ae /* U+045E CYRILLIC SMALL LETTER SHORT U */ #define XK_Cyrillic_dzhe 0x06af /* U+045F CYRILLIC SMALL LETTER DZHE */ #define XK_Serbian_dze 0x06af /* deprecated */ #define XK_numerosign 0x06b0 /* U+2116 NUMERO SIGN */ #define XK_Serbian_DJE 0x06b1 /* U+0402 CYRILLIC CAPITAL LETTER DJE */ #define XK_Macedonia_GJE 0x06b2 /* U+0403 CYRILLIC CAPITAL LETTER GJE */ #define XK_Cyrillic_IO 0x06b3 /* U+0401 CYRILLIC CAPITAL LETTER IO */ #define XK_Ukrainian_IE 0x06b4 /* U+0404 CYRILLIC CAPITAL LETTER UKRAINIAN IE */ #define XK_Ukranian_JE 0x06b4 /* deprecated */ #define XK_Macedonia_DSE 0x06b5 /* U+0405 CYRILLIC CAPITAL LETTER DZE */ #define XK_Ukrainian_I 0x06b6 /* U+0406 CYRILLIC CAPITAL LETTER BYELORUSSIAN-UKRAINIAN I */ #define XK_Ukranian_I 0x06b6 /* deprecated */ #define XK_Ukrainian_YI 0x06b7 /* U+0407 CYRILLIC CAPITAL LETTER YI */ #define XK_Ukranian_YI 0x06b7 /* deprecated */ #define XK_Cyrillic_JE 0x06b8 /* U+0408 CYRILLIC CAPITAL LETTER JE */ #define XK_Serbian_JE 0x06b8 /* deprecated */ #define XK_Cyrillic_LJE 0x06b9 /* U+0409 CYRILLIC CAPITAL LETTER LJE */ #define XK_Serbian_LJE 0x06b9 /* deprecated */ #define XK_Cyrillic_NJE 0x06ba /* U+040A CYRILLIC CAPITAL LETTER NJE */ #define XK_Serbian_NJE 0x06ba /* deprecated */ #define XK_Serbian_TSHE 0x06bb /* U+040B CYRILLIC CAPITAL LETTER TSHE */ #define XK_Macedonia_KJE 0x06bc /* U+040C CYRILLIC CAPITAL LETTER KJE */ #define XK_Ukrainian_GHE_WITH_UPTURN 0x06bd /* U+0490 CYRILLIC CAPITAL LETTER GHE WITH UPTURN */ #define XK_Byelorussian_SHORTU 0x06be /* U+040E CYRILLIC CAPITAL LETTER SHORT U */ #define XK_Cyrillic_DZHE 0x06bf /* U+040F CYRILLIC CAPITAL LETTER DZHE */ #define XK_Serbian_DZE 0x06bf /* deprecated */ #define XK_Cyrillic_yu 0x06c0 /* U+044E CYRILLIC SMALL LETTER YU */ #define XK_Cyrillic_a 0x06c1 /* U+0430 CYRILLIC SMALL LETTER A */ #define XK_Cyrillic_be 0x06c2 /* U+0431 CYRILLIC SMALL LETTER BE */ #define XK_Cyrillic_tse 0x06c3 /* U+0446 CYRILLIC SMALL LETTER TSE */ #define XK_Cyrillic_de 0x06c4 /* U+0434 CYRILLIC SMALL LETTER DE */ #define XK_Cyrillic_ie 0x06c5 /* U+0435 CYRILLIC SMALL LETTER IE */ #define XK_Cyrillic_ef 0x06c6 /* U+0444 CYRILLIC SMALL LETTER EF */ #define XK_Cyrillic_ghe 0x06c7 /* U+0433 CYRILLIC SMALL LETTER GHE */ #define XK_Cyrillic_ha 0x06c8 /* U+0445 CYRILLIC SMALL LETTER HA */ #define XK_Cyrillic_i 0x06c9 /* U+0438 CYRILLIC SMALL LETTER I */ #define XK_Cyrillic_shorti 0x06ca /* U+0439 CYRILLIC SMALL LETTER SHORT I */ #define XK_Cyrillic_ka 0x06cb /* U+043A CYRILLIC SMALL LETTER KA */ #define XK_Cyrillic_el 0x06cc /* U+043B CYRILLIC SMALL LETTER EL */ #define XK_Cyrillic_em 0x06cd /* U+043C CYRILLIC SMALL LETTER EM */ #define XK_Cyrillic_en 0x06ce /* U+043D CYRILLIC SMALL LETTER EN */ #define XK_Cyrillic_o 0x06cf /* U+043E CYRILLIC SMALL LETTER O */ #define XK_Cyrillic_pe 0x06d0 /* U+043F CYRILLIC SMALL LETTER PE */ #define XK_Cyrillic_ya 0x06d1 /* U+044F CYRILLIC SMALL LETTER YA */ #define XK_Cyrillic_er 0x06d2 /* U+0440 CYRILLIC SMALL LETTER ER */ #define XK_Cyrillic_es 0x06d3 /* U+0441 CYRILLIC SMALL LETTER ES */ #define XK_Cyrillic_te 0x06d4 /* U+0442 CYRILLIC SMALL LETTER TE */ #define XK_Cyrillic_u 0x06d5 /* U+0443 CYRILLIC SMALL LETTER U */ #define XK_Cyrillic_zhe 0x06d6 /* U+0436 CYRILLIC SMALL LETTER ZHE */ #define XK_Cyrillic_ve 0x06d7 /* U+0432 CYRILLIC SMALL LETTER VE */ #define XK_Cyrillic_softsign 0x06d8 /* U+044C CYRILLIC SMALL LETTER SOFT SIGN */ #define XK_Cyrillic_yeru 0x06d9 /* U+044B CYRILLIC SMALL LETTER YERU */ #define XK_Cyrillic_ze 0x06da /* U+0437 CYRILLIC SMALL LETTER ZE */ #define XK_Cyrillic_sha 0x06db /* U+0448 CYRILLIC SMALL LETTER SHA */ #define XK_Cyrillic_e 0x06dc /* U+044D CYRILLIC SMALL LETTER E */ #define XK_Cyrillic_shcha 0x06dd /* U+0449 CYRILLIC SMALL LETTER SHCHA */ #define XK_Cyrillic_che 0x06de /* U+0447 CYRILLIC SMALL LETTER CHE */ #define XK_Cyrillic_hardsign 0x06df /* U+044A CYRILLIC SMALL LETTER HARD SIGN */ #define XK_Cyrillic_YU 0x06e0 /* U+042E CYRILLIC CAPITAL LETTER YU */ #define XK_Cyrillic_A 0x06e1 /* U+0410 CYRILLIC CAPITAL LETTER A */ #define XK_Cyrillic_BE 0x06e2 /* U+0411 CYRILLIC CAPITAL LETTER BE */ #define XK_Cyrillic_TSE 0x06e3 /* U+0426 CYRILLIC CAPITAL LETTER TSE */ #define XK_Cyrillic_DE 0x06e4 /* U+0414 CYRILLIC CAPITAL LETTER DE */ #define XK_Cyrillic_IE 0x06e5 /* U+0415 CYRILLIC CAPITAL LETTER IE */ #define XK_Cyrillic_EF 0x06e6 /* U+0424 CYRILLIC CAPITAL LETTER EF */ #define XK_Cyrillic_GHE 0x06e7 /* U+0413 CYRILLIC CAPITAL LETTER GHE */ #define XK_Cyrillic_HA 0x06e8 /* U+0425 CYRILLIC CAPITAL LETTER HA */ #define XK_Cyrillic_I 0x06e9 /* U+0418 CYRILLIC CAPITAL LETTER I */ #define XK_Cyrillic_SHORTI 0x06ea /* U+0419 CYRILLIC CAPITAL LETTER SHORT I */ #define XK_Cyrillic_KA 0x06eb /* U+041A CYRILLIC CAPITAL LETTER KA */ #define XK_Cyrillic_EL 0x06ec /* U+041B CYRILLIC CAPITAL LETTER EL */ #define XK_Cyrillic_EM 0x06ed /* U+041C CYRILLIC CAPITAL LETTER EM */ #define XK_Cyrillic_EN 0x06ee /* U+041D CYRILLIC CAPITAL LETTER EN */ #define XK_Cyrillic_O 0x06ef /* U+041E CYRILLIC CAPITAL LETTER O */ #define XK_Cyrillic_PE 0x06f0 /* U+041F CYRILLIC CAPITAL LETTER PE */ #define XK_Cyrillic_YA 0x06f1 /* U+042F CYRILLIC CAPITAL LETTER YA */ #define XK_Cyrillic_ER 0x06f2 /* U+0420 CYRILLIC CAPITAL LETTER ER */ #define XK_Cyrillic_ES 0x06f3 /* U+0421 CYRILLIC CAPITAL LETTER ES */ #define XK_Cyrillic_TE 0x06f4 /* U+0422 CYRILLIC CAPITAL LETTER TE */ #define XK_Cyrillic_U 0x06f5 /* U+0423 CYRILLIC CAPITAL LETTER U */ #define XK_Cyrillic_ZHE 0x06f6 /* U+0416 CYRILLIC CAPITAL LETTER ZHE */ #define XK_Cyrillic_VE 0x06f7 /* U+0412 CYRILLIC CAPITAL LETTER VE */ #define XK_Cyrillic_SOFTSIGN 0x06f8 /* U+042C CYRILLIC CAPITAL LETTER SOFT SIGN */ #define XK_Cyrillic_YERU 0x06f9 /* U+042B CYRILLIC CAPITAL LETTER YERU */ #define XK_Cyrillic_ZE 0x06fa /* U+0417 CYRILLIC CAPITAL LETTER ZE */ #define XK_Cyrillic_SHA 0x06fb /* U+0428 CYRILLIC CAPITAL LETTER SHA */ #define XK_Cyrillic_E 0x06fc /* U+042D CYRILLIC CAPITAL LETTER E */ #define XK_Cyrillic_SHCHA 0x06fd /* U+0429 CYRILLIC CAPITAL LETTER SHCHA */ #define XK_Cyrillic_CHE 0x06fe /* U+0427 CYRILLIC CAPITAL LETTER CHE */ #define XK_Cyrillic_HARDSIGN 0x06ff /* U+042A CYRILLIC CAPITAL LETTER HARD SIGN */ #endif /* XK_CYRILLIC */ /* * Greek * (based on an early draft of, and not quite identical to, ISO/IEC 8859-7) * Byte 3 = 7 */ #ifdef XK_GREEK #define XK_Greek_ALPHAaccent 0x07a1 /* U+0386 GREEK CAPITAL LETTER ALPHA WITH TONOS */ #define XK_Greek_EPSILONaccent 0x07a2 /* U+0388 GREEK CAPITAL LETTER EPSILON WITH TONOS */ #define XK_Greek_ETAaccent 0x07a3 /* U+0389 GREEK CAPITAL LETTER ETA WITH TONOS */ #define XK_Greek_IOTAaccent 0x07a4 /* U+038A GREEK CAPITAL LETTER IOTA WITH TONOS */ #define XK_Greek_IOTAdieresis 0x07a5 /* U+03AA GREEK CAPITAL LETTER IOTA WITH DIALYTIKA */ #define XK_Greek_IOTAdiaeresis 0x07a5 /* old typo */ #define XK_Greek_OMICRONaccent 0x07a7 /* U+038C GREEK CAPITAL LETTER OMICRON WITH TONOS */ #define XK_Greek_UPSILONaccent 0x07a8 /* U+038E GREEK CAPITAL LETTER UPSILON WITH TONOS */ #define XK_Greek_UPSILONdieresis 0x07a9 /* U+03AB GREEK CAPITAL LETTER UPSILON WITH DIALYTIKA */ #define XK_Greek_OMEGAaccent 0x07ab /* U+038F GREEK CAPITAL LETTER OMEGA WITH TONOS */ #define XK_Greek_accentdieresis 0x07ae /* U+0385 GREEK DIALYTIKA TONOS */ #define XK_Greek_horizbar 0x07af /* U+2015 HORIZONTAL BAR */ #define XK_Greek_alphaaccent 0x07b1 /* U+03AC GREEK SMALL LETTER ALPHA WITH TONOS */ #define XK_Greek_epsilonaccent 0x07b2 /* U+03AD GREEK SMALL LETTER EPSILON WITH TONOS */ #define XK_Greek_etaaccent 0x07b3 /* U+03AE GREEK SMALL LETTER ETA WITH TONOS */ #define XK_Greek_iotaaccent 0x07b4 /* U+03AF GREEK SMALL LETTER IOTA WITH TONOS */ #define XK_Greek_iotadieresis 0x07b5 /* U+03CA GREEK SMALL LETTER IOTA WITH DIALYTIKA */ #define XK_Greek_iotaaccentdieresis 0x07b6 /* U+0390 GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS */ #define XK_Greek_omicronaccent 0x07b7 /* U+03CC GREEK SMALL LETTER OMICRON WITH TONOS */ #define XK_Greek_upsilonaccent 0x07b8 /* U+03CD GREEK SMALL LETTER UPSILON WITH TONOS */ #define XK_Greek_upsilondieresis 0x07b9 /* U+03CB GREEK SMALL LETTER UPSILON WITH DIALYTIKA */ #define XK_Greek_upsilonaccentdieresis 0x07ba /* U+03B0 GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND TONOS */ #define XK_Greek_omegaaccent 0x07bb /* U+03CE GREEK SMALL LETTER OMEGA WITH TONOS */ #define XK_Greek_ALPHA 0x07c1 /* U+0391 GREEK CAPITAL LETTER ALPHA */ #define XK_Greek_BETA 0x07c2 /* U+0392 GREEK CAPITAL LETTER BETA */ #define XK_Greek_GAMMA 0x07c3 /* U+0393 GREEK CAPITAL LETTER GAMMA */ #define XK_Greek_DELTA 0x07c4 /* U+0394 GREEK CAPITAL LETTER DELTA */ #define XK_Greek_EPSILON 0x07c5 /* U+0395 GREEK CAPITAL LETTER EPSILON */ #define XK_Greek_ZETA 0x07c6 /* U+0396 GREEK CAPITAL LETTER ZETA */ #define XK_Greek_ETA 0x07c7 /* U+0397 GREEK CAPITAL LETTER ETA */ #define XK_Greek_THETA 0x07c8 /* U+0398 GREEK CAPITAL LETTER THETA */ #define XK_Greek_IOTA 0x07c9 /* U+0399 GREEK CAPITAL LETTER IOTA */ #define XK_Greek_KAPPA 0x07ca /* U+039A GREEK CAPITAL LETTER KAPPA */ #define XK_Greek_LAMDA 0x07cb /* U+039B GREEK CAPITAL LETTER LAMDA */ #define XK_Greek_LAMBDA 0x07cb /* U+039B GREEK CAPITAL LETTER LAMDA */ #define XK_Greek_MU 0x07cc /* U+039C GREEK CAPITAL LETTER MU */ #define XK_Greek_NU 0x07cd /* U+039D GREEK CAPITAL LETTER NU */ #define XK_Greek_XI 0x07ce /* U+039E GREEK CAPITAL LETTER XI */ #define XK_Greek_OMICRON 0x07cf /* U+039F GREEK CAPITAL LETTER OMICRON */ #define XK_Greek_PI 0x07d0 /* U+03A0 GREEK CAPITAL LETTER PI */ #define XK_Greek_RHO 0x07d1 /* U+03A1 GREEK CAPITAL LETTER RHO */ #define XK_Greek_SIGMA 0x07d2 /* U+03A3 GREEK CAPITAL LETTER SIGMA */ #define XK_Greek_TAU 0x07d4 /* U+03A4 GREEK CAPITAL LETTER TAU */ #define XK_Greek_UPSILON 0x07d5 /* U+03A5 GREEK CAPITAL LETTER UPSILON */ #define XK_Greek_PHI 0x07d6 /* U+03A6 GREEK CAPITAL LETTER PHI */ #define XK_Greek_CHI 0x07d7 /* U+03A7 GREEK CAPITAL LETTER CHI */ #define XK_Greek_PSI 0x07d8 /* U+03A8 GREEK CAPITAL LETTER PSI */ #define XK_Greek_OMEGA 0x07d9 /* U+03A9 GREEK CAPITAL LETTER OMEGA */ #define XK_Greek_alpha 0x07e1 /* U+03B1 GREEK SMALL LETTER ALPHA */ #define XK_Greek_beta 0x07e2 /* U+03B2 GREEK SMALL LETTER BETA */ #define XK_Greek_gamma 0x07e3 /* U+03B3 GREEK SMALL LETTER GAMMA */ #define XK_Greek_delta 0x07e4 /* U+03B4 GREEK SMALL LETTER DELTA */ #define XK_Greek_epsilon 0x07e5 /* U+03B5 GREEK SMALL LETTER EPSILON */ #define XK_Greek_zeta 0x07e6 /* U+03B6 GREEK SMALL LETTER ZETA */ #define XK_Greek_eta 0x07e7 /* U+03B7 GREEK SMALL LETTER ETA */ #define XK_Greek_theta 0x07e8 /* U+03B8 GREEK SMALL LETTER THETA */ #define XK_Greek_iota 0x07e9 /* U+03B9 GREEK SMALL LETTER IOTA */ #define XK_Greek_kappa 0x07ea /* U+03BA GREEK SMALL LETTER KAPPA */ #define XK_Greek_lamda 0x07eb /* U+03BB GREEK SMALL LETTER LAMDA */ #define XK_Greek_lambda 0x07eb /* U+03BB GREEK SMALL LETTER LAMDA */ #define XK_Greek_mu 0x07ec /* U+03BC GREEK SMALL LETTER MU */ #define XK_Greek_nu 0x07ed /* U+03BD GREEK SMALL LETTER NU */ #define XK_Greek_xi 0x07ee /* U+03BE GREEK SMALL LETTER XI */ #define XK_Greek_omicron 0x07ef /* U+03BF GREEK SMALL LETTER OMICRON */ #define XK_Greek_pi 0x07f0 /* U+03C0 GREEK SMALL LETTER PI */ #define XK_Greek_rho 0x07f1 /* U+03C1 GREEK SMALL LETTER RHO */ #define XK_Greek_sigma 0x07f2 /* U+03C3 GREEK SMALL LETTER SIGMA */ #define XK_Greek_finalsmallsigma 0x07f3 /* U+03C2 GREEK SMALL LETTER FINAL SIGMA */ #define XK_Greek_tau 0x07f4 /* U+03C4 GREEK SMALL LETTER TAU */ #define XK_Greek_upsilon 0x07f5 /* U+03C5 GREEK SMALL LETTER UPSILON */ #define XK_Greek_phi 0x07f6 /* U+03C6 GREEK SMALL LETTER PHI */ #define XK_Greek_chi 0x07f7 /* U+03C7 GREEK SMALL LETTER CHI */ #define XK_Greek_psi 0x07f8 /* U+03C8 GREEK SMALL LETTER PSI */ #define XK_Greek_omega 0x07f9 /* U+03C9 GREEK SMALL LETTER OMEGA */ #define XK_Greek_switch 0xff7e /* Alias for mode_switch */ #endif /* XK_GREEK */ /* * Technical * (from the DEC VT330/VT420 Technical Character Set, http://vt100.net/charsets/technical.html) * Byte 3 = 8 */ #ifdef XK_TECHNICAL #define XK_leftradical 0x08a1 /* U+23B7 RADICAL SYMBOL BOTTOM */ #define XK_topleftradical 0x08a2 /*(U+250C BOX DRAWINGS LIGHT DOWN AND RIGHT)*/ #define XK_horizconnector 0x08a3 /*(U+2500 BOX DRAWINGS LIGHT HORIZONTAL)*/ #define XK_topintegral 0x08a4 /* U+2320 TOP HALF INTEGRAL */ #define XK_botintegral 0x08a5 /* U+2321 BOTTOM HALF INTEGRAL */ #define XK_vertconnector 0x08a6 /*(U+2502 BOX DRAWINGS LIGHT VERTICAL)*/ #define XK_topleftsqbracket 0x08a7 /* U+23A1 LEFT SQUARE BRACKET UPPER CORNER */ #define XK_botleftsqbracket 0x08a8 /* U+23A3 LEFT SQUARE BRACKET LOWER CORNER */ #define XK_toprightsqbracket 0x08a9 /* U+23A4 RIGHT SQUARE BRACKET UPPER CORNER */ #define XK_botrightsqbracket 0x08aa /* U+23A6 RIGHT SQUARE BRACKET LOWER CORNER */ #define XK_topleftparens 0x08ab /* U+239B LEFT PARENTHESIS UPPER HOOK */ #define XK_botleftparens 0x08ac /* U+239D LEFT PARENTHESIS LOWER HOOK */ #define XK_toprightparens 0x08ad /* U+239E RIGHT PARENTHESIS UPPER HOOK */ #define XK_botrightparens 0x08ae /* U+23A0 RIGHT PARENTHESIS LOWER HOOK */ #define XK_leftmiddlecurlybrace 0x08af /* U+23A8 LEFT CURLY BRACKET MIDDLE PIECE */ #define XK_rightmiddlecurlybrace 0x08b0 /* U+23AC RIGHT CURLY BRACKET MIDDLE PIECE */ #define XK_topleftsummation 0x08b1 #define XK_botleftsummation 0x08b2 #define XK_topvertsummationconnector 0x08b3 #define XK_botvertsummationconnector 0x08b4 #define XK_toprightsummation 0x08b5 #define XK_botrightsummation 0x08b6 #define XK_rightmiddlesummation 0x08b7 #define XK_lessthanequal 0x08bc /* U+2264 LESS-THAN OR EQUAL TO */ #define XK_notequal 0x08bd /* U+2260 NOT EQUAL TO */ #define XK_greaterthanequal 0x08be /* U+2265 GREATER-THAN OR EQUAL TO */ #define XK_integral 0x08bf /* U+222B INTEGRAL */ #define XK_therefore 0x08c0 /* U+2234 THEREFORE */ #define XK_variation 0x08c1 /* U+221D PROPORTIONAL TO */ #define XK_infinity 0x08c2 /* U+221E INFINITY */ #define XK_nabla 0x08c5 /* U+2207 NABLA */ #define XK_approximate 0x08c8 /* U+223C TILDE OPERATOR */ #define XK_similarequal 0x08c9 /* U+2243 ASYMPTOTICALLY EQUAL TO */ #define XK_ifonlyif 0x08cd /* U+21D4 LEFT RIGHT DOUBLE ARROW */ #define XK_implies 0x08ce /* U+21D2 RIGHTWARDS DOUBLE ARROW */ #define XK_identical 0x08cf /* U+2261 IDENTICAL TO */ #define XK_radical 0x08d6 /* U+221A SQUARE ROOT */ #define XK_includedin 0x08da /* U+2282 SUBSET OF */ #define XK_includes 0x08db /* U+2283 SUPERSET OF */ #define XK_intersection 0x08dc /* U+2229 INTERSECTION */ #define XK_union 0x08dd /* U+222A UNION */ #define XK_logicaland 0x08de /* U+2227 LOGICAL AND */ #define XK_logicalor 0x08df /* U+2228 LOGICAL OR */ #define XK_partialderivative 0x08ef /* U+2202 PARTIAL DIFFERENTIAL */ #define XK_function 0x08f6 /* U+0192 LATIN SMALL LETTER F WITH HOOK */ #define XK_leftarrow 0x08fb /* U+2190 LEFTWARDS ARROW */ #define XK_uparrow 0x08fc /* U+2191 UPWARDS ARROW */ #define XK_rightarrow 0x08fd /* U+2192 RIGHTWARDS ARROW */ #define XK_downarrow 0x08fe /* U+2193 DOWNWARDS ARROW */ #endif /* XK_TECHNICAL */ /* * Special * (from the DEC VT100 Special Graphics Character Set) * Byte 3 = 9 */ #ifdef XK_SPECIAL #define XK_blank 0x09df #define XK_soliddiamond 0x09e0 /* U+25C6 BLACK DIAMOND */ #define XK_checkerboard 0x09e1 /* U+2592 MEDIUM SHADE */ #define XK_ht 0x09e2 /* U+2409 SYMBOL FOR HORIZONTAL TABULATION */ #define XK_ff 0x09e3 /* U+240C SYMBOL FOR FORM FEED */ #define XK_cr 0x09e4 /* U+240D SYMBOL FOR CARRIAGE RETURN */ #define XK_lf 0x09e5 /* U+240A SYMBOL FOR LINE FEED */ #define XK_nl 0x09e8 /* U+2424 SYMBOL FOR NEWLINE */ #define XK_vt 0x09e9 /* U+240B SYMBOL FOR VERTICAL TABULATION */ #define XK_lowrightcorner 0x09ea /* U+2518 BOX DRAWINGS LIGHT UP AND LEFT */ #define XK_uprightcorner 0x09eb /* U+2510 BOX DRAWINGS LIGHT DOWN AND LEFT */ #define XK_upleftcorner 0x09ec /* U+250C BOX DRAWINGS LIGHT DOWN AND RIGHT */ #define XK_lowleftcorner 0x09ed /* U+2514 BOX DRAWINGS LIGHT UP AND RIGHT */ #define XK_crossinglines 0x09ee /* U+253C BOX DRAWINGS LIGHT VERTICAL AND HORIZONTAL */ #define XK_horizlinescan1 0x09ef /* U+23BA HORIZONTAL SCAN LINE-1 */ #define XK_horizlinescan3 0x09f0 /* U+23BB HORIZONTAL SCAN LINE-3 */ #define XK_horizlinescan5 0x09f1 /* U+2500 BOX DRAWINGS LIGHT HORIZONTAL */ #define XK_horizlinescan7 0x09f2 /* U+23BC HORIZONTAL SCAN LINE-7 */ #define XK_horizlinescan9 0x09f3 /* U+23BD HORIZONTAL SCAN LINE-9 */ #define XK_leftt 0x09f4 /* U+251C BOX DRAWINGS LIGHT VERTICAL AND RIGHT */ #define XK_rightt 0x09f5 /* U+2524 BOX DRAWINGS LIGHT VERTICAL AND LEFT */ #define XK_bott 0x09f6 /* U+2534 BOX DRAWINGS LIGHT UP AND HORIZONTAL */ #define XK_topt 0x09f7 /* U+252C BOX DRAWINGS LIGHT DOWN AND HORIZONTAL */ #define XK_vertbar 0x09f8 /* U+2502 BOX DRAWINGS LIGHT VERTICAL */ #endif /* XK_SPECIAL */ /* * Publishing * (these are probably from a long forgotten DEC Publishing * font that once shipped with DECwrite) * Byte 3 = 0x0a */ #ifdef XK_PUBLISHING #define XK_emspace 0x0aa1 /* U+2003 EM SPACE */ #define XK_enspace 0x0aa2 /* U+2002 EN SPACE */ #define XK_em3space 0x0aa3 /* U+2004 THREE-PER-EM SPACE */ #define XK_em4space 0x0aa4 /* U+2005 FOUR-PER-EM SPACE */ #define XK_digitspace 0x0aa5 /* U+2007 FIGURE SPACE */ #define XK_punctspace 0x0aa6 /* U+2008 PUNCTUATION SPACE */ #define XK_thinspace 0x0aa7 /* U+2009 THIN SPACE */ #define XK_hairspace 0x0aa8 /* U+200A HAIR SPACE */ #define XK_emdash 0x0aa9 /* U+2014 EM DASH */ #define XK_endash 0x0aaa /* U+2013 EN DASH */ #define XK_signifblank 0x0aac /*(U+2423 OPEN BOX)*/ #define XK_ellipsis 0x0aae /* U+2026 HORIZONTAL ELLIPSIS */ #define XK_doubbaselinedot 0x0aaf /* U+2025 TWO DOT LEADER */ #define XK_onethird 0x0ab0 /* U+2153 VULGAR FRACTION ONE THIRD */ #define XK_twothirds 0x0ab1 /* U+2154 VULGAR FRACTION TWO THIRDS */ #define XK_onefifth 0x0ab2 /* U+2155 VULGAR FRACTION ONE FIFTH */ #define XK_twofifths 0x0ab3 /* U+2156 VULGAR FRACTION TWO FIFTHS */ #define XK_threefifths 0x0ab4 /* U+2157 VULGAR FRACTION THREE FIFTHS */ #define XK_fourfifths 0x0ab5 /* U+2158 VULGAR FRACTION FOUR FIFTHS */ #define XK_onesixth 0x0ab6 /* U+2159 VULGAR FRACTION ONE SIXTH */ #define XK_fivesixths 0x0ab7 /* U+215A VULGAR FRACTION FIVE SIXTHS */ #define XK_careof 0x0ab8 /* U+2105 CARE OF */ #define XK_figdash 0x0abb /* U+2012 FIGURE DASH */ #define XK_leftanglebracket 0x0abc /*(U+27E8 MATHEMATICAL LEFT ANGLE BRACKET)*/ #define XK_decimalpoint 0x0abd /*(U+002E FULL STOP)*/ #define XK_rightanglebracket 0x0abe /*(U+27E9 MATHEMATICAL RIGHT ANGLE BRACKET)*/ #define XK_marker 0x0abf #define XK_oneeighth 0x0ac3 /* U+215B VULGAR FRACTION ONE EIGHTH */ #define XK_threeeighths 0x0ac4 /* U+215C VULGAR FRACTION THREE EIGHTHS */ #define XK_fiveeighths 0x0ac5 /* U+215D VULGAR FRACTION FIVE EIGHTHS */ #define XK_seveneighths 0x0ac6 /* U+215E VULGAR FRACTION SEVEN EIGHTHS */ #define XK_trademark 0x0ac9 /* U+2122 TRADE MARK SIGN */ #define XK_signaturemark 0x0aca /*(U+2613 SALTIRE)*/ #define XK_trademarkincircle 0x0acb #define XK_leftopentriangle 0x0acc /*(U+25C1 WHITE LEFT-POINTING TRIANGLE)*/ #define XK_rightopentriangle 0x0acd /*(U+25B7 WHITE RIGHT-POINTING TRIANGLE)*/ #define XK_emopencircle 0x0ace /*(U+25CB WHITE CIRCLE)*/ #define XK_emopenrectangle 0x0acf /*(U+25AF WHITE VERTICAL RECTANGLE)*/ #define XK_leftsinglequotemark 0x0ad0 /* U+2018 LEFT SINGLE QUOTATION MARK */ #define XK_rightsinglequotemark 0x0ad1 /* U+2019 RIGHT SINGLE QUOTATION MARK */ #define XK_leftdoublequotemark 0x0ad2 /* U+201C LEFT DOUBLE QUOTATION MARK */ #define XK_rightdoublequotemark 0x0ad3 /* U+201D RIGHT DOUBLE QUOTATION MARK */ #define XK_prescription 0x0ad4 /* U+211E PRESCRIPTION TAKE */ #define XK_permille 0x0ad5 /* U+2030 PER MILLE SIGN */ #define XK_minutes 0x0ad6 /* U+2032 PRIME */ #define XK_seconds 0x0ad7 /* U+2033 DOUBLE PRIME */ #define XK_latincross 0x0ad9 /* U+271D LATIN CROSS */ #define XK_hexagram 0x0ada #define XK_filledrectbullet 0x0adb /*(U+25AC BLACK RECTANGLE)*/ #define XK_filledlefttribullet 0x0adc /*(U+25C0 BLACK LEFT-POINTING TRIANGLE)*/ #define XK_filledrighttribullet 0x0add /*(U+25B6 BLACK RIGHT-POINTING TRIANGLE)*/ #define XK_emfilledcircle 0x0ade /*(U+25CF BLACK CIRCLE)*/ #define XK_emfilledrect 0x0adf /*(U+25AE BLACK VERTICAL RECTANGLE)*/ #define XK_enopencircbullet 0x0ae0 /*(U+25E6 WHITE BULLET)*/ #define XK_enopensquarebullet 0x0ae1 /*(U+25AB WHITE SMALL SQUARE)*/ #define XK_openrectbullet 0x0ae2 /*(U+25AD WHITE RECTANGLE)*/ #define XK_opentribulletup 0x0ae3 /*(U+25B3 WHITE UP-POINTING TRIANGLE)*/ #define XK_opentribulletdown 0x0ae4 /*(U+25BD WHITE DOWN-POINTING TRIANGLE)*/ #define XK_openstar 0x0ae5 /*(U+2606 WHITE STAR)*/ #define XK_enfilledcircbullet 0x0ae6 /*(U+2022 BULLET)*/ #define XK_enfilledsqbullet 0x0ae7 /*(U+25AA BLACK SMALL SQUARE)*/ #define XK_filledtribulletup 0x0ae8 /*(U+25B2 BLACK UP-POINTING TRIANGLE)*/ #define XK_filledtribulletdown 0x0ae9 /*(U+25BC BLACK DOWN-POINTING TRIANGLE)*/ #define XK_leftpointer 0x0aea /*(U+261C WHITE LEFT POINTING INDEX)*/ #define XK_rightpointer 0x0aeb /*(U+261E WHITE RIGHT POINTING INDEX)*/ #define XK_club 0x0aec /* U+2663 BLACK CLUB SUIT */ #define XK_diamond 0x0aed /* U+2666 BLACK DIAMOND SUIT */ #define XK_heart 0x0aee /* U+2665 BLACK HEART SUIT */ #define XK_maltesecross 0x0af0 /* U+2720 MALTESE CROSS */ #define XK_dagger 0x0af1 /* U+2020 DAGGER */ #define XK_doubledagger 0x0af2 /* U+2021 DOUBLE DAGGER */ #define XK_checkmark 0x0af3 /* U+2713 CHECK MARK */ #define XK_ballotcross 0x0af4 /* U+2717 BALLOT X */ #define XK_musicalsharp 0x0af5 /* U+266F MUSIC SHARP SIGN */ #define XK_musicalflat 0x0af6 /* U+266D MUSIC FLAT SIGN */ #define XK_malesymbol 0x0af7 /* U+2642 MALE SIGN */ #define XK_femalesymbol 0x0af8 /* U+2640 FEMALE SIGN */ #define XK_telephone 0x0af9 /* U+260E BLACK TELEPHONE */ #define XK_telephonerecorder 0x0afa /* U+2315 TELEPHONE RECORDER */ #define XK_phonographcopyright 0x0afb /* U+2117 SOUND RECORDING COPYRIGHT */ #define XK_caret 0x0afc /* U+2038 CARET */ #define XK_singlelowquotemark 0x0afd /* U+201A SINGLE LOW-9 QUOTATION MARK */ #define XK_doublelowquotemark 0x0afe /* U+201E DOUBLE LOW-9 QUOTATION MARK */ #define XK_cursor 0x0aff #endif /* XK_PUBLISHING */ /* * APL * Byte 3 = 0x0b */ #ifdef XK_APL #define XK_leftcaret 0x0ba3 /*(U+003C LESS-THAN SIGN)*/ #define XK_rightcaret 0x0ba6 /*(U+003E GREATER-THAN SIGN)*/ #define XK_downcaret 0x0ba8 /*(U+2228 LOGICAL OR)*/ #define XK_upcaret 0x0ba9 /*(U+2227 LOGICAL AND)*/ #define XK_overbar 0x0bc0 /*(U+00AF MACRON)*/ #define XK_downtack 0x0bc2 /* U+22A4 DOWN TACK */ #define XK_upshoe 0x0bc3 /*(U+2229 INTERSECTION)*/ #define XK_downstile 0x0bc4 /* U+230A LEFT FLOOR */ #define XK_underbar 0x0bc6 /*(U+005F LOW LINE)*/ #define XK_jot 0x0bca /* U+2218 RING OPERATOR */ #define XK_quad 0x0bcc /* U+2395 APL FUNCTIONAL SYMBOL QUAD */ #define XK_uptack 0x0bce /* U+22A5 UP TACK */ #define XK_circle 0x0bcf /* U+25CB WHITE CIRCLE */ #define XK_upstile 0x0bd3 /* U+2308 LEFT CEILING */ #define XK_downshoe 0x0bd6 /*(U+222A UNION)*/ #define XK_rightshoe 0x0bd8 /*(U+2283 SUPERSET OF)*/ #define XK_leftshoe 0x0bda /*(U+2282 SUBSET OF)*/ #define XK_lefttack 0x0bdc /* U+22A3 LEFT TACK */ #define XK_righttack 0x0bfc /* U+22A2 RIGHT TACK */ #endif /* XK_APL */ /* * Hebrew * Byte 3 = 0x0c */ #ifdef XK_HEBREW #define XK_hebrew_doublelowline 0x0cdf /* U+2017 DOUBLE LOW LINE */ #define XK_hebrew_aleph 0x0ce0 /* U+05D0 HEBREW LETTER ALEF */ #define XK_hebrew_bet 0x0ce1 /* U+05D1 HEBREW LETTER BET */ #define XK_hebrew_beth 0x0ce1 /* deprecated */ #define XK_hebrew_gimel 0x0ce2 /* U+05D2 HEBREW LETTER GIMEL */ #define XK_hebrew_gimmel 0x0ce2 /* deprecated */ #define XK_hebrew_dalet 0x0ce3 /* U+05D3 HEBREW LETTER DALET */ #define XK_hebrew_daleth 0x0ce3 /* deprecated */ #define XK_hebrew_he 0x0ce4 /* U+05D4 HEBREW LETTER HE */ #define XK_hebrew_waw 0x0ce5 /* U+05D5 HEBREW LETTER VAV */ #define XK_hebrew_zain 0x0ce6 /* U+05D6 HEBREW LETTER ZAYIN */ #define XK_hebrew_zayin 0x0ce6 /* deprecated */ #define XK_hebrew_chet 0x0ce7 /* U+05D7 HEBREW LETTER HET */ #define XK_hebrew_het 0x0ce7 /* deprecated */ #define XK_hebrew_tet 0x0ce8 /* U+05D8 HEBREW LETTER TET */ #define XK_hebrew_teth 0x0ce8 /* deprecated */ #define XK_hebrew_yod 0x0ce9 /* U+05D9 HEBREW LETTER YOD */ #define XK_hebrew_finalkaph 0x0cea /* U+05DA HEBREW LETTER FINAL KAF */ #define XK_hebrew_kaph 0x0ceb /* U+05DB HEBREW LETTER KAF */ #define XK_hebrew_lamed 0x0cec /* U+05DC HEBREW LETTER LAMED */ #define XK_hebrew_finalmem 0x0ced /* U+05DD HEBREW LETTER FINAL MEM */ #define XK_hebrew_mem 0x0cee /* U+05DE HEBREW LETTER MEM */ #define XK_hebrew_finalnun 0x0cef /* U+05DF HEBREW LETTER FINAL NUN */ #define XK_hebrew_nun 0x0cf0 /* U+05E0 HEBREW LETTER NUN */ #define XK_hebrew_samech 0x0cf1 /* U+05E1 HEBREW LETTER SAMEKH */ #define XK_hebrew_samekh 0x0cf1 /* deprecated */ #define XK_hebrew_ayin 0x0cf2 /* U+05E2 HEBREW LETTER AYIN */ #define XK_hebrew_finalpe 0x0cf3 /* U+05E3 HEBREW LETTER FINAL PE */ #define XK_hebrew_pe 0x0cf4 /* U+05E4 HEBREW LETTER PE */ #define XK_hebrew_finalzade 0x0cf5 /* U+05E5 HEBREW LETTER FINAL TSADI */ #define XK_hebrew_finalzadi 0x0cf5 /* deprecated */ #define XK_hebrew_zade 0x0cf6 /* U+05E6 HEBREW LETTER TSADI */ #define XK_hebrew_zadi 0x0cf6 /* deprecated */ #define XK_hebrew_qoph 0x0cf7 /* U+05E7 HEBREW LETTER QOF */ #define XK_hebrew_kuf 0x0cf7 /* deprecated */ #define XK_hebrew_resh 0x0cf8 /* U+05E8 HEBREW LETTER RESH */ #define XK_hebrew_shin 0x0cf9 /* U+05E9 HEBREW LETTER SHIN */ #define XK_hebrew_taw 0x0cfa /* U+05EA HEBREW LETTER TAV */ #define XK_hebrew_taf 0x0cfa /* deprecated */ #define XK_Hebrew_switch 0xff7e /* Alias for mode_switch */ #endif /* XK_HEBREW */ /* * Thai * Byte 3 = 0x0d */ #ifdef XK_THAI #define XK_Thai_kokai 0x0da1 /* U+0E01 THAI CHARACTER KO KAI */ #define XK_Thai_khokhai 0x0da2 /* U+0E02 THAI CHARACTER KHO KHAI */ #define XK_Thai_khokhuat 0x0da3 /* U+0E03 THAI CHARACTER KHO KHUAT */ #define XK_Thai_khokhwai 0x0da4 /* U+0E04 THAI CHARACTER KHO KHWAI */ #define XK_Thai_khokhon 0x0da5 /* U+0E05 THAI CHARACTER KHO KHON */ #define XK_Thai_khorakhang 0x0da6 /* U+0E06 THAI CHARACTER KHO RAKHANG */ #define XK_Thai_ngongu 0x0da7 /* U+0E07 THAI CHARACTER NGO NGU */ #define XK_Thai_chochan 0x0da8 /* U+0E08 THAI CHARACTER CHO CHAN */ #define XK_Thai_choching 0x0da9 /* U+0E09 THAI CHARACTER CHO CHING */ #define XK_Thai_chochang 0x0daa /* U+0E0A THAI CHARACTER CHO CHANG */ #define XK_Thai_soso 0x0dab /* U+0E0B THAI CHARACTER SO SO */ #define XK_Thai_chochoe 0x0dac /* U+0E0C THAI CHARACTER CHO CHOE */ #define XK_Thai_yoying 0x0dad /* U+0E0D THAI CHARACTER YO YING */ #define XK_Thai_dochada 0x0dae /* U+0E0E THAI CHARACTER DO CHADA */ #define XK_Thai_topatak 0x0daf /* U+0E0F THAI CHARACTER TO PATAK */ #define XK_Thai_thothan 0x0db0 /* U+0E10 THAI CHARACTER THO THAN */ #define XK_Thai_thonangmontho 0x0db1 /* U+0E11 THAI CHARACTER THO NANGMONTHO */ #define XK_Thai_thophuthao 0x0db2 /* U+0E12 THAI CHARACTER THO PHUTHAO */ #define XK_Thai_nonen 0x0db3 /* U+0E13 THAI CHARACTER NO NEN */ #define XK_Thai_dodek 0x0db4 /* U+0E14 THAI CHARACTER DO DEK */ #define XK_Thai_totao 0x0db5 /* U+0E15 THAI CHARACTER TO TAO */ #define XK_Thai_thothung 0x0db6 /* U+0E16 THAI CHARACTER THO THUNG */ #define XK_Thai_thothahan 0x0db7 /* U+0E17 THAI CHARACTER THO THAHAN */ #define XK_Thai_thothong 0x0db8 /* U+0E18 THAI CHARACTER THO THONG */ #define XK_Thai_nonu 0x0db9 /* U+0E19 THAI CHARACTER NO NU */ #define XK_Thai_bobaimai 0x0dba /* U+0E1A THAI CHARACTER BO BAIMAI */ #define XK_Thai_popla 0x0dbb /* U+0E1B THAI CHARACTER PO PLA */ #define XK_Thai_phophung 0x0dbc /* U+0E1C THAI CHARACTER PHO PHUNG */ #define XK_Thai_fofa 0x0dbd /* U+0E1D THAI CHARACTER FO FA */ #define XK_Thai_phophan 0x0dbe /* U+0E1E THAI CHARACTER PHO PHAN */ #define XK_Thai_fofan 0x0dbf /* U+0E1F THAI CHARACTER FO FAN */ #define XK_Thai_phosamphao 0x0dc0 /* U+0E20 THAI CHARACTER PHO SAMPHAO */ #define XK_Thai_moma 0x0dc1 /* U+0E21 THAI CHARACTER MO MA */ #define XK_Thai_yoyak 0x0dc2 /* U+0E22 THAI CHARACTER YO YAK */ #define XK_Thai_rorua 0x0dc3 /* U+0E23 THAI CHARACTER RO RUA */ #define XK_Thai_ru 0x0dc4 /* U+0E24 THAI CHARACTER RU */ #define XK_Thai_loling 0x0dc5 /* U+0E25 THAI CHARACTER LO LING */ #define XK_Thai_lu 0x0dc6 /* U+0E26 THAI CHARACTER LU */ #define XK_Thai_wowaen 0x0dc7 /* U+0E27 THAI CHARACTER WO WAEN */ #define XK_Thai_sosala 0x0dc8 /* U+0E28 THAI CHARACTER SO SALA */ #define XK_Thai_sorusi 0x0dc9 /* U+0E29 THAI CHARACTER SO RUSI */ #define XK_Thai_sosua 0x0dca /* U+0E2A THAI CHARACTER SO SUA */ #define XK_Thai_hohip 0x0dcb /* U+0E2B THAI CHARACTER HO HIP */ #define XK_Thai_lochula 0x0dcc /* U+0E2C THAI CHARACTER LO CHULA */ #define XK_Thai_oang 0x0dcd /* U+0E2D THAI CHARACTER O ANG */ #define XK_Thai_honokhuk 0x0dce /* U+0E2E THAI CHARACTER HO NOKHUK */ #define XK_Thai_paiyannoi 0x0dcf /* U+0E2F THAI CHARACTER PAIYANNOI */ #define XK_Thai_saraa 0x0dd0 /* U+0E30 THAI CHARACTER SARA A */ #define XK_Thai_maihanakat 0x0dd1 /* U+0E31 THAI CHARACTER MAI HAN-AKAT */ #define XK_Thai_saraaa 0x0dd2 /* U+0E32 THAI CHARACTER SARA AA */ #define XK_Thai_saraam 0x0dd3 /* U+0E33 THAI CHARACTER SARA AM */ #define XK_Thai_sarai 0x0dd4 /* U+0E34 THAI CHARACTER SARA I */ #define XK_Thai_saraii 0x0dd5 /* U+0E35 THAI CHARACTER SARA II */ #define XK_Thai_saraue 0x0dd6 /* U+0E36 THAI CHARACTER SARA UE */ #define XK_Thai_sarauee 0x0dd7 /* U+0E37 THAI CHARACTER SARA UEE */ #define XK_Thai_sarau 0x0dd8 /* U+0E38 THAI CHARACTER SARA U */ #define XK_Thai_sarauu 0x0dd9 /* U+0E39 THAI CHARACTER SARA UU */ #define XK_Thai_phinthu 0x0dda /* U+0E3A THAI CHARACTER PHINTHU */ #define XK_Thai_maihanakat_maitho 0x0dde #define XK_Thai_baht 0x0ddf /* U+0E3F THAI CURRENCY SYMBOL BAHT */ #define XK_Thai_sarae 0x0de0 /* U+0E40 THAI CHARACTER SARA E */ #define XK_Thai_saraae 0x0de1 /* U+0E41 THAI CHARACTER SARA AE */ #define XK_Thai_sarao 0x0de2 /* U+0E42 THAI CHARACTER SARA O */ #define XK_Thai_saraaimaimuan 0x0de3 /* U+0E43 THAI CHARACTER SARA AI MAIMUAN */ #define XK_Thai_saraaimaimalai 0x0de4 /* U+0E44 THAI CHARACTER SARA AI MAIMALAI */ #define XK_Thai_lakkhangyao 0x0de5 /* U+0E45 THAI CHARACTER LAKKHANGYAO */ #define XK_Thai_maiyamok 0x0de6 /* U+0E46 THAI CHARACTER MAIYAMOK */ #define XK_Thai_maitaikhu 0x0de7 /* U+0E47 THAI CHARACTER MAITAIKHU */ #define XK_Thai_maiek 0x0de8 /* U+0E48 THAI CHARACTER MAI EK */ #define XK_Thai_maitho 0x0de9 /* U+0E49 THAI CHARACTER MAI THO */ #define XK_Thai_maitri 0x0dea /* U+0E4A THAI CHARACTER MAI TRI */ #define XK_Thai_maichattawa 0x0deb /* U+0E4B THAI CHARACTER MAI CHATTAWA */ #define XK_Thai_thanthakhat 0x0dec /* U+0E4C THAI CHARACTER THANTHAKHAT */ #define XK_Thai_nikhahit 0x0ded /* U+0E4D THAI CHARACTER NIKHAHIT */ #define XK_Thai_leksun 0x0df0 /* U+0E50 THAI DIGIT ZERO */ #define XK_Thai_leknung 0x0df1 /* U+0E51 THAI DIGIT ONE */ #define XK_Thai_leksong 0x0df2 /* U+0E52 THAI DIGIT TWO */ #define XK_Thai_leksam 0x0df3 /* U+0E53 THAI DIGIT THREE */ #define XK_Thai_leksi 0x0df4 /* U+0E54 THAI DIGIT FOUR */ #define XK_Thai_lekha 0x0df5 /* U+0E55 THAI DIGIT FIVE */ #define XK_Thai_lekhok 0x0df6 /* U+0E56 THAI DIGIT SIX */ #define XK_Thai_lekchet 0x0df7 /* U+0E57 THAI DIGIT SEVEN */ #define XK_Thai_lekpaet 0x0df8 /* U+0E58 THAI DIGIT EIGHT */ #define XK_Thai_lekkao 0x0df9 /* U+0E59 THAI DIGIT NINE */ #endif /* XK_THAI */ /* * Korean * Byte 3 = 0x0e */ #ifdef XK_KOREAN #define XK_Hangul 0xff31 /* Hangul start/stop(toggle) */ #define XK_Hangul_Start 0xff32 /* Hangul start */ #define XK_Hangul_End 0xff33 /* Hangul end, English start */ #define XK_Hangul_Hanja 0xff34 /* Start Hangul->Hanja Conversion */ #define XK_Hangul_Jamo 0xff35 /* Hangul Jamo mode */ #define XK_Hangul_Romaja 0xff36 /* Hangul Romaja mode */ #define XK_Hangul_Codeinput 0xff37 /* Hangul code input mode */ #define XK_Hangul_Jeonja 0xff38 /* Jeonja mode */ #define XK_Hangul_Banja 0xff39 /* Banja mode */ #define XK_Hangul_PreHanja 0xff3a /* Pre Hanja conversion */ #define XK_Hangul_PostHanja 0xff3b /* Post Hanja conversion */ #define XK_Hangul_SingleCandidate 0xff3c /* Single candidate */ #define XK_Hangul_MultipleCandidate 0xff3d /* Multiple candidate */ #define XK_Hangul_PreviousCandidate 0xff3e /* Previous candidate */ #define XK_Hangul_Special 0xff3f /* Special symbols */ #define XK_Hangul_switch 0xff7e /* Alias for mode_switch */ /* Hangul Consonant Characters */ #define XK_Hangul_Kiyeog 0x0ea1 #define XK_Hangul_SsangKiyeog 0x0ea2 #define XK_Hangul_KiyeogSios 0x0ea3 #define XK_Hangul_Nieun 0x0ea4 #define XK_Hangul_NieunJieuj 0x0ea5 #define XK_Hangul_NieunHieuh 0x0ea6 #define XK_Hangul_Dikeud 0x0ea7 #define XK_Hangul_SsangDikeud 0x0ea8 #define XK_Hangul_Rieul 0x0ea9 #define XK_Hangul_RieulKiyeog 0x0eaa #define XK_Hangul_RieulMieum 0x0eab #define XK_Hangul_RieulPieub 0x0eac #define XK_Hangul_RieulSios 0x0ead #define XK_Hangul_RieulTieut 0x0eae #define XK_Hangul_RieulPhieuf 0x0eaf #define XK_Hangul_RieulHieuh 0x0eb0 #define XK_Hangul_Mieum 0x0eb1 #define XK_Hangul_Pieub 0x0eb2 #define XK_Hangul_SsangPieub 0x0eb3 #define XK_Hangul_PieubSios 0x0eb4 #define XK_Hangul_Sios 0x0eb5 #define XK_Hangul_SsangSios 0x0eb6 #define XK_Hangul_Ieung 0x0eb7 #define XK_Hangul_Jieuj 0x0eb8 #define XK_Hangul_SsangJieuj 0x0eb9 #define XK_Hangul_Cieuc 0x0eba #define XK_Hangul_Khieuq 0x0ebb #define XK_Hangul_Tieut 0x0ebc #define XK_Hangul_Phieuf 0x0ebd #define XK_Hangul_Hieuh 0x0ebe /* Hangul Vowel Characters */ #define XK_Hangul_A 0x0ebf #define XK_Hangul_AE 0x0ec0 #define XK_Hangul_YA 0x0ec1 #define XK_Hangul_YAE 0x0ec2 #define XK_Hangul_EO 0x0ec3 #define XK_Hangul_E 0x0ec4 #define XK_Hangul_YEO 0x0ec5 #define XK_Hangul_YE 0x0ec6 #define XK_Hangul_O 0x0ec7 #define XK_Hangul_WA 0x0ec8 #define XK_Hangul_WAE 0x0ec9 #define XK_Hangul_OE 0x0eca #define XK_Hangul_YO 0x0ecb #define XK_Hangul_U 0x0ecc #define XK_Hangul_WEO 0x0ecd #define XK_Hangul_WE 0x0ece #define XK_Hangul_WI 0x0ecf #define XK_Hangul_YU 0x0ed0 #define XK_Hangul_EU 0x0ed1 #define XK_Hangul_YI 0x0ed2 #define XK_Hangul_I 0x0ed3 /* Hangul syllable-final (JongSeong) Characters */ #define XK_Hangul_J_Kiyeog 0x0ed4 #define XK_Hangul_J_SsangKiyeog 0x0ed5 #define XK_Hangul_J_KiyeogSios 0x0ed6 #define XK_Hangul_J_Nieun 0x0ed7 #define XK_Hangul_J_NieunJieuj 0x0ed8 #define XK_Hangul_J_NieunHieuh 0x0ed9 #define XK_Hangul_J_Dikeud 0x0eda #define XK_Hangul_J_Rieul 0x0edb #define XK_Hangul_J_RieulKiyeog 0x0edc #define XK_Hangul_J_RieulMieum 0x0edd #define XK_Hangul_J_RieulPieub 0x0ede #define XK_Hangul_J_RieulSios 0x0edf #define XK_Hangul_J_RieulTieut 0x0ee0 #define XK_Hangul_J_RieulPhieuf 0x0ee1 #define XK_Hangul_J_RieulHieuh 0x0ee2 #define XK_Hangul_J_Mieum 0x0ee3 #define XK_Hangul_J_Pieub 0x0ee4 #define XK_Hangul_J_PieubSios 0x0ee5 #define XK_Hangul_J_Sios 0x0ee6 #define XK_Hangul_J_SsangSios 0x0ee7 #define XK_Hangul_J_Ieung 0x0ee8 #define XK_Hangul_J_Jieuj 0x0ee9 #define XK_Hangul_J_Cieuc 0x0eea #define XK_Hangul_J_Khieuq 0x0eeb #define XK_Hangul_J_Tieut 0x0eec #define XK_Hangul_J_Phieuf 0x0eed #define XK_Hangul_J_Hieuh 0x0eee /* Ancient Hangul Consonant Characters */ #define XK_Hangul_RieulYeorinHieuh 0x0eef #define XK_Hangul_SunkyeongeumMieum 0x0ef0 #define XK_Hangul_SunkyeongeumPieub 0x0ef1 #define XK_Hangul_PanSios 0x0ef2 #define XK_Hangul_KkogjiDalrinIeung 0x0ef3 #define XK_Hangul_SunkyeongeumPhieuf 0x0ef4 #define XK_Hangul_YeorinHieuh 0x0ef5 /* Ancient Hangul Vowel Characters */ #define XK_Hangul_AraeA 0x0ef6 #define XK_Hangul_AraeAE 0x0ef7 /* Ancient Hangul syllable-final (JongSeong) Characters */ #define XK_Hangul_J_PanSios 0x0ef8 #define XK_Hangul_J_KkogjiDalrinIeung 0x0ef9 #define XK_Hangul_J_YeorinHieuh 0x0efa /* Korean currency symbol */ #define XK_Korean_Won 0x0eff /*(U+20A9 WON SIGN)*/ #endif /* XK_KOREAN */ /* * Armenian */ #ifdef XK_ARMENIAN #define XK_Armenian_ligature_ew 0x1000587 /* U+0587 ARMENIAN SMALL LIGATURE ECH YIWN */ #define XK_Armenian_full_stop 0x1000589 /* U+0589 ARMENIAN FULL STOP */ #define XK_Armenian_verjaket 0x1000589 /* U+0589 ARMENIAN FULL STOP */ #define XK_Armenian_separation_mark 0x100055d /* U+055D ARMENIAN COMMA */ #define XK_Armenian_but 0x100055d /* U+055D ARMENIAN COMMA */ #define XK_Armenian_hyphen 0x100058a /* U+058A ARMENIAN HYPHEN */ #define XK_Armenian_yentamna 0x100058a /* U+058A ARMENIAN HYPHEN */ #define XK_Armenian_exclam 0x100055c /* U+055C ARMENIAN EXCLAMATION MARK */ #define XK_Armenian_amanak 0x100055c /* U+055C ARMENIAN EXCLAMATION MARK */ #define XK_Armenian_accent 0x100055b /* U+055B ARMENIAN EMPHASIS MARK */ #define XK_Armenian_shesht 0x100055b /* U+055B ARMENIAN EMPHASIS MARK */ #define XK_Armenian_question 0x100055e /* U+055E ARMENIAN QUESTION MARK */ #define XK_Armenian_paruyk 0x100055e /* U+055E ARMENIAN QUESTION MARK */ #define XK_Armenian_AYB 0x1000531 /* U+0531 ARMENIAN CAPITAL LETTER AYB */ #define XK_Armenian_ayb 0x1000561 /* U+0561 ARMENIAN SMALL LETTER AYB */ #define XK_Armenian_BEN 0x1000532 /* U+0532 ARMENIAN CAPITAL LETTER BEN */ #define XK_Armenian_ben 0x1000562 /* U+0562 ARMENIAN SMALL LETTER BEN */ #define XK_Armenian_GIM 0x1000533 /* U+0533 ARMENIAN CAPITAL LETTER GIM */ #define XK_Armenian_gim 0x1000563 /* U+0563 ARMENIAN SMALL LETTER GIM */ #define XK_Armenian_DA 0x1000534 /* U+0534 ARMENIAN CAPITAL LETTER DA */ #define XK_Armenian_da 0x1000564 /* U+0564 ARMENIAN SMALL LETTER DA */ #define XK_Armenian_YECH 0x1000535 /* U+0535 ARMENIAN CAPITAL LETTER ECH */ #define XK_Armenian_yech 0x1000565 /* U+0565 ARMENIAN SMALL LETTER ECH */ #define XK_Armenian_ZA 0x1000536 /* U+0536 ARMENIAN CAPITAL LETTER ZA */ #define XK_Armenian_za 0x1000566 /* U+0566 ARMENIAN SMALL LETTER ZA */ #define XK_Armenian_E 0x1000537 /* U+0537 ARMENIAN CAPITAL LETTER EH */ #define XK_Armenian_e 0x1000567 /* U+0567 ARMENIAN SMALL LETTER EH */ #define XK_Armenian_AT 0x1000538 /* U+0538 ARMENIAN CAPITAL LETTER ET */ #define XK_Armenian_at 0x1000568 /* U+0568 ARMENIAN SMALL LETTER ET */ #define XK_Armenian_TO 0x1000539 /* U+0539 ARMENIAN CAPITAL LETTER TO */ #define XK_Armenian_to 0x1000569 /* U+0569 ARMENIAN SMALL LETTER TO */ #define XK_Armenian_ZHE 0x100053a /* U+053A ARMENIAN CAPITAL LETTER ZHE */ #define XK_Armenian_zhe 0x100056a /* U+056A ARMENIAN SMALL LETTER ZHE */ #define XK_Armenian_INI 0x100053b /* U+053B ARMENIAN CAPITAL LETTER INI */ #define XK_Armenian_ini 0x100056b /* U+056B ARMENIAN SMALL LETTER INI */ #define XK_Armenian_LYUN 0x100053c /* U+053C ARMENIAN CAPITAL LETTER LIWN */ #define XK_Armenian_lyun 0x100056c /* U+056C ARMENIAN SMALL LETTER LIWN */ #define XK_Armenian_KHE 0x100053d /* U+053D ARMENIAN CAPITAL LETTER XEH */ #define XK_Armenian_khe 0x100056d /* U+056D ARMENIAN SMALL LETTER XEH */ #define XK_Armenian_TSA 0x100053e /* U+053E ARMENIAN CAPITAL LETTER CA */ #define XK_Armenian_tsa 0x100056e /* U+056E ARMENIAN SMALL LETTER CA */ #define XK_Armenian_KEN 0x100053f /* U+053F ARMENIAN CAPITAL LETTER KEN */ #define XK_Armenian_ken 0x100056f /* U+056F ARMENIAN SMALL LETTER KEN */ #define XK_Armenian_HO 0x1000540 /* U+0540 ARMENIAN CAPITAL LETTER HO */ #define XK_Armenian_ho 0x1000570 /* U+0570 ARMENIAN SMALL LETTER HO */ #define XK_Armenian_DZA 0x1000541 /* U+0541 ARMENIAN CAPITAL LETTER JA */ #define XK_Armenian_dza 0x1000571 /* U+0571 ARMENIAN SMALL LETTER JA */ #define XK_Armenian_GHAT 0x1000542 /* U+0542 ARMENIAN CAPITAL LETTER GHAD */ #define XK_Armenian_ghat 0x1000572 /* U+0572 ARMENIAN SMALL LETTER GHAD */ #define XK_Armenian_TCHE 0x1000543 /* U+0543 ARMENIAN CAPITAL LETTER CHEH */ #define XK_Armenian_tche 0x1000573 /* U+0573 ARMENIAN SMALL LETTER CHEH */ #define XK_Armenian_MEN 0x1000544 /* U+0544 ARMENIAN CAPITAL LETTER MEN */ #define XK_Armenian_men 0x1000574 /* U+0574 ARMENIAN SMALL LETTER MEN */ #define XK_Armenian_HI 0x1000545 /* U+0545 ARMENIAN CAPITAL LETTER YI */ #define XK_Armenian_hi 0x1000575 /* U+0575 ARMENIAN SMALL LETTER YI */ #define XK_Armenian_NU 0x1000546 /* U+0546 ARMENIAN CAPITAL LETTER NOW */ #define XK_Armenian_nu 0x1000576 /* U+0576 ARMENIAN SMALL LETTER NOW */ #define XK_Armenian_SHA 0x1000547 /* U+0547 ARMENIAN CAPITAL LETTER SHA */ #define XK_Armenian_sha 0x1000577 /* U+0577 ARMENIAN SMALL LETTER SHA */ #define XK_Armenian_VO 0x1000548 /* U+0548 ARMENIAN CAPITAL LETTER VO */ #define XK_Armenian_vo 0x1000578 /* U+0578 ARMENIAN SMALL LETTER VO */ #define XK_Armenian_CHA 0x1000549 /* U+0549 ARMENIAN CAPITAL LETTER CHA */ #define XK_Armenian_cha 0x1000579 /* U+0579 ARMENIAN SMALL LETTER CHA */ #define XK_Armenian_PE 0x100054a /* U+054A ARMENIAN CAPITAL LETTER PEH */ #define XK_Armenian_pe 0x100057a /* U+057A ARMENIAN SMALL LETTER PEH */ #define XK_Armenian_JE 0x100054b /* U+054B ARMENIAN CAPITAL LETTER JHEH */ #define XK_Armenian_je 0x100057b /* U+057B ARMENIAN SMALL LETTER JHEH */ #define XK_Armenian_RA 0x100054c /* U+054C ARMENIAN CAPITAL LETTER RA */ #define XK_Armenian_ra 0x100057c /* U+057C ARMENIAN SMALL LETTER RA */ #define XK_Armenian_SE 0x100054d /* U+054D ARMENIAN CAPITAL LETTER SEH */ #define XK_Armenian_se 0x100057d /* U+057D ARMENIAN SMALL LETTER SEH */ #define XK_Armenian_VEV 0x100054e /* U+054E ARMENIAN CAPITAL LETTER VEW */ #define XK_Armenian_vev 0x100057e /* U+057E ARMENIAN SMALL LETTER VEW */ #define XK_Armenian_TYUN 0x100054f /* U+054F ARMENIAN CAPITAL LETTER TIWN */ #define XK_Armenian_tyun 0x100057f /* U+057F ARMENIAN SMALL LETTER TIWN */ #define XK_Armenian_RE 0x1000550 /* U+0550 ARMENIAN CAPITAL LETTER REH */ #define XK_Armenian_re 0x1000580 /* U+0580 ARMENIAN SMALL LETTER REH */ #define XK_Armenian_TSO 0x1000551 /* U+0551 ARMENIAN CAPITAL LETTER CO */ #define XK_Armenian_tso 0x1000581 /* U+0581 ARMENIAN SMALL LETTER CO */ #define XK_Armenian_VYUN 0x1000552 /* U+0552 ARMENIAN CAPITAL LETTER YIWN */ #define XK_Armenian_vyun 0x1000582 /* U+0582 ARMENIAN SMALL LETTER YIWN */ #define XK_Armenian_PYUR 0x1000553 /* U+0553 ARMENIAN CAPITAL LETTER PIWR */ #define XK_Armenian_pyur 0x1000583 /* U+0583 ARMENIAN SMALL LETTER PIWR */ #define XK_Armenian_KE 0x1000554 /* U+0554 ARMENIAN CAPITAL LETTER KEH */ #define XK_Armenian_ke 0x1000584 /* U+0584 ARMENIAN SMALL LETTER KEH */ #define XK_Armenian_O 0x1000555 /* U+0555 ARMENIAN CAPITAL LETTER OH */ #define XK_Armenian_o 0x1000585 /* U+0585 ARMENIAN SMALL LETTER OH */ #define XK_Armenian_FE 0x1000556 /* U+0556 ARMENIAN CAPITAL LETTER FEH */ #define XK_Armenian_fe 0x1000586 /* U+0586 ARMENIAN SMALL LETTER FEH */ #define XK_Armenian_apostrophe 0x100055a /* U+055A ARMENIAN APOSTROPHE */ #endif /* XK_ARMENIAN */ /* * Georgian */ #ifdef XK_GEORGIAN #define XK_Georgian_an 0x10010d0 /* U+10D0 GEORGIAN LETTER AN */ #define XK_Georgian_ban 0x10010d1 /* U+10D1 GEORGIAN LETTER BAN */ #define XK_Georgian_gan 0x10010d2 /* U+10D2 GEORGIAN LETTER GAN */ #define XK_Georgian_don 0x10010d3 /* U+10D3 GEORGIAN LETTER DON */ #define XK_Georgian_en 0x10010d4 /* U+10D4 GEORGIAN LETTER EN */ #define XK_Georgian_vin 0x10010d5 /* U+10D5 GEORGIAN LETTER VIN */ #define XK_Georgian_zen 0x10010d6 /* U+10D6 GEORGIAN LETTER ZEN */ #define XK_Georgian_tan 0x10010d7 /* U+10D7 GEORGIAN LETTER TAN */ #define XK_Georgian_in 0x10010d8 /* U+10D8 GEORGIAN LETTER IN */ #define XK_Georgian_kan 0x10010d9 /* U+10D9 GEORGIAN LETTER KAN */ #define XK_Georgian_las 0x10010da /* U+10DA GEORGIAN LETTER LAS */ #define XK_Georgian_man 0x10010db /* U+10DB GEORGIAN LETTER MAN */ #define XK_Georgian_nar 0x10010dc /* U+10DC GEORGIAN LETTER NAR */ #define XK_Georgian_on 0x10010dd /* U+10DD GEORGIAN LETTER ON */ #define XK_Georgian_par 0x10010de /* U+10DE GEORGIAN LETTER PAR */ #define XK_Georgian_zhar 0x10010df /* U+10DF GEORGIAN LETTER ZHAR */ #define XK_Georgian_rae 0x10010e0 /* U+10E0 GEORGIAN LETTER RAE */ #define XK_Georgian_san 0x10010e1 /* U+10E1 GEORGIAN LETTER SAN */ #define XK_Georgian_tar 0x10010e2 /* U+10E2 GEORGIAN LETTER TAR */ #define XK_Georgian_un 0x10010e3 /* U+10E3 GEORGIAN LETTER UN */ #define XK_Georgian_phar 0x10010e4 /* U+10E4 GEORGIAN LETTER PHAR */ #define XK_Georgian_khar 0x10010e5 /* U+10E5 GEORGIAN LETTER KHAR */ #define XK_Georgian_ghan 0x10010e6 /* U+10E6 GEORGIAN LETTER GHAN */ #define XK_Georgian_qar 0x10010e7 /* U+10E7 GEORGIAN LETTER QAR */ #define XK_Georgian_shin 0x10010e8 /* U+10E8 GEORGIAN LETTER SHIN */ #define XK_Georgian_chin 0x10010e9 /* U+10E9 GEORGIAN LETTER CHIN */ #define XK_Georgian_can 0x10010ea /* U+10EA GEORGIAN LETTER CAN */ #define XK_Georgian_jil 0x10010eb /* U+10EB GEORGIAN LETTER JIL */ #define XK_Georgian_cil 0x10010ec /* U+10EC GEORGIAN LETTER CIL */ #define XK_Georgian_char 0x10010ed /* U+10ED GEORGIAN LETTER CHAR */ #define XK_Georgian_xan 0x10010ee /* U+10EE GEORGIAN LETTER XAN */ #define XK_Georgian_jhan 0x10010ef /* U+10EF GEORGIAN LETTER JHAN */ #define XK_Georgian_hae 0x10010f0 /* U+10F0 GEORGIAN LETTER HAE */ #define XK_Georgian_he 0x10010f1 /* U+10F1 GEORGIAN LETTER HE */ #define XK_Georgian_hie 0x10010f2 /* U+10F2 GEORGIAN LETTER HIE */ #define XK_Georgian_we 0x10010f3 /* U+10F3 GEORGIAN LETTER WE */ #define XK_Georgian_har 0x10010f4 /* U+10F4 GEORGIAN LETTER HAR */ #define XK_Georgian_hoe 0x10010f5 /* U+10F5 GEORGIAN LETTER HOE */ #define XK_Georgian_fi 0x10010f6 /* U+10F6 GEORGIAN LETTER FI */ #endif /* XK_GEORGIAN */ /* * Azeri (and other Turkic or Caucasian languages) */ #ifdef XK_CAUCASUS /* latin */ #define XK_Xabovedot 0x1001e8a /* U+1E8A LATIN CAPITAL LETTER X WITH DOT ABOVE */ #define XK_Ibreve 0x100012c /* U+012C LATIN CAPITAL LETTER I WITH BREVE */ #define XK_Zstroke 0x10001b5 /* U+01B5 LATIN CAPITAL LETTER Z WITH STROKE */ #define XK_Gcaron 0x10001e6 /* U+01E6 LATIN CAPITAL LETTER G WITH CARON */ #define XK_Ocaron 0x10001d1 /* U+01D2 LATIN CAPITAL LETTER O WITH CARON */ #define XK_Obarred 0x100019f /* U+019F LATIN CAPITAL LETTER O WITH MIDDLE TILDE */ #define XK_xabovedot 0x1001e8b /* U+1E8B LATIN SMALL LETTER X WITH DOT ABOVE */ #define XK_ibreve 0x100012d /* U+012D LATIN SMALL LETTER I WITH BREVE */ #define XK_zstroke 0x10001b6 /* U+01B6 LATIN SMALL LETTER Z WITH STROKE */ #define XK_gcaron 0x10001e7 /* U+01E7 LATIN SMALL LETTER G WITH CARON */ #define XK_ocaron 0x10001d2 /* U+01D2 LATIN SMALL LETTER O WITH CARON */ #define XK_obarred 0x1000275 /* U+0275 LATIN SMALL LETTER BARRED O */ #define XK_SCHWA 0x100018f /* U+018F LATIN CAPITAL LETTER SCHWA */ #define XK_schwa 0x1000259 /* U+0259 LATIN SMALL LETTER SCHWA */ #define XK_EZH 0x10001b7 /* U+01B7 LATIN CAPITAL LETTER EZH */ #define XK_ezh 0x1000292 /* U+0292 LATIN SMALL LETTER EZH */ /* those are not really Caucasus */ /* For Inupiak */ #define XK_Lbelowdot 0x1001e36 /* U+1E36 LATIN CAPITAL LETTER L WITH DOT BELOW */ #define XK_lbelowdot 0x1001e37 /* U+1E37 LATIN SMALL LETTER L WITH DOT BELOW */ #endif /* XK_CAUCASUS */ /* * Vietnamese */ #ifdef XK_VIETNAMESE #define XK_Abelowdot 0x1001ea0 /* U+1EA0 LATIN CAPITAL LETTER A WITH DOT BELOW */ #define XK_abelowdot 0x1001ea1 /* U+1EA1 LATIN SMALL LETTER A WITH DOT BELOW */ #define XK_Ahook 0x1001ea2 /* U+1EA2 LATIN CAPITAL LETTER A WITH HOOK ABOVE */ #define XK_ahook 0x1001ea3 /* U+1EA3 LATIN SMALL LETTER A WITH HOOK ABOVE */ #define XK_Acircumflexacute 0x1001ea4 /* U+1EA4 LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND ACUTE */ #define XK_acircumflexacute 0x1001ea5 /* U+1EA5 LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE */ #define XK_Acircumflexgrave 0x1001ea6 /* U+1EA6 LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND GRAVE */ #define XK_acircumflexgrave 0x1001ea7 /* U+1EA7 LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE */ #define XK_Acircumflexhook 0x1001ea8 /* U+1EA8 LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_acircumflexhook 0x1001ea9 /* U+1EA9 LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_Acircumflextilde 0x1001eaa /* U+1EAA LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND TILDE */ #define XK_acircumflextilde 0x1001eab /* U+1EAB LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE */ #define XK_Acircumflexbelowdot 0x1001eac /* U+1EAC LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND DOT BELOW */ #define XK_acircumflexbelowdot 0x1001ead /* U+1EAD LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW */ #define XK_Abreveacute 0x1001eae /* U+1EAE LATIN CAPITAL LETTER A WITH BREVE AND ACUTE */ #define XK_abreveacute 0x1001eaf /* U+1EAF LATIN SMALL LETTER A WITH BREVE AND ACUTE */ #define XK_Abrevegrave 0x1001eb0 /* U+1EB0 LATIN CAPITAL LETTER A WITH BREVE AND GRAVE */ #define XK_abrevegrave 0x1001eb1 /* U+1EB1 LATIN SMALL LETTER A WITH BREVE AND GRAVE */ #define XK_Abrevehook 0x1001eb2 /* U+1EB2 LATIN CAPITAL LETTER A WITH BREVE AND HOOK ABOVE */ #define XK_abrevehook 0x1001eb3 /* U+1EB3 LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE */ #define XK_Abrevetilde 0x1001eb4 /* U+1EB4 LATIN CAPITAL LETTER A WITH BREVE AND TILDE */ #define XK_abrevetilde 0x1001eb5 /* U+1EB5 LATIN SMALL LETTER A WITH BREVE AND TILDE */ #define XK_Abrevebelowdot 0x1001eb6 /* U+1EB6 LATIN CAPITAL LETTER A WITH BREVE AND DOT BELOW */ #define XK_abrevebelowdot 0x1001eb7 /* U+1EB7 LATIN SMALL LETTER A WITH BREVE AND DOT BELOW */ #define XK_Ebelowdot 0x1001eb8 /* U+1EB8 LATIN CAPITAL LETTER E WITH DOT BELOW */ #define XK_ebelowdot 0x1001eb9 /* U+1EB9 LATIN SMALL LETTER E WITH DOT BELOW */ #define XK_Ehook 0x1001eba /* U+1EBA LATIN CAPITAL LETTER E WITH HOOK ABOVE */ #define XK_ehook 0x1001ebb /* U+1EBB LATIN SMALL LETTER E WITH HOOK ABOVE */ #define XK_Etilde 0x1001ebc /* U+1EBC LATIN CAPITAL LETTER E WITH TILDE */ #define XK_etilde 0x1001ebd /* U+1EBD LATIN SMALL LETTER E WITH TILDE */ #define XK_Ecircumflexacute 0x1001ebe /* U+1EBE LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND ACUTE */ #define XK_ecircumflexacute 0x1001ebf /* U+1EBF LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE */ #define XK_Ecircumflexgrave 0x1001ec0 /* U+1EC0 LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND GRAVE */ #define XK_ecircumflexgrave 0x1001ec1 /* U+1EC1 LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE */ #define XK_Ecircumflexhook 0x1001ec2 /* U+1EC2 LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_ecircumflexhook 0x1001ec3 /* U+1EC3 LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_Ecircumflextilde 0x1001ec4 /* U+1EC4 LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND TILDE */ #define XK_ecircumflextilde 0x1001ec5 /* U+1EC5 LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE */ #define XK_Ecircumflexbelowdot 0x1001ec6 /* U+1EC6 LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND DOT BELOW */ #define XK_ecircumflexbelowdot 0x1001ec7 /* U+1EC7 LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW */ #define XK_Ihook 0x1001ec8 /* U+1EC8 LATIN CAPITAL LETTER I WITH HOOK ABOVE */ #define XK_ihook 0x1001ec9 /* U+1EC9 LATIN SMALL LETTER I WITH HOOK ABOVE */ #define XK_Ibelowdot 0x1001eca /* U+1ECA LATIN CAPITAL LETTER I WITH DOT BELOW */ #define XK_ibelowdot 0x1001ecb /* U+1ECB LATIN SMALL LETTER I WITH DOT BELOW */ #define XK_Obelowdot 0x1001ecc /* U+1ECC LATIN CAPITAL LETTER O WITH DOT BELOW */ #define XK_obelowdot 0x1001ecd /* U+1ECD LATIN SMALL LETTER O WITH DOT BELOW */ #define XK_Ohook 0x1001ece /* U+1ECE LATIN CAPITAL LETTER O WITH HOOK ABOVE */ #define XK_ohook 0x1001ecf /* U+1ECF LATIN SMALL LETTER O WITH HOOK ABOVE */ #define XK_Ocircumflexacute 0x1001ed0 /* U+1ED0 LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND ACUTE */ #define XK_ocircumflexacute 0x1001ed1 /* U+1ED1 LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE */ #define XK_Ocircumflexgrave 0x1001ed2 /* U+1ED2 LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND GRAVE */ #define XK_ocircumflexgrave 0x1001ed3 /* U+1ED3 LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE */ #define XK_Ocircumflexhook 0x1001ed4 /* U+1ED4 LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_ocircumflexhook 0x1001ed5 /* U+1ED5 LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE */ #define XK_Ocircumflextilde 0x1001ed6 /* U+1ED6 LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND TILDE */ #define XK_ocircumflextilde 0x1001ed7 /* U+1ED7 LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE */ #define XK_Ocircumflexbelowdot 0x1001ed8 /* U+1ED8 LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND DOT BELOW */ #define XK_ocircumflexbelowdot 0x1001ed9 /* U+1ED9 LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW */ #define XK_Ohornacute 0x1001eda /* U+1EDA LATIN CAPITAL LETTER O WITH HORN AND ACUTE */ #define XK_ohornacute 0x1001edb /* U+1EDB LATIN SMALL LETTER O WITH HORN AND ACUTE */ #define XK_Ohorngrave 0x1001edc /* U+1EDC LATIN CAPITAL LETTER O WITH HORN AND GRAVE */ #define XK_ohorngrave 0x1001edd /* U+1EDD LATIN SMALL LETTER O WITH HORN AND GRAVE */ #define XK_Ohornhook 0x1001ede /* U+1EDE LATIN CAPITAL LETTER O WITH HORN AND HOOK ABOVE */ #define XK_ohornhook 0x1001edf /* U+1EDF LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE */ #define XK_Ohorntilde 0x1001ee0 /* U+1EE0 LATIN CAPITAL LETTER O WITH HORN AND TILDE */ #define XK_ohorntilde 0x1001ee1 /* U+1EE1 LATIN SMALL LETTER O WITH HORN AND TILDE */ #define XK_Ohornbelowdot 0x1001ee2 /* U+1EE2 LATIN CAPITAL LETTER O WITH HORN AND DOT BELOW */ #define XK_ohornbelowdot 0x1001ee3 /* U+1EE3 LATIN SMALL LETTER O WITH HORN AND DOT BELOW */ #define XK_Ubelowdot 0x1001ee4 /* U+1EE4 LATIN CAPITAL LETTER U WITH DOT BELOW */ #define XK_ubelowdot 0x1001ee5 /* U+1EE5 LATIN SMALL LETTER U WITH DOT BELOW */ #define XK_Uhook 0x1001ee6 /* U+1EE6 LATIN CAPITAL LETTER U WITH HOOK ABOVE */ #define XK_uhook 0x1001ee7 /* U+1EE7 LATIN SMALL LETTER U WITH HOOK ABOVE */ #define XK_Uhornacute 0x1001ee8 /* U+1EE8 LATIN CAPITAL LETTER U WITH HORN AND ACUTE */ #define XK_uhornacute 0x1001ee9 /* U+1EE9 LATIN SMALL LETTER U WITH HORN AND ACUTE */ #define XK_Uhorngrave 0x1001eea /* U+1EEA LATIN CAPITAL LETTER U WITH HORN AND GRAVE */ #define XK_uhorngrave 0x1001eeb /* U+1EEB LATIN SMALL LETTER U WITH HORN AND GRAVE */ #define XK_Uhornhook 0x1001eec /* U+1EEC LATIN CAPITAL LETTER U WITH HORN AND HOOK ABOVE */ #define XK_uhornhook 0x1001eed /* U+1EED LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE */ #define XK_Uhorntilde 0x1001eee /* U+1EEE LATIN CAPITAL LETTER U WITH HORN AND TILDE */ #define XK_uhorntilde 0x1001eef /* U+1EEF LATIN SMALL LETTER U WITH HORN AND TILDE */ #define XK_Uhornbelowdot 0x1001ef0 /* U+1EF0 LATIN CAPITAL LETTER U WITH HORN AND DOT BELOW */ #define XK_uhornbelowdot 0x1001ef1 /* U+1EF1 LATIN SMALL LETTER U WITH HORN AND DOT BELOW */ #define XK_Ybelowdot 0x1001ef4 /* U+1EF4 LATIN CAPITAL LETTER Y WITH DOT BELOW */ #define XK_ybelowdot 0x1001ef5 /* U+1EF5 LATIN SMALL LETTER Y WITH DOT BELOW */ #define XK_Yhook 0x1001ef6 /* U+1EF6 LATIN CAPITAL LETTER Y WITH HOOK ABOVE */ #define XK_yhook 0x1001ef7 /* U+1EF7 LATIN SMALL LETTER Y WITH HOOK ABOVE */ #define XK_Ytilde 0x1001ef8 /* U+1EF8 LATIN CAPITAL LETTER Y WITH TILDE */ #define XK_ytilde 0x1001ef9 /* U+1EF9 LATIN SMALL LETTER Y WITH TILDE */ #define XK_Ohorn 0x10001a0 /* U+01A0 LATIN CAPITAL LETTER O WITH HORN */ #define XK_ohorn 0x10001a1 /* U+01A1 LATIN SMALL LETTER O WITH HORN */ #define XK_Uhorn 0x10001af /* U+01AF LATIN CAPITAL LETTER U WITH HORN */ #define XK_uhorn 0x10001b0 /* U+01B0 LATIN SMALL LETTER U WITH HORN */ #endif /* XK_VIETNAMESE */ #ifdef XK_CURRENCY #define XK_EcuSign 0x10020a0 /* U+20A0 EURO-CURRENCY SIGN */ #define XK_ColonSign 0x10020a1 /* U+20A1 COLON SIGN */ #define XK_CruzeiroSign 0x10020a2 /* U+20A2 CRUZEIRO SIGN */ #define XK_FFrancSign 0x10020a3 /* U+20A3 FRENCH FRANC SIGN */ #define XK_LiraSign 0x10020a4 /* U+20A4 LIRA SIGN */ #define XK_MillSign 0x10020a5 /* U+20A5 MILL SIGN */ #define XK_NairaSign 0x10020a6 /* U+20A6 NAIRA SIGN */ #define XK_PesetaSign 0x10020a7 /* U+20A7 PESETA SIGN */ #define XK_RupeeSign 0x10020a8 /* U+20A8 RUPEE SIGN */ #define XK_WonSign 0x10020a9 /* U+20A9 WON SIGN */ #define XK_NewSheqelSign 0x10020aa /* U+20AA NEW SHEQEL SIGN */ #define XK_DongSign 0x10020ab /* U+20AB DONG SIGN */ #define XK_EuroSign 0x20ac /* U+20AC EURO SIGN */ #endif /* XK_CURRENCY */ #ifdef XK_MATHEMATICAL /* one, two and three are defined above. */ #define XK_zerosuperior 0x1002070 /* U+2070 SUPERSCRIPT ZERO */ #define XK_foursuperior 0x1002074 /* U+2074 SUPERSCRIPT FOUR */ #define XK_fivesuperior 0x1002075 /* U+2075 SUPERSCRIPT FIVE */ #define XK_sixsuperior 0x1002076 /* U+2076 SUPERSCRIPT SIX */ #define XK_sevensuperior 0x1002077 /* U+2077 SUPERSCRIPT SEVEN */ #define XK_eightsuperior 0x1002078 /* U+2078 SUPERSCRIPT EIGHT */ #define XK_ninesuperior 0x1002079 /* U+2079 SUPERSCRIPT NINE */ #define XK_zerosubscript 0x1002080 /* U+2080 SUBSCRIPT ZERO */ #define XK_onesubscript 0x1002081 /* U+2081 SUBSCRIPT ONE */ #define XK_twosubscript 0x1002082 /* U+2082 SUBSCRIPT TWO */ #define XK_threesubscript 0x1002083 /* U+2083 SUBSCRIPT THREE */ #define XK_foursubscript 0x1002084 /* U+2084 SUBSCRIPT FOUR */ #define XK_fivesubscript 0x1002085 /* U+2085 SUBSCRIPT FIVE */ #define XK_sixsubscript 0x1002086 /* U+2086 SUBSCRIPT SIX */ #define XK_sevensubscript 0x1002087 /* U+2087 SUBSCRIPT SEVEN */ #define XK_eightsubscript 0x1002088 /* U+2088 SUBSCRIPT EIGHT */ #define XK_ninesubscript 0x1002089 /* U+2089 SUBSCRIPT NINE */ #define XK_partdifferential 0x1002202 /* U+2202 PARTIAL DIFFERENTIAL */ #define XK_emptyset 0x1002205 /* U+2205 NULL SET */ #define XK_elementof 0x1002208 /* U+2208 ELEMENT OF */ #define XK_notelementof 0x1002209 /* U+2209 NOT AN ELEMENT OF */ #define XK_containsas 0x100220B /* U+220B CONTAINS AS MEMBER */ #define XK_squareroot 0x100221A /* U+221A SQUARE ROOT */ #define XK_cuberoot 0x100221B /* U+221B CUBE ROOT */ #define XK_fourthroot 0x100221C /* U+221C FOURTH ROOT */ #define XK_dintegral 0x100222C /* U+222C DOUBLE INTEGRAL */ #define XK_tintegral 0x100222D /* U+222D TRIPLE INTEGRAL */ #define XK_because 0x1002235 /* U+2235 BECAUSE */ #define XK_approxeq 0x1002248 /* U+2245 ALMOST EQUAL TO */ #define XK_notapproxeq 0x1002247 /* U+2247 NOT ALMOST EQUAL TO */ #define XK_notidentical 0x1002262 /* U+2262 NOT IDENTICAL TO */ #define XK_stricteq 0x1002263 /* U+2263 STRICTLY EQUIVALENT TO */ #endif /* XK_MATHEMATICAL */ #ifdef XK_BRAILLE #define XK_braille_dot_1 0xfff1 #define XK_braille_dot_2 0xfff2 #define XK_braille_dot_3 0xfff3 #define XK_braille_dot_4 0xfff4 #define XK_braille_dot_5 0xfff5 #define XK_braille_dot_6 0xfff6 #define XK_braille_dot_7 0xfff7 #define XK_braille_dot_8 0xfff8 #define XK_braille_dot_9 0xfff9 #define XK_braille_dot_10 0xfffa #define XK_braille_blank 0x1002800 /* U+2800 BRAILLE PATTERN BLANK */ #define XK_braille_dots_1 0x1002801 /* U+2801 BRAILLE PATTERN DOTS-1 */ #define XK_braille_dots_2 0x1002802 /* U+2802 BRAILLE PATTERN DOTS-2 */ #define XK_braille_dots_12 0x1002803 /* U+2803 BRAILLE PATTERN DOTS-12 */ #define XK_braille_dots_3 0x1002804 /* U+2804 BRAILLE PATTERN DOTS-3 */ #define XK_braille_dots_13 0x1002805 /* U+2805 BRAILLE PATTERN DOTS-13 */ #define XK_braille_dots_23 0x1002806 /* U+2806 BRAILLE PATTERN DOTS-23 */ #define XK_braille_dots_123 0x1002807 /* U+2807 BRAILLE PATTERN DOTS-123 */ #define XK_braille_dots_4 0x1002808 /* U+2808 BRAILLE PATTERN DOTS-4 */ #define XK_braille_dots_14 0x1002809 /* U+2809 BRAILLE PATTERN DOTS-14 */ #define XK_braille_dots_24 0x100280a /* U+280a BRAILLE PATTERN DOTS-24 */ #define XK_braille_dots_124 0x100280b /* U+280b BRAILLE PATTERN DOTS-124 */ #define XK_braille_dots_34 0x100280c /* U+280c BRAILLE PATTERN DOTS-34 */ #define XK_braille_dots_134 0x100280d /* U+280d BRAILLE PATTERN DOTS-134 */ #define XK_braille_dots_234 0x100280e /* U+280e BRAILLE PATTERN DOTS-234 */ #define XK_braille_dots_1234 0x100280f /* U+280f BRAILLE PATTERN DOTS-1234 */ #define XK_braille_dots_5 0x1002810 /* U+2810 BRAILLE PATTERN DOTS-5 */ #define XK_braille_dots_15 0x1002811 /* U+2811 BRAILLE PATTERN DOTS-15 */ #define XK_braille_dots_25 0x1002812 /* U+2812 BRAILLE PATTERN DOTS-25 */ #define XK_braille_dots_125 0x1002813 /* U+2813 BRAILLE PATTERN DOTS-125 */ #define XK_braille_dots_35 0x1002814 /* U+2814 BRAILLE PATTERN DOTS-35 */ #define XK_braille_dots_135 0x1002815 /* U+2815 BRAILLE PATTERN DOTS-135 */ #define XK_braille_dots_235 0x1002816 /* U+2816 BRAILLE PATTERN DOTS-235 */ #define XK_braille_dots_1235 0x1002817 /* U+2817 BRAILLE PATTERN DOTS-1235 */ #define XK_braille_dots_45 0x1002818 /* U+2818 BRAILLE PATTERN DOTS-45 */ #define XK_braille_dots_145 0x1002819 /* U+2819 BRAILLE PATTERN DOTS-145 */ #define XK_braille_dots_245 0x100281a /* U+281a BRAILLE PATTERN DOTS-245 */ #define XK_braille_dots_1245 0x100281b /* U+281b BRAILLE PATTERN DOTS-1245 */ #define XK_braille_dots_345 0x100281c /* U+281c BRAILLE PATTERN DOTS-345 */ #define XK_braille_dots_1345 0x100281d /* U+281d BRAILLE PATTERN DOTS-1345 */ #define XK_braille_dots_2345 0x100281e /* U+281e BRAILLE PATTERN DOTS-2345 */ #define XK_braille_dots_12345 0x100281f /* U+281f BRAILLE PATTERN DOTS-12345 */ #define XK_braille_dots_6 0x1002820 /* U+2820 BRAILLE PATTERN DOTS-6 */ #define XK_braille_dots_16 0x1002821 /* U+2821 BRAILLE PATTERN DOTS-16 */ #define XK_braille_dots_26 0x1002822 /* U+2822 BRAILLE PATTERN DOTS-26 */ #define XK_braille_dots_126 0x1002823 /* U+2823 BRAILLE PATTERN DOTS-126 */ #define XK_braille_dots_36 0x1002824 /* U+2824 BRAILLE PATTERN DOTS-36 */ #define XK_braille_dots_136 0x1002825 /* U+2825 BRAILLE PATTERN DOTS-136 */ #define XK_braille_dots_236 0x1002826 /* U+2826 BRAILLE PATTERN DOTS-236 */ #define XK_braille_dots_1236 0x1002827 /* U+2827 BRAILLE PATTERN DOTS-1236 */ #define XK_braille_dots_46 0x1002828 /* U+2828 BRAILLE PATTERN DOTS-46 */ #define XK_braille_dots_146 0x1002829 /* U+2829 BRAILLE PATTERN DOTS-146 */ #define XK_braille_dots_246 0x100282a /* U+282a BRAILLE PATTERN DOTS-246 */ #define XK_braille_dots_1246 0x100282b /* U+282b BRAILLE PATTERN DOTS-1246 */ #define XK_braille_dots_346 0x100282c /* U+282c BRAILLE PATTERN DOTS-346 */ #define XK_braille_dots_1346 0x100282d /* U+282d BRAILLE PATTERN DOTS-1346 */ #define XK_braille_dots_2346 0x100282e /* U+282e BRAILLE PATTERN DOTS-2346 */ #define XK_braille_dots_12346 0x100282f /* U+282f BRAILLE PATTERN DOTS-12346 */ #define XK_braille_dots_56 0x1002830 /* U+2830 BRAILLE PATTERN DOTS-56 */ #define XK_braille_dots_156 0x1002831 /* U+2831 BRAILLE PATTERN DOTS-156 */ #define XK_braille_dots_256 0x1002832 /* U+2832 BRAILLE PATTERN DOTS-256 */ #define XK_braille_dots_1256 0x1002833 /* U+2833 BRAILLE PATTERN DOTS-1256 */ #define XK_braille_dots_356 0x1002834 /* U+2834 BRAILLE PATTERN DOTS-356 */ #define XK_braille_dots_1356 0x1002835 /* U+2835 BRAILLE PATTERN DOTS-1356 */ #define XK_braille_dots_2356 0x1002836 /* U+2836 BRAILLE PATTERN DOTS-2356 */ #define XK_braille_dots_12356 0x1002837 /* U+2837 BRAILLE PATTERN DOTS-12356 */ #define XK_braille_dots_456 0x1002838 /* U+2838 BRAILLE PATTERN DOTS-456 */ #define XK_braille_dots_1456 0x1002839 /* U+2839 BRAILLE PATTERN DOTS-1456 */ #define XK_braille_dots_2456 0x100283a /* U+283a BRAILLE PATTERN DOTS-2456 */ #define XK_braille_dots_12456 0x100283b /* U+283b BRAILLE PATTERN DOTS-12456 */ #define XK_braille_dots_3456 0x100283c /* U+283c BRAILLE PATTERN DOTS-3456 */ #define XK_braille_dots_13456 0x100283d /* U+283d BRAILLE PATTERN DOTS-13456 */ #define XK_braille_dots_23456 0x100283e /* U+283e BRAILLE PATTERN DOTS-23456 */ #define XK_braille_dots_123456 0x100283f /* U+283f BRAILLE PATTERN DOTS-123456 */ #define XK_braille_dots_7 0x1002840 /* U+2840 BRAILLE PATTERN DOTS-7 */ #define XK_braille_dots_17 0x1002841 /* U+2841 BRAILLE PATTERN DOTS-17 */ #define XK_braille_dots_27 0x1002842 /* U+2842 BRAILLE PATTERN DOTS-27 */ #define XK_braille_dots_127 0x1002843 /* U+2843 BRAILLE PATTERN DOTS-127 */ #define XK_braille_dots_37 0x1002844 /* U+2844 BRAILLE PATTERN DOTS-37 */ #define XK_braille_dots_137 0x1002845 /* U+2845 BRAILLE PATTERN DOTS-137 */ #define XK_braille_dots_237 0x1002846 /* U+2846 BRAILLE PATTERN DOTS-237 */ #define XK_braille_dots_1237 0x1002847 /* U+2847 BRAILLE PATTERN DOTS-1237 */ #define XK_braille_dots_47 0x1002848 /* U+2848 BRAILLE PATTERN DOTS-47 */ #define XK_braille_dots_147 0x1002849 /* U+2849 BRAILLE PATTERN DOTS-147 */ #define XK_braille_dots_247 0x100284a /* U+284a BRAILLE PATTERN DOTS-247 */ #define XK_braille_dots_1247 0x100284b /* U+284b BRAILLE PATTERN DOTS-1247 */ #define XK_braille_dots_347 0x100284c /* U+284c BRAILLE PATTERN DOTS-347 */ #define XK_braille_dots_1347 0x100284d /* U+284d BRAILLE PATTERN DOTS-1347 */ #define XK_braille_dots_2347 0x100284e /* U+284e BRAILLE PATTERN DOTS-2347 */ #define XK_braille_dots_12347 0x100284f /* U+284f BRAILLE PATTERN DOTS-12347 */ #define XK_braille_dots_57 0x1002850 /* U+2850 BRAILLE PATTERN DOTS-57 */ #define XK_braille_dots_157 0x1002851 /* U+2851 BRAILLE PATTERN DOTS-157 */ #define XK_braille_dots_257 0x1002852 /* U+2852 BRAILLE PATTERN DOTS-257 */ #define XK_braille_dots_1257 0x1002853 /* U+2853 BRAILLE PATTERN DOTS-1257 */ #define XK_braille_dots_357 0x1002854 /* U+2854 BRAILLE PATTERN DOTS-357 */ #define XK_braille_dots_1357 0x1002855 /* U+2855 BRAILLE PATTERN DOTS-1357 */ #define XK_braille_dots_2357 0x1002856 /* U+2856 BRAILLE PATTERN DOTS-2357 */ #define XK_braille_dots_12357 0x1002857 /* U+2857 BRAILLE PATTERN DOTS-12357 */ #define XK_braille_dots_457 0x1002858 /* U+2858 BRAILLE PATTERN DOTS-457 */ #define XK_braille_dots_1457 0x1002859 /* U+2859 BRAILLE PATTERN DOTS-1457 */ #define XK_braille_dots_2457 0x100285a /* U+285a BRAILLE PATTERN DOTS-2457 */ #define XK_braille_dots_12457 0x100285b /* U+285b BRAILLE PATTERN DOTS-12457 */ #define XK_braille_dots_3457 0x100285c /* U+285c BRAILLE PATTERN DOTS-3457 */ #define XK_braille_dots_13457 0x100285d /* U+285d BRAILLE PATTERN DOTS-13457 */ #define XK_braille_dots_23457 0x100285e /* U+285e BRAILLE PATTERN DOTS-23457 */ #define XK_braille_dots_123457 0x100285f /* U+285f BRAILLE PATTERN DOTS-123457 */ #define XK_braille_dots_67 0x1002860 /* U+2860 BRAILLE PATTERN DOTS-67 */ #define XK_braille_dots_167 0x1002861 /* U+2861 BRAILLE PATTERN DOTS-167 */ #define XK_braille_dots_267 0x1002862 /* U+2862 BRAILLE PATTERN DOTS-267 */ #define XK_braille_dots_1267 0x1002863 /* U+2863 BRAILLE PATTERN DOTS-1267 */ #define XK_braille_dots_367 0x1002864 /* U+2864 BRAILLE PATTERN DOTS-367 */ #define XK_braille_dots_1367 0x1002865 /* U+2865 BRAILLE PATTERN DOTS-1367 */ #define XK_braille_dots_2367 0x1002866 /* U+2866 BRAILLE PATTERN DOTS-2367 */ #define XK_braille_dots_12367 0x1002867 /* U+2867 BRAILLE PATTERN DOTS-12367 */ #define XK_braille_dots_467 0x1002868 /* U+2868 BRAILLE PATTERN DOTS-467 */ #define XK_braille_dots_1467 0x1002869 /* U+2869 BRAILLE PATTERN DOTS-1467 */ #define XK_braille_dots_2467 0x100286a /* U+286a BRAILLE PATTERN DOTS-2467 */ #define XK_braille_dots_12467 0x100286b /* U+286b BRAILLE PATTERN DOTS-12467 */ #define XK_braille_dots_3467 0x100286c /* U+286c BRAILLE PATTERN DOTS-3467 */ #define XK_braille_dots_13467 0x100286d /* U+286d BRAILLE PATTERN DOTS-13467 */ #define XK_braille_dots_23467 0x100286e /* U+286e BRAILLE PATTERN DOTS-23467 */ #define XK_braille_dots_123467 0x100286f /* U+286f BRAILLE PATTERN DOTS-123467 */ #define XK_braille_dots_567 0x1002870 /* U+2870 BRAILLE PATTERN DOTS-567 */ #define XK_braille_dots_1567 0x1002871 /* U+2871 BRAILLE PATTERN DOTS-1567 */ #define XK_braille_dots_2567 0x1002872 /* U+2872 BRAILLE PATTERN DOTS-2567 */ #define XK_braille_dots_12567 0x1002873 /* U+2873 BRAILLE PATTERN DOTS-12567 */ #define XK_braille_dots_3567 0x1002874 /* U+2874 BRAILLE PATTERN DOTS-3567 */ #define XK_braille_dots_13567 0x1002875 /* U+2875 BRAILLE PATTERN DOTS-13567 */ #define XK_braille_dots_23567 0x1002876 /* U+2876 BRAILLE PATTERN DOTS-23567 */ #define XK_braille_dots_123567 0x1002877 /* U+2877 BRAILLE PATTERN DOTS-123567 */ #define XK_braille_dots_4567 0x1002878 /* U+2878 BRAILLE PATTERN DOTS-4567 */ #define XK_braille_dots_14567 0x1002879 /* U+2879 BRAILLE PATTERN DOTS-14567 */ #define XK_braille_dots_24567 0x100287a /* U+287a BRAILLE PATTERN DOTS-24567 */ #define XK_braille_dots_124567 0x100287b /* U+287b BRAILLE PATTERN DOTS-124567 */ #define XK_braille_dots_34567 0x100287c /* U+287c BRAILLE PATTERN DOTS-34567 */ #define XK_braille_dots_134567 0x100287d /* U+287d BRAILLE PATTERN DOTS-134567 */ #define XK_braille_dots_234567 0x100287e /* U+287e BRAILLE PATTERN DOTS-234567 */ #define XK_braille_dots_1234567 0x100287f /* U+287f BRAILLE PATTERN DOTS-1234567 */ #define XK_braille_dots_8 0x1002880 /* U+2880 BRAILLE PATTERN DOTS-8 */ #define XK_braille_dots_18 0x1002881 /* U+2881 BRAILLE PATTERN DOTS-18 */ #define XK_braille_dots_28 0x1002882 /* U+2882 BRAILLE PATTERN DOTS-28 */ #define XK_braille_dots_128 0x1002883 /* U+2883 BRAILLE PATTERN DOTS-128 */ #define XK_braille_dots_38 0x1002884 /* U+2884 BRAILLE PATTERN DOTS-38 */ #define XK_braille_dots_138 0x1002885 /* U+2885 BRAILLE PATTERN DOTS-138 */ #define XK_braille_dots_238 0x1002886 /* U+2886 BRAILLE PATTERN DOTS-238 */ #define XK_braille_dots_1238 0x1002887 /* U+2887 BRAILLE PATTERN DOTS-1238 */ #define XK_braille_dots_48 0x1002888 /* U+2888 BRAILLE PATTERN DOTS-48 */ #define XK_braille_dots_148 0x1002889 /* U+2889 BRAILLE PATTERN DOTS-148 */ #define XK_braille_dots_248 0x100288a /* U+288a BRAILLE PATTERN DOTS-248 */ #define XK_braille_dots_1248 0x100288b /* U+288b BRAILLE PATTERN DOTS-1248 */ #define XK_braille_dots_348 0x100288c /* U+288c BRAILLE PATTERN DOTS-348 */ #define XK_braille_dots_1348 0x100288d /* U+288d BRAILLE PATTERN DOTS-1348 */ #define XK_braille_dots_2348 0x100288e /* U+288e BRAILLE PATTERN DOTS-2348 */ #define XK_braille_dots_12348 0x100288f /* U+288f BRAILLE PATTERN DOTS-12348 */ #define XK_braille_dots_58 0x1002890 /* U+2890 BRAILLE PATTERN DOTS-58 */ #define XK_braille_dots_158 0x1002891 /* U+2891 BRAILLE PATTERN DOTS-158 */ #define XK_braille_dots_258 0x1002892 /* U+2892 BRAILLE PATTERN DOTS-258 */ #define XK_braille_dots_1258 0x1002893 /* U+2893 BRAILLE PATTERN DOTS-1258 */ #define XK_braille_dots_358 0x1002894 /* U+2894 BRAILLE PATTERN DOTS-358 */ #define XK_braille_dots_1358 0x1002895 /* U+2895 BRAILLE PATTERN DOTS-1358 */ #define XK_braille_dots_2358 0x1002896 /* U+2896 BRAILLE PATTERN DOTS-2358 */ #define XK_braille_dots_12358 0x1002897 /* U+2897 BRAILLE PATTERN DOTS-12358 */ #define XK_braille_dots_458 0x1002898 /* U+2898 BRAILLE PATTERN DOTS-458 */ #define XK_braille_dots_1458 0x1002899 /* U+2899 BRAILLE PATTERN DOTS-1458 */ #define XK_braille_dots_2458 0x100289a /* U+289a BRAILLE PATTERN DOTS-2458 */ #define XK_braille_dots_12458 0x100289b /* U+289b BRAILLE PATTERN DOTS-12458 */ #define XK_braille_dots_3458 0x100289c /* U+289c BRAILLE PATTERN DOTS-3458 */ #define XK_braille_dots_13458 0x100289d /* U+289d BRAILLE PATTERN DOTS-13458 */ #define XK_braille_dots_23458 0x100289e /* U+289e BRAILLE PATTERN DOTS-23458 */ #define XK_braille_dots_123458 0x100289f /* U+289f BRAILLE PATTERN DOTS-123458 */ #define XK_braille_dots_68 0x10028a0 /* U+28a0 BRAILLE PATTERN DOTS-68 */ #define XK_braille_dots_168 0x10028a1 /* U+28a1 BRAILLE PATTERN DOTS-168 */ #define XK_braille_dots_268 0x10028a2 /* U+28a2 BRAILLE PATTERN DOTS-268 */ #define XK_braille_dots_1268 0x10028a3 /* U+28a3 BRAILLE PATTERN DOTS-1268 */ #define XK_braille_dots_368 0x10028a4 /* U+28a4 BRAILLE PATTERN DOTS-368 */ #define XK_braille_dots_1368 0x10028a5 /* U+28a5 BRAILLE PATTERN DOTS-1368 */ #define XK_braille_dots_2368 0x10028a6 /* U+28a6 BRAILLE PATTERN DOTS-2368 */ #define XK_braille_dots_12368 0x10028a7 /* U+28a7 BRAILLE PATTERN DOTS-12368 */ #define XK_braille_dots_468 0x10028a8 /* U+28a8 BRAILLE PATTERN DOTS-468 */ #define XK_braille_dots_1468 0x10028a9 /* U+28a9 BRAILLE PATTERN DOTS-1468 */ #define XK_braille_dots_2468 0x10028aa /* U+28aa BRAILLE PATTERN DOTS-2468 */ #define XK_braille_dots_12468 0x10028ab /* U+28ab BRAILLE PATTERN DOTS-12468 */ #define XK_braille_dots_3468 0x10028ac /* U+28ac BRAILLE PATTERN DOTS-3468 */ #define XK_braille_dots_13468 0x10028ad /* U+28ad BRAILLE PATTERN DOTS-13468 */ #define XK_braille_dots_23468 0x10028ae /* U+28ae BRAILLE PATTERN DOTS-23468 */ #define XK_braille_dots_123468 0x10028af /* U+28af BRAILLE PATTERN DOTS-123468 */ #define XK_braille_dots_568 0x10028b0 /* U+28b0 BRAILLE PATTERN DOTS-568 */ #define XK_braille_dots_1568 0x10028b1 /* U+28b1 BRAILLE PATTERN DOTS-1568 */ #define XK_braille_dots_2568 0x10028b2 /* U+28b2 BRAILLE PATTERN DOTS-2568 */ #define XK_braille_dots_12568 0x10028b3 /* U+28b3 BRAILLE PATTERN DOTS-12568 */ #define XK_braille_dots_3568 0x10028b4 /* U+28b4 BRAILLE PATTERN DOTS-3568 */ #define XK_braille_dots_13568 0x10028b5 /* U+28b5 BRAILLE PATTERN DOTS-13568 */ #define XK_braille_dots_23568 0x10028b6 /* U+28b6 BRAILLE PATTERN DOTS-23568 */ #define XK_braille_dots_123568 0x10028b7 /* U+28b7 BRAILLE PATTERN DOTS-123568 */ #define XK_braille_dots_4568 0x10028b8 /* U+28b8 BRAILLE PATTERN DOTS-4568 */ #define XK_braille_dots_14568 0x10028b9 /* U+28b9 BRAILLE PATTERN DOTS-14568 */ #define XK_braille_dots_24568 0x10028ba /* U+28ba BRAILLE PATTERN DOTS-24568 */ #define XK_braille_dots_124568 0x10028bb /* U+28bb BRAILLE PATTERN DOTS-124568 */ #define XK_braille_dots_34568 0x10028bc /* U+28bc BRAILLE PATTERN DOTS-34568 */ #define XK_braille_dots_134568 0x10028bd /* U+28bd BRAILLE PATTERN DOTS-134568 */ #define XK_braille_dots_234568 0x10028be /* U+28be BRAILLE PATTERN DOTS-234568 */ #define XK_braille_dots_1234568 0x10028bf /* U+28bf BRAILLE PATTERN DOTS-1234568 */ #define XK_braille_dots_78 0x10028c0 /* U+28c0 BRAILLE PATTERN DOTS-78 */ #define XK_braille_dots_178 0x10028c1 /* U+28c1 BRAILLE PATTERN DOTS-178 */ #define XK_braille_dots_278 0x10028c2 /* U+28c2 BRAILLE PATTERN DOTS-278 */ #define XK_braille_dots_1278 0x10028c3 /* U+28c3 BRAILLE PATTERN DOTS-1278 */ #define XK_braille_dots_378 0x10028c4 /* U+28c4 BRAILLE PATTERN DOTS-378 */ #define XK_braille_dots_1378 0x10028c5 /* U+28c5 BRAILLE PATTERN DOTS-1378 */ #define XK_braille_dots_2378 0x10028c6 /* U+28c6 BRAILLE PATTERN DOTS-2378 */ #define XK_braille_dots_12378 0x10028c7 /* U+28c7 BRAILLE PATTERN DOTS-12378 */ #define XK_braille_dots_478 0x10028c8 /* U+28c8 BRAILLE PATTERN DOTS-478 */ #define XK_braille_dots_1478 0x10028c9 /* U+28c9 BRAILLE PATTERN DOTS-1478 */ #define XK_braille_dots_2478 0x10028ca /* U+28ca BRAILLE PATTERN DOTS-2478 */ #define XK_braille_dots_12478 0x10028cb /* U+28cb BRAILLE PATTERN DOTS-12478 */ #define XK_braille_dots_3478 0x10028cc /* U+28cc BRAILLE PATTERN DOTS-3478 */ #define XK_braille_dots_13478 0x10028cd /* U+28cd BRAILLE PATTERN DOTS-13478 */ #define XK_braille_dots_23478 0x10028ce /* U+28ce BRAILLE PATTERN DOTS-23478 */ #define XK_braille_dots_123478 0x10028cf /* U+28cf BRAILLE PATTERN DOTS-123478 */ #define XK_braille_dots_578 0x10028d0 /* U+28d0 BRAILLE PATTERN DOTS-578 */ #define XK_braille_dots_1578 0x10028d1 /* U+28d1 BRAILLE PATTERN DOTS-1578 */ #define XK_braille_dots_2578 0x10028d2 /* U+28d2 BRAILLE PATTERN DOTS-2578 */ #define XK_braille_dots_12578 0x10028d3 /* U+28d3 BRAILLE PATTERN DOTS-12578 */ #define XK_braille_dots_3578 0x10028d4 /* U+28d4 BRAILLE PATTERN DOTS-3578 */ #define XK_braille_dots_13578 0x10028d5 /* U+28d5 BRAILLE PATTERN DOTS-13578 */ #define XK_braille_dots_23578 0x10028d6 /* U+28d6 BRAILLE PATTERN DOTS-23578 */ #define XK_braille_dots_123578 0x10028d7 /* U+28d7 BRAILLE PATTERN DOTS-123578 */ #define XK_braille_dots_4578 0x10028d8 /* U+28d8 BRAILLE PATTERN DOTS-4578 */ #define XK_braille_dots_14578 0x10028d9 /* U+28d9 BRAILLE PATTERN DOTS-14578 */ #define XK_braille_dots_24578 0x10028da /* U+28da BRAILLE PATTERN DOTS-24578 */ #define XK_braille_dots_124578 0x10028db /* U+28db BRAILLE PATTERN DOTS-124578 */ #define XK_braille_dots_34578 0x10028dc /* U+28dc BRAILLE PATTERN DOTS-34578 */ #define XK_braille_dots_134578 0x10028dd /* U+28dd BRAILLE PATTERN DOTS-134578 */ #define XK_braille_dots_234578 0x10028de /* U+28de BRAILLE PATTERN DOTS-234578 */ #define XK_braille_dots_1234578 0x10028df /* U+28df BRAILLE PATTERN DOTS-1234578 */ #define XK_braille_dots_678 0x10028e0 /* U+28e0 BRAILLE PATTERN DOTS-678 */ #define XK_braille_dots_1678 0x10028e1 /* U+28e1 BRAILLE PATTERN DOTS-1678 */ #define XK_braille_dots_2678 0x10028e2 /* U+28e2 BRAILLE PATTERN DOTS-2678 */ #define XK_braille_dots_12678 0x10028e3 /* U+28e3 BRAILLE PATTERN DOTS-12678 */ #define XK_braille_dots_3678 0x10028e4 /* U+28e4 BRAILLE PATTERN DOTS-3678 */ #define XK_braille_dots_13678 0x10028e5 /* U+28e5 BRAILLE PATTERN DOTS-13678 */ #define XK_braille_dots_23678 0x10028e6 /* U+28e6 BRAILLE PATTERN DOTS-23678 */ #define XK_braille_dots_123678 0x10028e7 /* U+28e7 BRAILLE PATTERN DOTS-123678 */ #define XK_braille_dots_4678 0x10028e8 /* U+28e8 BRAILLE PATTERN DOTS-4678 */ #define XK_braille_dots_14678 0x10028e9 /* U+28e9 BRAILLE PATTERN DOTS-14678 */ #define XK_braille_dots_24678 0x10028ea /* U+28ea BRAILLE PATTERN DOTS-24678 */ #define XK_braille_dots_124678 0x10028eb /* U+28eb BRAILLE PATTERN DOTS-124678 */ #define XK_braille_dots_34678 0x10028ec /* U+28ec BRAILLE PATTERN DOTS-34678 */ #define XK_braille_dots_134678 0x10028ed /* U+28ed BRAILLE PATTERN DOTS-134678 */ #define XK_braille_dots_234678 0x10028ee /* U+28ee BRAILLE PATTERN DOTS-234678 */ #define XK_braille_dots_1234678 0x10028ef /* U+28ef BRAILLE PATTERN DOTS-1234678 */ #define XK_braille_dots_5678 0x10028f0 /* U+28f0 BRAILLE PATTERN DOTS-5678 */ #define XK_braille_dots_15678 0x10028f1 /* U+28f1 BRAILLE PATTERN DOTS-15678 */ #define XK_braille_dots_25678 0x10028f2 /* U+28f2 BRAILLE PATTERN DOTS-25678 */ #define XK_braille_dots_125678 0x10028f3 /* U+28f3 BRAILLE PATTERN DOTS-125678 */ #define XK_braille_dots_35678 0x10028f4 /* U+28f4 BRAILLE PATTERN DOTS-35678 */ #define XK_braille_dots_135678 0x10028f5 /* U+28f5 BRAILLE PATTERN DOTS-135678 */ #define XK_braille_dots_235678 0x10028f6 /* U+28f6 BRAILLE PATTERN DOTS-235678 */ #define XK_braille_dots_1235678 0x10028f7 /* U+28f7 BRAILLE PATTERN DOTS-1235678 */ #define XK_braille_dots_45678 0x10028f8 /* U+28f8 BRAILLE PATTERN DOTS-45678 */ #define XK_braille_dots_145678 0x10028f9 /* U+28f9 BRAILLE PATTERN DOTS-145678 */ #define XK_braille_dots_245678 0x10028fa /* U+28fa BRAILLE PATTERN DOTS-245678 */ #define XK_braille_dots_1245678 0x10028fb /* U+28fb BRAILLE PATTERN DOTS-1245678 */ #define XK_braille_dots_345678 0x10028fc /* U+28fc BRAILLE PATTERN DOTS-345678 */ #define XK_braille_dots_1345678 0x10028fd /* U+28fd BRAILLE PATTERN DOTS-1345678 */ #define XK_braille_dots_2345678 0x10028fe /* U+28fe BRAILLE PATTERN DOTS-2345678 */ #define XK_braille_dots_12345678 0x10028ff /* U+28ff BRAILLE PATTERN DOTS-12345678 */ #endif /* XK_BRAILLE */ /* * Sinhala (http://unicode.org/charts/PDF/U0D80.pdf) * http://www.nongnu.org/sinhala/doc/transliteration/sinhala-transliteration_6.html */ #ifdef XK_SINHALA #define XK_Sinh_ng 0x1000d82 /* U+0D82 SINHALA ANUSVARAYA */ #define XK_Sinh_h2 0x1000d83 /* U+0D83 SINHALA VISARGAYA */ #define XK_Sinh_a 0x1000d85 /* U+0D85 SINHALA AYANNA */ #define XK_Sinh_aa 0x1000d86 /* U+0D86 SINHALA AAYANNA */ #define XK_Sinh_ae 0x1000d87 /* U+0D87 SINHALA AEYANNA */ #define XK_Sinh_aee 0x1000d88 /* U+0D88 SINHALA AEEYANNA */ #define XK_Sinh_i 0x1000d89 /* U+0D89 SINHALA IYANNA */ #define XK_Sinh_ii 0x1000d8a /* U+0D8A SINHALA IIYANNA */ #define XK_Sinh_u 0x1000d8b /* U+0D8B SINHALA UYANNA */ #define XK_Sinh_uu 0x1000d8c /* U+0D8C SINHALA UUYANNA */ #define XK_Sinh_ri 0x1000d8d /* U+0D8D SINHALA IRUYANNA */ #define XK_Sinh_rii 0x1000d8e /* U+0D8E SINHALA IRUUYANNA */ #define XK_Sinh_lu 0x1000d8f /* U+0D8F SINHALA ILUYANNA */ #define XK_Sinh_luu 0x1000d90 /* U+0D90 SINHALA ILUUYANNA */ #define XK_Sinh_e 0x1000d91 /* U+0D91 SINHALA EYANNA */ #define XK_Sinh_ee 0x1000d92 /* U+0D92 SINHALA EEYANNA */ #define XK_Sinh_ai 0x1000d93 /* U+0D93 SINHALA AIYANNA */ #define XK_Sinh_o 0x1000d94 /* U+0D94 SINHALA OYANNA */ #define XK_Sinh_oo 0x1000d95 /* U+0D95 SINHALA OOYANNA */ #define XK_Sinh_au 0x1000d96 /* U+0D96 SINHALA AUYANNA */ #define XK_Sinh_ka 0x1000d9a /* U+0D9A SINHALA KAYANNA */ #define XK_Sinh_kha 0x1000d9b /* U+0D9B SINHALA MAHA. KAYANNA */ #define XK_Sinh_ga 0x1000d9c /* U+0D9C SINHALA GAYANNA */ #define XK_Sinh_gha 0x1000d9d /* U+0D9D SINHALA MAHA. GAYANNA */ #define XK_Sinh_ng2 0x1000d9e /* U+0D9E SINHALA KANTAJA NAASIKYAYA */ #define XK_Sinh_nga 0x1000d9f /* U+0D9F SINHALA SANYAKA GAYANNA */ #define XK_Sinh_ca 0x1000da0 /* U+0DA0 SINHALA CAYANNA */ #define XK_Sinh_cha 0x1000da1 /* U+0DA1 SINHALA MAHA. CAYANNA */ #define XK_Sinh_ja 0x1000da2 /* U+0DA2 SINHALA JAYANNA */ #define XK_Sinh_jha 0x1000da3 /* U+0DA3 SINHALA MAHA. JAYANNA */ #define XK_Sinh_nya 0x1000da4 /* U+0DA4 SINHALA TAALUJA NAASIKYAYA */ #define XK_Sinh_jnya 0x1000da5 /* U+0DA5 SINHALA TAALUJA SANYOOGA NAASIKYAYA */ #define XK_Sinh_nja 0x1000da6 /* U+0DA6 SINHALA SANYAKA JAYANNA */ #define XK_Sinh_tta 0x1000da7 /* U+0DA7 SINHALA TTAYANNA */ #define XK_Sinh_ttha 0x1000da8 /* U+0DA8 SINHALA MAHA. TTAYANNA */ #define XK_Sinh_dda 0x1000da9 /* U+0DA9 SINHALA DDAYANNA */ #define XK_Sinh_ddha 0x1000daa /* U+0DAA SINHALA MAHA. DDAYANNA */ #define XK_Sinh_nna 0x1000dab /* U+0DAB SINHALA MUURDHAJA NAYANNA */ #define XK_Sinh_ndda 0x1000dac /* U+0DAC SINHALA SANYAKA DDAYANNA */ #define XK_Sinh_tha 0x1000dad /* U+0DAD SINHALA TAYANNA */ #define XK_Sinh_thha 0x1000dae /* U+0DAE SINHALA MAHA. TAYANNA */ #define XK_Sinh_dha 0x1000daf /* U+0DAF SINHALA DAYANNA */ #define XK_Sinh_dhha 0x1000db0 /* U+0DB0 SINHALA MAHA. DAYANNA */ #define XK_Sinh_na 0x1000db1 /* U+0DB1 SINHALA DANTAJA NAYANNA */ #define XK_Sinh_ndha 0x1000db3 /* U+0DB3 SINHALA SANYAKA DAYANNA */ #define XK_Sinh_pa 0x1000db4 /* U+0DB4 SINHALA PAYANNA */ #define XK_Sinh_pha 0x1000db5 /* U+0DB5 SINHALA MAHA. PAYANNA */ #define XK_Sinh_ba 0x1000db6 /* U+0DB6 SINHALA BAYANNA */ #define XK_Sinh_bha 0x1000db7 /* U+0DB7 SINHALA MAHA. BAYANNA */ #define XK_Sinh_ma 0x1000db8 /* U+0DB8 SINHALA MAYANNA */ #define XK_Sinh_mba 0x1000db9 /* U+0DB9 SINHALA AMBA BAYANNA */ #define XK_Sinh_ya 0x1000dba /* U+0DBA SINHALA YAYANNA */ #define XK_Sinh_ra 0x1000dbb /* U+0DBB SINHALA RAYANNA */ #define XK_Sinh_la 0x1000dbd /* U+0DBD SINHALA DANTAJA LAYANNA */ #define XK_Sinh_va 0x1000dc0 /* U+0DC0 SINHALA VAYANNA */ #define XK_Sinh_sha 0x1000dc1 /* U+0DC1 SINHALA TAALUJA SAYANNA */ #define XK_Sinh_ssha 0x1000dc2 /* U+0DC2 SINHALA MUURDHAJA SAYANNA */ #define XK_Sinh_sa 0x1000dc3 /* U+0DC3 SINHALA DANTAJA SAYANNA */ #define XK_Sinh_ha 0x1000dc4 /* U+0DC4 SINHALA HAYANNA */ #define XK_Sinh_lla 0x1000dc5 /* U+0DC5 SINHALA MUURDHAJA LAYANNA */ #define XK_Sinh_fa 0x1000dc6 /* U+0DC6 SINHALA FAYANNA */ #define XK_Sinh_al 0x1000dca /* U+0DCA SINHALA AL-LAKUNA */ #define XK_Sinh_aa2 0x1000dcf /* U+0DCF SINHALA AELA-PILLA */ #define XK_Sinh_ae2 0x1000dd0 /* U+0DD0 SINHALA AEDA-PILLA */ #define XK_Sinh_aee2 0x1000dd1 /* U+0DD1 SINHALA DIGA AEDA-PILLA */ #define XK_Sinh_i2 0x1000dd2 /* U+0DD2 SINHALA IS-PILLA */ #define XK_Sinh_ii2 0x1000dd3 /* U+0DD3 SINHALA DIGA IS-PILLA */ #define XK_Sinh_u2 0x1000dd4 /* U+0DD4 SINHALA PAA-PILLA */ #define XK_Sinh_uu2 0x1000dd6 /* U+0DD6 SINHALA DIGA PAA-PILLA */ #define XK_Sinh_ru2 0x1000dd8 /* U+0DD8 SINHALA GAETTA-PILLA */ #define XK_Sinh_e2 0x1000dd9 /* U+0DD9 SINHALA KOMBUVA */ #define XK_Sinh_ee2 0x1000dda /* U+0DDA SINHALA DIGA KOMBUVA */ #define XK_Sinh_ai2 0x1000ddb /* U+0DDB SINHALA KOMBU DEKA */ #define XK_Sinh_o2 0x1000ddc /* U+0DDC SINHALA KOMBUVA HAA AELA-PILLA*/ #define XK_Sinh_oo2 0x1000ddd /* U+0DDD SINHALA KOMBUVA HAA DIGA AELA-PILLA*/ #define XK_Sinh_au2 0x1000dde /* U+0DDE SINHALA KOMBUVA HAA GAYANUKITTA */ #define XK_Sinh_lu2 0x1000ddf /* U+0DDF SINHALA GAYANUKITTA */ #define XK_Sinh_ruu2 0x1000df2 /* U+0DF2 SINHALA DIGA GAETTA-PILLA */ #define XK_Sinh_luu2 0x1000df3 /* U+0DF3 SINHALA DIGA GAYANUKITTA */ #define XK_Sinh_kunddaliya 0x1000df4 /* U+0DF4 SINHALA KUNDDALIYA */ #endif /* XK_SINHALA */ 070701000a5ca4000081a40000000000000000000000014f867a030000179c0000010000010007ffffffffffffffff0000002600000000root/usr/local/include/X11/HPkeysym.h/* Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts, All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the names of Hewlett Packard or Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. HEWLETT-PACKARD MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS SOFWARE, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Hewlett-Packard shall not be liable for errors contained herein or direct, indirect, special, incidental or consequential damages in connection with the furnishing, performance, or use of this material. */ #ifndef _HPKEYSYM_H #define _HPKEYSYM #define hpXK_ClearLine 0x1000FF6F #define hpXK_InsertLine 0x1000FF70 #define hpXK_DeleteLine 0x1000FF71 #define hpXK_InsertChar 0x1000FF72 #define hpXK_DeleteChar 0x1000FF73 #define hpXK_BackTab 0x1000FF74 #define hpXK_KP_BackTab 0x1000FF75 #define hpXK_Modelock1 0x1000FF48 #define hpXK_Modelock2 0x1000FF49 #define hpXK_Reset 0x1000FF6C #define hpXK_System 0x1000FF6D #define hpXK_User 0x1000FF6E #define hpXK_mute_acute 0x100000A8 #define hpXK_mute_grave 0x100000A9 #define hpXK_mute_asciicircum 0x100000AA #define hpXK_mute_diaeresis 0x100000AB #define hpXK_mute_asciitilde 0x100000AC #define hpXK_lira 0x100000AF #define hpXK_guilder 0x100000BE #define hpXK_Ydiaeresis 0x100000EE #define hpXK_IO 0x100000EE #define hpXK_longminus 0x100000F6 #define hpXK_block 0x100000FC #ifndef _OSF_Keysyms #define _OSF_Keysyms #define osfXK_Copy 0x1004FF02 #define osfXK_Cut 0x1004FF03 #define osfXK_Paste 0x1004FF04 #define osfXK_BackTab 0x1004FF07 #define osfXK_BackSpace 0x1004FF08 #define osfXK_Clear 0x1004FF0B #define osfXK_Escape 0x1004FF1B #define osfXK_AddMode 0x1004FF31 #define osfXK_PrimaryPaste 0x1004FF32 #define osfXK_QuickPaste 0x1004FF33 #define osfXK_PageLeft 0x1004FF40 #define osfXK_PageUp 0x1004FF41 #define osfXK_PageDown 0x1004FF42 #define osfXK_PageRight 0x1004FF43 #define osfXK_Activate 0x1004FF44 #define osfXK_MenuBar 0x1004FF45 #define osfXK_Left 0x1004FF51 #define osfXK_Up 0x1004FF52 #define osfXK_Right 0x1004FF53 #define osfXK_Down 0x1004FF54 #define osfXK_EndLine 0x1004FF57 #define osfXK_BeginLine 0x1004FF58 #define osfXK_EndData 0x1004FF59 #define osfXK_BeginData 0x1004FF5A #define osfXK_PrevMenu 0x1004FF5B #define osfXK_NextMenu 0x1004FF5C #define osfXK_PrevField 0x1004FF5D #define osfXK_NextField 0x1004FF5E #define osfXK_Select 0x1004FF60 #define osfXK_Insert 0x1004FF63 #define osfXK_Undo 0x1004FF65 #define osfXK_Menu 0x1004FF67 #define osfXK_Cancel 0x1004FF69 #define osfXK_Help 0x1004FF6A #define osfXK_SelectAll 0x1004FF71 #define osfXK_DeselectAll 0x1004FF72 #define osfXK_Reselect 0x1004FF73 #define osfXK_Extend 0x1004FF74 #define osfXK_Restore 0x1004FF78 #define osfXK_Delete 0x1004FFFF #endif /* _OSF_Keysyms */ /************************************************************** * The use of the following macros is deprecated. * They are listed below only for backwards compatibility. */ #define XK_Reset 0x1000FF6C #define XK_System 0x1000FF6D #define XK_User 0x1000FF6E #define XK_ClearLine 0x1000FF6F #define XK_InsertLine 0x1000FF70 #define XK_DeleteLine 0x1000FF71 #define XK_InsertChar 0x1000FF72 #define XK_DeleteChar 0x1000FF73 #define XK_BackTab 0x1000FF74 #define XK_KP_BackTab 0x1000FF75 #define XK_Ext16bit_L 0x1000FF76 #define XK_Ext16bit_R 0x1000FF77 #define XK_mute_acute 0x100000a8 #define XK_mute_grave 0x100000a9 #define XK_mute_asciicircum 0x100000aa #define XK_mute_diaeresis 0x100000ab #define XK_mute_asciitilde 0x100000ac #define XK_lira 0x100000af #define XK_guilder 0x100000be #ifndef XK_Ydiaeresis #define XK_Ydiaeresis 0x100000ee #endif #define XK_IO 0x100000ee #define XK_longminus 0x100000f6 #define XK_block 0x100000fc #endif /* _HPKEYSYM_H */ 070701000a5ca2000081a40000000000000000000000014f867a0300000b040000010000010007ffffffffffffffff0000002700000000root/usr/local/include/X11/DECkeysym.h/*********************************************************** Copyright 1988, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1988 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* * DEC private keysyms * (29th bit set) */ /* two-key compose sequence initiators, chosen to map to Latin1 characters */ #define DXK_ring_accent 0x1000FEB0 #define DXK_circumflex_accent 0x1000FE5E #define DXK_cedilla_accent 0x1000FE2C #define DXK_acute_accent 0x1000FE27 #define DXK_grave_accent 0x1000FE60 #define DXK_tilde 0x1000FE7E #define DXK_diaeresis 0x1000FE22 /* special keysym for LK2** "Remove" key on editing keypad */ #define DXK_Remove 0x1000FF00 /* Remove */ 070701000a5caf000081a40000000000000000000000014f867a03000018c20000010000010007ffffffffffffffff0000002100000000root/usr/local/include/X11/Xmd.h/*********************************************************** Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ #ifndef XMD_H # define XMD_H 1 /* * Xmd.h: MACHINE DEPENDENT DECLARATIONS. */ /* * Special per-machine configuration flags. */ # if defined(__sun) && defined(__SVR4) # include /* Solaris: defines _LP64 if necessary */ # endif # if defined (_LP64) || defined(__LP64__) || \ defined(__alpha) || defined(__alpha__) || \ defined(__ia64__) || defined(ia64) || \ defined(__sparc64__) || \ defined(__s390x__) || \ defined(__amd64__) || defined(amd64) || \ defined(__powerpc64__) # define LONG64 /* 32/64-bit architecture */ # endif /* * Stuff to handle large architecture machines; the constants were generated * on a 32-bit machine and must correspond to the protocol. */ # ifdef WORD64 # define MUSTCOPY # endif /* WORD64 */ /* * Definition of macro used to set constants for size of network structures; * machines with preprocessors that can't handle all of the sz_ symbols * can define this macro to be sizeof(x) if and only if their compiler doesn't * pad out structures (esp. the xTextElt structure which contains only two * one-byte fields). Network structures should always define sz_symbols. * * The sz_ prefix is used instead of something more descriptive so that the * symbols are no more than 32 characters long (which causes problems for some * compilers and preprocessors). * * The extra indirection is to get macro arguments to expand correctly before * the concatenation, rather than afterward. */ # define _SIZEOF(x) sz_##x # define SIZEOF(x) _SIZEOF(x) /* * Bitfield suffixes for the protocol structure elements, if you * need them. Note that bitfields are not guaranteed to be signed * (or even unsigned) according to ANSI C. */ # ifdef WORD64 typedef long INT64; typedef unsigned long CARD64; # define B32 :32 # define B16 :16 # ifdef UNSIGNEDBITFIELDS typedef unsigned int INT32; typedef unsigned int INT16; # else typedef signed int INT32; typedef signed int INT16; # endif # else # define B32 # define B16 # ifdef LONG64 typedef long INT64; typedef int INT32; # else typedef long INT32; # endif typedef short INT16; # endif typedef signed char INT8; # ifdef LONG64 typedef unsigned long CARD64; typedef unsigned int CARD32; # else typedef unsigned long CARD32; # endif # if !defined(WORD64) && !defined(LONG64) typedef unsigned long long CARD64; # endif typedef unsigned short CARD16; typedef unsigned char CARD8; typedef CARD32 BITS32; typedef CARD16 BITS16; typedef CARD8 BYTE; typedef CARD8 BOOL; /* * definitions for sign-extending bitfields on 64-bit architectures */ # if defined(WORD64) && defined(UNSIGNEDBITFIELDS) # define cvtINT8toInt(val) (((val) & 0x00000080) ? ((val) | 0xffffffffffffff00) : (val)) # define cvtINT16toInt(val) (((val) & 0x00008000) ? ((val) | 0xffffffffffff0000) : (val)) # define cvtINT32toInt(val) (((val) & 0x80000000) ? ((val) | 0xffffffff00000000) : (val)) # define cvtINT8toShort(val) cvtINT8toInt(val) # define cvtINT16toShort(val) cvtINT16toInt(val) # define cvtINT32toShort(val) cvtINT32toInt(val) # define cvtINT8toLong(val) cvtINT8toInt(val) # define cvtINT16toLong(val) cvtINT16toInt(val) # define cvtINT32toLong(val) cvtINT32toInt(val) # else # define cvtINT8toInt(val) (val) # define cvtINT16toInt(val) (val) # define cvtINT32toInt(val) (val) # define cvtINT8toShort(val) (val) # define cvtINT16toShort(val) (val) # define cvtINT32toShort(val) (val) # define cvtINT8toLong(val) (val) # define cvtINT16toLong(val) (val) # define cvtINT32toLong(val) (val) # endif /* WORD64 and UNSIGNEDBITFIELDS */ # ifdef MUSTCOPY /* * This macro must not cast or else pointers will get aligned and be wrong */ # define NEXTPTR(p,t) (((char *) p) + SIZEOF(t)) # else /* else not MUSTCOPY, this is used for 32-bit machines */ /* * this version should leave result of type (t *), but that should only be * used when not in MUSTCOPY */ # define NEXTPTR(p,t) (((t *)(p)) + 1) # endif /* MUSTCOPY - used machines whose C structs don't line up with proto */ #endif /* XMD_H */ 070701000a5cb5000081a40000000000000000000000014f867a0300000af50000010000010007ffffffffffffffff0000002700000000root/usr/local/include/X11/Xprotostr.h#ifndef XPROTOSTRUCTS_H #define XPROTOSTRUCTS_H /*********************************************************** Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ #include /* Used by PolySegment */ typedef struct _xSegment { INT16 x1 B16, y1 B16, x2 B16, y2 B16; } xSegment; /* POINT */ typedef struct _xPoint { INT16 x B16, y B16; } xPoint; typedef struct _xRectangle { INT16 x B16, y B16; CARD16 width B16, height B16; } xRectangle; /* ARC */ typedef struct _xArc { INT16 x B16, y B16; CARD16 width B16, height B16; INT16 angle1 B16, angle2 B16; } xArc; #endif /* XPROTOSTRUCTS_H */ 070701000a5cad000081a40000000000000000000000014f867a03000017650000010000010007ffffffffffffffff0000002800000000root/usr/local/include/X11/Xfuncproto.h/* Xfuncproto.h. Generated from Xfuncproto.h.in by configure. */ /* * Copyright 1989, 1991, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * */ /* Definitions to make function prototypes manageable */ #ifndef _XFUNCPROTO_H_ #define _XFUNCPROTO_H_ #ifndef NeedFunctionPrototypes #define NeedFunctionPrototypes 1 #endif /* NeedFunctionPrototypes */ #ifndef NeedVarargsPrototypes #define NeedVarargsPrototypes 1 #endif /* NeedVarargsPrototypes */ #if NeedFunctionPrototypes #ifndef NeedNestedPrototypes #define NeedNestedPrototypes 1 #endif /* NeedNestedPrototypes */ #ifndef _Xconst #define _Xconst const #endif /* _Xconst */ /* Function prototype configuration (see configure for more info) */ #ifndef NARROWPROTO /* #undef NARROWPROTO */ #endif #ifndef FUNCPROTO #define FUNCPROTO 15 #endif #ifndef NeedWidePrototypes #ifdef NARROWPROTO #define NeedWidePrototypes 0 #else #define NeedWidePrototypes 1 /* default to make interropt. easier */ #endif #endif /* NeedWidePrototypes */ #endif /* NeedFunctionPrototypes */ #ifndef _XFUNCPROTOBEGIN #if defined(__cplusplus) || defined(c_plusplus) /* for C++ V2.0 */ #define _XFUNCPROTOBEGIN extern "C" { /* do not leave open across includes */ #define _XFUNCPROTOEND } #else #define _XFUNCPROTOBEGIN #define _XFUNCPROTOEND #endif #endif /* _XFUNCPROTOBEGIN */ /* Added in X11R6.9, so available in any version of modular xproto */ #if defined(__GNUC__) && (__GNUC__ >= 4) # define _X_SENTINEL(x) __attribute__ ((__sentinel__(x))) #else # define _X_SENTINEL(x) #endif /* GNUC >= 4 */ /* Added in X11R6.9, so available in any version of modular xproto */ #if defined(__GNUC__) && (__GNUC__ >= 4) && !defined(__CYGWIN__) # define _X_EXPORT __attribute__((visibility("default"))) # define _X_HIDDEN __attribute__((visibility("hidden"))) # define _X_INTERNAL __attribute__((visibility("internal"))) #elif defined(__SUNPRO_C) && (__SUNPRO_C >= 0x550) # define _X_EXPORT __global # define _X_HIDDEN __hidden # define _X_INTERNAL __hidden #else /* not gcc >= 4 and not Sun Studio >= 8 */ # define _X_EXPORT # define _X_HIDDEN # define _X_INTERNAL #endif /* GNUC >= 4 */ /* requires xproto >= 7.0.9 */ #if defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 303) # define _X_LIKELY(x) __builtin_expect(!!(x), 1) # define _X_UNLIKELY(x) __builtin_expect(!!(x), 0) #else /* not gcc >= 3.3 */ # define _X_LIKELY(x) (x) # define _X_UNLIKELY(x) (x) #endif /* Added in X11R6.9, so available in any version of modular xproto */ #if defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 301) # define _X_DEPRECATED __attribute__((deprecated)) #else /* not gcc >= 3.1 */ # define _X_DEPRECATED #endif /* requires xproto >= 7.0.17 */ #if (defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 205)) \ || (defined(__SUNPRO_C) && (__SUNPRO_C >= 0x590)) # define _X_NORETURN __attribute((noreturn)) #else # define _X_NORETURN #endif /* GNUC */ /* Added in X11R6.9, so available in any version of modular xproto */ #if defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 203) # define _X_ATTRIBUTE_PRINTF(x,y) __attribute__((__format__(__printf__,x,y))) #else /* not gcc >= 2.3 */ # define _X_ATTRIBUTE_PRINTF(x,y) #endif /* requires xproto >= 7.0.22 - since this uses either gcc or C99 variable argument macros, must be only used inside #ifdef _X_NONNULL guards, as many legacy X clients are compiled in C89 mode still. */ #if defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 303) #define _X_NONNULL(args...) __attribute__((nonnull(args))) #elif defined(__STDC_VERSION__) && (__STDC_VERSION__ - 0 >= 199901L) /* C99 */ #define _X_NONNULL(...) /* */ #endif /* requires xproto >= 7.0.22 */ #if defined(__GNUC__) && ((__GNUC__ * 100 + __GNUC_MINOR__) >= 205) #define _X_UNUSED __attribute__((__unused__)) #else #define _X_UNUSED /* */ #endif /* C99 keyword "inline" or equivalent extensions in pre-C99 compilers */ /* requires xproto >= 7.0.9 (introduced in 7.0.8 but didn't support all compilers until 7.0.9) */ #if defined(inline) /* assume autoconf set it correctly */ || \ (defined(__STDC_VERSION__) && (__STDC_VERSION__ - 0 >= 199901L)) /* C99 */ || \ (defined(__SUNPRO_C) && (__SUNPRO_C >= 0x550)) # define _X_INLINE inline #elif defined(__GNUC__) && !defined(__STRICT_ANSI__) /* gcc w/C89+extensions */ # define _X_INLINE __inline__ #else # define _X_INLINE #endif /* C99 keyword "restrict" or equivalent extensions in pre-C99 compilers */ /* requires xproto >= 7.0.21 */ #ifndef _X_RESTRICT_KYWD # if defined(restrict) /* assume autoconf set it correctly */ || \ (defined(__STDC_VERSION__) && (__STDC_VERSION__ - 0 >= 199901L)) /* C99 */ # define _X_RESTRICT_KYWD restrict # elif defined(__GNUC__) && !defined(__STRICT_ANSI__) /* gcc w/C89+extensions */ # define _X_RESTRICT_KYWD __restrict__ # else # define _X_RESTRICT_KYWD # endif #endif #endif /* _XFUNCPROTO_H_ */ 070701000a5ca5000081a40000000000000000000000014f867a0300000fb60000010000010007ffffffffffffffff0000002700000000root/usr/local/include/X11/Sunkeysym.h/* * Copyright (c) 1991, Oracle and/or its affiliates. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /************************************************************ Copyright 1991, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. ***********************************************************/ /* * Floating Accent */ #define SunXK_FA_Grave 0x1005FF00 #define SunXK_FA_Circum 0x1005FF01 #define SunXK_FA_Tilde 0x1005FF02 #define SunXK_FA_Acute 0x1005FF03 #define SunXK_FA_Diaeresis 0x1005FF04 #define SunXK_FA_Cedilla 0x1005FF05 /* * Miscellaneous Functions */ #define SunXK_F36 0x1005FF10 /* Labeled F11 */ #define SunXK_F37 0x1005FF11 /* Labeled F12 */ #define SunXK_Sys_Req 0x1005FF60 #define SunXK_Print_Screen 0x0000FF61 /* Same as XK_Print */ /* * International & Multi-Key Character Composition */ #define SunXK_Compose 0x0000FF20 /* Same as XK_Multi_key */ #define SunXK_AltGraph 0x0000FF7E /* Same as XK_Mode_switch */ /* * Cursor Control */ #define SunXK_PageUp 0x0000FF55 /* Same as XK_Prior */ #define SunXK_PageDown 0x0000FF56 /* Same as XK_Next */ /* * Open Look Functions */ #define SunXK_Undo 0x0000FF65 /* Same as XK_Undo */ #define SunXK_Again 0x0000FF66 /* Same as XK_Redo */ #define SunXK_Find 0x0000FF68 /* Same as XK_Find */ #define SunXK_Stop 0x0000FF69 /* Same as XK_Cancel */ #define SunXK_Props 0x1005FF70 #define SunXK_Front 0x1005FF71 #define SunXK_Copy 0x1005FF72 #define SunXK_Open 0x1005FF73 #define SunXK_Paste 0x1005FF74 #define SunXK_Cut 0x1005FF75 #define SunXK_PowerSwitch 0x1005FF76 #define SunXK_AudioLowerVolume 0x1005FF77 #define SunXK_AudioMute 0x1005FF78 #define SunXK_AudioRaiseVolume 0x1005FF79 #define SunXK_VideoDegauss 0x1005FF7A #define SunXK_VideoLowerBrightness 0x1005FF7B #define SunXK_VideoRaiseBrightness 0x1005FF7C #define SunXK_PowerSwitchShift 0x1005FF7D 070701000a5cb2000081a40000000000000000000000014f867a0300000c2b0000010000010007ffffffffffffffff0000002500000000root/usr/local/include/X11/Xosdefs.h/* * O/S-dependent (mis)feature macro definitions * Copyright 1991, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ #ifndef _XOSDEFS_H_ # define _XOSDEFS_H_ /* * X_NOT_POSIX means does not have POSIX header files. Lack of this * symbol does NOT mean that the POSIX environment is the default. * You may still have to define _POSIX_SOURCE to get it. */ # ifdef _SCO_DS # ifndef __SCO__ # define __SCO__ # endif # endif # ifdef __i386__ # ifdef SYSV # if !defined(__SCO__) && \ !defined(__UNIXWARE__) && !defined(__sun) # if !defined(_POSIX_SOURCE) # define X_NOT_POSIX # endif # endif # endif # endif # ifdef __sun /* Imake configs define SVR4 on Solaris, but cc & gcc only define __SVR4 * This check allows non-Imake configured programs to build correctly. */ # if defined(__SVR4) && !defined(SVR4) # define SVR4 1 # endif # ifdef SVR4 /* define this to whatever it needs to be */ # define X_POSIX_C_SOURCE 199300L # endif # endif # ifdef WIN32 # ifndef _POSIX_ # define X_NOT_POSIX # endif # endif # ifdef __APPLE__ # define NULL_NOT_ZERO /* Defining any of these will sanitize the namespace to JUST want is defined by * that particular standard. If that happens, we don't get some expected * prototypes, typedefs, etc (like fd_mask). We can define _DARWIN_C_SOURCE to * loosen our belts a tad. */ # if defined(_XOPEN_SOURCE) || defined(_POSIX_SOURCE) || defined(_POSIX_C_SOURCE) # ifndef _DARWIN_C_SOURCE # define _DARWIN_C_SOURCE # endif # endif # endif # ifdef __GNU__ # ifndef PATH_MAX # define PATH_MAX 4096 # endif # ifndef MAXPATHLEN # define MAXPATHLEN 4096 # endif # endif # if defined(__SCO__) || defined(__UNIXWARE__) # ifndef PATH_MAX # define PATH_MAX 1024 # endif # ifndef MAXPATHLEN # define MAXPATHLEN 1024 # endif # endif # if defined(__OpenBSD__) || defined(__NetBSD__) || defined(__FreeBSD__) \ || defined(__APPLE__) || defined(__DragonFly__) # ifndef CSRG_BASED # define CSRG_BASED # endif # endif #endif /* _XOSDEFS_H_ */ 070701000a5ca9000081a40000000000000000000000014f867a03000011e20000010000010007ffffffffffffffff0000002500000000root/usr/local/include/X11/Xalloca.h/* Copyright 1995, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * The purpose of this header is to define the macros ALLOCATE_LOCAL and * DEALLOCATE_LOCAL appropriately for the platform being compiled on. * These macros are used to make fast, function-local memory allocations. * Their characteristics are as follows: * * void *ALLOCATE_LOCAL(int size) * Returns a pointer to size bytes of memory, or NULL if the allocation * failed. The memory must be freed with DEALLOCATE_LOCAL before the * function that made the allocation returns. You should not ask for * large blocks of memory with this function, since on many platforms * the memory comes from the stack, which may have limited size. * * void DEALLOCATE_LOCAL(void *) * Frees the memory allocated by ALLOCATE_LOCAL. Omission of this * step may be harmless on some platforms, but will result in * memory leaks or worse on others. * * Before including this file, you should define two macros, * ALLOCATE_LOCAL_FALLBACK and DEALLOCATE_LOCAL_FALLBACK, that have the * same characteristics as ALLOCATE_LOCAL and DEALLOCATE_LOCAL. The * header uses the fallbacks if it doesn't know a "better" way to define * ALLOCATE_LOCAL and DEALLOCATE_LOCAL. Typical usage would be: * * #define ALLOCATE_LOCAL_FALLBACK(_size) malloc(_size) * #define DEALLOCATE_LOCAL_FALLBACK(_ptr) free(_ptr) * #include "Xalloca.h" */ #ifndef XALLOCA_H #define XALLOCA_H 1 #ifndef INCLUDE_ALLOCA_H /* Need to add more here to match Imake *.cf's */ # if defined(HAVE_ALLOCA_H) || defined(__SUNPRO_C) || defined(__SUNPRO_CC) # define INCLUDE_ALLOCA_H # endif #endif #ifdef INCLUDE_ALLOCA_H # include #endif #ifndef NO_ALLOCA /* * os-dependent definition of local allocation and deallocation * If you want something other than (DE)ALLOCATE_LOCAL_FALLBACK * for ALLOCATE/DEALLOCATE_LOCAL then you add that in here. */ # ifdef __GNUC__ # ifndef alloca # define alloca __builtin_alloca # endif /* !alloca */ # define ALLOCATE_LOCAL(size) alloca((int)(size)) # else /* ! __GNUC__ */ /* * warning: old mips alloca (pre 2.10) is unusable, new one is built in * Test is easy, the new one is named __builtin_alloca and comes * from alloca.h which #defines alloca. */ # if defined(__sun) || defined(alloca) /* * Some System V boxes extract alloca.o from /lib/libPW.a; if you * decide that you don't want to use alloca, you might want to fix it here. */ /* alloca might be a macro taking one arg (hi, Sun!), so give it one. */ # if !defined(__cplusplus) # define __Xnullarg /* as nothing */ extern void *alloca(__Xnullarg); # endif # define ALLOCATE_LOCAL(size) alloca((int)(size)) # endif /* who does alloca */ # endif /* __GNUC__ */ #endif /* NO_ALLOCA */ #if !defined(ALLOCATE_LOCAL) # if defined(ALLOCATE_LOCAL_FALLBACK) && defined(DEALLOCATE_LOCAL_FALLBACK) # define ALLOCATE_LOCAL(_size) ALLOCATE_LOCAL_FALLBACK(_size) # define DEALLOCATE_LOCAL(_ptr) DEALLOCATE_LOCAL_FALLBACK(_ptr) # else /* no fallbacks supplied; error */ # define ALLOCATE_LOCAL(_size) ALLOCATE_LOCAL_FALLBACK undefined! # define DEALLOCATE_LOCAL(_ptr) DEALLOCATE_LOCAL_FALLBACK undefined! # endif /* defined(ALLOCATE_LOCAL_FALLBACK && DEALLOCATE_LOCAL_FALLBACK) */ #else # if !defined(DEALLOCATE_LOCAL) # define DEALLOCATE_LOCAL(_ptr) do {} while(0) # endif #endif /* defined(ALLOCATE_LOCAL) */ #endif /* XALLOCA_H */ 070701000a5cbb000081a40000000000000000000000014f867a0300000ad60000010000010007ffffffffffffffff0000002400000000root/usr/local/include/X11/keysym.h/*********************************************************** Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* default keysyms */ #define XK_MISCELLANY #define XK_XKB_KEYS #define XK_LATIN1 #define XK_LATIN2 #define XK_LATIN3 #define XK_LATIN4 #define XK_LATIN8 #define XK_LATIN9 #define XK_CAUCASUS #define XK_GREEK #define XK_KATAKANA #define XK_ARABIC #define XK_CYRILLIC #define XK_HEBREW #define XK_THAI #define XK_KOREAN #define XK_ARMENIAN #define XK_GEORGIAN #define XK_VIETNAMESE #define XK_CURRENCY #define XK_MATHEMATICAL #define XK_BRAILLE #define XK_SINHALA #include 070701000a5caa000081a40000000000000000000000014f867a0300000b870000010000010007ffffffffffffffff0000002300000000root/usr/local/include/X11/Xarch.h#ifndef _XARCH_H_ # define _XARCH_H_ /* * Copyright 1997 Metro Link Incorporated * * All Rights Reserved * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the names of the above listed copyright holder(s) * not be used in advertising or publicity pertaining to distribution of * the software without specific, written prior permission. The above listed * copyright holder(s) make(s) no representations about the suitability of * this software for any purpose. It is provided "as is" without express or * implied warranty. * * THE ABOVE LISTED COPYRIGHT HOLDER(S) DISCLAIM(S) ALL WARRANTIES WITH REGARD * TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS, IN NO EVENT SHALL THE ABOVE LISTED COPYRIGHT HOLDER(S) BE * LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY * DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * Determine the machine's byte order. */ /* See if it is set in the imake config first */ # ifdef X_BYTE_ORDER # define X_BIG_ENDIAN 4321 # define X_LITTLE_ENDIAN 1234 # else # if defined(SVR4) || defined(__SVR4) # include # include # elif defined(CSRG_BASED) # if defined(__NetBSD__) || defined(__OpenBSD__) # include # endif # include # elif defined(linux) # if defined __STRICT_ANSI__ # undef __STRICT_ANSI__ # include # define __STRICT_ANSI__ # else # include # endif /* 'endian.h' might have been included before 'Xarch.h' */ # if !defined(LITTLE_ENDIAN) && defined(__LITTLE_ENDIAN) # define LITTLE_ENDIAN __LITTLE_ENDIAN # endif # if !defined(BIG_ENDIAN) && defined(__BIG_ENDIAN) # define BIG_ENDIAN __BIG_ENDIAN # endif # if !defined(PDP_ENDIAN) && defined(__PDP_ENDIAN) # define PDP_ENDIAN __PDP_ENDIAN # endif # if !defined(BYTE_ORDER) && defined(__BYTE_ORDER) # define BYTE_ORDER __BYTE_ORDER # endif # endif # ifndef BYTE_ORDER # define LITTLE_ENDIAN 1234 # define BIG_ENDIAN 4321 # if defined(__sun) && defined(__SVR4) # include # ifdef _LITTLE_ENDIAN # define BYTE_ORDER LITTLE_ENDIAN # endif # ifdef _BIG_ENDIAN # define BYTE_ORDER BIG_ENDIAN # endif # endif /* sun */ # endif /* BYTE_ORDER */ # define X_BYTE_ORDER BYTE_ORDER # define X_BIG_ENDIAN BIG_ENDIAN # define X_LITTLE_ENDIAN LITTLE_ENDIAN # endif /* not in imake config */ #endif /* _XARCH_H_ */ 070701000a5cab000081a40000000000000000000000014f867a03000009d60000010000010007ffffffffffffffff0000002300000000root/usr/local/include/X11/Xatom.h#ifndef XATOM_H #define XATOM_H 1 /* THIS IS A GENERATED FILE * * Do not change! Changing this file implies a protocol change! */ #define XA_PRIMARY ((Atom) 1) #define XA_SECONDARY ((Atom) 2) #define XA_ARC ((Atom) 3) #define XA_ATOM ((Atom) 4) #define XA_BITMAP ((Atom) 5) #define XA_CARDINAL ((Atom) 6) #define XA_COLORMAP ((Atom) 7) #define XA_CURSOR ((Atom) 8) #define XA_CUT_BUFFER0 ((Atom) 9) #define XA_CUT_BUFFER1 ((Atom) 10) #define XA_CUT_BUFFER2 ((Atom) 11) #define XA_CUT_BUFFER3 ((Atom) 12) #define XA_CUT_BUFFER4 ((Atom) 13) #define XA_CUT_BUFFER5 ((Atom) 14) #define XA_CUT_BUFFER6 ((Atom) 15) #define XA_CUT_BUFFER7 ((Atom) 16) #define XA_DRAWABLE ((Atom) 17) #define XA_FONT ((Atom) 18) #define XA_INTEGER ((Atom) 19) #define XA_PIXMAP ((Atom) 20) #define XA_POINT ((Atom) 21) #define XA_RECTANGLE ((Atom) 22) #define XA_RESOURCE_MANAGER ((Atom) 23) #define XA_RGB_COLOR_MAP ((Atom) 24) #define XA_RGB_BEST_MAP ((Atom) 25) #define XA_RGB_BLUE_MAP ((Atom) 26) #define XA_RGB_DEFAULT_MAP ((Atom) 27) #define XA_RGB_GRAY_MAP ((Atom) 28) #define XA_RGB_GREEN_MAP ((Atom) 29) #define XA_RGB_RED_MAP ((Atom) 30) #define XA_STRING ((Atom) 31) #define XA_VISUALID ((Atom) 32) #define XA_WINDOW ((Atom) 33) #define XA_WM_COMMAND ((Atom) 34) #define XA_WM_HINTS ((Atom) 35) #define XA_WM_CLIENT_MACHINE ((Atom) 36) #define XA_WM_ICON_NAME ((Atom) 37) #define XA_WM_ICON_SIZE ((Atom) 38) #define XA_WM_NAME ((Atom) 39) #define XA_WM_NORMAL_HINTS ((Atom) 40) #define XA_WM_SIZE_HINTS ((Atom) 41) #define XA_WM_ZOOM_HINTS ((Atom) 42) #define XA_MIN_SPACE ((Atom) 43) #define XA_NORM_SPACE ((Atom) 44) #define XA_MAX_SPACE ((Atom) 45) #define XA_END_SPACE ((Atom) 46) #define XA_SUPERSCRIPT_X ((Atom) 47) #define XA_SUPERSCRIPT_Y ((Atom) 48) #define XA_SUBSCRIPT_X ((Atom) 49) #define XA_SUBSCRIPT_Y ((Atom) 50) #define XA_UNDERLINE_POSITION ((Atom) 51) #define XA_UNDERLINE_THICKNESS ((Atom) 52) #define XA_STRIKEOUT_ASCENT ((Atom) 53) #define XA_STRIKEOUT_DESCENT ((Atom) 54) #define XA_ITALIC_ANGLE ((Atom) 55) #define XA_X_HEIGHT ((Atom) 56) #define XA_QUAD_WIDTH ((Atom) 57) #define XA_WEIGHT ((Atom) 58) #define XA_POINT_SIZE ((Atom) 59) #define XA_RESOLUTION ((Atom) 60) #define XA_COPYRIGHT ((Atom) 61) #define XA_NOTICE ((Atom) 62) #define XA_FONT_NAME ((Atom) 63) #define XA_FAMILY_NAME ((Atom) 64) #define XA_FULL_NAME ((Atom) 65) #define XA_CAP_HEIGHT ((Atom) 66) #define XA_WM_CLASS ((Atom) 67) #define XA_WM_TRANSIENT_FOR ((Atom) 68) #define XA_LAST_PREDEFINED ((Atom) 68) #endif /* XATOM_H */ 070701000a5cb9000081a40000000000000000000000014f867a030000075e0000010000010007ffffffffffffffff0000002600000000root/usr/local/include/X11/Xwinsock.h/* Copyright 1996, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL- ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABIL- ITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * This header file has for sole purpose to allow to include winsock.h * without getting any name conflicts with our code. * Conflicts come from the fact that including winsock.h actually pulls * in the whole Windows API... */ #undef _XFree86Server #ifdef XFree86Server # define _XFree86Server # undef XFree86Server #endif #define BOOL wBOOL #define INT32 wINT32 #undef Status #define Status wStatus #define ATOM wATOM #define BYTE wBYTE #define FreeResource wFreeResource #include #undef Status #define Status int #undef BYTE #undef BOOL #undef INT32 #undef ATOM #undef FreeResource #undef CreateWindowA #undef RT_FONT #undef RT_CURSOR #ifdef _XFree86Server # define XFree86Server # undef _XFree86Server #endif 070701000a5cb3000081a40000000000000000000000014f867a0300001b7e0000010000010007ffffffffffffffff0000002300000000root/usr/local/include/X11/Xpoll.h/* Copyright 1994, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * Copyright © 2005 Daniel Stone * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Daniel Stone not be used in advertising * or publicity pertaining to distribution of the software without specific, * written prior permission. Daniel Stone makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * DANIEL STONE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING * ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL * DANIEL STONE BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR * ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef _XPOLL_H_ #define _XPOLL_H_ #ifndef WIN32 #ifndef USE_POLL #include #include /* Get the FD_* macros. */ #include #ifdef CSRG_BASED #include # if BSD < 199103 typedef long fd_mask; # endif #endif #define XFD_SETSIZE 256 #ifndef FD_SETSIZE #define FD_SETSIZE XFD_SETSIZE #endif #ifndef NBBY #define NBBY 8 /* number of bits in a byte */ #endif #ifndef NFDBITS #define NFDBITS (sizeof(fd_mask) * NBBY) /* bits per mask */ #endif #ifndef howmany #define howmany(x,y) (((x)+((y)-1))/(y)) #endif #if defined(BSD) && BSD < 198911 typedef struct fd_set { fd_mask fds_bits[howmany(FD_SETSIZE, NFDBITS)]; } fd_set; #endif # define Select(n,r,w,e,t) select(n,(fd_set*)r,(fd_set*)w,(fd_set*)e,(struct timeval*)t) #define __X_FDS_BITS fds_bits #ifndef __FDS_BITS # define __FDS_BITS(p) ((p)->__X_FDS_BITS) #endif #define __XFDS_BITS(p, n) (__FDS_BITS(p))[n] #ifndef FD_SET #define FD_SET(n, p) (__XFDS_BITS(p, ((n)/NFDBITS)) |= ((fd_mask)1 << ((n) % NFDBITS))) #endif #ifndef FD_CLR #define FD_CLR(n, p) (__XFDS_BITS((p), ((n)/NFDBITS)) &= ~((fd_mask)1 << ((n) % NFDBITS))) #endif #ifndef FD_ISSET #define FD_ISSET(n, p) ((__XFDS_BITS((p), ((n)/NFDBITS))) & ((fd_mask)1 << ((n) % NFDBITS))) #endif #ifndef FD_ZERO #define FD_ZERO(p) bzero((char *)(p), sizeof(*(p))) #endif /* * The howmany(FD_SETSIZE, NFDBITS) computes the number of elements in the * array. before accessing an element in the array we check it exists. * If it does not exist then the compiler discards the code to access it. */ #define XFD_ANYSET(p) \ ((howmany(FD_SETSIZE, NFDBITS) > 0 && (__XFDS_BITS(p, 0))) || \ (howmany(FD_SETSIZE, NFDBITS) > 1 && (__XFDS_BITS(p, 1))) || \ (howmany(FD_SETSIZE, NFDBITS) > 2 && (__XFDS_BITS(p, 2))) || \ (howmany(FD_SETSIZE, NFDBITS) > 3 && (__XFDS_BITS(p, 3))) || \ (howmany(FD_SETSIZE, NFDBITS) > 4 && (__XFDS_BITS(p, 4))) || \ (howmany(FD_SETSIZE, NFDBITS) > 5 && (__XFDS_BITS(p, 5))) || \ (howmany(FD_SETSIZE, NFDBITS) > 6 && (__XFDS_BITS(p, 6))) || \ (howmany(FD_SETSIZE, NFDBITS) > 7 && (__XFDS_BITS(p, 7)))) #define XFD_COPYSET(src,dst) { \ int __i__; \ for (__i__ = 0; __i__ < howmany(FD_SETSIZE, NFDBITS); __i__++) \ __XFDS_BITS((dst), __i__) = __XFDS_BITS((src), __i__); \ } #define XFD_ANDSET(dst,b1,b2) { \ int __i__; \ for (__i__ = 0; __i__ < howmany(FD_SETSIZE, NFDBITS); __i__++) \ __XFDS_BITS((dst), __i__) = ((__XFDS_BITS((b1), __i__)) & (__XFDS_BITS((b2), __i__))); \ } #define XFD_ORSET(dst,b1,b2) { \ int __i__; \ for (__i__ = 0; __i__ < howmany(FD_SETSIZE, NFDBITS); __i__++) \ __XFDS_BITS((dst), __i__) = ((__XFDS_BITS((b1), __i__)) | (__XFDS_BITS((b2), __i__))); \ } #define XFD_UNSET(dst,b1) { \ int __i__; \ for (__i__ = 0; __i__ < howmany(FD_SETSIZE, NFDBITS); __i__++) \ __XFDS_BITS((dst), __i__) &= ~(__XFDS_BITS((b1), __i__)); \ } #else /* USE_POLL */ #include #endif /* USE_POLL */ #else /* WIN32 */ #define XFD_SETSIZE 256 #ifndef FD_SETSIZE #define FD_SETSIZE XFD_SETSIZE #endif #include #define Select(n,r,w,e,t) select(0,(fd_set*)r,(fd_set*)w,(fd_set*)e,(struct timeval*)t) #define XFD_SETCOUNT(p) (((fd_set FAR *)(p))->fd_count) #define XFD_FD(p,i) (((fd_set FAR *)(p))->fd_array[i]) #define XFD_ANYSET(p) XFD_SETCOUNT(p) #define XFD_COPYSET(src,dst) { \ u_int __i; \ FD_ZERO(dst); \ for (__i = 0; __i < XFD_SETCOUNT(src) ; __i++) { \ XFD_FD(dst,__i) = XFD_FD(src,__i); \ } \ XFD_SETCOUNT(dst) = XFD_SETCOUNT(src); \ } #define XFD_ANDSET(dst,b1,b2) { \ u_int __i; \ FD_ZERO(dst); \ for (__i = 0; __i < XFD_SETCOUNT(b1) ; __i++) { \ if (FD_ISSET(XFD_FD(b1,__i), b2)) \ FD_SET(XFD_FD(b1,__i), dst); \ } \ } #define XFD_ORSET(dst,b1,b2) { \ u_int __i; \ if (dst != b1) XFD_COPYSET(b1,dst); \ for (__i = 0; __i < XFD_SETCOUNT(b2) ; __i++) { \ if (!FD_ISSET(XFD_FD(b2,__i), dst)) \ FD_SET(XFD_FD(b2,__i), dst); \ } \ } /* this one is really sub-optimal */ #define XFD_UNSET(dst,b1) { \ u_int __i; \ for (__i = 0; __i < XFD_SETCOUNT(b1) ; __i++) { \ FD_CLR(XFD_FD(b1,__i), dst); \ } \ } /* we have to pay the price of having an array here, unlike with bitmasks calling twice FD_SET with the same fd is not transparent, so be careful */ #undef FD_SET #define FD_SET(fd,set) do { \ if (XFD_SETCOUNT(set) < FD_SETSIZE && !FD_ISSET(fd,set)) \ XFD_FD(set,XFD_SETCOUNT(set)++)=(fd); \ } while(0) #define getdtablesize() FD_SETSIZE #endif /* WIN32 */ #endif /* _XPOLL_H_ */ 070701000a5ca6000081a40000000000000000000000014f867a0300004eed0000010000010007ffffffffffffffff0000001f00000000root/usr/local/include/X11/X.h/* Definitions for the X window system likely to be used by applications */ #ifndef X_H #define X_H /*********************************************************** Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ #define X_PROTOCOL 11 /* current protocol version */ #define X_PROTOCOL_REVISION 0 /* current minor version */ /* Resources */ /* * _XSERVER64 must ONLY be defined when compiling X server sources on * systems where unsigned long is not 32 bits, must NOT be used in * client or library code. */ #ifndef _XSERVER64 # ifndef _XTYPEDEF_XID # define _XTYPEDEF_XID typedef unsigned long XID; # endif # ifndef _XTYPEDEF_MASK # define _XTYPEDEF_MASK typedef unsigned long Mask; # endif # ifndef _XTYPEDEF_ATOM # define _XTYPEDEF_ATOM typedef unsigned long Atom; /* Also in Xdefs.h */ # endif typedef unsigned long VisualID; typedef unsigned long Time; #else # include # ifndef _XTYPEDEF_XID # define _XTYPEDEF_XID typedef CARD32 XID; # endif # ifndef _XTYPEDEF_MASK # define _XTYPEDEF_MASK typedef CARD32 Mask; # endif # ifndef _XTYPEDEF_ATOM # define _XTYPEDEF_ATOM typedef CARD32 Atom; # endif typedef CARD32 VisualID; typedef CARD32 Time; #endif typedef XID Window; typedef XID Drawable; #ifndef _XTYPEDEF_FONT # define _XTYPEDEF_FONT typedef XID Font; #endif typedef XID Pixmap; typedef XID Cursor; typedef XID Colormap; typedef XID GContext; typedef XID KeySym; typedef unsigned char KeyCode; /***************************************************************** * RESERVED RESOURCE AND CONSTANT DEFINITIONS *****************************************************************/ #ifndef None #define None 0L /* universal null resource or null atom */ #endif #define ParentRelative 1L /* background pixmap in CreateWindow and ChangeWindowAttributes */ #define CopyFromParent 0L /* border pixmap in CreateWindow and ChangeWindowAttributes special VisualID and special window class passed to CreateWindow */ #define PointerWindow 0L /* destination window in SendEvent */ #define InputFocus 1L /* destination window in SendEvent */ #define PointerRoot 1L /* focus window in SetInputFocus */ #define AnyPropertyType 0L /* special Atom, passed to GetProperty */ #define AnyKey 0L /* special Key Code, passed to GrabKey */ #define AnyButton 0L /* special Button Code, passed to GrabButton */ #define AllTemporary 0L /* special Resource ID passed to KillClient */ #define CurrentTime 0L /* special Time */ #define NoSymbol 0L /* special KeySym */ /***************************************************************** * EVENT DEFINITIONS *****************************************************************/ /* Input Event Masks. Used as event-mask window attribute and as arguments to Grab requests. Not to be confused with event names. */ #define NoEventMask 0L #define KeyPressMask (1L<<0) #define KeyReleaseMask (1L<<1) #define ButtonPressMask (1L<<2) #define ButtonReleaseMask (1L<<3) #define EnterWindowMask (1L<<4) #define LeaveWindowMask (1L<<5) #define PointerMotionMask (1L<<6) #define PointerMotionHintMask (1L<<7) #define Button1MotionMask (1L<<8) #define Button2MotionMask (1L<<9) #define Button3MotionMask (1L<<10) #define Button4MotionMask (1L<<11) #define Button5MotionMask (1L<<12) #define ButtonMotionMask (1L<<13) #define KeymapStateMask (1L<<14) #define ExposureMask (1L<<15) #define VisibilityChangeMask (1L<<16) #define StructureNotifyMask (1L<<17) #define ResizeRedirectMask (1L<<18) #define SubstructureNotifyMask (1L<<19) #define SubstructureRedirectMask (1L<<20) #define FocusChangeMask (1L<<21) #define PropertyChangeMask (1L<<22) #define ColormapChangeMask (1L<<23) #define OwnerGrabButtonMask (1L<<24) /* Event names. Used in "type" field in XEvent structures. Not to be confused with event masks above. They start from 2 because 0 and 1 are reserved in the protocol for errors and replies. */ #define KeyPress 2 #define KeyRelease 3 #define ButtonPress 4 #define ButtonRelease 5 #define MotionNotify 6 #define EnterNotify 7 #define LeaveNotify 8 #define FocusIn 9 #define FocusOut 10 #define KeymapNotify 11 #define Expose 12 #define GraphicsExpose 13 #define NoExpose 14 #define VisibilityNotify 15 #define CreateNotify 16 #define DestroyNotify 17 #define UnmapNotify 18 #define MapNotify 19 #define MapRequest 20 #define ReparentNotify 21 #define ConfigureNotify 22 #define ConfigureRequest 23 #define GravityNotify 24 #define ResizeRequest 25 #define CirculateNotify 26 #define CirculateRequest 27 #define PropertyNotify 28 #define SelectionClear 29 #define SelectionRequest 30 #define SelectionNotify 31 #define ColormapNotify 32 #define ClientMessage 33 #define MappingNotify 34 #define GenericEvent 35 #define LASTEvent 36 /* must be bigger than any event # */ /* Key masks. Used as modifiers to GrabButton and GrabKey, results of QueryPointer, state in various key-, mouse-, and button-related events. */ #define ShiftMask (1<<0) #define LockMask (1<<1) #define ControlMask (1<<2) #define Mod1Mask (1<<3) #define Mod2Mask (1<<4) #define Mod3Mask (1<<5) #define Mod4Mask (1<<6) #define Mod5Mask (1<<7) /* modifier names. Used to build a SetModifierMapping request or to read a GetModifierMapping request. These correspond to the masks defined above. */ #define ShiftMapIndex 0 #define LockMapIndex 1 #define ControlMapIndex 2 #define Mod1MapIndex 3 #define Mod2MapIndex 4 #define Mod3MapIndex 5 #define Mod4MapIndex 6 #define Mod5MapIndex 7 /* button masks. Used in same manner as Key masks above. Not to be confused with button names below. */ #define Button1Mask (1<<8) #define Button2Mask (1<<9) #define Button3Mask (1<<10) #define Button4Mask (1<<11) #define Button5Mask (1<<12) #define AnyModifier (1<<15) /* used in GrabButton, GrabKey */ /* button names. Used as arguments to GrabButton and as detail in ButtonPress and ButtonRelease events. Not to be confused with button masks above. Note that 0 is already defined above as "AnyButton". */ #define Button1 1 #define Button2 2 #define Button3 3 #define Button4 4 #define Button5 5 /* Notify modes */ #define NotifyNormal 0 #define NotifyGrab 1 #define NotifyUngrab 2 #define NotifyWhileGrabbed 3 #define NotifyHint 1 /* for MotionNotify events */ /* Notify detail */ #define NotifyAncestor 0 #define NotifyVirtual 1 #define NotifyInferior 2 #define NotifyNonlinear 3 #define NotifyNonlinearVirtual 4 #define NotifyPointer 5 #define NotifyPointerRoot 6 #define NotifyDetailNone 7 /* Visibility notify */ #define VisibilityUnobscured 0 #define VisibilityPartiallyObscured 1 #define VisibilityFullyObscured 2 /* Circulation request */ #define PlaceOnTop 0 #define PlaceOnBottom 1 /* protocol families */ #define FamilyInternet 0 /* IPv4 */ #define FamilyDECnet 1 #define FamilyChaos 2 #define FamilyInternet6 6 /* IPv6 */ /* authentication families not tied to a specific protocol */ #define FamilyServerInterpreted 5 /* Property notification */ #define PropertyNewValue 0 #define PropertyDelete 1 /* Color Map notification */ #define ColormapUninstalled 0 #define ColormapInstalled 1 /* GrabPointer, GrabButton, GrabKeyboard, GrabKey Modes */ #define GrabModeSync 0 #define GrabModeAsync 1 /* GrabPointer, GrabKeyboard reply status */ #define GrabSuccess 0 #define AlreadyGrabbed 1 #define GrabInvalidTime 2 #define GrabNotViewable 3 #define GrabFrozen 4 /* AllowEvents modes */ #define AsyncPointer 0 #define SyncPointer 1 #define ReplayPointer 2 #define AsyncKeyboard 3 #define SyncKeyboard 4 #define ReplayKeyboard 5 #define AsyncBoth 6 #define SyncBoth 7 /* Used in SetInputFocus, GetInputFocus */ #define RevertToNone (int)None #define RevertToPointerRoot (int)PointerRoot #define RevertToParent 2 /***************************************************************** * ERROR CODES *****************************************************************/ #define Success 0 /* everything's okay */ #define BadRequest 1 /* bad request code */ #define BadValue 2 /* int parameter out of range */ #define BadWindow 3 /* parameter not a Window */ #define BadPixmap 4 /* parameter not a Pixmap */ #define BadAtom 5 /* parameter not an Atom */ #define BadCursor 6 /* parameter not a Cursor */ #define BadFont 7 /* parameter not a Font */ #define BadMatch 8 /* parameter mismatch */ #define BadDrawable 9 /* parameter not a Pixmap or Window */ #define BadAccess 10 /* depending on context: - key/button already grabbed - attempt to free an illegal cmap entry - attempt to store into a read-only color map entry. - attempt to modify the access control list from other than the local host. */ #define BadAlloc 11 /* insufficient resources */ #define BadColor 12 /* no such colormap */ #define BadGC 13 /* parameter not a GC */ #define BadIDChoice 14 /* choice not in range or already used */ #define BadName 15 /* font or color name doesn't exist */ #define BadLength 16 /* Request length incorrect */ #define BadImplementation 17 /* server is defective */ #define FirstExtensionError 128 #define LastExtensionError 255 /***************************************************************** * WINDOW DEFINITIONS *****************************************************************/ /* Window classes used by CreateWindow */ /* Note that CopyFromParent is already defined as 0 above */ #define InputOutput 1 #define InputOnly 2 /* Window attributes for CreateWindow and ChangeWindowAttributes */ #define CWBackPixmap (1L<<0) #define CWBackPixel (1L<<1) #define CWBorderPixmap (1L<<2) #define CWBorderPixel (1L<<3) #define CWBitGravity (1L<<4) #define CWWinGravity (1L<<5) #define CWBackingStore (1L<<6) #define CWBackingPlanes (1L<<7) #define CWBackingPixel (1L<<8) #define CWOverrideRedirect (1L<<9) #define CWSaveUnder (1L<<10) #define CWEventMask (1L<<11) #define CWDontPropagate (1L<<12) #define CWColormap (1L<<13) #define CWCursor (1L<<14) /* ConfigureWindow structure */ #define CWX (1<<0) #define CWY (1<<1) #define CWWidth (1<<2) #define CWHeight (1<<3) #define CWBorderWidth (1<<4) #define CWSibling (1<<5) #define CWStackMode (1<<6) /* Bit Gravity */ #define ForgetGravity 0 #define NorthWestGravity 1 #define NorthGravity 2 #define NorthEastGravity 3 #define WestGravity 4 #define CenterGravity 5 #define EastGravity 6 #define SouthWestGravity 7 #define SouthGravity 8 #define SouthEastGravity 9 #define StaticGravity 10 /* Window gravity + bit gravity above */ #define UnmapGravity 0 /* Used in CreateWindow for backing-store hint */ #define NotUseful 0 #define WhenMapped 1 #define Always 2 /* Used in GetWindowAttributes reply */ #define IsUnmapped 0 #define IsUnviewable 1 #define IsViewable 2 /* Used in ChangeSaveSet */ #define SetModeInsert 0 #define SetModeDelete 1 /* Used in ChangeCloseDownMode */ #define DestroyAll 0 #define RetainPermanent 1 #define RetainTemporary 2 /* Window stacking method (in configureWindow) */ #define Above 0 #define Below 1 #define TopIf 2 #define BottomIf 3 #define Opposite 4 /* Circulation direction */ #define RaiseLowest 0 #define LowerHighest 1 /* Property modes */ #define PropModeReplace 0 #define PropModePrepend 1 #define PropModeAppend 2 /***************************************************************** * GRAPHICS DEFINITIONS *****************************************************************/ /* graphics functions, as in GC.alu */ #define GXclear 0x0 /* 0 */ #define GXand 0x1 /* src AND dst */ #define GXandReverse 0x2 /* src AND NOT dst */ #define GXcopy 0x3 /* src */ #define GXandInverted 0x4 /* NOT src AND dst */ #define GXnoop 0x5 /* dst */ #define GXxor 0x6 /* src XOR dst */ #define GXor 0x7 /* src OR dst */ #define GXnor 0x8 /* NOT src AND NOT dst */ #define GXequiv 0x9 /* NOT src XOR dst */ #define GXinvert 0xa /* NOT dst */ #define GXorReverse 0xb /* src OR NOT dst */ #define GXcopyInverted 0xc /* NOT src */ #define GXorInverted 0xd /* NOT src OR dst */ #define GXnand 0xe /* NOT src OR NOT dst */ #define GXset 0xf /* 1 */ /* LineStyle */ #define LineSolid 0 #define LineOnOffDash 1 #define LineDoubleDash 2 /* capStyle */ #define CapNotLast 0 #define CapButt 1 #define CapRound 2 #define CapProjecting 3 /* joinStyle */ #define JoinMiter 0 #define JoinRound 1 #define JoinBevel 2 /* fillStyle */ #define FillSolid 0 #define FillTiled 1 #define FillStippled 2 #define FillOpaqueStippled 3 /* fillRule */ #define EvenOddRule 0 #define WindingRule 1 /* subwindow mode */ #define ClipByChildren 0 #define IncludeInferiors 1 /* SetClipRectangles ordering */ #define Unsorted 0 #define YSorted 1 #define YXSorted 2 #define YXBanded 3 /* CoordinateMode for drawing routines */ #define CoordModeOrigin 0 /* relative to the origin */ #define CoordModePrevious 1 /* relative to previous point */ /* Polygon shapes */ #define Complex 0 /* paths may intersect */ #define Nonconvex 1 /* no paths intersect, but not convex */ #define Convex 2 /* wholly convex */ /* Arc modes for PolyFillArc */ #define ArcChord 0 /* join endpoints of arc */ #define ArcPieSlice 1 /* join endpoints to center of arc */ /* GC components: masks used in CreateGC, CopyGC, ChangeGC, OR'ed into GC.stateChanges */ #define GCFunction (1L<<0) #define GCPlaneMask (1L<<1) #define GCForeground (1L<<2) #define GCBackground (1L<<3) #define GCLineWidth (1L<<4) #define GCLineStyle (1L<<5) #define GCCapStyle (1L<<6) #define GCJoinStyle (1L<<7) #define GCFillStyle (1L<<8) #define GCFillRule (1L<<9) #define GCTile (1L<<10) #define GCStipple (1L<<11) #define GCTileStipXOrigin (1L<<12) #define GCTileStipYOrigin (1L<<13) #define GCFont (1L<<14) #define GCSubwindowMode (1L<<15) #define GCGraphicsExposures (1L<<16) #define GCClipXOrigin (1L<<17) #define GCClipYOrigin (1L<<18) #define GCClipMask (1L<<19) #define GCDashOffset (1L<<20) #define GCDashList (1L<<21) #define GCArcMode (1L<<22) #define GCLastBit 22 /***************************************************************** * FONTS *****************************************************************/ /* used in QueryFont -- draw direction */ #define FontLeftToRight 0 #define FontRightToLeft 1 #define FontChange 255 /***************************************************************** * IMAGING *****************************************************************/ /* ImageFormat -- PutImage, GetImage */ #define XYBitmap 0 /* depth 1, XYFormat */ #define XYPixmap 1 /* depth == drawable depth */ #define ZPixmap 2 /* depth == drawable depth */ /***************************************************************** * COLOR MAP STUFF *****************************************************************/ /* For CreateColormap */ #define AllocNone 0 /* create map with no entries */ #define AllocAll 1 /* allocate entire map writeable */ /* Flags used in StoreNamedColor, StoreColors */ #define DoRed (1<<0) #define DoGreen (1<<1) #define DoBlue (1<<2) /***************************************************************** * CURSOR STUFF *****************************************************************/ /* QueryBestSize Class */ #define CursorShape 0 /* largest size that can be displayed */ #define TileShape 1 /* size tiled fastest */ #define StippleShape 2 /* size stippled fastest */ /***************************************************************** * KEYBOARD/POINTER STUFF *****************************************************************/ #define AutoRepeatModeOff 0 #define AutoRepeatModeOn 1 #define AutoRepeatModeDefault 2 #define LedModeOff 0 #define LedModeOn 1 /* masks for ChangeKeyboardControl */ #define KBKeyClickPercent (1L<<0) #define KBBellPercent (1L<<1) #define KBBellPitch (1L<<2) #define KBBellDuration (1L<<3) #define KBLed (1L<<4) #define KBLedMode (1L<<5) #define KBKey (1L<<6) #define KBAutoRepeatMode (1L<<7) #define MappingSuccess 0 #define MappingBusy 1 #define MappingFailed 2 #define MappingModifier 0 #define MappingKeyboard 1 #define MappingPointer 2 /***************************************************************** * SCREEN SAVER STUFF *****************************************************************/ #define DontPreferBlanking 0 #define PreferBlanking 1 #define DefaultBlanking 2 #define DisableScreenSaver 0 #define DisableScreenInterval 0 #define DontAllowExposures 0 #define AllowExposures 1 #define DefaultExposures 2 /* for ForceScreenSaver */ #define ScreenSaverReset 0 #define ScreenSaverActive 1 /***************************************************************** * HOSTS AND CONNECTIONS *****************************************************************/ /* for ChangeHosts */ #define HostInsert 0 #define HostDelete 1 /* for ChangeAccessControl */ #define EnableAccess 1 #define DisableAccess 0 /* Display classes used in opening the connection * Note that the statically allocated ones are even numbered and the * dynamically changeable ones are odd numbered */ #define StaticGray 0 #define GrayScale 1 #define StaticColor 2 #define PseudoColor 3 #define TrueColor 4 #define DirectColor 5 /* Byte order used in imageByteOrder and bitmapBitOrder */ #define LSBFirst 0 #define MSBFirst 1 #endif /* X_H */ 070701000a5cae000081a40000000000000000000000014f867a03000008980000010000010007ffffffffffffffff0000002400000000root/usr/local/include/X11/Xfuncs.h/* * Copyright 1990, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * */ #ifndef _XFUNCS_H_ # define _XFUNCS_H_ # include /* the old Xfuncs.h, for pre-R6 */ # if !(defined(XFree86LOADER) && defined(IN_MODULE)) # ifdef X_USEBFUNCS void bcopy(); void bzero(); int bcmp(); # else # if defined(SYSV) && !defined(__SCO__) && !defined(__sun) && !defined(__UNIXWARE__) # include void bcopy(); # define bzero(b,len) memset(b, 0, len) # define bcmp(b1,b2,len) memcmp(b1, b2, len) # else # include # if defined(__SCO__) || defined(__sun) || defined(__UNIXWARE__) || defined(__CYGWIN__) # include # endif # define _XFUNCS_H_INCLUDED_STRING_H # endif # endif /* X_USEBFUNCS */ /* the new Xfuncs.h */ /* the ANSI C way */ # ifndef _XFUNCS_H_INCLUDED_STRING_H # include # endif # undef bzero # define bzero(b,len) memset(b,0,len) # if defined WIN32 && defined __MINGW32__ # define bcopy(b1,b2,len) memmove(b2, b1, (size_t)(len)) # endif # endif /* !(defined(XFree86LOADER) && defined(IN_MODULE)) */ #endif /* _XFUNCS_H_ */ 070701000a5cba000081a40000000000000000000000014f867a03000008fa0000010000010007ffffffffffffffff0000002700000000root/usr/local/include/X11/ap_keysym.h/****************************************************************** Copyright 1987 by Apollo Computer Inc., Chelmsford, Massachusetts. Copyright 1989 by Hewlett-Packard Company. All Rights Reserved Permission to use, duplicate, change, and distribute this software and its documentation for any purpose and without fee is granted, provided that the above copyright notice appear in such copy and that this copyright notice appear in all supporting documentation, and that the names of Apollo Computer Inc., the Hewlett-Packard Company, or the X Consortium not be used in advertising or publicity pertaining to distribution of the software without written prior permission. HEWLETT-PACKARD MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS SOFWARE, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Hewlett-Packard shall not be liable for errors contained herein or direct, indirect, special, incidental or consequential damages in connection with the furnishing, performance, or use of this material. This software is not subject to any license of the American Telephone and Telegraph Company or of the Regents of the University of California. ******************************************************************/ #define apXK_LineDel 0x1000FF00 #define apXK_CharDel 0x1000FF01 #define apXK_Copy 0x1000FF02 #define apXK_Cut 0x1000FF03 #define apXK_Paste 0x1000FF04 #define apXK_Move 0x1000FF05 #define apXK_Grow 0x1000FF06 #define apXK_Cmd 0x1000FF07 #define apXK_Shell 0x1000FF08 #define apXK_LeftBar 0x1000FF09 #define apXK_RightBar 0x1000FF0A #define apXK_LeftBox 0x1000FF0B #define apXK_RightBox 0x1000FF0C #define apXK_UpBox 0x1000FF0D #define apXK_DownBox 0x1000FF0E #define apXK_Pop 0x1000FF0F #define apXK_Read 0x1000FF10 #define apXK_Edit 0x1000FF11 #define apXK_Save 0x1000FF12 #define apXK_Exit 0x1000FF13 #define apXK_Repeat 0x1000FF14 #define apXK_KP_parenleft 0x1000FFA8 #define apXK_KP_parenright 0x1000FFA9 070701000a5cb1000081a40000000000000000000000014f867a030000839d0000010000010007ffffffffffffffff0000002300000000root/usr/local/include/X11/Xos_r.h/* Copyright 1996, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * Various and sundry Thread-Safe functions used by X11, Motif, and CDE. * * Use this file in MT-safe code where you would have included * for readdir() * for getgrgid() or getgrnam() * for gethostbyname(), gethostbyaddr(), or getservbyname() * for getpwnam() or getpwuid() * for strtok() * for asctime(), ctime(), localtime(), or gmtime() * for getlogin() or ttyname() * or their thread-safe analogs. * * If you are on a platform that defines XTHREADS but does not have * MT-safe system API (e.g. UnixWare) you must define _Xos_processLock * and _Xos_processUnlock macros before including this header. * * For convenience XOS_USE_XLIB_LOCKING or XOS_USE_XT_LOCKING may be defined * to obtain either Xlib-only or Xt-based versions of these macros. These * macros won't result in truly thread-safe calls, but they are better than * nothing. If you do not want locking in this situation define * XOS_USE_NO_LOCKING. * * NOTE: On systems lacking appropriate _r functions Gethostbyname(), * Gethostbyaddr(), and Getservbyname() do NOT copy the host or * protocol lists! * * NOTE: On systems lacking appropriate _r functions Getgrgid() and * Getgrnam() do NOT copy the list of group members! * * This header is nominally intended to simplify porting X11, Motif, and * CDE; it may be useful to other people too. The structure below is * complicated, mostly because P1003.1c (the IEEE POSIX Threads spec) * went through lots of drafts, and some vendors shipped systems based * on draft API that were changed later. Unfortunately POSIX did not * provide a feature-test macro for distinguishing each of the drafts. */ /* * This header has several parts. Search for "Effective prototypes" * to locate the beginning of a section. */ /* This header can be included multiple times with different defines! */ #ifndef _XOS_R_H_ # define _XOS_R_H_ # include # include # ifndef X_NOT_POSIX # ifdef _POSIX_SOURCE # include # else # define _POSIX_SOURCE # include # undef _POSIX_SOURCE # endif # ifndef LINE_MAX # define X_LINE_MAX 2048 # else # define X_LINE_MAX LINE_MAX # endif # endif #endif /* _XOS_R_H */ #ifndef WIN32 #ifdef __cplusplus extern "C" { #endif # if defined(XOS_USE_XLIB_LOCKING) # ifndef XAllocIDs /* Xlibint.h does not have multiple include protection */ typedef struct _LockInfoRec *LockInfoPtr; extern LockInfoPtr _Xglobal_lock; # endif # ifndef _Xos_isThreadInitialized # define _Xos_isThreadInitialized (_Xglobal_lock) # endif # if defined(XTHREADS_WARN) || defined(XTHREADS_FILE_LINE) # ifndef XAllocIDs /* Xlibint.h does not have multiple include protection */ # include /* for NeedFunctionPrototypes */ extern void (*_XLockMutex_fn)( # if NeedFunctionPrototypes LockInfoPtr /* lock */, char * /* file */, int /* line */ # endif ); extern void (*_XUnlockMutex_fn)( # if NeedFunctionPrototypes LockInfoPtr /* lock */, char * /* file */, int /* line */ # endif ); # endif # ifndef _Xos_processLock # define _Xos_processLock \ (_XLockMutex_fn ? (*_XLockMutex_fn)(_Xglobal_lock,__FILE__,__LINE__) : 0) # endif # ifndef _Xos_processUnlock # define _Xos_processUnlock \ (_XUnlockMutex_fn ? (*_XUnlockMutex_fn)(_Xglobal_lock,__FILE__,__LINE__) : 0) # endif # else # ifndef XAllocIDs /* Xlibint.h does not have multiple include protection */ # include /* for NeedFunctionPrototypes */ extern void (*_XLockMutex_fn)( # if NeedFunctionPrototypes LockInfoPtr /* lock */ # endif ); extern void (*_XUnlockMutex_fn)( # if NeedFunctionPrototypes LockInfoPtr /* lock */ # endif ); # endif # ifndef _Xos_processLock # define _Xos_processLock \ (_XLockMutex_fn ? ((*_XLockMutex_fn)(_Xglobal_lock), 0) : 0) # endif # ifndef _Xos_processUnlock # define _Xos_processUnlock \ (_XUnlockMutex_fn ? ((*_XUnlockMutex_fn)(_Xglobal_lock), 0) : 0) # endif # endif # elif defined(XOS_USE_XT_LOCKING) # ifndef _XtThreadsI_h extern void (*_XtProcessLock)(void); # endif # ifndef _XtintrinsicP_h # include /* for NeedFunctionPrototypes */ extern void XtProcessLock( # if NeedFunctionPrototypes void # endif ); extern void XtProcessUnlock( # if NeedFunctionPrototypes void # endif ); # endif # ifndef _Xos_isThreadInitialized # define _Xos_isThreadInitialized _XtProcessLock # endif # ifndef _Xos_processLock # define _Xos_processLock XtProcessLock() # endif # ifndef _Xos_processUnlock # define _Xos_processUnlock XtProcessUnlock() # endif # elif defined(XOS_USE_NO_LOCKING) # ifndef _Xos_isThreadInitialized # define _Xos_isThreadInitialized 0 # endif # ifndef _Xos_processLock # define _Xos_processLock 0 # endif # ifndef _Xos_processUnlock # define _Xos_processUnlock 0 # endif # endif #endif /* !defined WIN32 */ /* * Solaris defines the POSIX thread-safe feature test macro, but * uses the older SVR4 thread-safe functions unless the POSIX ones * are specifically requested. Fix the feature test macro. */ #if defined(__sun) && defined(_POSIX_THREAD_SAFE_FUNCTIONS) && \ (_POSIX_C_SOURCE - 0 < 199506L) && !defined(_POSIX_PTHREAD_SEMANTICS) # undef _POSIX_THREAD_SAFE_FUNCTIONS #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * #define X_INCLUDE_PWD_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xgetpwparams; * * struct passwd* _XGetpwnam(const char *name, _Xgetpwparams); * struct passwd* _XGetpwuid(uid_t uid, _Xgetpwparams); */ #if defined(X_INCLUDE_PWD_H) && !defined(_XOS_INCLUDED_PWD_H) # include # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_PWDAPI) # define XOS_USE_MTSAFE_PWDAPI 1 # endif #endif #undef X_NEEDS_PWPARAMS #if !defined(X_INCLUDE_PWD_H) || defined(_XOS_INCLUDED_PWD_H) /* Do nothing */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ # if defined(X_NOT_POSIX) && !defined(__i386__) && !defined(SYSV) extern struct passwd *getpwuid(), *getpwnam(); # endif typedef int _Xgetpwparams; /* dummy */ # define _XGetpwuid(u,p) getpwuid((u)) # define _XGetpwnam(u,p) getpwnam((u)) #elif !defined(XOS_USE_MTSAFE_PWDAPI) || defined(XNO_MTSAFE_PWDAPI) /* UnixWare 2.0, or other systems with thread support but no _r API. */ # define X_NEEDS_PWPARAMS typedef struct { struct passwd pws; char pwbuf[1024]; struct passwd* pwp; size_t len; } _Xgetpwparams; /* * NetBSD and FreeBSD, at least, are missing several of the unixware passwd * fields. */ #if defined(__NetBSD__) || defined(__FreeBSD__) || defined(__OpenBSD__) || \ defined(__APPLE__) || defined(__DragonFly__) static __inline__ void _Xpw_copyPasswd(_Xgetpwparams p) { memcpy(&(p).pws, (p).pwp, sizeof(struct passwd)); (p).pws.pw_name = (p).pwbuf; (p).len = strlen((p).pwp->pw_name); strcpy((p).pws.pw_name, (p).pwp->pw_name); (p).pws.pw_passwd = (p).pws.pw_name + (p).len + 1; (p).len = strlen((p).pwp->pw_passwd); strcpy((p).pws.pw_passwd,(p).pwp->pw_passwd); (p).pws.pw_class = (p).pws.pw_passwd + (p).len + 1; (p).len = strlen((p).pwp->pw_class); strcpy((p).pws.pw_class, (p).pwp->pw_class); (p).pws.pw_gecos = (p).pws.pw_class + (p).len + 1; (p).len = strlen((p).pwp->pw_gecos); strcpy((p).pws.pw_gecos, (p).pwp->pw_gecos); (p).pws.pw_dir = (p).pws.pw_gecos + (p).len + 1; (p).len = strlen((p).pwp->pw_dir); strcpy((p).pws.pw_dir, (p).pwp->pw_dir); (p).pws.pw_shell = (p).pws.pw_dir + (p).len + 1; (p).len = strlen((p).pwp->pw_shell); strcpy((p).pws.pw_shell, (p).pwp->pw_shell); (p).pwp = &(p).pws; } #else # define _Xpw_copyPasswd(p) \ (memcpy(&(p).pws, (p).pwp, sizeof(struct passwd)), \ ((p).pws.pw_name = (p).pwbuf), \ ((p).len = strlen((p).pwp->pw_name)), \ strcpy((p).pws.pw_name, (p).pwp->pw_name), \ ((p).pws.pw_passwd = (p).pws.pw_name + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_passwd)), \ strcpy((p).pws.pw_passwd,(p).pwp->pw_passwd), \ ((p).pws.pw_age = (p).pws.pw_passwd + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_age)), \ strcpy((p).pws.pw_age, (p).pwp->pw_age), \ ((p).pws.pw_comment = (p).pws.pw_age + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_comment)), \ strcpy((p).pws.pw_comment, (p).pwp->pw_comment), \ ((p).pws.pw_gecos = (p).pws.pw_comment + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_gecos)), \ strcpy((p).pws.pw_gecos, (p).pwp->pw_gecos), \ ((p).pws.pw_dir = (p).pws.pw_comment + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_dir)), \ strcpy((p).pws.pw_dir, (p).pwp->pw_dir), \ ((p).pws.pw_shell = (p).pws.pw_dir + (p).len + 1), \ ((p).len = strlen((p).pwp->pw_shell)), \ strcpy((p).pws.pw_shell, (p).pwp->pw_shell), \ ((p).pwp = &(p).pws), \ 0 ) #endif # define _XGetpwuid(u,p) \ ( (_Xos_processLock), \ (((p).pwp = getpwuid((u))) ? _Xpw_copyPasswd(p), 0 : 0), \ (_Xos_processUnlock), \ (p).pwp ) # define _XGetpwnam(u,p) \ ( (_Xos_processLock), \ (((p).pwp = getpwnam((u))) ? _Xpw_copyPasswd(p), 0 : 0), \ (_Xos_processUnlock), \ (p).pwp ) #elif !defined(_POSIX_THREAD_SAFE_FUNCTIONS) && !defined(__APPLE__) # define X_NEEDS_PWPARAMS typedef struct { struct passwd pws; char pwbuf[X_LINE_MAX]; } _Xgetpwparams; # if defined(_POSIX_REENTRANT_FUNCTIONS) || !defined(SVR4) # define _XGetpwuid(u,p) \ ((getpwuid_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf)) == -1) ? NULL : &(p).pws) # define _XGetpwnam(u,p) \ ((getpwnam_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf)) == -1) ? NULL : &(p).pws) # else /* SVR4 */ # define _XGetpwuid(u,p) \ ((getpwuid_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf)) == NULL) ? NULL : &(p).pws) # define _XGetpwnam(u,p) \ ((getpwnam_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf)) == NULL) ? NULL : &(p).pws) # endif /* SVR4 */ #else /* _POSIX_THREAD_SAFE_FUNCTIONS */ # define X_NEEDS_PWPARAMS typedef struct { struct passwd pws; char pwbuf[X_LINE_MAX]; struct passwd* pwp; } _Xgetpwparams; typedef int _Xgetpwret; # define _XGetpwuid(u,p) \ ((getpwuid_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf),&(p).pwp) == 0) ? \ (p).pwp : NULL) # define _XGetpwnam(u,p) \ ((getpwnam_r((u),&(p).pws,(p).pwbuf,sizeof((p).pwbuf),&(p).pwp) == 0) ? \ (p).pwp : NULL) #endif /* X_INCLUDE_PWD_H */ #if defined(X_INCLUDE_PWD_H) && !defined(_XOS_INCLUDED_PWD_H) # define _XOS_INCLUDED_PWD_H #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * NOTE: On systems lacking the appropriate _r functions Gethostbyname(), * Gethostbyaddr(), and Getservbyname() do NOT copy the host or * protocol lists! * * #define X_INCLUDE_NETDB_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xgethostbynameparams; * typedef ... _Xgetservbynameparams; * * struct hostent* _XGethostbyname(const char* name,_Xgethostbynameparams); * struct hostent* _XGethostbyaddr(const char* addr, int len, int type, * _Xgethostbynameparams); * struct servent* _XGetservbyname(const char* name, const char* proto, * _Xgetservbynameparams); */ #undef XTHREADS_NEEDS_BYNAMEPARAMS #if defined(X_INCLUDE_NETDB_H) && !defined(_XOS_INCLUDED_NETDB_H) \ && !defined(WIN32) # include # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_NETDBAPI) # define XOS_USE_MTSAFE_NETDBAPI 1 # endif #endif #if !defined(X_INCLUDE_NETDB_H) || defined(_XOS_INCLUDED_NETDB_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xgethostbynameparams; /* dummy */ typedef int _Xgetservbynameparams; /* dummy */ # define _XGethostbyname(h,hp) gethostbyname((h)) # define _XGethostbyaddr(a,al,t,hp) gethostbyaddr((a),(al),(t)) # define _XGetservbyname(s,p,sp) getservbyname((s),(p)) #elif !defined(XOS_USE_MTSAFE_NETDBAPI) || defined(XNO_MTSAFE_NETDBAPI) /* WARNING: The h_addr_list and s_aliases values are *not* copied! */ #if defined(__NetBSD__) || defined(__FreeBSD__) || defined(__DragonFly__) #include #endif typedef struct { struct hostent hent; char h_name[MAXHOSTNAMELEN]; struct hostent *hptr; } _Xgethostbynameparams; typedef struct { struct servent sent; char s_name[255]; char s_proto[255]; struct servent *sptr; } _Xgetservbynameparams; # define XTHREADS_NEEDS_BYNAMEPARAMS # define _Xg_copyHostent(hp) \ (memcpy(&(hp).hent, (hp).hptr, sizeof(struct hostent)), \ strcpy((hp).h_name, (hp).hptr->h_name), \ ((hp).hent.h_name = (hp).h_name), \ ((hp).hptr = &(hp).hent), \ 0 ) # define _Xg_copyServent(sp) \ (memcpy(&(sp).sent, (sp).sptr, sizeof(struct servent)), \ strcpy((sp).s_name, (sp).sptr->s_name), \ ((sp).sent.s_name = (sp).s_name), \ strcpy((sp).s_proto, (sp).sptr->s_proto), \ ((sp).sent.s_proto = (sp).s_proto), \ ((sp).sptr = &(sp).sent), \ 0 ) # define _XGethostbyname(h,hp) \ ((_Xos_processLock), \ (((hp).hptr = gethostbyname((h))) ? _Xg_copyHostent(hp) : 0), \ (_Xos_processUnlock), \ (hp).hptr ) # define _XGethostbyaddr(a,al,t,hp) \ ((_Xos_processLock), \ (((hp).hptr = gethostbyaddr((a),(al),(t))) ? _Xg_copyHostent(hp) : 0), \ (_Xos_processUnlock), \ (hp).hptr ) # define _XGetservbyname(s,p,sp) \ ((_Xos_processLock), \ (((sp).sptr = getservbyname((s),(p))) ? _Xg_copyServent(sp) : 0), \ (_Xos_processUnlock), \ (sp).sptr ) #elif defined(XUSE_NETDB_R_API) /* * POSIX does not specify _r equivalents for API, but some * vendors provide them anyway. Use them only when explicitly asked. */ # ifdef _POSIX_REENTRANT_FUNCTIONS # ifndef _POSIX_THREAD_SAFE_FUNCTIONS # endif # endif # ifdef _POSIX_THREAD_SAFE_FUNCTIONS # define X_POSIX_THREAD_SAFE_FUNCTIONS 1 # endif # define XTHREADS_NEEDS_BYNAMEPARAMS # ifndef X_POSIX_THREAD_SAFE_FUNCTIONS typedef struct { struct hostent hent; char hbuf[X_LINE_MAX]; int herr; } _Xgethostbynameparams; typedef struct { struct servent sent; char sbuf[X_LINE_MAX]; } _Xgetservbynameparams; # define _XGethostbyname(h,hp) \ gethostbyname_r((h),&(hp).hent,(hp).hbuf,sizeof((hp).hbuf),&(hp).herr) # define _XGethostbyaddr(a,al,t,hp) \ gethostbyaddr_r((a),(al),(t),&(hp).hent,(hp).hbuf,sizeof((hp).hbuf),&(hp).herr) # define _XGetservbyname(s,p,sp) \ getservbyname_r((s),(p),&(sp).sent,(sp).sbuf,sizeof((sp).sbuf)) # else typedef struct { struct hostent hent; struct hostent_data hdata; } _Xgethostbynameparams; typedef struct { struct servent sent; struct servent_data sdata; } _Xgetservbynameparams; # define _XGethostbyname(h,hp) \ (bzero((char*)&(hp).hdata,sizeof((hp).hdata)), \ ((gethostbyname_r((h),&(hp).hent,&(hp).hdata) == -1) ? NULL : &(hp).hent)) # define _XGethostbyaddr(a,al,t,hp) \ (bzero((char*)&(hp).hdata,sizeof((hp).hdata)), \ ((gethostbyaddr_r((a),(al),(t),&(hp).hent,&(hp).hdata) == -1) ? NULL : &(hp).hent)) # define _XGetservbyname(s,p,sp) \ (bzero((char*)&(sp).sdata,sizeof((sp).sdata)), \ ((getservbyname_r((s),(p),&(sp).sent,&(sp).sdata) == -1) ? NULL : &(sp).sent) ) # endif # ifdef X_POSIX_THREAD_SAFE_FUNCTIONS # undef X_POSIX_THREAD_SAFE_FUNCTIONS # endif #else /* The regular API is assumed to be MT-safe under POSIX. */ typedef int _Xgethostbynameparams; /* dummy */ typedef int _Xgetservbynameparams; /* dummy */ # define _XGethostbyname(h,hp) gethostbyname((h)) # define _XGethostbyaddr(a,al,t,hp) gethostbyaddr((a),(al),(t)) # define _XGetservbyname(s,p,sp) getservbyname((s),(p)) #endif /* X_INCLUDE_NETDB_H */ #if defined(X_INCLUDE_NETDB_H) && !defined(_XOS_INCLUDED_NETDB_H) # define _XOS_INCLUDED_NETDB_H #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * #define X_INCLUDE_DIRENT_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xreaddirparams; * * struct dirent *_XReaddir(DIR *dir_pointer, _Xreaddirparams); */ #if defined(X_INCLUDE_DIRENT_H) && !defined(_XOS_INCLUDED_DIRENT_H) # include # if !defined(X_NOT_POSIX) || defined(SYSV) # include # else # include # ifndef dirent # define dirent direct # endif # endif # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_DIRENTAPI) # define XOS_USE_MTSAFE_DIRENTAPI 1 # endif #endif #if !defined(X_INCLUDE_DIRENT_H) || defined(_XOS_INCLUDED_DIRENT_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xreaddirparams; /* dummy */ # define _XReaddir(d,p) readdir(d) #elif !defined(XOS_USE_MTSAFE_DIRENTAPI) || defined(XNO_MTSAFE_DIRENTAPI) /* Systems with thread support but no _r API. */ typedef struct { struct dirent *result; struct dirent dir_entry; # ifdef _POSIX_PATH_MAX char buf[_POSIX_PATH_MAX]; # elif defined(NAME_MAX) char buf[NAME_MAX]; # else char buf[255]; # endif } _Xreaddirparams; # define _XReaddir(d,p) \ ( (_Xos_processLock), \ (((p).result = readdir((d))) ? \ (memcpy(&((p).dir_entry), (p).result, (p).result->d_reclen), \ ((p).result = &(p).dir_entry), 0) : \ 0), \ (_Xos_processUnlock), \ (p).result ) #else typedef struct { struct dirent *result; struct dirent dir_entry; # ifdef _POSIX_PATH_MAX char buf[_POSIX_PATH_MAX]; # elif defined(NAME_MAX) char buf[NAME_MAX]; # else char buf[255]; # endif } _Xreaddirparams; # if defined(_POSIX_THREAD_SAFE_FUNCTIONS) || defined(__APPLE__) /* POSIX final API, returns (int)0 on success. */ # define _XReaddir(d,p) \ (readdir_r((d), &((p).dir_entry), &((p).result)) ? NULL : (p).result) # elif defined(_POSIX_REENTRANT_FUNCTIONS) /* POSIX draft API, returns (int)0 on success. */ # define _XReaddir(d,p) \ (readdir_r((d),&((p).dir_entry)) ? NULL : &((p).dir_entry)) # elif defined(SVR4) /* Pre-POSIX API, returns non-NULL on success. */ # define _XReaddir(d,p) (readdir_r((d), &(p).dir_entry)) # else /* We have no idea what is going on. Fake it all using process locks. */ # define _XReaddir(d,p) \ ( (_Xos_processLock), \ (((p).result = readdir((d))) ? \ (memcpy(&((p).dir_entry), (p).result, (p).result->d_reclen), \ ((p).result = &(p).dir_entry), 0) : \ 0), \ (_Xos_processUnlock), \ (p).result ) # endif #endif /* X_INCLUDE_DIRENT_H */ #if defined(X_INCLUDE_DIRENT_H) && !defined(_XOS_INCLUDED_DIRENT_H) # define _XOS_INCLUDED_DIRENT_H #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * #define X_INCLUDE_UNISTD_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xgetloginparams; * typedef ... _Xttynameparams; * * char *_XGetlogin(_Xgetloginparams); * char *_XTtyname(int, _Xttynameparams); */ #if defined(X_INCLUDE_UNISTD_H) && !defined(_XOS_INCLUDED_UNISTD_H) /* already included by */ # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_UNISTDAPI) # define XOS_USE_MTSAFE_UNISTDAPI 1 # endif #endif #if !defined(X_INCLUDE_UNISTD_H) || defined(_XOS_INCLUDED_UNISTD_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xgetloginparams; /* dummy */ typedef int _Xttynameparams; /* dummy */ # define _XGetlogin(p) getlogin() # define _XTtyname(f) ttyname((f)) #elif !defined(XOS_USE_MTSAFE_UNISTDAPI) || defined(XNO_MTSAFE_UNISTDAPI) /* Systems with thread support but no _r API. */ typedef struct { char *result; # if defined(MAXLOGNAME) char buf[MAXLOGNAME]; # elif defined(LOGIN_NAME_MAX) char buf[LOGIN_NAME_MAX]; # else char buf[64]; # endif } _Xgetloginparams; typedef struct { char *result; # ifdef TTY_NAME_MAX char buf[TTY_NAME_MAX]; # elif defined(_POSIX_TTY_NAME_MAX) char buf[_POSIX_TTY_NAME_MAX]; # elif defined(_POSIX_PATH_MAX) char buf[_POSIX_PATH_MAX]; # else char buf[256]; # endif } _Xttynameparams; # define _XGetlogin(p) \ ( (_Xos_processLock), \ (((p).result = getlogin()) ? \ (strncpy((p).buf, (p).result, sizeof((p).buf)), \ ((p).buf[sizeof((p).buf)-1] = '\0'), \ ((p).result = (p).buf), 0) : 0), \ (_Xos_processUnlock), \ (p).result ) #define _XTtyname(f,p) \ ( (_Xos_processLock), \ (((p).result = ttyname(f)) ? \ (strncpy((p).buf, (p).result, sizeof((p).buf)), \ ((p).buf[sizeof((p).buf)-1] = '\0'), \ ((p).result = (p).buf), 0) : 0), \ (_Xos_processUnlock), \ (p).result ) #elif defined(_POSIX_THREAD_SAFE_FUNCTIONS) || defined(_POSIX_REENTRANT_FUNCTIONS) /* POSIX API. * * extern int getlogin_r(char *, size_t); * extern int ttyname_r(int, char *, size_t); */ typedef struct { # if defined(MAXLOGNAME) char buf[MAXLOGNAME]; # elif defined(LOGIN_NAME_MAX) char buf[LOGIN_NAME_MAX]; # else char buf[64]; # endif } _Xgetloginparams; typedef struct { # ifdef TTY_NAME_MAX char buf[TTY_NAME_MAX]; # elif defined(_POSIX_TTY_NAME_MAX) char buf[_POSIX_TTY_NAME_MAX]; # elif defined(_POSIX_PATH_MAX) char buf[_POSIX_PATH_MAX]; # else char buf[256]; # endif } _Xttynameparams; # define _XGetlogin(p) (getlogin_r((p).buf, sizeof((p).buf)) ? NULL : (p).buf) # define _XTtyname(f,p) \ (ttyname_r((f), (p).buf, sizeof((p).buf)) ? NULL : (p).buf) #else /* Pre-POSIX API. * * extern char *getlogin_r(char *, size_t); * extern char *ttyname_r(int, char *, size_t); */ typedef struct { # if defined(MAXLOGNAME) char buf[MAXLOGNAME]; # elif defined(LOGIN_NAME_MAX) char buf[LOGIN_NAME_MAX]; # else char buf[64]; # endif } _Xgetloginparams; typedef struct { # ifdef TTY_NAME_MAX char buf[TTY_NAME_MAX]; # elif defined(_POSIX_TTY_NAME_MAX) char buf[_POSIX_TTY_NAME_MAX]; # elif defined(_POSIX_PATH_MAX) char buf[_POSIX_PATH_MAX]; # else char buf[256]; # endif } _Xttynameparams; # define _XGetlogin(p) getlogin_r((p).buf, sizeof((p).buf)) # define _XTtyname(f,p) ttyname_r((f), (p).buf, sizeof((p).buf)) #endif /* X_INCLUDE_UNISTD_H */ #if defined(X_INCLUDE_UNISTD_H) && !defined(_XOS_INCLUDED_UNISTD_H) # define _XOS_INCLUDED_UNISTD_H #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * #define X_INCLUDE_STRING_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xstrtokparams; * * char *_XStrtok(char *, const char*, _Xstrtokparams); */ #if defined(X_INCLUDE_STRING_H) && !defined(_XOS_INCLUDED_STRING_H) /* has already been included by */ # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_STRINGAPI) # define XOS_USE_MTSAFE_STRINGAPI 1 # endif #endif #if !defined(X_INCLUDE_STRING_H) || defined(_XOS_INCLUDED_STRING_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xstrtokparams; /* dummy */ # define _XStrtok(s1,s2,p) \ ( p = 0, (void)p, strtok((s1),(s2)) ) #elif !defined(XOS_USE_MTSAFE_STRINGAPI) || defined(XNO_MTSAFE_STRINGAPI) /* Systems with thread support but no _r API. */ typedef char *_Xstrtokparams; # define _XStrtok(s1,s2,p) \ ( (_Xos_processLock), \ ((p) = strtok((s1),(s2))), \ (_Xos_processUnlock), \ (p) ) #else /* POSIX or pre-POSIX API. */ typedef char * _Xstrtokparams; # define _XStrtok(s1,s2,p) strtok_r((s1),(s2),&(p)) #endif /* X_INCLUDE_STRING_H */ /***** wrappers *****/ /* * Effective prototypes for wrappers: * * #define X_INCLUDE_TIME_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xatimeparams; * typedef ... _Xctimeparams; * typedef ... _Xgtimeparams; * typedef ... _Xltimeparams; * * char *_XAsctime(const struct tm *, _Xatimeparams); * char *_XCtime(const time_t *, _Xctimeparams); * struct tm *_XGmtime(const time_t *, _Xgtimeparams); * struct tm *_XLocaltime(const time_t *, _Xltimeparams); */ #if defined(X_INCLUDE_TIME_H) && !defined(_XOS_INCLUDED_TIME_H) # include # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_TIMEAPI) # define XOS_USE_MTSAFE_TIMEAPI 1 # endif #endif #if !defined(X_INCLUDE_TIME_H) || defined(_XOS_INCLUDED_TIME_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xatimeparams; /* dummy */ # define _XAsctime(t,p) asctime((t)) typedef int _Xctimeparams; /* dummy */ # define _XCtime(t,p) ctime((t)) typedef int _Xgtimeparams; /* dummy */ # define _XGmtime(t,p) gmtime((t)) typedef int _Xltimeparams; /* dummy */ # define _XLocaltime(t,p) localtime((t)) #elif !defined(XOS_USE_MTSAFE_TIMEAPI) || defined(XNO_MTSAFE_TIMEAPI) /* Systems with thread support but no _r API. */ typedef struct { # ifdef TIMELEN char buf[TIMELEN]; # else char buf[26]; # endif char *result; } _Xctimeparams, _Xatimeparams; typedef struct { struct tm buf; struct tm *result; } _Xgtimeparams, _Xltimeparams; # define _XAsctime(t,p) \ ( (_Xos_processLock), \ (((p).result = asctime((t))) ? \ (strncpy((p).buf, (p).result, sizeof((p).buf)), (p).result = &(p).buf) : \ 0), \ (_Xos_processUnlock), \ (p).result ) # define _XCtime(t,p) \ ( (_Xos_processLock), \ (((p).result = ctime((t))) ? \ (strncpy((p).buf, (p).result, sizeof((p).buf)), (p).result = &(p).buf) : \ 0), \ (_Xos_processUnlock), \ (p).result ) # define _XGmtime(t,p) \ ( (_Xos_processLock), \ (((p).result = gmtime(t)) ? \ (memcpy(&(p).buf, (p).result, sizeof((p).buf)), (p).result = &(p).buf) : \ 0), \ (_Xos_processUnlock), \ (p).result ) # define _XLocaltime(t,p) \ ( (_Xos_processLock), \ (((p).result = localtime(t)) ? \ (memcpy(&(p).buf, (p).result, sizeof((p).buf)), (p).result = &(p).buf) : \ 0), \ (_Xos_processUnlock), \ (p).result ) #elif !defined(_POSIX_THREAD_SAFE_FUNCTIONS) && defined(hpV4) /* Returns (int)0 on success. * * extern int asctime_r(const struct tm *timeptr, char *buffer, int buflen); * extern int ctime_r(const time_t *timer, char *buffer, int buflen); * extern int gmtime_r(const time_t *timer, struct tm *result); * extern int localtime_r(const time_t *timer, struct tm *result); */ # ifdef TIMELEN typedef char _Xatimeparams[TIMELEN]; typedef char _Xctimeparams[TIMELEN]; # else typedef char _Xatimeparams[26]; typedef char _Xctimeparams[26]; # endif typedef struct tm _Xgtimeparams; typedef struct tm _Xltimeparams; # define _XAsctime(t,p) (asctime_r((t),(p),sizeof((p))) ? NULL : (p)) # define _XCtime(t,p) (ctime_r((t),(p),sizeof((p))) ? NULL : (p)) # define _XGmtime(t,p) (gmtime_r((t),&(p)) ? NULL : &(p)) # define _XLocaltime(t,p) (localtime_r((t),&(p)) ? NULL : &(p)) #elif !defined(_POSIX_THREAD_SAFE_FUNCTIONS) && defined(__sun) /* Returns NULL on failure. Solaris 2.5 * * extern char *asctime_r(const struct tm *tm,char *buf, int buflen); * extern char *ctime_r(const time_t *clock, char *buf, int buflen); * extern struct tm *gmtime_r(const time_t *clock, struct tm *res); * extern struct tm *localtime_r(const time_t *clock, struct tm *res); */ # ifdef TIMELEN typedef char _Xatimeparams[TIMELEN]; typedef char _Xctimeparams[TIMELEN]; # else typedef char _Xatimeparams[26]; typedef char _Xctimeparams[26]; # endif typedef struct tm _Xgtimeparams; typedef struct tm _Xltimeparams; # define _XAsctime(t,p) asctime_r((t),(p),sizeof((p))) # define _XCtime(t,p) ctime_r((t),(p),sizeof((p))) # define _XGmtime(t,p) gmtime_r((t),&(p)) # define _XLocaltime(t,p) localtime_r((t),&(p)) #else /* defined(_POSIX_THREAD_SAFE_FUNCTIONS) */ /* POSIX final API. * extern char *asctime_r(const struct tm *timeptr, char *buffer); * extern char *ctime_r(const time_t *timer, char *buffer); * extern struct tm *gmtime_r(const time_t *timer, struct tm *result); * extern struct tm *localtime_r(const time_t *timer, struct tm *result); */ # ifdef TIMELEN typedef char _Xatimeparams[TIMELEN]; typedef char _Xctimeparams[TIMELEN]; # else typedef char _Xatimeparams[26]; typedef char _Xctimeparams[26]; # endif typedef struct tm _Xgtimeparams; typedef struct tm _Xltimeparams; # define _XAsctime(t,p) asctime_r((t),(p)) # define _XCtime(t,p) ctime_r((t),(p)) # define _XGmtime(t,p) gmtime_r((t),&(p)) # define _XLocaltime(t,p) localtime_r((t),&(p)) #endif /* X_INCLUDE_TIME_H */ #if defined(X_INCLUDE_TIME_H) && !defined(_XOS_INCLUDED_TIME_H) # define _XOS_INCLUDED_TIME_H #endif /***** wrappers *****/ /* * Effective prototypes for wrappers: * * NOTE: On systems lacking appropriate _r functions Getgrgid() and * Getgrnam() do NOT copy the list of group members! * * Remember that fgetgrent(), setgrent(), getgrent(), and endgrent() * are not included in POSIX. * * #define X_INCLUDE_GRP_H * #define XOS_USE_..._LOCKING * #include * * typedef ... _Xgetgrparams; * * struct group *_XGetgrgid(gid_t, _Xgetgrparams); * struct group *_XGetgrnam(const char *, _Xgetgrparams); */ #if defined(X_INCLUDE_GRP_H) && !defined(_XOS_INCLUDED_GRP_H) # include # if defined(XUSE_MTSAFE_API) || defined(XUSE_MTSAFE_GRPAPI) # define XOS_USE_MTSAFE_GRPAPI 1 # endif #endif #if !defined(X_INCLUDE_GRP_H) || defined(_XOS_INCLUDED_GRP_H) /* Do nothing. */ #elif !defined(XTHREADS) && !defined(X_FORCE_USE_MTSAFE_API) /* Use regular, unsafe API. */ typedef int _Xgetgrparams; /* dummy */ #define _XGetgrgid(g,p) getgrgid((g)) #define _XGetgrnam(n,p) getgrnam((n)) #elif !defined(XOS_USE_MTSAFE_GRPAPI) || defined(XNO_MTSAFE_GRPAPI) /* Systems with thread support but no _r API. UnixWare 2.0. */ typedef struct { struct group grp; char buf[X_LINE_MAX]; /* Should be sysconf(_SC_GETGR_R_SIZE_MAX)? */ struct group *pgrp; size_t len; } _Xgetgrparams; #ifdef SVR4 /* Copy the gr_passwd field too. */ # define _Xgrp_copyGroup(p) \ ( memcpy(&(p).grp, (p).pgrp, sizeof(struct group)), \ ((p).grp.gr_name = (p).buf), \ ((p).len = strlen((p).pgrp->gr_name)), \ strcpy((p).grp.gr_name, (p).pgrp->gr_name), \ ((p).grp.gr_passwd = (p).grp.gr_name + (p).len + 1), \ ((p).pgrp = &(p).grp), \ 0 ) #else # define _Xgrp_copyGroup(p) \ ( memcpy(&(p).grp, (p).pgrp, sizeof(struct group)), \ ((p).grp.gr_name = (p).buf), \ strcpy((p).grp.gr_name, (p).pgrp->gr_name), \ ((p).pgrp = &(p).grp), \ 0 ) #endif #define _XGetgrgid(g,p) \ ( (_Xos_processLock), \ (((p).pgrp = getgrgid((g))) ? _Xgrp_copyGroup(p) : 0), \ (_Xos_processUnlock), \ (p).pgrp ) #define _XGetgrnam(n,p) \ ( (_Xos_processLock), \ (((p).pgrp = getgrnam((n))) ? _Xgrp_copyGroup(p) : 0), \ (_Xos_processUnlock), \ (p).pgrp ) #elif !defined(_POSIX_THREAD_SAFE_FUNCTIONS) && defined(__sun) /* Non-POSIX API. Solaris. * * extern struct group *getgrgid_r(gid_t, struct group *, char *, int); * extern struct group *getgrnam_r(const char *, struct group *, char *, int); */ typedef struct { struct group grp; char buf[X_LINE_MAX]; /* Should be sysconf(_SC_GETGR_R_SIZE_MAX)? */ } _Xgetgrparams; #define _XGetgrgid(g,p) getgrgid_r((g), &(p).grp, (p).buf, sizeof((p).buf)) #define _XGetgrnam(n,p) getgrnam_r((n), &(p).grp, (p).buf, sizeof((p).buf)) #elif !defined(_POSIX_THREAD_SAFE_FUNCTIONS) /* Non-POSIX API. * extern int getgrgid_r(gid_t, struct group *, char *, int); * extern int getgrnam_r(const char *, struct group *, char *, int); */ typedef struct { struct group grp; char buf[X_LINE_MAX]; /* Should be sysconf(_SC_GETGR_R_SIZE_MAX)? */ } _Xgetgrparams; #define _XGetgrgid(g,p) \ ((getgrgid_r((g), &(p).grp, (p).buf, sizeof((p).buf)) ? NULL : &(p).grp)) #define _XGetgrnam(n,p) \ ((getgrnam_r((n), &(p).grp, (p).buf, sizeof((p).buf)) ? NULL : &(p).grp)) #else /* POSIX final API. * * int getgrgid_r(gid_t, struct group *, char *, size_t, struct group **); * int getgrnam_r(const char *, struct group *, char *, size_t, struct group **); */ typedef struct { struct group grp; char buf[X_LINE_MAX]; /* Should be sysconf(_SC_GETGR_R_SIZE_MAX)? */ struct group *result; } _Xgetgrparams; #define _XGetgrgid(g,p) \ ((getgrgid_r((g), &(p).grp, (p).buf, sizeof((p).buf), &(p).result) ? \ NULL : (p).result)) #define _XGetgrnam(n,p) \ ((getgrnam_r((n), &(p).grp, (p).buf, sizeof((p).buf), &(p).result) ? \ NULL : (p).result)) #endif #if defined(X_INCLUDE_GRP_H) && !defined(_XOS_INCLUDED_GRP_H) # define _XOS_INCLUDED_GRP_H #endif #ifdef __cplusplus } /* Close scope of 'extern "C"' declaration which encloses file. */ #endif 070701000a5cac000081a40000000000000000000000014f867a03000009660000010000010007ffffffffffffffff0000002300000000root/usr/local/include/X11/Xdefs.h/*********************************************************** Copyright (c) 1999 The XFree86 Project Inc. All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The XFree86 Project Inc. shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The XFree86 Project Inc.. */ /** ** Types definitions shared between server and clients **/ #ifndef _XDEFS_H #define _XDEFS_H #ifdef _XSERVER64 #include #endif #ifndef _XTYPEDEF_ATOM # define _XTYPEDEF_ATOM # ifndef _XSERVER64 typedef unsigned long Atom; # else typedef CARD32 Atom; # endif #endif #ifndef Bool # ifndef _XTYPEDEF_BOOL # define _XTYPEDEF_BOOL typedef int Bool; # endif #endif #ifndef _XTYPEDEF_POINTER # define _XTYPEDEF_POINTER typedef void *pointer; #endif #ifndef _XTYPEDEF_CLIENTPTR typedef struct _Client *ClientPtr; # define _XTYPEDEF_CLIENTPTR #endif #ifndef _XTYPEDEF_XID # define _XTYPEDEF_XID # ifndef _XSERVER64 typedef unsigned long XID; # else typedef CARD32 XID; # endif #endif #ifndef _XTYPEDEF_MASK # define _XTYPEDEF_MASK # ifndef _XSERVER64 typedef unsigned long Mask; # else typedef CARD32 Mask; # endif #endif #ifndef _XTYPEDEF_FONTPTR # define _XTYPEDEF_FONTPTR typedef struct _Font *FontPtr; /* also in fonts/include/font.h */ #endif #ifndef _XTYPEDEF_FONT # define _XTYPEDEF_FONT typedef XID Font; #endif #ifndef _XTYPEDEF_FSID # ifndef _XSERVER64 typedef unsigned long FSID; # else typedef CARD32 FSID; # endif #endif typedef FSID AccContext; /* OS independent time value XXX Should probably go in Xos.h */ typedef struct timeval **OSTimePtr; typedef void (* BlockHandlerProcPtr)(pointer /* blockData */, OSTimePtr /* pTimeout */, pointer /* pReadmask */); #endif 070701000a5cb8000081a40000000000000000000000014f867a0300000a780000010000010007ffffffffffffffff0000002600000000root/usr/local/include/X11/Xwindows.h/* Copyright 1996, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL- ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABIL- ITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * This header file has the sole purpose of allowing the inclusion of * windows.h without getting any name conflicts with X headers code, by * renaming the conflicting definitions from windows.h * * Some (non-Microsoft) versions of the Windows API headers actually avoid * making the conflicting definitions if XFree86Server is defined, so we * need to remember if that was defined and undefine it during including * windows.h (so the conflicting definitions get wrapped correctly), and * then redefine it afterwards... * * There doesn't seem to be a good way to wrap the min/max macros from * windows.h, so we simply avoid defining them completely, allowing any * pre-existing definition to stand. * */ #undef _XFree86Server #ifdef XFree86Server # define _XFree86Server # undef XFree86Server #endif #define NOMINMAX #define BOOL wBOOL #define INT32 wINT32 #undef Status #define Status wStatus #define ATOM wATOM #define BYTE wBYTE #define FreeResource wFreeResource #include #undef NOMINMAX #undef Status #define Status int #undef BYTE #undef BOOL #undef INT32 #undef ATOM #undef FreeResource #undef CreateWindowA #ifdef RESOURCE_H # undef RT_FONT # undef RT_CURSOR # define RT_FONT ((RESTYPE)4) # define RT_CURSOR ((RESTYPE)5) #endif #ifndef __CYGWIN__ #define sleep(x) Sleep((x) * 1000) #endif #if defined(WIN32) && (!defined(PATH_MAX) || PATH_MAX < 1024) # undef PATH_MAX # define PATH_MAX 1024 #endif #ifdef _XFree86Server # define XFree86Server # undef _XFree86Server #endif 070701000a5ca8000081a40000000000000000000000014f867a0300000f800000010000010007ffffffffffffffff0000002500000000root/usr/local/include/X11/XWDFile.h/* Copyright 1985, 1986, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * XWDFile.h MIT Project Athena, X Window system window raster * image dumper, dump file format header file. * * Author: Tony Della Fera, DEC * 27-Jun-85 * * Modifier: William F. Wyatt, SAO * 18-Nov-86 - version 6 for saving/restoring color maps */ #ifndef XWDFILE_H #define XWDFILE_H #include #define XWD_FILE_VERSION 7 #define sz_XWDheader 100 #define sz_XWDColor 12 typedef CARD32 xwdval; /* for old broken programs */ /* Values in the file are most significant byte first. */ typedef struct _xwd_file_header { /* header_size = SIZEOF(XWDheader) + length of null-terminated * window name. */ CARD32 header_size B32; CARD32 file_version B32; /* = XWD_FILE_VERSION above */ CARD32 pixmap_format B32; /* ZPixmap or XYPixmap */ CARD32 pixmap_depth B32; /* Pixmap depth */ CARD32 pixmap_width B32; /* Pixmap width */ CARD32 pixmap_height B32; /* Pixmap height */ CARD32 xoffset B32; /* Bitmap x offset, normally 0 */ CARD32 byte_order B32; /* of image data: MSBFirst, LSBFirst */ /* bitmap_unit applies to bitmaps (depth 1 format XY) only. * It is the number of bits that each scanline is padded to. */ CARD32 bitmap_unit B32; CARD32 bitmap_bit_order B32; /* bitmaps only: MSBFirst, LSBFirst */ /* bitmap_pad applies to pixmaps (non-bitmaps) only. * It is the number of bits that each scanline is padded to. */ CARD32 bitmap_pad B32; CARD32 bits_per_pixel B32; /* Bits per pixel */ /* bytes_per_line is pixmap_width padded to bitmap_unit (bitmaps) * or bitmap_pad (pixmaps). It is the delta (in bytes) to get * to the same x position on an adjacent row. */ CARD32 bytes_per_line B32; CARD32 visual_class B32; /* Class of colormap */ CARD32 red_mask B32; /* Z red mask */ CARD32 green_mask B32; /* Z green mask */ CARD32 blue_mask B32; /* Z blue mask */ CARD32 bits_per_rgb B32; /* Log2 of distinct color values */ CARD32 colormap_entries B32; /* Number of entries in colormap; not used? */ CARD32 ncolors B32; /* Number of XWDColor structures */ CARD32 window_width B32; /* Window width */ CARD32 window_height B32; /* Window height */ CARD32 window_x B32; /* Window upper left X coordinate */ CARD32 window_y B32; /* Window upper left Y coordinate */ CARD32 window_bdrwidth B32; /* Window border width */ } XWDFileHeader; /* Null-terminated window name follows the above structure. */ /* Next comes XWDColor structures, at offset XWDFileHeader.header_size in * the file. XWDFileHeader.ncolors tells how many XWDColor structures * there are. */ typedef struct { CARD32 pixel B32; CARD16 red B16; CARD16 green B16; CARD16 blue B16; CARD8 flags; CARD8 pad; } XWDColor; /* Last comes the image data in the format described by XWDFileHeader. */ #endif /* XWDFILE_H */ 070701000a5cbd000041ed0000000000000000000000034f867ab4000000000000010000010007ffffffffffffffff0000001300000000root/usr/local/lib070701000a5cbe000041ed0000000000000000000000024f867ab4000000000000010000010007ffffffffffffffff0000001d00000000root/usr/local/lib/pkgconfig070701000a5cbf000081a40000000000000000000000014f867a03000000d60000010000010007ffffffffffffffff0000002700000000root/usr/local/lib/pkgconfig/xproto.pcprefix=/usr/local exec_prefix=${prefix} libdir=${exec_prefix}/lib includedir=${prefix}/include includex11dir=${prefix}/include/X11 Name: Xproto Description: Xproto headers Version: 7.0.23 Cflags: -I${includedir} 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-9.xml Acknowledgements The primary contributers to the X11 protocol are: Dave Carver (Digital HPW) Branko Gerovac (Digital HPW) Jim Gettys (MIT/Project Athena, Digital) Phil Karlton (Digital WSL) Scott McGregor (Digital SSG) Ram Rao (Digital UEG) David Rosenthal (Sun) Dave Winchell (Digital UEG) The implementors of initial server who provided useful input are: Susan Angebranndt (Digital) Raymond Drewry (Digital) Todd Newman (Digital) The invited reviewers who provided useful input are: Andrew Cherenson (Berkeley) Burns Fisher (Digital) Dan Garfinkel (HP) Leo Hourvitz (Next) Brock Krizan (HP) David Laidlaw (Stellar) Dave Mellinger (Interleaf) Ron Newman (MIT) John Ousterhout (Berkeley) Andrew Palay (ITC CMU) Ralph Swick (MIT) Craig Taylor (Sun) Jeffery Vroom (Stellar) Thanks go to Al Mento of Digital's UEG Documentation Group for formatting this document. This document does not attempt to provide the rationale or pragmatics required to fully understand the protocol or to place it in perspective within a complete system. The protocol contains many management mechanisms that are not intended for normal applications. Not all mechanisms are needed to build a particular user interface. It is important to keep in mind that the protocol is intended to provide mechanism, not policy. Robert W. Scheifler X Consortium, Inc. Protocol Formats
Request Format Requestformat Every request contains an 8-bit major opcode Opcodemajor and a 16-bit length field Requestlength expressed in units of four bytes. Every request consists of four bytes of a header (containing the major opcode, the length field, and a data byte) followed by zero or more additional bytes of data. The length field defines the total length of the request, including the header. The length field in a request must equal the minimum length required to contain the request. If the specified length is smaller or larger than the required length, an error is generated. Unused bytes in a request are not required to be zero. Major opcodes 128 through 255 are reserved for extensions. Extension Extensions are intended to contain multiple requests, so extension requests typically have an additional minor opcode encoded in the second data byte in the request header. Opcodeminor However, the placement and interpretation of this minor opcode and of all other fields in extension requests are not defined by the core protocol. Every request on a given connection is implicitly assigned a sequence number, Sequence number starting with one, that is used in replies, errors, and events.
Reply Format Replyformat Every reply contains a 32-bit length field expressed in units of four bytes. Every reply consists of 32 bytes followed by zero or more additional bytes of data, as specified in the length field. Unused bytes within a reply are not guaranteed to be zero. Every reply also contains the least significant 16 bits of the sequence number of the corresponding request.
Error Format Error reportformat Error reports are 32 bytes long. Every error includes an 8-bit error code. Error codes 128 through 255 are reserved for extensions. Error Codesextensions Extensionerror codes Every error also includes the major and minor opcodes of the failed request and the least significant 16 bits of the sequence number of the request. For the following errors (see section 4), the failing resource ID is also returned: Colormap, Cursor, Drawable, Font, GContext, IDChoice, Pixmap and Window. For Atom errors, the failing atom is returned. For Value errors, the failing value is returned. Other core errors return no additional data. Unused bytes within an error are not guaranteed to be zero.
Event Format Eventformat Events are 32 bytes long. Unused bytes within an event are not guaranteed to be zero. Every event contains an 8-bit type code. The most significant bit in this code is set if the event was generated from a SendEvent request. Event codes 64 through 127 are reserved for extensions, although the core protocol does not define a mechanism for selecting interest in such events. Eventextension Extensionevent Every core event (with the exception of KeymapNotify) also contains the least significant 16 bits of the sequence number of the last request issued by the client that was (or is currently being) processed by the server.
Syntactic Conventions The rest of this document uses the following syntactic conventions. The syntax {...} encloses a set of alternatives. The syntax [...] encloses a set of structure components. In general, TYPEs are in uppercase and AlternativeValues are capitalized. Requests in section 9 are described in the following format: RequestName arg1: type1 ... argN: typeN ▶ result1: type1 ... resultM: typeM Errors: kind1, ..., kindK Description. If no ▶ is present in the description, then the request has no reply (it is asynchronous), although errors may still be reported. If ▶+ is used, then one or more replies can be generated for a single request. Events in section 11 are described in the following format: EventName value1: type1 ... valueN: typeN Description. Common Types Name Value LISTofFOOTypesLISTofFOO A type name of the form LISTofFOO means a counted list of elements of type FOO. The size of the length field may vary (it is not necessarily the same size as a FOO), and in some cases, it may be implicit. It is fully specified in Appendix B. Except where explicitly noted, zero-length lists are legal. BITMASKTypesBITMASKLISTofVALUETypesLISTofVALUE The types BITMASK and LISTofVALUE are somewhat special. Various requests contain arguments of the form: value-mask: BITMASK value-list: LISTofVALUE These are used to allow the client to specify a subset of a heterogeneous collection of optional arguments. The value-mask specifies which arguments are to be provided; each such argument is assigned a unique bit position. The representation of the BITMASK will typically contain more bits than there are defined arguments. The unused bits in the value-mask must be zero (or the server generates a Value error). The value-list contains one value for each bit set to 1 in the mask, from least significant to most significant bit in the mask. Each value is represented with four bytes, but the actual value occupies only the least significant bytes as required. The values of the unused bytes do not matter. ORTypesOR A type of the form "T1 or ... or Tn" means the union of the indicated types. A single-element type is given as the element without enclosing braces. WINDOWTypesWINDOW 32-bit value (top three bits guaranteed to be zero) PIXMAPTypesPIXMAP 32-bit value (top three bits guaranteed to be zero) CURSORTypesCURSOR 32-bit value (top three bits guaranteed to be zero) FONTTypesFONT 32-bit value (top three bits guaranteed to be zero) GCONTEXTTypesGCONTEXT 32-bit value (top three bits guaranteed to be zero) COLORMAPTypesCOLORMAP 32-bit value (top three bits guaranteed to be zero) DRAWABLETypesDRAWABLE WINDOW or PIXMAP FONTABLETypesFONTABLE FONT or GCONTEXT ATOMTypesATOM 32-bit value (top three bits guaranteed to be zero) VISUALIDTypesVISUALID 32-bit value (top three bits guaranteed to be zero) VALUETypesVALUE 32-bit quantity (used only in LISTofVALUE) BYTETypesBYTE 8-bit value INT8TypesINT8 8-bit signed integer INT16TypesINT16 16-bit signed integer INT32TypesINT32 32-bit signed integer CARD8TypesCARD8 8-bit unsigned integer CARD16TypesCARD16 16-bit unsigned integer CARD32TypesCARD32 32-bit unsigned integer TIMESTAMPTypesTIMESTAMP CARD32 BITGRAVITYTypesBITGRAVITY { Forget, Static, NorthWest, North, NorthEast, West, Center, East, SouthWest, South, SouthEast } WINGRAVITYTypesWINGRAVITY { Unmap, Static, NorthWest, North, NorthEast, West, Center, East, SouthWest, South, SouthEast } BOOLTypesBOOL { True, False } EVENTTypesEVENT { KeyPress, KeyRelease, OwnerGrabButton, ButtonPress, ButtonRelease, EnterWindow, LeaveWindow, PointerMotion, PointerMotionHint, Button1Motion, Button2Motion, Button3Motion, Button4Motion, Button5Motion, ButtonMotion, Exposure, VisibilityChange, StructureNotify, ResizeRedirect, SubstructureNotify, SubstructureRedirect, FocusChange, PropertyChange, ColormapChange, KeymapState } POINTEREVENTTypesPOINTEREVENT { ButtonPress, ButtonRelease, EnterWindow, LeaveWindow, PointerMotion, PointerMotionHint, Button1Motion, Button2Motion, Button3Motion, Button4Motion, Button5Motion, ButtonMotion, KeymapState } DEVICEEVENTTypesDEVICEEVENT { KeyPress, KeyRelease, ButtonPress, ButtonRelease, PointerMotion, Button1Motion, Button2Motion, Button3Motion, Button4Motion, Button5Motion, ButtonMotion } KEYSYMTypesKEYSYM 32-bit value (top three bits guaranteed to be zero) KEYCODETypesKEYCODE CARD8 BUTTONTypesBUTTON CARD8 KEYMASKTypesKEYMASK { Shift, Lock, Control, Mod1, Mod2, Mod3, Mod4, Mod5 } BUTMASKTypesBUTMASK { Button1, Button2, Button3, Button4, Button5 } KEYBUTMASKTypesKEYBUTMASK KEYMASK or BUTMASK STRING8TypesSTRING8 LISTofCARD8 STRING16TypesSTRING16 LISTofCHAR2B CHAR2BTypesCHAR2B [byte1, byte2: CARD8] POINTTypesPOINT [x, y: INT16] RECTANGLETypesRECTANGLE [x, y: INT16, width, height: CARD16] ARCTypesARC [x, y: INT16, width, height: CARD16, angle1, angle2: INT16] HOSTTypesHOST [family: { Internet, InternetV6, ServerInterpreted, DECnet, Chaos } address: LISTofBYTE] The [x,y] coordinates of a RECTANGLE specify the upper-left corner. The primary interpretation of large characters in a STRING16 is that they are composed of two bytes used to index a two-dimensional matrix, hence, the use of CHAR2B rather than CARD16. This corresponds to the JIS/ISO method of indexing 2-byte characters. It is expected that most large fonts will be defined with 2-byte matrix indexing. For large fonts constructed with linear indexing, a CHAR2B can be interpreted as a 16-bit number by treating byte1 as the most significant byte. This means that clients should always transmit such 16-bit character values most significant byte first, as the server will never byte-swap CHAR2B quantities. The length, format, and interpretation of a HOST address are specific to the family (see ChangeHosts request). Errors In general, when a request terminates with an error, the request has no side effects (that is, there is no partial execution). The only requests for which this is not true are ChangeWindowAttributes, ChangeGC, PolyText8, PolyText16, FreeColors, StoreColors and ChangeKeyboardControl. The following error codes result from various requests as follows: Error Description AccessError CodesAccess An attempt is made to grab a key/button combination already grabbed by another client. An attempt is made to free a colormap entry not allocated by the client or to free an entry in a colormap that was created with all entries writable. An attempt is made to store into a read-only or an unallocated colormap entry. An attempt is made to modify the access control list from other than the local host (or otherwise authorized client). An attempt is made to select an event type that only one client can select at a time when another client has already selected it. AllocError CodesAlloc The server failed to allocate the requested resource. Note that the explicit listing of Alloc errors in request only covers allocation errors at a very coarse level and is not intended to cover all cases of a server running out of allocation space in the middle of service. The semantics when a server runs out of allocation space are left unspecified, but a server may generate an Alloc error on any request for this reason, and clients should be prepared to receive such errors and handle or discard them. AtomError CodesAtom A value for an ATOM argument does not name a defined ATOM. ColormapError CodesColormap A value for a COLORMAP argument does not name a defined COLORMAP. CursorError CodesCursor A value for a CURSOR argument does not name a defined CURSOR. DrawableError CodesDrawable A value for a DRAWABLE argument does not name a defined WINDOW or PIXMAP. FontError CodesFont A value for a FONT argument does not name a defined FONT. A value for a FONTABLE argument does not name a defined FONT or a defined GCONTEXT. GContextError CodesGContext A value for a GCONTEXT argument does not name a defined GCONTEXT. IDChoiceError CodesIDChoice The value chosen for a resource identifier either is not included in the range assigned to the client or is already in use. ImplementationError CodesImplementation The server does not implement some aspect of the request. A server that generates this error for a core request is deficient. As such, this error is not listed for any of the requests, but clients should be prepared to receive such errors and handle or discard them. LengthError CodesLength The length of a request is shorter or longer than that required to minimally contain the arguments. The length of a request exceeds the maximum length accepted by the server. MatchError CodesMatch An InputOnly window is used as a DRAWABLE. In a graphics request, the GCONTEXT argument does not have the same root and depth as the destination DRAWABLE argument. Some argument (or pair of arguments) has the correct type and range, but it fails to match in some other way required by the request. NameError CodesName A font or color of the specified name does not exist. PixmapError CodesPixmap A value for a PIXMAP argument does not name a defined PIXMAP. RequestError CodesRequest The major or minor opcode does not specify a valid request. ValueError CodesValue Some numeric value falls outside the range of values accepted by the request. Unless a specific range is specified for an argument, the full range defined by the argument's type is accepted. Any argument defined as a set of alternatives typically can generate this error (due to the encoding). WindowError CodesWindow A value for a WINDOW argument does not name a defined WINDOW. The Atom, Colormap, Cursor, Drawable, Font, GContext, Pixmap and Window errors are also used when the argument type is extended by union with a set of fixed alternatives, for example, <WINDOW or PointerRoot or None>. Keyboards Keyboard A KEYCODE represents a physical (or logical) key. TypesKEYCODE Keycode Keycodes lie in the inclusive range [8,255]. A keycode value carries no intrinsic information, although server implementors may attempt to encode geometry information (for example, matrix) to be interpreted in a server-dependent fashion. The mapping between keys and keycodes cannot be changed using the protocol. A KEYSYM is an encoding of a symbol on the cap of a key. TypesKEYSYM Keysym The set of defined KEYSYMs include the character sets Latin-1, Latin-2, Latin-3, Latin-4, Kana, Arabic, Cyrillic, Greek, Tech, Special, Publish, APL, Hebrew, Thai, and Korean as well as a set of symbols common on keyboards (Return, Help, Tab, and so on). KEYSYMs with the most significant bit (of the 29 bits) set are reserved as vendor-specific. A list of KEYSYMs is associated with each KEYCODE. The list is intended to convey the set of symbols on the corresponding key. If the list (ignoring trailing NoSymbol entries) is a single KEYSYM "K", then the list is treated as if it were the list "K NoSymbol K NoSymbol". If the list (ignoring trailing NoSymbol entries) is a pair of KEYSYMs "K1 K2", then the list is treated as if it were the list "K1 K2 K1 K2". If the list (ignoring trailing NoSymbol entries) is a triple of KEYSYMs "K1 K2 K3", then the list is treated as if it were the list " K1 K2 K3 NoSymbol". When an explicit "void" element is desired in the list, the value VoidSymbol can be used. The first four elements of the list are split into two groups of KEYSYMs. Group 1 contains the first and second KEYSYMs, Group 2 contains the third and fourth KEYSYMs. Within each group, if the second element of the group is NoSymbol, then the group should be treated as if the second element were the same as the first element, except when the first element is an alphabetic KEYSYM "K" for which both lowercase and uppercase forms are defined. In that case, the group should be treated as if the first element were the lowercase form of "K" and the second element were the uppercase form of "K". The standard rules for obtaining a KEYSYM from a KeyPress KeyPress event make use of only the Group 1 and Group 2 KEYSYMs; no interpretation of other KEYSYMs in the list is defined. The modifier state determines which group to use. Switching between groups is controlled by the KEYSYM named MODE SWITCH, by attaching that KEYSYM to some KEYCODE and attaching that KEYCODE to any one of the modifiers Mod1 through Mod5. This modifier is modifiergroup called the "group modifier". For any KEYCODE, Group 1 is used when the group modifier is off, and Group 2 is used when the group modifier is on. The Lock modifierLock modifier is interpreted as CapsLock when the KEYSYM named CAPS LOCK is attached to some KEYCODE and that KEYCODE is attached to the Lock modifier. The Lock modifier is interpreted as ShiftLock when the KEYSYM named SHIFT LOCK is attached to some KEYCODE and that KEYCODE is attached to the Lock modifier. If the Lock modifier could be interpreted as both CapsLock and ShiftLock, the CapsLock interpretation is used. The operation of "keypad" keys is controlled by the KEYSYM named NUM LOCK, by attaching that KEYSYM to some KEYCODE and attaching that KEYCODE to any one of the modifiers Mod1 through Mod5. This modifier is called the modifierNumLock "numlock modifier". The standard KEYSYMs with the prefix KEYPAD in their name are called "keypad" KEYSYMs; these are KEYSYMS with numeric value in the hexadecimal range #xFF80 to #xFFBD inclusive. In addition, vendor-specific KEYSYMS in the hexadecimal range #x11000000 to #x1100FFFF are also keypad KEYSYMs. Within a group, the choice of KEYSYM is determined by applying the first rule that is satisfied from the following list: The numlock modifier is on and the second KEYSYM is a keypad KEYSYM. In this case, if the Shift modifier is on, or if the Lock modifier is on and is interpreted as ShiftLock, then the first KEYSYM is used; otherwise, the second KEYSYM is used. The Shift and Lock modifiers are both off. In this case, the first KEYSYM is used. The Shift modifier is off, and the Lock modifier is on and is interpreted as CapsLock. In this case, the first KEYSYM is used, but if that KEYSYM is lowercase alphabetic, then the corresponding uppercase KEYSYM is used instead. The Shift modifier is on, and the Lock modifier is on and is interpreted as CapsLock. In this case, the second KEYSYM is used, but if that KEYSYM is lowercase alphabetic, then the corresponding uppercase KEYSYM is used instead. The Shift modifier is on, or the Lock modifier is on and is interpreted as ShiftLock, or both. In this case, the second KEYSYM is used. The mapping between KEYCODEs and KEYSYMs is not used directly by the server; it is merely stored for reading and writing by clients. Pointers Buttons are always numbered starting with one. Buttonnumber Predefined Atoms Atompredefined Predefined atoms are not strictly necessary and may not be useful in all environments, but they will eliminate many InternAtom requests in most applications. Note that they are predefined only in the sense of having numeric values, not in the sense of having required semantics. The core protocol imposes no semantics on these names, but semantics are specified in other X Window System standards, such as the Inter-Client Communication Conventions Manual and the X Logical Font Description Conventions. The following names have predefined atom values. Note that uppercase and lowercase matter. ARC ATOM BITMAP CAP_HEIGHT CARDINAL COLORMAP COPYRIGHT CURSOR CUT_BUFFER0 CUT_BUFFER1 CUT_BUFFER2 CUT_BUFFER3 CUT_BUFFER4 CUT_BUFFER5 CUT_BUFFER6 CUT_BUFFER7 DRAWABLE END_SPACE FAMILY_NAME FONT FONT_NAME FULL_NAME INTEGER ITALIC_ANGLE MAX_SPACE MIN_SPACE NORM_SPACE NOTICE PIXMAP POINT POINT_SIZE PRIMARY QUAD_WIDTH RECTANGLE RESOLUTION RESOURCE_MANAGER RGB_BEST_MAP RGB_BLUE_MAP RGB_COLOR_MAP RGB_DEFAULT_MAP RGB_GRAY_MAP RGB_GREEN_MAP RGB_RED_MAP SECONDARY STRIKEOUT_ASCENT STRIKEOUT_DESCENT STRING SUBSCRIPT_X SUBSCRIPT_Y SUPERSCRIPT_X SUPERSCRIPT_Y UNDERLINE_POSITION UNDERLINE_THICKNESS VISUALID WEIGHT WINDOW WM_CLASS WM_CLIENT_MACHINE WM_COMMAND WM_HINTS WM_ICON_NAME WM_ICON_SIZE WM_NAME WM_NORMAL_HINTS WM_SIZE_HINTS WM_TRANSIENT_FOR WM_ZOOM_HINTS X_HEIGHT To avoid conflicts with possible future names for which semantics might be imposed (either at the protocol level or in terms of higher level user interface models), names beginning with an underscore should be used for atoms that are private to a particular vendor or organization. To guarantee no conflicts between vendors and organizations, additional prefixes need to be used. However, the protocol does not define the mechanism for choosing such prefixes. For names private to a single application or end user but stored in globally accessible locations, it is suggested that two leading underscores be used to avoid conflicts with other names. Connection Setup Connection For remote clients, the X protocol can be built on top of any reliable byte stream.
Connection Initiation Connectionopening The client must send an initial byte of data to identify the byte order to be employed. Byte order The value of the byte must be octal 102 or 154. The value 102 (ASCII uppercase B) means values are transmitted most significant byte first, and value 154 (ASCII lowercase l) means values are transmitted least significant byte first. Except where explicitly noted in the protocol, all 16-bit and 32-bit quantities sent by the client must be transmitted with this byte order, and all 16-bit and 32-bit quantities returned by the server will be transmitted with this byte order. Following the byte-order byte, the client sends the following information at connection setup:
protocol-major-version: CARD16 protocol-minor-version: CARD16 authorization-protocol-name: STRING8 authorization-protocol-data: STRING8
The version numbers indicate what version of the protocol the client expects the server to implement. The authorization name indicates what authorization (and authentication) protocol the client expects the server to use, and the data is specific to that protocol. Authorization Specification of valid authorization mechanisms is not part of the core X protocol. A server that does not implement the protocol the client expects or that only implements the host-based mechanism may simply ignore this information. If both name and data strings are empty, this is to be interpreted as "no explicit authorization."
Server Response The client receives the following information at connection setup: success: { Failed, Success, Authenticate} The client receives the following additional data if the returned success value is Failed, and the connection is not successfully established:
protocol-major-version: CARD16 protocol-minor-version: CARD16 reason: STRING8
The client receives the following additional data if the returned success value is Authenticate, and further authentication negotiation is required:
reason: STRING8
The contents of the reason string are specific to the authorization protocol in use. The semantics of this authentication negotiation are not constrained, except that the negotiation must eventually terminate with a reply from the server containing a success value of Failed or Success. The client receives the following additional data if the returned success value is Success, and the connection is successfully established:
protocol-major-version: CARD16 protocol-minor-version: CARD16 vendor: STRING8 release-number: CARD32 resource-id-base, resource-id-mask: CARD32 image-byte-order: { LSBFirst, MSBFirst } bitmap-scanline-unit: {8, 16, 32} bitmap-scanline-pad: {8, 16, 32} bitmap-bit-order: { LeastSignificant, MostSignificant } pixmap-formats: LISTofFORMAT roots: LISTofSCREEN motion-buffer-size: CARD32 maximum-request-length: CARD16 min-keycode, max-keycode: KEYCODE where:
FORMAT: [depth: CARD8, bits-per-pixel: {1, 4, 8, 16, 24, 32} scanline-pad: {8, 16, 32}] SCREEN: [root: WINDOW width-in-pixels, height-in-pixels: CARD16 width-in-millimeters, height-in-millimeters: CARD16 allowed-depths: LISTofDEPTH root-depth: CARD8 root-visual: VISUALID default-colormap: COLORMAP white-pixel, black-pixel: CARD32 min-installed-maps, max-installed-maps: CARD16 backing-stores: {Never, WhenMapped, Always} save-unders: BOOL current-input-masks: SETofEVENT] DEPTH: [depth: CARD8 visuals: LISTofVISUALTYPE] VISUALTYPE: [visual-id: VISUALID class: {StaticGray, StaticColor, TrueColor, GrayScale, PseudoColor, DirectColor} red-mask, green-mask, blue-mask: CARD32 bits-per-rgb-value: CARD8 colormap-entries: CARD16]
Server Information The information that is global to the server is: The protocol version numbers are an escape hatch in case future revisions of the protocol are necessary. In general, the major version would increment for incompatible changes, and the minor version would increment for small upward compatible changes. Barring changes, the major version will be 11, and the minor version will be 0. The protocol version numbers returned indicate the protocol the server actually supports. This might not equal the version sent by the client. The server can (but need not) refuse connections from clients that offer a different version than the server supports. A server can (but need not) support more than one version simultaneously. The vendor string gives some identification of the owner of the server implementation. The vendor controls the semantics of the release number. The resource-id-mask contains a single contiguous set of bits (at least 18). The client allocates resource IDs for types WINDOW, PIXMAP, CURSOR, FONT, GCONTEXT, and COLORMAP by choosing a value with only some subset of these bits set and ORing it with resource-id-base. ResourceID Only values constructed in this way can be used to name newly created resources over this connection. Resource IDs never have the top three bits set. The client is not restricted to linear or contiguous allocation of resource IDs. Once an ID has been freed, it can be reused. An ID must be unique with respect to the IDs of all other resources, not just other resources of the same type. However, note that the value spaces of resource identifiers, atoms, visualids, and keysyms are distinguished by context, and as such, are not required to be disjoint; for example, a given numeric value might be both a valid window ID, a valid atom, and a valid keysym. Although the server is in general responsible for byte-swapping data to match the client, images are always transmitted and received in formats (including byte order) specified by the server. The byte order for images is given by image-byte-order and applies to each scanline unit in XY format (bitmap format) and to each pixel value in Z format. A bitmap is represented in scanline order. Bitmapformat Each scanline is padded to a multiple of bits as given by bitmap-scanline-pad. The pad bits are of arbitrary value. The scanline is quantized in multiples of bits as given by bitmap-scanline-unit. The bitmap-scanline-unit is always less than or equal to the bitmap-scanline-pad. Within each unit, the leftmost bit in the bitmap is either the least significant or most significant bit in the unit, as given by bitmap-bit-order. XYFormat If a pixmap is represented in XY format, each plane is represented as a bitmap, and the planes appear from most significant to least significant in bit order with no padding between planes. Pixmap-formats contains one entry for each depth value. Pixmapformat ZFormat The entry describes the Z format used to represent images of that depth. An entry for a depth is included if any screen supports that depth, and all screens supporting that depth must support only that Z format for that depth. In Z format, the pixels are in scanline order, left to right within a scanline. The number of bits used to hold each pixel is given by bits-per-pixel. Bits-per-pixel may be larger than strictly required by the depth, in which case the least significant bits are used to hold the pixmap data, and the values of the unused high-order bits are undefined. When the bits-per-pixel is 4, the order of nibbles in the byte is the same as the image byte-order. When the bits-per-pixel is 1, the format is identical for bitmap format. Each scanline is padded to a multiple of bits as given by scanline-pad. When bits-per-pixel is 1, this will be identical to bitmap-scanline-pad. How a pointing device roams the screens is up to the server implementation and is transparent to the protocol. No geometry is defined among screens. The server may retain the recent history of pointer motion and do so to a finer granularity than is reported by MotionNotify events. The GetMotionEvents request makes such history available. The motion-buffer-size gives the approximate maximum number of elements in the history buffer. Maximum-request-length specifies the maximum length of a request accepted by the server, in 4-byte units. Requestlength That is, length is the maximum value that can appear in the length field of a request. Requests larger than this maximum generate a Length error, and the server will read and simply discard the entire request. Maximum-request-length will always be at least 4096 (that is, requests of length up to and including 16384 bytes will be accepted by all servers). TypesKEYCODE Keycode Min-keycode and max-keycode specify the smallest and largest keycode values transmitted by the server. Min-keycode is never less than 8, and max-keycode is never greater than 255. Not all keycodes in this range are required to have corresponding keys.
Screen Information Screen The information that applies per screen is: The allowed-depths specifies what pixmap and window depths are supported. Pixmaps are supported for each depth listed, and windows of that depth are supported if at least one visual type is listed for the depth. A pixmap depth of one is always supported and listed, but windows of depth one might not be supported. A depth of zero is never listed, but zero-depth InputOnly windows are always supported. Root-depth and root-visual specify the depth and visual type of the root window. Width-in-pixels and height-in-pixels specify the size of the root window (which cannot be changed). The class of the root window is always InputOutput. Width-in-millimeters and height-in-millimeters can be used to determine the physical size and the aspect ratio. The default-colormap is the one initially associated with the root window. Clients with minimal color requirements creating windows of the same depth as the root may want to allocate from this map by default. Black-pixel and white-pixel can be used in implementing a monochrome application. These pixel values are for permanently allocated entries in the default-colormap. The actual RGB values may be settable on some screens and, in any case, may not actually be black and white. The names are intended to convey the expected relative intensity of the colors. The border of the root window is initially a pixmap filled with the black-pixel. The initial background of the root window is a pixmap filled with some unspecified two-color pattern using black-pixel and white-pixel. Min-installed-maps specifies the number of maps that can be guaranteed to be installed simultaneously (with InstallColormap), regardless of the number of entries allocated in each map. Max-installed-maps specifies the maximum number of maps that might possibly be installed simultaneously, depending on their allocations. Multiple static-visual colormaps with identical contents but differing in resource ID should be considered as a single map for the purposes of this number. For the typical case of a single hardware colormap, both values will be 1. Backing store Backing-stores indicates when the server supports backing stores for this screen, although it may be storage limited in the number of windows it can support at once. If save-unders is True, the server can support the save-under mode in CreateWindow and ChangeWindowAttributes, although again it may be storage limited. The current-input-events is what GetWindowAttributes would return for the all-event-masks for the root window.
Visual Information Visualinformation The information that applies per visual-type is: A given visual type might be listed for more than one depth or for more than one screen. Colormaptypes Pixel value For PseudoColor, a pixel value indexes a colormap to produce independent RGB values; the RGB values can be changed dynamically. GrayScale is treated in the same way as PseudoColor except which primary drives the screen is undefined; thus, the client should always store the same value for red, green, and blue in colormaps. For DirectColor, a pixel value is decomposed into separate RGB subfields, and each subfield separately indexes the colormap for the corresponding value. The RGB values can be changed dynamically. TrueColor is treated in the same way as DirectColor except the colormap has predefined read-only RGB values. These values are server-dependent but provide linear or near-linear increasing ramps in each primary. StaticColor is treated in the same way as PseudoColor except the colormap has predefined read-only RGB values, which are server-dependent. StaticGray is treated in the same way as StaticColor except the red, green, and blue values are equal for any single pixel value, resulting in shades of gray. StaticGray with a two-entry colormap can be thought of as monochrome. The red-mask, green-mask, and blue-mask are only defined for DirectColor and TrueColor. Each has one contiguous set of bits set to 1 with no intersections. Usually each mask has the same number of bits set to 1. The bits-per-rgb-value specifies the log base 2 of the number of distinct color intensity values (individually) of red, green, and blue. This number need not bear any relation to the number of colormap entries. Actual RGB values are always passed in the protocol within a 16-bit spectrum, with 0 being minimum intensity and 65535 being the maximum intensity. On hardware that provides a linear zero-based intensity ramp, the following relationship exists: hw-intensity = protocol-intensity / (65536 / total-hw-intensities) Colormap entries are indexed from 0. The colormap-entries defines the number of available colormap entries in a newly created colormap. For DirectColor and TrueColor, this will usually be 2 to the power of the maximum number of bits set to 1 in red-mask, green-mask, and blue-mask.
Requests
CreateWindow CreateWindow wid, parent: WINDOW class: { InputOutput, InputOnly, CopyFromParent} depth: CARD8 visual: VISUALID or CopyFromParent x, y: INT16 width, height, border-width: CARD16 value-mask: BITMASK value-list: LISTofVALUE Errors: Alloc, Colormap, Cursor, IDChoice, Match, Pixmap, Value, Window This request creates an unmapped window and assigns the identifier wid to it. A class of CopyFromParent means the class is taken from the parent. A depth of zero for class InputOutput or CopyFromParent means the depth is taken from the parent. A visual of CopyFromParent means the visual type is taken from the parent. For class InputOutput, the visual type and depth must be a combination supported for the screen (or a Match error results). The depth need not be the same as the parent, but the parent must not be of class InputOnly (or a Match error results). For class InputOnly, the depth must be zero (or a Match error results), and the visual must be one supported for the screen (or a Match error results). However, the parent can have any depth and class. The server essentially acts as if InputOnly windows do not exist for the purposes of graphics requests, exposure processing, and VisibilityNotify events. An InputOnly window cannot be used as a drawable (as a source or destination for graphics requests). InputOnly and InputOutput windows act identically in other respects-properties, grabs, input control, and so on. The coordinate system has the X axis horizontal and the Y axis vertical with the origin [0, 0] at the upper-left corner. Coordinates are integral, in terms of pixels, and coincide with pixel centers. Each window and pixmap has its own coordinate system. For a window, the origin is inside the border at the inside, upper-left corner. The x and y coordinates for the window are relative to the parent's origin and specify the position of the upper-left outer corner of the window (not the origin). The width and height specify the inside size (not including the border) and must be nonzero (or a Value error results). The border-width for an InputOnly window must be zero (or a Match error results). The window is placed on top in the stacking order with respect to siblings. The value-mask and value-list specify attributes of the window that are to be explicitly initialized. The possible values are: Attribute Type background-pixmap PIXMAP or None or ParentRelative background-pixel CARD32 border-pixmap PIXMAP or CopyFromParent border-pixel CARD32 bit-gravity BITGRAVITY win-gravity WINGRAVITY backing-store { NotUseful, WhenMapped, Always } backing-planes CARD32 backing-pixel CARD32 save-under BOOL event-mask SETofEVENT do-not-propagate-mask SETofDEVICEEVENT override-redirect BOOL colormap COLORMAP or CopyFromParent cursor CURSOR or None The default values when attributes are not explicitly initialized are: Attribute Default background-pixmap None border-pixmap CopyFromParent bit-gravity Forget win-gravity NorthWest backing-store NotUseful backing-planes all ones backing-pixel zero save-under False event-mask {} (empty set) do-not-propagate-mask {} (empty set) override-redirect False colormap CopyFromParent cursor None Only the following attributes are defined for InputOnly windows: win-gravity event-mask do-not-propagate-mask override-redirect cursor It is a Match error to specify any other attributes for InputOnly windows. Background If background-pixmap is given, it overrides the default background-pixmap. The background pixmap and the window must have the same root and the same depth (or a Match error results). Any size pixmap can be used, although some sizes may be faster than others. If background None is specified, the window has no defined background. If background ParentRelative is specified, the parent's background is used, but the window must have the same depth as the parent (or a Match error results). If the parent has background None, then the window will also have background None. A copy of the parent's background is not made. The parent's background is reexamined each time the window background is required. If background-pixel is given, it overrides the default background-pixmap and any background-pixmap given explicitly, and a pixmap of undefined size filled with background-pixel is used for the background. Range checking is not performed on the background-pixel value; it is simply truncated to the appropriate number of bits. For a ParentRelative background, the background tile origin always aligns with the parent's background tile origin. Otherwise, the background tile origin is always the window origin. When no valid contents are available for regions of a window and the regions are either visible or the server is maintaining backing store, the server automatically tiles the regions with the window's background unless the window has a background of None. If the background is None, the previous screen contents from other windows of the same depth as the window are simply left in place if the contents come from the parent of the window or an inferior of the parent; otherwise, the initial contents of the exposed regions are undefined. Exposure events are then generated for the regions, even if the background is None. The border tile origin is always the same as the background tile origin. If border-pixmap is given, it overrides the default border-pixmap. The border pixmap and the window must have the same root and the same depth (or a Match error results). Any size pixmap can be used, although some sizes may be faster than others. If CopyFromParent is given, the parent's border pixmap is copied (subsequent changes to the parent's border attribute do not affect the child), but the window must have the same depth as the parent (or a Match error results). The pixmap might be copied by sharing the same pixmap object between the child and parent or by making a complete copy of the pixmap contents. If border-pixel is given, it overrides the default border-pixmap and any border-pixmap given explicitly, and a pixmap of undefined size filled with border-pixel is used for the border. Range checking is not performed on the border-pixel value; it is simply truncated to the appropriate number of bits. Output to a window is always clipped to the inside of the window, so that the border is never affected. The bit-gravity defines which region of the window should be retained if the window is resized, and win-gravity defines how the window should be repositioned if the parent is resized (see ConfigureWindow request). A backing-store of WhenMapped advises the server that maintaining contents of obscured regions when the window is mapped would be beneficial. A backing-store of Always advises the server that maintaining contents even when the window is unmapped would be beneficial. In this case, the server may generate an exposure event when the window is created. A value of NotUseful advises the server that maintaining contents is unnecessary, although a server may still choose to maintain contents while the window is mapped. Note that if the server maintains contents, then the server should maintain complete contents not just the region within the parent boundaries, even if the window is larger than its parent. While the server maintains contents, exposure events will not normally be generated, but the server may stop maintaining contents at any time. If save-under is True, the server is advised that when this window is mapped, saving the contents of windows it obscures would be beneficial. When the contents of obscured regions of a window are being maintained, regions obscured by noninferior windows are included in the destination (and source, when the window is the source) of graphics requests, but regions obscured by inferior windows are not included. The backing-planes indicates (with bits set to 1) which bit planes of the window hold dynamic data that must be preserved in backing-stores and during save-unders. The backing-pixel specifies what value to use in planes not covered by backing-planes. The server is free to save only the specified bit planes in the backing-store or save-under and regenerate the remaining planes with the specified pixel value. Any bits beyond the specified depth of the window in these values are simply ignored. Eventmask Eventpropagation The event-mask defines which events the client is interested in for this window (or for some event types, inferiors of the window). The do-not-propagate-mask defines which events should not be propagated to ancestor windows when no client has the event type selected in this window. The override-redirect specifies whether map and configure requests on this window should override a SubstructureRedirect on the parent, typically to inform a window manager not to tamper with the window. The colormap specifies the colormap that best reflects the true colors of the window. Servers capable of supporting multiple hardware colormaps may use this information, and window managers may use it for InstallColormap requests. The colormap must have the same visual type and root as the window (or a Match error results). If CopyFromParent is specified, the parent's colormap is copied (subsequent changes to the parent's colormap attribute do not affect the child). However, the window must have the same visual type as the parent (or a Match error results), and the parent must not have a colormap of None (or a Match error results). For an explanation of None, see FreeColormap request. The colormap is copied by sharing the colormap object between the child and the parent, not by making a complete copy of the colormap contents. If a cursor is specified, it will be used whenever the pointer is in the window. If None is specified, the parent's cursor will be used when the pointer is in the window, and any change in the parent's cursor will cause an immediate change in the displayed cursor. This request generates a CreateNotify event. The background and border pixmaps and the cursor may be freed immediately if no further explicit references to them are to be made. Subsequent drawing into the background or border pixmap has an undefined effect on the window state. The server might or might not make a copy of the pixmap.
ChangeWindowAttributes ChangeWindowAttributes window: WINDOW value-mask: BITMASK value-list: LISTofVALUE Errors: Access, Colormap, Cursor, Match, Pixmap, Value, Window The value-mask and value-list specify which attributes are to be changed. The values and restrictions are the same as for CreateWindow. Setting a new background, whether by background-pixmap or background-pixel, overrides any previous background. Setting a new border, whether by border-pixel or border-pixmap, overrides any previous border. Changing the background does not cause the window contents to be changed. Setting the border or changing the background such that the border tile origin changes causes the border to be repainted. Changing the background of a root window to None or ParentRelative restores the default background pixmap. Changing the border of a root window to CopyFromParent restores the default border pixmap. Changing the win-gravity does not affect the current position of the window. Changing the backing-store of an obscured window to WhenMapped or Always or changing the backing-planes, backing-pixel, or save-under of a mapped window may have no immediate effect. Multiple clients can select input on the same window; their event-masks are disjoint. When an event is generated, it will be reported to all interested clients. However, only one client at a time can select for SubstructureRedirect, only one client at a time can select for ResizeRedirect, and only one client at a time can select for ButtonPress. An attempt to violate these restrictions results in an Access error. There is only one do-not-propagate-mask for a window, not one per client. Changing the colormap of a window (by defining a new map, not by changing the contents of the existing map) generates a ColormapNotify event. Changing the colormap of a visible window might have no immediate effect on the screen (see InstallColormap request). Changing the cursor of a root window to None restores the default cursor. The order in which attributes are verified and altered is server-dependent. If an error is generated, a subset of the attributes may have been altered.
GetWindowAttributes GetWindowAttributes window: WINDOW visual: VISUALID class: { InputOutput, InputOnly} bit-gravity: BITGRAVITY win-gravity: WINGRAVITY backing-store: { NotUseful, WhenMapped, Always} backing-planes: CARD32 backing-pixel: CARD32 save-under: BOOL colormap: COLORMAP or None map-is-installed: BOOL map-state: { Unmapped, Unviewable, Viewable} all-event-masks, your-event-mask: SETofEVENT do-not-propagate-mask: SETofDEVICEEVENT override-redirect: BOOL Errors: Window This request returns the current attributes of the window. A window is Unviewable if it is mapped but some ancestor is unmapped. All-event-masks is the inclusive-OR of all event masks selected on the window by clients. Your-event-mask is the event mask selected by the querying client.
DestroyWindow DestroyWindow window: WINDOW Errors: Window If the argument window is mapped, an UnmapWindow request is performed automatically. The window and all inferiors are then destroyed, and a DestroyNotify event is generated for each window. The ordering of the DestroyNotify events is such that for any given window, DestroyNotify is generated on all inferiors of the window before being generated on the window itself. The ordering among siblings and across subhierarchies is not otherwise constrained. Normal exposure processing on formerly obscured windows is performed. If the window is a root window, this request has no effect.
DestroySubwindows DestroySubwindows window: WINDOW Errors: Window This request performs a DestroyWindow request on all children of the window, in bottom-to-top stacking order.
ChangeSaveSet ChangeSaveSet window: WINDOW mode: { Insert, Delete} Errors: Match, Value, Window This request adds or removes the specified window from the client's save-set. The window must have been created by some other client (or a Match error results). For further information about the use of the save-set, see section 10. When windows are destroyed, the server automatically removes them from the save-set.
ReparentWindow ReparentWindow window, parent: WINDOW x, y: INT16 Errors: Match, Window If the window is mapped, an UnmapWindow request is performed automatically first. The window is then removed from its current position in the hierarchy and is inserted as a child of the specified parent. The x and y coordinates are relative to the parent's origin and specify the new position of the upper-left outer corner of the window. The window is placed on top in the stacking order with respect to siblings. A ReparentNotify event is then generated. The override-redirect attribute of the window is passed on in this event; a value of True indicates that a window manager should not tamper with this window. Finally, if the window was originally mapped, a MapWindow request is performed automatically. Normal exposure processing on formerly obscured windows is performed. The server might not generate exposure events for regions from the initial unmap that are immediately obscured by the final map. A Match error is generated if: The new parent is not on the same screen as the old parent. The new parent is the window itself or an inferior of the window. The new parent is InputOnly, and the window is not. The window has a ParentRelative background, and the new parent is not the same depth as the window.
MapWindow MapWindow Mapped window window: WINDOW Errors: Window If the window is already mapped, this request has no effect. If the override-redirect attribute of the window is False and some other client has selected SubstructureRedirect on the parent, then a MapRequest event is generated, but the window remains unmapped. Otherwise, the window is mapped, and a MapNotify event is generated. If the window is now viewable and its contents have been discarded, the window is tiled with its background (if no background is defined, the existing screen contents are not altered), and zero or more exposure events are generated. If a backing-store has been maintained while the window was unmapped, no exposure events are generated. If a backing-store will now be maintained, a full-window exposure is always generated. Otherwise, only visible regions may be reported. Similar tiling and exposure take place for any newly viewable inferiors.
MapSubwindows MapSubwindows window: WINDOW Errors: Window This request performs a MapWindow request on all unmapped children of the window, in top-to-bottom stacking order.
UnmapWindow UnmapWindow window: WINDOW Errors: Window If the window is already unmapped, this request has no effect. Otherwise, the window is unmapped, and an UnmapNotify event is generated. Normal exposure processing on formerly obscured windows is performed.
UnmapSubwindows UnmapSubwindows window: WINDOW Errors: Window This request performs an UnmapWindow request on all mapped children of the window, in bottom-to-top stacking order.
ConfigureWindow ConfigureWindow window: WINDOW value-mask: BITMASK value-list: LISTofVALUE Errors: Match, Value, Window This request changes the configuration of the window. The value-mask and value-list specify which values are to be given. The possible values are: Attribute Type x INT16 y INT16 width CARD16 height CARD16 border-width CARD16 sibling WINDOW stack-mode { Above, Below, TopIf, BottomIf, Opposite } The x and y coordinates are relative to the parent's origin and specify the position of the upper-left outer corner of the window. The width and height specify the inside size, not including the border, and must be nonzero (or a Value error results). Those values not specified are taken from the existing geometry of the window. Note that changing just the border-width leaves the outer-left corner of the window in a fixed position but moves the absolute position of the window's origin. It is a Match error to attempt to make the border-width of an InputOnly window nonzero. If the override-redirect attribute of the window is False and some other client has selected SubstructureRedirect on the parent, a ConfigureRequest event is generated, and no further processing is performed. Otherwise, the following is performed: If some other client has selected ResizeRedirect on the window and the inside width or height of the window is being changed, a ResizeRequest event is generated, and the current inside width and height are used instead. Note that the override-redirect attribute of the window has no effect on ResizeRedirect and that SubstructureRedirect on the parent has precedence over ResizeRedirect on the window. Gravity Bitgravity Windowgravity The geometry of the window is changed as specified, the window is restacked among siblings, and a ConfigureNotify event is generated if the state of the window actually changes. If the inside width or height of the window has actually changed, then children of the window are affected, according to their win-gravity. Exposure processing is performed on formerly obscured windows (including the window itself and its inferiors if regions of them were obscured but now are not). Exposure processing is also performed on any new regions of the window (as a result of increasing the width or height) and on any regions where window contents are lost. If the inside width or height of a window is not changed but the window is moved or its border is changed, then the contents of the window are not lost but move with the window. Changing the inside width or height of the window causes its contents to be moved or lost, depending on the bit-gravity of the window. It also causes children to be reconfigured, depending on their win-gravity. For a change of width and height of W and H, we define the [x, y] pairs as: Direction Deltas NorthWest [0, 0] North [W/2, 0] NorthEast [W, 0] West [0, H/2] Center [W/2, H/2] East [W, H/2] SouthWest [0, H] South [W/2, H] SouthEast [W, H] When a window with one of these bit-gravities is resized, the corresponding pair defines the change in position of each pixel in the window. When a window with one of these win-gravities has its parent window resized, the corresponding pair defines the change in position of the window within the parent. This repositioning generates a GravityNotify event. GravityNotify events are generated after the ConfigureNotify event is generated. A gravity of Static indicates that the contents or origin should not move relative to the origin of the root window. If the change in size of the window is coupled with a change in position of [X, Y], then for bit-gravity the change in position of each pixel is [-X, -Y] and for win-gravity the change in position of a child when its parent is so resized is [-X, -Y]. Note that Static gravity still only takes effect when the width or height of the window is changed, not when the window is simply moved. A bit-gravity of Forget indicates that the window contents are always discarded after a size change, even if backing-store or save-under has been requested. The window is tiled with its background (except, if no background is defined, the existing screen contents are not altered) and zero or more exposure events are generated. The contents and borders of inferiors are not affected by their parent's bit-gravity. A server is permitted to ignore the specified bit-gravity and use Forget instead. A win-gravity of Unmap is like NorthWest, but the child is also unmapped when the parent is resized, and an UnmapNotify event is generated. UnmapNotify events are generated after the ConfigureNotify event is generated. If a sibling and a stack-mode are specified, the window is restacked as follows: Above The window is placed just above the sibling. Below The window is placed just below the sibling. TopIf If the sibling occludes the window, then the window is placed at the top of the stack. BottomIf If the window occludes the sibling, then the window is placed at the bottom of the stack. Opposite If the sibling occludes the window, then the window is placed at the top of the stack. Otherwise, if the window occludes the sibling, then the window is placed at the bottom of the stack. If a stack-mode is specified but no sibling is specified, the window is restacked as follows: Above The window is placed at the top of the stack. Below The window is placed at the bottom of the stack. TopIf If any sibling occludes the window, then the window is placed at the top of the stack. BottomIf If the window occludes any sibling, then the window is placed at the bottom of the stack. Opposite If any sibling occludes the window, then the window is placed at the top of the stack. Otherwise, if the window occludes any sibling, then the window is placed at the bottom of the stack. It is a Match error if a sibling is specified without a stack-mode or if the window is not actually a sibling. Note that the computations for BottomIf, TopIf, and Opposite are performed with respect to the window's final geometry (as controlled by the other arguments to the request), not to its initial geometry. Attempts to configure a root window have no effect.
CirculateWindow CirculateWindow window: WINDOW direction: { RaiseLowest, LowerHighest} Errors: Value, Window If some other client has selected SubstructureRedirect on the window, then a CirculateRequest event is generated, and no further processing is performed. Otherwise, the following is performed, and then a CirculateNotify event is generated if the window is actually restacked. For RaiseLowest, CirculateWindow raises the lowest mapped child (if any) that is occluded by another child to the top of the stack. For LowerHighest, CirculateWindow lowers the highest mapped child (if any) that occludes another child to the bottom of the stack. Exposure processing is performed on formerly obscured windows.
GetGeometry GetGeometry drawable: DRAWABLE root: WINDOW depth: CARD8 x, y: INT16 width, height, border-width: CARD16 Errors: Drawable This request returns the root and current geometry of the drawable. The depth is the number of bits per pixel for the object. The x, y, and border-width will always be zero for pixmaps. For a window, the x and y coordinates specify the upper-left outer corner of the window relative to its parent's origin, and the width and height specify the inside size, not including the border. It is legal to pass an InputOnly window as a drawable to this request.
QueryTree QueryTree Children window: WINDOW root: WINDOW parent: WINDOW or None children: LISTofWINDOW Errors: Window This request returns the root, the parent, and the children of the window. The children are listed in bottom-to-top stacking order.
InternAtom InternAtom Atom name: STRING8 only-if-exists: BOOL atom: ATOM or None Errors: Alloc, Value This request returns the atom for the given name. If only-if-exists is False, then the atom is created if it does not exist. The string should use the ISO Latin-1 encoding. Uppercase and lowercase matter. The lifetime of an atom is not tied to the interning client. Atoms remain defined until server reset (see section 10).
GetAtomName GetAtomName atom: ATOM name: STRING8 Errors: Atom This request returns the name for the given atom.
ChangeProperty ChangeProperty Property window: WINDOW property, type: ATOM format: {8, 16, 32} mode: { Replace, Prepend, Append} data: LISTofINT8 or LISTofINT16 or LISTofINT32 Errors: Alloc, Atom, Match, Value, Window This request alters the property for the specified window. The type is uninterpreted by the server. The format specifies whether the data should be viewed as a list of 8-bit, 16-bit, or 32-bit quantities so that the server can correctly byte-swap as necessary. If the mode is Replace, the previous property value is discarded. If the mode is Prepend or Append, then the type and format must match the existing property value (or a Match error results). If the property is undefined, it is treated as defined with the correct type and format with zero-length data. For Prepend, the data is tacked on to the beginning of the existing data, and for Append, it is tacked on to the end of the existing data. This request generates a PropertyNotify event on the window. The lifetime of a property is not tied to the storing client. Properties remain until explicitly deleted, until the window is destroyed, or until server reset (see section 10). The maximum size of a property is server-dependent and may vary dynamically.
DeleteProperty DeleteProperty window: WINDOW property: ATOM Errors: Atom, Window This request deletes the property from the specified window if the property exists and generates a PropertyNotify event on the window unless the property does not exist.
GetProperty GetProperty window: WINDOW property: ATOM type: ATOM or AnyPropertyType long-offset, long-length: CARD32 delete: BOOL type: ATOM or None format: {0, 8, 16, 32} bytes-after: CARD32 value: LISTofINT8 or LISTofINT16 or LISTofINT32 Errors: Atom, Value, Window If the specified property does not exist for the specified window, then the return type is None, the format and bytes-after are zero, and the value is empty. The delete argument is ignored in this case. If the specified property exists but its type does not match the specified type, then the return type is the actual type of the property, the format is the actual format of the property (never zero), the bytes-after is the length of the property in bytes (even if the format is 16 or 32), and the value is empty. The delete argument is ignored in this case. If the specified property exists and either AnyPropertyType is specified or the specified type matches the actual type of the property, then the return type is the actual type of the property, the format is the actual format of the property (never zero), and the bytes-after and value are as follows, given: N = actual length of the stored property in bytes (even if the format is 16 or 32) I = 4 * long-offset T = N - I L = MINIMUM(T, 4 * long-length) A = N - (I + L) The returned value starts at byte index I in the property (indexing from 0), and its length in bytes is L. However, it is a Value error if long-offset is given such that L is negative. The value of bytes-after is A, giving the number of trailing unread bytes in the stored property. If delete is True and the bytes-after is zero, the property is also deleted from the window, and a PropertyNotify event is generated on the window.
RotateProperties RotateProperties window: WINDOW delta: INT16 properties: LISTofATOM Errors: Atom, Match, Window If the property names in the list are viewed as being numbered starting from zero, and there are N property names in the list, then the value associated with property name I becomes the value associated with property name (I + delta) mod N, for all I from zero to N - 1. The effect is to rotate the states by delta places around the virtual ring of property names (right for positive delta, left for negative delta). If delta mod N is nonzero, a PropertyNotify event is generated for each property in the order listed. If an atom occurs more than once in the list or no property with that name is defined for the window, a Match error is generated. If an Atom or Match error is generated, no properties are changed.
ListProperties ListProperties window: WINDOW atoms: LISTofATOM Errors: Window This request returns the atoms of properties currently defined on the window.
SetSelectionOwner SetSelectionOwner Selection selection: ATOM owner: WINDOW or None time: TIMESTAMP or CurrentTime Errors: Atom, Window This request changes the owner, owner window, and last-change time of the specified selection. This request has no effect if the specified time is earlier than the current last-change time of the specified selection or is later than the current server time. Otherwise, the last-change time is set to the specified time with CurrentTime replaced by the current server time. If the owner window is specified as None, then the owner of the selection becomes None (that is, no owner). Otherwise, the owner of the selection becomes the client executing the request. If the new owner (whether a client or None) is not the same as the current owner and the current owner is not None, then the current owner is sent a SelectionClear event. If the client that is the owner of a selection is later terminated (that is, its connection is closed) or if the owner window it has specified in the request is later destroyed, then the owner of the selection automatically reverts to None, but the last-change time is not affected. The selection atom is uninterpreted by the server. The owner window is returned by the GetSelectionOwner request and is reported in SelectionRequest and SelectionClear events. Selections are global to the server.
GetSelectionOwner GetSelectionOwner selection: ATOM owner: WINDOW or None Errors: Atom This request returns the current owner window of the specified selection, if any. If None is returned, then there is no owner for the selection.
ConvertSelection ConvertSelection selection, target: ATOM property: ATOM or None requestor: WINDOW time: TIMESTAMP or CurrentTime Errors: Atom, Window If the specified selection has an owner, the server sends a SelectionRequest event to that owner. If no owner for the specified selection exists, the server generates a SelectionNotify event to the requestor with property None. The arguments are passed on unchanged in either of the events.
SendEvent SendEvent Eventsending destination: WINDOW or PointerWindow or InputFocus propagate: BOOL event-mask: SETofEVENT event: <normal-event-format> Errors: Value, Window If PointerWindow is specified, destination is replaced with the window that the pointer is in. If InputFocus is specified and the focus window contains the pointer, destination is replaced with the window that the pointer is in. Otherwise, destination is replaced with the focus window. If the event-mask is the empty set, then the event is sent to the client that created the destination window. If that client no longer exists, no event is sent. If propagate is False, then the event is sent to every client selecting on destination any of the event types in event-mask. If propagate is True and no clients have selected on destination any of the event types in event-mask, then destination is replaced with the closest ancestor of destination for which some client has selected a type in event-mask and no intervening window has that type in its do-not-propagate-mask. If no such window exists or if the window is an ancestor of the focus window and InputFocus was originally specified as the destination, then the event is not sent to any clients. Otherwise, the event is reported to every client selecting on the final destination any of the types specified in event-mask. The event code must be one of the core events or one of the events defined by an extension (or a Value error results) so that the server can correctly byte-swap the contents as necessary. The contents of the event are otherwise unaltered and unchecked by the server except to force on the most significant bit of the event code and to set the sequence number in the event correctly. Active grabs are ignored for this request.
GrabPointer GrabPointer Active grabpointer Pointergrabbing grab-window: WINDOW owner-events: BOOL event-mask: SETofPOINTEREVENT pointer-mode, keyboard-mode: { Synchronous, Asynchronous} confine-to: WINDOW or None cursor: CURSOR or None time: TIMESTAMP or CurrentTime status: { Success, AlreadyGrabbed, Frozen, InvalidTime, NotViewable} Errors: Cursor, Value, Window This request actively grabs control of the pointer. Further pointer events are only reported to the grabbing client. The request overrides any active pointer grab by this client. If owner-events is False, all generated pointer events are reported with respect to grab-window and are only reported if selected by event-mask. If owner-events is True and a generated pointer event would normally be reported to this client, it is reported normally. Otherwise, the event is reported with respect to the grab-window and is only reported if selected by event-mask. For either value of owner-events, unreported events are simply discarded. If pointer-mode is Asynchronous, pointer event processing continues normally. If the pointer is currently frozen by this client, then processing of pointer events is resumed. If pointer-mode is Synchronous, the state of the pointer (as seen by means of the protocol) appears to freeze, and no further pointer events are generated by the server until the grabbing client issues a releasing AllowEvents request or until the pointer grab is released. Actual pointer changes are not lost while the pointer is frozen. They are simply queued for later processing. If keyboard-mode is Asynchronous, keyboard event processing is unaffected by activation of the grab. If keyboard-mode is Synchronous, the state of the keyboard (as seen by means of the protocol) appears to freeze, and no further keyboard events are generated by the server until the grabbing client issues a releasing AllowEvents request or until the pointer grab is released. Actual keyboard changes are not lost while the keyboard is frozen. They are simply queued for later processing. If a cursor is specified, then it is displayed regardless of what window the pointer is in. If no cursor is specified, then when the pointer is in grab-window or one of its subwindows, the normal cursor for that window is displayed. Otherwise, the cursor for grab-window is displayed. If a confine-to window is specified, then the pointer will be restricted to stay contained in that window. The confine-to window need have no relationship to the grab-window. If the pointer is not initially in the confine-to window, then it is warped automatically to the closest edge (and enter/leave events are generated normally) just before the grab activates. If the confine-to window is subsequently reconfigured, the pointer will be warped automatically as necessary to keep it contained in the window. This request generates EnterNotify and LeaveNotify events. The request fails with status AlreadyGrabbed if the pointer is actively grabbed by some other client. The request fails with status Frozen if the pointer is frozen by an active grab of another client. The request fails with status NotViewable if grab-window or confine-to window is not viewable or if the confine-to window lies completely outside the boundaries of the root window. The request fails with status InvalidTime if the specified time is earlier than the last-pointer-grab time or later than the current server time. Otherwise, the last-pointer-grab time is set to the specified time, with CurrentTime replaced by the current server time.
UngrabPointer UngrabPointer time: TIMESTAMP or CurrentTime This request releases the pointer if this client has it actively grabbed (from either GrabPointer or GrabButton or from a normal button press) and releases any queued events. The request has no effect if the specified time is earlier than the last-pointer-grab time or is later than the current server time. This request generates EnterNotify and LeaveNotify events. An UngrabPointer request is performed automatically if the event window or confine-to window for an active pointer grab becomes not viewable or if window reconfiguration causes the confine-to window to lie completely outside the boundaries of the root window.
GrabButton GrabButton Buttongrabbing modifiers: SETofKEYMASK or AnyModifier button: BUTTON or AnyButton grab-window: WINDOW owner-events: BOOL event-mask: SETofPOINTEREVENT pointer-mode, keyboard-mode: { Synchronous, Asynchronous} confine-to: WINDOW or None cursor: CURSOR or None Errors: Access, Cursor, Value, Window This request establishes a passive grab. Passive grabpointer In the future, the pointer is actively grabbed as described in GrabPointer, the last-pointer-grab time is set to the time at which the button was pressed (as transmitted in the ButtonPress event), and the ButtonPress event is reported if all of the following conditions are true: The pointer is not grabbed and the specified button is logically pressed when the specified modifier keys are logically down, and no other buttons or modifier keys are logically down. The grab-window contains the pointer. The confine-to window (if any) is viewable. A passive grab on the same button/key combination does not exist on any ancestor of grab-window. The interpretation of the remaining arguments is the same as for GrabPointer. The active grab is terminated automatically when the logical state of the pointer has all buttons released, independent of the logical state of modifier keys. Note that the logical state of a device (as seen by means of the protocol) may lag the physical state if device event processing is frozen. This request overrides all previous passive grabs by the same client on the same button/key combinations on the same window. A modifier of AnyModifier is equivalent to issuing the request for all possible modifier combinations (including the combination of no modifiers). It is not required that all specified modifiers have currently assigned keycodes. A button of AnyButton is equivalent to issuing the request for all possible buttons. Otherwise, it is not required that the button specified currently be assigned to a physical button. An Access error is generated if some other client has already issued a GrabButton request with the same button/key combination on the same window. When using AnyModifier or AnyButton, the request fails completely (no grabs are established), and an Access error is generated if there is a conflicting grab for any combination. The request has no effect on an active grab.
UngrabButton UngrabButton modifiers: SETofKEYMASK or AnyModifier button: BUTTON or AnyButton grab-window: WINDOW Errors: Value, Window This request releases the passive button/key combination on the specified window if it was grabbed by this client. A modifiers argument of AnyModifier is equivalent to issuing the request for all possible modifier combinations (including the combination of no modifiers). A button of AnyButton is equivalent to issuing the request for all possible buttons. The request has no effect on an active grab.
ChangeActivePointerGrab ChangeActivePointerGrab Active grabpointer event-mask: SETofPOINTEREVENT cursor: CURSOR or None time: TIMESTAMP or CurrentTime Errors: Cursor, Value This request changes the specified dynamic parameters if the pointer is actively grabbed by the client and the specified time is no earlier than the last-pointer-grab time and no later than the current server time. The interpretation of event-mask and cursor are the same as in GrabPointer. This request has no effect on the parameters of any passive grabs established with GrabButton.
GrabKeyboard GrabKeyboard Active grabkeyboard Keyboardgrabbing grab-window: WINDOW owner-events: BOOL pointer-mode, keyboard-mode: { Synchronous, Asynchronous} time: TIMESTAMP or CurrentTime status: { Success, AlreadyGrabbed, Frozen, InvalidTime, NotViewable} Errors: Value, Window This request actively grabs control of the keyboard. Further key events are reported only to the grabbing client. This request overrides any active keyboard grab by this client. If owner-events is False, all generated key events are reported with respect to grab-window. If owner-events is True and if a generated key event would normally be reported to this client, it is reported normally. Otherwise, the event is reported with respect to the grab-window. Both KeyPress and KeyRelease events are always reported, independent of any event selection made by the client. If keyboard-mode is Asynchronous, keyboard event processing continues normally. If the keyboard is currently frozen by this client, then processing of keyboard events is resumed. If keyboard-mode is Synchronous, the state of the keyboard (as seen by means of the protocol) appears to freeze. No further keyboard events are generated by the server until the grabbing client issues a releasing AllowEvents request or until the keyboard grab is released. Actual keyboard changes are not lost while the keyboard is frozen. They are simply queued for later processing. If pointer-mode is Asynchronous, pointer event processing is unaffected by activation of the grab. If pointer-mode is Synchronous, the state of the pointer (as seen by means of the protocol) appears to freeze. No further pointer events are generated by the server until the grabbing client issues a releasing AllowEvents request or until the keyboard grab is released. Actual pointer changes are not lost while the pointer is frozen. They are simply queued for later processing. This request generates FocusIn and FocusOut events. The request fails with status AlreadyGrabbed if the keyboard is actively grabbed by some other client. The request fails with status Frozen if the keyboard is frozen by an active grab of another client. The request fails with status NotViewable if grab-window is not viewable. The request fails with status InvalidTime if the specified time is earlier than the last-keyboard-grab time or later than the current server time. Otherwise, the last-keyboard-grab time is set to the specified time with CurrentTime replaced by the current server time.
UngrabKeyboard UngrabKeyboard time: TIMESTAMP or CurrentTime This request releases the keyboard if this client has it actively grabbed (as a result of either GrabKeyboard or GrabKey) and releases any queued events. The request has no effect if the specified time is earlier than the last-keyboard-grab time or is later than the current server time. This request generates FocusIn and FocusOut events. An UngrabKeyboard is performed automatically if the event window for an active keyboard grab becomes not viewable.
GrabKey GrabKey Keygrabbing key: KEYCODE or AnyKey modifiers: SETofKEYMASK or AnyModifier grab-window: WINDOW owner-events: BOOL pointer-mode, keyboard-mode: { Synchronous, Asynchronous} Errors: Access, Value, Window This request establishes a passive grab on the keyboard. Passive grabkeyboard In the future, the keyboard is actively grabbed as described in GrabKeyboard, the last-keyboard-grab time is set to the time at which the key was pressed (as transmitted in the KeyPress event), and the KeyPress event is reported if all of the following conditions are true: The keyboard is not grabbed and the specified key (which can itself be a modifier key) is logically pressed when the specified modifier keys are logically down, and no other modifier keys are logically down. Either the grab-window is an ancestor of (or is) the focus window, or the grab-window is a descendent of the focus window and contains the pointer. A passive grab on the same key combination does not exist on any ancestor of grab-window. The interpretation of the remaining arguments is the same as for GrabKeyboard. The active grab is terminated automatically when the logical state of the keyboard has the specified key released, independent of the logical state of modifier keys. Note that the logical state of a device (as seen by means of the protocol) may lag the physical state if device event processing is frozen. This request overrides all previous passive grabs by the same client on the same key combinations on the same window. A modifier of AnyModifier is equivalent to issuing the request for all possible modifier combinations (including the combination of no modifiers). It is not required that all modifiers specified have currently assigned keycodes. A key of AnyKey is equivalent to issuing the request for all possible keycodes. Otherwise, the key must be in the range specified by min-keycode and max-keycode in the connection setup (or a Value error results). An Access error is generated if some other client has issued a GrabKey with the same key combination on the same window. When using AnyModifier or AnyKey, the request fails completely (no grabs are established), and an Access error is generated if there is a conflicting grab for any combination.
UngrabKey UngrabKey key: KEYCODE or AnyKey modifiers: SETofKEYMASK or AnyModifier grab-window: WINDOW Errors: Value, Window This request releases the key combination on the specified window if it was grabbed by this client. A modifiers argument of AnyModifier is equivalent to issuing the request for all possible modifier combinations (including the combination of no modifiers). A key of AnyKey is equivalent to issuing the request for all possible keycodes. This request has no effect on an active grab.
AllowEvents AllowEvents mode: { AsyncPointer, SyncPointer, ReplayPointer, AsyncKeyboard, SyncKeyboard, ReplayKeyboard, AsyncBoth, SyncBoth} time: TIMESTAMP or CurrentTime Errors: Value This request releases some queued events if the client has caused a device to freeze. The request has no effect if the specified time is earlier than the last-grab time of the most recent active grab for the client or if the specified time is later than the current server time. For AsyncPointer, if the pointer is frozen by the client, pointer event processing continues normally. If the pointer is frozen twice by the client on behalf of two separate grabs, AsyncPointer thaws for both. AsyncPointer has no effect if the pointer is not frozen by the client, but the pointer need not be grabbed by the client. For SyncPointer, if the pointer is frozen and actively grabbed by the client, pointer event processing continues normally until the next ButtonPress or ButtonRelease event is reported to the client, at which time the pointer again appears to freeze. However, if the reported event causes the pointer grab to be released, then the pointer does not freeze. SyncPointer has no effect if the pointer is not frozen by the client or if the pointer is not grabbed by the client. For ReplayPointer, if the pointer is actively grabbed by the client and is frozen as the result of an event having been sent to the client (either from the activation of a GrabButton or from a previous AllowEvents with mode SyncPointer but not from a GrabPointer), then the pointer grab is released and that event is completely reprocessed, this time ignoring any passive grabs at or above (towards the root) the grab-window of the grab just released. The request has no effect if the pointer is not grabbed by the client or if the pointer is not frozen as the result of an event. For AsyncKeyboard, if the keyboard is frozen by the client, keyboard event processing continues normally. If the keyboard is frozen twice by the client on behalf of two separate grabs, AsyncKeyboard thaws for both. AsyncKeyboard has no effect if the keyboard is not frozen by the client, but the keyboard need not be grabbed by the client. For SyncKeyboard, if the keyboard is frozen and actively grabbed by the client, keyboard event processing continues normally until the next KeyPress or KeyRelease event is reported to the client, at which time the keyboard again appears to freeze. However, if the reported event causes the keyboard grab to be released, then the keyboard does not freeze. SyncKeyboard has no effect if the keyboard is not frozen by the client or if the keyboard is not grabbed by the client. For ReplayKeyboard, if the keyboard is actively grabbed by the client and is frozen as the result of an event having been sent to the client (either from the activation of a GrabKey or from a previous AllowEvents with mode SyncKeyboard but not from a GrabKeyboard), then the keyboard grab is released and that event is completely reprocessed, this time ignoring any passive grabs at or above (towards the root) the grab-window of the grab just released. The request has no effect if the keyboard is not grabbed by the client or if the keyboard is not frozen as the result of an event. For SyncBoth, if both pointer and keyboard are frozen by the client, event processing (for both devices) continues normally until the next ButtonPress, ButtonRelease, KeyPress, or KeyRelease event is reported to the client for a grabbed device (button event for the pointer, key event for the keyboard), at which time the devices again appear to freeze. However, if the reported event causes the grab to be released, then the devices do not freeze (but if the other device is still grabbed, then a subsequent event for it will still cause both devices to freeze). SyncBoth has no effect unless both pointer and keyboard are frozen by the client. If the pointer or keyboard is frozen twice by the client on behalf of two separate grabs, SyncBoth thaws for both (but a subsequent freeze for SyncBoth will only freeze each device once). For AsyncBoth, if the pointer and the keyboard are frozen by the client, event processing for both devices continues normally. If a device is frozen twice by the client on behalf of two separate grabs, AsyncBoth thaws for both. AsyncBoth has no effect unless both pointer and keyboard are frozen by the client. AsyncPointer, SyncPointer, and ReplayPointer have no effect on processing of keyboard events. AsyncKeyboard, SyncKeyboard, and ReplayKeyboard have no effect on processing of pointer events. It is possible for both a pointer grab and a keyboard grab to be active simultaneously (by the same or different clients). When a device is frozen on behalf of either grab, no event processing is performed for the device. It is possible for a single device to be frozen because of both grabs. In this case, the freeze must be released on behalf of both grabs before events can again be processed. If a device is frozen twice by a single client, then a single AllowEvents releases both.
GrabServer GrabServer Servergrabbing This request disables processing of requests and close-downs on all connections other than the one this request arrived on.
UngrabServer UngrabServer This request restarts processing of requests and close-downs on other connections.
QueryPointer QueryPointer window: WINDOW root: WINDOW child: WINDOW or None same-screen: BOOL root-x, root-y, win-x, win-y: INT16 mask: SETofKEYBUTMASK Errors: Window The root window the pointer is logically on and the pointer coordinates relative to the root's origin are returned. If same-screen is False, then the pointer is not on the same screen as the argument window, child is None, and win-x and win-y are zero. If same-screen is True, then win-x and win-y are the pointer coordinates relative to the argument window's origin, and child is the child containing the pointer, if any. The current logical state of the modifier keys and the buttons are also returned. Note that the logical state of a device (as seen by means of the protocol) may lag the physical state if device event processing is frozen.
GetMotionEvents GetMotionEvents start, stop: TIMESTAMP or CurrentTime window: WINDOW events: LISTofTIMECOORD where: TIMECOORD: [x, y: INT16 time: TIMESTAMP] Errors: Window This request returns all events in the motion history buffer that fall between the specified start and stop times (inclusive) and that have coordinates that lie within (including borders) the specified window at its present placement. The x and y coordinates are reported relative to the origin of the window. If the start time is later than the stop time or if the start time is in the future, no events are returned. If the stop time is in the future, it is equivalent to specifying CurrentTime.
TranslateCoordinates TranslateCoordinates Coordinate systemtranslating src-window, dst-window: WINDOW src-x, src-y: INT16 same-screen: BOOL child: WINDOW or None dst-x, dst-y: INT16 Errors: Window The src-x and src-y coordinates are taken relative to src-window's origin and are returned as dst-x and dst-y coordinates relative to dst-window's origin. If same-screen is False, then src-window and dst-window are on different screens, and dst-x and dst-y are zero. If the coordinates are contained in a mapped child of dst-window, then that child is returned.
WarpPointer WarpPointer src-window: WINDOW or None dst-window: WINDOW or None src-x, src-y: INT16 src-width, src-height: CARD16 dst-x, dst-y: INT16 Errors: Window If dst-window is None, this request moves the pointer by offsets [dst-x, dst-y] relative to the current position of the pointer. If dst-window is a window, this request moves the pointer to [dst-x, dst-y] relative to dst-window's origin. However, if src-window is not None, the move only takes place if src-window contains the pointer and the pointer is contained in the specified rectangle of src-window. The src-x and src-y coordinates are relative to src-window's origin. If src-height is zero, it is replaced with the current height of src-window minus src-y. If src-width is zero, it is replaced with the current width of src-window minus src-x. This request cannot be used to move the pointer outside the confine-to window of an active pointer grab. An attempt will only move the pointer as far as the closest edge of the confine-to window. This request will generate events just as if the user had instantaneously moved the pointer.
SetInputFocus SetInputFocus Input focus focus: WINDOW or PointerRoot or None revert-to: { Parent, PointerRoot, None} time: TIMESTAMP or CurrentTime Errors: Match, Value, Window This request changes the input focus and the last-focus-change time. The request has no effect if the specified time is earlier than the current last-focus-change time or is later than the current server time. Otherwise, the last-focus-change time is set to the specified time with CurrentTime replaced by the current server time. If None is specified as the focus, all keyboard events are discarded until a new focus window is set. In this case, the revert-to argument is ignored. If a window is specified as the focus, it becomes the keyboard's focus window. If a generated keyboard event would normally be reported to this window or one of its inferiors, the event is reported normally. Otherwise, the event is reported with respect to the focus window. If PointerRoot is specified as the focus, the focus window is dynamically taken to be the root window of whatever screen the pointer is on at each keyboard event. In this case, the revert-to argument is ignored. This request generates FocusIn and FocusOut events. The specified focus window must be viewable at the time of the request (or a Match error results). If the focus window later becomes not viewable, the new focus window depends on the revert-to argument. If revert-to is Parent, the focus reverts to the parent (or the closest viewable ancestor) and the new revert-to value is taken to be None. If revert-to is PointerRoot or None, the focus reverts to that value. When the focus reverts, FocusIn and FocusOut events are generated, but the last-focus-change time is not affected.
GetInputFocus GetInputFocus focus: WINDOW or PointerRoot or None revert-to: { Parent, PointerRoot, None} This request returns the current focus state.
QueryKeymap QueryKeymap keys: LISTofCARD8 This request returns a bit vector for the logical state of the keyboard. Each bit set to 1 indicates that the corresponding key is currently pressed. The vector is represented as 32 bytes. Byte N (from 0) contains the bits for keys 8N to 8N + 7 with the least significant bit in the byte representing key 8N. Note that the logical state of a device (as seen by means of the protocol) may lag the physical state if device event processing is frozen.
OpenFont OpenFont Font fid: FONT name: STRING8 Errors: Alloc, IDChoice, Name This request loads the specified font, if necessary, and associates identifier fid with it. The font name should use the ISO Latin-1 encoding, and uppercase and lowercase do not matter. When the characters ? and * are used in a font name, a pattern match is performed and any matching font is used. In the pattern, the ? character (octal value 77) will match any single character, and the * character (octal value 52) will match any number of characters. A structured format for font names is specified in the X.Org standard X Logical Font Description Conventions. Fonts are not associated with a particular screen and can be stored as a component of any graphics context.
CloseFont CloseFont font: FONT Errors: Font This request deletes the association between the resource ID and the font. The font itself will be freed when no other resource references it.
QueryFont QueryFont font: FONTABLE font-info: FONTINFO char-infos: LISTofCHARINFO where: FONTINFO: [draw-direction: { LeftToRight, RightToLeft } min-char-or-byte2, max-char-or-byte2: CARD16 min-byte1, max-byte1: CARD8 all-chars-exist: BOOL default-char: CARD16 min-bounds: CHARINFO max-bounds: CHARINFO font-ascent: INT16 font-descent: INT16 properties: LISTofFONTPROP] FONTPROP: [name: ATOM value: <32-bit-value>] CHARINFO: [left-side-bearing: INT16 right-side-bearing: INT16 character-width: INT16 ascent: INT16 descent: INT16 attributes: CARD16] Errors: Font This request returns logical information about a font. If a gcontext is given for font, the currently contained font is used. The draw-direction is just a hint and indicates whether most char-infos have a positive, LeftToRight, or a negative, RightToLeft, character-width metric. The core protocol defines no support for vertical text. If min-byte1 and max-byte1 are both zero, then min-char-or-byte2 specifies the linear character index corresponding to the first element of char-infos, and max-char-or-byte2 specifies the linear character index of the last element. If either min-byte1 or max-byte1 are nonzero, then both min-char-or-byte2 and max-char-or-byte2 will be less than 256, and the 2-byte character index values corresponding to char-infos element N (counting from 0) are: byte1 = N/D + min-byte1 byte2 = N\\D + min-char-or-byte2 where: D = max-char-or-byte2 - min-char-or-byte2 + 1 / = integer division \\ = integer modulus If char-infos has length zero, then min-bounds and max-bounds will be identical, and the effective char-infos is one filled with this char-info, of length: L = D * (max-byte1 - min-byte1 + 1) That is, all glyphs in the specified linear or matrix range have the same information, as given by min-bounds (and max-bounds). If all-chars-exist is True, then all characters in char-infos have nonzero bounding boxes. The default-char specifies the character that will be used when an undefined or nonexistent character is used. Note that default-char is a CARD16, not CHAR2B. For a font using 2-byte matrix format, the default-char has byte1 in the most significant byte and byte2 in the least significant byte. If the default-char itself specifies an undefined or nonexistent character, then no printing is performed for an undefined or nonexistent character. The min-bounds and max-bounds contain the minimum and maximum values of each individual CHARINFO component over all char-infos (ignoring nonexistent characters). The bounding box of the font (that is, the smallest rectangle enclosing the shape obtained by superimposing all characters at the same origin [x,y]) has its upper-left coordinate at: [x + min-bounds.left-side-bearing, y - max-bounds.ascent] with a width of: max-bounds.right-side-bearing - min-bounds.left-side-bearing and a height of: max-bounds.ascent + max-bounds.descent The font-ascent is the logical extent of the font above the baseline and is used for determining line spacing. Specific characters may extend beyond this. The font-descent is the logical extent of the font at or below the baseline and is used for determining line spacing. Specific characters may extend beyond this. If the baseline is at Y-coordinate y, then the logical extent of the font is inclusive between the Y-coordinate values (y - font-ascent) and (y + font-descent - 1). A font is not guaranteed to have any properties. The interpretation of the property value (for example, INT32, CARD32) must be derived from a priori knowledge of the property. A basic set of font properties is specified in the X.Org standard X Logical Font Description Conventions. For a character origin at [x,y], the bounding box of a character (that is, the smallest rectangle enclosing the character's shape), described in terms of CHARINFO components, is a rectangle with its upper-left corner at: [x + left-side-bearing, y - ascent] with a width of: right-side-bearing - left-side-bearing and a height of: ascent + descent and the origin for the next character is defined to be: [x + character-width, y] Note that the baseline is logically viewed as being just below nondescending characters (when descent is zero, only pixels with Y-coordinates less than y are drawn) and that the origin is logically viewed as being coincident with the left edge of a nonkerned character (when left-side-bearing is zero, no pixels with X-coordinate less than x are drawn). Note that CHARINFO metric values can be negative. A nonexistent character is represented with all CHARINFO components zero. The interpretation of the per-character attributes field is server-dependent.
QueryTextExtents QueryTextExtents font: FONTABLE string: STRING16 draw-direction: { LeftToRight, RightToLeft} font-ascent: INT16 font-descent: INT16 overall-ascent: INT16 overall-descent: INT16 overall-width: INT32 overall-left: INT32 overall-right: INT32 Errors: Font This request returns the logical extents of the specified string of characters in the specified font. If a gcontext is given for font, the currently contained font is used. The draw-direction, font-ascent, and font-descent are the same as described in QueryFont. The overall-ascent is the maximum of the ascent metrics of all characters in the string, and the overall-descent is the maximum of the descent metrics. The overall-width is the sum of the character-width metrics of all characters in the string. For each character in the string, let W be the sum of the character-width metrics of all characters preceding it in the string, let L be the left-side-bearing metric of the character plus W, and let R be the right-side-bearing metric of the character plus W. The overall-left is the minimum L of all characters in the string, and the overall-right is the maximum R. For fonts defined with linear indexing rather than 2-byte matrix indexing, the server will interpret each CHAR2B as a 16-bit number that has been transmitted most significant byte first (that is, byte1 of the CHAR2B is taken as the most significant byte). Characters with all zero metrics are ignored. If the font has no defined default-char, then undefined characters in the string are also ignored.
ListFonts ListFonts pattern: STRING8 max-names: CARD16 names: LISTofSTRING8 This request returns a list of available font names (as controlled by the font search path; see SetFontPath request) that match the pattern. At most, max-names names will be returned. The pattern should use the ISO Latin-1 encoding, and uppercase and lowercase do not matter. In the pattern, the ? character (octal value 77) will match any single character, and the * character (octal value 52) will match any number of characters. The returned names are in lowercase.
ListFontsWithInfo ListFontsWithInfo pattern: STRING8 max-names: CARD16 name: STRING8 info FONTINFO replies-hint: CARD32 where: FONTINFO: <same type definition as in QueryFont> This request is similar to ListFonts, but it also returns information about each font. The information returned for each font is identical to what QueryFont would return except that the per-character metrics are not returned. Note that this request can generate multiple replies. With each reply, replies-hint may provide an indication of how many more fonts will be returned. This number is a hint only and may be larger or smaller than the number of fonts actually returned. A zero value does not guarantee that no more fonts will be returned. After the font replies, a reply with a zero-length name is sent to indicate the end of the reply sequence.
SetFontPath SetFontPath path: LISTofSTRING8 Errors: Value This request defines the search path for font lookup. There is only one search path per server, not one per client. The interpretation of the strings is operating-system-dependent, but the strings are intended to specify directories to be searched in the order listed. Setting the path to the empty list restores the default path defined for the server. As a side effect of executing this request, the server is guaranteed to flush all cached information about fonts for which there currently are no explicit resource IDs allocated. The meaning of an error from this request is system specific.
GetFontPath GetFontPath path: LISTofSTRING8 This request returns the current search path for fonts.
CreatePixmap CreatePixmap pid: PIXMAP drawable: DRAWABLE depth: CARD8 width, height: CARD16 Errors: Alloc, Drawable, IDChoice, Value This request creates a pixmap and assigns the identifier pid to it. The width and height must be nonzero (or a Value error results). The depth must be one of the depths supported by the root of the specified drawable (or a Value error results). The initial contents of the pixmap are undefined. It is legal to pass an InputOnly window as a drawable to this request.
FreePixmap FreePixmap pixmap: PIXMAP Errors: Pixmap This request deletes the association between the resource ID and the pixmap. The pixmap storage will be freed when no other resource references it.
CreateGC CreateGC Graphics context cid: GCONTEXT drawable: DRAWABLE value-mask: BITMASK value-list: LISTofVALUE Errors: Alloc, Drawable, Font, IDChoice, Match, Pixmap, Value This request creates a graphics context and assigns the identifier cid to it. The gcontext can be used with any destination drawable having the same root and depth as the specified drawable; use with other drawables results in a Match error. The value-mask and value-list specify which components are to be explicitly initialized. The context components are: Component Type function { Clear, And, AndReverse, Copy, AndInverted, NoOp, Xor, Or, Nor, Equiv, Invert, OrReverse, CopyInverted, OrInverted, Nand, Set } plane-mask CARD32 foreground CARD32 background CARD32 line-width CARD16 line-style { Solid, OnOffDash, DoubleDash } cap-style { NotLast, Butt, Round, Projecting } join-style { Miter, Round, Bevel } fill-style { Solid, Tiled, OpaqueStippled, Stippled } fill-rule { EvenOdd, Winding } arc-mode { Chord, PieSlice } tile PIXMAP stipple PIXMAP tile-stipple-x-origin INT16 tile-stipple-y-origin INT16 font FONT subwindow-mode { ClipByChildren, IncludeInferiors } graphics-exposures BOOL clip-x-origin INT16 clip-y-origin INT16 clip-mask PIXMAP or None dash-offset CARD16 dashes CARD8 Planemask In graphics operations, given a source and destination pixel, the result is computed bitwise on corresponding bits of the pixels; that is, a Boolean operation is performed in each bit plane. The plane-mask restricts the operation to a subset of planes, so the result is: ((src FUNC dst) AND plane-mask) OR (dst AND (NOT plane-mask)) Range checking is not performed on the values for foreground, background, or plane-mask. They are simply truncated to the appropriate number of bits. The meanings of the functions are: Function Operation Clear 0 And src AND dst AndReverse src AND (NOT dst) Copy src AndInverted (NOT src) AND dst NoOp dst Xor src XOR dst Or src OR dst Nor (NOT src) AND (NOT dst) Equiv (NOT src) XOR dst Invert NOT dst OrReverse src OR (NOT dst) CopyInverted NOT src OrInverted (NOT src) OR dst Nand (NOT src) OR (NOT dst) Set 1 Linedrawing The line-width is measured in pixels and can be greater than or equal to one, a wide line, or the special value zero, a thin line. Wide lines are drawn centered on the path described by the graphics request. Unless otherwise specified by the join or cap style, the bounding box of a wide line with endpoints [x1, y1], [x2, y2] and width w is a rectangle with vertices at the following real coordinates: [x1-(w*sn/2), y1+(w*cs/2)], [x1+(w*sn/2), y1-(w*cs/2)], [x2-(w*sn/2), y2+(w*cs/2)], [x2+(w*sn/2), y2-(w*cs/2)] The sn is the sine of the angle of the line and cs is the cosine of the angle of the line. A pixel is part of the line (and hence drawn) if the center of the pixel is fully inside the bounding box, which is viewed as having infinitely thin edges. If the center of the pixel is exactly on the bounding box, it is part of the line if and only if the interior is immediately to its right (x increasing direction). Pixels with centers on a horizontal edge are a special case and are part of the line if and only if the interior or the boundary is immediately below (y increasing direction) and if the interior or the boundary is immediately to the right (x increasing direction). Note that this description is a mathematical model describing the pixels that are drawn for a wide line and does not imply that trigonometry is required to implement such a model. Real or fixed point arithmetic is recommended for computing the corners of the line endpoints for lines greater than one pixel in width. Thin lines (zero line-width) are nominally one pixel wide lines drawn using an unspecified, device-dependent algorithm. There are only two constraints on this algorithm. First, if a line is drawn unclipped from [x1,y1] to [x2,y2] and another line is drawn unclipped from [x1+dx,y1+dy] to [x2+dx,y2+dy], then a point [x,y] is touched by drawing the first line if and only if the point [x+dx,y+dy] is touched by drawing the second line. Second, the effective set of points comprising a line cannot be affected by clipping. Thus, a point is touched in a clipped line if and only if the point lies inside the clipping region and the point would be touched by the line when drawn unclipped. Note that a wide line drawn from [x1,y1] to [x2,y2] always draws the same pixels as a wide line drawn from [x2,y2] to [x1,y1], not counting cap-style and join-style. Implementors are encouraged to make this property true for thin lines, but it is not required. A line-width of zero may differ from a line-width of one in which pixels are drawn. In general, drawing a thin line will be faster than drawing a wide line of width one, but thin lines may not mix well aesthetically with wide lines because of the different drawing algorithms. If it is desirable to obtain precise and uniform results across all displays, a client should always use a line-width of one, rather than a line-width of zero. The line-style defines which sections of a line are drawn: Solid The full path of the line is drawn. DoubleDash The full path of the line is drawn, but the even dashes are filled differently than the odd dashes (see fill-style), with Butt cap-style used where even and odd dashes meet. OnOffDash Only the even dashes are drawn, and cap-style applies to all internal ends of the individual dashes (except NotLast is treated as Butt). The cap-style defines how the endpoints of a path are drawn: NotLast The result is equivalent to Butt, except that for a line-width of zero the final endpoint is not drawn. Butt The result is square at the endpoint (perpendicular to the slope of the line) with no projection beyond. Round The result is a circular arc with its diameter equal to the line-width, centered on the endpoint; it is equivalent to Butt for line-width zero. Projecting The result is square at the end, but the path continues beyond the endpoint for a distance equal to half the line-width; it is equivalent to Butt for line-width zero. The join-style defines how corners are drawn for wide lines: Miter The outer edges of the two lines extend to meet at an angle. However, if the angle is less than 11 degrees, a Bevel join-style is used instead. Round The result is a circular arc with a diameter equal to the line-width, centered on the joinpoint. Bevel The result is Butt endpoint styles, and then the triangular notch is filled. For a line with coincident endpoints (x1=x2, y1=y2), when the cap-style is applied to both endpoints, the semantics depends on the line-width and the cap-style: NotLast thin This is device-dependent, but the desired effect is that nothing is drawn. Butt thin This is device-dependent, but the desired effect is that a single pixel is drawn. Round thin This is the same as Butt/thin. Projecting thin This is the same as Butt/thin. Butt wide Nothing is drawn. Round wide The closed path is a circle, centered at the endpoint and with a diameter equal to the line-width. Projecting wide The closed path is a square, aligned with the coordinate axes, centered at the endpoint and with sides equal to the line-width. For a line with coincident endpoints (x1=x2, y1=y2), when the join-style is applied at one or both endpoints, the effect is as if the line was removed from the overall path. However, if the total path consists of (or is reduced to) a single point joined with itself, the effect is the same as when the cap-style is applied at both endpoints. The tile/stipple represents an infinite two-dimensional plane with the tile/stipple replicated in all dimensions. When that plane is superimposed on the drawable for use in a graphics operation, the upper-left corner of some instance of the tile/stipple is at the coordinates within the drawable specified by the tile/stipple origin. The tile/stipple and clip origins are interpreted relative to the origin of whatever destination drawable is specified in a graphics request. The tile pixmap must have the same root and depth as the gcontext (or a Match error results). The stipple pixmap must have depth one and must have the same root as the gcontext (or a Match error results). For fill-style Stippled (but not fill-style OpaqueStippled), the stipple pattern is tiled in a single plane and acts as an additional clip mask to be ANDed with the clip-mask. Any size pixmap can be used for tiling or stippling, although some sizes may be faster to use than others. The fill-style defines the contents of the source for line, text, and fill requests. For all text and fill requests (for example, PolyText8, PolyText16, PolyFillRectangle, FillPoly, and PolyFillArc) as well as for line requests with line-style Solid, (for example, PolyLine, PolySegment, PolyRectangle, PolyArc ) and for the even dashes for line requests with line-style OnOffDash or DoubleDash: Solid Foreground Tiled Tile OpaqueStippled A tile with the same width and height as stipple but with background everywhere stipple has a zero and with foreground everywhere stipple has a one Stippled Foreground masked by stipple For the odd dashes for line requests with line-style DoubleDash: Solid Background Tiled Same as for even dashes OpaqueStippled Same as for even dashes Stippled Background masked by stipple The dashes value allowed here is actually a simplified form of the more general patterns that can be set with SetDashes. Specifying a value of N here is equivalent to specifying the two element list [N, N] in SetDashes. The value must be nonzero (or a Value error results). The meaning of dash-offset and dashes are explained in the SetDashes request. Clipping region The clip-mask restricts writes to the destination drawable. Only pixels where the clip-mask has bits set to 1 are drawn. Pixels are not drawn outside the area covered by the clip-mask or where the clip-mask has bits set to 0. The clip-mask affects all graphics requests, but it does not clip sources. The clip-mask origin is interpreted relative to the origin of whatever destination drawable is specified in a graphics request. If a pixmap is specified as the clip-mask, it must have depth 1 and have the same root as the gcontext (or a Match error results). If clip-mask is None, then pixels are always drawn, regardless of the clip origin. The clip-mask can also be set with the SetClipRectangles request. For ClipByChildren, both source and destination windows are additionally clipped by all viewable InputOutput children. For IncludeInferiors, neither source nor destination window is clipped by inferiors. This will result in including subwindow contents in the source and drawing through subwindow boundaries of the destination. The use of IncludeInferiors with a source or destination window of one depth with mapped inferiors of differing depth is not illegal, but the semantics is undefined by the core protocol. Winding rule Fill rule The fill-rule defines what pixels are inside (that is, are drawn) for paths given in FillPoly requests. EvenOdd means a point is inside if an infinite ray with the point as origin crosses the path an odd number of times. For Winding, a point is inside if an infinite ray with the point as origin crosses an unequal number of clockwise and counterclockwise directed path segments. A clockwise directed path segment is one that crosses the ray from left to right as observed from the point. A counter-clockwise segment is one that crosses the ray from right to left as observed from the point. The case where a directed line segment is coincident with the ray is uninteresting because one can simply choose a different ray that is not coincident with a segment. For both fill rules, a point is infinitely small and the path is an infinitely thin line. A pixel is inside if the center point of the pixel is inside and the center point is not on the boundary. If the center point is on the boundary, the pixel is inside if and only if the polygon interior is immediately to its right (x increasing direction). Pixels with centers along a horizontal edge are a special case and are inside if and only if the polygon interior is immediately below (y increasing direction). The arc-mode controls filling in the PolyFillArc request. The graphics-exposures flag controls GraphicsExposure event generation for CopyArea and CopyPlane requests (and any similar requests defined by extensions). The default component values are: Component Default function Copy plane-mask all ones foreground 0 background 1 line-width 0 line-style Solid cap-style Butt join-style Miter fill-style Solid fill-rule EvenOdd arc-mode PieSlice tile Pixmap of unspecified size filled with foreground pixel (that is, client specified pixel if any, else 0) (subsequent changes to foreground do not affect this pixmap) stipple Pixmap of unspecified size filled with ones tile-stipple-x-origin 0 tile-stipple-y-origin 0 font <server-dependent-font> subwindow-mode ClipByChildren graphics-exposures True clip-x-origin 0 clip-y-origin 0 clip-mask None dash-offset 0 dashes 4 (that is, the list [4, 4]) Storing a pixmap in a gcontext might or might not result in a copy being made. If the pixmap is later used as the destination for a graphics request, the change might or might not be reflected in the gcontext. If the pixmap is used simultaneously in a graphics request as both a destination and as a tile or stipple, the results are not defined. It is quite likely that some amount of gcontext information will be cached in display hardware and that such hardware can only cache a small number of gcontexts. Given the number and complexity of components, clients should view switching between gcontexts with nearly identical state as significantly more expensive than making minor changes to a single gcontext.
ChangeGC ChangeGC gc: GCONTEXT value-mask: BITMASK value-list: LISTofVALUE Errors: Alloc, Font, GContext, Match, Pixmap, Value This request changes components in gc. The value-mask and value-list specify which components are to be changed. The values and restrictions are the same as for CreateGC. Changing the clip-mask also overrides any previous SetClipRectangles request on the context. Changing dash-offset or dashes overrides any previous SetDashes request on the context. The order in which components are verified and altered is server-dependent. If an error is generated, a subset of the components may have been altered.
CopyGC CopyGC src-gc, dst-gc: GCONTEXT value-mask: BITMASK Errors: Alloc, GContext, Match, Value This request copies components from src-gc to dst-gc. The value-mask specifies which components to copy, as for CreateGC. The two gcontexts must have the same root and the same depth (or a Match error results).
SetDashes SetDashes gc: GCONTEXT dash-offset: CARD16 dashes: LISTofCARD8 Errors: Alloc, GContext, Value This request sets dash-offset and dashes in gc for dashed line styles. Dashes cannot be empty (or a Value error results). Specifying an odd-length list is equivalent to specifying the same list concatenated with itself to produce an even-length list. The initial and alternating elements of dashes are the even dashes; the others are the odd dashes. Each element specifies a dash length in pixels. All of the elements must be nonzero (or a Value error results). The dash-offset defines the phase of the pattern, specifying how many pixels into dashes the pattern should actually begin in any single graphics request. Dashing is continuous through path elements combined with a join-style but is reset to the dash-offset between each sequence of joined lines. The unit of measure for dashes is the same as in the ordinary coordinate system. Ideally, a dash length is measured along the slope of the line, but implementations are only required to match this ideal for horizontal and vertical lines. Failing the ideal semantics, it is suggested that the length be measured along the major axis of the line. The major axis is defined as the x axis for lines drawn at an angle of between -45 and +45 degrees or between 135 and 225 degrees from the x axis. For all other lines, the major axis is the y axis. For any graphics primitive, the computation of the endpoint of an individual dash only depends on the geometry of the primitive, the start position of the dash, the direction of the dash, and the dash length. For any graphics primitive, the total set of pixels used to render the primitive (both even and odd numbered dash elements) with DoubleDash line-style is the same as the set of pixels used to render the primitive with Solid line-style. For any graphics primitive, if the primitive is drawn with OnOffDash or DoubleDash line-style unclipped at position [x,y] and again at position [x+dx,y+dy], then a point [x1,y1] is included in a dash in the first instance if and only if the point [x1+dx,y1+dy] is included in the dash in the second instance. In addition, the effective set of points comprising a dash cannot be affected by clipping. A point is included in a clipped dash if and only if the point lies inside the clipping region and the point would be included in the dash when drawn unclipped.
SetClipRectangles SetClipRectangles gc: GCONTEXT clip-x-origin, clip-y-origin: INT16 rectangles: LISTofRECTANGLE ordering: { UnSorted, YSorted, YXSorted, YXBanded} Errors: Alloc, GContext, Match, Value This request changes clip-mask in gc to the specified list of rectangles and sets the clip origin. Output will be clipped to remain contained within the rectangles. The clip origin is interpreted relative to the origin of whatever destination drawable is specified in a graphics request. The rectangle coordinates are interpreted relative to the clip origin. The rectangles should be nonintersecting, or graphics results will be undefined. Note that the list of rectangles can be empty, which effectively disables output. This is the opposite of passing None as the clip-mask in CreateGC and ChangeGC. If known by the client, ordering relations on the rectangles can be specified with the ordering argument. This may provide faster operation by the server. If an incorrect ordering is specified, the server may generate a Match error, but it is not required to do so. If no error is generated, the graphics results are undefined. UnSorted means that the rectangles are in arbitrary order. YSorted means that the rectangles are nondecreasing in their Y origin. YXSorted additionally constrains YSorted order in that all rectangles with an equal Y origin are nondecreasing in their X origin. YXBanded additionally constrains YXSorted by requiring that, for every possible Y scanline, all rectangles that include that scanline have identical Y origins and Y extents.
FreeGC FreeGC gc: GCONTEXT Errors: GContext This request deletes the association between the resource ID and the gcontext and destroys the gcontext.
ClearArea ClearArea Background window: WINDOW x, y: INT16 width, height: CARD16 exposures: BOOL Errors: Match, Value, Window The x and y coordinates are relative to the window's origin and specify the upper-left corner of the rectangle. If width is zero, it is replaced with the current width of the window minus x. If height is zero, it is replaced with the current height of the window minus y. If the window has a defined background tile, the rectangle is tiled with a plane-mask of all ones and function of Copy and a subwindow-mode of ClipByChildren. If the window has background None, the contents of the window are not changed. In either case, if exposures is True, then one or more exposure events are generated for regions of the rectangle that are either visible or are being retained in a backing store. It is a Match error to use an InputOnly window in this request.
CopyArea CopyArea src-drawable, dst-drawable: DRAWABLE gc: GCONTEXT src-x, src-y: INT16 width, height: CARD16 dst-x, dst-y: INT16 Errors: Drawable, GContext, Match This request combines the specified rectangle of src-drawable with the specified rectangle of dst-drawable. The src-x and src-y coordinates are relative to src-drawable's origin. The dst-x and dst-y are relative to dst-drawable's origin, each pair specifying the upper-left corner of the rectangle. The src-drawable must have the same root and the same depth as dst-drawable (or a Match error results). If regions of the source rectangle are obscured and have not been retained in backing store or if regions outside the boundaries of the source drawable are specified, then those regions are not copied, but the following occurs on all corresponding destination regions that are either visible or are retained in backing-store. If the dst-drawable is a window with a background other than None, these corresponding destination regions are tiled (with plane-mask of all ones and function Copy) with that background. Regardless of tiling and whether the destination is a window or a pixmap, if graphics-exposures in gc is True, then GraphicsExposure events for all corresponding destination regions are generated. If graphics-exposures is True but no GraphicsExposure events are generated, then a NoExposure event is generated. GC components: function, plane-mask, subwindow-mode, graphics-exposures, clip-x-origin, clip-y-origin, clip-mask
CopyPlane CopyPlane src-drawable, dst-drawable: DRAWABLE gc: GCONTEXT src-x, src-y: INT16 width, height: CARD16 dst-x, dst-y: INT16 bit-plane: CARD32 Errors: Drawable, GContext, Match, Value The src-drawable must have the same root as dst-drawable (or a Match error results), but it need not have the same depth. The bit-plane must have exactly one bit set to 1 and the value of bit-plane must be less than %2 sup n% where n is the depth of src-drawable (or a Value error results). Effectively, a pixmap of the same depth as dst-drawable and with size specified by the source region is formed using the foreground/background pixels in gc (foreground everywhere the bit-plane in src-drawable contains a bit set to 1, background everywhere the bit-plane contains a bit set to 0), and the equivalent of a CopyArea is performed, with all the same exposure semantics. This can also be thought of as using the specified region of the source bit-plane as a stipple with a fill-style of OpaqueStippled for filling a rectangular area of the destination. GC components: function, plane-mask, foreground, background, subwindow-mode, graphics-exposures, clip-x-origin, clip-y-origin, clip-mask
PolyPoint PolyPoint drawable: DRAWABLE gc: GCONTEXT coordinate-mode: { Origin, Previous} points: LISTofPOINT Errors: Drawable, GContext, Match, Value This request combines the foreground pixel in gc with the pixel at each point in the drawable. The points are drawn in the order listed. The first point is always relative to the drawable's origin. The rest are relative either to that origin or the previous point, depending on the coordinate-mode. GC components: function, plane-mask, foreground, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask
PolyLine PolyLine Linedrawing drawable: DRAWABLE gc: GCONTEXT coordinate-mode: { Origin, Previous} points: LISTofPOINT Errors: Drawable, GContext, Match, Value This request draws lines between each pair of points (point[i], point[i+1]). The lines are drawn in the order listed. The lines join correctly at all intermediate points, and if the first and last points coincide, the first and last lines also join correctly. For any given line, no pixel is drawn more than once. If thin (zero line-width) lines intersect, the intersecting pixels are drawn multiple times. If wide lines intersect, the intersecting pixels are drawn only once, as though the entire PolyLine were a single filled shape. The first point is always relative to the drawable's origin. The rest are relative either to that origin or the previous point, depending on the coordinate-mode. When either of the two lines involved in a Bevel join is neither vertical nor horizontal, then the slope and position of the line segment defining the bevel join edge is implementation dependent. However, the computation of the slope and distance (relative to the join point) only depends on the line width and the slopes of the two lines. GC components: function, plane-mask, line-width, line-style, cap-style, join-style, fill-style, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin, dash-offset, dashes
PolySegment PolySegment drawable: DRAWABLE gc: GCONTEXT segments: LISTofSEGMENT where: SEGMENT: [x1, y1, x2, y2: INT16] Errors: Drawable, GContext, Match For each segment, this request draws a line between [x1, y1] and [x2, y2]. The lines are drawn in the order listed. No joining is performed at coincident endpoints. For any given line, no pixel is drawn more than once. If lines intersect, the intersecting pixels are drawn multiple times. GC components: function, plane-mask, line-width, line-style, cap-style, fill-style, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin, dash-offset, dashes
PolyRectangle PolyRectangle drawable: DRAWABLE gc: GCONTEXT rectangles: LISTofRECTANGLE Errors: Drawable, GContext, Match This request draws the outlines of the specified rectangles, as if a five-point PolyLine were specified for each rectangle: [x,y] [x+width,y] [x+width,y+height] [x,y+height] [x,y] The x and y coordinates of each rectangle are relative to the drawable's origin and define the upper-left corner of the rectangle. The rectangles are drawn in the order listed. For any given rectangle, no pixel is drawn more than once. If rectangles intersect, the intersecting pixels are drawn multiple times. GC components: function, plane-mask, line-width, line-style, cap-style, join-style, fill-style, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin, dash-offset, dashes
PolyArc PolyArc drawable: DRAWABLE gc: GCONTEXT arcs: LISTofARC Errors: Drawable, GContext, Match This request draws circular or elliptical arcs. Each arc is specified by a rectangle and two angles. The angles are signed integers in degrees scaled by 64, with positive indicating counterclockwise motion and negative indicating clockwise motion. The start of the arc is specified by angle1 relative to the three-o'clock position from the center of the rectangle, and the path and extent of the arc is specified by angle2 relative to the start of the arc. If the magnitude of angle2 is greater than 360 degrees, it is truncated to 360 degrees. The x and y coordinates of the rectangle are relative to the origin of the drawable. For an arc specified as [x,y,w,h,a1,a2], the origin of the major and minor axes is at [x+(w/2),y+(h/2)], and the infinitely thin path describing the entire circle/ellipse intersects the horizontal axis at [x,y+(h/2)] and [x+w,y+(h/2)] and intersects the vertical axis at [x+(w/2),y] and [x+(w/2),y+h]. These coordinates are not necessarily integral; that is, they are not truncated to discrete coordinates. For a wide line with line-width lw, the ideal bounding outlines for filling are given by the two infinitely thin paths consisting of all points whose perpendicular distance from a tangent to the path of the circle/ellipse is equal to lw/2 (which may be a fractional value). When the width and height of the arc are not equal and both are nonzero, then the actual bounding outlines are implementation dependent. However, the computation of the shape and position of the bounding outlines (relative to the center of the arc) only depends on the width and height of the arc and the line-width. The cap-style is applied the same as for a line corresponding to the tangent of the circle/ellipse at the endpoint. When the angle of an arc face is not an integral multiple of 90 degrees, and the width and height of the arc are both are nonzero, then the shape and position of the cap at that face is implementation dependent. However, for a Butt cap, the face is defined by a straight line, and the computation of the position (relative to the center of the arc) and the slope of the line only depends on the width and height of the arc and the angle of the arc face. For other cap styles, the computation of the position (relative to the center of the arc) and the shape of the cap only depends on the width and height of the arc, the line-width, the angle of the arc face, and the direction (clockwise or counter clockwise) of the arc from the endpoint. The join-style is applied the same as for two lines corresponding to the tangents of the circles/ellipses at the join point. When the width and height of both arcs are nonzero, and the angle of either arc face is not an integral multiple of 90 degrees, then the shape of the join is implementation dependent. However, the computation of the shape only depends on the width and height of each arc, the line-width, the angles of the two arc faces, the direction (clockwise or counter clockwise) of the arcs from the join point, and the relative orientation of the two arc center points. For an arc specified as [x,y,w,h,a1,a2], the angles must be specified in the effectively skewed coordinate system of the ellipse (for a circle, the angles and coordinate systems are identical). The relationship between these angles and angles expressed in the normal coordinate system of the screen (as measured with a protractor) is as follows: skewed-angle = atan(tan(normal-angle) * w/h) + adjust The skewed-angle and normal-angle are expressed in radians (rather than in degrees scaled by 64) in the range [0,2*PI). The atan returns a value in the range [-PI/2,PI/2]. The adjust is: 0 for normal-angle in the range [0,PI/2) PI for normal-angle in the range [PI/2,(3*PI)/2) 2*PI for normal-angle in the range [(3*PI)/2,2*PI) The arcs are drawn in the order listed. If the last point in one arc coincides with the first point in the following arc, the two arcs will join correctly. If the first point in the first arc coincides with the last point in the last arc, the two arcs will join correctly. For any given arc, no pixel is drawn more than once. If two arcs join correctly and the line-width is greater than zero and the arcs intersect, no pixel is drawn more than once. Otherwise, the intersecting pixels of intersecting arcs are drawn multiple times. Specifying an arc with one endpoint and a clockwise extent draws the same pixels as specifying the other endpoint and an equivalent counterclockwise extent, except as it affects joins. By specifying one axis to be zero, a horizontal or vertical line can be drawn. Angles are computed based solely on the coordinate system, ignoring the aspect ratio. GC components: function, plane-mask, line-width, line-style, cap-style, join-style, fill-style, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin, dash-offset, dashes
FillPoly FillPoly drawable: DRAWABLE gc: GCONTEXT shape: { Complex, Nonconvex, Convex} coordinate-mode: { Origin, Previous} points: LISTofPOINT Errors: Drawable, GContext, Match, Value This request fills the region closed by the specified path. The path is closed automatically if the last point in the list does not coincide with the first point. No pixel of the region is drawn more than once. The first point is always relative to the drawable's origin. The rest are relative either to that origin or the previous point, depending on the coordinate-mode. The shape parameter may be used by the server to improve performance. Complex means the path may self-intersect. Contiguous coincident points in the path are not treated as self-intersection. Nonconvex means the path does not self-intersect, but the shape is not wholly convex. If known by the client, specifying Nonconvex over Complex may improve performance. If Nonconvex is specified for a self-intersecting path, the graphics results are undefined. Convex means that for every pair of points inside the polygon, the line segment connecting them does not intersect the path. If known by the client, specifying Convex can improve performance. If Convex is specified for a path that is not convex, the graphics results are undefined. GC components: function, plane-mask, fill-style, fill-rule, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin
PolyFillRectangle PolyFillRectangle drawable: DRAWABLE gc: GCONTEXT rectangles: LISTofRECTANGLE Errors: Drawable, GContext, Match This request fills the specified rectangles, as if a four-point FillPoly were specified for each rectangle: [x,y] [x+width,y] [x+width,y+height] [x,y+height] The x and y coordinates of each rectangle are relative to the drawable's origin and define the upper-left corner of the rectangle. The rectangles are drawn in the order listed. For any given rectangle, no pixel is drawn more than once. If rectangles intersect, the intersecting pixels are drawn multiple times. GC components: function, plane-mask, fill-style, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin
PolyFillArc PolyFillArc drawable: DRAWABLE gc: GCONTEXT arcs: LISTofARC Errors: Drawable, GContext, Match For each arc, this request fills the region closed by the infinitely thin path described by the specified arc and one or two line segments, depending on the arc-mode. For Chord, the single line segment joining the endpoints of the arc is used. For PieSlice, the two line segments joining the endpoints of the arc with the center point are used. For an arc specified as [x,y,w,h,a1,a2], the origin of the major and minor axes is at [x+(w/2),y+(h/2)], and the infinitely thin path describing the entire circle/ellipse intersects the horizontal axis at [x,y+(h/2)] and [x+w,y+(h/2)] and intersects the vertical axis at [x+(w/2),y] and [x+(w/2),y+h]. These coordinates are not necessarily integral; that is, they are not truncated to discrete coordinates. The arc angles are interpreted as specified in the PolyArc request. When the angle of an arc face is not an integral multiple of 90 degrees, then the precise endpoint on the arc is implementation dependent. However, for Chord arc-mode, the computation of the pair of endpoints (relative to the center of the arc) only depends on the width and height of the arc and the angles of the two arc faces. For PieSlice arc-mode, the computation of an endpoint only depends on the angle of the arc face for that endpoint and the ratio of the arc width to arc height. The arcs are filled in the order listed. For any given arc, no pixel is drawn more than once. If regions intersect, the intersecting pixels are drawn multiple times. GC components: function, plane-mask, fill-style, arc-mode, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin
PutImage PutImage drawable: DRAWABLE gc: GCONTEXT depth: CARD8 width, height: CARD16 dst-x, dst-y: INT16 left-pad: CARD8 format: { Bitmap, XYPixmap, ZPixmap} data: LISTofBYTE Errors: Drawable, GContext, Match, Value This request combines an image with a rectangle of the drawable. The dst-x and dst-y coordinates are relative to the drawable's origin. If Bitmap format is used, then depth must be one (or a Match error results), and the image must be in XY format. The foreground pixel in gc defines the source for bits set to 1 in the image, and the background pixel defines the source for the bits set to 0. For XYPixmap and ZPixmap, the depth must match the depth of the drawable (or a Match error results). For XYPixmap, the image must be sent in XY format. For ZPixmap, the image must be sent in the Z format defined for the given depth. The left-pad must be zero for ZPixmap format (or a Match error results). For Bitmap and XYPixmap format, left-pad must be less than bitmap-scanline-pad as given in the server connection setup information (or a Match error results). The first left-pad bits in every scanline are to be ignored by the server. The actual image begins that many bits into the data. The width argument defines the width of the actual image and does not include left-pad. GC components: function, plane-mask, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background
GetImage GetImage drawable: DRAWABLE x, y: INT16 width, height: CARD16 plane-mask: CARD32 format: { XYPixmap, ZPixmap} depth: CARD8 visual: VISUALID or None data: LISTofBYTE Errors: Drawable, Match, Value This request returns the contents of the given rectangle of the drawable in the given format. The x and y coordinates are relative to the drawable's origin and define the upper-left corner of the rectangle. If XYPixmap is specified, only the bit planes specified in plane-mask are transmitted, with the planes appearing from most significant to least significant in bit order. If ZPixmap is specified, then bits in all planes not specified in plane-mask are transmitted as zero. Range checking is not performed on plane-mask; extraneous bits are simply ignored. The returned depth is as specified when the drawable was created and is the same as a depth component in a FORMAT structure (in the connection setup), not a bits-per-pixel component. If the drawable is a window, its visual type is returned. If the drawable is a pixmap, the visual is None. If the drawable is a pixmap, then the given rectangle must be wholly contained within the pixmap (or a Match error results). If the drawable is a window, the window must be viewable, and it must be the case that, if there were no inferiors or overlapping windows, the specified rectangle of the window would be fully visible on the screen and wholly contained within the outside edges of the window (or a Match error results). Note that the borders of the window can be included and read with this request. If the window has a backing store, then the backing-store contents are returned for regions of the window that are obscured by noninferior windows; otherwise, the returned contents of such obscured regions are undefined. Also undefined are the returned contents of visible regions of inferiors of different depth than the specified window. The pointer cursor image is not included in the contents returned. This request is not general-purpose in the same sense as other graphics-related requests. It is intended specifically for rudimentary hardcopy support.
PolyText8 PolyText8 drawable: DRAWABLE gc: GCONTEXT x, y: INT16 items: LISTofTEXTITEM8 where: TEXTITEM8: TEXTELT8 or FONT TEXTELT8: [delta: INT8 string: STRING8] Errors: Drawable, Font, GContext, Match The x and y coordinates are relative to the drawable's origin and specify the baseline starting position (the initial character origin). Each text item is processed in turn. A font item causes the font to be stored in gc and to be used for subsequent text. Switching among fonts does not affect the next character origin. A text element delta specifies an additional change in the position along the x axis before the string is drawn; the delta is always added to the character origin. Each character image, as defined by the font in gc, is treated as an additional mask for a fill operation on the drawable. All contained FONTs are always transmitted most significant byte first. If a Font error is generated for an item, the previous items may have been drawn. For fonts defined with 2-byte matrix indexing, each STRING8 byte is interpreted as a byte2 value of a CHAR2B with a byte1 value of zero. GC components: function, plane-mask, fill-style, font, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask GC mode-dependent components: foreground, background, tile, stipple, tile-stipple-x-origin, tile-stipple-y-origin
PolyText16 PolyText16 drawable: DRAWABLE gc: GCONTEXT x, y: INT16 items: LISTofTEXTITEM16 where: TEXTITEM16: TEXTELT16 or FONT TEXTELT16: [delta: INT8 string: STRING16] Errors: Drawable, Font, GContext, Match This request is similar to PolyText8, except 2-byte (or 16-bit) characters are used. For fonts defined with linear indexing rather than 2-byte matrix indexing, the server will interpret each CHAR2B as a 16-bit number that has been transmitted most significant byte first (that is, byte1 of the CHAR2B is taken as the most significant byte).
ImageText8 ImageText8 drawable: DRAWABLE gc: GCONTEXT x, y: INT16 string: STRING8 Errors: Drawable, GContext, Match The x and y coordinates are relative to the drawable's origin and specify the baseline starting position (the initial character origin). The effect is first to fill a destination rectangle with the background pixel defined in gc and then to paint the text with the foreground pixel. The upper-left corner of the filled rectangle is at: [x, y - font-ascent] the width is: overall-width and the height is: font-ascent + font-descent The overall-width, font-ascent, and font-descent are as they would be returned by a QueryTextExtents call using gc and string. The function and fill-style defined in gc are ignored for this request. The effective function is Copy, and the effective fill-style Solid. For fonts defined with 2-byte matrix indexing, each STRING8 byte is interpreted as a byte2 value of a CHAR2B with a byte1 value of zero. GC components: plane-mask, foreground, background, font, subwindow-mode, clip-x-origin, clip-y-origin, clip-mask
ImageText16 ImageText16 drawable: DRAWABLE gc: GCONTEXT x, y: INT16 string: STRING16 Errors: Drawable, GContext, Match This request is similar to ImageText8, except 2-byte (or 16-bit) characters are used. For fonts defined with linear indexing rather than 2-byte matrix indexing, the server will interpret each CHAR2B as a 16-bit number that has been transmitted most significant byte first (that is, byte1 of the CHAR2B is taken as the most significant byte).
CreateColormap CreateColormap Colormap mid: COLORMAP visual: VISUALID window: WINDOW alloc: { None, All} Errors: Alloc, IDChoice, Match, Value, Window This request creates a colormap of the specified visual type for the screen on which the window resides and associates the identifier mid with it. The visual type must be one supported by the screen (or a Match error results). The initial values of the colormap entries are undefined for classes GrayScale, PseudoColor, and DirectColor. For StaticGray, StaticColor, and TrueColor, the entries will have defined values, but those values are specific to the visual and are not defined by the core protocol. For StaticGray, StaticColor, and TrueColor, alloc must be specified as None (or a Match error results). For the other classes, if alloc is None, the colormap initially has no allocated entries, and clients can allocate entries. If alloc is All, then the entire colormap is allocated writable. The initial values of all allocated entries are undefined. For GrayScale and PseudoColor, the effect is as if an AllocColorCells request returned all pixel values from zero to N - 1, where N is the colormap-entries value in the specified visual. For DirectColor, the effect is as if an AllocColorPlanes request returned a pixel value of zero and red-mask, green-mask, and blue-mask values containing the same bits as the corresponding masks in the specified visual. However, in all cases, none of these entries can be freed with FreeColors.
FreeColormap FreeColormap cmap: COLORMAP Errors: Colormap This request deletes the association between the resource ID and the colormap and frees the colormap storage. If the colormap is an installed map for a screen, it is uninstalled (see UninstallColormap request). If the colormap is defined as the colormap for a window (by means of CreateWindow or ChangeWindowAttributes), the colormap for the window is changed to None, and a ColormapNotify event is generated. The protocol does not define the colors displayed for a window with a colormap of None. This request has no effect on a default colormap for a screen.
CopyColormapAndFree CopyColormapAndFree mid, src-cmap: COLORMAP Errors: Alloc, Colormap, IDChoice This request creates a colormap of the same visual type and for the same screen as src-cmap, and it associates identifier mid with it. It also moves all of the client's existing allocations from src-cmap to the new colormap with their color values intact and their read-only or writable characteristics intact, and it frees those entries in src-cmap. Color values in other entries in the new colormap are undefined. If src-cmap was created by the client with alloc All (see CreateColormap request), then the new colormap is also created with alloc All, all color values for all entries are copied from src-cmap, and then all entries in src-cmap are freed. If src-cmap was not created by the client with alloc All, then the allocations to be moved are all those pixels and planes that have been allocated by the client using either AllocColor, AllocNamedColor, AllocColorCells, or AllocColorPlanes and that have not been freed since they were allocated.
InstallColormap InstallColormap cmap: COLORMAP Errors: Colormap This request makes this colormap an installed map for its screen. All windows associated with this colormap immediately display with true colors. As a side effect, additional colormaps might be implicitly installed or uninstalled by the server. Which other colormaps get installed or uninstalled is server-dependent except that the required list must remain installed. If cmap is not already an installed map, a ColormapNotify event is generated on every window having cmap as an attribute. In addition, for every other colormap that is installed or uninstalled as a result of the request, a ColormapNotify event is generated on every window having that colormap as an attribute. At any time, there is a subset of the installed maps that are viewed as an ordered list and are called the required list. The length of the required list is at most M, where M is the min-installed-maps specified for the screen in the connection setup. The required list is maintained as follows. When a colormap is an explicit argument to InstallColormap, it is added to the head of the list; the list is truncated at the tail, if necessary, to keep the length of the list to at most M. When a colormap is an explicit argument to UninstallColormap and it is in the required list, it is removed from the list. A colormap is not added to the required list when it is installed implicitly by the server, and the server cannot implicitly uninstall a colormap that is in the required list. Initially the default colormap for a screen is installed (but is not in the required list).
UninstallColormap UninstallColormap cmap: COLORMAP Errors: Colormap If cmap is on the required list for its screen (see InstallColormap request), it is removed from the list. As a side effect, cmap might be uninstalled, and additional colormaps might be implicitly installed or uninstalled. Which colormaps get installed or uninstalled is server-dependent except that the required list must remain installed. If cmap becomes uninstalled, a ColormapNotify event is generated on every window having cmap as an attribute. In addition, for every other colormap that is installed or uninstalled as a result of the request, a ColormapNotify event is generated on every window having that colormap as an attribute.
ListInstalledColormaps ListInstalledColormaps window: WINDOW cmaps: LISTofCOLORMAP Errors: Window This request returns a list of the currently installed colormaps for the screen of the specified window. The order of colormaps is not significant, and there is no explicit indication of the required list (see InstallColormap request).
AllocColor AllocColor cmap: COLORMAP red, green, blue: CARD16 pixel: CARD32 red, green, blue: CARD16 Errors: Alloc, Colormap This request allocates a read-only colormap entry corresponding to the closest RGB values provided by the hardware. It also returns the pixel and the RGB values actually used. Multiple clients requesting the same effective RGB values can be assigned the same read-only entry, allowing entries to be shared.
AllocNamedColor AllocNamedColor cmap: COLORMAP name: STRING8 pixel: CARD32 exact-red, exact-green, exact-blue: CARD16 visual-red, visual-green, visual-blue: CARD16 Errors: Alloc, Colormap, Name This request looks up the named color with respect to the screen associated with the colormap. Then, it does an AllocColor on cmap. The name should use the ISO Latin-1 encoding, and uppercase and lowercase do not matter. The exact RGB values specify the true values for the color, and the visual values specify the values actually used in the colormap.
AllocColorCells AllocColorCells cmap: COLORMAP colors, planes: CARD16 contiguous: BOOL pixels, masks: LISTofCARD32 Errors: Alloc, Colormap, Value The number of colors must be positive, and the number of planes must be nonnegative (or a Value error results). If C colors and P planes are requested, then C pixels and P masks are returned. No mask will have any bits in common with any other mask or with any of the pixels. By ORing together masks and pixels, C*%2 sup P% distinct pixels can be produced; all of these are allocated writable by the request. For GrayScale or PseudoColor, each mask will have exactly one bit set to 1; for DirectColor, each will have exactly three bits set to 1. If contiguous is True and if all masks are ORed together, a single contiguous set of bits will be formed for GrayScale or PseudoColor, and three contiguous sets of bits (one within each pixel subfield) for DirectColor. The RGB values of the allocated entries are undefined.
AllocColorPlanes AllocColorPlanes cmap: COLORMAP colors, reds, greens, blues: CARD16 contiguous: BOOL pixels: LISTofCARD32 red-mask, green-mask, blue-mask: CARD32 Errors: Alloc, Colormap, Value The number of colors must be positive, and the reds, greens, and blues must be nonnegative (or a Value error results). If C colors, R reds, G greens, and B blues are requested, then C pixels are returned, and the masks have R, G, and B bits set, respectively. If contiguous is True, then each mask will have a contiguous set of bits. No mask will have any bits in common with any other mask or with any of the pixels. For DirectColor, each mask will lie within the corresponding pixel subfield. By ORing together subsets of masks with pixels, C*%2 sup R+G+B% distinct pixels can be produced; all of these are allocated writable by the request. The initial RGB values of the allocated entries are undefined. In the colormap, there are only C*%2 sup R% independent red entries, C*%2 sup G% independent green entries, and C*%2 sup B% independent blue entries. This is true even for PseudoColor. When the colormap entry for a pixel value is changed using StoreColors or StoreNamedColor, the pixel is decomposed according to the masks and the corresponding independent entries are updated.
FreeColors FreeColors cmap: COLORMAP pixels: LISTofCARD32 plane-mask: CARD32 Errors: Access, Colormap, Value The plane-mask should not have any bits in common with any of the pixels. The set of all pixels is produced by ORing together subsets of plane-mask with the pixels. The request frees all of these pixels that were allocated by the client (using AllocColor, AllocNamedColor, AllocColorCells, and AllocColorPlanes). Note that freeing an individual pixel obtained from AllocColorPlanes may not actually allow it to be reused until all of its related pixels are also freed. Similarly, a read-only entry is not actually freed until it has been freed by all clients, and if a client allocates the same read-only entry multiple times, it must free the entry that many times before the entry is actually freed. All specified pixels that are allocated by the client in cmap are freed, even if one or more pixels produce an error. A Value error is generated if a specified pixel is not a valid index into cmap. An Access error is generated if a specified pixel is not allocated by the client (that is, is unallocated or is only allocated by another client) or if the colormap was created with all entries writable (using an alloc value of All in CreateColormap). If more than one pixel is in error, it is arbitrary as to which pixel is reported.
StoreColors StoreColors cmap: COLORMAP items: LISTofCOLORITEM where: COLORITEM: [pixel: CARD32 do-red, do-green, do-blue: BOOL red, green, blue: CARD16] Errors: Access, Colormap, Value This request changes the colormap entries of the specified pixels. The do-red, do-green, and do-blue fields indicate which components should actually be changed. If the colormap is an installed map for its screen, the changes are visible immediately. All specified pixels that are allocated writable in cmap (by any client) are changed, even if one or more pixels produce an error. A Value error is generated if a specified pixel is not a valid index into cmap, and an Access error is generated if a specified pixel is unallocated or is allocated read-only. If more than one pixel is in error, it is arbitrary as to which pixel is reported.
StoreNamedColor StoreNamedColor cmap: COLORMAP pixel: CARD32 name: STRING8 do-red, do-green, do-blue: BOOL Errors: Access, Colormap, Name, Value This request looks up the named color with respect to the screen associated with cmap and then does a StoreColors in cmap. The name should use the ISO Latin-1 encoding, and uppercase and lowercase do not matter. The Access and Value errors are the same as in StoreColors.
QueryColors QueryColors cmap: COLORMAP pixels: LISTofCARD32 colors: LISTofRGB where: RGB: [red, green, blue: CARD16] Errors: Colormap, Value This request returns the hardware-specific color values stored in cmap for the specified pixels. The values returned for an unallocated entry are undefined. A Value error is generated if a pixel is not a valid index into cmap. If more than one pixel is in error, it is arbitrary as to which pixel is reported.
LookupColor LookupColor cmap: COLORMAP name: STRING8 exact-red, exact-green, exact-blue: CARD16 visual-red, visual-green, visual-blue: CARD16 Errors: Colormap, Name This request looks up the string name of a color with respect to the screen associated with cmap and returns both the exact color values and the closest values provided by the hardware with respect to the visual type of cmap. The name should use the ISO Latin-1 encoding, and uppercase and lowercase do not matter.
CreateCursor CreateCursor Cursor cid: CURSOR source: PIXMAP mask: PIXMAP or None fore-red, fore-green, fore-blue: CARD16 back-red, back-green, back-blue: CARD16 x, y: CARD16 Errors: Alloc, IDChoice, Match, Pixmap This request creates a cursor and associates identifier cid with it. The foreground and background RGB values must be specified, even if the server only has a StaticGray or GrayScale screen. The foreground is used for the bits set to 1 in the source, and the background is used for the bits set to 0. Both source and mask (if specified) must have depth one (or a Match error results), but they can have any root. The mask pixmap defines the shape of the cursor. That is, the bits set to 1 in the mask define which source pixels will be displayed, and where the mask has bits set to 0, the corresponding bits of the source pixmap are ignored. If no mask is given, all pixels of the source are displayed. The mask, if present, must be the same size as the source (or a Match error results). The x and y coordinates define the hotspot relative to the source's origin and must be a point within the source (or a Match error results). The components of the cursor may be transformed arbitrarily to meet display limitations. The pixmaps can be freed immediately if no further explicit references to them are to be made. Subsequent drawing in the source or mask pixmap has an undefined effect on the cursor. The server might or might not make a copy of the pixmap.
CreateGlyphCursor CreateGlyphCursor cid: CURSOR source-font: FONT mask-font: FONT or None source-char, mask-char: CARD16 fore-red, fore-green, fore-blue: CARD16 back-red, back-green, back-blue: CARD16 Errors: Alloc, Font, IDChoice, Value This request is similar to CreateCursor, except the source and mask bitmaps are obtained from the specified font glyphs. The source-char must be a defined glyph in source-font, and if mask-font is given, mask-char must be a defined glyph in mask-font (or a Value error results). The mask font and character are optional. The origins of the source and mask (if it is defined) glyphs are positioned coincidently and define the hotspot. The source and mask need not have the same bounding box metrics, and there is no restriction on the placement of the hotspot relative to the bounding boxes. If no mask is given, all pixels of the source are displayed. Note that source-char and mask-char are CARD16, not CHAR2B. For 2-byte matrix fonts, the 16-bit value should be formed with byte1 in the most significant byte and byte2 in the least significant byte. The components of the cursor may be transformed arbitrarily to meet display limitations. The fonts can be freed immediately if no further explicit references to them are to be made.
FreeCursor FreeCursor cursor: CURSOR Errors: Cursor This request deletes the association between the resource ID and the cursor. The cursor storage will be freed when no other resource references it.
RecolorCursor RecolorCursor cursor: CURSOR fore-red, fore-green, fore-blue: CARD16 back-red, back-green, back-blue: CARD16 Errors: Cursor This request changes the color of a cursor. If the cursor is being displayed on a screen, the change is visible immediately.
QueryBestSize QueryBestSize class: { Cursor, Tile, Stipple} drawable: DRAWABLE width, height: CARD16 width, height: CARD16 Errors: Drawable, Match, Value This request returns the best size that is closest to the argument size. For Cursor, this is the largest size that can be fully displayed. For Tile, this is the size that can be tiled fastest. For Stipple, this is the size that can be stippled fastest. For Cursor, the drawable indicates the desired screen. For Tile and Stipple, the drawable indicates the screen and also possibly the window class and depth. An InputOnly window cannot be used as the drawable for Tile or Stipple (or a Match error results).
QueryExtension QueryExtension Extensionquerying name: STRING8 present: BOOL major-opcode: CARD8 first-event: CARD8 first-error: CARD8 This request determines if the named extension is present. If so, the major opcode for the extension is returned, if it has one. Otherwise, zero is returned. Any minor opcode and the request formats are specific to the extension. If the extension involves additional event types, the base event type code is returned. Otherwise, zero is returned. The format of the events is specific to the extension. If the extension involves additional error codes, the base error code is returned. Otherwise, zero is returned. The format of additional data in the errors is specific to the extension. The extension name should use the ISO Latin-1 encoding, and uppercase and lowercase matter.
ListExtensions ListExtensions Extensionlisting names: LISTofSTRING8 This request returns a list of all extensions supported by the server.
SetModifierMapping SetModifierMapping Modifier keys keycodes-per-modifier: CARD8 keycodes: LISTofKEYCODE status: { Success, Busy, Failed} Errors: Alloc, Value This request specifies the keycodes (if any) of the keys to be used as modifiers. The number of keycodes in the list must be 8*keycodes-per-modifier (or a Length error results). The keycodes are divided into eight sets, with each set containing keycodes-per-modifier elements. The sets are assigned to the modifiers Shift, Lock, Control, Mod1, Mod2, Mod3, Mod4, and Mod5, in order. Only nonzero keycode values are used within each set; zero values are ignored. All of the nonzero keycodes must be in the range specified by min-keycode and max-keycode in the connection setup (or a Value error results). The order of keycodes within a set does not matter. If no nonzero values are specified in a set, the use of the corresponding modifier is disabled, and the modifier bit will always be zero. Otherwise, the modifier bit will be one whenever at least one of the keys in the corresponding set is in the down position. A server can impose restrictions on how modifiers can be changed (for example, if certain keys do not generate up transitions in hardware, if auto-repeat cannot be disabled on certain keys, or if multiple keys per modifier are not supported). The status reply is Failed if some such restriction is violated, and none of the modifiers is changed. If the new nonzero keycodes specified for a modifier differ from those currently defined and any (current or new) keys for that modifier are logically in the down state, then the status reply is Busy, and none of the modifiers is changed. This request generates a MappingNotify event on a Success status.
GetModifierMapping GetModifierMapping Modifier keys keycodes-per-modifier: CARD8 keycodes: LISTofKEYCODE This request returns the keycodes of the keys being used as modifiers. The number of keycodes in the list is 8*keycodes-per-modifier. The keycodes are divided into eight sets, with each set containing keycodes-per-modifier elements. The sets are assigned to the modifiers Shift, Lock, Control, Mod1, Mod2, Mod3, Mod4, and Mod5, in order. The keycodes-per-modifier value is chosen arbitrarily by the server; zeroes are used to fill in unused elements within each set. If only zero values are given in a set, the use of the corresponding modifier has been disabled. The order of keycodes within each set is chosen arbitrarily by the server.
ChangeKeyboardMapping ChangeKeyboardMapping Keysym first-keycode: KEYCODE keysyms-per-keycode: CARD8 keysyms: LISTofKEYSYM Errors: Alloc, Value This request defines the symbols for the specified number of keycodes, starting with the specified keycode. The symbols for keycodes outside this range remained unchanged. The number of elements in the keysyms list must be a multiple of keysyms-per-keycode (or a Length error results). The first-keycode must be greater than or equal to min-keycode as returned in the connection setup (or a Value error results) and: first-keycode + (keysyms-length / keysyms-per-keycode) - 1 must be less than or equal to max-keycode as returned in the connection setup (or a Value error results). KEYSYM number N (counting from zero) for keycode K has an index (counting from zero) of: (K - first-keycode) * keysyms-per-keycode + N in keysyms. The keysyms-per-keycode can be chosen arbitrarily by the client to be large enough to hold all desired symbols. A special KEYSYM value of NoSymbol should be used to fill in unused elements for individual keycodes. It is legal for NoSymbol to appear in nontrailing positions of the effective list for a keycode. This request generates a MappingNotify event. There is no requirement that the server interpret this mapping; it is merely stored for reading and writing by clients (see section 5).
GetKeyboardMapping GetKeyboardMapping Keysym first-keycode: KEYCODE count: CARD8 keysyms-per-keycode: CARD8 keysyms: LISTofKEYSYM Errors: Value This request returns the symbols for the specified number of keycodes, starting with the specified keycode. The first-keycode must be greater than or equal to min-keycode as returned in the connection setup (or a Value error results), and: first-keycode + count - 1 must be less than or equal to max-keycode as returned in the connection setup (or a Value error results). The number of elements in the keysyms list is: count * keysyms-per-keycode and KEYSYM number N (counting from zero) for keycode K has an index (counting from zero) of: (K - first-keycode) * keysyms-per-keycode + N in keysyms. The keysyms-per-keycode value is chosen arbitrarily by the server to be large enough to report all requested symbols. A special KEYSYM value of NoSymbol is used to fill in unused elements for individual keycodes.
ChangeKeyboardControl ChangeKeyboardControl value-mask: BITMASK value-list: LISTofVALUE Errors: Match, Value This request controls various aspects of the keyboard. The value-mask and value-list specify which controls are to be changed. The possible values are: Control Type key-click-percent INT8 bell-percent INT8 bell-pitch INT16 bell-duration INT16 led CARD8 led-mode { On, Off } key KEYCODE auto-repeat-mode { On, Off, Default } The key-click-percent sets the volume for key clicks between 0 (off) and 100 (loud) inclusive, if possible. Setting to -1 restores the default. Other negative values generate a Value error. The bell-percent sets the base volume for the bell between 0 (off) and 100 (loud) inclusive, if possible. Setting to -1 restores the default. Other negative values generate a Value error. The bell-pitch sets the pitch (specified in Hz) of the bell, if possible. Setting to -1 restores the default. Other negative values generate a Value error. The bell-duration sets the duration of the bell (specified in milliseconds), if possible. Setting to -1 restores the default. Other negative values generate a Value error. If both led-mode and led are specified, then the state of that LED is changed, if possible. If only led-mode is specified, then the state of all LEDs are changed, if possible. At most 32 LEDs, numbered from one, are supported. No standard interpretation of LEDs is defined. It is a Match error if an led is specified without an led-mode. If both auto-repeat-mode and key are specified, then the auto-repeat mode of that key is changed, if possible. If only auto-repeat-mode is specified, then the global auto-repeat mode for the entire keyboard is changed, if possible, without affecting the per-key settings. It is a Match error if a key is specified without an auto-repeat-mode. Each key has an individual mode of whether or not it should auto-repeat and a default setting for that mode. In addition, there is a global mode of whether auto-repeat should be enabled or not and a default setting for that mode. When the global mode is On, keys should obey their individual auto-repeat modes. When the global mode is Off, no keys should auto-repeat. An auto-repeating key generates alternating KeyPress and KeyRelease events. When a key is used as a modifier, it is desirable for the key not to auto-repeat, regardless of the auto-repeat setting for that key. A bell generator connected with the console but not directly on the keyboard is treated as if it were part of the keyboard. The order in which controls are verified and altered is server-dependent. If an error is generated, a subset of the controls may have been altered.
GetKeyboardControl GetKeyboardControl key-click-percent: CARD8 bell-percent: CARD8 bell-pitch: CARD16 bell-duration: CARD16 led-mask: CARD32 global-auto-repeat: { On, Off} auto-repeats: LISTofCARD8 This request returns the current control values for the keyboard. For the LEDs, the least significant bit of led-mask corresponds to LED one, and each one bit in led-mask indicates an LED that is lit. The auto-repeats is a bit vector; each one bit indicates that auto-repeat is enabled for the corresponding key. The vector is represented as 32 bytes. Byte N (from 0) contains the bits for keys 8N to 8N + 7, with the least significant bit in the byte representing key 8N.
Bell Bell percent: INT8 Errors: Value This request rings the bell on the keyboard at a volume relative to the base volume for the keyboard, if possible. Percent can range from -100 to 100 inclusive (or a Value error results). The volume at which the bell is rung when percent is nonnegative is: base - [(base * percent) / 100] + percent When percent is negative, it is: base + [(base * percent) / 100]
SetPointerMapping SetPointerMapping map: LISTofCARD8 status: { Success, Busy} Errors: Value This request sets the mapping of the pointer. Elements of the list are indexed starting from one. The length of the list must be the same as GetPointerMapping would return (or a Value error results). The index is a core button number, and the element of the list defines the effective number. A zero element disables a button. Elements are not restricted in value by the number of physical buttons, but no two elements can have the same nonzero value (or a Value error results). If any of the buttons to be altered are logically in the down state, the status reply is Busy, and the mapping is not changed. This request generates a MappingNotify event on a Success status.
GetPointerMapping GetPointerMapping map: LISTofCARD8 This request returns the current mapping of the pointer. Elements of the list are indexed starting from one. The length of the list indicates the number of physical buttons. The nominal mapping for a pointer is the identity mapping: map[i]=i.
ChangePointerControl ChangePointerControl do-acceleration, do-threshold: BOOL acceleration-numerator, acceleration-denominator: INT16 threshold: INT16 Errors: Value This request defines how the pointer moves. The acceleration is a multiplier for movement expressed as a fraction. For example, specifying 3/1 means the pointer moves three times as fast as normal. The fraction can be rounded arbitrarily by the server. Acceleration only takes effect if the pointer moves more than threshold number of pixels at once and only applies to the amount beyond the threshold. Setting a value to -1 restores the default. Other negative values generate a Value error, as does a zero value for acceleration-denominator.
GetPointerControl GetPointerControl acceleration-numerator, acceleration-denominator: CARD16 threshold: CARD16 This request returns the current acceleration and threshold for the pointer.
SetScreenSaver SetScreenSaver timeout, interval: INT16 prefer-blanking: { Yes, No, Default} allow-exposures: { Yes, No, Default} Errors: Value The timeout and interval are specified in seconds; setting a value to -1 restores the default. Other negative values generate a Value error. If the timeout value is zero, screen-saver is disabled (but an activated screen-saver is not deactivated). If the timeout value is nonzero, screen-saver is enabled. Once screen-saver is enabled, if no input from the keyboard or pointer is generated for timeout seconds, screen-saver is activated. For each screen, if blanking is preferred and the hardware supports video blanking, the screen will simply go blank. Otherwise, if either exposures are allowed or the screen can be regenerated without sending exposure events to clients, the screen is changed in a server-dependent fashion to avoid phosphor burn. Otherwise, the state of the screens does not change, and screen-saver is not activated. At the next keyboard or pointer input or at the next ForceScreenSaver with mode Reset, screen-saver is deactivated, and all screen states are restored. If the server-dependent screen-saver method is amenable to periodic change, interval serves as a hint about how long the change period should be, with zero hinting that no periodic change should be made. Examples of ways to change the screen include scrambling the color map periodically, moving an icon image about the screen periodically, or tiling the screen with the root window background tile, randomly reorigined periodically.
GetScreenSaver GetScreenSaver timeout, interval: CARD16 prefer-blanking: { Yes, No} allow-exposures: { Yes, No} This request returns the current screen-saver control values.
ForceScreenSaver ForceScreenSaver mode: { Activate, Reset} Errors: Value If the mode is Activate and screen-saver is currently deactivated, then screen-saver is activated (even if screen-saver has been disabled with a timeout value of zero). If the mode is Reset and screen-saver is currently enabled, then screen-saver is deactivated (if it was activated), and the activation timer is reset to its initial state as if device input had just been received.
ChangeHosts ChangeHosts mode: { Insert, Delete} host: HOST Errors: Access, Value This request adds or removes the specified host from the access control list. Access control list When the access control mechanism is enabled and a client attempts to establish a connection to the server, the host on which the client resides must be in the access control list, or the client must have been granted permission by a server-dependent method, or the server will refuse the connection. The client must reside on the same host as the server and/or have been granted permission by a server-dependent method to execute this request (or an Access error results). An initial access control list can usually be specified, typically by naming a file that the server reads at startup and reset. The following address families are defined. TypesHOST A server is not required to support these families and may support families not listed here. Use of an unsupported family, an improper address format, or an improper address length within a supported family results in a Value error. For the Internet family, the address must be four bytes long. The address bytes are in standard IP order; the server performs no automatic swapping on the address bytes. The Internet family supports IP version 4 addresses only. For the InternetV6 family, the address must be sixteen bytes long. The address bytes are in standard IP order; the server performs no automatic swapping on the address bytes. The InternetV6 family supports IP version 6 addresses only. For the DECnet family, the server performs no automatic swapping on the address bytes. A Phase IV address is two bytes long: the first byte contains the least significant eight bits of the node number, and the second byte contains the most significant two bits of the node number in the least significant two bits of the byte and the area in the most significant six bits of the byte. For the Chaos family, the address must be two bytes long. The host number is always the first byte in the address, and the subnet number is always the second byte. The server performs no automatic swapping on the address bytes. For the ServerInterpreted family, the address may be of any length up to 65535 bytes. The address consists of two strings of ASCII characters, separated by a byte with a value of 0. The first string represents the type of address, and the second string contains the address value. Address types and the syntax for their associated values will be registered via the X.Org Registry. Implementors who wish to add implementation specific types may register a unique prefix with the X.Org registry to prevent namespace collisions. Use of a host address in the ChangeHosts request is deprecated. It is only useful when a host has a unique, constant address, a requirement that is increasingly unmet as sites adopt dynamically assigned addresses, network address translation gateways, IPv6 link local addresses, and various other technologies. It also assumes all users of a host share equivalent access rights, and as such has never been suitable for many multi-user machine environments. Instead, more secure forms of authentication, such as those based on shared secrets or public key encryption, are recommended.
ListHosts ListHosts mode: { Enabled, Disabled} hosts: LISTofHOST This request returns the hosts on the access control list and whether use of the list at connection setup is currently enabled or disabled. Each HOST is padded to a multiple of four bytes.
SetAccessControl SetAccessControl mode: { Enable, Disable} Errors: Access, Value This request enables or disables the use of the access control list at connection setups. The client must reside on the same host as the server and/or have been granted permission by a server-dependent method to execute this request (or an Access error results).
SetCloseDownMode SetCloseDownMode mode: { Destroy, RetainPermanent, RetainTemporary} Errors: Value This request defines what will happen to the client's resources at connection close. A connection starts in Destroy mode. The meaning of the close-down mode is described in section 10.
KillClient KillClient resource: CARD32 or AllTemporary Errors: Value If a valid resource is specified, KillClient forces a close-down of the client that created the resource. If the client has already terminated in either RetainPermanent or RetainTemporary mode, all of the client's resources are destroyed (see section 10). If AllTemporary is specified, then the resources of all clients that have terminated in RetainTemporary are destroyed.
NoOperation NoOperation This request has no arguments and no results, but the request length field allows the request to be any multiple of four bytes in length. The bytes contained in the request are uninterpreted by the server. This request can be used in its minimum four byte form as padding where necessary by client libraries that find it convenient to force requests to begin on 64-bit boundaries.
Connection Close Connectionclosing At connection close, all event selections made by the client are discarded. If the client has the pointer actively grabbed, an UngrabPointer is performed. If the client has the keyboard actively grabbed, an UngrabKeyboard is performed. All passive grabs by the client are released. If the client has the server grabbed, an UngrabServer is performed. All selections (see SetSelectionOwner request) owned by the client are disowned. If close-down mode (see SetCloseDownMode request) is RetainPermanent or RetainTemporary, then all resources (including colormap entries) allocated by the client are marked as permanent or temporary, respectively (but this does not prevent other clients from explicitly destroying them). If the mode is Destroy, all of the client's resources are destroyed. When a client's resources are destroyed, for each window in the client's save-set, if the window is an inferior of a window created by the client, the save-set window is reparented to the closest ancestor such that the save-set window is not an inferior of a window created by the client. If the save-set window is unmapped, a MapWindow request is performed on it (even if it was not an inferior of a window created by the client). The reparenting leaves unchanged the absolute coordinates (with respect to the root window) of the upper-left outer corner of the save-set window. After save-set processing, all windows created by the client are destroyed. For each nonwindow resource created by the client, the appropriate Free request is performed. All colors and colormap entries allocated by the client are freed. A server goes through a cycle of having no connections and having some connections. At every transition to the state of having no connections as a result of a connection closing with a Destroy close-down mode, the server resets its state as if it had just been started. This starts by destroying all lingering resources from clients that have terminated in RetainPermanent or RetainTemporary mode. It additionally includes deleting all but the predefined atom identifiers, deleting all properties on all root windows, resetting all device maps and attributes (key click, bell volume, acceleration), resetting the access control list, restoring the standard root tiles and cursors, restoring the default font path, and restoring the input focus to state PointerRoot. Note that closing a connection with a close-down mode of RetainPermanent or RetainTemporary will not cause the server to reset. Events Event When a button press is processed with the pointer in some window W and no active pointer grab is in progress, the ancestors of W are searched from the root down, looking for a passive grab to activate. If no matching passive grab on the button exists, then an active grab is started automatically for the client receiving the event, and the last-pointer-grab time is set to the current server time. The effect is essentially equivalent to a GrabButton with arguments: Argument Value event-window Event window event-mask Client's selected pointer events on the event window pointer-mode and keyboard-mode Asynchronous owner-events True if the client has OwnerGrabButton selected on the event window, otherwise False confine-to None cursor None The grab is terminated automatically when the logical state of the pointer has all buttons released. UngrabPointer and ChangeActivePointerGrab can both be used to modify the active grab.
Input Device events Input deviceevents KeyPress KeyPress KeyRelease KeyRelease ButtonPress ButtonPress ButtonRelease ButtonRelease MotionNotify MotionNotify root, event: WINDOW child: WINDOW or None same-screen: BOOL root-x, root-y, event-x, event-y: INT16 detail: <see below> state: SETofKEYBUTMASK time: TIMESTAMP These events are generated either when a key or button logically changes state or when the pointer logically moves. The generation of these logical changes may lag the physical changes if device event processing is frozen. Note that KeyPress and KeyRelease are generated for all keys, even those mapped to modifier bits. The source of the event is the window the pointer is in. Eventsource The window the event is reported with respect to is called the event window. The event window is found by starting with the source window and looking up the hierarchy for the first window on which any client has selected interest in the event (provided no intervening window prohibits event generation by including the event type in its do-not-propagate-mask). The actual window used for reporting can be modified by active grabs and, in the case of keyboard events, can be modified by the focus window. The root is the root window of the source window, and root-x and root-y are the pointer coordinates relative to root's origin at the time of the event. Event is the event window. If the event window is on the same screen as root, then event-x and event-y are the pointer coordinates relative to the event window's origin. Otherwise, event-x and event-y are zero. If the source window is an inferior of the event window, then child is set to the child of the event window that is an ancestor of (or is) the source window. Otherwise, it is set to None. The state component gives the logical state of the buttons and modifier keys just before the event. The detail component type varies with the event type: Event Component KeyPress, KeyRelease KEYCODE ButtonPress, ButtonRelease BUTTON MotionNotify { Normal Hint } MotionNotify events are only generated when the motion begins and ends in the window. The granularity of motion events is not guaranteed, but a client selecting for motion events is guaranteed to get at least one event when the pointer moves and comes to rest. Selecting PointerMotion receives events independent of the state of the pointer buttons. By selecting some subset of Button[1-5]Motion instead, MotionNotify events will only be received when one or more of the specified buttons are pressed. By selecting ButtonMotion, MotionNotify events will be received only when at least one button is pressed. The events are always of type MotionNotify, independent of the selection. If PointerMotionHint is selected, the server is free to send only one MotionNotify event (with detail Hint) to the client for the event window until either the key or button state changes, the pointer leaves the event window, or the client issues a QueryPointer or GetMotionEvents request.
Pointer Window events EnterNotify EnterNotify LeaveNotify LeaveNotify root, event: WINDOW child: WINDOW or None same-screen: BOOL root-x, root-y, event-x, event-y: INT16 mode: { Normal, Grab, Ungrab} detail: { Ancestor, Virtual, Inferior, Nonlinear, NonlinearVirtual} focus: BOOL state: SETofKEYBUTMASK time: TIMESTAMP If pointer motion or window hierarchy change causes the pointer to be in a different window than before, EnterNotify and LeaveNotify events are generated instead of a MotionNotify event. Only clients selecting EnterWindow on a window receive EnterNotify events, and only clients selecting LeaveWindow receive LeaveNotify events. The pointer position reported in the event is always the final position, not the initial position of the pointer. The root is the root window for this position, and root-x and root-y are the pointer coordinates relative to root's origin at the time of the event. Event is the event window. If the event window is on the same screen as root, then event-x and event-y are the pointer coordinates relative to the event window's origin. Otherwise, event-x and event-y are zero. In a LeaveNotify event, if a child of the event window contains the initial position of the pointer, then the child component is set to that child. Otherwise, it is None. For an EnterNotify event, if a child of the event window contains the final pointer position, then the child component is set to that child. Otherwise, it is None. If the event window is the focus window or an inferior of the focus window, then focus is True. Otherwise, focus is False. Normal pointer motion events have mode Normal. Pseudo-motion events when a grab activates have mode Grab, and pseudo-motion events when a grab deactivates have mode Ungrab. All EnterNotify and LeaveNotify events caused by a hierarchy change are generated after any hierarchy event caused by that change (that is, UnmapNotify, MapNotify, ConfigureNotify, GravityNotify, CirculateNotify), but the ordering of EnterNotify and LeaveNotify events with respect to FocusOut, VisibilityNotify, and Expose events is not constrained. Normal events are generated as follows: When the pointer moves from window A to window B and A is an inferior of B: LeaveNotify with detail Ancestor is generated on A. LeaveNotify with detail Virtual is generated on each window between A and B exclusive (in that order). EnterNotify with detail Inferior is generated on B. When the pointer moves from window A to window B and B is an inferior of A: LeaveNotify with detail Inferior is generated on A. EnterNotify with detail Virtual is generated on each window between A and B exclusive (in that order). EnterNotify with detail Ancestor is generated on B. When the pointer moves from window A to window B and window C is their least common ancestor: LeaveNotify with detail Nonlinear is generated on A. LeaveNotify with detail NonlinearVirtual is generated on each window between A and C exclusive (in that order). EnterNotify with detail NonlinearVirtual is generated on each window between C and B exclusive (in that order). EnterNotify with detail Nonlinear is generated on B. When the pointer moves from window A to window B on different screens: LeaveNotify with detail Nonlinear is generated on A. If A is not a root window, LeaveNotify with detail NonlinearVirtual is generated on each window above A up to and including its root (in order). If B is not a root window, EnterNotify with detail NonlinearVirtual is generated on each window from B's root down to but not including B (in order). EnterNotify with detail Nonlinear is generated on B. When a pointer grab activates (but after any initial warp into a confine-to window and before generating any actual ButtonPress event that activates the grab), G is the grab-window for the grab, and P is the window the pointer is in: EnterNotify and LeaveNotify events with mode Grab are generated (as for Normal above) as if the pointer were to suddenly warp from its current position in P to some position in G. However, the pointer does not warp, and the pointer position is used as both the initial and final positions for the events. When a pointer grab deactivates (but after generating any actual ButtonRelease event that deactivates the grab), G is the grab-window for the grab, and P is the window the pointer is in: EnterNotify and LeaveNotify events with mode Ungrab are generated (as for Normal above) as if the pointer were to suddenly warp from some position in G to its current position in P. However, the pointer does not warp, and the current pointer position is used as both the initial and final positions for the events.
Input Focus events Input focusevents FocusIn FocusIn FocusOut FocusOut event: WINDOW mode: { Normal, WhileGrabbed, Grab, Ungrab} detail: { Ancestor, Virtual, Inferior, Nonlinear, NonlinearVirtual, Pointer, PointerRoot, None } These events are generated when the input focus changes and are reported to clients selecting FocusChange on the window. Events generated by SetInputFocus when the keyboard is not grabbed have mode Normal. Events generated by SetInputFocus when the keyboard is grabbed have mode WhileGrabbed. Events generated when a keyboard grab activates have mode Grab, and events generated when a keyboard grab deactivates have mode Ungrab. All FocusOut events caused by a window unmap are generated after any UnmapNotify event, but the ordering of FocusOut with respect to generated EnterNotify, LeaveNotify, VisibilityNotify, and Expose events is not constrained. Normal and WhileGrabbed events are generated as follows: When the focus moves from window A to window B, A is an inferior of B, and the pointer is in window P: FocusOut with detail Ancestor is generated on A. FocusOut with detail Virtual is generated on each window between A and B exclusive (in order). FocusIn with detail Inferior is generated on B. If P is an inferior of B but P is not A or an inferior of A or an ancestor of A, FocusIn with detail Pointer is generated on each window below B down to and including P (in order). When the focus moves from window A to window B, B is an inferior of A, and the pointer is in window P: If P is an inferior of A but P is not an inferior of B or an ancestor of B, FocusOut with detail Pointer is generated on each window from P up to but not including A (in order). FocusOut with detail Inferior is generated on A. FocusIn with detail Virtual is generated on each window between A and B exclusive (in order). FocusIn with detail Ancestor is generated on B. When the focus moves from window A to window B, window C is their least common ancestor, and the pointer is in window P: If P is an inferior of A, FocusOut with detail Pointer is generated on each window from P up to but not including A (in order). FocusOut with detail Nonlinear is generated on A. FocusOut with detail NonlinearVirtual is generated on each window between A and C exclusive (in order). FocusIn with detail NonlinearVirtual is generated on each window between C and B exclusive (in order). FocusIn with detail Nonlinear is generated on B. If P is an inferior of B, FocusIn with detail Pointer is generated on each window below B down to and including P (in order). When the focus moves from window A to window B on different screens and the pointer is in window P: If P is an inferior of A, FocusOut with detail Pointer is generated on each window from P up to but not including A (in order). FocusOut with detail Nonlinear is generated on A. If A is not a root window, FocusOut with detail NonlinearVirtual is generated on each window above A up to and including its root (in order). If B is not a root window, FocusIn with detail NonlinearVirtual is generated on each window from B's root down to but not including B (in order). FocusIn with detail Nonlinear is generated on B. If P is an inferior of B, FocusIn with detail Pointer is generated on each window below B down to and including P (in order). When the focus moves from window A to PointerRoot (or None) and the pointer is in window P: If P is an inferior of A, FocusOut with detail Pointer is generated on each window from P up to but not including A (in order). FocusOut with detail Nonlinear is generated on A. If A is not a root window, FocusOut with detail NonlinearVirtual is generated on each window above A up to and including its root (in order). FocusIn with detail PointerRoot (or None) is generated on all root windows. If the new focus is PointerRoot, FocusIn with detail Pointer is generated on each window from P's root down to and including P (in order). When the focus moves from PointerRoot (or None) to window A and the pointer is in window P: If the old focus is PointerRoot, FocusOut with detail Pointer is generated on each window from P up to and including P's root (in order). FocusOut with detail PointerRoot (or None) is generated on all root windows. If A is not a root window, FocusIn with detail NonlinearVirtual is generated on each window from A's root down to but not including A (in order). FocusIn with detail Nonlinear is generated on A. If P is an inferior of A, FocusIn with detail Pointer is generated on each window below A down to and including P (in order). When the focus moves from PointerRoot to None (or vice versa) and the pointer is in window P: If the old focus is PointerRoot, FocusOut with detail Pointer is generated on each window from P up to and including P's root (in order). FocusOut with detail PointerRoot (or None) is generated on all root windows. FocusIn with detail None (or PointerRoot) is generated on all root windows. If the new focus is PointerRoot, FocusIn with detail Pointer is generated on each window from P's root down to and including P (in order). When a keyboard grab activates (but before generating any actual KeyPress event that activates the grab), G is the grab-window for the grab, and F is the current focus: FocusIn and FocusOut events with mode Grab are generated (as for Normal above) as if the focus were to change from F to G. When a keyboard grab deactivates (but after generating any actual KeyRelease event that deactivates the grab), G is the grab-window for the grab, and F is the current focus: FocusIn and FocusOut events with mode Ungrab are generated (as for Normal above) as if the focus were to change from G to F.
KeymapNotify KeymapNotify KeymapNotify keys: LISTofCARD8 The value is a bit vector as described in QueryKeymap. This event is reported to clients selecting KeymapState on a window and is generated immediately after every EnterNotify and FocusIn.
Expose Expose EventExposure Expose window: WINDOW x, y, width, height: CARD16 count: CARD16 This event is reported to clients selecting Exposure on the window. It is generated when no valid contents are available for regions of a window, and either the regions are visible, the regions are viewable and the server is (perhaps newly) maintaining backing store on the window, or the window is not viewable but the server is (perhaps newly) honoring window's backing-store attribute of Always or WhenMapped. The regions are decomposed into an arbitrary set of rectangles, and an Expose event is generated for each rectangle. For a given action causing exposure events, the set of events for a given window are guaranteed to be reported contiguously. If count is zero, then no more Expose events for this window follow. If count is nonzero, then at least that many more Expose events for this window follow (and possibly more). The x and y coordinates are relative to window's origin and specify the upper-left corner of a rectangle. The width and height specify the extent of the rectangle. Expose events are never generated on InputOnly windows. All Expose events caused by a hierarchy change are generated after any hierarchy event caused by that change (for example, UnmapNotify, MapNotify, ConfigureNotify, GravityNotify, CirculateNotify). All Expose events on a given window are generated after any VisibilityNotify event on that window, but it is not required that all Expose events on all windows be generated after all Visibilitity events on all windows. The ordering of Expose events with respect to FocusOut, EnterNotify, and LeaveNotify events is not constrained.
GraphicsExposure GraphicsExposure GraphicsExposure drawable: DRAWABLE x, y, width, height: CARD16 count: CARD16 major-opcode: CARD8 minor-opcode: CARD16 This event is reported to a client using a graphics context with graphics-exposures selected and is generated when a destination region could not be computed due to an obscured or out-of-bounds source region. All of the regions exposed by a given graphics request are guaranteed to be reported contiguously. If count is zero then no more GraphicsExposure events for this window follow. If count is nonzero, then at least that many more GraphicsExposure events for this window follow (and possibly more). The x and y coordinates are relative to drawable's origin and specify the upper-left corner of a rectangle. The width and height specify the extent of the rectangle. The major and minor opcodes identify the graphics request used. For the core protocol, major-opcode is always CopyArea or CopyPlane, and minor-opcode is always zero.
NoExposure NoExposure NoExposure drawable: DRAWABLE major-opcode: CARD8 minor-opcode: CARD16 This event is reported to a client using a graphics context with graphics-exposures selected and is generated when a graphics request that might produce GraphicsExposure events does not produce any. The drawable specifies the destination used for the graphics request. The major and minor opcodes identify the graphics request used. For the core protocol, major-opcode is always CopyArea or CopyPlane, and the minor-opcode is always zero.
VisibilityNotify VisibilityNotify VisibilityNotify window: WINDOW state: { Unobscured, PartiallyObscured, FullyObscured} This event is reported to clients selecting VisibilityChange on the window. In the following, the state of the window is calculated ignoring all of the window's subwindows. When a window changes state from partially or fully obscured or not viewable to viewable and completely unobscured, an event with Unobscured is generated. When a window changes state from viewable and completely unobscured, from viewable and completely obscured, or from not viewable, to viewable and partially obscured, an event with PartiallyObscured is generated. When a window changes state from viewable and completely unobscured, from viewable and partially obscured, or from not viewable to viewable and fully obscured, an event with FullyObscured is generated. VisibilityNotify events are never generated on InputOnly windows. All VisibilityNotify events caused by a hierarchy change are generated after any hierarchy event caused by that change (for example, UnmapNotify, MapNotify, ConfigureNotify, GravityNotify, CirculateNotify). Any VisibilityNotify event on a given window is generated before any Expose events on that window, but it is not required that all VisibilityNotify events on all windows be generated before all Expose events on all windows. The ordering of VisibilityNotify events with respect to FocusOut, EnterNotify, and LeaveNotify events is not constrained.
CreateNotify CreateNotify CreateNotify parent, window: WINDOW x, y: INT16 width, height, border-width: CARD16 override-redirect: BOOL This event is reported to clients selecting SubstructureNotify on the parent and is generated when the window is created. The arguments are as in the CreateWindow request.
DestroyNotify DestroyNotify DestroyNotify event, window: WINDOW This event is reported to clients selecting StructureNotify on the window and to clients selecting SubstructureNotify on the parent. It is generated when the window is destroyed. The event is the window on which the event was generated, and the window is the window that is destroyed. The ordering of the DestroyNotify events is such that for any given window, DestroyNotify is generated on all inferiors of the window before being generated on the window itself. The ordering among siblings and across subhierarchies is not otherwise constrained.
UnmapNotify UnmapNotify UnmapNotify event, window: WINDOW from-configure: BOOL This event is reported to clients selecting StructureNotify on the window and to clients selecting SubstructureNotify on the parent. It is generated when the window changes state from mapped to unmapped. The event is the window on which the event was generated, and the window is the window that is unmapped. The from-configure flag is True if the event was generated as a result of the window's parent being resized when the window itself had a win-gravity of Unmap.
MapNotify MapNotify Mapped window MapNotify event, window: WINDOW override-redirect: BOOL This event is reported to clients selecting StructureNotify on the window and to clients selecting SubstructureNotify on the parent. It is generated when the window changes state from unmapped to mapped. The event is the window on which the event was generated, and the window is the window that is mapped. The override-redirect flag is from the window's attribute.
MapRequest MapRequest MapRequest parent, window: WINDOW This event is reported to the client selecting SubstructureRedirect on the parent and is generated when a MapWindow request is issued on an unmapped window with an override-redirect attribute of False.
ReparentNotify ReparentNotify ReparentNotify event, window, parent: WINDOW x, y: INT16 override-redirect: BOOL This event is reported to clients selecting SubstructureNotify on either the old or the new parent and to clients selecting StructureNotify on the window. It is generated when the window is reparented. The event is the window on which the event was generated. The window is the window that has been rerooted. The parent specifies the new parent. The x and y coordinates are relative to the new parent's origin and specify the position of the upper-left outer corner of the window. The override-redirect flag is from the window's attribute.
ConfigureNotify ConfigureNotify ConfigureNotify event, window: WINDOW x, y: INT16 width, height, border-width: CARD16 above-sibling: WINDOW or None override-redirect: BOOL This event is reported to clients selecting StructureNotify on the window and to clients selecting SubstructureNotify on the parent. It is generated when a ConfigureWindow request actually changes the state of the window. The event is the window on which the event was generated, and the window is the window that is changed. The x and y coordinates are relative to the new parent's origin and specify the position of the upper-left outer corner of the window. The width and height specify the inside size, not including the border. If above-sibling is None, then the window is on the bottom of the stack with respect to siblings. Otherwise, the window is immediately on top of the specified sibling. The override-redirect flag is from the window's attribute.
GravityNotify GravityNotify GravityNotify event, window: WINDOW x, y: INT16 This event is reported to clients selecting SubstructureNotify on the parent and to clients selecting StructureNotify on the window. It is generated when a window is moved because of a change in size of the parent. The event is the window on which the event was generated, and the window is the window that is moved. The x and y coordinates are relative to the new parent's origin and specify the position of the upper-left outer corner of the window.
ResizeRequest ResizeRequest ResizeRequest window: WINDOW width, height: CARD16 This event is reported to the client selecting ResizeRedirect on the window and is generated when a ConfigureWindow request by some other client on the window attempts to change the size of the window. The width and height are the requested inside size, not including the border.
ConfigureRequest ConfigureRequest ConfigureRequest parent, window: WINDOW x, y: INT16 width, height, border-width: CARD16 sibling: WINDOW or None stack-mode: { Above, Below, TopIf, BottomIf, Opposite} value-mask: BITMASK This event is reported to the client selecting SubstructureRedirect on the parent and is generated when a ConfigureWindow request is issued on the window by some other client. The value-mask indicates which components were specified in the request. The value-mask and the corresponding values are reported as given in the request. The remaining values are filled in from the current geometry of the window, except in the case of sibling and stack-mode, which are reported as None and Above (respectively) if not given in the request.
CirculateNotify CirculateNotify CirculateNotify event, window: WINDOW place: { Top, Bottom} This event is reported to clients selecting StructureNotify on the window and to clients selecting SubstructureNotify on the parent. It is generated when the window is actually restacked from a CirculateWindow request. The event is the window on which the event was generated, and the window is the window that is restacked. If place is Top, the window is now on top of all siblings. Otherwise, it is below all siblings.
CirculateRequest CirculateRequest CirculateRequest parent, window: WINDOW place: { Top, Bottom} This event is reported to the client selecting SubstructureRedirect on the parent and is generated when a CirculateWindow request is issued on the parent and a window actually needs to be restacked. The window specifies the window to be restacked, and the place specifies what the new position in the stacking order should be.
PropertyNotify PropertyNotify PropertyNotify window: WINDOW atom: ATOM state: { NewValue, Deleted} time: TIMESTAMP This event is reported to clients selecting PropertyChange on the window and is generated with state NewValue when a property of the window is changed using ChangeProperty or RotateProperties, even when adding zero-length data using ChangeProperty and when replacing all or part of a property with identical data using ChangeProperty or RotateProperties. It is generated with state Deleted when a property of the window is deleted using request DeleteProperty or GetProperty. The timestamp indicates the server time when the property was changed.
SelectionClear SelectionClear SelectionClear owner: WINDOW selection: ATOM time: TIMESTAMP This event is reported to the current owner of a selection and is generated when a new owner is being defined by means of SetSelectionOwner. The timestamp is the last-change time recorded for the selection. The owner argument is the window that was specified by the current owner in its SetSelectionOwner request.
SelectionRequest SelectionRequest SelectionRequest owner: WINDOW selection: ATOM target: ATOM property: ATOM or None requestor: WINDOW time: TIMESTAMP or CurrentTime This event is reported to the owner of a selection and is generated when a client issues a ConvertSelection request. The owner argument is the window that was specified in the SetSelectionOwner request. The remaining arguments are as in the ConvertSelection request. The owner should convert the selection based on the specified target type and send a SelectionNotify back to the requestor. A complete specification for using selections is given in the X.Org standard Inter-Client Communication Conventions Manual.
SelectionNotify SelectionNotify SelectionNotify requestor: WINDOW selection, target: ATOM property: ATOM or None time: TIMESTAMP or CurrentTime This event is generated by the server in response to a ConvertSelection request when there is no owner for the selection. When there is an owner, it should be generated by the owner using SendEvent. The owner of a selection should send this event to a requestor either when a selection has been converted and stored as a property or when a selection conversion could not be performed (indicated with property None).
ColormapNotify ColormapNotify ColormapNotify window: WINDOW colormap: COLORMAP or None new: BOOL state: { Installed, Uninstalled} This event is reported to clients selecting ColormapChange on the window. It is generated with value True for new when the colormap attribute of the window is changed and is generated with value False for new when the colormap of a window is installed or uninstalled. In either case, the state indicates whether the colormap is currently installed.
MappingNotify MappingNotify MappingNotify request: { Modifier, Keyboard, Pointer} first-keycode, count: CARD8 This event is sent to all clients. There is no mechanism to express disinterest in this event. The detail indicates the kind of change that occurred: Modifiers for a successful SetModifierMapping, Keyboard for a successful ChangeKeyboardMapping, and Pointer for a successful SetPointerMapping. If the detail is Keyboard, then first-keycode and count indicate the range of altered keycodes.
ClientMessage ClientMessage ClientMessage window: WINDOW type: ATOM format: {8, 16, 32} data: LISTofINT8 or LISTofINT16 or LISTofINT32 This event is only generated by clients using SendEvent. The type specifies how the data is to be interpreted by the receiving client; the server places no interpretation on the type or the data. The format specifies whether the data should be viewed as a list of 8-bit, 16-bit, or 32-bit quantities, so that the server can correctly byte-swap, as necessary. The data always consists of either 20 8-bit values or 10 16-bit values or 5 32-bit values, although particular message types might not make use of all of these values.
Flow Control and Concurrency Whenever the server is writing to a given connection, it is permissible for the server to stop reading from that connection (but if the writing would block, it must continue to service other connections). The server is not required to buffer more than a single request per connection at one time. For a given connection to the server, a client can block while reading from the connection but should undertake to read (events and errors) when writing would block. Failure on the part of a client to obey this rule could result in a deadlocked connection, although deadlock is probably unlikely unless either the transport layer has very little buffering or the client attempts to send large numbers of requests without ever reading replies or checking for errors and events. Whether or not a server is implemented with internal concurrency, the overall effect must be as if individual requests are executed to completion in some serial order, and requests from a given connection must be executed in delivery order (that is, the total execution order is a shuffle of the individual streams). The execution of a request includes validating all arguments, collecting all data for any reply, and generating and queueing all required events. However, it does not include the actual transmission of the reply and the events. In addition, the effect of any other cause that can generate multiple events (for example, activation of a grab or pointer motion) must effectively generate and queue all required events indivisibly with respect to all other causes and requests. For a request from a given client, any events destined for that client that are caused by executing the request must be sent to the client before any reply or error is sent.
070701000a5cc7000081a40000000000000000000000014f867a0300000a1c0000010000010007ffffffffffffffff0000003000000000root/usr/local/share/doc/xproto/x11protocol.xml %defs; ]> X Window System Protocol X Consortium Standard Robert W. Scheifler X Consortium, Inc. X Version 11, Release &fullrelvers; Version 1.0 19861987198819942004 The Open Group Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of the Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the Open Group. X Window System is a trademark of The Open Group. 070701000a5cc4000081a40000000000000000000000014f867a030000c2440000010000010007ffffffffffffffff0000002d00000000root/usr/local/share/doc/xproto/glossary.xml Glossary Access control list Access control list X maintains a list of hosts from which client programs can be run. By default, only programs on the local host and hosts specified in an initial list read by the server can use the display. Clients on the local host can change this access control list. Some server implementations can also implement other authorization mechanisms in addition to or in place of this mechanism. The action of this mechanism can be conditional based on the authorization protocol name and data received by the server at connection setup. Active grab Active grab A grab is active when the pointer or keyboard is actually owned by the single grabbing client. Ancestors Ancestors If W is an inferior of A, then A is an ancestor of W. Atom Atom An atom is a unique ID corresponding to a string name. Atoms are used to identify properties, types, and selections. Background Background An InputOutput window can have a background, which is defined as a pixmap. When regions of the window have their contents lost or invalidated, the server will automatically tile those regions with the background. Backing store Backing store When a server maintains the contents of a window, the pixels saved off screen are known as a backing store. Bit gravity Bitgravity When a window is resized, the contents of the window are not necessarily discarded. It is possible to request that the server relocate the previous contents to some region of the window (though no guarantees are made). This attraction of window contents for some location of a window is known as bit gravity. Bit plane Bitplane When a pixmap or window is thought of as a stack of bitmaps, each bitmap is called a bit plane or plane. Bitmap Bitmap A bitmap is a pixmap of depth one. Border Border An InputOutput window can have a border of equal thickness on all four sides of the window. A pixmap defines the contents of the border, and the server automatically maintains the contents of the border. Exposure events are never generated for border regions. Button grabbing Buttongrabbing Buttons on the pointer may be passively grabbed by a client. When the button is pressed, the pointer is then actively grabbed by the client. Byte order Byte order For image (pixmap/bitmap) data, the server defines the byte order, and clients with different native byte ordering must swap bytes as necessary. For all other parts of the protocol, the client defines the byte order, and the server swaps bytes as necessary. Children Children Windowchildren The children of a window are its first-level subwindows. Client Client An application program connects to the window system server by some interprocess communication path, such as a TCP connection or a shared memory buffer. This program is referred to as a client of the window system server. More precisely, the client is the communication path itself; a program with multiple paths open to the server is viewed as multiple clients by the protocol. Resource lifetimes are controlled by connection lifetimes, not by program lifetimes. Clipping region Clipping region In a graphics context, a bitmap or list of rectangles can be specified to restrict output to a particular region of the window. The image defined by the bitmap or rectangles is called a clipping region. Colormap Colormap A colormap consists of a set of entries defining color values. The colormap associated with a window is used to display the contents of the window; each pixel value indexes the colormap to produce RGB values that drive the guns of a monitor. Depending on hardware limitations, one or more colormaps may be installed at one time, so that windows associated with those maps display with correct colors. Connection Connection The interprocess communication path between the server and client program is known as a connection. A client program typically (but not necessarily) has one connection to the server over which requests and events are sent. Containment Containment A window contains the pointer if the window is viewable and the hotspot of the cursor is within a visible region of the window or a visible region of one of its inferiors. The border of the window is included as part of the window for containment. The pointer is in a window if the window contains the pointer but no inferior contains the pointer. Coordinate system Coordinate system The coordinate system has the X axis horizontal and the Y axis vertical, with the origin [0, 0] at the upper left. Coordinates are integral, in terms of pixels, and coincide with pixel centers. Each window and pixmap has its own coordinate system. For a window, the origin is inside the border at the inside upper left. Cursor Cursor A cursor is the visible shape of the pointer on a screen. It consists of a hotspot, a source bitmap, a shape bitmap, and a pair of colors. The cursor defined for a window controls the visible appearance when the pointer is in that window. Depth Depth The depth of a window or pixmap is the number of bits per pixel that it has. The depth of a graphics context is the depth of the drawables it can be used in conjunction with for graphics output. Device Device Keyboards, mice, tablets, track-balls, button boxes, and so on are all collectively known as input devices. The core protocol only deals with two devices, the keyboard and the pointer. DirectColor DirectColor DirectColor is a class of colormap in which a pixel value is decomposed into three separate subfields for indexing. The first subfield indexes an array to produce red intensity values. The second subfield indexes a second array to produce blue intensity values. The third subfield indexes a third array to produce green intensity values. The RGB values can be changed dynamically. Display Display A server, together with its screens and input devices, is called a display. Drawable Drawable Both windows and pixmaps can be used as sources and destinations in graphics operations. These windows and pixmaps are collectively known as drawables. However, an InputOnly window cannot be used as a source or destination in a graphics operation. Event Event Clients are informed of information asynchronously by means of events. These events can be generated either asynchronously from devices or as side effects of client requests. Events are grouped into types. The server never sends events to a client unless the client has specificially asked to be informed of that type of event. However, other clients can force events to be sent to other clients. Events are typically reported relative to a window. Event mask Eventmask Events are requested relative to a window. The set of event types that a client requests relative to a window is described by using an event mask. Event synchronization Eventsynchronization There are certain race conditions possible when demultiplexing device events to clients (in particular deciding where pointer and keyboard events should be sent when in the middle of window management operations). The event synchronization mechanism allows synchronous processing of device events. Event propagation Eventpropagation Device-related events propagate from the source window to ancestor windows until some client has expressed interest in handling that type of event or until the event is discarded explicitly. Event source Eventsource The window the pointer is in is the source of a device-related event. Exposure event EventExposure Servers do not guarantee to preserve the contents of windows when windows are obscured or reconfigured. Exposure events are sent to clients to inform them when contents of regions of windows have been lost. Extension Extension Named extensions to the core protocol can be defined to extend the system. Extension to output requests, resources, and event types are all possible and are expected. Focus window Focus window The focus window is another term for the input focus. Font Font A font is a matrix of glyphs (typically characters). The protocol does no translation or interpretation of character sets. The client simply indicates values used to index the glyph array. A font contains additional metric information to determine interglyph and interline spacing. GC, GContext GCGraphics context GContextGraphics context GC and gcontext are abbreviations for graphics context. Glyph Glyph A glyph is an image, typically of a character, in a font. Grab GrabActive grabPassive grab Keyboard keys, the keyboard, pointer buttons, the pointer, and the server can be grabbed for exclusive use by a client. In general, these facilities are not intended to be used by normal applications but are intended for various input and window managers to implement various styles of user interfaces. Graphics context Graphics context Various information for graphics output is stored in a graphics context such as foreground pixel, background pixel, line width, clipping region, and so on. A graphics context can only be used with drawables that have the same root and the same depth as the graphics context. Gravity Gravity See bit gravity and window gravity. GrayScale GrayScale GrayScale can be viewed as a degenerate case of PseudoColor, in which the red, green, and blue values in any given colormap entry are equal, thus producing shades of gray. The gray values can be changed dynamically. Hotspot Hotspot A cursor has an associated hotspot that defines the point in the cursor corresponding to the coordinates reported for the pointer. Identifier Identifier An identifier is a unique value associated with a resource that clients use to name that resource. The identifier can be used over any connection. Inferiors Inferiors The inferiors of a window are all of the subwindows nested below it: the children, the children's children, and so on. Input focus Input focus The input focus is normally a window defining the scope for processing of keyboard input. If a generated keyboard event would normally be reported to this window or one of its inferiors, the event is reported normally. Otherwise, the event is reported with respect to the focus window. The input focus also can be set such that all keyboard events are discarded and such that the focus window is dynamically taken to be the root window of whatever screen the pointer is on at each keyboard event. Input manager Input manager Control over keyboard input is typically provided by an input manager client. InputOnly window WindowInputOnly An InputOnly window is a window that cannot be used for graphics requests. InputOnly windows are invisible and can be used to control such things as cursors, input event generation, and grabbing. InputOnly windows cannot have InputOutput windows as inferiors. InputOutput window WindowInputOutput An InputOutput window is the normal kind of opaque window, used for both input and output. InputOutput windows can have both InputOutput and InputOnly windows as inferiors. Key grabbing Keygrabbing Keys on the keyboard can be passively grabbed by a client. When the key is pressed, the keyboard is then actively grabbed by the client. Keyboard grabbing Keyboardgrabbing A client can actively grab control of the keyboard, and key events will be sent to that client rather than the client the events would normally have been sent to. Keysym Keysym An encoding of a symbol on a keycap on a keyboard. Mapped Mapped window A window is said to be mapped if a map call has been performed on it. Unmapped windows and their inferiors are never viewable or visible. Modifier keys Modifier keys KeymodifierModifier keys Shift, Control, Meta, Super, Hyper, Alt, Compose, Apple, CapsLock, ShiftLock, and similar keys are called modifier keys. Monochrome Monochrome Monochrome is a special case of StaticGray in which there are only two colormap entries. Obscure Obscure A window is obscured if some other window obscures it. Window A obscures window B if both are viewable InputOutput windows, A is higher in the global stacking order, and the rectangle defined by the outside edges of A intersects the rectangle defined by the outside edges of B. Note the distinction between obscure and occludes. Also note that window borders are included in the calculation and that a window can be obscured and yet still have visible regions. Occlude Occlude A window is occluded if some other window occludes it. Window A occludes window B if both are mapped, A is higher in the global stacking order, and the rectangle defined by the outside edges of A intersects the rectangle defined by the outside edges of B. Note the distinction between occludes and obscures. Also note that window borders are included in the calculation. Padding Padding Some padding bytes are inserted in the data stream to maintain alignment of the protocol requests on natural boundaries. This increases ease of portability to some machine architectures. Parent window Windowparent If C is a child of P, then P is the parent of C. Passive grab Passive grab Grabbing a key or button is a passive grab. The grab activates when the key or button is actually pressed. Pixel value Pixel value A pixel is an N-bit value, where N is the number of bit planes used in a particular window or pixmap (that is, N is the depth of the window or pixmap). For a window, a pixel value indexes a colormap to derive an actual color to be displayed. Pixmap Pixmap A pixmap is a three-dimensional array of bits. A pixmap is normally thought of as a two-dimensional array of pixels, where each pixel can be a value from 0 to (2^N)-1 and where N is the depth (z axis) of the pixmap. A pixmap can also be thought of as a stack of N bitmaps. Plane Plane When a pixmap or window is thought of as a stack of bitmaps, each bitmap is called a plane or bit plane. Plane mask Planemask Graphics operations can be restricted to only affect a subset of bit planes of a destination. A plane mask is a bit mask describing which planes are to be modified. The plane mask is stored in a graphics context. Pointer Pointer The pointer is the pointing device attached to the cursor and tracked on the screens. Pointer grabbing Pointergrabbing A client can actively grab control of the pointer. Then button and motion events will be sent to that client rather than the client the events would normally have been sent to. Pointing device Pointing device A pointing device is typically a mouse, tablet, or some other device with effective dimensional motion. There is only one visible cursor defined by the core protocol, and it tracks whatever pointing device is attached as the pointer. Property Property Windows may have associated properties, which consist of a name, a type, a data format, and some data. The protocol places no interpretation on properties. They are intended as a general-purpose naming mechanism for clients. For example, clients might use properties to share information such as resize hints, program names, and icon formats with a window manager. Property list Property list The property list of a window is the list of properties that have been defined for the window. PseudoColor PseudoColor PseudoColor is a class of colormap in which a pixel value indexes the colormap to produce independent red, green, and blue values; that is, the colormap is viewed as an array of triples (RGB values). The RGB values can be changed dynamically. Redirecting control Redirecting control Window managers (or client programs) may want to enforce window layout policy in various ways. When a client attempts to change the size or position of a window, the operation may be redirected to a specified client rather than the operation actually being performed. Reply Reply Information requested by a client program is sent back to the client with a reply. Both events and replies are multiplexed on the same connection. Most requests do not generate replies, although some requests generate multiple replies. Request Request A command to the server is called a request. It is a single block of data sent over a connection. Resource Resource Windows, pixmaps, cursors, fonts, graphics contexts, and colormaps are known as resources. They all have unique identifiers associated with them for naming purposes. The lifetime of a resource usually is bounded by the lifetime of the connection over which the resource was created. RGB values RGB values Red, green, and blue (RGB) intensity values are used to define color. These values are always represented as 16-bit unsigned numbers, with 0 being the minimum intensity and 65535 being the maximum intensity. The server scales the values to match the display hardware. Root Root The root of a pixmap, colormap, or graphics context is the same as the root of whatever drawable was used when the pixmap, colormap, or graphics context was created. The root of a window is the root window under which the window was created. Root window Windowroot Each screen has a root window covering it. It cannot be reconfigured or unmapped, but it otherwise acts as a full-fledged window. A root window has no parent. Save set Save set The save set of a client is a list of other clients' windows that, if they are inferiors of one of the client's windows at connection close, should not be destroyed and that should be remapped if currently unmapped. Save sets are typically used by window managers to avoid lost windows if the manager terminates abnormally. Scanline Scanline A scanline is a list of pixel or bit values viewed as a horizontal row (all values having the same y coordinate) of an image, with the values ordered by increasing x coordinate. Scanline order Scanline order An image represented in scanline order contains scanlines ordered by increasing y coordinate. Screen Screen A server can provide several independent screens, which typically have physically independent monitors. This would be the expected configuration when there is only a single keyboard and pointer shared among the screens. Selection Selection A selection can be thought of as an indirect property with dynamic type; that is, rather than having the property stored in the server, it is maintained by some client (the owner). A selection is global in nature and is thought of as belonging to the user (although maintained by clients), rather than as being private to a particular window subhierarchy or a particular set of clients. When a client asks for the contents of a selection, it specifies a selection target type. This target type can be used to control the transmitted representation of the contents. For example, if the selection is the last thing the user clicked on and that is currently an image, then the target type might specify whether the contents of the image should be sent in XY format or Z format. The target type can also be used to control the class of contents transmitted; for example, asking for the looks (fonts, line spacing, indentation, and so on) of a paragraph selection rather than the text of the paragraph. The target type can also be used for other purposes. The protocol does not constrain the semantics. Server Server The server provides the basic windowing mechanism. It handles connections from clients, multiplexes graphics requests onto the screens, and demultiplexes input back to the appropriate clients. Server grabbing Servergrabbing The server can be grabbed by a single client for exclusive use. This prevents processing of any requests from other client connections until the grab is completed. This is typically only a transient state for such things as rubber-banding, pop-up menus, or to execute requests indivisibly. Sibling Sibling Children of the same parent window are known as sibling windows. Stacking order Stacking order Sibling windows may stack on top of each other. Windows above other windows both obscure and occlude those lower windows. This is similar to paper on a desk. The relationship between sibling windows is known as the stacking order. StaticColor StaticColor StaticColor can be viewed as a degenerate case of PseudoColor in which the RGB values are predefined and read-only. StaticGray StaticGray StaticGray can be viewed as a degenerate case of GrayScale in which the gray values are predefined and read-only. The values are typically linear or near-linear increasing ramps. Stipple Stipple A stipple pattern is a bitmap that is used to tile a region that will serve as an additional clip mask for a fill operation with the foreground color. String Equivalence String Equivalence Two ISO Latin-1 STRING8 values are considered equal if they are the same length and if corresponding bytes are either equal or are equivalent as follows: decimal values 65 to 90 inclusive (characters A to Z) are pairwise equivalent to decimal values 97 to 122 inclusive (characters a to z), decimal values 192 to 214 inclusive (characters A grave to O diaeresis) are pairwise equivalent to decimal values 224 to 246 inclusive (characters a grave to o diaeresis), and decimal values 216 to 222 inclusive (characters O oblique to THORN) are pairwise equivalent to decimal values 246 to 254 inclusive (characters o oblique to thorn). Tile Tile A pixmap can be replicated in two dimensions to tile a region. The pixmap itself is also known as a tile. Timestamp Timestamp CurrentTime A timestamp is a time value, expressed in milliseconds. It typically is the time since the last server reset. Timestamp values wrap around (after about 49.7 days). The server, given its current time is represented by timestamp T, always interprets timestamps from clients by treating half of the timestamp space as being earlier in time than T and half of the timestamp space as being later in time than T. One timestamp value (named CurrentTime) is never generated by the server. This value is reserved for use in requests to represent the current server time. TrueColor TrueColor TrueColor can be viewed as a degenerate case of DirectColor in which the subfields in the pixel value directly encode the corresponding RGB values; that is, the colormap has predefined read-only RGB values. The values are typically linear or near-linear increasing ramps. Type Type A type is an arbitrary atom used to identify the interpretation of property data. Types are completely uninterpreted by the server and are solely for the benefit of clients. Viewable Viewable A window is viewable if it and all of its ancestors are mapped. This does not imply that any portion of the window is actually visible. Graphics requests can be performed on a window when it is not viewable, but output will not be retained unless the server is maintaining backing store. Visible Visible A region of a window is visible if someone looking at the screen can actually see it; that is, the window is viewable and the region is not occluded by any other window. Window gravity Windowgravity When windows are resized, subwindows may be repositioned automatically relative to some position in the window. This attraction of a subwindow to some part of its parent is known as window gravity. Window manager Windowmanager Manipulation of windows on the screen and much of the user interface (policy) is typically provided by a window manager client. XYFormat XYFormat The data for a pixmap is said to be in XY format if it is organized as a set of bitmaps representing individual bit planes, with the planes appearing from most-significant to least-significant in bit order. ZFormat ZFormat The data for a pixmap is said to be in Z format if it is organized as a set of pixel values in scanline order. 070701000a5cc3000081a40000000000000000000000014f867a030002099d0000010000010007ffffffffffffffff0000002d00000000root/usr/local/share/doc/xproto/encoding.xml Protocol Encoding Syntactic Conventions All numbers are in decimal, unless prefixed with #x, in which case they are in hexadecimal (base 16). The general syntax used to describe requests, replies, errors, events, and compound types is: NameofThing encode-form ... encode-form Each encode-form describes a single component. For components described in the protocol as: name: TYPE the encode-form is: N TYPE name N is the number of bytes occupied in the data stream, and TYPE is the interpretation of those bytes. For example, depth: CARD8 becomes: 1 CARD8 depth For components with a static numeric value the encode-form is: N value name The value is always interpreted as an N-byte unsigned integer. For example, the first two bytes of a Window error are always zero (indicating an error in general) and three (indicating the Window error in particular): 1 0 Error 1 3 code For components described in the protocol as: name: { Name1,..., NameI} the encode-form is: N name value1 Name1 ... valueI NameI The value is always interpreted as an N-byte unsigned integer. Note that the size of N is sometimes larger than that strictly required to encode the values. For example: class: { InputOutput, InputOnly, CopyFromParent } becomes: 2 class 0 CopyFromParent 1 InputOutput 2 InputOnly For components described in the protocol as: NAME: TYPE or Alternative1 ...or AlternativeI the encode-form is: N TYPE NAME value1 Alternative1 ... valueI AlternativeI The alternative values are guaranteed not to conflict with the encoding of TYPE. For example: destination: WINDOW or PointerWindow or InputFocus becomes: 4 WINDOW destination 0 PointerWindow 1 InputFocus For components described in the protocol as: value-mask: BITMASK the encode-form is: N BITMASK value-mask mask1 mask-name1 ... maskI mask-nameI The individual bits in the mask are specified and named, and N is 2 or 4. The most-significant bit in a BITMASK is reserved for use in defining chained (multiword) bitmasks, as extensions augment existing core requests. The precise interpretation of this bit is not yet defined here, although a probable mechanism is that a 1-bit indicates that another N bytes of bitmask follows, with bits within the overall mask still interpreted from least-significant to most-significant with an N-byte unit, with N-byte units interpreted in stream order, and with the overall mask being byte-swapped in individual N-byte units. For LISTofVALUE encodings, the request is followed by a section of the form: VALUEs encode-form ... encode-form listing an encode-form for each VALUE. The NAME in each encode-form keys to the corresponding BITMASK bit. The encoding of a VALUE always occupies four bytes, but the number of bytes specified in the encoding-form indicates how many of the least-significant bytes are actually used; the remaining bytes are unused and their values do not matter. In various cases, the number of bytes occupied by a component will be specified by a lowercase single-letter variable name instead of a specific numeric value, and often some other component will have its value specified as a simple numeric expression involving these variables. Components specified with such expressions are always interpreted as unsigned integers. The scope of such variables is always just the enclosing request, reply, error, event, or compound type structure. For example: 2 3+n request length 4n LISTofPOINT points For unused bytes (the values of the bytes are undefined and do no matter), the encode-form is: N unused If the number of unused bytes is variable, the encode-form typically is: p unused, p=pad(E) where E is some expression, Padding and pad(E) is the number of bytes needed to round E up to a multiple of four. pad(E) = (4 - (E mod 4)) mod 4 Common Types Typesencoding LISTofFOO In this document the LISTof notation strictly means some number of repetitions of the FOO encoding; the actual length of the list is encoded elsewhere. SETofFOO A set is always represented by a bitmask, with a 1-bit indicating presence in the set. BITMASK: CARD32 WINDOW: CARD32 PIXMAP: CARD32 CURSOR: CARD32 FONT: CARD32 GCONTEXT: CARD32 COLORMAP: CARD32 DRAWABLE: CARD32 FONTABLE: CARD32 ATOM: CARD32 VISUALID: CARD32 BYTE: 8-bit value INT8: 8-bit signed integer INT16: 16-bit signed integer INT32: 32-bit signed integer CARD8: 8-bit unsigned integer CARD16: 16-bit unsigned integer CARD32: 32-bit unsigned integer TIMESTAMP: CARD32 BITGRAVITY 0 Forget 1 NorthWest 2 North 3 NorthEast 4 West 5 Center 6 East 7 SouthWest 8 South 9 SouthEast 10 Static WINGRAVITY 0 Unmap 1 NorthWest 2 North 3 NorthEast 4 West 5 Center 6 East 7 SouthWest 8 South 9 SouthEast 10 Static BOOL 0 False 1 True SETofEVENT #x00000001 KeyPress #x00000002 KeyRelease #x00000004 ButtonPress #x00000008 ButtonRelease #x00000010 EnterWindow #x00000020 LeaveWindow #x00000040 PointerMotion #x00000080 PointerMotionHint #x00000100 Button1Motion #x00000200 Button2Motion #x00000400 Button3Motion #x00000800 Button4Motion #x00001000 Button5Motion #x00002000 ButtonMotion #x00004000 KeymapState #x00008000 Exposure #x00010000 VisibilityChange #x00020000 StructureNotify #x00040000 ResizeRedirect #x00080000 SubstructureNotify #x00100000 SubstructureRedirect #x00200000 FocusChange #x00400000 PropertyChange #x00800000 ColormapChange #x01000000 OwnerGrabButton #xFE000000 unused but must be zero SETofPOINTEREVENT encodings are the same as for SETofEVENT, except with #xFFFF8003 unused but must be zero SETofDEVICEEVENT encodings are the same as for SETofEVENT, except with #xFFFFC0B0 unused but must be zero KEYSYM: CARD32 KEYCODE: CARD8 BUTTON: CARD8 SETofKEYBUTMASK #x0001 Shift #x0002 Lock #x0004 Control #x0008 Mod1 #x0010 Mod2 #x0020 Mod3 #x0040 Mod4 #x0080 Mod5 #x0100 Button1 #x0200 Button2 #x0400 Button3 #x0800 Button4 #x1000 Button5 #xE000 unused but must be zero SETofKEYMASK encodings are the same as for SETofKEYBUTMASK, except with #xFF00 unused but must be zero STRING8: LISTofCARD8 STRING16: LISTofCHAR2B CHAR2B 1 CARD8 byte1 1 CARD8 byte2 POINT 2 INT16 x 2 INT16 y RECTANGLE 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height ARC 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 INT16 angle1 2 INT16 angle2 HOST 1 family 0 Internet 1 DECnet 2 Chaos 5 ServerInterpreted 6 InternetV6 1 unused 2 n length of address n LISTofBYTE address p unused, p=pad(n) STR 1 n length of name in bytes n STRING8 name Errors Error reportencoding Request 1 0 Error 1 1 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Value 1 0 Error 1 2 code 2 CARD16 sequence number 4 <32-bits> bad value 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Window 1 0 Error 1 3 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Pixmap 1 0 Error 1 4 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Atom 1 0 Error 1 5 code 2 CARD16 sequence number 4 CARD32 bad atom id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Cursor 1 0 Error 1 6 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Font 1 0 Error 1 7 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Match 1 0 Error 1 8 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Drawable 1 0 Error 1 9 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Access 1 0 Error 1 10 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Alloc 1 0 Error 1 11 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Colormap 1 0 Error 1 12 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused GContext 1 0 Error 1 13 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused IDChoice 1 0 Error 1 14 code 2 CARD16 sequence number 4 CARD32 bad resource id 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Name 1 0 Error 1 15 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Length 1 0 Error 1 16 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Implementation 1 0 Error 1 17 code 2 CARD16 sequence number 4 unused 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Keyboards KEYCODE values are always greater than 7 (and less than 256). KEYSYM values with the bit #x10000000 set are reserved as vendor-specific. The names and encodings of the standard KEYSYM values are contained in Appendix A, Keysym Encoding. Pointers BUTTON values are numbered starting with one. Predefined Atoms Atompredefined PRIMARY 1 WM_NORMAL_HINTS 40 SECONDARY 2 WM_SIZE_HINTS 41 ARC 3 WM_ZOOM_HINTS 42 ATOM 4 MIN_SPACE 43 BITMAP 5 NORM_SPACE 44 CARDINAL 6 MAX_SPACE 45 COLORMAP 7 END_SPACE 46 CURSOR 8 SUPERSCRIPT_X 47 CUT_BUFFER0 9 SUPERSCRIPT_Y 48 CUT_BUFFER1 10 SUBSCRIPT_X 49 CUT_BUFFER2 11 SUBSCRIPT_Y 50 CUT_BUFFER3 12 UNDERLINE_POSITION 51 CUT_BUFFER4 13 UNDERLINE_THICKNESS 52 CUT_BUFFER5 14 STRIKEOUT_ASCENT 53 CUT_BUFFER6 15 STRIKEOUT_DESCENT 54 CUT_BUFFER7 16 ITALIC_ANGLE 55 DRAWABLE 17 X_HEIGHT 56 FONT 18 QUAD_WIDTH 57 INTEGER 19 WEIGHT 58 PIXMAP 20 POINT_SIZE 59 POINT 21 RESOLUTION 60 RECTANGLE 22 COPYRIGHT 61 RESOURCE_MANAGER 23 NOTICE 62 RGB_COLOR_MAP 24 FONT_NAME 63 RGB_BEST_MAP 25 FAMILY_NAME 64 RGB_BLUE_MAP 26 FULL_NAME 65 RGB_DEFAULT_MAP 27 CAP_HEIGHT 66 RGB_GRAY_MAP 28 WM_CLASS 67 RGB_GREEN_MAP 29 WM_TRANSIENT_FOR 68 RGB_RED_MAP 30 STRING 31 VISUALID 32 WINDOW 33 WM_COMMAND 34 WM_HINTS 35 WM_CLIENT_MACHINE 36 WM_ICON_NAME 37 WM_ICON_SIZE 38 WM_NAME 39 Connection Setup For TCP connections, displays on a given host are numbered starting from 0, and the server for display N listens and accepts connections on port 6000 + N. For DECnet connections, displays on a given host are numbered starting from 0, and the server for display N listens and accepts connections on the object name obtained by concatenating "X$X" with the decimal representation of N, for example, X$X0 and X$X1. Information sent by the client at connection setup: 1 byte-order #x42 MSB first #x6C LSB first 1 unused 2 CARD16 protocol-major-version 2 CARD16 protocol-minor-version 2 n length of authorization-protocol-name 2 d length of authorization-protocol-data 2 unused n STRING8 authorization-protocol-name p unused, p=pad(n) d STRING8 authorization-protocol-data q unused, q=pad(d) Except where explicitly noted in the protocol, all 16-bit and 32-bit quantities sent by the client must be transmitted with the specified byte order, and all 16-bit and 32-bit quantities returned by the server will be transmitted with this byte order. Information received by the client if the connection is refused: 1 0 Failed 1 n length of reason in bytes 2 CARD16 protocol-major-version 2 CARD16 protocol-minor-version 2 (n+p)/4 length in 4-byte units of "additional data" n STRING8 reason p unused, p=pad(n) Information received by the client if further authentication is required: 1 2 Authenticate 5 unused 2 (n+p)/4 length in 4-byte units of "additional data" n STRING8 reason p unused, p=pad(n) Information received by the client if the connection is accepted: 1 1 Success 1 unused 2 CARD16 protocol-major-version 2 CARD16 protocol-minor-version 2 8+2n+(v+p+m)/4 length in 4-byte units of "additional data" 4 CARD32 release-number 4 CARD32 resource-id-base 4 CARD32 resource-id-mask 4 CARD32 motion-buffer-size 2 v length of vendor 2 CARD16 maximum-request-length 1 CARD8 number of SCREENs in roots 1 n number for FORMATs in pixmap-formats 1 image-byte-order 0 LSBFirst 1 MSBFirst 1 bitmap-format-bit-order 0 LeastSignificant 1 MostSignificant 1 CARD8 bitmap-format-scanline-unit 1 CARD8 bitmap-format-scanline-pad 1 KEYCODE min-keycode 1 KEYCODE max-keycode 4 unused v STRING8 vendor p unused, p=pad(v) 8n LISTofFORMAT pixmap-formats m LISTofSCREEN roots (m is always a multiple of 4) FORMAT 1 CARD8 depth 1 CARD8 bits-per-pixel 1 CARD8 scanline-pad 5 unused SCREEN 4 WINDOW root 4 COLORMAP default-colormap 4 CARD32 white-pixel 4 CARD32 black-pixel 4 SETofEVENT current-input-masks 2 CARD16 width-in-pixels 2 CARD16 height-in-pixels 2 CARD16 width-in-millimeters 2 CARD16 height-in-millimeters 2 CARD16 min-installed-maps 2 CARD16 max-installed-maps 4 VISUALID root-visual 1 backing-stores 0 Never 1 WhenMapped 2 Always 1 BOOL save-unders 1 CARD8 root-depth 1 CARD8 number of DEPTHs in allowed-depths n LISTofDEPTH allowed-depths (n is always a multiple of 4) DEPTH 1 CARD8 depth 1 unused 2 n number of VISUALTYPES in visuals 4 unused 24n LISTofVISUALTYPE visuals VISUALTYPE 4 VISUALID visual-id 1 class 0 StaticGray 1 GrayScale 2 StaticColor 3 PseudoColor 4 TrueColor 5 DirectColor 1 CARD8 bits-per-rgb-value 2 CARD16 colormap-entries 4 CARD32 red-mask 4 CARD32 green-mask 4 CARD32 blue-mask 4 unused Requests Requestencoding CreateWindow 1 1 opcode 1 CARD8 depth 2 8+n request length 4 WINDOW wid 4 WINDOW parent 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 CARD16 border-width 2 class 0 CopyFromParent 1 InputOutput 2 InputOnly 4 VISUALID visual 0 CopyFromParent 4 BITMASK value-mask (has n bits set to 1) #x00000001 background-pixmap #x00000002 background-pixel #x00000004 border-pixmap #x00000008 border-pixel #x00000010 bit-gravity #x00000020 win-gravity #x00000040 backing-store #x00000080 backing-planes #x00000100 backing-pixel #x00000200 override-redirect #x00000400 save-under #x00000800 event-mask #x00001000 do-not-propagate-mask #x00002000 colormap #x00004000 cursor 4n LISTofVALUE value-list VALUEs 4 PIXMAP background-pixmap 0 None 1 ParentRelative 4 CARD32 background-pixel 4 PIXMAP border-pixmap 0 CopyFromParent 4 CARD32 border-pixel 1 BITGRAVITY bit-gravity 1 WINGRAVITY win-gravity 1 backing-store 0 NotUseful 1 WhenMapped 2 Always 4 CARD32 backing-planes 4 CARD32 backing-pixel 1 BOOL override-redirect 1 BOOL save-under 4 SETofEVENT event-mask 4 SETofDEVICEEVENT do-not-propagate-mask 4 COLORMAP colormap 0 CopyFromParent 4 CURSOR cursor 0 None ChangeWindowAttributes 1 2 opcode 1 unused 2 3+n request length 4 WINDOW window 4 BITMASK value-mask (has n bits set to 1) encodings are the same as for CreateWindow 4n LISTofVALUE value-list encodings are the same as for CreateWindow GetWindowAttributes 1 3 opcode 1 unused 2 2 request length 4 WINDOW window ▶ 1 1 Reply 1 backing-store 0 NotUseful 1 WhenMapped 2 Always 2 CARD16 sequence number 4 3 reply length 4 VISUALID visual 2 class 1 InputOutput 2 InputOnly 1 BITGRAVITY bit-gravity 1 WINGRAVITY win-gravity 4 CARD32 backing-planes 4 CARD32 backing-pixel 1 BOOL save-under 1 BOOL map-is-installed 1 map-state 0 Unmapped 1 Unviewable 2 Viewable 1 BOOL override-redirect 4 COLORMAP colormap 0 None 4 SETofEVENT all-event-masks 4 SETofEVENT your-event-mask 2 SETofDEVICEEVENT do-not-propagate-mask 2 unused DestroyWindow 1 4 opcode 1 unused 2 2 request length 4 WINDOW window DestroySubwindows 1 5 opcode 1 unused 2 2 request length 4 WINDOW window ChangeSaveSet 1 6 opcode 1 mode 0 Insert 1 Delete 2 2 request length 4 WINDOW window ReparentWindow 1 7 opcode 1 unused 2 4 request length 4 WINDOW window 4 WINDOW parent 2 INT16 x 2 INT16 y MapWindow 1 8 opcode 1 unused 2 2 request length 4 WINDOW window MapSubwindows 1 9 opcode 1 unused 2 2 request length 4 WINDOW window UnmapWindow 1 10 opcode 1 unused 2 2 request length 4 WINDOW window UnmapSubwindows 1 11 opcode 1 unused 2 2 request length 4 WINDOW window ConfigureWindow 1 12 opcode 1 unused 2 3+n request length 4 WINDOW window 2 BITMASK value-mask (has n bits set to 1) #x0001 x #x0002 y #x0004 width #x0008 height #x0010 border-width #x0020 sibling #x0040 stack-mode 2 unused 4n LISTofVALUE value-list VALUEs 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 CARD16 border-width 4 WINDOW sibling 1 stack-mode 0 Above 1 Below 2 TopIf 3 BottomIf 4 Opposite CirculateWindow 1 13 opcode 1 direction 0 RaiseLowest 1 LowerHighest 2 2 request length 4 WINDOW window GetGeometry 1 14 opcode 1 unused 2 2 request length 4 DRAWABLE drawable ▶ 1 1 Reply 1 CARD8 depth 2 CARD16 sequence number 4 0 reply length 4 WINDOW root 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 CARD16 border-width 10 unused QueryTree 1 15 opcode 1 unused 2 2 request length 4 WINDOW window ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 n reply length 4 WINDOW root 4 WINDOW parent 0 None 2 n number of WINDOWs in children 14 unused 4n LISTofWINDOW children InternAtom 1 16 opcode 1 BOOL only-if-exists 2 2+(n+p)/4 request length 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 4 ATOM atom 0 None 20 unused GetAtomName 1 17 opcode 1 unused 2 2 request length 4 ATOM atom ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 (n+p)/4 reply length 2 n length of name 22 unused n STRING8 name p unused, p=pad(n) ChangeProperty 1 18 opcode 1 mode 0 Replace 1 Prepend 2 Append 2 6+(n+p)/4 request length 4 WINDOW window 4 ATOM property 4 ATOM type 1 CARD8 format 3 unused 4 CARD32 length of data in format units (= n for format = 8) (= n/2 for format = 16) (= n/4 for format = 32) n LISTofBYTE data (n is a multiple of 2 for format = 16) (n is a multiple of 4 for format = 32) p unused, p=pad(n) DeleteProperty 1 19 opcode 1 unused 2 3 request length 4 WINDOW window 4 ATOM property GetProperty 1 20 opcode 1 BOOL delete 2 6 request length 4 WINDOW window 4 ATOM property 4 ATOM type 0 AnyPropertyType 4 CARD32 long-offset 4 CARD32 long-length ▶ 1 1 Reply 1 CARD8 format 2 CARD16 sequence number 4 (n+p)/4 reply length 4 ATOM type 0 None 4 CARD32 bytes-after 4 CARD32 length of value in format units (= 0 for format = 0) (= n for format = 8) (= n/2 for format = 16) (= n/4 for format = 32) 12 unused n LISTofBYTE value (n is zero for format = 0) (n is a multiple of 2 for format = 16) (n is a multiple of 4 for format = 32) p unused, p=pad(n) ListProperties 1 21 opcode 1 unused 2 2 request length 4 WINDOW window ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 n reply length 2 n number of ATOMs in atoms 22 unused 4n LISTofATOM atoms SetSelectionOwner 1 22 opcode 1 unused 2 4 request length 4 WINDOW owner 0 None 4 ATOM selection 4 TIMESTAMP time 0 CurrentTime GetSelectionOwner 1 23 opcode 1 unused 2 2 request length 4 ATOM selection ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 4 WINDOW owner 0 None 20 unused ConvertSelection 1 24 opcode 1 unused 2 6 request length 4 WINDOW requestor 4 ATOM selection 4 ATOM target 4 ATOM property 0 None 4 TIMESTAMP time 0 CurrentTime SendEvent 1 25 opcode 1 BOOL propagate 2 11 requestlength 4 WINDOW destination 0 PointerWindow 1 InputFocus 4 SETofEVENT event-mask 32 event standard event format (see the Events section) GrabPointer 1 26 opcode 1 BOOL owner-events 2 6 request length 4 WINDOW grab-window 2 SETofPOINTEREVENT event-mask 1 pointer-mode 0 Synchronous 1 Asynchronous 1 keyboard-mode 0 Synchronous 1 Asynchronous 4 WINDOW confine-to 0 None 4 CURSOR cursor 0 None 4 TIMESTAMP time 0 CurrentTime ▶ 1 1 Reply 1 status 0 Success 1 AlreadyGrabbed 2 InvalidTime 3 NotViewable 4 Frozen 2 CARD16 sequence number 4 0 reply length 24 unused UngrabPointer 1 27 opcode 1 unused 2 2 request length 4 TIMESTAMP time 0 CurrentTime GrabButton 1 28 opcode 1 BOOL owner-events 2 6 request length 4 WINDOW grab-window 2 SETofPOINTEREVENT event-mask 1 pointer-mode 0 Synchronous 1 Asynchronous 1 keyboard-mode 0 Synchronous 1 Asynchronous 4 WINDOW confine-to 0 None 4 CURSOR cursor 0 None 1 BUTTON button 0 AnyButton 1 unused 2 SETofKEYMASK modifiers #x8000 AnyModifier UngrabButton 1 29 opcode 1 BUTTON button 0 AnyButton 2 3 request length 4 WINDOW grab-window 2 SETofKEYMASK modifiers #x8000 AnyModifier 2 unused ChangeActivePointerGrab 1 30 opcode 1 unused 2 4 request length 4 CURSOR cursor 0 None 4 TIMESTAMP time 0 CurrentTime 2 SETofPOINTEREVENT event-mask 2 unused GrabKeyboard 1 31 opcode 1 BOOL owner-events 2 4 request length 4 WINDOW grab-window 4 TIMESTAMP time 0 CurrentTime 1 pointer-mode 0 Synchronous 1 Asynchronous 1 keyboard-mode 0 Synchronous 1 Asynchronous 2 unused ▶ 1 1 Reply 1 status 0 Success 1 AlreadyGrabbed 2 InvalidTime 3 NotViewable 4 Frozen 2 CARD16 sequence number 4 0 reply length 24 unused UngrabKeyboard 1 32 opcode 1 unused 2 2 request length 4 TIMESTAMP time 0 CurrentTime GrabKey 1 33 opcode 1 BOOL owner-events 2 4 request length 4 WINDOW grab-window 2 SETofKEYMASK modifiers #x8000 AnyModifier 1 KEYCODE key 0 AnyKey 1 pointer-mode 0 Synchronous 1 Asynchronous 1 keyboard-mode 0 Synchronous 1 Asynchronous 3 unused UngrabKey 1 34 opcode 1 KEYCODE key 0 AnyKey 2 3 request length 4 WINDOW grab-window 2 SETofKEYMASK modifiers #x8000 AnyModifier 2 unused AllowEvents 1 35 opcode 1 mode 0 AsyncPointer 1 SyncPointer 2 ReplayPointer 3 AsyncKeyboard 4 SyncKeyboard 5 ReplayKeyboard 6 AsyncBoth 7 SyncBoth 2 2 request length 4 TIMESTAMP time 0 CurrentTime GrabServer 1 36 opcode 1 unused 2 1 request length UngrabServer 1 37 opcode 1 unused 2 1 request length QueryPointer 1 38 opcode 1 unused 2 2 request length 4 WINDOW window ▶ 1 1 Reply 1 BOOL same-screen 2 CARD16 sequence number 4 0 reply length 4 WINDOW root 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 win-x 2 INT16 win-y 2 SETofKEYBUTMASK mask 6 unused GetMotionEvents 1 39 opcode 1 unused 2 4 request length 4 WINDOW window 4 TIMESTAMP start 0 CurrentTime 4 TIMESTAMP stop 0 CurrentTime ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 2n reply length 4 n number of TIMECOORDs in events 20 unused 8n LISTofTIMECOORD events TIMECOORD 4 TIMESTAMP time 2 INT16 x 2 INT16 y TranslateCoordinates 1 40 opcode 1 unused 2 4 request length 4 WINDOW src-window 4 WINDOW dst-window 2 INT16 src-x 2 INT16 src-y ▶ 1 1 Reply 1 BOOL same-screen 2 CARD16 sequence number 4 0 reply length 4 WINDOW child 0 None 2 INT16 dst-x 2 INT16 dst-y 16 unused WarpPointer 1 41 opcode 1 unused 2 6 request length 4 WINDOW src-window 0 None 4 WINDOW dst-window 0 None 2 INT16 src-x 2 INT16 src-y 2 CARD16 src-width 2 CARD16 src-height 2 INT16 dst-x 2 INT16 dst-y SetInputFocus 1 42 opcode 1 revert-to 0 None 1 PointerRoot 2 Parent 2 3 request length 4 WINDOW focus 0 None 1 PointerRoot 4 TIMESTAMP time 0 CurrentTime GetInputFocus 1 43 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 revert-to 0 None 1 PointerRoot 2 Parent 2 CARD16 sequence number 4 0 reply length 4 WINDOW focus 0 None 1 PointerRoot 20 unused QueryKeymap 1 44 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 2 reply length 32 LISTofCARD8 keys OpenFont 1 45 opcode 1 unused 2 3+(n+p)/4 request length 4 FONT fid 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) CloseFont 1 46 opcode 1 unused 2 2 request length 4 FONT font QueryFont 1 47 opcode 1 unused 2 2 request length 4 FONTABLE font ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 7+2n+3m reply length 12 CHARINFO min-bounds 4 unused 12 CHARINFO max-bounds 4 unused 2 CARD16 min-char-or-byte2 2 CARD16 max-char-or-byte2 2 CARD16 default-char 2 n number of FONTPROPs in properties 1 draw-direction 0 LeftToRight 1 RightToLeft 1 CARD8 min-byte1 1 CARD8 max-byte1 1 BOOL all-chars-exist 2 INT16 font-ascent 2 INT16 font-descent 4 m number of CHARINFOs in char-infos 8n LISTofFONTPROP properties 12m LISTofCHARINFO char-infos FONTPROP 4 ATOM name 4 <32-bits> value CHARINFO 2 INT16 left-side-bearing 2 INT16 right-side-bearing 2 INT16 character-width 2 INT16 ascent 2 INT16 descent 2 CARD16 attributes QueryTextExtents 1 48 opcode 1 BOOL odd length, True if p = 2 2 2+(2n+p)/4 request length 4 FONTABLE font 2n STRING16 string p unused, p=pad(2n) ▶ 1 1 Reply 1 draw-direction 0 LeftToRight 1 RightToLeft 2 CARD16 sequence number 4 0 reply length 2 INT16 font-ascent 2 INT16 font-descent 2 INT16 overall-ascent 2 INT16 overall-descent 4 INT32 overall-width 4 INT32 overall-left 4 INT32 overall-right 4 unused ListFonts 1 49 opcode 1 unused 2 2+(n+p)/4 request length 2 CARD16 max-names 2 n length of pattern n STRING8 pattern p unused, p=pad(n) ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 (n+p)/4 reply length 2 CARD16 number of STRs in names 22 unused n LISTofSTR names p unused, p=pad(n) ListFontsWithInfo 1 50 opcode 1 unused 2 2+(n+p)/4 request length 2 CARD16 max-names 2 n length of pattern n STRING8 pattern p unused, p=pad(n) ▶ (except for last in series) 1 1 Reply 1 n length of name in bytes 2 CARD16 sequence number 4 7+2m+(n+p)/4 reply length 12 CHARINFO min-bounds 4 unused 12 CHARINFO max-bounds 4 unused 2 CARD16 min-char-or-byte2 2 CARD16 max-char-or-byte2 2 CARD16 default-char 2 m number of FONTPROPs in properties 1 draw-direction 0 LeftToRight 1 RightToLeft 1 CARD8 min-byte1 1 CARD8 max-byte1 1 BOOL all-chars-exist 2 INT16 font-ascent 2 INT16 font-descent 4 CARD32 replies-hint 8m LISTofFONTPROP properties n STRING8 name p unused, p=pad(n) FONTPROP encodings are the same as for QueryFont CHARINFO encodings are the same as for QueryFont ▶ (last in series) 1 1 Reply 1 0 last-reply indicator 2 CARD16 sequence number 4 7 reply length 52 unused SetFontPath 1 51 opcode 1 unused 2 2+(n+p)/4 request length 2 CARD16 number of STRs in path 2 unused n LISTofSTR path p unused, p=pad(n) GetFontPath 1 52 opcode 1 unused 2 1 request list ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 (n+p)/4 reply length 2 CARD16 number of STRs in path 22 unused n LISTofSTR path p unused, p=pad(n) CreatePixmap 1 53 opcode 1 CARD8 depth 2 4 request length 4 PIXMAP pid 4 DRAWABLE drawable 2 CARD16 width 2 CARD16 height FreePixmap 1 54 opcode 1 unused 2 2 request length 4 PIXMAP pixmap CreateGC 1 55 opcode 1 unused 2 4+n request length 4 GCONTEXT cid 4 DRAWABLE drawable 4 BITMASK value-mask (has n bits set to 1) #x00000001 function #x00000002 plane-mask #x00000004 foreground #x00000008 background #x00000010 line-width #x00000020 line-style #x00000040 cap-style #x00000080 join-style #x00000100 fill-style #x00000200 fill-rule #x00000400 tile #x00000800 stipple #x00001000 tile-stipple-x-origin #x00002000 tile-stipple-y-origin #x00004000 font #x00008000 subwindow-mode #x00010000 graphics-exposures #x00020000 clip-x-origin #x00040000 clip-y-origin #x00080000 clip-mask #x00100000 dash-offset #x00200000 dashes #x00400000 arc-mode 4n LISTofVALUE value-list VALUEs 1 function 0 Clear 1 And 2 AndReverse 3 Copy 4 AndInverted 5 NoOp 6 Xor 7 Or 8 Nor 9 Equiv 10 Invert 11 OrReverse 12 CopyInverted 13 OrInverted 14 Nand 15 Set 4 CARD32 plane-mask 4 CARD32 foreground 4 CARD32 background 2 CARD16 line-width 1 line-style 0 Solid 1 OnOffDash 2 DoubleDash 1 cap-style 0 NotLast 1 Butt 2 Round 3 Projecting 1 join-style 0 Miter 1 Round 2 Bevel 1 fill-style 0 Solid 1 Tiled 2 Stippled 3 OpaqueStippled 1 fill-rule 0 EvenOdd 1 Winding 4 PIXMAP tile 4 PIXMAP stipple 2 INT16 tile-stipple-x-origin 2 INT16 tile-stipple-y-origin 4 FONT font 1 subwindow-mode 0 ClipByChildren 1 IncludeInferiors 1 BOOL graphics-exposures 2 INT16 clip-x-origin 2 INT16 clip-y-origin 4 PIXMAP clip-mask 0 None 2 CARD16 dash-offset 1 CARD8 dashes 1 arc-mode 0 Chord 1 PieSlice ChangeGC 1 56 opcode 1 unused 2 3+n request length 4 GCONTEXT gc 4 BITMASK value-mask (has n bits set to 1) encodings are the same as for CreateGC 4n LISTofVALUE value-list encodings are the same as for CreateGC CopyGC 1 57 opcode 1 unused 2 4 request length 4 GCONTEXT src-gc 4 GCONTEXT dst-gc 4 BITMASK value-mask encodings are the same as for CreateGC SetDashes 1 58 opcode 1 unused 2 3+(n+p)/4 request length 4 GCONTEXT gc 2 CARD16 dash-offset 2 n length of dashes n LISTofCARD8 dashes p unused, p=pad(n) SetClipRectangles 1 59 opcode 1 ordering 0 UnSorted 1 YSorted 2 YXSorted 3 YXBanded 2 3+2n request length 4 GCONTEXT gc 2 INT16 clip-x-origin 2 INT16 clip-y-origin 8n LISTofRECTANGLE rectangles FreeGC 1 60 opcode 1 unused 2 2 request length 4 GCONTEXT gc ClearArea 1 61 opcode 1 BOOL exposures 2 4 request length 4 WINDOW window 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height CopyArea 1 62 opcode 1 unused 2 7 request length 4 DRAWABLE src-drawable 4 DRAWABLE dst-drawable 4 GCONTEXT gc 2 INT16 src-x 2 INT16 src-y 2 INT16 dst-x 2 INT16 dst-y 2 CARD16 width 2 CARD16 height CopyPlane 1 63 opcode 1 unused 2 8 request length 4 DRAWABLE src-drawable 4 DRAWABLE dst-drawable 4 GCONTEXT gc 2 INT16 src-x 2 INT16 src-y 2 INT16 dst-x 2 INT16 dst-y 2 CARD16 width 2 CARD16 height 4 CARD32 bit-plane PolyPoint 1 64 opcode 1 coordinate-mode 0 Origin 1 Previous 2 3+n request length 4 DRAWABLE drawable 4 GCONTEXT gc 4n LISTofPOINT points PolyLine 1 65 opcode 1 coordinate-mode 0 Origin 1 Previous 2 3+n request length 4 DRAWABLE drawable 4 GCONTEXT gc 4n LISTofPOINT points PolySegment 1 66 opcode 1 unused 2 3+2n request length 4 DRAWABLE drawable 4 GCONTEXT gc 8n LISTofSEGMENT segments SEGMENT 2 INT16 x1 2 INT16 y1 2 INT16 x2 2 INT16 y2 PolyRectangle 1 67 opcode 1 unused 2 3+2n request length 4 DRAWABLE drawable 4 GCONTEXT gc 8n LISTofRECTANGLE rectangles PolyArc 1 68 opcode 1 unused 2 3+3n request length 4 DRAWABLE drawable 4 GCONTEXT gc 12n LISTofARC arcs FillPoly 1 69 opcode 1 unused 2 4+n request length 4 DRAWABLE drawable 4 GCONTEXT gc 1 shape 0 Complex 1 Nonconvex 2 Convex 1 coordinate-mode 0 Origin 1 Previous 2 unused 4n LISTofPOINT points PolyFillRectangle 1 70 opcode 1 unused 2 3+2n request length 4 DRAWABLE drawable 4 GCONTEXT gc 8n LISTofRECTANGLE rectangles PolyFillArc 1 71 opcode 1 unused 2 3+3n request length 4 DRAWABLE drawable 4 GCONTEXT gc 12n LISTofARC arcs PutImage 1 72 opcode 1 format 0 Bitmap 1 XYPixmap 2 ZPixmap 2 6+(n+p)/4 request length 4 DRAWABLE drawable 4 GCONTEXT gc 2 CARD16 width 2 CARD16 height 2 INT16 dst-x 2 INT16 dst-y 1 CARD8 left-pad 1 CARD8 depth 2 unused n LISTofBYTE data p unused, p=pad(n) GetImage 1 73 opcode 1 format 1 XYPixmap 2 ZPixmap 2 5 request length 4 DRAWABLE drawable 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 4 CARD32 plane-mask ▶ 1 1 Reply 1 CARD8 depth 2 CARD16 sequence number 4 (n+p)/4 reply length 4 VISUALID visual 0 None 20 unused n LISTofBYTE data p unused, p=pad(n) PolyText8 1 74 opcode 1 unused 2 4+(n+p)/4 request length 4 DRAWABLE drawable 4 GCONTEXT gc 2 INT16 x 2 INT16 y n LISTofTEXTITEM8 items p unused, p=pad(n) (p is always 0 or 1) TEXTITEM8 1 m length of string (cannot be 255) 1 INT8 delta m STRING8 string or 1 255 font-shift indicator 1 font byte 3 (most-significant) 1 font byte 2 1 font byte 1 1 font byte 0 (least-significant) PolyText16 1 75 opcode 1 unused 2 4+(n+p)/4 request length 4 DRAWABLE drawable 4 GCONTEXT gc 2 INT16 x 2 INT16 y n LISTofTEXTITEM16 items p unused, p=pad(n) (p must be 0 or 1) TEXTITEM16 1 m number of CHAR2Bs in string (cannot be 255) 1 INT8 delta 2m STRING16 string or 1 255 font-shift indicator 1 font byte 3 (most-significant) 1 font byte 2 1 font byte 1 1 font byte 0 (least-significant) ImageText8 1 76 opcode 1 n length of string 2 4+(n+p)/4 request length 4 DRAWABLE drawable 4 GCONTEXT gc 2 INT16 x 2 INT16 y n STRING8 string p unused, p=pad(n) ImageText16 1 77 opcode 1 n number of CHAR2Bs in string 2 4+(2n+p)/4 request length 4 DRAWABLE drawable 4 GCONTEXT gc 2 INT16 x 2 INT16 y 2n STRING16 string p unused, p=pad(2n) CreateColormap 1 78 opcode 1 alloc 0 None 1 All 2 4 request length 4 COLORMAP mid 4 WINDOW window 4 VISUALID visual FreeColormap 1 79 opcode 1 unused 2 2 request length 4 COLORMAP cmap CopyColormapAndFree 1 80 opcode 1 unused 2 3 request length 4 COLORMAP mid 4 COLORMAP src-cmap InstallColormap 1 81 opcode 1 unused 2 2 request length 4 COLORMAP cmap UninstallColormap 1 82 opcode 1 unused 2 2 request length 4 COLORMAP cmap ListInstalledColormaps 1 83 opcode 1 unused 2 2 request length 4 WINDOW window ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 n reply length 2 n number of COLORMAPs in cmaps 22 unused 4n LISTofCOLORMAP cmaps AllocColor 1 84 opcode 1 unused 2 4 request length 4 COLORMAP cmap 2 CARD16 red 2 CARD16 green 2 CARD16 blue 2 unused ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 2 CARD16 red 2 CARD16 green 2 CARD16 blue 2 unused 4 CARD32 pixel 12 unused AllocNamedColor 1 85 opcode 1 unused 2 3+(n+p)/4 request length 4 COLORMAP cmap 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 4 CARD32 pixel 2 CARD16 exact-red 2 CARD16 exact-green 2 CARD16 exact-blue 2 CARD16 visual-red 2 CARD16 visual-green 2 CARD16 visual-blue 8 unused AllocColorCells 1 86 opcode 1 BOOL contiguous 2 3 request length 4 COLORMAP cmap 2 CARD16 colors 2 CARD16 planes ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 n+m reply length 2 n number of CARD32s in pixels 2 m number of CARD32s in masks 20 unused 4n LISTofCARD32 pixels 4m LISTofCARD32 masks AllocColorPlanes 1 87 opcode 1 BOOL contiguous 2 4 request length 4 COLORMAP cmap 2 CARD16 colors 2 CARD16 reds 2 CARD16 greens 2 CARD16 blues ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 n reply length 2 n number of CARD32s in pixels 2 unused 4 CARD32 red-mask 4 CARD32 green-mask 4 CARD32 blue-mask 8 unused 4n LISTofCARD32 pixels FreeColors 1 88 opcode 1 unused 2 3+n request length 4 COLORMAP cmap 4 CARD32 plane-mask 4n LISTofCARD32 pixels StoreColors 1 89 opcode 1 unused 2 2+3n request length 4 COLORMAP cmap 12n LISTofCOLORITEM items COLORITEM 4 CARD32 pixel 2 CARD16 red 2 CARD16 green 2 CARD16 blue 1 do-red, do-green, do-blue #x01 do-red (1 is True, 0 is False) #x02 do-green (1 is True, 0 is False) #x04 do-blue (1 is True, 0 is False) #xF8 unused 1 unused StoreNamedColor 1 90 opcode 1 do-red, do-green, do-blue #x01 do-red (1 is True, 0 is False) #x02 do-green (1 is True, 0 is False) #x04 do-blue (1 is True, 0 is False) #xF8 unused 2 4+(n+p)/4 request length 4 COLORMAP cmap 4 CARD32 pixel 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) QueryColors 1 91 opcode 1 unused 2 2+n request length 4 COLORMAP cmap 4n LISTofCARD32 pixels ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 2n reply length 2 n number of RGBs in colors 22 unused 8n LISTofRGB colors RGB 2 CARD16 red 2 CARD16 green 2 CARD16 blue 2 unused LookupColor 1 92 opcode 1 unused 2 3+(n+p)/4 request length 4 COLORMAP cmap 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 2 CARD16 exact-red 2 CARD16 exact-green 2 CARD16 exact-blue 2 CARD16 visual-red 2 CARD16 visual-green 2 CARD16 visual-blue 12 unused CreateCursor 1 93 opcode 1 unused 2 8 request length 4 CURSOR cid 4 PIXMAP source 4 PIXMAP mask 0 None 2 CARD16 fore-red 2 CARD16 fore-green 2 CARD16 fore-blue 2 CARD16 back-red 2 CARD16 back-green 2 CARD16 back-blue 2 CARD16 x 2 CARD16 y CreateGlyphCursor 1 94 opcode 1 unused 2 8 request length 4 CURSOR cid 4 FONT source-font 4 FONT mask-font 0 None 2 CARD16 source-char 2 CARD16 mask-char 2 CARD16 fore-red 2 CARD16 fore-green 2 CARD16 fore-blue 2 CARD16 back-red 2 CARD16 back-green 2 CARD16 back-blue FreeCursor 1 95 opcode 1 unused 2 2 request length 4 CURSOR cursor RecolorCursor 1 96 opcode 1 unused 2 5 request length 4 CURSOR cursor 2 CARD16 fore-red 2 CARD16 fore-green 2 CARD16 fore-blue 2 CARD16 back-red 2 CARD16 back-green 2 CARD16 back-blue QueryBestSize 1 97 opcode 1 class 0 Cursor 1 Tile 2 Stipple 2 3 request length 4 DRAWABLE drawable 2 CARD16 width 2 CARD16 height ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 2 CARD16 width 2 CARD16 height 20 unused QueryExtension 1 98 opcode 1 unused 2 2+(n+p)/4 request length 2 n length of name 2 unused n STRING8 name p unused, p=pad(n) ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 1 BOOL present 1 CARD8 major-opcode 1 CARD8 first-event 1 CARD8 first-error 20 unused ListExtensions 1 99 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 CARD8 number of STRs in names 2 CARD16 sequence number 4 (n+p)/4 reply length 24 unused n LISTofSTR names p unused, p=pad(n) ChangeKeyboardMapping 1 100 opcode 1 n keycode-count 2 2+nm request length 1 KEYCODE first-keycode 1 m keysyms-per-keycode 2 unused 4nm LISTofKEYSYM keysyms GetKeyboardMapping 1 101 opcode 1 unused 2 2 request length 1 KEYCODE first-keycode 1 m count 2 unused ▶ 1 1 Reply 1 n keysyms-per-keycode 2 CARD16 sequence number 4 nm reply length (m = count field from the request) 24 unused 4nm LISTofKEYSYM keysyms ChangeKeyboardControl 1 102 opcode 1 unused 2 2+n request length 4 BITMASK value-mask (has n bits set to 1) #x0001 key-click-percent #x0002 bell-percent #x0004 bell-pitch #x0008 bell-duration #x0010 led #x0020 led-mode #x0040 key #x0080 auto-repeat-mode 4n LISTofVALUE value-list VALUEs 1 INT8 key-click-percent 1 INT8 bell-percent 2 INT16 bell-pitch 2 INT16 bell-duration 1 CARD8 led 1 led-mode 0 Off 1 On 1 KEYCODE key 1 auto-repeat-mode 0 Off 1 On 2 Default GetKeyboardControl 1 103 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 global-auto-repeat 0 Off 1 On 2 CARD16 sequence number 4 5 reply length 4 CARD32 led-mask 1 CARD8 key-click-percent 1 CARD8 bell-percent 2 CARD16 bell-pitch 2 CARD16 bell-duration 2 unused 32 LISTofCARD8 auto-repeats Bell 1 104 opcode 1 INT8 percent 2 1 request length ChangePointerControl 1 105 opcode 1 unused 2 3 request length 2 INT16 acceleration-numerator 2 INT16 acceleration-denominator 2 INT16 threshold 1 BOOL do-acceleration 1 BOOL do-threshold GetPointerControl 1 106 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 2 CARD16 acceleration-numerator 2 CARD16 acceleration-denominator 2 CARD16 threshold 18 unused SetScreenSaver 1 107 opcode 1 unused 2 3 request length 2 INT16 timeout 2 INT16 interval 1 prefer-blanking 0 No 1 Yes 2 Default 1 allow-exposures 0 No 1 Yes 2 Default 2 unused GetScreenSaver 1 108 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 reply length 2 CARD16 timeout 2 CARD16 interval 1 prefer-blanking 0 No 1 Yes 1 allow-exposures 0 No 1 Yes 18 unused ChangeHosts 1 109 opcode 1 mode 0 Insert 1 Delete 2 2+(n+p)/4 request length 1 family 0 Internet 1 DECnet 2 Chaos 1 unused 2 n length of address n LISTofCARD8 address p unused, p=pad(n) ListHosts 1 110 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 mode 0 Disabled 1 Enabled 2 CARD16 sequence number 4 n/4 reply length 2 CARD16 number of HOSTs in hosts 22 unused n LISTofHOST hosts (n always a multiple of 4) SetAccessControl 1 111 opcode 1 mode 0 Disable 1 Enable 2 1 request length SetCloseDownMode 1 112 opcode 1 mode 0 Destroy 1 RetainPermanent 2 RetainTemporary 2 1 request length KillClient 1 113 opcode 1 unused 2 2 request length 4 CARD32 resource 0 AllTemporary RotateProperties 1 114 opcode 1 unused 2 3+n request length 4 WINDOW window 2 n number of properties 2 INT16 delta 4n LISTofATOM properties ForceScreenSaver 1 115 opcode 1 mode 0 Reset 1 Activate 2 1 request length SetPointerMapping 1 116 opcode 1 n length of map 2 1+(n+p)/4 request length n LISTofCARD8 map p unused, p=pad(n) ▶ 1 1 Reply 1 status 0 Success 1 Busy 2 CARD16 sequence number 4 0 reply length 24 unused GetPointerMapping 1 117 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 n length of map 2 CARD16 sequence number 4 (n+p)/4 reply length 24 unused n LISTofCARD8 map p unused, p=pad(n) SetModifierMapping 1 118 opcode 1 n keycodes-per-modifier 2 1+2n request length 8n LISTofKEYCODE keycodes ▶ 1 1 Reply 1 status 0 Success 1 Busy 2 Failed 2 CARD16 sequence number 4 0 reply length 24 unused GetModifierMapping 1 119 opcode 1 unused 2 1 request length ▶ 1 1 Reply 1 n keycodes-per-modifier 2 CARD16 sequence number 4 2n reply length 24 unused 8n LISTofKEYCODE keycodes NoOperation 1 127 opcode 1 unused 2 1+n request length 4n unused Events Eventencoding KeyPress 1 2 code 1 KEYCODE detail 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 BOOL same-screen 1 unused KeyRelease 1 3 code 1 KEYCODE detail 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 BOOL same-screen 1 unused ButtonPress 1 4 code 1 BUTTON detail 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 BOOL same-screen 1 unused ButtonRelease 1 5 code 1 BUTTON detail 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 BOOL same-screen 1 unused MotionNotify 1 6 code 1 detail 0 Normal 1 Hint 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 BOOL same-screen 1 unused EnterNotify 1 7 code 1 detail 0 Ancestor 1 Virtual 2 Inferior 3 Nonlinear 4 NonlinearVirtual 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 mode 0 Normal 1 Grab 2 Ungrab 1 same-screen, focus #x01 focus (1 is True, 0 is False) #x02 same-screen (1 is True, 0 is False) #xFC unused LeaveNotify 1 8 code 1 detail 0 Ancestor 1 Virtual 2 Inferior 3 Nonlinear 4 NonlinearVirtual 2 CARD16 sequence number 4 TIMESTAMP time 4 WINDOW root 4 WINDOW event 4 WINDOW child 0 None 2 INT16 root-x 2 INT16 root-y 2 INT16 event-x 2 INT16 event-y 2 SETofKEYBUTMASK state 1 mode 0 Normal 1 Grab 2 Ungrab 1 same-screen, focus #x01 focus (1 is True, 0 is False) #x02 same-screen (1 is True, 0 is False) #xFC unused FocusIn 1 9 code 1 detail 0 Ancestor 1 Virtual 2 Inferior 3 Nonlinear 4 NonlinearVirtual 5 Pointer 6 PointerRoot 7 None 2 CARD16 sequence number 4 WINDOW event 1 mode 0 Normal 1 Grab 2 Ungrab 3 WhileGrabbed 23 unused FocusOut 1 10 code 1 detail 0 Ancestor 1 Virtual 2 Inferior 3 Nonlinear 4 NonlinearVirtual 5 Pointer 6 PointerRoot 7 None 2 CARD16 sequence number 4 WINDOW event 1 mode 0 Normal 1 Grab 2 Ungrab 3 WhileGrabbed 23 unused KeymapNotify 1 11 code 31 LISTofCARD8 keys (byte for keycodes 0-7 is omitted) Expose 1 12 code 1 unused 2 CARD16 sequence number 4 WINDOW window 2 CARD16 x 2 CARD16 y 2 CARD16 width 2 CARD16 height 2 CARD16 count 14 unused GraphicsExposure 1 13 code 1 unused 2 CARD16 sequence number 4 DRAWABLE drawable 2 CARD16 x 2 CARD16 y 2 CARD16 width 2 CARD16 height 2 CARD16 minor-opcode 2 CARD16 count 1 CARD8 major-opcode 11 unused NoExposure 1 14 code 1 unused 2 CARD16 sequence number 4 DRAWABLE drawable 2 CARD16 minor-opcode 1 CARD8 major-opcode 21 unused VisibilityNotify 1 15 code 1 unused 2 CARD16 sequence number 4 WINDOW window 1 state 0 Unobscured 1 PartiallyObscured 2 FullyObscured 23 unused CreateNotify 1 16 code 1 unused 2 CARD16 sequence number 4 WINDOW parent 4 WINDOW window 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 CARD16 border-width 1 BOOL override-redirect 9 unused DestroyNotify 1 17 code 1 unused 2 CARD16 sequence number 4 WINDOW event 4 WINDOW window 20 unused UnmapNotify 1 18 code 1 unused 2 CARD16 sequence number 4 WINDOW event 4 WINDOW window 1 BOOL from-configure 19 unused MapNotify 1 19 code 1 unused 2 CARD16 sequence number 4 WINDOW event 4 WINDOW window 1 BOOL override-redirect 19 unused MapRequest 1 20 code 1 unused 2 CARD16 sequence number 4 WINDOW parent 4 WINDOW window 20 unused ReparentNotify 1 21 code 1 unused 2 CARD16 sequence number 4 WINDOW event 4 WINDOW window 4 WINDOW parent 2 INT16 x 2 INT16 y 1 BOOL override-redirect 11 unused ConfigureNotify 1 22 code 1 unused 2 CARD16 sequence number 4 WINDOW event 4 WINDOW window 4 WINDOW above-sibling 0 None 2 INT16 x 2 INT16 y 2 CARD16 width 2 CARD16 height 2 CARD16 border-width 1 BOOL override-redire