glib/glib/glib.h
Tim Janik b420fa8418 removed this function which was not publically exported in glib.h. to
Mon Aug 24 02:08:56 1998  Tim Janik  <timj@gtk.org>

        * glib.h:
        * gstring.c:
        * gstrfuncs.c:
        (g_vsprintf): removed this function which was not publically
        exported in glib.h. to export it, it should have been named
        differently in the first place, since its semantics differ from
        vsprintf(). apart from that, it was a possible cause for
        problems since it worked on a previously allocated memory area and
        was used in a lot places of glib. exporting it would have been a
        guararant for problems with threaded programs.
        (g_printf_string_upper_bound): exported this function to return
        a string size, guarranteed to be big enough to hold the fully
        expanded format+args string. added 'q', 'L' and 'll' flag handling.
        in fact, the newly allocated area is in most cases much bigger than
        required.
        (g_strdup_vprintf()): new function returning a newly allocated string
        containing the contents of *format and associated args (size is
        calculated with g_printf_string_upper_bound()).
        (g_strdup_printf): new function which wraps g_strdup_vprintf().

        * configure.in: check for va_copy() or __va_copy() alternatively.
        check whether va_lists can be copyied by value.

        * glib.h: provide a definition for G_VA_COPY.

        * glib.h:
        * gmessages.c:
        (g_logv):
        (g_vsnprintf):
        pass va_lists by value, not by reference, since this causes problems
        on platforms that implement va_list as as arrays. internaly, use
        G_VA_COPY (new_arg, org_arg); va_end (new_arg); to produce a second
        va_list variable, if multiple passes are required. changed all
        callers.

        * glib.h:
        * gerror.h:
        renamed g_debug() to g_on_error_query(), cleaned up a bit.
        renamed g_stack_trace() to g_on_error_stack_trace() since both
        functions cluttered different namespaces.
        there is an appropriate comment in glib.h now that explains the
        unix and gdb specific dependencies of both functions.
        removed g_attach_process().
        g_on_error_stack_trace() should probably be handled with caution,
        i've seem several different linux versions (2.0.x) become unstable
        after invokation of this function.
1998-08-24 05:26:53 +00:00

1706 lines
47 KiB
C

/* 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 <glibconfig.h>
/* support standard arg inline functions for assertment macros
*/
#include <stdarg.h>
/* 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
*/
#ifdef HAVE_FLOAT_H
#include <float.h>
#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 <values.h>
#define G_MINFLOAT MINFLOAT
#define G_MAXFLOAT MAXFLOAT
#define G_MINDOUBLE MINDOUBLE
#define G_MAXDOUBLE MAXDOUBLE
#endif /* HAVE_VALUES_H */
#ifdef HAVE_LIMITS_H
#include <limits.h>
#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 <values.h>
#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 */
/* 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 */
/* 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
/* ANSI does not permit the keyword `inline'.
*/
#if defined (__STRICT_ANSI__)
# undef inline
# ifdef __GNUC__
# define inline __inline__
# else /* !__GNUC__ */
# define inline /* don't inline */
# endif /* !__GNUC__ */
#endif /* __STRICT_ANSI__ */
/* 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))
#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
#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__ */
/* Hacker macro to place breakpoints for x86 machines.
* Actual use is strongly deprecated of course ;)
*/
#if defined (__i386__)
#define G_BREAKPOINT() G_STMT_START{ __asm__ ("int $03"); }G_STMT_END
#else /* !__i386__ */
#define G_BREAKPOINT()
#endif /* __i386__ */
#ifndef ATEXIT
# ifdef HAVE_ATEXIT
# define ATEXIT(proc) (atexit (proc))
# elif defined (HAVE_ON_EXIT)
# define ATEXIT(proc) (on_exit ((void (*)(int, void *))(proc), NULL))
# endif
#endif /* ATEXIT */
/* 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))
#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)))
#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 *) memset (g_mem_chunk_alloc (chunk), 0, sizeof (type)) \
)
#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 */
#ifdef __cplusplus
/* the #pragma } statment is used to fix up emacs' c-mode which gets
* confused by extern "C" {. the ansi standard says that compilers
* have to ignore #pragma directives that they don't know about,
* so we should be save in using this.
*/
extern "C" {
#pragma }
#endif /* __cplusplus */
/* 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 _GList GList;
typedef struct _GSList GSList;
typedef struct _GHashTable GHashTable;
typedef struct _GCache GCache;
typedef struct _GTree GTree;
typedef struct _GTimer GTimer;
typedef struct _GMemChunk GMemChunk;
typedef struct _GListAllocator GListAllocator;
typedef struct _GStringChunk GStringChunk;
typedef struct _GString GString;
typedef struct _GArray GArray;
typedef struct _GPtrArray GPtrArray;
typedef struct _GByteArray GByteArray;
typedef struct _GDebugKey GDebugKey;
typedef struct _GScannerConfig GScannerConfig;
typedef struct _GScanner GScanner;
typedef union _GValue GValue;
typedef struct _GCompletion GCompletion;
typedef struct _GRelation GRelation;
typedef struct _GTuples GTuples;
typedef struct _GNode GNode;
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 (*GFunc) (gpointer data,
gpointer user_data);
typedef guint (*GHashFunc) (gconstpointer key);
typedef void (*GHFunc) (gpointer key,
gpointer value,
gpointer user_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);
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_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)
/* 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);
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
*/
#define G_STR_DELIMITERS "_-|> <."
void g_strdelimit (gchar *string,
const gchar *delimiters,
gchar new_delimiter);
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,
gulong n);
gchar* g_strconcat (const gchar *string1,
...); /* NULL terminated */
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);
/* 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
/* Bit tests
*/
static inline 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;
}
static inline 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;
}
static inline guint
g_bit_storage (guint number)
{
register guint n_bits = 0;
do
{
n_bits++;
number = number >> 1;
} while (number);
return n_bits;
}
/* 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_length(array,type) \
(((array)->len)/sizeof(type))
#define g_array_append_val(array,type,val) \
g_rarray_append (array, (gpointer) &val, sizeof (type))
#define g_array_append_vals(array,type,vals,nvals) \
g_rarray_append (array, (gpointer) vals, sizeof (type) * nvals)
#define g_array_prepend_val(array,type,val) \
g_rarray_prepend (array, (gpointer) &val, sizeof (type))
#define g_array_prepend_vals(array,type,vals,nvals) \
g_rarray_prepend (array, (gpointer) vals, sizeof (type) * nvals)
#define g_array_truncate(array,type,length) \
g_rarray_truncate (array, length, sizeof (type))
#define g_array_index(array,type,index) \
((type*) array->data)[index]
GArray* g_array_new (gboolean zero_terminated);
void g_array_free (GArray *array,
gboolean free_segment);
GArray* g_rarray_append (GArray *array,
gpointer data,
gint size);
GArray* g_rarray_prepend (GArray *array,
gpointer data,
gint size);
GArray* g_rarray_truncate (GArray *array,
gint length,
gint size);
/* 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);
void 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,
gint 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_truncate (GByteArray *array,
gint 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);
/* Location Associated 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_set_destroy (gconstpointer dataset_location,
GQuark key_id,
GDestroyNotify destroy_func);
#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_set_destroy(l, k, f) \
g_dataset_id_set_destroy ((l), g_quark_from_string (k), (f))
#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_set_data ((l), (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 _GValue
{
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;
GValue value;
guint line;
guint position;
/* fields filled in after g_scanner_peek_next_token() */
GTokenType next_token;
GValue next_value;
guint next_line;
guint next_position;
/* to be considered private */
GHashTable *symbol_table;
const gchar *text;
guint text_len;
gint input_fd;
gint peeked_char;
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);
GValue 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);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* __G_LIB_H__ */