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|
/*
This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks.
Copyright (C) 2002-2012 by Jin-Hwan Cho and Shunsaku Hirata,
the dvipdfmx project team.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
/*
* References:
*
* PostScript Language Reference Manual, 3rd. ed. (Adobe Systems Inc.)
* 5.11.4 CMap Dictionaries
* 5.11.5 FMapType 9 Composite Fonts
* Building CMap Files for CID-Keyed Fonts, Adobe Technical Note #5099
* CID-Keyed Font Technology Overview, Adobe Technical Note #5092
* Adobe CMap and CIDFont Files Specification, Adobe Technical Specification #5014
*
* Undefined Character Handling:
* PLRM 3rd. ed., sec. 5.11.5., "Handling Undefined Characters"
*
* TODO:
* Only cid(range|char) allowed for CODE_TO_CID and bf(range|char) for CID_TO_CODE ?
*/
#if HAVE_CONFIG_H
#include "config.h"
#endif
#include <string.h>
#include "system.h"
#include "mem.h"
#include "error.h"
#include "dpxutil.h"
#include "cmap_p.h"
#include "cmap.h"
static int __verbose = 0;
static int __silent = 0;
void
CMap_set_verbose (void)
{
__verbose++;
}
void
CMap_set_silent (int value)
{
__silent = value ? 1 : 0;
}
/* Private funcs. */
static int bytes_consumed (CMap *cmap, const unsigned char *instr, long inbytes);
static void handle_undefined (CMap *cmap,
const unsigned char **inbuf, long *inbytesleft,
unsigned char **outbuf, long *outbytesleft);
static int check_range (CMap *cmap,
const unsigned char *srclo, const unsigned char *srchi, int srcdim,
const unsigned char *dst, int dstdim);
static unsigned char *get_mem (CMap *cmap, int size);
static mapDef *mapDef_new (void);
static void mapDef_release (mapDef *t);
static int locate_tbl (mapDef **cur, const unsigned char *code, int dim);
CMap *
CMap_new (void)
{
CMap *cmap;
cmap = NEW(1, struct CMap);
cmap->name = NULL;
cmap->type = CMAP_TYPE_CODE_TO_CID;
cmap->wmode = 0;
cmap->useCMap = NULL;
cmap->CSI = NULL;
cmap->profile.minBytesIn = 2;
cmap->profile.maxBytesIn = 2;
cmap->profile.minBytesOut = 2;
cmap->profile.maxBytesOut = 2;
cmap->flags = 0;
cmap->codespace.num = 0;
cmap->codespace.max = 10;
cmap->codespace.ranges = NEW(10, struct rangeDef);
cmap->mapTbl = NULL;
cmap->mapData = NEW(1, struct mapData);
cmap->mapData->prev = NULL;
cmap->mapData->pos = 0;
cmap->mapData->data = NEW(MEM_ALLOC_SIZE, unsigned char);
return cmap;
}
void
CMap_release (CMap *cmap)
{
if (!cmap)
return;
if (cmap->name)
RELEASE(cmap->name);
if (cmap->CSI) {
if (cmap->CSI->registry) RELEASE(cmap->CSI->registry);
if (cmap->CSI->ordering) RELEASE(cmap->CSI->ordering);
RELEASE(cmap->CSI);
}
if (cmap->codespace.ranges)
RELEASE(cmap->codespace.ranges);
if (cmap->mapTbl)
mapDef_release(cmap->mapTbl);
{
mapData *map = cmap->mapData;
while (map != NULL) {
mapData *prev = map->prev;
if (map->data != NULL)
RELEASE(map->data);
RELEASE(map);
map = prev;
}
}
RELEASE(cmap);
}
int
CMap_is_Identity (CMap *cmap)
{
ASSERT(cmap);
if (!strcmp(cmap->name, "Identity-H") || !strcmp(cmap->name, "Identity-V"))
return 1;
else
return 0;
}
#if 0
/* NOT IMPLEMENTED YET */
int
CMap_is_realy_Identity(CMap *cmap)
{
return 0;
}
#endif
int
CMap_is_valid (CMap *cmap)
{
/* Quick check */
if (!cmap || !(cmap->name) || cmap->type < CMAP_TYPE_IDENTITY ||
cmap->type > CMAP_TYPE_CID_TO_CODE || cmap->codespace.num < 1 ||
(cmap->type != CMAP_TYPE_IDENTITY && !cmap->mapTbl))
return 0;
if (cmap->useCMap) {
CIDSysInfo *csi1, *csi2;
csi1 = CMap_get_CIDSysInfo(cmap);
csi2 = CMap_get_CIDSysInfo(cmap->useCMap);
if (strcmp(csi1->registry, csi2->registry) ||
strcmp(csi1->ordering, csi2->ordering)) {
WARN("CIDSystemInfo mismatched %s <--> %s",
CMap_get_name(cmap), CMap_get_name(cmap->useCMap));
return 0;
}
}
return 1;
}
int
CMap_get_profile (CMap *cmap, int type)
{
int value = 0;
ASSERT(cmap);
switch (type) {
case CMAP_PROF_TYPE_INBYTES_MIN:
value = cmap->profile.minBytesIn;
break;
case CMAP_PROF_TYPE_INBYTES_MAX:
value = cmap->profile.maxBytesIn;
break;
case CMAP_PROF_TYPE_OUTBYTES_MIN:
value = cmap->profile.maxBytesOut;
break;
case CMAP_PROF_TYPE_OUTBYTES_MAX:
value = cmap->profile.maxBytesOut;
break;
default:
ERROR("%s: Unrecognized profile type %d.", CMAP_DEBUG_STR, type);
}
return value;
}
/*
* Put notdef chars for codes not declared in notdef(range|char)
*/
static void
handle_undefined (CMap *cmap,
const unsigned char **inbuf, long *inbytesleft,
unsigned char **outbuf, long *outbytesleft)
{
long len = 0;
if (*outbytesleft < 2)
ERROR("%s: Buffer overflow.", CMAP_DEBUG_STR);
switch (cmap->type) {
case CMAP_TYPE_CODE_TO_CID:
memcpy(*outbuf, CID_NOTDEF_CHAR, 2);
break;
case CMAP_TYPE_TO_UNICODE:
memcpy(*outbuf, UCS_NOTDEF_CHAR, 2);
break;
default:
WARN("Cannot handle undefined mapping for this type of CMap mapping: %d", cmap->type);
WARN("<0000> is used for .notdef char.");
memset(*outbuf, 0, 2);
}
*outbuf += 2;
*outbytesleft -= 2;
len = bytes_consumed(cmap, *inbuf, *inbytesleft);
*inbuf += len;
*inbytesleft -= len;
}
void
CMap_decode_char (CMap *cmap,
const unsigned char **inbuf, long *inbytesleft,
unsigned char **outbuf, long *outbytesleft)
{
mapDef *t;
const unsigned char *p, *save;
unsigned char c = 0;
long count = 0;
p = save = *inbuf;
/*
* First handle some special cases:
*/
if (cmap->type == CMAP_TYPE_IDENTITY) {
if ((*inbytesleft) % 2)
ERROR("%s: Invalid/truncated input string.", CMAP_DEBUG_STR);
if (*outbytesleft < 2)
ERROR("%s: Buffer overflow.", CMAP_DEBUG_STR);
memcpy(*outbuf, *inbuf, 2);
*inbuf += 2;
*outbuf += 2;
*outbytesleft -= 2;
*inbytesleft -= 2;
return;
} else if (!cmap->mapTbl) {
if (cmap->useCMap) {
CMap_decode_char(cmap->useCMap, inbuf, inbytesleft, outbuf, outbytesleft);
return;
} else {
/* no mapping available in this CMap */
WARN("No mapping available for this character.");
handle_undefined(cmap, inbuf, inbytesleft, outbuf, outbytesleft);
return;
}
}
ASSERT(cmap->mapTbl);
t = cmap->mapTbl;
while (count < *inbytesleft) {
c = *p++;
count++;
if (LOOKUP_END(t[c].flag))
break;
t = t[c].next;
}
if (LOOKUP_CONTINUE(t[c].flag)) /* need more bytes */
ERROR("%s: Premature end of input string.", CMAP_DEBUG_STR);
else if (!MAP_DEFINED(t[c].flag)) {
if (cmap->useCMap) {
CMap_decode_char(cmap->useCMap, inbuf, inbytesleft, outbuf, outbytesleft);
return;
} else {
/* no mapping available in this CMap */
WARN("No character mapping available.");
MESG(" CMap name: %s\n", CMap_get_name(cmap));
MESG(" input str: ");
MESG("<");
while (save < p) {
MESG("%02x", *save);
save++;
}
MESG(">\n");
/*
* We know partial match found up to `count' bytes,
* but we will not use this information for the sake of simplicity.
*/
handle_undefined(cmap, inbuf, inbytesleft, outbuf, outbytesleft);
return;
}
} else {
switch (MAP_TYPE(t[c].flag)) {
case MAP_IS_NOTDEF:
WARN("Character mapped to .notdef found.");
/* continue */
case MAP_IS_CID: case MAP_IS_CODE:
if (*outbytesleft >= t[c].len)
memcpy(*outbuf, t[c].code, t[c].len);
else
ERROR("%s: Buffer overflow.", CMAP_DEBUG_STR);
*outbuf += t[c].len;
*outbytesleft -= t[c].len;
break;
case MAP_IS_NAME:
ERROR("%s: CharName mapping not supported.", CMAP_DEBUG_STR);
break;
default:
ERROR("%s: Unknown mapping type.", CMAP_DEBUG_STR);
}
if (inbytesleft)
*inbytesleft -= count;
*inbuf = p;
}
}
/*
* For convenience, it does not do decoding to CIDs.
*/
long
CMap_decode (CMap *cmap,
const unsigned char **inbuf, long *inbytesleft,
unsigned char **outbuf, long *outbytesleft)
{
int count;
ASSERT(cmap && inbuf && outbuf);
ASSERT(inbytesleft && outbytesleft);
for (count = 0;*inbytesleft > 0 && *outbytesleft > 0; count++)
CMap_decode_char(cmap, inbuf, inbytesleft, outbuf, outbytesleft);
return count;
}
char *
CMap_get_name (CMap *cmap)
{
ASSERT(cmap);
return cmap->name;
}
int
CMap_get_type (CMap *cmap)
{
ASSERT(cmap);
return cmap->type;
}
int
CMap_get_wmode (CMap *cmap)
{
ASSERT(cmap);
return cmap->wmode;
}
CIDSysInfo *
CMap_get_CIDSysInfo (CMap *cmap)
{
ASSERT(cmap);
return cmap->CSI;
}
void
CMap_set_name (CMap *cmap, const char *name)
{
ASSERT(cmap);
if (cmap->name)
RELEASE(cmap->name);
cmap->name = NEW(strlen(name)+1, char);
strcpy(cmap->name, name);
}
void
CMap_set_type (CMap *cmap, int type)
{
ASSERT(cmap);
cmap->type = type;
}
void
CMap_set_wmode (CMap *cmap, int wmode)
{
ASSERT(cmap);
cmap->wmode = wmode;
}
void
CMap_set_CIDSysInfo (CMap *cmap, const CIDSysInfo *csi)
{
ASSERT(cmap);
if (cmap->CSI) {
if (cmap->CSI->registry)
RELEASE(cmap->CSI->registry);
if (cmap->CSI->ordering)
RELEASE(cmap->CSI->ordering);
RELEASE(cmap->CSI);
}
if (csi && csi->registry && csi->ordering) {
cmap->CSI = NEW(1, CIDSysInfo);
cmap->CSI->registry = NEW(strlen(csi->registry)+1, char);
strcpy(cmap->CSI->registry, csi->registry);
cmap->CSI->ordering = NEW(strlen(csi->ordering)+1, char);
strcpy(cmap->CSI->ordering, csi->ordering);
cmap->CSI->supplement = csi->supplement;
} else {
WARN("Invalid CIDSystemInfo.");
cmap->CSI = NULL;
}
}
/*
* Can have muliple entry ?
*/
void
CMap_set_usecmap (CMap *cmap, CMap *ucmap)
{
int i;
ASSERT(cmap);
ASSERT(ucmap); /* Maybe if (!ucmap) ERROR() is better for this. */
if (cmap == ucmap)
ERROR("%s: Identical CMap object cannot be used for usecmap CMap: 0x%p=0x%p",
CMAP_DEBUG_STR, cmap, ucmap);
/* Check if ucmap have neccesary information. */
if (!CMap_is_valid(ucmap))
ERROR("%s: Invalid CMap.", CMAP_DEBUG_STR);
/*
* CMapName of cmap can be undefined when usecmap is executed in CMap parsing.
* And it is also possible CSI is not defined at that time.
*/
if (cmap->name && strcmp(cmap->name, ucmap->name) == 0)
ERROR("%s: CMap refering itself not allowed: CMap %s --> %s",
CMAP_DEBUG_STR, cmap->name, ucmap->name);
if (cmap->CSI && cmap->CSI->registry && cmap->CSI->ordering) {
if (strcmp(cmap->CSI->registry, ucmap->CSI->registry) ||
strcmp(cmap->CSI->ordering, ucmap->CSI->ordering))
ERROR("%s: CMap %s required by %s have different CSI.",
CMAP_DEBUG_STR, CMap_get_name(cmap), CMap_get_name(ucmap));
}
/* We must copy codespaceranges. */
for (i = 0; i < ucmap->codespace.num; i++) {
rangeDef *csr = ucmap->codespace.ranges + i;
CMap_add_codespacerange(cmap, csr->codeLo, csr->codeHi, csr->dim);
}
cmap->useCMap = ucmap;
}
/* Test the validity of character c. */
int
CMap_match_codespace (CMap *cmap, const unsigned char *c, int dim)
{
int i, pos;
ASSERT(cmap);
for (i = 0; i < cmap->codespace.num; i++) {
rangeDef *csr = cmap->codespace.ranges + i;
if (csr->dim != dim)
continue;
for (pos = 0; pos < dim; pos++) {
if (c[pos] > csr->codeHi[pos] || c[pos] < csr->codeLo[pos])
break;
}
if (pos == dim)
return 0; /* Valid */
}
return -1; /* Invalid */
}
/*
* No overlapping codespace ranges are allowed, otherwise mapping is ambiguous.
*/
int
CMap_add_codespacerange (CMap *cmap,
const unsigned char *codelo, const unsigned char *codehi, int dim)
{
rangeDef *csr = NULL;
int i;
ASSERT(cmap && dim > 0);
for (i = 0; i < cmap->codespace.num; i++) {
int j, overlap = 1;
csr = cmap->codespace.ranges + i;
for (j = 0; j < MIN(csr->dim, dim) && overlap; j++) {
if ((codelo[j] >= csr->codeLo[j] && codelo[j] <= csr->codeHi[j]) ||
(codehi[j] >= csr->codeLo[j] && codehi[j] <= csr->codeHi[j]))
overlap = 1;
else
overlap = 0;
}
if (overlap) {
WARN("Overlapping codespace found. (ingored)");
return -1;
}
}
if (dim < cmap->profile.minBytesIn)
cmap->profile.minBytesIn = dim;
if (dim > cmap->profile.maxBytesIn)
cmap->profile.maxBytesIn = dim;
if (cmap->codespace.num + 1 > cmap->codespace.max) {
cmap->codespace.max += 10;
cmap->codespace.ranges = RENEW(cmap->codespace.ranges, cmap->codespace.max, struct rangeDef);
}
csr = cmap->codespace.ranges + cmap->codespace.num;
csr->dim = dim;
csr->codeHi = get_mem(cmap, dim);
csr->codeLo = get_mem(cmap, dim);
memcpy(csr->codeHi, codehi, dim);
memcpy(csr->codeLo, codelo, dim);
(cmap->codespace.num)++;
return 0;
}
int
CMap_add_notdefchar (CMap *cmap, const unsigned char *src, int srcdim, CID dst)
{
return CMap_add_notdefrange(cmap, src, src, srcdim, dst);
}
int
CMap_add_notdefrange (CMap *cmap,
const unsigned char *srclo, const unsigned char *srchi, int srcdim, CID dst)
{
int c;
mapDef *cur;
ASSERT(cmap);
/* dst not used here */
/* FIXME */
if (check_range(cmap, srclo, srchi, srcdim, (const unsigned char *)&dst, 2) < 0)
return -1;
if (cmap->mapTbl == NULL )
cmap->mapTbl = mapDef_new();
cur = cmap->mapTbl;
if (locate_tbl(&cur, srclo, srcdim) < 0)
return -1;
for (c = srclo[srcdim-1]; c <= srchi[srcdim-1]; c++) {
if (MAP_DEFINED(cur[c].flag)) {
if (!__silent)
WARN("Trying to redefine already defined code mapping. (ignored)");
} else {
cur[c].flag = (MAP_LOOKUP_END|MAP_IS_NOTDEF);
cur[c].code = get_mem(cmap, 2);
cur[c].len = 2;
cur[c].code[0] = dst >> 8;
cur[c].code[1] = dst & 0xff;
}
/* Do not do dst++ for notdefrange */
}
return 0;
}
int
CMap_add_bfchar (CMap *cmap,
const unsigned char *src, int srcdim,
const unsigned char *dst, int dstdim)
{
return CMap_add_bfrange(cmap, src, src, srcdim, dst, dstdim);
}
int
CMap_add_bfrange (CMap *cmap,
const unsigned char *srclo, const unsigned char *srchi, int srcdim,
const unsigned char *base, int dstdim)
{
int c, last_byte, i;
mapDef *cur;
ASSERT(cmap);
if (check_range(cmap, srclo, srchi, srcdim, base, dstdim) < 0)
return -1;
if (cmap->mapTbl == NULL)
cmap->mapTbl = mapDef_new();
cur = cmap->mapTbl;
if (locate_tbl(&cur, srclo, srcdim) < 0)
return -1;
for (c = srclo[srcdim-1]; c <= srchi[srcdim-1]; c++) {
/* According to 5014.CIDFont_Spec.pdf (p.52),
* Code mappings (unlike codespace ranges) may overlap,
* but succeeding maps superceded preceding maps.
* (reported and patched by Luo Jie on 2007/12/2)
*/
if (!MAP_DEFINED(cur[c].flag) || cur[c].len < dstdim) {
cur[c].flag = (MAP_LOOKUP_END|MAP_IS_CODE);
cur[c].code = get_mem(cmap, dstdim);
}
/*
* We assume restriction to code ranges also applied here.
* Addition <00FF> + 1 is undefined.
*
* Changed on 2004-03-20:
*
* Should be treated as <0100> in Acrobat's "ToUnicode" CMap.
*/
cur[c].len = dstdim;
memcpy(cur[c].code, base, dstdim);
last_byte = c - srclo[srcdim-1] + base[dstdim-1];
cur[c].code[dstdim-1] = (last_byte & 0xFF);
for (i = dstdim - 2; i >= 0 && last_byte > 255; i--) {
last_byte = cur[c].code[i] + 1;
cur[c].code[i] = (last_byte & 0xFF);
}
}
return 0;
}
int
CMap_add_cidchar (CMap *cmap, const unsigned char *src, int srcdim, CID dst)
{
return CMap_add_cidrange(cmap, src, src, srcdim, dst);
}
int
CMap_add_cidrange (CMap *cmap,
const unsigned char *srclo, const unsigned char *srchi, int srcdim, CID base)
{
int c;
mapDef *cur;
ASSERT(cmap);
/* base not used here */
if (check_range(cmap, srclo, srchi, srcdim, (const unsigned char *)&base, 2) < 0) /* FIXME */
return -1;
if (cmap->mapTbl == NULL )
cmap->mapTbl = mapDef_new();
cur = cmap->mapTbl;
if (locate_tbl(&cur, srclo, srcdim) < 0)
return -1;
for (c = srclo[srcdim-1]; c <= srchi[srcdim-1]; c++) {
if (cur[c].flag != 0) {
if (!__silent)
WARN("Trying to redefine already defined CID mapping. (ignored)");
} else {
cur[c].flag = (MAP_LOOKUP_END|MAP_IS_CID);
cur[c].len = 2;
cur[c].code = get_mem(cmap, 2);
cur[c].code[0] = base >> 8;
cur[c].code[1] = base & 0xff;
}
if (base >= CID_MAX)
WARN("CID number too large.");
base++;
}
return 0;
}
static void
mapDef_release (mapDef *t)
{
int c;
ASSERT(t);
for (c = 0; c < 256; c++) {
if (LOOKUP_CONTINUE(t[c].flag))
mapDef_release(t[c].next);
}
RELEASE(t);
}
static mapDef *
mapDef_new (void)
{
mapDef *t;
int c;
t = NEW(256, mapDef);
for (c=0; c<256; c++) {
t[c].flag = (MAP_LOOKUP_END|MAP_IS_UNDEF);
t[c].code = NULL;
t[c].next = NULL;
}
return t;
}
static unsigned char *
get_mem (CMap *cmap, int size)
{
mapData *map;
unsigned char *p;
ASSERT(cmap && cmap->mapData && size >= 0);
map = cmap->mapData;
if (map->pos + size >= MEM_ALLOC_SIZE) {
mapData *prev = map;
map = NEW(1, struct mapData);
map->data = NEW(MEM_ALLOC_SIZE, unsigned char);
map->prev = prev;
map->pos = 0;
cmap->mapData = map;
}
p = map->data + map->pos;
map->pos += size;
return p;
}
static int
locate_tbl (mapDef **cur, const unsigned char *code, int dim)
{
int i, c;
ASSERT(cur && *cur);
for (i = 0; i < dim-1; i++) {
c = code[i];
if (MAP_DEFINED((*cur)[c].flag)) {
WARN("Ambiguous CMap entry.");
return -1;
}
if ((*cur)[c].next == NULL) /* create new node */
(*cur)[c].next = mapDef_new();
(*cur)[c].flag |= MAP_LOOKUP_CONTINUE;
*cur = (*cur)[c].next;
}
return 0;
}
/*
* Guess how many bytes consumed as a `single' character:
* Substring of length bytesconsumed bytes of input string is interpreted as
* a `single' character by CMap_decode().
*/
static int
bytes_consumed (CMap *cmap, const unsigned char *instr, long inbytes)
{
int i, pos, longest = 0, bytesconsumed;
ASSERT(cmap);
for (i = 0; i < cmap->codespace.num; i++) {
rangeDef *csr = cmap->codespace.ranges + i;
for (pos = 0; pos < MIN(csr->dim, inbytes); pos++) {
if (instr[pos] > csr->codeHi[pos] || instr[pos] < csr->codeLo[pos])
break;
}
if (pos == csr->dim) /* part of instr is totally valid in this codespace. */
return csr->dim;
if (pos > longest)
longest = pos;
}
if (i == cmap->codespace.num) /* No matching at all */
bytesconsumed = cmap->profile.minBytesIn;
else {
bytesconsumed = cmap->profile.maxBytesIn;
for (i = 0; i< cmap->codespace.num; i++) {
rangeDef *csr = cmap->codespace.ranges + i;
if (csr->dim > longest && csr->dim < bytesconsumed)
bytesconsumed = csr->dim;
}
}
return bytesconsumed;
}
static int
check_range (CMap *cmap,
const unsigned char *srclo, const unsigned char *srchi, int srcdim,
const unsigned char *dst, int dstdim)
{
if ((srcdim < 1 || dstdim < 1) ||
(!srclo || !srchi || !dst) ||
memcmp(srclo, srchi, srcdim - 1) ||
srclo[srcdim-1] > srchi[srcdim-1]) {
WARN("Invalid CMap mapping entry. (ignored)");
return -1;
}
if (CMap_match_codespace(cmap, srclo, srcdim) < 0 ||
CMap_match_codespace(cmap, srchi, srcdim) < 0) {
WARN("Invalid CMap mapping entry. (ignored)");
return -1;
}
if (srcdim < cmap->profile.minBytesIn)
cmap->profile.minBytesIn = srcdim;
if (srcdim > cmap->profile.maxBytesIn)
cmap->profile.maxBytesIn = srcdim;
if (dstdim < cmap->profile.minBytesOut)
cmap->profile.minBytesOut = dstdim;
if (dstdim > cmap->profile.maxBytesOut)
cmap->profile.maxBytesOut = dstdim;
return 0;
}
/************************** CMAP_CACHE **************************/
#include "cmap_read.h"
#define CMAP_CACHE_ALLOC_SIZE 16u
struct CMap_cache {
int num;
int max;
CMap **cmaps;
};
static struct CMap_cache *__cache = NULL;
#define CHECK_ID(n) do {\
if (! __cache)\
ERROR("%s: CMap cache not initialized.", CMAP_DEBUG_STR);\
if ((n) < 0 || (n) >= __cache->num)\
ERROR("Invalid CMap ID %d", (n));\
} while (0)
#include "dpxfile.h"
void
CMap_cache_init (void)
{
static unsigned char range_min[2] = {0x00, 0x00};
static unsigned char range_max[2] = {0xff, 0xff};
if (__cache)
ERROR("%s: Already initialized.", CMAP_DEBUG_STR);
__cache = NEW(1, struct CMap_cache);
__cache->max = CMAP_CACHE_ALLOC_SIZE;
__cache->cmaps = NEW(__cache->max, CMap *);
__cache->num = 0;
/* Create Identity mapping */
__cache->cmaps[0] = CMap_new();
CMap_set_name (__cache->cmaps[0], "Identity-H");
CMap_set_type (__cache->cmaps[0], CMAP_TYPE_IDENTITY);
CMap_set_wmode(__cache->cmaps[0], 0);
CMap_set_CIDSysInfo(__cache->cmaps[0], &CSI_IDENTITY);
CMap_add_codespacerange(__cache->cmaps[0], range_min, range_max, 2);
__cache->cmaps[1] = CMap_new();
CMap_set_name (__cache->cmaps[1], "Identity-V");
CMap_set_type (__cache->cmaps[1], CMAP_TYPE_IDENTITY);
CMap_set_wmode(__cache->cmaps[1], 1);
CMap_set_CIDSysInfo(__cache->cmaps[1], &CSI_IDENTITY);
CMap_add_codespacerange(__cache->cmaps[1], range_min, range_max, 2);
__cache->num += 2;
}
CMap *
CMap_cache_get (int id)
{
CHECK_ID(id);
return __cache->cmaps[id];
}
int
CMap_cache_find (const char *cmap_name)
{
int id = 0;
FILE *fp = NULL;
if (!__cache)
CMap_cache_init();
ASSERT(__cache);
for (id = 0; id < __cache->num; id++) {
char *name = NULL;
/* CMapName may be undefined when processing usecmap. */
name = CMap_get_name(__cache->cmaps[id]);
if (name && strcmp(cmap_name, name) == 0) {
return id;
}
}
fp = DPXFOPEN(cmap_name, DPX_RES_TYPE_CMAP);
if (!fp)
return -1;
if (CMap_parse_check_sig(fp) < 0) {
DPXFCLOSE(fp);
return -1;
}
if (__verbose)
MESG("(CMap:%s", cmap_name);
if (__cache->num >= __cache->max) {
__cache->max += CMAP_CACHE_ALLOC_SIZE;
__cache->cmaps = RENEW(__cache->cmaps, __cache->max, CMap *);
}
id = __cache->num;
(__cache->num)++;
__cache->cmaps[id] = CMap_new();
if (CMap_parse(__cache->cmaps[id], fp) < 0)
ERROR("%s: Parsing CMap file failed.", CMAP_DEBUG_STR);
DPXFCLOSE(fp);
if (__verbose)
MESG(")");
return id;
}
int
CMap_cache_add (CMap *cmap)
{
int id;
char *cmap_name0, *cmap_name1;
if (!CMap_is_valid(cmap))
ERROR("%s: Invalid CMap.", CMAP_DEBUG_STR);
for (id = 0; id < __cache->num; id++) {
cmap_name0 = CMap_get_name(cmap);
cmap_name1 = CMap_get_name(__cache->cmaps[id]);
if (!strcmp(cmap_name0, cmap_name1)) {
ERROR("%s: CMap \"%s\" already defined.",
CMAP_DEBUG_STR, cmap_name0);
return -1;
}
}
if (__cache->num >= __cache->max) {
__cache->max += CMAP_CACHE_ALLOC_SIZE;
__cache->cmaps = RENEW(__cache->cmaps, __cache->max, CMap *);
}
id = __cache->num;
(__cache->num)++;
__cache->cmaps[id] = cmap;
return id;
}
void
CMap_cache_close (void)
{
if (__cache) {
int id;
for (id = 0; id < __cache->num; id++) {
CMap_release(__cache->cmaps[id]);
}
RELEASE(__cache->cmaps);
RELEASE(__cache);
__cache = NULL;
}
}
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