/* * fontconfig/src/fccharset.c * * Copyright © 2001 Keith Packard * * 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. * * THE AUTHOR(S) DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "fcint.h" #include /* #define CHECK */ FcCharSet * FcCharSetCreate (void) { FcCharSet *fcs; fcs = (FcCharSet *) malloc (sizeof (FcCharSet)); if (!fcs) return 0; FcMemAlloc (FC_MEM_CHARSET, sizeof (FcCharSet)); fcs->ref = 1; fcs->num = 0; fcs->leaves_offset = 0; fcs->numbers_offset = 0; return fcs; } FcCharSet * FcCharSetNew (void) { return FcCharSetCreate (); } void FcCharSetDestroy (FcCharSet *fcs) { int i; if (fcs->ref == FC_REF_CONSTANT) { FcCacheObjectDereference (fcs); return; } if (--fcs->ref > 0) return; for (i = 0; i < fcs->num; i++) { FcMemFree (FC_MEM_CHARLEAF, sizeof (FcCharLeaf)); free (FcCharSetLeaf (fcs, i)); } if (fcs->num) { FcMemFree (FC_MEM_CHARSET, fcs->num * sizeof (intptr_t)); free (FcCharSetLeaves (fcs)); } if (fcs->num) { FcMemFree (FC_MEM_CHARSET, fcs->num * sizeof (FcChar16)); free (FcCharSetNumbers (fcs)); } FcMemFree (FC_MEM_CHARSET, sizeof (FcCharSet)); free (fcs); } /* * Search for the leaf containing with the specified num. * Return its index if it exists, otherwise return negative of * the (position + 1) where it should be inserted */ static int FcCharSetFindLeafForward (const FcCharSet *fcs, int start, FcChar16 num) { FcChar16 *numbers = FcCharSetNumbers(fcs); FcChar16 page; int low = start; int high = fcs->num - 1; if (!numbers) return -1; while (low <= high) { int mid = (low + high) >> 1; page = numbers[mid]; if (page == num) return mid; if (page < num) low = mid + 1; else high = mid - 1; } if (high < 0 || (high < fcs->num && numbers[high] < num)) high++; return -(high + 1); } /* * Locate the leaf containing the specified char, return * its index if it exists, otherwise return negative of * the (position + 1) where it should be inserted */ static int FcCharSetFindLeafPos (const FcCharSet *fcs, FcChar32 ucs4) { return FcCharSetFindLeafForward (fcs, 0, ucs4 >> 8); } static FcCharLeaf * FcCharSetFindLeaf (const FcCharSet *fcs, FcChar32 ucs4) { int pos = FcCharSetFindLeafPos (fcs, ucs4); if (pos >= 0) return FcCharSetLeaf(fcs, pos); return 0; } static FcBool FcCharSetPutLeaf (FcCharSet *fcs, FcChar32 ucs4, FcCharLeaf *leaf, int pos) { intptr_t *leaves = FcCharSetLeaves (fcs); FcChar16 *numbers = FcCharSetNumbers (fcs); ucs4 >>= 8; if (ucs4 >= 0x10000) return FcFalse; if (!fcs->num) leaves = malloc (sizeof (*leaves)); else { intptr_t *new_leaves = realloc (leaves, (fcs->num + 1) * sizeof (*leaves)); intptr_t distance = (intptr_t) new_leaves - (intptr_t) leaves; if (new_leaves && distance) { int i; for (i = 0; i < fcs->num; i++) new_leaves[i] -= distance; } leaves = new_leaves; } if (!leaves) return FcFalse; if (fcs->num) FcMemFree (FC_MEM_CHARSET, fcs->num * sizeof (intptr_t)); FcMemAlloc (FC_MEM_CHARSET, (fcs->num + 1) * sizeof (intptr_t)); fcs->leaves_offset = FcPtrToOffset (fcs, leaves); if (!fcs->num) numbers = malloc (sizeof (FcChar16)); else numbers = realloc (numbers, (fcs->num + 1) * sizeof (FcChar16)); if (!numbers) return FcFalse; if (fcs->num) FcMemFree (FC_MEM_CHARSET, fcs->num * sizeof (FcChar16)); FcMemAlloc (FC_MEM_CHARSET, (fcs->num + 1) * sizeof (FcChar16)); fcs->numbers_offset = FcPtrToOffset (fcs, numbers); memmove (leaves + pos + 1, leaves + pos, (fcs->num - pos) * sizeof (*leaves)); memmove (numbers + pos + 1, numbers + pos, (fcs->num - pos) * sizeof (*numbers)); numbers[pos] = (FcChar16) ucs4; leaves[pos] = FcPtrToOffset (leaves, leaf); fcs->num++; return FcTrue; } /* * Locate the leaf containing the specified char, creating it * if desired */ FcCharLeaf * FcCharSetFindLeafCreate (FcCharSet *fcs, FcChar32 ucs4) { int pos; FcCharLeaf *leaf; pos = FcCharSetFindLeafPos (fcs, ucs4); if (pos >= 0) return FcCharSetLeaf(fcs, pos); leaf = calloc (1, sizeof (FcCharLeaf)); if (!leaf) return 0; pos = -pos - 1; if (!FcCharSetPutLeaf (fcs, ucs4, leaf, pos)) { free (leaf); return 0; } FcMemAlloc (FC_MEM_CHARLEAF, sizeof (FcCharLeaf)); return leaf; } static FcBool FcCharSetInsertLeaf (FcCharSet *fcs, FcChar32 ucs4, FcCharLeaf *leaf) { int pos; pos = FcCharSetFindLeafPos (fcs, ucs4); if (pos >= 0) { FcMemFree (FC_MEM_CHARLEAF, sizeof (FcCharLeaf)); free (FcCharSetLeaf (fcs, pos)); FcCharSetLeaves(fcs)[pos] = FcPtrToOffset (FcCharSetLeaves(fcs), leaf); return FcTrue; } pos = -pos - 1; return FcCharSetPutLeaf (fcs, ucs4, leaf, pos); } FcBool FcCharSetAddChar (FcCharSet *fcs, FcChar32 ucs4) { FcCharLeaf *leaf; FcChar32 *b; if (fcs->ref == FC_REF_CONSTANT) return FcFalse; leaf = FcCharSetFindLeafCreate (fcs, ucs4); if (!leaf) return FcFalse; b = &leaf->map[(ucs4 & 0xff) >> 5]; *b |= (1 << (ucs4 & 0x1f)); return FcTrue; } /* * An iterator for the leaves of a charset */ typedef struct _fcCharSetIter { FcCharLeaf *leaf; FcChar32 ucs4; int pos; } FcCharSetIter; /* * Set iter->leaf to the leaf containing iter->ucs4 or higher */ static void FcCharSetIterSet (const FcCharSet *fcs, FcCharSetIter *iter) { int pos = FcCharSetFindLeafPos (fcs, iter->ucs4); if (pos < 0) { pos = -pos - 1; if (pos == fcs->num) { iter->ucs4 = ~0; iter->leaf = 0; return; } iter->ucs4 = (FcChar32) FcCharSetNumbers(fcs)[pos] << 8; } iter->leaf = FcCharSetLeaf(fcs, pos); iter->pos = pos; } static void FcCharSetIterNext (const FcCharSet *fcs, FcCharSetIter *iter) { int pos = iter->pos + 1; if (pos >= fcs->num) { iter->ucs4 = ~0; iter->leaf = 0; } else { iter->ucs4 = (FcChar32) FcCharSetNumbers(fcs)[pos] << 8; iter->leaf = FcCharSetLeaf(fcs, pos); iter->pos = pos; } } static void FcCharSetIterStart (const FcCharSet *fcs, FcCharSetIter *iter) { iter->ucs4 = 0; iter->pos = 0; FcCharSetIterSet (fcs, iter); } FcCharSet * FcCharSetCopy (FcCharSet *src) { if (src->ref != FC_REF_CONSTANT) src->ref++; else FcCacheObjectReference (src); return src; } FcBool FcCharSetEqual (const FcCharSet *a, const FcCharSet *b) { FcCharSetIter ai, bi; int i; if (a == b) return FcTrue; for (FcCharSetIterStart (a, &ai), FcCharSetIterStart (b, &bi); ai.leaf && bi.leaf; FcCharSetIterNext (a, &ai), FcCharSetIterNext (b, &bi)) { if (ai.ucs4 != bi.ucs4) return FcFalse; for (i = 0; i < 256/32; i++) if (ai.leaf->map[i] != bi.leaf->map[i]) return FcFalse; } return ai.leaf == bi.leaf; } static FcBool FcCharSetAddLeaf (FcCharSet *fcs, FcChar32 ucs4, FcCharLeaf *leaf) { FcCharLeaf *new = FcCharSetFindLeafCreate (fcs, ucs4); if (!new) return FcFalse; *new = *leaf; return FcTrue; } static FcCharSet * FcCharSetOperate (const FcCharSet *a, const FcCharSet *b, FcBool (*overlap) (FcCharLeaf *result, const FcCharLeaf *al, const FcCharLeaf *bl), FcBool aonly, FcBool bonly) { FcCharSet *fcs; FcCharSetIter ai, bi; fcs = FcCharSetCreate (); if (!fcs) goto bail0; FcCharSetIterStart (a, &ai); FcCharSetIterStart (b, &bi); while ((ai.leaf || (bonly && bi.leaf)) && (bi.leaf || (aonly && ai.leaf))) { if (ai.ucs4 < bi.ucs4) { if (aonly) { if (!FcCharSetAddLeaf (fcs, ai.ucs4, ai.leaf)) goto bail1; FcCharSetIterNext (a, &ai); } else { ai.ucs4 = bi.ucs4; FcCharSetIterSet (a, &ai); } } else if (bi.ucs4 < ai.ucs4 ) { if (bonly) { if (!FcCharSetAddLeaf (fcs, bi.ucs4, bi.leaf)) goto bail1; FcCharSetIterNext (b, &bi); } else { bi.ucs4 = ai.ucs4; FcCharSetIterSet (b, &bi); } } else { FcCharLeaf leaf; if ((*overlap) (&leaf, ai.leaf, bi.leaf)) { if (!FcCharSetAddLeaf (fcs, ai.ucs4, &leaf)) goto bail1; } FcCharSetIterNext (a, &ai); FcCharSetIterNext (b, &bi); } } return fcs; bail1: FcCharSetDestroy (fcs); bail0: return 0; } static FcBool FcCharSetIntersectLeaf (FcCharLeaf *result, const FcCharLeaf *al, const FcCharLeaf *bl) { int i; FcBool nonempty = FcFalse; for (i = 0; i < 256/32; i++) if ((result->map[i] = al->map[i] & bl->map[i])) nonempty = FcTrue; return nonempty; } FcCharSet * FcCharSetIntersect (const FcCharSet *a, const FcCharSet *b) { return FcCharSetOperate (a, b, FcCharSetIntersectLeaf, FcFalse, FcFalse); } static FcBool FcCharSetUnionLeaf (FcCharLeaf *result, const FcCharLeaf *al, const FcCharLeaf *bl) { int i; for (i = 0; i < 256/32; i++) result->map[i] = al->map[i] | bl->map[i]; return FcTrue; } FcCharSet * FcCharSetUnion (const FcCharSet *a, const FcCharSet *b) { return FcCharSetOperate (a, b, FcCharSetUnionLeaf, FcTrue, FcTrue); } FcBool FcCharSetMerge (FcCharSet *a, const FcCharSet *b, FcBool *changed) { int ai = 0, bi = 0; FcChar16 an, bn; if (a->ref == FC_REF_CONSTANT) return FcFalse; if (changed) { *changed = !FcCharSetIsSubset(b, a); if (!*changed) return FcTrue; } while (bi < b->num) { an = ai < a->num ? FcCharSetNumbers(a)[ai] : ~0; bn = FcCharSetNumbers(b)[bi]; if (an < bn) { ai = FcCharSetFindLeafForward (a, ai + 1, bn); if (ai < 0) ai = -ai - 1; } else { FcCharLeaf *bl = FcCharSetLeaf(b, bi); if (bn < an) { if (!FcCharSetAddLeaf (a, bn << 8, bl)) return FcFalse; } else { FcCharLeaf *al = FcCharSetLeaf(a, ai); FcCharSetUnionLeaf (al, al, bl); } ai++; bi++; } } return FcTrue; } static FcBool FcCharSetSubtractLeaf (FcCharLeaf *result, const FcCharLeaf *al, const FcCharLeaf *bl) { int i; FcBool nonempty = FcFalse; for (i = 0; i < 256/32; i++) if ((result->map[i] = al->map[i] & ~bl->map[i])) nonempty = FcTrue; return nonempty; } FcCharSet * FcCharSetSubtract (const FcCharSet *a, const FcCharSet *b) { return FcCharSetOperate (a, b, FcCharSetSubtractLeaf, FcTrue, FcFalse); } FcBool FcCharSetHasChar (const FcCharSet *fcs, FcChar32 ucs4) { FcCharLeaf *leaf = FcCharSetFindLeaf (fcs, ucs4); if (!leaf) return FcFalse; return (leaf->map[(ucs4 & 0xff) >> 5] & (1 << (ucs4 & 0x1f))) != 0; } static FcChar32 FcCharSetPopCount (FcChar32 c1) { #if __GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) return __builtin_popcount (c1); #else /* hackmem 169 */ FcChar32 c2 = (c1 >> 1) & 033333333333; c2 = c1 - c2 - ((c2 >> 1) & 033333333333); return (((c2 + (c2 >> 3)) & 030707070707) % 077); #endif } FcChar32 FcCharSetIntersectCount (const FcCharSet *a, const FcCharSet *b) { FcCharSetIter ai, bi; FcChar32 count = 0; FcCharSetIterStart (a, &ai); FcCharSetIterStart (b, &bi); while (ai.leaf && bi.leaf) { if (ai.ucs4 == bi.ucs4) { FcChar32 *am = ai.leaf->map; FcChar32 *bm = bi.leaf->map; int i = 256/32; while (i--) count += FcCharSetPopCount (*am++ & *bm++); FcCharSetIterNext (a, &ai); } else if (ai.ucs4 < bi.ucs4) { ai.ucs4 = bi.ucs4; FcCharSetIterSet (a, &ai); } if (bi.ucs4 < ai.ucs4) { bi.ucs4 = ai.ucs4; FcCharSetIterSet (b, &bi); } } return count; } FcChar32 FcCharSetCount (const FcCharSet *a) { FcCharSetIter ai; FcChar32 count = 0; for (FcCharSetIterStart (a, &ai); ai.leaf; FcCharSetIterNext (a, &ai)) { int i = 256/32; FcChar32 *am = ai.leaf->map; while (i--) count += FcCharSetPopCount (*am++); } return count; } FcChar32 FcCharSetSubtractCount (const FcCharSet *a, const FcCharSet *b) { FcCharSetIter ai, bi; FcChar32 count = 0; FcCharSetIterStart (a, &ai); FcCharSetIterStart (b, &bi); while (ai.leaf) { if (ai.ucs4 <= bi.ucs4) { FcChar32 *am = ai.leaf->map; int i = 256/32; if (ai.ucs4 == bi.ucs4) { FcChar32 *bm = bi.leaf->map; while (i--) count += FcCharSetPopCount (*am++ & ~*bm++); } else { while (i--) count += FcCharSetPopCount (*am++); } FcCharSetIterNext (a, &ai); } else if (bi.leaf) { bi.ucs4 = ai.ucs4; FcCharSetIterSet (b, &bi); } } return count; } /* * return FcTrue iff a is a subset of b */ FcBool FcCharSetIsSubset (const FcCharSet *a, const FcCharSet *b) { int ai, bi; FcChar16 an, bn; if (a == b) return FcTrue; bi = 0; ai = 0; while (ai < a->num && bi < b->num) { an = FcCharSetNumbers(a)[ai]; bn = FcCharSetNumbers(b)[bi]; /* * Check matching pages */ if (an == bn) { FcChar32 *am = FcCharSetLeaf(a, ai)->map; FcChar32 *bm = FcCharSetLeaf(b, bi)->map; if (am != bm) { int i = 256/32; /* * Does am have any bits not in bm? */ while (i--) if (*am++ & ~*bm++) return FcFalse; } ai++; bi++; } /* * Does a have any pages not in b? */ else if (an < bn) return FcFalse; else { bi = FcCharSetFindLeafForward (b, bi + 1, an); if (bi < 0) bi = -bi - 1; } } /* * did we look at every page? */ return ai >= a->num; } /* * These two functions efficiently walk the entire charmap for * other software (like pango) that want their own copy */ FcChar32 FcCharSetNextPage (const FcCharSet *a, FcChar32 map[FC_CHARSET_MAP_SIZE], FcChar32 *next) { FcCharSetIter ai; FcChar32 page; ai.ucs4 = *next; FcCharSetIterSet (a, &ai); if (!ai.leaf) return FC_CHARSET_DONE; /* * Save current information */ page = ai.ucs4; memcpy (map, ai.leaf->map, sizeof (ai.leaf->map)); /* * Step to next page */ FcCharSetIterNext (a, &ai); *next = ai.ucs4; return page; } FcChar32 FcCharSetFirstPage (const FcCharSet *a, FcChar32 map[FC_CHARSET_MAP_SIZE], FcChar32 *next) { *next = 0; return FcCharSetNextPage (a, map, next); } /* * old coverage API, rather hard to use correctly */ FcChar32 FcCharSetCoverage (const FcCharSet *a, FcChar32 page, FcChar32 *result) { FcCharSetIter ai; ai.ucs4 = page; FcCharSetIterSet (a, &ai); if (!ai.leaf) { memset (result, '\0', 256 / 8); page = 0; } else { memcpy (result, ai.leaf->map, sizeof (ai.leaf->map)); FcCharSetIterNext (a, &ai); page = ai.ucs4; } return page; } /* * ASCII representation of charsets. * * Each leaf is represented as 9 32-bit values, the code of the first character followed * by 8 32 bit values for the leaf itself. Each value is encoded as 5 ASCII characters, * only 85 different values are used to avoid control characters as well as the other * characters used to encode font names. 85**5 > 2^32 so things work out, but * it's not exactly human readable output. As a special case, 0 is encoded as a space */ static const unsigned char charToValue[256] = { /* "" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\b" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\020" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\030" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* " " */ 0xff, 0x00, 0xff, 0x01, 0x02, 0x03, 0x04, 0xff, /* "(" */ 0x05, 0x06, 0x07, 0x08, 0xff, 0xff, 0x09, 0x0a, /* "0" */ 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x10, 0x11, 0x12, /* "8" */ 0x13, 0x14, 0xff, 0x15, 0x16, 0xff, 0x17, 0x18, /* "@" */ 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f, 0x20, /* "H" */ 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, /* "P" */ 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f, 0x30, /* "X" */ 0x31, 0x32, 0x33, 0x34, 0xff, 0x35, 0x36, 0xff, /* "`" */ 0xff, 0x37, 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, /* "h" */ 0x3e, 0x3f, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, /* "p" */ 0x46, 0x47, 0x48, 0x49, 0x4a, 0x4b, 0x4c, 0x4d, /* "x" */ 0x4e, 0x4f, 0x50, 0x51, 0x52, 0x53, 0x54, 0xff, /* "\200" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\210" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\220" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\230" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\240" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\250" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\260" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\270" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\300" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\310" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\320" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\330" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\340" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\350" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\360" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* "\370" */ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, }; static const FcChar8 valueToChar[0x55] = { /* 0x00 */ '!', '#', '$', '%', '&', '(', ')', '*', /* 0x08 */ '+', '.', '/', '0', '1', '2', '3', '4', /* 0x10 */ '5', '6', '7', '8', '9', ';', '<', '>', /* 0x18 */ '?', '@', 'A', 'B', 'C', 'D', 'E', 'F', /* 0x20 */ 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', /* 0x28 */ 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', /* 0x30 */ 'W', 'X', 'Y', 'Z', '[', ']', '^', 'a', /* 0x38 */ 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', /* 0x40 */ 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', /* 0x48 */ 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', /* 0x50 */ 'z', '{', '|', '}', '~', }; static FcChar8 * FcCharSetParseValue (FcChar8 *string, FcChar32 *value) { int i; FcChar32 v; FcChar32 c; if (*string == ' ') { v = 0; string++; } else { v = 0; for (i = 0; i < 5; i++) { if (!(c = (FcChar32) (unsigned char) *string++)) return 0; c = charToValue[c]; if (c == 0xff) return 0; v = v * 85 + c; } } *value = v; return string; } static FcBool FcCharSetUnparseValue (FcStrBuf *buf, FcChar32 value) { int i; if (value == 0) { return FcStrBufChar (buf, ' '); } else { FcChar8 string[6]; FcChar8 *s = string + 5; string[5] = '\0'; for (i = 0; i < 5; i++) { *--s = valueToChar[value % 85]; value /= 85; } for (i = 0; i < 5; i++) if (!FcStrBufChar (buf, *s++)) return FcFalse; } return FcTrue; } FcCharSet * FcNameParseCharSet (FcChar8 *string) { FcCharSet *c; FcChar32 ucs4; FcCharLeaf *leaf; FcCharLeaf temp; FcChar32 bits; int i; c = FcCharSetCreate (); if (!c) goto bail0; while (*string) { string = FcCharSetParseValue (string, &ucs4); if (!string) goto bail1; bits = 0; for (i = 0; i < 256/32; i++) { string = FcCharSetParseValue (string, &temp.map[i]); if (!string) goto bail1; bits |= temp.map[i]; } if (bits) { leaf = malloc (sizeof (FcCharLeaf)); if (!leaf) goto bail1; *leaf = temp; if (!FcCharSetInsertLeaf (c, ucs4, leaf)) goto bail1; } } return c; bail1: if (c->num) { FcMemFree (FC_MEM_CHARSET, c->num * sizeof (FcCharLeaf *)); free (FcCharSetLeaves (c)); } if (c->num) { FcMemFree (FC_MEM_CHARSET, c->num * sizeof (FcChar16)); free (FcCharSetNumbers (c)); } FcMemFree (FC_MEM_CHARSET, sizeof (FcCharSet)); free (c); bail0: return NULL; } FcBool FcNameUnparseCharSet (FcStrBuf *buf, const FcCharSet *c) { FcCharSetIter ci; int i; #ifdef CHECK int len = buf->len; #endif for (FcCharSetIterStart (c, &ci); ci.leaf; FcCharSetIterNext (c, &ci)) { if (!FcCharSetUnparseValue (buf, ci.ucs4)) return FcFalse; for (i = 0; i < 256/32; i++) if (!FcCharSetUnparseValue (buf, ci.leaf->map[i])) return FcFalse; } #ifdef CHECK { FcCharSet *check; FcChar32 missing; FcCharSetIter ci, checki; /* null terminate for parser */ FcStrBufChar (buf, '\0'); /* step back over null for life after test */ buf->len--; check = FcNameParseCharSet (buf->buf + len); FcCharSetIterStart (c, &ci); FcCharSetIterStart (check, &checki); while (ci.leaf || checki.leaf) { if (ci.ucs4 < checki.ucs4) { printf ("Missing leaf node at 0x%x\n", ci.ucs4); FcCharSetIterNext (c, &ci); } else if (checki.ucs4 < ci.ucs4) { printf ("Extra leaf node at 0x%x\n", checki.ucs4); FcCharSetIterNext (check, &checki); } else { int i = 256/32; FcChar32 *cm = ci.leaf->map; FcChar32 *checkm = checki.leaf->map; for (i = 0; i < 256; i += 32) { if (*cm != *checkm) printf ("Mismatching sets at 0x%08x: 0x%08x != 0x%08x\n", ci.ucs4 + i, *cm, *checkm); cm++; checkm++; } FcCharSetIterNext (c, &ci); FcCharSetIterNext (check, &checki); } } if ((missing = FcCharSetSubtractCount (c, check))) printf ("%d missing in reparsed result\n", missing); if ((missing = FcCharSetSubtractCount (check, c))) printf ("%d extra in reparsed result\n", missing); FcCharSetDestroy (check); } #endif return FcTrue; } typedef struct _FcCharLeafEnt FcCharLeafEnt; struct _FcCharLeafEnt { FcCharLeafEnt *next; FcChar32 hash; FcCharLeaf leaf; }; #define FC_CHAR_LEAF_BLOCK (4096 / sizeof (FcCharLeafEnt)) #define FC_CHAR_LEAF_HASH_SIZE 257 typedef struct _FcCharSetEnt FcCharSetEnt; struct _FcCharSetEnt { FcCharSetEnt *next; FcChar32 hash; FcCharSet set; }; typedef struct _FcCharSetOrigEnt FcCharSetOrigEnt; struct _FcCharSetOrigEnt { FcCharSetOrigEnt *next; const FcCharSet *orig; const FcCharSet *frozen; }; #define FC_CHAR_SET_HASH_SIZE 67 struct _FcCharSetFreezer { FcCharLeafEnt *leaf_hash_table[FC_CHAR_LEAF_HASH_SIZE]; FcCharLeafEnt **leaf_blocks; int leaf_block_count; FcCharSetEnt *set_hash_table[FC_CHAR_SET_HASH_SIZE]; FcCharSetOrigEnt *orig_hash_table[FC_CHAR_SET_HASH_SIZE]; FcCharLeafEnt *current_block; int leaf_remain; int leaves_seen; int charsets_seen; int leaves_allocated; int charsets_allocated; }; static FcCharLeafEnt * FcCharLeafEntCreate (FcCharSetFreezer *freezer) { if (!freezer->leaf_remain) { FcCharLeafEnt **newBlocks; freezer->leaf_block_count++; newBlocks = realloc (freezer->leaf_blocks, freezer->leaf_block_count * sizeof (FcCharLeafEnt *)); if (!newBlocks) return 0; freezer->leaf_blocks = newBlocks; freezer->current_block = freezer->leaf_blocks[freezer->leaf_block_count-1] = malloc (FC_CHAR_LEAF_BLOCK * sizeof (FcCharLeafEnt)); if (!freezer->current_block) return 0; FcMemAlloc (FC_MEM_CHARLEAF, FC_CHAR_LEAF_BLOCK * sizeof (FcCharLeafEnt)); freezer->leaf_remain = FC_CHAR_LEAF_BLOCK; } freezer->leaf_remain--; freezer->leaves_allocated++; return freezer->current_block++; } static FcChar32 FcCharLeafHash (FcCharLeaf *leaf) { FcChar32 hash = 0; int i; for (i = 0; i < 256/32; i++) hash = ((hash << 1) | (hash >> 31)) ^ leaf->map[i]; return hash; } static FcCharLeaf * FcCharSetFreezeLeaf (FcCharSetFreezer *freezer, FcCharLeaf *leaf) { FcChar32 hash = FcCharLeafHash (leaf); FcCharLeafEnt **bucket = &freezer->leaf_hash_table[hash % FC_CHAR_LEAF_HASH_SIZE]; FcCharLeafEnt *ent; for (ent = *bucket; ent; ent = ent->next) { if (ent->hash == hash && !memcmp (&ent->leaf, leaf, sizeof (FcCharLeaf))) return &ent->leaf; } ent = FcCharLeafEntCreate(freezer); if (!ent) return 0; ent->leaf = *leaf; ent->hash = hash; ent->next = *bucket; *bucket = ent; return &ent->leaf; } static FcChar32 FcCharSetHash (FcCharSet *fcs) { FcChar32 hash = 0; int i; /* hash in leaves */ for (i = 0; i < fcs->num; i++) hash = ((hash << 1) | (hash >> 31)) ^ FcCharLeafHash (FcCharSetLeaf(fcs,i)); /* hash in numbers */ for (i = 0; i < fcs->num; i++) hash = ((hash << 1) | (hash >> 31)) ^ *FcCharSetNumbers(fcs); return hash; } static FcBool FcCharSetFreezeOrig (FcCharSetFreezer *freezer, const FcCharSet *orig, const FcCharSet *frozen) { FcCharSetOrigEnt **bucket = &freezer->orig_hash_table[((uintptr_t) orig) & FC_CHAR_SET_HASH_SIZE]; FcCharSetOrigEnt *ent; ent = malloc (sizeof (FcCharSetOrigEnt)); if (!ent) return FcFalse; ent->orig = orig; ent->frozen = frozen; ent->next = *bucket; *bucket = ent; return FcTrue; } static FcCharSet * FcCharSetFreezeBase (FcCharSetFreezer *freezer, FcCharSet *fcs, const FcCharSet *orig) { FcChar32 hash = FcCharSetHash (fcs); FcCharSetEnt **bucket = &freezer->set_hash_table[hash % FC_CHAR_SET_HASH_SIZE]; FcCharSetEnt *ent; int size; int i; for (ent = *bucket; ent; ent = ent->next) { if (ent->hash == hash && ent->set.num == fcs->num && !memcmp (FcCharSetNumbers(&ent->set), FcCharSetNumbers(fcs), fcs->num * sizeof (FcChar16))) { FcBool ok = FcTrue; int i; for (i = 0; i < fcs->num; i++) if (FcCharSetLeaf(&ent->set, i) != FcCharSetLeaf(fcs, i)) ok = FcFalse; if (ok) return &ent->set; } } size = (sizeof (FcCharSetEnt) + fcs->num * sizeof (FcCharLeaf *) + fcs->num * sizeof (FcChar16)); ent = malloc (size); if (!ent) return 0; FcMemAlloc (FC_MEM_CHARSET, size); freezer->charsets_allocated++; ent->set.ref = FC_REF_CONSTANT; ent->set.num = fcs->num; if (fcs->num) { intptr_t *ent_leaves; ent->set.leaves_offset = sizeof (ent->set); ent->set.numbers_offset = (ent->set.leaves_offset + fcs->num * sizeof (intptr_t)); ent_leaves = FcCharSetLeaves (&ent->set); for (i = 0; i < fcs->num; i++) ent_leaves[i] = FcPtrToOffset (ent_leaves, FcCharSetLeaf (fcs, i)); memcpy (FcCharSetNumbers (&ent->set), FcCharSetNumbers (fcs), fcs->num * sizeof (FcChar16)); } else { ent->set.leaves_offset = 0; ent->set.numbers_offset = 0; } ent->hash = hash; ent->next = *bucket; *bucket = ent; return &ent->set; } static const FcCharSet * FcCharSetFindFrozen (FcCharSetFreezer *freezer, const FcCharSet *orig) { FcCharSetOrigEnt **bucket = &freezer->orig_hash_table[((uintptr_t) orig) & FC_CHAR_SET_HASH_SIZE]; FcCharSetOrigEnt *ent; for (ent = *bucket; ent; ent = ent->next) if (ent->orig == orig) return ent->frozen; return NULL; } const FcCharSet * FcCharSetFreeze (FcCharSetFreezer *freezer, const FcCharSet *fcs) { FcCharSet *b; const FcCharSet *n = 0; FcCharLeaf *l; int i; b = FcCharSetCreate (); if (!b) goto bail0; for (i = 0; i < fcs->num; i++) { l = FcCharSetFreezeLeaf (freezer, FcCharSetLeaf(fcs, i)); if (!l) goto bail1; if (!FcCharSetInsertLeaf (b, FcCharSetNumbers(fcs)[i] << 8, l)) goto bail1; } n = FcCharSetFreezeBase (freezer, b, fcs); if (!FcCharSetFreezeOrig (freezer, fcs, n)) { n = NULL; goto bail1; } freezer->charsets_seen++; freezer->leaves_seen += fcs->num; bail1: if (b->num) { FcMemFree (FC_MEM_CHARSET, b->num * sizeof (FcCharLeaf *)); free (FcCharSetLeaves (b)); } if (b->num) { FcMemFree (FC_MEM_CHARSET, b->num * sizeof (FcChar16)); free (FcCharSetNumbers (b)); } FcMemFree (FC_MEM_CHARSET, sizeof (FcCharSet)); free (b); bail0: return n; } FcCharSetFreezer * FcCharSetFreezerCreate (void) { FcCharSetFreezer *freezer; freezer = calloc (1, sizeof (FcCharSetFreezer)); return freezer; } void FcCharSetFreezerDestroy (FcCharSetFreezer *freezer) { int i; if (FcDebug() & FC_DBG_CACHE) { printf ("\ncharsets %d -> %d leaves %d -> %d\n", freezer->charsets_seen, freezer->charsets_allocated, freezer->leaves_seen, freezer->leaves_allocated); } for (i = 0; i < FC_CHAR_SET_HASH_SIZE; i++) { FcCharSetEnt *ent, *next; for (ent = freezer->set_hash_table[i]; ent; ent = next) { next = ent->next; FcMemFree (FC_MEM_CHARSET, (sizeof (FcCharSetEnt) + ent->set.num * sizeof (FcCharLeaf *) + ent->set.num * sizeof (FcChar16))); free (ent); } } for (i = 0; i < FC_CHAR_SET_HASH_SIZE; i++) { FcCharSetOrigEnt *ent, *next; for (ent = freezer->orig_hash_table[i]; ent; ent = next) { next = ent->next; free (ent); } } for (i = 0; i < freezer->leaf_block_count; i++) { free (freezer->leaf_blocks[i]); FcMemFree (FC_MEM_CHARLEAF, FC_CHAR_LEAF_BLOCK * sizeof (FcCharLeafEnt)); } free (freezer->leaf_blocks); free (freezer); } FcBool FcCharSetSerializeAlloc (FcSerialize *serialize, const FcCharSet *cs) { intptr_t *leaves; FcChar16 *numbers; int i; if (cs->ref != FC_REF_CONSTANT) { if (!serialize->cs_freezer) { serialize->cs_freezer = FcCharSetFreezerCreate (); if (!serialize->cs_freezer) return FcFalse; } if (FcCharSetFindFrozen (serialize->cs_freezer, cs)) return FcTrue; cs = FcCharSetFreeze (serialize->cs_freezer, cs); } leaves = FcCharSetLeaves (cs); numbers = FcCharSetNumbers (cs); if (!FcSerializeAlloc (serialize, cs, sizeof (FcCharSet))) return FcFalse; if (!FcSerializeAlloc (serialize, leaves, cs->num * sizeof (intptr_t))) return FcFalse; if (!FcSerializeAlloc (serialize, numbers, cs->num * sizeof (FcChar16))) return FcFalse; for (i = 0; i < cs->num; i++) if (!FcSerializeAlloc (serialize, FcCharSetLeaf(cs, i), sizeof (FcCharLeaf))) return FcFalse; return FcTrue; } FcCharSet * FcCharSetSerialize(FcSerialize *serialize, const FcCharSet *cs) { FcCharSet *cs_serialized; intptr_t *leaves, *leaves_serialized; FcChar16 *numbers, *numbers_serialized; FcCharLeaf *leaf, *leaf_serialized; int i; if (cs->ref != FC_REF_CONSTANT && serialize->cs_freezer) { cs = FcCharSetFindFrozen (serialize->cs_freezer, cs); if (!cs) return NULL; } cs_serialized = FcSerializePtr (serialize, cs); if (!cs_serialized) return NULL; cs_serialized->ref = FC_REF_CONSTANT; cs_serialized->num = cs->num; if (cs->num) { leaves = FcCharSetLeaves (cs); leaves_serialized = FcSerializePtr (serialize, leaves); if (!leaves_serialized) return NULL; cs_serialized->leaves_offset = FcPtrToOffset (cs_serialized, leaves_serialized); numbers = FcCharSetNumbers (cs); numbers_serialized = FcSerializePtr (serialize, numbers); if (!numbers) return NULL; cs_serialized->numbers_offset = FcPtrToOffset (cs_serialized, numbers_serialized); for (i = 0; i < cs->num; i++) { leaf = FcCharSetLeaf (cs, i); leaf_serialized = FcSerializePtr (serialize, leaf); if (!leaf_serialized) return NULL; *leaf_serialized = *leaf; leaves_serialized[i] = FcPtrToOffset (leaves_serialized, leaf_serialized); numbers_serialized[i] = numbers[i]; } } else { cs_serialized->leaves_offset = 0; cs_serialized->numbers_offset = 0; } return cs_serialized; } #define __fccharset__ #include "fcaliastail.h" #undef __fccharset__