fontconfig/src/fcint.h

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/*
* $RCSId: xc/lib/fontconfig/src/fcint.h,v 1.27 2002/08/31 22:17:32 keithp Exp $
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*
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* Copyright © 2000 Keith Packard
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*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of Keith Packard not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. Keith Packard makes no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#ifndef _FCINT_H_
#define _FCINT_H_
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <time.h>
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#include <fontconfig/fontconfig.h>
#include <fontconfig/fcprivate.h>
#include <fontconfig/fcfreetype.h>
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#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#ifndef FC_CONFIG_PATH
#define FC_CONFIG_PATH "fonts.conf"
#endif
#define FC_FONT_FILE_INVALID ((FcChar8 *) ".")
#define FC_FONT_FILE_DIR ((FcChar8 *) ".dir")
#ifdef _WIN32
#define FC_SEARCH_PATH_SEPARATOR ';'
#else
#define FC_SEARCH_PATH_SEPARATOR ':'
#endif
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#define FC_DBG_MATCH 1
#define FC_DBG_MATCHV 2
#define FC_DBG_EDIT 4
#define FC_DBG_FONTSET 8
#define FC_DBG_CACHE 16
#define FC_DBG_CACHEV 32
#define FC_DBG_PARSE 64
#define FC_DBG_SCAN 128
#define FC_DBG_SCANV 256
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#define FC_DBG_MEMORY 512
#define FC_DBG_CONFIG 1024
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#define FC_MEM_CHARSET 0
#define FC_MEM_CHARLEAF 1
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#define FC_MEM_FONTSET 2
#define FC_MEM_FONTPTR 3
#define FC_MEM_OBJECTSET 4
#define FC_MEM_OBJECTPTR 5
#define FC_MEM_MATRIX 6
#define FC_MEM_PATTERN 7
#define FC_MEM_PATELT 8
#define FC_MEM_VALLIST 9
#define FC_MEM_SUBSTATE 10
#define FC_MEM_STRING 11
#define FC_MEM_LISTBUCK 12
#define FC_MEM_STRSET 13
#define FC_MEM_STRLIST 14
#define FC_MEM_CONFIG 15
#define FC_MEM_LANGSET 16
#define FC_MEM_ATOMIC 17
#define FC_MEM_BLANKS 18
#define FC_MEM_CACHE 19
#define FC_MEM_STRBUF 20
#define FC_MEM_SUBST 21
#define FC_MEM_OBJECTTYPE 22
#define FC_MEM_CONSTANT 23
#define FC_MEM_TEST 24
#define FC_MEM_EXPR 25
#define FC_MEM_VSTACK 26
#define FC_MEM_ATTR 27
#define FC_MEM_PSTACK 28
#define FC_MEM_STATICSTR 29
#define FC_MEM_NUM 30
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typedef enum _FcValueBinding {
FcValueBindingWeak, FcValueBindingStrong, FcValueBindingSame
} FcValueBinding;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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typedef struct _FcValueListPtr {
int bank;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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union {
int stat;
struct _FcValueList *dyn;
} u;
} FcValueListPtr;
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typedef struct _FcValueList {
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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FcValueListPtr next;
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FcValue value;
FcValueBinding binding;
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} FcValueList;
typedef int FcObjectPtr;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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typedef struct _FcPatternEltPtr {
int bank;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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union {
int stat;
struct _FcPatternElt *dyn;
} u;
} FcPatternEltPtr;
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typedef struct _FcPatternElt {
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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FcObjectPtr object;
FcValueListPtr values;
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} FcPatternElt;
struct _FcPattern {
int num;
int size;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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FcPatternEltPtr elts;
int ref;
int bank;
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};
typedef enum _FcOp {
FcOpInteger, FcOpDouble, FcOpString, FcOpMatrix, FcOpBool, FcOpCharSet,
FcOpNil,
FcOpField, FcOpConst,
FcOpAssign, FcOpAssignReplace,
FcOpPrependFirst, FcOpPrepend, FcOpAppend, FcOpAppendLast,
FcOpQuest,
FcOpOr, FcOpAnd, FcOpEqual, FcOpNotEqual,
FcOpContains, FcOpListing, FcOpNotContains,
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FcOpLess, FcOpLessEqual, FcOpMore, FcOpMoreEqual,
FcOpPlus, FcOpMinus, FcOpTimes, FcOpDivide,
FcOpNot, FcOpComma, FcOpFloor, FcOpCeil, FcOpRound, FcOpTrunc,
FcOpInvalid
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} FcOp;
typedef struct _FcExpr {
FcOp op;
union {
int ival;
double dval;
FcChar8 *sval;
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FcMatrix *mval;
FcBool bval;
FcCharSet *cval;
char *field;
FcChar8 *constant;
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struct {
struct _FcExpr *left, *right;
} tree;
} u;
} FcExpr;
typedef enum _FcQual {
FcQualAny, FcQualAll, FcQualFirst, FcQualNotFirst
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} FcQual;
#define FcMatchDefault ((FcMatchKind) -1)
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typedef struct _FcTest {
struct _FcTest *next;
FcMatchKind kind;
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FcQual qual;
const char *field;
FcOp op;
FcExpr *expr;
} FcTest;
typedef struct _FcEdit {
struct _FcEdit *next;
const char *field;
FcOp op;
FcExpr *expr;
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FcValueBinding binding;
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} FcEdit;
typedef struct _FcSubst {
struct _FcSubst *next;
FcTest *test;
FcEdit *edit;
} FcSubst;
typedef struct _FcCharLeaf {
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FcChar32 map[256/32];
} FcCharLeaf;
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#define FC_REF_CONSTANT -1
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struct _FcCharSet {
int ref; /* reference count */
int num; /* size of leaves and numbers arrays */
int bank;
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
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union {
struct {
FcCharLeaf **leaves;
FcChar16 *numbers;
} dyn;
struct {
int leafidx_offset;
int numbers_offset;
} stat;
} u;
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};
struct _FcStrSet {
int ref; /* reference count */
int num;
int size;
FcChar8 **strs;
};
struct _FcStrList {
FcStrSet *set;
int n;
};
typedef struct _FcStrBuf {
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FcChar8 *buf;
FcBool allocated;
FcBool failed;
int len;
int size;
} FcStrBuf;
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typedef struct _FcCache {
int magic; /* 0xFC02FC02 */
int count; /* number of bytes of data in block */
int bank; /* bank ID */
int pattern_count; /* number of FcPatterns */
int patternelt_count; /* number of FcPatternElts */
int valuelist_count; /* number of FcValueLists */
int str_count; /* size of strings appearing as FcValues */
int langset_count; /* number of FcLangSets */
int charset_count; /* number of FcCharSets */
int charset_numbers_count;
int charset_leaf_count;
int charset_leaf_idx_count;
} FcCache;
/*
* To map adobe glyph names to unicode values, a precomputed hash
* table is used
*/
typedef struct _FcGlyphName {
FcChar32 ucs; /* unicode value */
FcChar8 name[1]; /* name extends beyond struct */
} FcGlyphName;
/*
* To perform case-insensitive string comparisons, a table
* is used which holds three different kinds of folding data.
*
* The first is a range of upper case values mapping to a range
* of their lower case equivalents. Within each range, the offset
* between upper and lower case is constant.
*
* The second is a range of upper case values which are interleaved
* with their lower case equivalents.
*
* The third is a set of raw unicode values mapping to a list
* of unicode values for comparison purposes. This allows conversion
* of ß to "ss" so that SS, ss and ß all match. A separate array
* holds the list of unicode values for each entry.
*
* These are packed into a single table. Using a binary search,
* the appropriate entry can be located.
*/
#define FC_CASE_FOLD_RANGE 0
#define FC_CASE_FOLD_EVEN_ODD 1
#define FC_CASE_FOLD_FULL 2
typedef struct _FcCaseFold {
FcChar32 upper;
FcChar16 method : 2;
FcChar16 count : 14;
short offset; /* lower - upper for RANGE, table id for FULL */
} FcCaseFold;
#define FC_MAX_FILE_LEN 4096
#define FC_STORAGE_STATIC 0x80
#define fc_value_string(v) (((v)->type & FC_STORAGE_STATIC) ? ((FcChar8 *) v) + (v)->u.s_off : (v) -> u.s)
#define fc_value_charset(v) (((v)->type & FC_STORAGE_STATIC) ? (const FcCharSet *)(((char *) v) + (v)->u.c_off) : (v) -> u.c)
#define fc_value_langset(v) (((v)->type & FC_STORAGE_STATIC) ? (const FcLangSet *)(((char *) v) + (v)->u.l_off) : (v) -> u.l)
/*
* The per-user ~/.fonts.cache-<version> file is loaded into
* this data structure. Each directory gets a substructure
* which is validated by comparing the directory timestamp with
* that saved in the cache. When valid, the entire directory cache
* can be immediately loaded without reading the directory. Otherwise,
* the files are checked individually; updated files are loaded into the
* cache which is then rewritten to the users home directory
*/
#define FC_CACHE_MAGIC 0xFC02FC02
typedef struct _FcGlobalCacheDir FcGlobalCacheDir;
struct _FcGlobalCacheDir {
struct _FcGlobalCacheDir *next;
char *name;
FcCache metadata;
off_t offset;
void *ent;
};
typedef struct _FcGlobalCache {
FcGlobalCacheDir *dirs;
FcBool updated;
int fd;
} FcGlobalCache;
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struct _FcAtomic {
FcChar8 *file; /* original file name */
FcChar8 *new; /* temp file name -- write data here */
FcChar8 *lck; /* lockfile name (used for locking) */
FcChar8 *tmp; /* tmpfile name (used for locking) */
};
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struct _FcBlanks {
int nblank;
int sblank;
FcChar32 *blanks;
};
struct _FcConfig {
/*
* File names loaded from the configuration -- saved here as the
* cache file must be consulted before the directories are scanned,
* and those directives may occur in any order
*/
FcStrSet *configDirs; /* directories to scan for fonts */
FcChar8 *cache; /* name of per-user cache file */
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/*
* Set of allowed blank chars -- used to
* trim fonts of bogus glyphs
*/
FcBlanks *blanks;
/*
* List of directories containing fonts,
* built by recursively scanning the set
* of configured directories
*/
FcStrSet *fontDirs;
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/*
* Names of all of the configuration files used
* to create this configuration
*/
FcStrSet *configFiles; /* config files loaded */
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/*
* Substitution instructions for patterns and fonts;
* maxObjects is used to allocate appropriate intermediate storage
* while performing a whole set of substitutions
*/
FcSubst *substPattern; /* substitutions for patterns */
FcSubst *substFont; /* substitutions for fonts */
int maxObjects; /* maximum number of tests in all substs */
/*
* List of patterns used to control font file selection
*/
FcStrSet *acceptGlobs;
FcStrSet *rejectGlobs;
FcFontSet *acceptPatterns;
FcFontSet *rejectPatterns;
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/*
* The set of fonts loaded from the listed directories; the
* order within the set does not determine the font selection,
* except in the case of identical matches in which case earlier fonts
* match preferrentially
*/
FcFontSet *fonts[FcSetApplication + 1];
/*
* Fontconfig can periodically rescan the system configuration
* and font directories. This rescanning occurs when font
* listing requests are made, but no more often than rescanInterval
* seconds apart.
*/
time_t rescanTime; /* last time information was scanned */
int rescanInterval; /* interval between scans */
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};
extern FcConfig *_fcConfig;
typedef struct _FcCharMap FcCharMap;
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/* fcblanks.c */
/* fccache.c */
FcGlobalCache *
FcGlobalCacheCreate (void);
void
FcGlobalCacheDestroy (FcGlobalCache *cache);
FcBool
FcGlobalCacheReadDir (FcFontSet *set,
FcStrSet *dirs,
FcGlobalCache *cache,
const char *dir,
FcConfig *config);
void
FcGlobalCacheLoad (FcGlobalCache *cache,
FcStrSet *staleDirs,
const FcChar8 *cache_file);
FcBool
FcGlobalCacheUpdate (FcGlobalCache *cache,
const char *file,
FcFontSet *set);
FcBool
FcGlobalCacheSave (FcGlobalCache *cache,
const FcChar8 *cache_file);
FcFontSet *
FcCacheRead (FcConfig *config, FcGlobalCache * cache);
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FcBool
FcDirCacheWrite (FcFontSet *set, FcStrSet * dirs, const FcChar8 *dir);
FcBool
FcDirCacheRead (FcFontSet * set, FcStrSet * dirs, const FcChar8 *dir);
int
FcCacheBankToIndex (int bank);
const char *
FcCacheFindBankDir (int bank);
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/* fccfg.c */
FcBool
FcConfigAddConfigDir (FcConfig *config,
const FcChar8 *d);
FcBool
FcConfigAddFontDir (FcConfig *config,
const FcChar8 *d);
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FcBool
FcConfigAddDir (FcConfig *config,
const FcChar8 *d);
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FcBool
FcConfigAddConfigFile (FcConfig *config,
const FcChar8 *f);
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FcBool
FcConfigSetCache (FcConfig *config,
const FcChar8 *c);
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FcBool
FcConfigAddBlank (FcConfig *config,
FcChar32 blank);
FcBool
FcConfigAddEdit (FcConfig *config,
FcTest *test,
FcEdit *edit,
FcMatchKind kind);
void
FcConfigSetFonts (FcConfig *config,
FcFontSet *fonts,
FcSetName set);
FcBool
FcConfigCompareValue (const FcValue *m,
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FcOp op,
const FcValue *v);
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FcBool
FcConfigGlobAdd (FcConfig *config,
const FcChar8 *glob,
FcBool accept);
FcBool
FcConfigAcceptFilename (FcConfig *config,
const FcChar8 *filename);
FcBool
FcConfigPatternsAdd (FcConfig *config,
FcPattern *pattern,
FcBool accept);
FcBool
FcConfigAcceptFont (FcConfig *config,
const FcPattern *font);
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/* fccharset.c */
FcCharSet *
FcCharSetFreeze (FcCharSet *cs);
void
FcCharSetThawAll (void);
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FcBool
FcNameUnparseCharSet (FcStrBuf *buf, const FcCharSet *c);
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FcCharSet *
FcNameParseCharSet (FcChar8 *string);
FcCharLeaf *
FcCharSetFindLeafCreate (FcCharSet *fcs, FcChar32 ucs4);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void
FcCharSetNewBank (void);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
int
FcCharSetNeededBytes (const FcCharSet *c);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcCharSetDistributeBytes (FcCache * metadata,
void * block_ptr);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcCharSet *
FcCharSetSerialize(int bank, FcCharSet *c);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcCharSetUnserialize (FcCache metadata, void *block_ptr);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcCharLeaf *
FcCharSetGetLeaf(const FcCharSet *c, int i);
FcChar16 *
FcCharSetGetNumbers(const FcCharSet *c);
2002-02-15 00:34:13 +01:00
/* fcdbg.c */
void
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcValueListPrint (const FcValueListPtr l);
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void
FcLangSetPrint (const FcLangSet *ls);
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void
FcOpPrint (FcOp op);
void
FcTestPrint (const FcTest *test);
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void
FcExprPrint (const FcExpr *expr);
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void
FcEditPrint (const FcEdit *edit);
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void
FcSubstPrint (const FcSubst *subst);
2002-02-15 00:34:13 +01:00
int
FcDebug (void);
/* fcdefault.c */
FcChar8 *
FcGetDefaultLang (void);
2002-02-15 00:34:13 +01:00
/* fcdir.c */
FcBool
FcFileIsDir (const FcChar8 *file);
FcBool
FcFileScanConfig (FcFontSet *set,
FcStrSet *dirs,
FcFileCache *cache,
FcBlanks *blanks,
const FcChar8 *file,
FcBool force,
FcConfig *config);
FcBool
FcDirScanConfig (FcFontSet *set,
FcStrSet *dirs,
FcFileCache *cache,
FcBlanks *blanks,
const FcChar8 *dir,
FcBool force,
FcConfig *config);
2002-02-15 00:34:13 +01:00
/* fcfont.c */
int
FcFontDebug (void);
2002-07-07 01:47:44 +02:00
/* fcfreetype.c */
FcBool
FcFreeTypeIsExclusiveLang (const FcChar8 *lang);
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FcBool
FcFreeTypeHasLang (FcPattern *pattern, const FcChar8 *lang);
FcChar32
FcFreeTypeUcs4ToPrivate (FcChar32 ucs4, const FcCharMap *map);
FcChar32
FcFreeTypePrivateToUcs4 (FcChar32 private, const FcCharMap *map);
const FcCharMap *
FcFreeTypeGetPrivateMap (FT_Encoding encoding);
2002-02-15 00:34:13 +01:00
/* fcfs.c */
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void
FcFontSetNewBank (void);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
int
FcFontSetNeededBytes (FcFontSet *s);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcFontSetDistributeBytes (FcCache * metadata, void * block_ptr);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcBool
FcFontSetSerialize (int bank, FcFontSet * s);
FcBool
FcFontSetUnserialize(FcCache metadata, FcFontSet * s, void * block_ptr);
2002-02-15 00:34:13 +01:00
/* fcgram.y */
int
FcConfigparse (void);
int
FcConfigwrap (void);
void
FcConfigerror (char *fmt, ...);
char *
FcConfigSaveField (const char *field);
void
FcTestDestroy (FcTest *test);
FcExpr *
FcExprCreateInteger (int i);
FcExpr *
FcExprCreateDouble (double d);
FcExpr *
FcExprCreateString (const FcChar8 *s);
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FcExpr *
FcExprCreateMatrix (const FcMatrix *m);
FcExpr *
FcExprCreateBool (FcBool b);
FcExpr *
FcExprCreateNil (void);
FcExpr *
FcExprCreateField (const char *field);
FcExpr *
FcExprCreateConst (const FcChar8 *constant);
2002-02-15 00:34:13 +01:00
FcExpr *
FcExprCreateOp (FcExpr *left, FcOp op, FcExpr *right);
void
FcExprDestroy (FcExpr *e);
void
FcEditDestroy (FcEdit *e);
/* fcinit.c */
void
FcMemReport (void);
void
FcMemAlloc (int kind, int size);
void
FcMemFree (int kind, int size);
2002-07-07 01:47:44 +02:00
/* fclang.c */
FcLangSet *
FcFreeTypeLangSet (const FcCharSet *charset,
const FcChar8 *exclusiveLang);
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FcLangResult
FcLangCompare (const FcChar8 *s1, const FcChar8 *s2);
const FcCharSet *
FcCharSetForLang (const FcChar8 *lang);
FcLangSet *
FcLangSetPromote (const FcChar8 *lang);
FcLangSet *
FcNameParseLangSet (const FcChar8 *string);
FcBool
FcNameUnparseLangSet (FcStrBuf *buf, const FcLangSet *ls);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void
FcLangSetNewBank (void);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
int
FcLangSetNeededBytes (const FcLangSet *l);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcLangSetDistributeBytes (FcCache * metadata,
void * block_ptr);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcLangSet *
FcLangSetSerialize (int bank, FcLangSet *l);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcLangSetUnserialize (FcCache metadata, void *block_ptr);
2002-02-15 00:34:13 +01:00
/* fclist.c */
FcBool
FcListPatternMatchAny (const FcPattern *p,
const FcPattern *font);
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/* fcmatch.c */
/* fcname.c */
FcBool
FcNameBool (const FcChar8 *v, FcBool *result);
2002-02-15 00:34:13 +01:00
void *
FcObjectDistributeBytes (FcCache * metadata,
void * block_ptr);
FcObjectPtr
FcObjectToPtr (const char * si);
int
FcObjectNeededBytes (void);
void *
FcObjectUnserialize (FcCache metadata, void *block_ptr);
void
FcObjectSerialize (void);
const char *
FcObjectPtrU (FcObjectPtr p);
int
FcObjectPtrCompare (FcObjectPtr a, FcObjectPtr b);
void
FcObjectStaticNameFini (void);
2002-02-15 00:34:13 +01:00
/* fcpat.c */
FcValue
FcValueCanonicalize (const FcValue *v);
2002-02-15 00:34:13 +01:00
void
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcValueListDestroy (FcValueListPtr l);
2002-02-15 00:34:13 +01:00
FcPatternElt *
FcPatternFindElt (const FcPattern *p, const char *object);
FcPatternElt *
FcPatternInsertElt (FcPattern *p, const char *object);
2002-02-15 00:34:13 +01:00
2002-07-07 01:47:44 +02:00
FcBool
FcPatternAddWithBinding (FcPattern *p,
const char *object,
FcValue value,
FcValueBinding binding,
FcBool append);
FcPattern *
FcPatternFreeze (FcPattern *p);
void
2005-07-15 20:49:12 +02:00
FcPatternFini (void);
FcBool
FcPatternAppend (FcPattern *p, FcPattern *s);
void
FcPatternAddFullFname (const FcPattern *p, const char *fname);
const char *
FcPatternFindFullFname (const FcPattern *p);
const FcChar8 *
FcStrStaticName (const FcChar8 *name);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcChar32
FcStringHash (const FcChar8 *s);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void
FcPatternNewBank (void);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
int
FcPatternNeededBytes (FcPattern *p);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void *
FcPatternDistributeBytes (FcCache * metadata, void * block_ptr);
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
FcValueList *
FcValueListPtrU(FcValueListPtr p);
FcPatternElt *
FcPatternEltU (FcPatternEltPtr pei);
FcValueListPtr
FcValueListPtrCreateDynamic(FcValueList * p);
FcPattern *
FcPatternSerialize (int bank, FcPattern * p);
void *
FcPatternUnserialize (FcCache metadata, void *block_ptr);
2002-02-15 00:34:13 +01:00
/* fcrender.c */
/* fcmatrix.c */
extern const FcMatrix FcIdentityMatrix;
2002-02-15 00:34:13 +01:00
void
FcMatrixFree (FcMatrix *mat);
/* fcstr.c */
Add functionality to allow fontconfig data structure serialization. This patch allows the fundamental fontconfig data structures to be serialized. I've converted everything from FcPattern down to be able to use *Ptr objects, which can be either static or dynamic (using a union which either contains a pointer or an index) and replaced storage of pointers in the heap with the appropriate *Ptr object. I then changed all writes of pointers to the heap with a *CreateDynamic call, which creates a dynamic Ptr object pointing to the same object as before. This way, the fundamental fontconfig semantics should be unchanged; I did not have to change external signatures this way, although I did change some internal signatures. When given a *Ptr object, just run *U to get back to a normal pointer; it gives the right answer regardless of whether we're using static or dynamic storage. I've also implemented a Fc*Serialize call. Calling FcFontSetSerialize converts the dynamic FcFontSets contained in the config object to static FcFontSets and also converts its dependencies (e.g. everything you'd need to write to disk) to static objects. Note that you have to call Fc*PrepareSerialize first; this call will count the number of objects that actually needs to be allocated, so that we can avoid realloc. The Fc*Serialize calls then check the static pointers for nullness, and allocate the buffers if necessary. I've tested the execution of fc-list and fc-match after Fc*Serialize and they appear to work the same way.
2005-06-28 05:41:02 +02:00
void
FcStrSetSort (FcStrSet * set);
FcChar8 *
FcStrPlus (const FcChar8 *s1, const FcChar8 *s2);
2002-02-15 00:34:13 +01:00
void
FcStrFree (FcChar8 *s);
2002-02-15 00:34:13 +01:00
void
FcStrBufInit (FcStrBuf *buf, FcChar8 *init, int size);
void
FcStrBufDestroy (FcStrBuf *buf);
FcChar8 *
FcStrBufDone (FcStrBuf *buf);
FcBool
FcStrBufChar (FcStrBuf *buf, FcChar8 c);
FcBool
FcStrBufString (FcStrBuf *buf, const FcChar8 *s);
FcBool
FcStrBufData (FcStrBuf *buf, const FcChar8 *s, int len);
2002-07-07 01:47:44 +02:00
int
FcStrCmpIgnoreBlanksAndCase (const FcChar8 *s1, const FcChar8 *s2);
const FcChar8 *
FcStrContainsIgnoreBlanksAndCase (const FcChar8 *s1, const FcChar8 *s2);
const FcChar8 *
FcStrContainsIgnoreCase (const FcChar8 *s1, const FcChar8 *s2);
FcBool
FcStrUsesHome (const FcChar8 *s);
FcChar8 *
FcStrLastSlash (const FcChar8 *path);
FcChar32
FcStrHashIgnoreCase (const FcChar8 *s);
2002-02-15 00:34:13 +01:00
#endif /* _FC_INT_H_ */