/* GLIB - Library of useful routines for C programming * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifndef __G_LIB_H__ #define __G_LIB_H__ /* system specific config file */ #include /* include varargs functions for assertment macros */ #include /* optionally feature DMALLOC memory allocation debugger */ #ifdef USE_DMALLOC #include "dmalloc.h" #endif /* glib provides definitions for the extrema of many * of the standard types. These are: * G_MINFLOAT * G_MAXFLOAT * G_MINDOUBLE * G_MAXDOUBLE * G_MINSHORT * G_MAXSHORT * G_MININT * G_MAXINT * G_MINLONG * G_MAXLONG * * We include limits.h before float.h to work around a egcs 1.1 * oddity on Solaris 2.5.1 */ #ifdef HAVE_LIMITS_H # include # define G_MINSHORT SHRT_MIN # define G_MAXSHORT SHRT_MAX # define G_MININT INT_MIN # define G_MAXINT INT_MAX # define G_MINLONG LONG_MIN # define G_MAXLONG LONG_MAX #elif HAVE_VALUES_H # ifdef HAVE_FLOAT_H # include # endif /* HAVE_FLOAT_H */ # define G_MINSHORT MINSHORT # define G_MAXSHORT MAXSHORT # define G_MININT MININT # define G_MAXINT MAXINT # define G_MINLONG MINLONG # define G_MAXLONG MAXLONG #endif /* HAVE_VALUES_H */ #ifdef HAVE_FLOAT_H # include # define G_MINFLOAT FLT_MIN # define G_MAXFLOAT FLT_MAX # define G_MINDOUBLE DBL_MIN # define G_MAXDOUBLE DBL_MAX #elif HAVE_VALUES_H # include # define G_MINFLOAT MINFLOAT # define G_MAXFLOAT MAXFLOAT # define G_MINDOUBLE MINDOUBLE # define G_MAXDOUBLE MAXDOUBLE #endif /* HAVE_VALUES_H */ #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /* Provide definitions for some commonly used macros. * Some of them are only provided if they haven't already * been defined. It is assumed that if they are already * defined then the current definition is correct. */ #ifndef NULL #define NULL ((void*) 0) #endif #ifndef FALSE #define FALSE (0) #endif #ifndef TRUE #define TRUE (!FALSE) #endif #undef MAX #define MAX(a, b) (((a) > (b)) ? (a) : (b)) #undef MIN #define MIN(a, b) (((a) < (b)) ? (a) : (b)) #undef ABS #define ABS(a) (((a) < 0) ? -(a) : (a)) #undef CLAMP #define CLAMP(x, low, high) (((x) > (high)) ? (high) : (((x) < (low)) ? (low) : (x))) /* Define G_VA_COPY() to do the right thing for copying va_list variables. * glibconfig.h may have already defined G_VA_COPY as va_copy or __va_copy. */ #if !defined (G_VA_COPY) # if defined (__GNUC__) && defined (__PPC__) && (defined (_CALL_SYSV) || defined (_WIN32)) # define G_VA_COPY(ap1, ap2) (*(ap1) = *(ap2)) # elif defined (G_VA_COPY_AS_ARRAY) # define G_VA_COPY(ap1, ap2) g_memmove ((ap1), (ap2), sizeof (va_list)) # else /* va_list is a pointer */ # define G_VA_COPY(ap1, ap2) ((ap1) = (ap2)) # endif /* va_list is a pointer */ #endif /* !G_VA_COPY */ /* Provide simple enum value macro wrappers that ease automated * enum value stringification code. [abandoned] */ #if !defined (G_CODE_GENERATION) #define G_ENUM( EnumerationName ) EnumerationName #define G_FLAGS( EnumerationName ) EnumerationName #define G_NV( VALUE_NAME , value_nick, VALUE) VALUE_NAME = (VALUE) #define G_SV( VALUE_NAME, value_nick ) VALUE_NAME #else /* G_CODE_GENERATION */ #define G_ENUM( EnumerationName ) G_ENUM_E + EnumerationName + #define G_FLAGS( EnumerationName ) G_ENUM_F + EnumerationName + #define G_NV( VALUE_NAME , value_nick, VALUE) G_ENUM_V + VALUE_NAME + value_nick + #define G_SV( VALUE_NAME, value_nick ) G_ENUM_V + VALUE_NAME + value_nick + #endif /* G_CODE_GENERATION */ /* inlining hassle. for compilers that don't allow the `inline' keyword, * mostly because of strict ANSI C compliance or dumbness, we try to fall * back to either `__inline__' or `__inline'. * we define G_CAN_INLINE, if the compiler seems to be actually * *capable* to do function inlining, in which case inline function bodys * do make sense. we also define G_INLINE_FUNC to properly export the * function prototypes if no inlinig can be performed. * we special case most of the stuff, so inline functions can have a normal * implementation by defining G_INLINE_FUNC to extern and G_CAN_INLINE to 1. */ #ifndef G_INLINE_FUNC # define G_CAN_INLINE 1 #endif #ifdef G_HAVE_INLINE # if defined (__GNUC__) && defined (__STRICT_ANSI__) # undef inline # define inline __inline__ # endif #else /* !G_HAVE_INLINE */ # undef inline # if defined (G_HAVE___INLINE__) # define inline __inline__ # else /* !inline && !__inline__ */ # if defined (G_HAVE___INLINE) # define inline __inline # else /* !inline && !__inline__ && !__inline */ # define inline /* don't inline, then */ # ifndef G_INLINE_FUNC # undef G_CAN_INLINE # endif # endif # endif #endif #ifndef G_INLINE_FUNC # ifdef __GNUC__ # ifdef __OPTIMIZE__ # define G_INLINE_FUNC extern inline # else # undef G_CAN_INLINE # define G_INLINE_FUNC extern # endif # else /* !__GNUC__ */ # ifdef G_CAN_INLINE # define G_INLINE_FUNC static inline # else # define G_INLINE_FUNC extern # endif # endif /* !__GNUC__ */ #endif /* !G_INLINE_FUNC */ /* Provide simple macro statement wrappers (adapted from Perl): * G_STMT_START { statements; } G_STMT_END; * can be used as a single statement, as in * if (x) G_STMT_START { ... } G_STMT_END; else ... * * For gcc we will wrap the statements within `({' and `})' braces. * For SunOS they will be wrapped within `if (1)' and `else (void) 0', * and otherwise within `do' and `while (0)'. */ #if !(defined (G_STMT_START) && defined (G_STMT_END)) # if defined (__GNUC__) && !defined (__STRICT_ANSI__) && !defined (__cplusplus) # define G_STMT_START (void)( # define G_STMT_END ) # else # if (defined (sun) || defined (__sun__)) # define G_STMT_START if (1) # define G_STMT_END else (void)0 # else # define G_STMT_START do # define G_STMT_END while (0) # endif # endif #endif /* Provide macros to feature the GCC function attribute. */ #if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ > 4) #define G_GNUC_PRINTF( format_idx, arg_idx ) \ __attribute__((format (printf, format_idx, arg_idx))) #define G_GNUC_SCANF( format_idx, arg_idx ) \ __attribute__((format (scanf, format_idx, arg_idx))) #define G_GNUC_FORMAT( arg_idx ) \ __attribute__((format_arg (arg_idx))) #define G_GNUC_NORETURN \ __attribute__((noreturn)) #define G_GNUC_CONST \ __attribute__((const)) #define G_GNUC_UNUSED \ __attribute__((unused)) #else /* !__GNUC__ */ #define G_GNUC_PRINTF( format_idx, arg_idx ) #define G_GNUC_SCANF( format_idx, arg_idx ) #define G_GNUC_FORMAT( arg_idx ) #define G_GNUC_NORETURN #define G_GNUC_CONST #define G_GNUC_UNUSED #endif /* !__GNUC__ */ /* Wrap the gcc __PRETTY_FUNCTION__ and __FUNCTION__ variables with * macros, so we can refer to them as strings unconditionally. */ #ifdef __GNUC__ #define G_GNUC_FUNCTION (__FUNCTION__) #define G_GNUC_PRETTY_FUNCTION (__PRETTY_FUNCTION__) #else /* !__GNUC__ */ #define G_GNUC_FUNCTION ("") #define G_GNUC_PRETTY_FUNCTION ("") #endif /* !__GNUC__ */ /* we try to provide a usefull equivalent for ATEXIT if it is * not defined, but use is actually abandoned. people should * use g_atexit() instead. * keep this in sync with gutils.c. */ #ifndef ATEXIT # ifdef HAVE_ATEXIT # ifdef NeXT /* @#%@! NeXTStep */ # define ATEXIT(proc) (!atexit (proc)) # else /* !NeXT */ # define ATEXIT(proc) (atexit (proc)) # endif /* !NeXT */ # elif defined (HAVE_ON_EXIT) # define ATEXIT(proc) (on_exit ((void (*)(int, void *))(proc), NULL)) # else # error Could not determine proper atexit() implementation # endif #else # define G_NATIVE_ATEXIT #endif /* ATEXIT */ /* Hacker macro to place breakpoints for x86 machines. * Actual use is strongly deprecated of course ;) */ #if defined (__i386__) && defined (__GNUC__) #define G_BREAKPOINT() G_STMT_START{ __asm__ volatile ("int $03"); }G_STMT_END #else /* !__i386__ */ #define G_BREAKPOINT() #endif /* __i386__ */ /* Provide macros for easily allocating memory. The macros * will cast the allocated memory to the specified type * in order to avoid compiler warnings. (Makes the code neater). */ #ifdef __DMALLOC_H__ # define g_new(type, count) (ALLOC (type, count)) # define g_new0(type, count) (CALLOC (type, count)) # define g_renew(type, mem, count) (REALLOC (mem, type, count)) #else /* __DMALLOC_H__ */ # define g_new(type, count) \ ((type *) g_malloc ((unsigned) sizeof (type) * (count))) # define g_new0(type, count) \ ((type *) g_malloc0 ((unsigned) sizeof (type) * (count))) # define g_renew(type, mem, count) \ ((type *) g_realloc (mem, (unsigned) sizeof (type) * (count))) #endif /* __DMALLOC_H__ */ #define g_mem_chunk_create(type, pre_alloc, alloc_type) ( \ g_mem_chunk_new (#type " mem chunks (" #pre_alloc ")", \ sizeof (type), \ sizeof (type) * (pre_alloc), \ (alloc_type)) \ ) #define g_chunk_new(type, chunk) ( \ (type *) g_mem_chunk_alloc (chunk) \ ) #define g_chunk_new0(type, chunk) ( \ (type *) g_mem_chunk_alloc0 (chunk) \ ) #define g_chunk_free(mem, mem_chunk) G_STMT_START { \ g_mem_chunk_free ((mem_chunk), (mem)); \ } G_STMT_END #define g_string(x) #x /* Provide macros for error handling. The "assert" macros will * exit on failure. The "return" macros will exit the current * function. Two different definitions are given for the macros * if G_DISABLE_ASSERT is not defined, in order to support gcc's * __PRETTY_FUNCTION__ capability. */ #ifdef G_DISABLE_ASSERT #define g_assert(expr) #define g_assert_not_reached() #else /* !G_DISABLE_ASSERT */ #ifdef __GNUC__ #define g_assert(expr) G_STMT_START{ \ if (!(expr)) \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_ERROR, \ "file %s: line %d (%s): assertion failed: (%s)", \ __FILE__, \ __LINE__, \ __PRETTY_FUNCTION__, \ #expr); }G_STMT_END #define g_assert_not_reached() G_STMT_START{ \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_ERROR, \ "file %s: line %d (%s): should not be reached", \ __FILE__, \ __LINE__, \ __PRETTY_FUNCTION__); }G_STMT_END #else /* !__GNUC__ */ #define g_assert(expr) G_STMT_START{ \ if (!(expr)) \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_ERROR, \ "file %s: line %d: assertion failed: (%s)", \ __FILE__, \ __LINE__, \ #expr); }G_STMT_END #define g_assert_not_reached() G_STMT_START{ \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_ERROR, \ "file %s: line %d: should not be reached", \ __FILE__, \ __LINE__); }G_STMT_END #endif /* __GNUC__ */ #endif /* !G_DISABLE_ASSERT */ #ifdef G_DISABLE_CHECKS #define g_return_if_fail(expr) #define g_return_val_if_fail(expr,val) #else /* !G_DISABLE_CHECKS */ #ifdef __GNUC__ #define g_return_if_fail(expr) G_STMT_START{ \ if (!(expr)) \ { \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_CRITICAL, \ "file %s: line %d (%s): assertion `%s' failed.", \ __FILE__, \ __LINE__, \ __PRETTY_FUNCTION__, \ #expr); \ return; \ }; }G_STMT_END #define g_return_val_if_fail(expr,val) G_STMT_START{ \ if (!(expr)) \ { \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_CRITICAL, \ "file %s: line %d (%s): assertion `%s' failed.", \ __FILE__, \ __LINE__, \ __PRETTY_FUNCTION__, \ #expr); \ return val; \ }; }G_STMT_END #else /* !__GNUC__ */ #define g_return_if_fail(expr) G_STMT_START{ \ if (!(expr)) \ { \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_CRITICAL, \ "file %s: line %d: assertion `%s' failed.", \ __FILE__, \ __LINE__, \ #expr); \ return; \ }; }G_STMT_END #define g_return_val_if_fail(expr, val) G_STMT_START{ \ if (!(expr)) \ { \ g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_CRITICAL, \ "file %s: line %d: assertion `%s' failed.", \ __FILE__, \ __LINE__, \ #expr); \ return val; \ }; }G_STMT_END #endif /* !__GNUC__ */ #endif /* !G_DISABLE_CHECKS */ /* Portable endian checks and conversions */ #define G_LITTLE_ENDIAN 1234 #define G_BIG_ENDIAN 4321 #define G_PDP_ENDIAN 3412 / /* unused, need specific PDP check */ #ifdef WORDS_BIGENDIAN #define G_BYTE_ORDER G_BIG_ENDIAN #else #define G_BYTE_ORDER G_LITTLE_ENDIAN #endif #define GULONG_SWAP_LE_BE(long_val) (((gulong) \ (((gulong) (long_val)) & 0x000000ffU) << 24) | \ (((gulong) (long_val)) & 0x0000ff00U) << 8) | \ (((gulong) (long_val)) & 0x00ff0000U) >> 8) | \ (((gulong) (long_val)) & 0xff000000U) >> 24))) #define GULONG_SWAP_LE_PDP(long_val) (((gulong) \ (((gulong) (long_val)) & 0x0000ffffU) << 16) | \ (((gulong) (long_val)) & 0xffff0000U) >> 16))) #define GULONG_SWAP_BE_PDP(long_val) (((gulong) \ (((gulong) (long_val)) & 0x000000ffU) << 8) | \ (((gulong) (long_val)) & 0x0000ff00U) >> 8) | \ (((gulong) (long_val)) & 0x00ff0000U) << 8) | \ (((gulong) (long_val)) & 0xff000000U) >> 8))) #if G_BYTE_ORDER == G_LITTLE_ENDIAN # define GLONG_TO_LE(long_val) ((glong) (long_val)) # define GULONG_TO_LE(long_val) ((gulong) (long_val)) # define GLONG_TO_BE(long_val) ((glong) GULONG_SWAP_LE_BE (long_val)) # define GULONG_TO_BE(long_val) (GULONG_SWAP_LE_BE (long_val)) # define GLONG_FROM_LE(long_val) ((glong) (long_val)) # define GULONG_FROM_LE(long_val) ((gulong) (long_val)) # define GLONG_FROM_BE(long_val) ((glong) GULONG_SWAP_LE_BE (long_val)) # define GULONG_FROM_BE(long_val) (GULONG_SWAP_LE_BE (long_val)) #elif G_BYTE_ORDER == G_BIG_ENDIAN # define GLONG_TO_LE(long_val) ((glong) GULONG_SWAP_LE_BE (long_val)) # define GULONG_TO_LE(long_val) (GULONG_SWAP_LE_BE (long_val)) # define GLONG_TO_BE(long_val) ((glong) (long_val)) # define GULONG_TO_BE(long_val) ((gulong) (long_val)) # define GLONG_FROM_LE(long_val) ((glong) GULONG_SWAP_LE_BE (long_val)) # define GULONG_FROM_LE(long_val) (GULONG_SWAP_LE_BE (long_val)) # define GLONG_FROM_BE(long_val) ((glong) (long_val)) # define GULONG_FROM_BE(long_val) ((gulong) (long_val)) #endif /* Provide type definitions for commonly used types. * These are useful because a "gint8" can be adjusted * to be 1 byte (8 bits) on all platforms. Similarly and * more importantly, "gint32" can be adjusted to be * 4 bytes (32 bits) on all platforms. */ typedef char gchar; typedef short gshort; typedef long glong; typedef int gint; typedef gint gboolean; typedef unsigned char guchar; typedef unsigned short gushort; typedef unsigned long gulong; typedef unsigned int guint; typedef float gfloat; typedef double gdouble; /* HAVE_LONG_DOUBLE doesn't work correctly on all platforms. * Since gldouble isn't used anywhere, just disable it for now */ #if 0 #ifdef HAVE_LONG_DOUBLE typedef long double gldouble; #else /* HAVE_LONG_DOUBLE */ typedef double gldouble; #endif /* HAVE_LONG_DOUBLE */ #endif /* 0 */ typedef void* gpointer; typedef const void *gconstpointer; #if (SIZEOF_CHAR == 1) typedef signed char gint8; typedef unsigned char guint8; #endif /* SIZEOF_CHAR */ #if (SIZEOF_SHORT == 2) typedef signed short gint16; typedef unsigned short guint16; #endif /* SIZEOF_SHORT */ #if (SIZEOF_INT == 4) typedef signed int gint32; typedef unsigned int guint32; #elif (SIZEOF_LONG == 4) typedef signed long gint32; typedef unsigned long guint32; #endif /* SIZEOF_INT */ #if (SIZEOF_LONG == 8) #define HAVE_GINT64 1 typedef signed long gint64; typedef unsigned long guint64; #elif (SIZEOF_LONG_LONG == 8) #define HAVE_GINT64 1 typedef signed long long gint64; typedef unsigned long long guint64; #else /* No gint64 */ #undef HAVE_GINT64 #endif /* Define macros for storing integers inside pointers */ #if (SIZEOF_INT == SIZEOF_VOID_P) #define GPOINTER_TO_INT(p) ((gint)(p)) #define GPOINTER_TO_UINT(p) ((guint)(p)) #define GINT_TO_POINTER(i) ((gpointer)(i)) #define GUINT_TO_POINTER(u) ((gpointer)(u)) #elif (SIZEOF_LONG == SIZEOF_VOID_P) #define GPOINTER_TO_INT(p) ((gint)(glong)(p)) #define GPOINTER_TO_UINT(p) ((guint)(gulong)(p)) #define GINT_TO_POINTER(i) ((gpointer)(glong)(i)) #define GUINT_TO_POINTER(u) ((gpointer)(gulong)(u)) #else #error SIZEOF_VOID_P unknown - This should never happen #endif typedef gint32 gssize; typedef guint32 gsize; typedef guint32 GQuark; typedef gint32 GTime; /* Glib version. */ extern const guint glib_major_version; extern const guint glib_minor_version; extern const guint glib_micro_version; extern const guint glib_interface_age; extern const guint glib_binary_age; /* Forward declarations of glib types. */ typedef struct _GArray GArray; typedef struct _GByteArray GByteArray; typedef struct _GCache GCache; typedef struct _GCompletion GCompletion; typedef struct _GData GData; typedef struct _GDebugKey GDebugKey; typedef struct _GHashTable GHashTable; typedef struct _GHook GHook; typedef struct _GHookList GHookList; typedef struct _GList GList; typedef struct _GListAllocator GListAllocator; typedef struct _GMemChunk GMemChunk; typedef struct _GNode GNode; typedef struct _GPtrArray GPtrArray; typedef struct _GRelation GRelation; typedef struct _GScanner GScanner; typedef struct _GScannerConfig GScannerConfig; typedef struct _GSList GSList; typedef struct _GString GString; typedef struct _GStringChunk GStringChunk; typedef struct _GTimer GTimer; typedef struct _GTree GTree; typedef struct _GTuples GTuples; typedef union _GTokenValue GTokenValue; typedef enum { G_TRAVERSE_LEAFS = 1 << 0, G_TRAVERSE_NON_LEAFS = 1 << 1, G_TRAVERSE_ALL = G_TRAVERSE_LEAFS | G_TRAVERSE_NON_LEAFS, G_TRAVERSE_MASK = 0x03 } GTraverseFlags; typedef enum { G_IN_ORDER, G_PRE_ORDER, G_POST_ORDER, G_LEVEL_ORDER } GTraverseType; /* Log level shift offset for user defined * log levels (0-7 are used by GLib). */ #define G_LOG_LEVEL_USER_SHIFT (8) /* Glib log levels and flags. */ typedef enum { /* log flags */ G_LOG_FLAG_RECURSION = 1 << 0, G_LOG_FLAG_FATAL = 1 << 1, /* GLib log levels */ G_LOG_LEVEL_ERROR = 1 << 2, /* always fatal */ G_LOG_LEVEL_CRITICAL = 1 << 3, G_LOG_LEVEL_WARNING = 1 << 4, G_LOG_LEVEL_MESSAGE = 1 << 5, G_LOG_LEVEL_INFO = 1 << 6, G_LOG_LEVEL_DEBUG = 1 << 7, G_LOG_LEVEL_MASK = ~(G_LOG_FLAG_RECURSION | G_LOG_FLAG_FATAL) } GLogLevelFlags; /* GLib log levels that are considered fatal by default */ #define G_LOG_FATAL_MASK (G_LOG_FLAG_RECURSION | G_LOG_LEVEL_ERROR) typedef gpointer (*GCacheNewFunc) (gpointer key); typedef gpointer (*GCacheDupFunc) (gpointer value); typedef void (*GCacheDestroyFunc) (gpointer value); typedef gint (*GCompareFunc) (gconstpointer a, gconstpointer b); typedef gchar* (*GCompletionFunc) (gpointer); typedef void (*GDestroyNotify) (gpointer data); typedef void (*GDataForeachFunc) (GQuark key_id, gpointer data, gpointer user_data); typedef void (*GFunc) (gpointer data, gpointer user_data); typedef guint (*GHashFunc) (gconstpointer key); typedef void (*GHFunc) (gpointer key, gpointer value, gpointer user_data); typedef gboolean (*GHRFunc) (gpointer key, gpointer value, gpointer user_data); typedef gint (*GHookCompareFunc) (GHook *new_hook, GHook *sibling); typedef gboolean (*GHookFindFunc) (GHook *hook, gpointer data); typedef void (*GHookMarshaller) (GHook *hook, gpointer data); typedef void (*GHookFunc) (gpointer data); typedef gboolean (*GHookCheckFunc) (gpointer data); typedef void (*GLogFunc) (const gchar *log_domain, GLogLevelFlags log_level, const gchar *message, gpointer user_data); typedef gboolean (*GNodeTraverseFunc) (GNode *node, gpointer data); typedef void (*GNodeForeachFunc) (GNode *node, gpointer data); typedef gint (*GSearchFunc) (gpointer key, gpointer data); typedef void (*GScannerMsgFunc) (GScanner *scanner, gchar *message, gint error); typedef gint (*GTraverseFunc) (gpointer key, gpointer value, gpointer data); typedef void (*GVoidFunc) (void); struct _GList { gpointer data; GList *next; GList *prev; }; struct _GSList { gpointer data; GSList *next; }; struct _GString { gchar *str; gint len; }; struct _GArray { gchar *data; guint len; }; struct _GByteArray { guint8 *data; guint len; }; struct _GPtrArray { gpointer *pdata; guint len; }; struct _GTuples { guint len; }; struct _GDebugKey { gchar *key; guint value; }; struct _GCache { gint dummy; }; struct _GTree { gint dummy; }; struct _GTimer { gint dummy; }; struct _GMemChunk { gint dummy; }; struct _GListAllocator { gint dummy; }; struct _GStringChunk { gint dummy; }; /* Doubly linked lists */ GList* g_list_alloc (void); void g_list_free (GList *list); void g_list_free_1 (GList *list); GList* g_list_append (GList *list, gpointer data); GList* g_list_prepend (GList *list, gpointer data); GList* g_list_insert (GList *list, gpointer data, gint position); GList* g_list_insert_sorted (GList *list, gpointer data, GCompareFunc func); GList* g_list_concat (GList *list1, GList *list2); GList* g_list_remove (GList *list, gpointer data); GList* g_list_remove_link (GList *list, GList *llink); GList* g_list_reverse (GList *list); GList* g_list_nth (GList *list, guint n); GList* g_list_find (GList *list, gpointer data); GList* g_list_find_custom (GList *list, gpointer data, GCompareFunc func); gint g_list_position (GList *list, GList *llink); gint g_list_index (GList *list, gpointer data); GList* g_list_last (GList *list); GList* g_list_first (GList *list); guint g_list_length (GList *list); void g_list_foreach (GList *list, GFunc func, gpointer user_data); gpointer g_list_nth_data (GList *list, guint n); #define g_list_previous(list) ((list) ? (((GList *)(list))->prev) : NULL) #define g_list_next(list) ((list) ? (((GList *)(list))->next) : NULL) /* Singly linked lists */ GSList* g_slist_alloc (void); void g_slist_free (GSList *list); void g_slist_free_1 (GSList *list); GSList* g_slist_append (GSList *list, gpointer data); GSList* g_slist_prepend (GSList *list, gpointer data); GSList* g_slist_insert (GSList *list, gpointer data, gint position); GSList* g_slist_insert_sorted (GSList *list, gpointer data, GCompareFunc func); GSList* g_slist_concat (GSList *list1, GSList *list2); GSList* g_slist_remove (GSList *list, gpointer data); GSList* g_slist_remove_link (GSList *list, GSList *llink); GSList* g_slist_reverse (GSList *list); GSList* g_slist_nth (GSList *list, guint n); GSList* g_slist_find (GSList *list, gpointer data); GSList* g_slist_find_custom (GSList *list, gpointer data, GCompareFunc func); gint g_slist_position (GSList *list, GSList *llink); gint g_slist_index (GSList *list, gpointer data); GSList* g_slist_last (GSList *list); guint g_slist_length (GSList *list); void g_slist_foreach (GSList *list, GFunc func, gpointer user_data); gpointer g_slist_nth_data (GSList *list, guint n); #define g_slist_next(slist) ((slist) ? (((GSList *)(slist))->next) : NULL) /* List Allocators */ GListAllocator* g_list_allocator_new (void); void g_list_allocator_free (GListAllocator* allocator); GListAllocator* g_slist_set_allocator (GListAllocator* allocator); GListAllocator* g_list_set_allocator (GListAllocator* allocator); /* Hash tables */ GHashTable* g_hash_table_new (GHashFunc hash_func, GCompareFunc key_compare_func); void g_hash_table_destroy (GHashTable *hash_table); void g_hash_table_insert (GHashTable *hash_table, gpointer key, gpointer value); void g_hash_table_remove (GHashTable *hash_table, gconstpointer key); gpointer g_hash_table_lookup (GHashTable *hash_table, gconstpointer key); gboolean g_hash_table_lookup_extended(GHashTable *hash_table, gconstpointer lookup_key, gpointer *orig_key, gpointer *value); void g_hash_table_freeze (GHashTable *hash_table); void g_hash_table_thaw (GHashTable *hash_table); void g_hash_table_foreach (GHashTable *hash_table, GHFunc func, gpointer user_data); gint g_hash_table_foreach_remove (GHashTable *hash_table, GHRFunc func, gpointer user_data); gint g_hash_table_size (GHashTable *hash_table); /* Caches */ GCache* g_cache_new (GCacheNewFunc value_new_func, GCacheDestroyFunc value_destroy_func, GCacheDupFunc key_dup_func, GCacheDestroyFunc key_destroy_func, GHashFunc hash_key_func, GHashFunc hash_value_func, GCompareFunc key_compare_func); void g_cache_destroy (GCache *cache); gpointer g_cache_insert (GCache *cache, gpointer key); void g_cache_remove (GCache *cache, gpointer value); void g_cache_key_foreach (GCache *cache, GHFunc func, gpointer user_data); void g_cache_value_foreach (GCache *cache, GHFunc func, gpointer user_data); /* Balanced binary trees */ GTree* g_tree_new (GCompareFunc key_compare_func); void g_tree_destroy (GTree *tree); void g_tree_insert (GTree *tree, gpointer key, gpointer value); void g_tree_remove (GTree *tree, gpointer key); gpointer g_tree_lookup (GTree *tree, gpointer key); void g_tree_traverse (GTree *tree, GTraverseFunc traverse_func, GTraverseType traverse_type, gpointer data); gpointer g_tree_search (GTree *tree, GSearchFunc search_func, gpointer data); gint g_tree_height (GTree *tree); gint g_tree_nnodes (GTree *tree); /* N-way tree implementation */ struct _GNode { gpointer data; GNode *next; GNode *prev; GNode *parent; GNode *children; }; #define G_NODE_IS_ROOT(node) (((GNode*) (node))->parent == NULL && \ ((GNode*) (node))->prev == NULL && \ ((GNode*) (node))->next == NULL) #define G_NODE_IS_LEAF(node) (((GNode*) (node))->children == NULL) GNode* g_node_new (gpointer data); void g_node_destroy (GNode *root); void g_node_unlink (GNode *node); GNode* g_node_insert (GNode *parent, gint position, GNode *node); GNode* g_node_insert_before (GNode *parent, GNode *sibling, GNode *node); GNode* g_node_prepend (GNode *parent, GNode *node); guint g_node_n_nodes (GNode *root, GTraverseFlags flags); GNode* g_node_get_root (GNode *node); gboolean g_node_is_ancestor (GNode *node, GNode *descendant); guint g_node_depth (GNode *node); GNode* g_node_find (GNode *root, GTraverseType order, GTraverseFlags flags, gpointer data); /* convenience macros */ #define g_node_append(parent, node) \ g_node_insert_before ((parent), NULL, (node)) #define g_node_insert_data(parent, position, data) \ g_node_insert ((parent), (position), g_node_new (data)) #define g_node_insert_data_before(parent, sibling, data) \ g_node_insert_before ((parent), (sibling), g_node_new (data)) #define g_node_prepend_data(parent, data) \ g_node_prepend ((parent), g_node_new (data)) #define g_node_append_data(parent, data) \ g_node_insert_before ((parent), NULL, g_node_new (data)) /* traversal function, assumes that `node' is root * (only traverses `node' and its subtree). * this function is just a high level interface to * low level traversal functions, optimized for speed. */ void g_node_traverse (GNode *root, GTraverseType order, GTraverseFlags flags, gint max_depth, GNodeTraverseFunc func, gpointer data); /* return the maximum tree height starting with `node', this is an expensive * operation, since we need to visit all nodes. this could be shortened by * adding `guint height' to struct _GNode, but then again, this is not very * often needed, and would make g_node_insert() more time consuming. */ guint g_node_max_height (GNode *root); void g_node_children_foreach (GNode *node, GTraverseFlags flags, GNodeForeachFunc func, gpointer data); void g_node_reverse_children (GNode *node); guint g_node_n_children (GNode *node); GNode* g_node_nth_child (GNode *node, guint n); GNode* g_node_last_child (GNode *node); GNode* g_node_find_child (GNode *node, GTraverseFlags flags, gpointer data); gint g_node_child_position (GNode *node, GNode *child); gint g_node_child_index (GNode *node, gpointer data); GNode* g_node_first_sibling (GNode *node); GNode* g_node_last_sibling (GNode *node); #define g_node_prev_sibling(node) ((node) ? \ ((GNode*) (node))->prev : NULL) #define g_node_next_sibling(node) ((node) ? \ ((GNode*) (node))->next : NULL) #define g_node_first_child(node) ((node) ? \ ((GNode*) (node))->children : NULL) /* Callback maintenance functions */ #define G_HOOK_FLAG_USER_SHIFT (4) typedef enum { G_HOOK_FLAG_ACTIVE = 1 << 0, G_HOOK_FLAG_IN_CALL = 1 << 1, G_HOOK_FLAG_MASK = 0x0f } GHookFlagMask; struct _GHookList { guint seq_id; guint hook_size; guint is_setup : 1; GHook *hooks; GMemChunk *hook_memchunk; }; struct _GHook { gpointer data; GHook *next; GHook *prev; guint ref_count; guint hook_id; guint flags; gpointer func; GDestroyNotify destroy; }; #define G_HOOK_ACTIVE(hook) ((((GHook*) hook)->flags & \ G_HOOK_FLAG_ACTIVE) != 0) #define G_HOOK_IN_CALL(hook) ((((GHook*) hook)->flags & \ G_HOOK_FLAG_IN_CALL) != 0) #define G_HOOK_IS_VALID(hook) (((GHook*) hook)->hook_id != 0 && \ G_HOOK_ACTIVE (hook)) #define G_HOOK_IS_UNLINKED(hook) (((GHook*) hook)->next == NULL && \ ((GHook*) hook)->prev == NULL && \ ((GHook*) hook)->hook_id == 0 && \ ((GHook*) hook)->ref_count == 0) void g_hook_list_init (GHookList *hook_list, guint hook_size); void g_hook_list_clear (GHookList *hook_list); GHook* g_hook_alloc (GHookList *hook_list); void g_hook_free (GHookList *hook_list, GHook *hook); void g_hook_ref (GHookList *hook_list, GHook *hook); void g_hook_unref (GHookList *hook_list, GHook *hook); gboolean g_hook_destroy (GHookList *hook_list, guint hook_id); void g_hook_destroy_link (GHookList *hook_list, GHook *hook); void g_hook_prepend (GHookList *hook_list, GHook *hook); void g_hook_insert_before (GHookList *hook_list, GHook *sibling, GHook *hook); void g_hook_insert_sorted (GHookList *hook_list, GHook *hook, GHookCompareFunc func); GHook* g_hook_get (GHookList *hook_list, guint hook_id); GHook* g_hook_find (GHookList *hook_list, gboolean need_valids, GHookFindFunc func, gpointer data); GHook* g_hook_find_data (GHookList *hook_list, gboolean need_valids, gpointer data); GHook* g_hook_find_func (GHookList *hook_list, gboolean need_valids, gpointer func); GHook* g_hook_find_func_data (GHookList *hook_list, gboolean need_valids, gpointer func, gpointer data); GHook* g_hook_first_valid (GHookList *hook_list, gboolean may_be_in_call); GHook* g_hook_next_valid (GHook *hook, gboolean may_be_in_call); /* GHookCompareFunc implementation to insert hooks sorted by their id */ gint g_hook_compare_ids (GHook *new_hook, GHook *sibling); /* convenience macros */ #define g_hook_append( hook_list, hook ) \ g_hook_insert_before ((hook_list), NULL, (hook)) /* invoke all valid hooks with the (*GHookFunc) signature. */ void g_hook_list_invoke (GHookList *hook_list, gboolean may_recurse); /* invoke all valid hooks with the (*GHookCheckFunc) signature, * and destroy the hook if FALSE is returned. */ void g_hook_list_invoke_check (GHookList *hook_list, gboolean may_recurse); /* invoke a marshaller on all valid hooks. */ void g_hook_list_marshal (GHookList *hook_list, gboolean may_recurse, GHookMarshaller marshaller, gpointer data); /* Fatal error handlers. * g_on_error_query() will prompt the user to either * [E]xit, [H]alt, [P]roceed or show [S]tack trace. * g_on_error_stack_trace() invokes gdb, which attaches to the current * process and shows a stack trace. * These function may cause different actions on non-unix platforms. * The prg_name arg is required by gdb to find the executable, if it is * passed as NULL, g_on_error_query() will try g_get_prgname(). */ void g_on_error_query (const gchar *prg_name); void g_on_error_stack_trace (const gchar *prg_name); /* Logging mechanism */ extern const gchar *g_log_domain_glib; guint g_log_set_handler (const gchar *log_domain, GLogLevelFlags log_levels, GLogFunc log_func, gpointer user_data); void g_log_remove_handler (const gchar *log_domain, guint handler_id); void g_log_default_handler (const gchar *log_domain, GLogLevelFlags log_level, const gchar *message, gpointer unused_data); void g_log (const gchar *log_domain, GLogLevelFlags log_level, const gchar *format, ...) G_GNUC_PRINTF (3, 4); void g_logv (const gchar *log_domain, GLogLevelFlags log_level, const gchar *format, va_list args); GLogLevelFlags g_log_set_fatal_mask (const gchar *log_domain, GLogLevelFlags fatal_mask); GLogLevelFlags g_log_set_always_fatal (GLogLevelFlags fatal_mask); #ifndef G_LOG_DOMAIN #define G_LOG_DOMAIN (NULL) #endif /* G_LOG_DOMAIN */ #ifdef __GNUC__ #define g_error(format, args...) g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_ERROR, \ format, ##args) #define g_message(format, args...) g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_MESSAGE, \ format, ##args) #define g_warning(format, args...) g_log (G_LOG_DOMAIN, \ G_LOG_LEVEL_WARNING, \ format, ##args) #else /* !__GNUC__ */ static inline void g_error (const gchar *format, ...) { va_list args; va_start (args, format); g_logv (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, format, args); va_end (args); } static inline void g_message (const gchar *format, ...) { va_list args; va_start (args, format); g_logv (G_LOG_DOMAIN, G_LOG_LEVEL_MESSAGE, format, args); va_end (args); } static inline void g_warning (const gchar *format, ...) { va_list args; va_start (args, format); g_logv (G_LOG_DOMAIN, G_LOG_LEVEL_WARNING, format, args); va_end (args); } #endif /* !__GNUC__ */ typedef void (*GPrintFunc) (const gchar *string); void g_print (const gchar *format, ...) G_GNUC_PRINTF (1, 2); GPrintFunc g_set_print_handler (GPrintFunc func); void g_printerr (const gchar *format, ...) G_GNUC_PRINTF (1, 2); GPrintFunc g_set_printerr_handler (GPrintFunc func); /* deprecated compatibility functions, use g_log_set_handler() instead */ typedef void (*GErrorFunc) (const gchar *str); typedef void (*GWarningFunc) (const gchar *str); GErrorFunc g_set_error_handler (GErrorFunc func); GWarningFunc g_set_warning_handler (GWarningFunc func); GPrintFunc g_set_message_handler (GPrintFunc func); /* Memory allocation and debugging */ #ifdef USE_DMALLOC #define g_malloc(size) ((gpointer) MALLOC (size)) #define g_malloc0(size) ((gpointer) CALLOC (char, size)) #define g_realloc(mem,size) ((gpointer) REALLOC (mem, char, size)) #define g_free(mem) FREE (mem) #else /* !USE_DMALLOC */ gpointer g_malloc (gulong size); gpointer g_malloc0 (gulong size); gpointer g_realloc (gpointer mem, gulong size); void g_free (gpointer mem); #endif /* !USE_DMALLOC */ void g_mem_profile (void); void g_mem_check (gpointer mem); /* "g_mem_chunk_new" creates a new memory chunk. * Memory chunks are used to allocate pieces of memory which are * always the same size. Lists are a good example of such a data type. * The memory chunk allocates and frees blocks of memory as needed. * Just be sure to call "g_mem_chunk_free" and not "g_free" on data * allocated in a mem chunk. ("g_free" will most likely cause a seg * fault...somewhere). * * Oh yeah, GMemChunk is an opaque data type. (You don't really * want to know what's going on inside do you?) */ /* ALLOC_ONLY MemChunk's can only allocate memory. The free operation * is interpreted as a no op. ALLOC_ONLY MemChunk's save 4 bytes per * atom. (They are also useful for lists which use MemChunk to allocate * memory but are also part of the MemChunk implementation). * ALLOC_AND_FREE MemChunk's can allocate and free memory. */ #define G_ALLOC_ONLY 1 #define G_ALLOC_AND_FREE 2 GMemChunk* g_mem_chunk_new (gchar *name, gint atom_size, gulong area_size, gint type); void g_mem_chunk_destroy (GMemChunk *mem_chunk); gpointer g_mem_chunk_alloc (GMemChunk *mem_chunk); gpointer g_mem_chunk_alloc0 (GMemChunk *mem_chunk); void g_mem_chunk_free (GMemChunk *mem_chunk, gpointer mem); void g_mem_chunk_clean (GMemChunk *mem_chunk); void g_mem_chunk_reset (GMemChunk *mem_chunk); void g_mem_chunk_print (GMemChunk *mem_chunk); void g_mem_chunk_info (void); /* Ah yes...we have a "g_blow_chunks" function. * "g_blow_chunks" simply compresses all the chunks. This operation * consists of freeing every memory area that should be freed (but * which we haven't gotten around to doing yet). And, no, * "g_blow_chunks" doesn't follow the naming scheme, but it is a * much better name than "g_mem_chunk_clean_all" or something * similar. */ void g_blow_chunks (void); /* Timer */ GTimer* g_timer_new (void); void g_timer_destroy (GTimer *timer); void g_timer_start (GTimer *timer); void g_timer_stop (GTimer *timer); void g_timer_reset (GTimer *timer); gdouble g_timer_elapsed (GTimer *timer, gulong *microseconds); /* String utility functions that modify a string argument or * return a constant string that must not be freed. */ #define G_STR_DELIMITERS "_-|> <." gchar* g_strdelimit (gchar *string, const gchar *delimiters, gchar new_delimiter); gdouble g_strtod (const gchar *nptr, gchar **endptr); gchar* g_strerror (gint errnum); gchar* g_strsignal (gint signum); gint g_strcasecmp (const gchar *s1, const gchar *s2); void g_strdown (gchar *string); void g_strup (gchar *string); void g_strreverse (gchar *string); gpointer g_memdup (gconstpointer mem, guint byte_size); /* removes leading spaces */ gchar* g_strchug (gchar *string); /* removes trailing spaces */ gchar* g_strchomp (gchar *string); /* removes leading & trailing spaces */ #define g_strstrip( string ) g_strchomp (g_strchug (string)) /* String utility functions that return a newly allocated string which * ought to be freed from the caller at some point. */ gchar* g_strdup (const gchar *str); gchar* g_strdup_printf (const gchar *format, ...) G_GNUC_PRINTF (1, 2); gchar* g_strdup_vprintf (const gchar *format, va_list args); gchar* g_strndup (const gchar *str, guint n); gchar* g_strnfill (guint length, gchar fill_char); gchar* g_strconcat (const gchar *string1, ...); /* NULL terminated */ gchar* g_strjoin (const gchar *separator, ...); /* NULL terminated */ /* NULL terminated string arrays. * g_strsplit() splits up string into max_tokens tokens at delim and * returns a newly allocated string array. * g_strjoinv() concatenates all of str_array's strings, sliding in an * optional separator, the returned string is newly allocated. * g_strfreev() frees the array itself and all of its strings. */ gchar** g_strsplit (const gchar *string, const gchar *delimiter, gint max_tokens); gchar* g_strjoinv (const gchar *separator, gchar **str_array); void g_strfreev (gchar **str_array); /* calculate a string size, guarranteed to fit format + args. */ guint g_printf_string_upper_bound (const gchar* format, va_list args); /* Retrive static string info */ gchar* g_get_user_name (void); gchar* g_get_real_name (void); gchar* g_get_home_dir (void); gchar* g_get_tmp_dir (void); gchar* g_get_prgname (void); void g_set_prgname (const gchar *prgname); /* Miscellaneous utility functions */ guint g_parse_debug_string (const gchar *string, GDebugKey *keys, guint nkeys); gint g_snprintf (gchar *string, gulong n, gchar const *format, ...) G_GNUC_PRINTF (3, 4); gint g_vsnprintf (gchar *string, gulong n, gchar const *format, va_list args); gchar* g_basename (const gchar *file_name); /* strings are newly allocated with g_malloc() */ gchar* g_dirname (const gchar *file_name); gchar* g_get_current_dir (void); /* We make the assumption that if memmove isn't available, then * bcopy will do the job. This isn't safe everywhere. (bcopy can't * necessarily handle overlapping copies). * Either way, g_memmove() will not return a value. */ #ifdef HAVE_MEMMOVE #define g_memmove(dest, src, size) G_STMT_START { \ memmove ((dest), (src), (size)); \ } G_STMT_END #else #define g_memmove(dest, src, size) G_STMT_START { \ bcopy ((src), (dest), (size)); \ } G_STMT_END #endif /* we use a GLib function as a replacement for ATEXIT, so * the programmer is not required to check the return value * (if there is any in the implementation) and doesn't encounter * missing include files. */ void g_atexit (GVoidFunc func); /* Bit tests */ G_INLINE_FUNC gint g_bit_nth_lsf (guint32 mask, gint nth_bit); #ifdef G_CAN_INLINE G_INLINE_FUNC gint g_bit_nth_lsf (guint32 mask, gint nth_bit) { do { nth_bit++; if (mask & (1 << (guint) nth_bit)) return nth_bit; } while (nth_bit < 32); return -1; } #endif /* G_CAN_INLINE */ G_INLINE_FUNC gint g_bit_nth_msf (guint32 mask, gint nth_bit); #ifdef G_CAN_INLINE G_INLINE_FUNC gint g_bit_nth_msf (guint32 mask, gint nth_bit) { if (nth_bit < 0) nth_bit = 33; do { nth_bit--; if (mask & (1 << (guint) nth_bit)) return nth_bit; } while (nth_bit > 0); return -1; } #endif /* G_CAN_INLINE */ G_INLINE_FUNC guint g_bit_storage (guint number); #ifdef G_CAN_INLINE G_INLINE_FUNC guint g_bit_storage (guint number) { register guint n_bits = 0; do { n_bits++; number >>= 1; } while (number); return n_bits; } #endif /* G_CAN_INLINE */ /* String Chunks */ GStringChunk* g_string_chunk_new (gint size); void g_string_chunk_free (GStringChunk *chunk); gchar* g_string_chunk_insert (GStringChunk *chunk, const gchar *string); gchar* g_string_chunk_insert_const (GStringChunk *chunk, const gchar *string); /* Strings */ GString* g_string_new (const gchar *init); GString* g_string_sized_new (guint dfl_size); void g_string_free (GString *string, gint free_segment); GString* g_string_assign (GString *lval, const gchar *rval); GString* g_string_truncate (GString *string, gint len); GString* g_string_append (GString *string, const gchar *val); GString* g_string_append_c (GString *string, gchar c); GString* g_string_prepend (GString *string, const gchar *val); GString* g_string_prepend_c (GString *string, gchar c); GString* g_string_insert (GString *string, gint pos, const gchar *val); GString* g_string_insert_c (GString *string, gint pos, gchar c); GString* g_string_erase (GString *string, gint pos, gint len); GString* g_string_down (GString *string); GString* g_string_up (GString *string); void g_string_sprintf (GString *string, const gchar *format, ...) G_GNUC_PRINTF (2, 3); void g_string_sprintfa (GString *string, const gchar *format, ...) G_GNUC_PRINTF (2, 3); /* Resizable arrays */ #define g_array_append_val(a,v) g_array_append_vals(a,&v,1) #define g_array_prepend_val(a,v) g_array_prepend_vals(a,&v,1) #define g_array_index(a,t,i) (((t*)a->data)[i]) GArray* g_array_new (gboolean zero_terminated, gboolean clear, guint element_size); void g_array_free (GArray *array, gboolean free_segment); GArray* g_array_append_vals (GArray *array, gconstpointer data, guint len); GArray* g_array_prepend_vals (GArray *array, gconstpointer data, guint len); GArray* g_array_set_size (GArray *array, guint length); /* Resizable pointer array. This interface is much less complicated * than the above. Add appends appends a pointer. Remove fills any * cleared spot and shortens the array. */ #define g_ptr_array_index(array,index) (array->pdata)[index] GPtrArray* g_ptr_array_new (void); void g_ptr_array_free (GPtrArray *array, gboolean free_seg); void g_ptr_array_set_size (GPtrArray *array, gint length); gpointer g_ptr_array_remove_index (GPtrArray *array, gint index); gboolean g_ptr_array_remove (GPtrArray *array, gpointer data); void g_ptr_array_add (GPtrArray *array, gpointer data); /* Byte arrays, an array of guint8. Implemented as a GArray, * but type-safe. */ GByteArray* g_byte_array_new (void); void g_byte_array_free (GByteArray *array, gboolean free_segment); GByteArray* g_byte_array_append (GByteArray *array, const guint8 *data, guint len); GByteArray* g_byte_array_prepend (GByteArray *array, const guint8 *data, guint len); GByteArray* g_byte_array_set_size (GByteArray *array, guint length); /* Hash Functions */ gint g_str_equal (gconstpointer v, gconstpointer v2); guint g_str_hash (gconstpointer v); gint g_int_equal (gconstpointer v, gconstpointer v2); guint g_int_hash (gconstpointer v); /* This "hash" function will just return the key's adress as an * unsigned integer. Useful for hashing on plain adresses or * simple integer values. */ guint g_direct_hash (gconstpointer v); gint g_direct_equal (gconstpointer v, gconstpointer v2); /* Quarks (string<->id association) */ GQuark g_quark_try_string (const gchar *string); GQuark g_quark_from_static_string (const gchar *string); GQuark g_quark_from_string (const gchar *string); gchar* g_quark_to_string (GQuark quark); /* Keyed Data List */ void g_datalist_init (GData **datalist); void g_datalist_clear (GData **datalist); gpointer g_datalist_id_get_data (GData **datalist, GQuark key_id); void g_datalist_id_set_data_full (GData **datalist, GQuark key_id, gpointer data, GDestroyNotify destroy_func); void g_datalist_id_remove_no_notify (GData **datalist, GQuark key_id); void g_datalist_foreach (GData **datalist, GDataForeachFunc func, gpointer user_data); #define g_datalist_id_set_data(dl, q, d) \ g_datalist_id_set_data_full ((dl), (q), (d), NULL) #define g_datalist_id_remove_data(dl, q) \ g_datalist_id_set_data ((dl), (q), NULL) #define g_datalist_get_data(dl, k) \ (g_datalist_id_get_data ((dl), g_quark_try_string (k))) #define g_datalist_set_data_full(dl, k, d, f) \ g_datalist_id_set_data_full ((dl), g_quark_from_string (k), (d), (f)) #define g_datalist_remove_no_notify(dl, k) \ g_datalist_id_remove_no_notify ((dl), g_quark_try_string (k)) #define g_datalist_set_data(dl, k, d) \ g_datalist_set_data_full ((dl), (k), (d), NULL) #define g_datalist_remove_data(dl, k) \ g_datalist_id_set_data ((dl), g_quark_try_string (k), NULL) /* Location Associated Keyed Data */ void g_dataset_destroy (gconstpointer dataset_location); gpointer g_dataset_id_get_data (gconstpointer dataset_location, GQuark key_id); void g_dataset_id_set_data_full (gconstpointer dataset_location, GQuark key_id, gpointer data, GDestroyNotify destroy_func); void g_dataset_id_remove_no_notify (gconstpointer dataset_location, GQuark key_id); void g_dataset_foreach (gconstpointer dataset_location, GDataForeachFunc func, gpointer user_data); #define g_dataset_id_set_data(l, k, d) \ g_dataset_id_set_data_full ((l), (k), (d), NULL) #define g_dataset_id_remove_data(l, k) \ g_dataset_id_set_data ((l), (k), NULL) #define g_dataset_get_data(l, k) \ (g_dataset_id_get_data ((l), g_quark_try_string (k))) #define g_dataset_set_data_full(l, k, d, f) \ g_dataset_id_set_data_full ((l), g_quark_from_string (k), (d), (f)) #define g_dataset_remove_no_notify(l, k) \ g_dataset_id_remove_no_notify ((l), g_quark_try_string (k)) #define g_dataset_set_data(l, k, d) \ g_dataset_set_data_full ((l), (k), (d), NULL) #define g_dataset_remove_data(l, k) \ g_dataset_id_set_data ((l), g_quark_try_string (k), NULL) /* GScanner: Flexible lexical scanner for general purpose. */ /* Character sets */ #define G_CSET_A_2_Z "ABCDEFGHIJKLMNOPQRSTUVWXYZ" #define G_CSET_a_2_z "abcdefghijklmnopqrstuvwxyz" #define G_CSET_LATINC "\300\301\302\303\304\305\306"\ "\307\310\311\312\313\314\315\316\317\320"\ "\321\322\323\324\325\326"\ "\330\331\332\333\334\335\336" #define G_CSET_LATINS "\337\340\341\342\343\344\345\346"\ "\347\350\351\352\353\354\355\356\357\360"\ "\361\362\363\364\365\366"\ "\370\371\372\373\374\375\376\377" /* Error types */ typedef enum { G_ERR_UNKNOWN, G_ERR_UNEXP_EOF, G_ERR_UNEXP_EOF_IN_STRING, G_ERR_UNEXP_EOF_IN_COMMENT, G_ERR_NON_DIGIT_IN_CONST, G_ERR_DIGIT_RADIX, G_ERR_FLOAT_RADIX, G_ERR_FLOAT_MALFORMED } GErrorType; /* Token types */ typedef enum { G_TOKEN_EOF = 0, G_TOKEN_LEFT_PAREN = '(', G_TOKEN_RIGHT_PAREN = ')', G_TOKEN_LEFT_CURLY = '{', G_TOKEN_RIGHT_CURLY = '}', G_TOKEN_LEFT_BRACE = '[', G_TOKEN_RIGHT_BRACE = ']', G_TOKEN_EQUAL_SIGN = '=', G_TOKEN_COMMA = ',', G_TOKEN_NONE = 256, G_TOKEN_ERROR, G_TOKEN_CHAR, G_TOKEN_BINARY, G_TOKEN_OCTAL, G_TOKEN_INT, G_TOKEN_HEX, G_TOKEN_FLOAT, G_TOKEN_STRING, G_TOKEN_SYMBOL, G_TOKEN_IDENTIFIER, G_TOKEN_IDENTIFIER_NULL, G_TOKEN_COMMENT_SINGLE, G_TOKEN_COMMENT_MULTI, G_TOKEN_LAST } GTokenType; union _GTokenValue { gpointer v_symbol; gchar *v_identifier; gulong v_binary; gulong v_octal; gulong v_int; gdouble v_float; gulong v_hex; gchar *v_string; gchar *v_comment; guchar v_char; guint v_error; }; struct _GScannerConfig { /* Character sets */ gchar *cset_skip_characters; /* default: " \t\n" */ gchar *cset_identifier_first; gchar *cset_identifier_nth; gchar *cpair_comment_single; /* default: "#\n" */ /* Should symbol lookup work case sensitive? */ guint case_sensitive : 1; /* Boolean values to be adjusted "on the fly" * to configure scanning behaviour. */ guint skip_comment_multi : 1; /* C like comment */ guint skip_comment_single : 1; /* single line comment */ guint scan_comment_multi : 1; /* scan multi line comments? */ guint scan_identifier : 1; guint scan_identifier_1char : 1; guint scan_identifier_NULL : 1; guint scan_symbols : 1; guint scan_binary : 1; guint scan_octal : 1; guint scan_float : 1; guint scan_hex : 1; /* `0x0ff0' */ guint scan_hex_dollar : 1; /* `$0ff0' */ guint scan_string_sq : 1; /* string: 'anything' */ guint scan_string_dq : 1; /* string: "\\-escapes!\n" */ guint numbers_2_int : 1; /* bin, octal, hex => int */ guint int_2_float : 1; /* int => G_TOKEN_FLOAT? */ guint identifier_2_string : 1; guint char_2_token : 1; /* return G_TOKEN_CHAR? */ guint symbol_2_token : 1; guint scope_0_fallback : 1; /* try scope 0 on lookups? */ }; struct _GScanner { /* unused fields */ gpointer user_data; guint max_parse_errors; /* g_scanner_error() increments this field */ guint parse_errors; /* name of input stream, featured by the default message handler */ const gchar *input_name; /* data pointer for derived structures */ gpointer derived_data; /* link into the scanner configuration */ GScannerConfig *config; /* fields filled in after g_scanner_get_next_token() */ GTokenType token; GTokenValue value; guint line; guint position; /* fields filled in after g_scanner_peek_next_token() */ GTokenType next_token; GTokenValue next_value; guint next_line; guint next_position; /* to be considered private */ GHashTable *symbol_table; gint input_fd; const gchar *text; const gchar *text_end; gchar *buffer; guint scope_id; /* handler function for _warn and _error */ GScannerMsgFunc msg_handler; }; GScanner* g_scanner_new (GScannerConfig *config_templ); void g_scanner_destroy (GScanner *scanner); void g_scanner_input_file (GScanner *scanner, gint input_fd); void g_scanner_input_text (GScanner *scanner, const gchar *text, guint text_len); GTokenType g_scanner_get_next_token (GScanner *scanner); GTokenType g_scanner_peek_next_token (GScanner *scanner); GTokenType g_scanner_cur_token (GScanner *scanner); GTokenValue g_scanner_cur_value (GScanner *scanner); guint g_scanner_cur_line (GScanner *scanner); guint g_scanner_cur_position (GScanner *scanner); gboolean g_scanner_eof (GScanner *scanner); guint g_scanner_set_scope (GScanner *scanner, guint scope_id); void g_scanner_scope_add_symbol (GScanner *scanner, guint scope_id, const gchar *symbol, gpointer value); void g_scanner_scope_remove_symbol (GScanner *scanner, guint scope_id, const gchar *symbol); gpointer g_scanner_scope_lookup_symbol (GScanner *scanner, guint scope_id, const gchar *symbol); void g_scanner_scope_foreach_symbol (GScanner *scanner, guint scope_id, GHFunc func, gpointer func_data); gpointer g_scanner_lookup_symbol (GScanner *scanner, const gchar *symbol); void g_scanner_freeze_symbol_table (GScanner *scanner); void g_scanner_thaw_symbol_table (GScanner *scanner); void g_scanner_unexp_token (GScanner *scanner, GTokenType expected_token, const gchar *identifier_spec, const gchar *symbol_spec, const gchar *symbol_name, const gchar *message, gint is_error); void g_scanner_error (GScanner *scanner, const gchar *format, ...) G_GNUC_PRINTF (2,3); void g_scanner_warn (GScanner *scanner, const gchar *format, ...) G_GNUC_PRINTF (2,3); gint g_scanner_stat_mode (const gchar *filename); /* keep downward source compatibility */ #define g_scanner_add_symbol( scanner, symbol, value ) G_STMT_START { \ g_scanner_scope_add_symbol ((scanner), 0, (symbol), (value)); \ } G_STMT_END #define g_scanner_remove_symbol( scanner, symbol ) G_STMT_START { \ g_scanner_scope_remove_symbol ((scanner), 0, (symbol)); \ } G_STMT_END #define g_scanner_foreach_symbol( scanner, func, data ) G_STMT_START { \ g_scanner_scope_foreach_symbol ((scanner), 0, (func), (data)); \ } G_STMT_END /* Completion */ struct _GCompletion { GList* items; GCompletionFunc func; gchar* prefix; GList* cache; }; GCompletion* g_completion_new (GCompletionFunc func); void g_completion_add_items (GCompletion* cmp, GList* items); void g_completion_remove_items (GCompletion* cmp, GList* items); void g_completion_clear_items (GCompletion* cmp); GList* g_completion_complete (GCompletion* cmp, gchar* prefix, gchar** new_prefix); void g_completion_free (GCompletion* cmp); /* GRelation: Indexed Relations. Imagine a really simple table in a * database. Relations are not ordered. This data type is meant for * maintaining a N-way mapping. * * g_relation_new() creates a relation with FIELDS fields * * g_relation_destroy() frees all resources * g_tuples_destroy() frees the result of g_relation_select() * * g_relation_index() indexes relation FIELD with the provided * equality and hash functions. this must be done before any * calls to insert are made. * * g_relation_insert() inserts a new tuple. you are expected to * provide the right number of fields. * * g_relation_delete() deletes all relations with KEY in FIELD * g_relation_select() returns ... * g_relation_count() counts ... */ GRelation* g_relation_new (gint fields); void g_relation_destroy (GRelation *relation); void g_relation_index (GRelation *relation, gint field, GHashFunc hash_func, GCompareFunc key_compare_func); void g_relation_insert (GRelation *relation, ...); gint g_relation_delete (GRelation *relation, gconstpointer key, gint field); GTuples* g_relation_select (GRelation *relation, gconstpointer key, gint field); gint g_relation_count (GRelation *relation, gconstpointer key, gint field); gboolean g_relation_exists (GRelation *relation, ...); void g_relation_print (GRelation *relation); void g_tuples_destroy (GTuples *tuples); gpointer g_tuples_index (GTuples *tuples, gint index, gint field); /* Prime numbers. */ /* This function returns prime numbers spaced by approximately 1.5-2.0 * and is for use in resizing data structures which prefer * prime-valued sizes. The closest spaced prime function returns the * next largest prime, or the highest it knows about which is about * MAXINT/4. */ guint g_spaced_primes_closest (guint num); /* Glib version. */ extern const guint glib_major_version; extern const guint glib_minor_version; extern const guint glib_micro_version; #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* __G_LIB_H__ */