diff options
Diffstat (limited to 'fitz')
61 files changed, 59 insertions, 5102 deletions
diff --git a/fitz/base_context.c b/fitz/base_context.c index 683ad7dd..93e4fe92 100644 --- a/fitz/base_context.c +++ b/fitz/base_context.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" struct fz_id_context_s { diff --git a/fitz/base_error.c b/fitz/base_error.c index c3c14a1d..d9ad770b 100644 --- a/fitz/base_error.c +++ b/fitz/base_error.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Warning context */ diff --git a/fitz/base_geometry.c b/fitz/base_geometry.c index 9c03d7e2..f5e7cc91 100644 --- a/fitz/base_geometry.c +++ b/fitz/base_geometry.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define MAX4(a,b,c,d) fz_max(fz_max(a,b), fz_max(c,d)) #define MIN4(a,b,c,d) fz_min(fz_min(a,b), fz_min(c,d)) diff --git a/fitz/base_hash.c b/fitz/base_hash.c index 22b64ec6..b66a7a87 100644 --- a/fitz/base_hash.c +++ b/fitz/base_hash.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Simple hashtable with open addressing linear probe. diff --git a/fitz/base_memory.c b/fitz/base_memory.c index 7a38c401..91881e45 100644 --- a/fitz/base_memory.c +++ b/fitz/base_memory.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Enable FITZ_DEBUG_LOCKING_TIMES below if you want to check the times * for which locks are held too. */ diff --git a/fitz/base_string.c b/fitz/base_string.c index d61f8cf3..d584b570 100644 --- a/fitz/base_string.c +++ b/fitz/base_string.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" char * fz_strsep(char **stringp, const char *delim) diff --git a/fitz/base_time.c b/fitz/base_time.c index 9292c4f5..0e3d21b5 100644 --- a/fitz/base_time.c +++ b/fitz/base_time.c @@ -1,6 +1,7 @@ #ifdef _MSC_VER -#include "fitz.h" +#include "mupdf/fitz.h" + #include <time.h> #include <windows.h> diff --git a/fitz/base_trans.c b/fitz/base_trans.c index dcca6e15..81a08735 100644 --- a/fitz/base_trans.c +++ b/fitz/base_trans.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" static int fade(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time) diff --git a/fitz/base_xml.c b/fitz/base_xml.c index 170ee93d..f2cf04bb 100644 --- a/fitz/base_xml.c +++ b/fitz/base_xml.c @@ -1,4 +1,4 @@ -#include "fitz.h" +#include "mupdf/fitz.h" struct parser { diff --git a/fitz/crypt_aes.c b/fitz/crypt_aes.c index 27db64fc..eb5d260f 100644 --- a/fitz/crypt_aes.c +++ b/fitz/crypt_aes.c @@ -36,7 +36,7 @@ * http://csrc.nist.gov/publications/fips/fips197/fips-197.pdf */ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define aes_context fz_aes diff --git a/fitz/crypt_arc4.c b/fitz/crypt_arc4.c index 596bf652..1f15dd25 100644 --- a/fitz/crypt_arc4.c +++ b/fitz/crypt_arc4.c @@ -21,7 +21,7 @@ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_arc4_init(fz_arc4 *arc4, const unsigned char *key, unsigned keylen) diff --git a/fitz/crypt_md5.c b/fitz/crypt_md5.c index 87c0909d..3c896379 100644 --- a/fitz/crypt_md5.c +++ b/fitz/crypt_md5.c @@ -23,7 +23,7 @@ These notices must be retained in any copies of any part of this documentation and/or software. */ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Constants for MD5Transform routine */ enum diff --git a/fitz/crypt_pkcs7.c b/fitz/crypt_pkcs7.c index 4763e886..b4f63cb7 100644 --- a/fitz/crypt_pkcs7.c +++ b/fitz/crypt_pkcs7.c @@ -1,4 +1,4 @@ -#include "mupdf-internal.h" +#include "mupdf/pdf-internal.h" #ifdef HAVE_OPENSSL diff --git a/fitz/crypt_sha2.c b/fitz/crypt_sha2.c index dee0ccf7..62df2506 100644 --- a/fitz/crypt_sha2.c +++ b/fitz/crypt_sha2.c @@ -9,7 +9,7 @@ You can do whatever you want with this file. SHA-384 and SHA-512 were also taken from Crypto++ and adapted for fitz. */ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" static inline int isbigendian(void) { diff --git a/fitz/dev_bbox.c b/fitz/dev_bbox.c index 7f083525..d9077ed9 100644 --- a/fitz/dev_bbox.c +++ b/fitz/dev_bbox.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define STACK_SIZE 96 diff --git a/fitz/dev_list.c b/fitz/dev_list.c index 972c4ba5..5de71cc9 100644 --- a/fitz/dev_list.c +++ b/fitz/dev_list.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" typedef struct fz_display_node_s fz_display_node; diff --git a/fitz/dev_null.c b/fitz/dev_null.c index 5cd1605a..14bcc292 100644 --- a/fitz/dev_null.c +++ b/fitz/dev_null.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_device * fz_new_device(fz_context *ctx, void *user) diff --git a/fitz/dev_svg.c b/fitz/dev_svg.c index f57ee937..99457d20 100644 --- a/fitz/dev_svg.c +++ b/fitz/dev_svg.c @@ -1,4 +1,4 @@ -#include "mupdf-internal.h" +#include "mupdf/fitz-internal.h" typedef struct svg_device_s svg_device; diff --git a/fitz/dev_trace.c b/fitz/dev_trace.c index 9b6cd1b5..e157e9cc 100644 --- a/fitz/dev_trace.c +++ b/fitz/dev_trace.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" static void fz_trace_matrix(const fz_matrix *ctm) diff --git a/fitz/doc_document.c b/fitz/doc_document.c index 9b494903..673aba3f 100644 --- a/fitz/doc_document.c +++ b/fitz/doc_document.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Yuck! Promiscuous we are. */ extern struct pdf_document *pdf_open_document(fz_context *ctx, const char *filename); diff --git a/fitz/doc_link.c b/fitz/doc_link.c index 26b57e4c..730d4110 100644 --- a/fitz/doc_link.c +++ b/fitz/doc_link.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_free_link_dest(fz_context *ctx, fz_link_dest *dest) diff --git a/fitz/doc_outline.c b/fitz/doc_outline.c index 2f23573e..d3604bdf 100644 --- a/fitz/doc_outline.c +++ b/fitz/doc_outline.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_free_outline(fz_context *ctx, fz_outline *outline) diff --git a/fitz/filt_basic.c b/fitz/filt_basic.c index 6f07edd6..2446d41d 100644 --- a/fitz/filt_basic.c +++ b/fitz/filt_basic.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Pretend we have a filter that just copies data forever */ diff --git a/fitz/filt_dctd.c b/fitz/filt_dctd.c index 6fec2c9b..196b7a73 100644 --- a/fitz/filt_dctd.c +++ b/fitz/filt_dctd.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <jpeglib.h> #include <setjmp.h> diff --git a/fitz/filt_faxd.c b/fitz/filt_faxd.c index 463d9de1..27accedb 100644 --- a/fitz/filt_faxd.c +++ b/fitz/filt_faxd.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Fax G3/G4 decoder */ diff --git a/fitz/filt_flate.c b/fitz/filt_flate.c index 24b6c081..155f6c78 100644 --- a/fitz/filt_flate.c +++ b/fitz/filt_flate.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <zlib.h> diff --git a/fitz/filt_jbig2d.c b/fitz/filt_jbig2d.c index d7f09cee..14683954 100644 --- a/fitz/filt_jbig2d.c +++ b/fitz/filt_jbig2d.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <jbig2.h> diff --git a/fitz/filt_lzwd.c b/fitz/filt_lzwd.c index 7b65fa28..4f8b96b7 100644 --- a/fitz/filt_lzwd.c +++ b/fitz/filt_lzwd.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* TODO: error checking */ diff --git a/fitz/filt_predict.c b/fitz/filt_predict.c index 015d4a13..3387a66d 100644 --- a/fitz/filt_predict.c +++ b/fitz/filt_predict.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* TODO: check if this works with 16bpp images */ diff --git a/fitz/fitz-internal.h b/fitz/fitz-internal.h deleted file mode 100644 index 37e83df8..00000000 --- a/fitz/fitz-internal.h +++ /dev/null @@ -1,1620 +0,0 @@ -#ifndef FITZ_INTERNAL_H -#define FITZ_INTERNAL_H - -#include "fitz.h" - -#ifdef _WIN32 /* Microsoft Visual C++ */ - -typedef signed char int8_t; -typedef short int int16_t; -typedef int int32_t; -typedef __int64 int64_t; - -typedef unsigned char uint8_t; -typedef unsigned short int uint16_t; -typedef unsigned int uint32_t; -typedef unsigned __int64 uint64_t; - -#else -#include <inttypes.h> -#endif - -struct fz_warn_context_s -{ - char message[256]; - int count; -}; - -fz_context *fz_clone_context_internal(fz_context *ctx); - -void fz_new_aa_context(fz_context *ctx); -void fz_free_aa_context(fz_context *ctx); -void fz_copy_aa_context(fz_context *dst, fz_context *src); - -/* Default allocator */ -extern fz_alloc_context fz_alloc_default; - -/* Default locks */ -extern fz_locks_context fz_locks_default; - -#if defined(MEMENTO) || defined(DEBUG) -#define FITZ_DEBUG_LOCKING -#endif - -#ifdef FITZ_DEBUG_LOCKING - -void fz_assert_lock_held(fz_context *ctx, int lock); -void fz_assert_lock_not_held(fz_context *ctx, int lock); -void fz_lock_debug_lock(fz_context *ctx, int lock); -void fz_lock_debug_unlock(fz_context *ctx, int lock); - -#else - -#define fz_assert_lock_held(A,B) do { } while (0) -#define fz_assert_lock_not_held(A,B) do { } while (0) -#define fz_lock_debug_lock(A,B) do { } while (0) -#define fz_lock_debug_unlock(A,B) do { } while (0) - -#endif /* !FITZ_DEBUG_LOCKING */ - -static inline void -fz_lock(fz_context *ctx, int lock) -{ - fz_lock_debug_lock(ctx, lock); - ctx->locks->lock(ctx->locks->user, lock); -} - -static inline void -fz_unlock(fz_context *ctx, int lock) -{ - fz_lock_debug_unlock(ctx, lock); - ctx->locks->unlock(ctx->locks->user, lock); -} - -/* ARM assembly specific defines */ - -#ifdef ARCH_ARM -#ifdef NDK_PROFILER -extern void __gnu_mcount_nc(void); -#define ENTER_PG "push {lr}\nbl __gnu_mcount_nc\n" -#else -#define ENTER_PG -#endif - -/* If we're compiling as thumb code, then we need to tell the compiler - * to enter and exit ARM mode around our assembly sections. If we move - * the ARM functions to a separate file and arrange for it to be compiled - * without thumb mode, we can save some time on entry. - */ -#ifdef ARCH_THUMB -#define ENTER_ARM ".balign 4\nmov r12,pc\nbx r12\n0:.arm\n" ENTER_PG -#define ENTER_THUMB "9:.thumb\n" ENTER_PG -#else -#define ENTER_ARM -#define ENTER_THUMB -#endif -#endif - -/* - * Basic runtime and utility functions - */ - -#ifdef CLUSTER -#define LOCAL_TRIG_FNS -#endif - -#ifdef LOCAL_TRIG_FNS -/* - * Trig functions - */ -static float -my_atan_table[258] = -{ -0.0000000000f, 0.00390623013f,0.00781234106f,0.0117182136f, -0.0156237286f, 0.0195287670f, 0.0234332099f, 0.0273369383f, -0.0312398334f, 0.0351417768f, 0.0390426500f, 0.0429423347f, -0.0468407129f, 0.0507376669f, 0.0546330792f, 0.0585268326f, -0.0624188100f, 0.0663088949f, 0.0701969711f, 0.0740829225f, -0.0779666338f, 0.0818479898f, 0.0857268758f, 0.0896031775f, -0.0934767812f, 0.0973475735f, 0.1012154420f, 0.1050802730f, -0.1089419570f, 0.1128003810f, 0.1166554350f, 0.1205070100f, -0.1243549950f, 0.1281992810f, 0.1320397620f, 0.1358763280f, -0.1397088740f, 0.1435372940f, 0.1473614810f, 0.1511813320f, -0.1549967420f, 0.1588076080f, 0.1626138290f, 0.1664153010f, -0.1702119250f, 0.1740036010f, 0.1777902290f, 0.1815717110f, -0.1853479500f, 0.1891188490f, 0.1928843120f, 0.1966442450f, -0.2003985540f, 0.2041471450f, 0.2078899270f, 0.2116268090f, -0.2153577000f, 0.2190825110f, 0.2228011540f, 0.2265135410f, -0.2302195870f, 0.2339192060f, 0.2376123140f, 0.2412988270f, -0.2449786630f, 0.2486517410f, 0.2523179810f, 0.2559773030f, -0.2596296290f, 0.2632748830f, 0.2669129880f, 0.2705438680f, -0.2741674510f, 0.2777836630f, 0.2813924330f, 0.2849936890f, -0.2885873620f, 0.2921733830f, 0.2957516860f, 0.2993222020f, -0.3028848680f, 0.3064396190f, 0.3099863910f, 0.3135251230f, -0.3170557530f, 0.3205782220f, 0.3240924700f, 0.3275984410f, -0.3310960770f, 0.3345853220f, 0.3380661230f, 0.3415384250f, -0.3450021770f, 0.3484573270f, 0.3519038250f, 0.3553416220f, -0.3587706700f, 0.3621909220f, 0.3656023320f, 0.3690048540f, -0.3723984470f, 0.3757830650f, 0.3791586690f, 0.3825252170f, -0.3858826690f, 0.3892309880f, 0.3925701350f, 0.3959000740f, -0.3992207700f, 0.4025321870f, 0.4058342930f, 0.4091270550f, -0.4124104420f, 0.4156844220f, 0.4189489670f, 0.4222040480f, -0.4254496370f, 0.4286857080f, 0.4319122350f, 0.4351291940f, -0.4383365600f, 0.4415343100f, 0.4447224240f, 0.4479008790f, -0.4510696560f, 0.4542287350f, 0.4573780990f, 0.4605177290f, -0.4636476090f, 0.4667677240f, 0.4698780580f, 0.4729785980f, -0.4760693300f, 0.4791502430f, 0.4822213240f, 0.4852825630f, -0.4883339510f, 0.4913754780f, 0.4944071350f, 0.4974289160f, -0.5004408130f, 0.5034428210f, 0.5064349340f, 0.5094171490f, -0.5123894600f, 0.5153518660f, 0.5183043630f, 0.5212469510f, -0.5241796290f, 0.5271023950f, 0.5300152510f, 0.5329181980f, -0.5358112380f, 0.5386943730f, 0.5415676050f, 0.5444309400f, -0.5472843810f, 0.5501279330f, 0.5529616020f, 0.5557853940f, -0.5585993150f, 0.5614033740f, 0.5641975770f, 0.5669819340f, -0.5697564530f, 0.5725211450f, 0.5752760180f, 0.5780210840f, -0.5807563530f, 0.5834818390f, 0.5861975510f, 0.5889035040f, -0.5915997100f, 0.5942861830f, 0.5969629370f, 0.5996299860f, -0.6022873460f, 0.6049350310f, 0.6075730580f, 0.6102014430f, -0.6128202020f, 0.6154293530f, 0.6180289120f, 0.6206188990f, -0.6231993300f, 0.6257702250f, 0.6283316020f, 0.6308834820f, -0.6334258830f, 0.6359588250f, 0.6384823300f, 0.6409964180f, -0.6435011090f, 0.6459964250f, 0.6484823880f, 0.6509590190f, -0.6534263410f, 0.6558843770f, 0.6583331480f, 0.6607726790f, -0.6632029930f, 0.6656241120f, 0.6680360620f, 0.6704388650f, -0.6728325470f, 0.6752171330f, 0.6775926450f, 0.6799591110f, -0.6823165550f, 0.6846650020f, 0.6870044780f, 0.6893350100f, -0.6916566220f, 0.6939693410f, 0.6962731940f, 0.6985682070f, -0.7008544080f, 0.7031318220f, 0.7054004770f, 0.7076604000f, -0.7099116190f, 0.7121541600f, 0.7143880520f, 0.7166133230f, -0.7188300000f, 0.7210381110f, 0.7232376840f, 0.7254287490f, -0.7276113330f, 0.7297854640f, 0.7319511710f, 0.7341084830f, -0.7362574290f, 0.7383980370f, 0.7405303370f, 0.7426543560f, -0.7447701260f, 0.7468776740f, 0.7489770290f, 0.7510682220f, -0.7531512810f, 0.7552262360f, 0.7572931160f, 0.7593519510f, -0.7614027700f, 0.7634456020f, 0.7654804790f, 0.7675074280f, -0.7695264800f, 0.7715376650f, 0.7735410110f, 0.7755365500f, -0.7775243100f, 0.7795043220f, 0.7814766150f, 0.7834412190f, -0.7853981630f, 0.7853981630f /* Extended by 1 for interpolation */ -}; - -static inline float my_sinf(float x) -{ - float x2, xn; - int i; - /* Map x into the -PI to PI range. We could do this using: - * x = fmodf(x, (float)(2.0 * M_PI)); - * but that's C99, and seems to misbehave with negative numbers - * on some platforms. */ - x -= (float)M_PI; - i = x / (float)(2.0f * M_PI); - x -= i * (float)(2.0f * M_PI); - if (x < 0.0f) - x += (float)(2.0f * M_PI); - x -= (float)M_PI; - if (x <= (float)(-M_PI/2.0)) - x = -(float)M_PI-x; - else if (x >= (float)(M_PI/2.0)) - x = (float)M_PI-x; - x2 = x*x; - xn = x*x2/6.0f; - x -= xn; - xn *= x2/20.0f; - x += xn; - xn *= x2/42.0f; - x -= xn; - xn *= x2/72.0f; - x += xn; - return x; -} - -static inline float my_atan2f(float o, float a) -{ - int negate = 0, flip = 0, i; - float r, s; - if (o == 0.0f) - { - if (a > 0) - return 0.0f; - else - return (float)M_PI; - } - if (o < 0) - o = -o, negate = 1; - if (a < 0) - a = -a, flip = 1; - if (o < a) - i = (int)(65536.0f*o/a + 0.5f); - else - i = (int)(65536.0f*a/o + 0.5f); - r = my_atan_table[i>>8]; - s = my_atan_table[(i>>8)+1]; - r += (s-r)*(i&255)/256.0f; - if (o >= a) - r = (float)(M_PI/2.0f) - r; - if (flip) - r = (float)M_PI - r; - if (negate) - r = -r; - return r; -} - -#define sinf(x) my_sinf(x) -#define cosf(x) my_sinf(((float)(M_PI/2.0f)) + (x)) -#define atan2f(x,y) my_atan2f((x),(y)) -#endif - -/* Range checking atof */ -float fz_atof(const char *s); - -/* atoi that copes with NULL */ -int fz_atoi(const char *s); - -/* - * Generic hash-table with fixed-length keys. - */ - -typedef struct fz_hash_table_s fz_hash_table; - -fz_hash_table *fz_new_hash_table(fz_context *ctx, int initialsize, int keylen, int lock); -void fz_empty_hash(fz_context *ctx, fz_hash_table *table); -void fz_free_hash(fz_context *ctx, fz_hash_table *table); - -void *fz_hash_find(fz_context *ctx, fz_hash_table *table, void *key); -void *fz_hash_insert(fz_context *ctx, fz_hash_table *table, void *key, void *val); -void *fz_hash_insert_with_pos(fz_context *ctx, fz_hash_table *table, void *key, void *val, unsigned *pos); -void fz_hash_remove(fz_context *ctx, fz_hash_table *table, void *key); -void fz_hash_remove_fast(fz_context *ctx, fz_hash_table *table, void *key, unsigned pos); - -int fz_hash_len(fz_context *ctx, fz_hash_table *table); -void *fz_hash_get_key(fz_context *ctx, fz_hash_table *table, int idx); -void *fz_hash_get_val(fz_context *ctx, fz_hash_table *table, int idx); - -#ifndef NDEBUG -void fz_print_hash(fz_context *ctx, FILE *out, fz_hash_table *table); -void fz_print_hash_details(fz_context *ctx, FILE *out, fz_hash_table *table, void (*details)(FILE *, void *)); -#endif - -/* - * Math and geometry - */ - -/* Multiply scaled two integers in the 0..255 range */ -static inline int fz_mul255(int a, int b) -{ - /* see Jim Blinn's book "Dirty Pixels" for how this works */ - int x = a * b + 128; - x += x >> 8; - return x >> 8; -} - -/* Expand a value A from the 0...255 range to the 0..256 range */ -#define FZ_EXPAND(A) ((A)+((A)>>7)) - -/* Combine values A (in any range) and B (in the 0..256 range), - * to give a single value in the same range as A was. */ -#define FZ_COMBINE(A,B) (((A)*(B))>>8) - -/* Combine values A and C (in the same (any) range) and B and D (in the - * 0..256 range), to give a single value in the same range as A and C were. */ -#define FZ_COMBINE2(A,B,C,D) (FZ_COMBINE((A), (B)) + FZ_COMBINE((C), (D))) - -/* Blend SRC and DST (in the same range) together according to - * AMOUNT (in the 0...256 range). */ -#define FZ_BLEND(SRC, DST, AMOUNT) ((((SRC)-(DST))*(AMOUNT) + ((DST)<<8))>>8) - -void fz_gridfit_matrix(fz_matrix *m); -float fz_matrix_max_expansion(const fz_matrix *m); - -/* - * Basic crypto functions. - * Independent of the rest of fitz. - * For further encapsulation in filters, or not. - */ - -/* md5 digests */ - -typedef struct fz_md5_s fz_md5; - -struct fz_md5_s -{ - unsigned int state[4]; - unsigned int count[2]; - unsigned char buffer[64]; -}; - -void fz_md5_init(fz_md5 *state); -void fz_md5_update(fz_md5 *state, const unsigned char *input, unsigned inlen); -void fz_md5_final(fz_md5 *state, unsigned char digest[16]); - -/* sha-256 digests */ - -typedef struct fz_sha256_s fz_sha256; - -struct fz_sha256_s -{ - unsigned int state[8]; - unsigned int count[2]; - union { - unsigned char u8[64]; - unsigned int u32[16]; - } buffer; -}; - -void fz_sha256_init(fz_sha256 *state); -void fz_sha256_update(fz_sha256 *state, const unsigned char *input, unsigned int inlen); -void fz_sha256_final(fz_sha256 *state, unsigned char digest[32]); - -/* sha-512 digests */ - -typedef struct fz_sha512_s fz_sha512; - -struct fz_sha512_s -{ - uint64_t state[8]; - unsigned int count[2]; - union { - unsigned char u8[128]; - uint64_t u64[16]; - } buffer; -}; - -void fz_sha512_init(fz_sha512 *state); -void fz_sha512_update(fz_sha512 *state, const unsigned char *input, unsigned int inlen); -void fz_sha512_final(fz_sha512 *state, unsigned char digest[64]); - -/* sha-384 digests */ - -typedef struct fz_sha512_s fz_sha384; - -void fz_sha384_init(fz_sha384 *state); -void fz_sha384_update(fz_sha384 *state, const unsigned char *input, unsigned int inlen); -void fz_sha384_final(fz_sha384 *state, unsigned char digest[64]); - -/* arc4 crypto */ - -typedef struct fz_arc4_s fz_arc4; - -struct fz_arc4_s -{ - unsigned x; - unsigned y; - unsigned char state[256]; -}; - -void fz_arc4_init(fz_arc4 *state, const unsigned char *key, unsigned len); -void fz_arc4_encrypt(fz_arc4 *state, unsigned char *dest, const unsigned char *src, unsigned len); - -/* AES block cipher implementation from XYSSL */ - -typedef struct fz_aes_s fz_aes; - -#define AES_DECRYPT 0 -#define AES_ENCRYPT 1 - -struct fz_aes_s -{ - int nr; /* number of rounds */ - unsigned long *rk; /* AES round keys */ - unsigned long buf[68]; /* unaligned data */ -}; - -int aes_setkey_enc( fz_aes *ctx, const unsigned char *key, int keysize ); -int aes_setkey_dec( fz_aes *ctx, const unsigned char *key, int keysize ); -void aes_crypt_cbc( fz_aes *ctx, int mode, int length, - unsigned char iv[16], - const unsigned char *input, - unsigned char *output ); - -/* - Resource store - - MuPDF stores decoded "objects" into a store for potential reuse. - If the size of the store gets too big, objects stored within it can - be evicted and freed to recover space. When MuPDF comes to decode - such an object, it will check to see if a version of this object is - already in the store - if it is, it will simply reuse it. If not, it - will decode it and place it into the store. - - All objects that can be placed into the store are derived from the - fz_storable type (i.e. this should be the first component of the - objects structure). This allows for consistent (thread safe) - reference counting, and includes a function that will be called to - free the object as soon as the reference count reaches zero. - - Most objects offer fz_keep_XXXX/fz_drop_XXXX functions derived - from fz_keep_storable/fz_drop_storable. Creation of such objects - includes a call to FZ_INIT_STORABLE to set up the fz_storable header. - */ - -typedef struct fz_storable_s fz_storable; - -typedef void (fz_store_free_fn)(fz_context *, fz_storable *); - -struct fz_storable_s { - int refs; - fz_store_free_fn *free; -}; - -#define FZ_INIT_STORABLE(S_,RC,FREE) \ - do { fz_storable *S = &(S_)->storable; S->refs = (RC); \ - S->free = (FREE); \ - } while (0) - -void *fz_keep_storable(fz_context *, fz_storable *); -void fz_drop_storable(fz_context *, fz_storable *); - -/* - The store can be seen as a dictionary that maps keys to fz_storable - values. In order to allow keys of different types to be stored, we - have a structure full of functions for each key 'type'; this - fz_store_type pointer is stored with each key, and tells the store - how to perform certain operations (like taking/dropping a reference, - comparing two keys, outputting details for debugging etc). - - The store uses a hash table internally for speed where possible. In - order for this to work, we need a mechanism for turning a generic - 'key' into 'a hashable string'. For this purpose the type structure - contains a make_hash_key function pointer that maps from a void * - to an fz_store_hash structure. If make_hash_key function returns 0, - then the key is determined not to be hashable, and the value is - not stored in the hash table. -*/ -typedef struct fz_store_hash_s fz_store_hash; - -struct fz_store_hash_s -{ - fz_store_free_fn *free; - union - { - struct - { - int i0; - int i1; - } i; - struct - { - void *ptr; - int i; - } pi; - struct - { - int id; - float m[4]; - } im; - } u; -}; - -typedef struct fz_store_type_s fz_store_type; - -struct fz_store_type_s -{ - int (*make_hash_key)(fz_store_hash *, void *); - void *(*keep_key)(fz_context *,void *); - void (*drop_key)(fz_context *,void *); - int (*cmp_key)(void *, void *); -#ifndef NDEBUG - void (*debug)(FILE *, void *); -#endif -}; - -/* - fz_store_new_context: Create a new store inside the context - - max: The maximum size (in bytes) that the store is allowed to grow - to. FZ_STORE_UNLIMITED means no limit. -*/ -void fz_new_store_context(fz_context *ctx, unsigned int max); - -/* - fz_drop_store_context: Drop a reference to the store. -*/ -void fz_drop_store_context(fz_context *ctx); - -/* - fz_keep_store_context: Take a reference to the store. -*/ -fz_store *fz_keep_store_context(fz_context *ctx); - -/* - fz_store_item: Add an item to the store. - - Add an item into the store, returning NULL for success. If an item - with the same key is found in the store, then our item will not be - inserted, and the function will return a pointer to that value - instead. This function takes its own reference to val, as required - (i.e. the caller maintains ownership of its own reference). - - key: The key to use to index the item. - - val: The value to store. - - itemsize: The size in bytes of the value (as counted towards the - store size). - - type: Functions used to manipulate the key. -*/ -void *fz_store_item(fz_context *ctx, void *key, void *val, unsigned int itemsize, fz_store_type *type); - -/* - fz_find_item: Find an item within the store. - - free: The function used to free the value (to ensure we get a value - of the correct type). - - key: The key to use to index the item. - - type: Functions used to manipulate the key. - - Returns NULL for not found, otherwise returns a pointer to the value - indexed by key to which a reference has been taken. -*/ -void *fz_find_item(fz_context *ctx, fz_store_free_fn *free, void *key, fz_store_type *type); - -/* - fz_remove_item: Remove an item from the store. - - If an item indexed by the given key exists in the store, remove it. - - free: The function used to free the value (to ensure we get a value - of the correct type). - - key: The key to use to find the item to remove. - - type: Functions used to manipulate the key. -*/ -void fz_remove_item(fz_context *ctx, fz_store_free_fn *free, void *key, fz_store_type *type); - -/* - fz_empty_store: Evict everything from the store. -*/ -void fz_empty_store(fz_context *ctx); - -/* - fz_store_scavenge: Internal function used as part of the scavenging - allocator; when we fail to allocate memory, before returning a - failure to the caller, we try to scavenge space within the store by - evicting at least 'size' bytes. The allocator then retries. - - size: The number of bytes we are trying to have free. - - phase: What phase of the scavenge we are in. Updated on exit. - - Returns non zero if we managed to free any memory. -*/ -int fz_store_scavenge(fz_context *ctx, unsigned int size, int *phase); - -/* - fz_print_store: Dump the contents of the store for debugging. -*/ -#ifndef NDEBUG -void fz_print_store(fz_context *ctx, FILE *out); -void fz_print_store_locked(fz_context *ctx, FILE *out); -#endif - -struct fz_buffer_s -{ - int refs; - unsigned char *data; - int cap, len; - int unused_bits; -}; - -/* - fz_new_buffer: Create a new buffer. - - capacity: Initial capacity. - - Returns pointer to new buffer. Throws exception on allocation - failure. -*/ -fz_buffer *fz_new_buffer(fz_context *ctx, int capacity); - -/* - fz_new_buffer: Create a new buffer. - - capacity: Initial capacity. - - Returns pointer to new buffer. Throws exception on allocation - failure. -*/ -fz_buffer *fz_new_buffer_from_data(fz_context *ctx, unsigned char *data, int size); - -/* - fz_resize_buffer: Ensure that a buffer has a given capacity, - truncating data if required. - - buf: The buffer to alter. - - capacity: The desired capacity for the buffer. If the current size - of the buffer contents is smaller than capacity, it is truncated. - -*/ -void fz_resize_buffer(fz_context *ctx, fz_buffer *buf, int capacity); - -/* - fz_grow_buffer: Make some space within a buffer (i.e. ensure that - capacity > size). - - buf: The buffer to grow. - - May throw exception on failure to allocate. -*/ -void fz_grow_buffer(fz_context *ctx, fz_buffer *buf); - -/* - fz_trim_buffer: Trim wasted capacity from a buffer. - - buf: The buffer to trim. -*/ -void fz_trim_buffer(fz_context *ctx, fz_buffer *buf); - -/* - fz_buffer_cat: Concatenate buffers - - buf: first to concatenate and the holder of the result - extra: second to concatenate - - May throw exception on failure to allocate. -*/ -void fz_buffer_cat(fz_context *ctx, fz_buffer *buf, fz_buffer *extra); - -void fz_write_buffer(fz_context *ctx, fz_buffer *buf, const void *data, int len); - -void fz_write_buffer_byte(fz_context *ctx, fz_buffer *buf, int val); - -void fz_write_buffer_rune(fz_context *ctx, fz_buffer *buf, int val); - -void fz_write_buffer_bits(fz_context *ctx, fz_buffer *buf, int val, int bits); - -void fz_write_buffer_pad(fz_context *ctx, fz_buffer *buf); - -/* - fz_buffer_printf: print formatted to a buffer. The buffer will grow - as required. -*/ -int fz_buffer_printf(fz_context *ctx, fz_buffer *buffer, const char *fmt, ...); -int fz_buffer_vprintf(fz_context *ctx, fz_buffer *buffer, const char *fmt, va_list args); - -/* - fz_buffer_printf: print a string formatted as a pdf string to a buffer. - The buffer will grow. -*/ -void -fz_buffer_cat_pdf_string(fz_context *ctx, fz_buffer *buffer, const char *text); - -struct fz_stream_s -{ - fz_context *ctx; - int refs; - int error; - int eof; - int pos; - int avail; - int bits; - unsigned char *bp, *rp, *wp, *ep; - void *state; - int (*read)(fz_stream *stm, unsigned char *buf, int len); - void (*close)(fz_context *ctx, void *state); - void (*seek)(fz_stream *stm, int offset, int whence); - unsigned char buf[4096]; -}; - -fz_stream *fz_new_stream(fz_context *ctx, void*, int(*)(fz_stream*, unsigned char*, int), void(*)(fz_context *, void *)); -fz_stream *fz_keep_stream(fz_stream *stm); -void fz_fill_buffer(fz_stream *stm); - -/* - fz_read_best: Attempt to read a stream into a buffer. If truncated - is NULL behaves as fz_read_all, otherwise does not throw exceptions - in the case of failure, but instead sets a truncated flag. - - stm: The stream to read from. - - initial: Suggested initial size for the buffer. - - truncated: Flag to store success/failure indication in. - - Returns a buffer created from reading from the stream. -*/ -fz_buffer *fz_read_best(fz_stream *stm, int initial, int *truncated); - -void fz_read_line(fz_stream *stm, char *buf, int max); - -static inline int fz_read_byte(fz_stream *stm) -{ - if (stm->rp == stm->wp) - { - fz_fill_buffer(stm); - return stm->rp < stm->wp ? *stm->rp++ : EOF; - } - return *stm->rp++; -} - -static inline int fz_peek_byte(fz_stream *stm) -{ - if (stm->rp == stm->wp) - { - fz_fill_buffer(stm); - return stm->rp < stm->wp ? *stm->rp : EOF; - } - return *stm->rp; -} - -static inline void fz_unread_byte(fz_stream *stm) -{ - if (stm->rp > stm->bp) - stm->rp--; -} - -static inline int fz_is_eof(fz_stream *stm) -{ - if (stm->rp == stm->wp) - { - if (stm->eof) - return 1; - return fz_peek_byte(stm) == EOF; - } - return 0; -} - -static inline unsigned int fz_read_bits(fz_stream *stm, int n) -{ - unsigned int x; - - if (n <= stm->avail) - { - stm->avail -= n; - x = (stm->bits >> stm->avail) & ((1 << n) - 1); - } - else - { - x = stm->bits & ((1 << stm->avail) - 1); - n -= stm->avail; - stm->avail = 0; - - while (n > 8) - { - x = (x << 8) | fz_read_byte(stm); - n -= 8; - } - - if (n > 0) - { - stm->bits = fz_read_byte(stm); - stm->avail = 8 - n; - x = (x << n) | (stm->bits >> stm->avail); - } - } - - return x; -} - -static inline void fz_sync_bits(fz_stream *stm) -{ - stm->avail = 0; -} - -static inline int fz_is_eof_bits(fz_stream *stm) -{ - return fz_is_eof(stm) && (stm->avail == 0 || stm->bits == EOF); -} - -static inline int fz_write_int32be(fz_output *out, int x) -{ - char data[4]; - - data[0] = x>>24; - data[1] = x>>16; - data[2] = x>>8; - data[3] = x; - - return fz_write(out, data, 4); -} - -static inline void -fz_write_byte(fz_output *out, int x) -{ - char data = x; - - fz_write(out, &data, 1); -} - -/* - * Data filters. - */ - -fz_stream *fz_open_copy(fz_stream *chain); -fz_stream *fz_open_null(fz_stream *chain, int len, int offset); -fz_stream *fz_open_concat(fz_context *ctx, int max, int pad); -void fz_concat_push(fz_stream *concat, fz_stream *chain); /* Ownership of chain is passed in */ -fz_stream *fz_open_arc4(fz_stream *chain, unsigned char *key, unsigned keylen); -fz_stream *fz_open_aesd(fz_stream *chain, unsigned char *key, unsigned keylen); -fz_stream *fz_open_a85d(fz_stream *chain); -fz_stream *fz_open_ahxd(fz_stream *chain); -fz_stream *fz_open_rld(fz_stream *chain); -fz_stream *fz_open_dctd(fz_stream *chain, int color_transform); -fz_stream *fz_open_resized_dctd(fz_stream *chain, int color_transform, int l2factor); -fz_stream *fz_open_faxd(fz_stream *chain, - int k, int end_of_line, int encoded_byte_align, - int columns, int rows, int end_of_block, int black_is_1); -fz_stream *fz_open_flated(fz_stream *chain); -fz_stream *fz_open_lzwd(fz_stream *chain, int early_change); -fz_stream *fz_open_predict(fz_stream *chain, int predictor, int columns, int colors, int bpc); -fz_stream *fz_open_jbig2d(fz_stream *chain, fz_buffer *global); - -/* - * Resources and other graphics related objects. - */ - -int fz_lookup_blendmode(char *name); -char *fz_blendmode_name(int blendmode); - -struct fz_bitmap_s -{ - int refs; - int w, h, stride, n; - int xres, yres; - unsigned char *samples; -}; - -fz_bitmap *fz_new_bitmap(fz_context *ctx, int w, int h, int n, int xres, int yres); - -void fz_bitmap_details(fz_bitmap *bitmap, int *w, int *h, int *n, int *stride); - -void fz_clear_bitmap(fz_context *ctx, fz_bitmap *bit); - -/* - Pixmaps represent a set of pixels for a 2 dimensional region of a - plane. Each pixel has n components per pixel, the last of which is - always alpha. The data is in premultiplied alpha when rendering, but - non-premultiplied for colorspace conversions and rescaling. - - x, y: The minimum x and y coord of the region in pixels. - - w, h: The width and height of the region in pixels. - - n: The number of color components in the image. Always - includes a separate alpha channel. For mask images n=1, for greyscale - (plus alpha) images n=2, for rgb (plus alpha) images n=3. - - interpolate: A boolean flag set to non-zero if the image - will be drawn using linear interpolation, or set to zero if - image will be using nearest neighbour sampling. - - xres, yres: Image resolution in dpi. Default is 96 dpi. - - colorspace: Pointer to a colorspace object describing the colorspace - the pixmap is in. If NULL, the image is a mask. - - samples: A simple block of memory w * h * n bytes of memory in which - the components are stored. The first n bytes are components 0 to n-1 - for the pixel at (x,y). Each successive n bytes gives another pixel - in scanline order. Subsequent scanlines follow on with no padding. - - free_samples: Is zero when an application has provided its own - buffer for pixel data through fz_new_pixmap_with_bbox_and_data. - If not zero the buffer will be freed when fz_drop_pixmap is - called for the pixmap. -*/ -struct fz_pixmap_s -{ - fz_storable storable; - int x, y, w, h, n; - int interpolate; - int xres, yres; - fz_colorspace *colorspace; - unsigned char *samples; - int free_samples; -}; - -void fz_free_pixmap_imp(fz_context *ctx, fz_storable *pix); - -void fz_copy_pixmap_rect(fz_context *ctx, fz_pixmap *dest, fz_pixmap *src, const fz_irect *r); -void fz_premultiply_pixmap(fz_context *ctx, fz_pixmap *pix); -fz_pixmap *fz_alpha_from_gray(fz_context *ctx, fz_pixmap *gray, int luminosity); -unsigned int fz_pixmap_size(fz_context *ctx, fz_pixmap *pix); - -fz_pixmap *fz_scale_pixmap(fz_context *ctx, fz_pixmap *src, float x, float y, float w, float h, fz_irect *clip); - -typedef struct fz_scale_cache_s fz_scale_cache; - -fz_scale_cache *fz_new_scale_cache(fz_context *ctx); -void fz_free_scale_cache(fz_context *ctx, fz_scale_cache *cache); -fz_pixmap *fz_scale_pixmap_cached(fz_context *ctx, fz_pixmap *src, float x, float y, float w, float h, const fz_irect *clip, fz_scale_cache *cache_x, fz_scale_cache *cache_y); - -void fz_subsample_pixmap(fz_context *ctx, fz_pixmap *tile, int factor); - -fz_irect *fz_pixmap_bbox_no_ctx(fz_pixmap *src, fz_irect *bbox); - -typedef struct fz_compression_params_s fz_compression_params; - -typedef struct fz_compressed_buffer_s fz_compressed_buffer; -unsigned int fz_compressed_buffer_size(fz_compressed_buffer *buffer); - -fz_stream *fz_open_compressed_buffer(fz_context *ctx, fz_compressed_buffer *); -fz_stream *fz_open_image_decomp_stream(fz_context *ctx, fz_compressed_buffer *, int *l2factor); - -enum -{ - FZ_IMAGE_UNKNOWN = 0, - FZ_IMAGE_JPEG = 1, - FZ_IMAGE_JPX = 2, /* Placeholder until supported */ - FZ_IMAGE_FAX = 3, - FZ_IMAGE_JBIG2 = 4, /* Placeholder until supported */ - FZ_IMAGE_RAW = 5, - FZ_IMAGE_RLD = 6, - FZ_IMAGE_FLATE = 7, - FZ_IMAGE_LZW = 8, - FZ_IMAGE_PNG = 9, - FZ_IMAGE_TIFF = 10 -}; - -struct fz_compression_params_s -{ - int type; - union { - struct { - int color_transform; - } jpeg; - struct { - int smask_in_data; - } jpx; - struct { - int columns; - int rows; - int k; - int end_of_line; - int encoded_byte_align; - int end_of_block; - int black_is_1; - int damaged_rows_before_error; - } fax; - struct - { - int columns; - int colors; - int predictor; - int bpc; - } - flate; - struct - { - int columns; - int colors; - int predictor; - int bpc; - int early_change; - } lzw; - } u; -}; - -struct fz_compressed_buffer_s -{ - fz_compression_params params; - fz_buffer *buffer; -}; - -void fz_free_compressed_buffer(fz_context *ctx, fz_compressed_buffer *buf); - -fz_image *fz_new_image(fz_context *ctx, int w, int h, int bpc, fz_colorspace *colorspace, int xres, int yres, int interpolate, int imagemask, float *decode, int *colorkey, fz_compressed_buffer *buffer, fz_image *mask); -fz_image *fz_new_image_from_pixmap(fz_context *ctx, fz_pixmap *pixmap, fz_image *mask); -fz_image *fz_new_image_from_data(fz_context *ctx, unsigned char *data, int len); -fz_image *fz_new_image_from_buffer(fz_context *ctx, fz_buffer *buffer); -fz_pixmap *fz_image_get_pixmap(fz_context *ctx, fz_image *image, int w, int h); -void fz_free_image(fz_context *ctx, fz_storable *image); -fz_pixmap *fz_decomp_image_from_stream(fz_context *ctx, fz_stream *stm, fz_image *image, int in_line, int indexed, int l2factor, int native_l2factor); -fz_pixmap *fz_expand_indexed_pixmap(fz_context *ctx, fz_pixmap *src); - -struct fz_image_s -{ - fz_storable storable; - int w, h, n, bpc; - fz_image *mask; - fz_colorspace *colorspace; - fz_pixmap *(*get_pixmap)(fz_context *, fz_image *, int w, int h); - fz_compressed_buffer *buffer; - int colorkey[FZ_MAX_COLORS * 2]; - float decode[FZ_MAX_COLORS * 2]; - int imagemask; - int interpolate; - int usecolorkey; - fz_pixmap *tile; /* Private to the implementation */ - int xres; /* As given in the image, not necessarily as rendered */ - int yres; /* As given in the image, not necessarily as rendered */ -}; - -fz_pixmap *fz_load_jpx(fz_context *ctx, unsigned char *data, int size, fz_colorspace *cs, int indexed); -fz_pixmap *fz_load_png(fz_context *ctx, unsigned char *data, int size); -fz_pixmap *fz_load_tiff(fz_context *ctx, unsigned char *data, int size); - -void fz_load_jpeg_info(fz_context *ctx, unsigned char *data, int size, int *w, int *h, int *xres, int *yres, fz_colorspace **cspace); -void fz_load_png_info(fz_context *ctx, unsigned char *data, int size, int *w, int *h, int *xres, int *yres, fz_colorspace **cspace); -void fz_load_tiff_info(fz_context *ctx, unsigned char *data, int size, int *w, int *h, int *xres, int *yres, fz_colorspace **cspace); - -struct fz_halftone_s -{ - int refs; - int n; - fz_pixmap *comp[1]; -}; - -fz_halftone *fz_new_halftone(fz_context *ctx, int num_comps); -fz_halftone *fz_default_halftone(fz_context *ctx, int num_comps); -void fz_drop_halftone(fz_context *ctx, fz_halftone *half); -fz_halftone *fz_keep_halftone(fz_context *ctx, fz_halftone *half); - -struct fz_colorspace_s -{ - fz_storable storable; - unsigned int size; - char name[16]; - int n; - void (*to_rgb)(fz_context *ctx, fz_colorspace *, float *src, float *rgb); - void (*from_rgb)(fz_context *ctx, fz_colorspace *, float *rgb, float *dst); - void (*free_data)(fz_context *Ctx, fz_colorspace *); - void *data; -}; - -fz_colorspace *fz_new_colorspace(fz_context *ctx, char *name, int n); -fz_colorspace *fz_new_indexed_colorspace(fz_context *ctx, fz_colorspace *base, int high, unsigned char *lookup); -fz_colorspace *fz_keep_colorspace(fz_context *ctx, fz_colorspace *colorspace); -void fz_drop_colorspace(fz_context *ctx, fz_colorspace *colorspace); -void fz_free_colorspace_imp(fz_context *ctx, fz_storable *colorspace); - -void fz_convert_color(fz_context *ctx, fz_colorspace *dsts, float *dstv, fz_colorspace *srcs, float *srcv); - -void fz_new_colorspace_context(fz_context *ctx); -fz_colorspace_context *fz_keep_colorspace_context(fz_context *ctx); -void fz_drop_colorspace_context(fz_context *ctx); - -typedef struct fz_color_converter_s fz_color_converter; - -/* This structure is public because it allows us to avoid dynamic allocations. - * Callers should only rely on the convert entry - the rest of the structure - * is subject to change without notice. - */ -struct fz_color_converter_s -{ - void (*convert)(fz_color_converter *, float *, float *); - fz_context *ctx; - fz_colorspace *ds; - fz_colorspace *ss; -}; - -void fz_lookup_color_converter(fz_color_converter *cc, fz_context *ctx, fz_colorspace *ds, fz_colorspace *ss); - -/* - * Fonts come in two variants: - * Regular fonts are handled by FreeType. - * Type 3 fonts have callbacks to the interpreter. - */ - -char *ft_error_string(int err); - -struct fz_font_s -{ - int refs; - char name[32]; - - void *ft_face; /* has an FT_Face if used */ - int ft_substitute; /* ... substitute metrics */ - int ft_bold; /* ... synthesize bold */ - int ft_italic; /* ... synthesize italic */ - int ft_hint; /* ... force hinting for DynaLab fonts */ - - /* origin of font data */ - char *ft_file; - unsigned char *ft_data; - int ft_size; - - fz_matrix t3matrix; - void *t3resources; - fz_buffer **t3procs; /* has 256 entries if used */ - fz_display_list **t3lists; /* has 256 entries if used */ - float *t3widths; /* has 256 entries if used */ - char *t3flags; /* has 256 entries if used */ - void *t3doc; /* a pdf_document for the callback */ - void (*t3run)(void *doc, void *resources, fz_buffer *contents, fz_device *dev, const fz_matrix *ctm, void *gstate, int nestedDepth); - void (*t3freeres)(void *doc, void *resources); - - fz_rect bbox; /* font bbox is used only for t3 fonts */ - - /* per glyph bounding box cache */ - int use_glyph_bbox; - int bbox_count; - fz_rect *bbox_table; - - /* substitute metrics */ - int width_count; - int *width_table; /* in 1000 units */ -}; - -void fz_new_font_context(fz_context *ctx); -fz_font_context *fz_keep_font_context(fz_context *ctx); -void fz_drop_font_context(fz_context *ctx); - -fz_font *fz_new_type3_font(fz_context *ctx, char *name, const fz_matrix *matrix); - -fz_font *fz_new_font_from_memory(fz_context *ctx, char *name, unsigned char *data, int len, int index, int use_glyph_bbox); -fz_font *fz_new_font_from_file(fz_context *ctx, char *name, char *path, int index, int use_glyph_bbox); - -fz_font *fz_keep_font(fz_context *ctx, fz_font *font); -void fz_drop_font(fz_context *ctx, fz_font *font); - -void fz_set_font_bbox(fz_context *ctx, fz_font *font, float xmin, float ymin, float xmax, float ymax); -fz_rect *fz_bound_glyph(fz_context *ctx, fz_font *font, int gid, const fz_matrix *trm, fz_rect *r); -int fz_glyph_cacheable(fz_context *ctx, fz_font *font, int gid); - -#ifndef NDEBUG -void fz_print_font(fz_context *ctx, FILE *out, fz_font *font); -#endif - -/* - * Vector path buffer. - * It can be stroked and dashed, or be filled. - * It has a fill rule (nonzero or even_odd). - * - * When rendering, they are flattened, stroked and dashed straight - * into the Global Edge List. - */ - -typedef struct fz_path_s fz_path; -typedef struct fz_stroke_state_s fz_stroke_state; - -typedef union fz_path_item_s fz_path_item; - -typedef enum fz_path_item_kind_e -{ - FZ_MOVETO, - FZ_LINETO, - FZ_CURVETO, - FZ_CLOSE_PATH -} fz_path_item_kind; - -typedef enum fz_linecap_e -{ - FZ_LINECAP_BUTT = 0, - FZ_LINECAP_ROUND = 1, - FZ_LINECAP_SQUARE = 2, - FZ_LINECAP_TRIANGLE = 3 -} fz_linecap; - -typedef enum fz_linejoin_e -{ - FZ_LINEJOIN_MITER = 0, - FZ_LINEJOIN_ROUND = 1, - FZ_LINEJOIN_BEVEL = 2, - FZ_LINEJOIN_MITER_XPS = 3 -} fz_linejoin; - -union fz_path_item_s -{ - fz_path_item_kind k; - float v; -}; - -struct fz_path_s -{ - int len, cap; - fz_path_item *items; - int last; -}; - -struct fz_stroke_state_s -{ - int refs; - fz_linecap start_cap, dash_cap, end_cap; - fz_linejoin linejoin; - float linewidth; - float miterlimit; - float dash_phase; - int dash_len; - float dash_list[32]; -}; - -fz_path *fz_new_path(fz_context *ctx); -fz_point fz_currentpoint(fz_context *ctx, fz_path *path); -void fz_moveto(fz_context*, fz_path*, float x, float y); -void fz_lineto(fz_context*, fz_path*, float x, float y); -void fz_curveto(fz_context*,fz_path*, float, float, float, float, float, float); -void fz_curvetov(fz_context*,fz_path*, float, float, float, float); -void fz_curvetoy(fz_context*,fz_path*, float, float, float, float); -void fz_closepath(fz_context*,fz_path*); -void fz_free_path(fz_context *ctx, fz_path *path); - -void fz_transform_path(fz_context *ctx, fz_path *path, const fz_matrix *transform); - -fz_path *fz_clone_path(fz_context *ctx, fz_path *old); - -fz_rect *fz_bound_path(fz_context *ctx, fz_path *path, const fz_stroke_state *stroke, const fz_matrix *ctm, fz_rect *r); -fz_rect *fz_adjust_rect_for_stroke(fz_rect *r, const fz_stroke_state *stroke, const fz_matrix *ctm); - -fz_stroke_state *fz_new_stroke_state(fz_context *ctx); -fz_stroke_state *fz_new_stroke_state_with_len(fz_context *ctx, int len); -fz_stroke_state *fz_keep_stroke_state(fz_context *ctx, fz_stroke_state *stroke); -void fz_drop_stroke_state(fz_context *ctx, fz_stroke_state *stroke); -fz_stroke_state *fz_unshare_stroke_state(fz_context *ctx, fz_stroke_state *shared); -fz_stroke_state *fz_unshare_stroke_state_with_len(fz_context *ctx, fz_stroke_state *shared, int len); - -#ifndef NDEBUG -void fz_print_path(fz_context *ctx, FILE *out, fz_path *, int indent); -#endif - -/* - * Glyph cache - */ - -void fz_new_glyph_cache_context(fz_context *ctx); -fz_glyph_cache *fz_keep_glyph_cache(fz_context *ctx); -void fz_drop_glyph_cache_context(fz_context *ctx); -void fz_purge_glyph_cache(fz_context *ctx); - -fz_path *fz_outline_ft_glyph(fz_context *ctx, fz_font *font, int gid, const fz_matrix *trm); -fz_path *fz_outline_glyph(fz_context *ctx, fz_font *font, int gid, const fz_matrix *ctm); -fz_pixmap *fz_render_ft_glyph(fz_context *ctx, fz_font *font, int cid, const fz_matrix *trm, int aa); -fz_pixmap *fz_render_t3_glyph(fz_context *ctx, fz_font *font, int cid, const fz_matrix *trm, fz_colorspace *model, fz_irect scissor); -fz_pixmap *fz_render_ft_stroked_glyph(fz_context *ctx, fz_font *font, int gid, const fz_matrix *trm, const fz_matrix *ctm, fz_stroke_state *state); -fz_pixmap *fz_render_glyph(fz_context *ctx, fz_font*, int, const fz_matrix *, fz_colorspace *model, fz_irect scissor); -fz_pixmap *fz_render_stroked_glyph(fz_context *ctx, fz_font*, int, const fz_matrix *, const fz_matrix *, fz_stroke_state *stroke, fz_irect scissor); -void fz_render_t3_glyph_direct(fz_context *ctx, fz_device *dev, fz_font *font, int gid, const fz_matrix *trm, void *gstate, int nestedDepth); -void fz_prepare_t3_glyph(fz_context *ctx, fz_font *font, int gid, int nestedDepth); - -/* - * Text buffer. - * - * The trm field contains the a, b, c and d coefficients. - * The e and f coefficients come from the individual elements, - * together they form the transform matrix for the glyph. - * - * Glyphs are referenced by glyph ID. - * The Unicode text equivalent is kept in a separate array - * with indexes into the glyph array. - */ - -typedef struct fz_text_s fz_text; -typedef struct fz_text_item_s fz_text_item; - -struct fz_text_item_s -{ - float x, y; - int gid; /* -1 for one gid to many ucs mappings */ - int ucs; /* -1 for one ucs to many gid mappings */ -}; - -struct fz_text_s -{ - fz_font *font; - fz_matrix trm; - int wmode; - int len, cap; - fz_text_item *items; -}; - -fz_text *fz_new_text(fz_context *ctx, fz_font *face, const fz_matrix *trm, int wmode); -void fz_add_text(fz_context *ctx, fz_text *text, int gid, int ucs, float x, float y); -void fz_free_text(fz_context *ctx, fz_text *text); -fz_rect *fz_bound_text(fz_context *ctx, fz_text *text, const fz_stroke_state *stroke, const fz_matrix *ctm, fz_rect *r); -fz_text *fz_clone_text(fz_context *ctx, fz_text *old); -void fz_print_text(fz_context *ctx, FILE *out, fz_text*); - -/* - * The generic function support. - */ - -typedef struct fz_function_s fz_function; - -void fz_eval_function(fz_context *ctx, fz_function *func, float *in, int inlen, float *out, int outlen); -fz_function *fz_keep_function(fz_context *ctx, fz_function *func); -void fz_drop_function(fz_context *ctx, fz_function *func); -unsigned int fz_function_size(fz_function *func); -#ifndef DEBUG -void pdf_debug_function(fz_function *func); -#endif - -enum -{ - FZ_FN_MAXN = FZ_MAX_COLORS, - FZ_FN_MAXM = FZ_MAX_COLORS -}; - -struct fz_function_s -{ - fz_storable storable; - unsigned int size; - int m; /* number of input values */ - int n; /* number of output values */ - void (*evaluate)(fz_context *ctx, fz_function *func, float *in, float *out); -#ifndef NDEBUG - void (*debug)(fz_function *func); -#endif -}; - -/* - * The shading code uses gouraud shaded triangle meshes. - */ - -enum -{ - FZ_FUNCTION_BASED = 1, - FZ_LINEAR = 2, - FZ_RADIAL = 3, - FZ_MESH_TYPE4 = 4, - FZ_MESH_TYPE5 = 5, - FZ_MESH_TYPE6 = 6, - FZ_MESH_TYPE7 = 7 -}; - -typedef struct fz_shade_s fz_shade; - -struct fz_shade_s -{ - fz_storable storable; - - fz_rect bbox; /* can be fz_infinite_rect */ - fz_colorspace *colorspace; - - fz_matrix matrix; /* matrix from pattern dict */ - int use_background; /* background color for fills but not 'sh' */ - float background[FZ_MAX_COLORS]; - - int use_function; - float function[256][FZ_MAX_COLORS + 1]; - - int type; /* function, linear, radial, mesh */ - union - { - struct - { - int extend[2]; - float coords[2][3]; /* (x,y,r) twice */ - } l_or_r; - struct - { - int vprow; - int bpflag; - int bpcoord; - int bpcomp; - float x0, x1; - float y0, y1; - float c0[FZ_MAX_COLORS]; - float c1[FZ_MAX_COLORS]; - } m; - struct - { - fz_matrix matrix; - int xdivs; - int ydivs; - float domain[2][2]; - float *fn_vals; - } f; - } u; - - fz_compressed_buffer *buffer; -}; - -fz_shade *fz_keep_shade(fz_context *ctx, fz_shade *shade); -void fz_drop_shade(fz_context *ctx, fz_shade *shade); -void fz_free_shade_imp(fz_context *ctx, fz_storable *shade); - -fz_rect *fz_bound_shade(fz_context *ctx, fz_shade *shade, const fz_matrix *ctm, fz_rect *r); -void fz_paint_shade(fz_context *ctx, fz_shade *shade, const fz_matrix *ctm, fz_pixmap *dest, const fz_irect *bbox); - -/* - * Handy routine for processing mesh based shades - */ -typedef struct fz_vertex_s fz_vertex; - -struct fz_vertex_s -{ - fz_point p; - float c[FZ_MAX_COLORS]; -}; - -typedef struct fz_mesh_processor_s fz_mesh_processor; - -typedef void (fz_mesh_process_fn)(void *arg, fz_vertex *av, fz_vertex *bv, fz_vertex *cv); - -struct fz_mesh_processor_s { - fz_context *ctx; - fz_shade *shade; - fz_mesh_process_fn *process; - void *process_arg; - int ncomp; -}; - -void fz_process_mesh(fz_context *ctx, fz_shade *shade, const fz_matrix *ctm, - fz_mesh_process_fn *process, void *process_arg); - -#ifndef NDEBUG -void fz_print_shade(fz_context *ctx, FILE *out, fz_shade *shade); -#endif - -/* - * Scan converter - */ - -typedef struct fz_gel_s fz_gel; - -fz_gel *fz_new_gel(fz_context *ctx); -void fz_insert_gel(fz_gel *gel, float x0, float y0, float x1, float y1); -void fz_reset_gel(fz_gel *gel, const fz_irect *clip); -void fz_sort_gel(fz_gel *gel); -fz_irect *fz_bound_gel(const fz_gel *gel, fz_irect *bbox); -void fz_free_gel(fz_gel *gel); -int fz_is_rect_gel(fz_gel *gel); - -void fz_scan_convert(fz_gel *gel, int eofill, const fz_irect *clip, fz_pixmap *pix, unsigned char *colorbv); - -void fz_flatten_fill_path(fz_gel *gel, fz_path *path, const fz_matrix *ctm, float flatness); -void fz_flatten_stroke_path(fz_gel *gel, fz_path *path, const fz_stroke_state *stroke, const fz_matrix *ctm, float flatness, float linewidth); -void fz_flatten_dash_path(fz_gel *gel, fz_path *path, const fz_stroke_state *stroke, const fz_matrix *ctm, float flatness, float linewidth); - -fz_irect *fz_bound_path_accurate(fz_context *ctx, fz_irect *bbox, const fz_irect *scissor, fz_path *path, const fz_stroke_state *stroke, const fz_matrix *ctm, float flatness, float linewidth); - -/* - * The device interface. - */ - -fz_device *fz_new_draw_device_type3(fz_context *ctx, fz_pixmap *dest); - -enum -{ - /* Flags */ - FZ_DEVFLAG_MASK = 1, - FZ_DEVFLAG_COLOR = 2, - FZ_DEVFLAG_UNCACHEABLE = 4, - FZ_DEVFLAG_FILLCOLOR_UNDEFINED = 8, - FZ_DEVFLAG_STROKECOLOR_UNDEFINED = 16, - FZ_DEVFLAG_STARTCAP_UNDEFINED = 32, - FZ_DEVFLAG_DASHCAP_UNDEFINED = 64, - FZ_DEVFLAG_ENDCAP_UNDEFINED = 128, - FZ_DEVFLAG_LINEJOIN_UNDEFINED = 256, - FZ_DEVFLAG_MITERLIMIT_UNDEFINED = 512, - FZ_DEVFLAG_LINEWIDTH_UNDEFINED = 1024, - /* Arguably we should have a bit for the dash pattern itself being - * undefined, but that causes problems; do we assume that it should - * always be set to non-dashing at the start of every glyph? */ -}; - -struct fz_device_s -{ - int hints; - int flags; - - void *user; - void (*free_user)(fz_device *); - fz_context *ctx; - - void (*begin_page)(fz_device *, const fz_rect *rect, const fz_matrix *ctm); - void (*end_page)(fz_device *); - - void (*fill_path)(fz_device *, fz_path *, int even_odd, const fz_matrix *, fz_colorspace *, float *color, float alpha); - void (*stroke_path)(fz_device *, fz_path *, fz_stroke_state *, const fz_matrix *, fz_colorspace *, float *color, float alpha); - void (*clip_path)(fz_device *, fz_path *, const fz_rect *rect, int even_odd, const fz_matrix *); - void (*clip_stroke_path)(fz_device *, fz_path *, const fz_rect *rect, fz_stroke_state *, const fz_matrix *); - - void (*fill_text)(fz_device *, fz_text *, const fz_matrix *, fz_colorspace *, float *color, float alpha); - void (*stroke_text)(fz_device *, fz_text *, fz_stroke_state *, const fz_matrix *, fz_colorspace *, float *color, float alpha); - void (*clip_text)(fz_device *, fz_text *, const fz_matrix *, int accumulate); - void (*clip_stroke_text)(fz_device *, fz_text *, fz_stroke_state *, const fz_matrix *); - void (*ignore_text)(fz_device *, fz_text *, const fz_matrix *); - - void (*fill_shade)(fz_device *, fz_shade *shd, const fz_matrix *ctm, float alpha); - void (*fill_image)(fz_device *, fz_image *img, const fz_matrix *ctm, float alpha); - void (*fill_image_mask)(fz_device *, fz_image *img, const fz_matrix *ctm, fz_colorspace *, float *color, float alpha); - void (*clip_image_mask)(fz_device *, fz_image *img, const fz_rect *rect, const fz_matrix *ctm); - - void (*pop_clip)(fz_device *); - - void (*begin_mask)(fz_device *, const fz_rect *, int luminosity, fz_colorspace *, float *bc); - void (*end_mask)(fz_device *); - void (*begin_group)(fz_device *, const fz_rect *, int isolated, int knockout, int blendmode, float alpha); - void (*end_group)(fz_device *); - - int (*begin_tile)(fz_device *, const fz_rect *area, const fz_rect *view, float xstep, float ystep, const fz_matrix *ctm, int id); - void (*end_tile)(fz_device *); - - int error_depth; - char errmess[256]; -}; - -void fz_begin_page(fz_device *dev, const fz_rect *rect, const fz_matrix *ctm); -void fz_end_page(fz_device *dev); -void fz_fill_path(fz_device *dev, fz_path *path, int even_odd, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha); -void fz_stroke_path(fz_device *dev, fz_path *path, fz_stroke_state *stroke, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha); -void fz_clip_path(fz_device *dev, fz_path *path, const fz_rect *rect, int even_odd, const fz_matrix *ctm); -void fz_clip_stroke_path(fz_device *dev, fz_path *path, const fz_rect *rect, fz_stroke_state *stroke, const fz_matrix *ctm); -void fz_fill_text(fz_device *dev, fz_text *text, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha); -void fz_stroke_text(fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha); -void fz_clip_text(fz_device *dev, fz_text *text, const fz_matrix *ctm, int accumulate); -void fz_clip_stroke_text(fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm); -void fz_ignore_text(fz_device *dev, fz_text *text, const fz_matrix *ctm); -void fz_pop_clip(fz_device *dev); -void fz_fill_shade(fz_device *dev, fz_shade *shade, const fz_matrix *ctm, float alpha); -void fz_fill_image(fz_device *dev, fz_image *image, const fz_matrix *ctm, float alpha); -void fz_fill_image_mask(fz_device *dev, fz_image *image, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha); -void fz_clip_image_mask(fz_device *dev, fz_image *image, const fz_rect *rect, const fz_matrix *ctm); -void fz_begin_mask(fz_device *dev, const fz_rect *area, int luminosity, fz_colorspace *colorspace, float *bc); -void fz_end_mask(fz_device *dev); -void fz_begin_group(fz_device *dev, const fz_rect *area, int isolated, int knockout, int blendmode, float alpha); -void fz_end_group(fz_device *dev); -void fz_begin_tile(fz_device *dev, const fz_rect *area, const fz_rect *view, float xstep, float ystep, const fz_matrix *ctm); -int fz_begin_tile_id(fz_device *dev, const fz_rect *area, const fz_rect *view, float xstep, float ystep, const fz_matrix *ctm, int id); -void fz_end_tile(fz_device *dev); - -fz_device *fz_new_device(fz_context *ctx, void *user); - -/* - * Plotting functions. - */ - -void fz_decode_tile(fz_pixmap *pix, float *decode); -void fz_decode_indexed_tile(fz_pixmap *pix, float *decode, int maxval); -void fz_unpack_tile(fz_pixmap *dst, unsigned char * restrict src, int n, int depth, int stride, int scale); - -void fz_paint_solid_alpha(unsigned char * restrict dp, int w, int alpha); -void fz_paint_solid_color(unsigned char * restrict dp, int n, int w, unsigned char *color); - -void fz_paint_span(unsigned char * restrict dp, unsigned char * restrict sp, int n, int w, int alpha); -void fz_paint_span_with_color(unsigned char * restrict dp, unsigned char * restrict mp, int n, int w, unsigned char *color); - -void fz_paint_image(fz_pixmap *dst, const fz_irect *scissor, fz_pixmap *shape, fz_pixmap *img, const fz_matrix *ctm, int alpha); -void fz_paint_image_with_color(fz_pixmap *dst, const fz_irect *scissor, fz_pixmap *shape, fz_pixmap *img, const fz_matrix *ctm, unsigned char *colorbv); - -void fz_paint_pixmap(fz_pixmap *dst, fz_pixmap *src, int alpha); -void fz_paint_pixmap_with_mask(fz_pixmap *dst, fz_pixmap *src, fz_pixmap *msk); -void fz_paint_pixmap_with_bbox(fz_pixmap *dst, fz_pixmap *src, int alpha, fz_irect bbox); - -void fz_blend_pixmap(fz_pixmap *dst, fz_pixmap *src, int alpha, int blendmode, int isolated, fz_pixmap *shape); -void fz_blend_pixel(unsigned char dp[3], unsigned char bp[3], unsigned char sp[3], int blendmode); - -enum -{ - /* PDF 1.4 -- standard separable */ - FZ_BLEND_NORMAL, - FZ_BLEND_MULTIPLY, - FZ_BLEND_SCREEN, - FZ_BLEND_OVERLAY, - FZ_BLEND_DARKEN, - FZ_BLEND_LIGHTEN, - FZ_BLEND_COLOR_DODGE, - FZ_BLEND_COLOR_BURN, - FZ_BLEND_HARD_LIGHT, - FZ_BLEND_SOFT_LIGHT, - FZ_BLEND_DIFFERENCE, - FZ_BLEND_EXCLUSION, - - /* PDF 1.4 -- standard non-separable */ - FZ_BLEND_HUE, - FZ_BLEND_SATURATION, - FZ_BLEND_COLOR, - FZ_BLEND_LUMINOSITY, - - /* For packing purposes */ - FZ_BLEND_MODEMASK = 15, - FZ_BLEND_ISOLATED = 16, - FZ_BLEND_KNOCKOUT = 32 -}; - -struct fz_document_s -{ - void (*close)(fz_document *); - int (*needs_password)(fz_document *doc); - int (*authenticate_password)(fz_document *doc, char *password); - fz_outline *(*load_outline)(fz_document *doc); - int (*count_pages)(fz_document *doc); - fz_page *(*load_page)(fz_document *doc, int number); - fz_link *(*load_links)(fz_document *doc, fz_page *page); - fz_rect *(*bound_page)(fz_document *doc, fz_page *page, fz_rect *); - void (*run_page_contents)(fz_document *doc, fz_page *page, fz_device *dev, const fz_matrix *transform, fz_cookie *cookie); - void (*run_annot)(fz_document *doc, fz_page *page, fz_annot *annot, fz_device *dev, const fz_matrix *transform, fz_cookie *cookie); - void (*free_page)(fz_document *doc, fz_page *page); - int (*meta)(fz_document *doc, int key, void *ptr, int size); - fz_transition *(*page_presentation)(fz_document *doc, fz_page *page, float *duration); - void (*write)(fz_document *doc, char *filename, fz_write_options *opts); - fz_annot *(*first_annot)(fz_document *doc, fz_page *page); - fz_annot *(*next_annot)(fz_document *doc, fz_annot *annot); - fz_rect *(*bound_annot)(fz_document *doc, fz_annot *annot, fz_rect *rect); -}; - -#endif diff --git a/fitz/fitz.h b/fitz/fitz.h deleted file mode 100644 index e3427baf..00000000 --- a/fitz/fitz.h +++ /dev/null @@ -1,3190 +0,0 @@ -#ifndef FITZ_H -#define FITZ_H - -/* - Include the standard libc headers. -*/ - -#include <stdio.h> -#include <stdlib.h> -#include <stddef.h> -#include <stdarg.h> -#include <string.h> -#include <math.h> - -#include <assert.h> -#include <errno.h> -#include <limits.h> /* INT_MAX & co */ -#include <float.h> /* FLT_EPSILON, FLT_MAX & co */ -#include <fcntl.h> /* O_RDONLY & co */ -#include <time.h> - -#include <setjmp.h> - -#include "memento.h" - -#ifdef __APPLE__ -#define HAVE_SIGSETJMP -#elif defined(__unix) -#define HAVE_SIGSETJMP -#endif - -#ifdef __ANDROID__ -#include <android/log.h> -#define LOG_TAG "libmupdf" -#define LOGI(...) __android_log_print(ANDROID_LOG_INFO,LOG_TAG,__VA_ARGS__) -#define LOGE(...) __android_log_print(ANDROID_LOG_ERROR,LOG_TAG,__VA_ARGS__) -#else -#define LOGI(...) do {} while(0) -#define LOGE(...) do {} while(0) -#endif - -#define nelem(x) (sizeof(x)/sizeof((x)[0])) - -/* - Some differences in libc can be smoothed over -*/ - -#ifdef _MSC_VER /* Microsoft Visual C */ - -#pragma warning( disable: 4244 ) /* conversion from X to Y, possible loss of data */ -#pragma warning( disable: 4996 ) /* The POSIX name for this item is deprecated */ -#pragma warning( disable: 4996 ) /* This function or variable may be unsafe */ - -#include <io.h> - -int gettimeofday(struct timeval *tv, struct timezone *tz); - -#define snprintf _snprintf -#define isnan _isnan -#define hypotf _hypotf - -#define fopen fz_fopen_utf8 - -char *fz_utf8_from_wchar(const wchar_t *s); -wchar_t *fz_wchar_from_utf8(const char *s); - -FILE *fz_fopen_utf8(const char *name, const char *mode); -char **fz_argv_from_wargv(int argc, wchar_t **wargv); -void fz_free_argv(int argc, char **argv); - -#else /* Unix or close enough */ - -#include <unistd.h> - -#ifndef O_BINARY -#define O_BINARY 0 - -#endif - -#endif - -#ifndef M_PI -#define M_PI 3.14159265358979323846 -#endif - -#ifndef M_SQRT2 -#define M_SQRT2 1.41421356237309504880 -#endif - -/* - Variadic macros, inline and restrict keywords - - inline is standard in C++, so don't touch the definition in this case. - For some compilers we can enable it within C too. -*/ - -#ifndef __cplusplus -#if __STDC_VERSION__ == 199901L /* C99 */ -#elif _MSC_VER >= 1500 /* MSVC 9 or newer */ -#define inline __inline -#elif __GNUC__ >= 3 /* GCC 3 or newer */ -#define inline __inline -#else /* Unknown or ancient */ -#define inline -#endif -#endif - -/* - restrict is standard in C99, but not in all C++ compilers. Enable - where possible, disable if in doubt. - */ -#if __STDC_VERSION__ == 199901L /* C99 */ -#elif _MSC_VER >= 1500 /* MSVC 9 or newer */ -#define restrict __restrict -#elif __GNUC__ >= 3 /* GCC 3 or newer */ -#define restrict __restrict -#else /* Unknown or ancient */ -#define restrict -#endif - -/* noreturn is a GCC extension */ -#ifdef __GNUC__ -#define FZ_NORETURN __attribute__((noreturn)) -#else -#define FZ_NORETURN -#endif - -/* - GCC can do type checking of printf strings -*/ - -#ifndef __printflike -#if __GNUC__ > 2 || __GNUC__ == 2 && __GNUC_MINOR__ >= 7 -#define __printflike(fmtarg, firstvararg) \ - __attribute__((__format__ (__printf__, fmtarg, firstvararg))) -#else -#define __printflike(fmtarg, firstvararg) -#endif -#endif - -/* - Shut the compiler up about unused variables -*/ -#define UNUSED(x) do { x = x; } while (0) - -/* - Some standard math functions, done as static inlines for speed. - People with compilers that do not adequately implement inlines may - like to reimplement these using macros. -*/ -static inline float fz_abs(float f) -{ - return (f < 0 ? -f : f); -} - -static inline int fz_absi(int i) -{ - return (i < 0 ? -i : i); -} - -static inline float fz_min(float a, float b) -{ - return (a < b ? a : b); -} - -static inline int fz_mini(int a, int b) -{ - return (a < b ? a : b); -} - -static inline float fz_max(float a, float b) -{ - return (a > b ? a : b); -} - -static inline int fz_maxi(int a, int b) -{ - return (a > b ? a : b); -} - -static inline float fz_clamp(float f, float min, float max) -{ - return (f > min ? (f < max ? f : max) : min); -} - -static inline int fz_clampi(int i, int min, int max) -{ - return (i > min ? (i < max ? i : max) : min); -} - -static inline double fz_clampd(double d, double min, double max) -{ - return (d > min ? (d < max ? d : max) : min); -} - -static inline void *fz_clampp(void *p, void *min, void *max) -{ - return (p > min ? (p < max ? p : max) : min); -} - -#define DIV_BY_ZERO(a, b, min, max) (((a) < 0) ^ ((b) < 0) ? (min) : (max)) - -/* - Contexts -*/ - -typedef struct fz_alloc_context_s fz_alloc_context; -typedef struct fz_error_context_s fz_error_context; -typedef struct fz_id_context_s fz_id_context; -typedef struct fz_warn_context_s fz_warn_context; -typedef struct fz_font_context_s fz_font_context; -typedef struct fz_colorspace_context_s fz_colorspace_context; -typedef struct fz_aa_context_s fz_aa_context; -typedef struct fz_locks_context_s fz_locks_context; -typedef struct fz_store_s fz_store; -typedef struct fz_glyph_cache_s fz_glyph_cache; -typedef struct fz_context_s fz_context; - -struct fz_alloc_context_s -{ - void *user; - void *(*malloc)(void *, unsigned int); - void *(*realloc)(void *, void *, unsigned int); - void (*free)(void *, void *); -}; - -/* - Where possible (i.e. on platforms on which they are provided), use - sigsetjmp/siglongjmp in preference to setjmp/longjmp. We don't alter - signal handlers within mupdf, so there is no need for us to - store/restore them - hence we use the non-restoring variants. This - makes a large speed difference on MacOSX (and probably other - platforms too. -*/ -#ifdef HAVE_SIGSETJMP -#define fz_setjmp(BUF) sigsetjmp(BUF, 0) -#define fz_longjmp(BUF,VAL) siglongjmp(BUF, VAL) -#define fz_jmp_buf sigjmp_buf -#else -#define fz_setjmp(BUF) setjmp(BUF) -#define fz_longjmp(BUF,VAL) longjmp(BUF,VAL) -#define fz_jmp_buf jmp_buf -#endif - -struct fz_error_context_s -{ - int top; - struct { - int code; - fz_jmp_buf buffer; - } stack[256]; - char message[256]; -}; - -void fz_var_imp(void *); -#define fz_var(var) fz_var_imp((void *)&(var)) - -/* - Exception macro definitions. Just treat these as a black box - pay no - attention to the man behind the curtain. -*/ - -#define fz_try(ctx) \ - if (fz_push_try(ctx->error) && \ - ((ctx->error->stack[ctx->error->top].code = fz_setjmp(ctx->error->stack[ctx->error->top].buffer)) == 0))\ - { do { - -#define fz_always(ctx) \ - } while (0); \ - } \ - if (ctx->error->stack[ctx->error->top].code < 3) \ - { \ - ctx->error->stack[ctx->error->top].code++; \ - do { \ - -#define fz_catch(ctx) \ - } while(0); \ - } \ - if (ctx->error->stack[ctx->error->top--].code > 1) - -int fz_push_try(fz_error_context *ex); -void fz_throw(fz_context *, const char *, ...) __printflike(2, 3) FZ_NORETURN; -void fz_rethrow(fz_context *) FZ_NORETURN; -void fz_warn(fz_context *ctx, const char *fmt, ...) __printflike(2, 3); -const char *fz_caught(fz_context *ctx); - -/* - fz_flush_warnings: Flush any repeated warnings. - - Repeated warnings are buffered, counted and eventually printed - along with the number of repetitions. Call fz_flush_warnings - to force printing of the latest buffered warning and the - number of repetitions, for example to make sure that all - warnings are printed before exiting an application. - - Does not throw exceptions. -*/ -void fz_flush_warnings(fz_context *ctx); - -struct fz_context_s -{ - fz_alloc_context *alloc; - fz_locks_context *locks; - fz_id_context *id; - fz_error_context *error; - fz_warn_context *warn; - fz_font_context *font; - fz_colorspace_context *colorspace; - fz_aa_context *aa; - fz_store *store; - fz_glyph_cache *glyph_cache; -}; - -/* - Specifies the maximum size in bytes of the resource store in - fz_context. Given as argument to fz_new_context. - - FZ_STORE_UNLIMITED: Let resource store grow unbounded. - - FZ_STORE_DEFAULT: A reasonable upper bound on the size, for - devices that are not memory constrained. -*/ -enum { - FZ_STORE_UNLIMITED = 0, - FZ_STORE_DEFAULT = 256 << 20, -}; - -/* - fz_new_context: Allocate context containing global state. - - The global state contains an exception stack, resource store, - etc. Most functions in MuPDF take a context argument to be - able to reference the global state. See fz_free_context for - freeing an allocated context. - - alloc: Supply a custom memory allocator through a set of - function pointers. Set to NULL for the standard library - allocator. The context will keep the allocator pointer, so the - data it points to must not be modified or freed during the - lifetime of the context. - - locks: Supply a set of locks and functions to lock/unlock - them, intended for multi-threaded applications. Set to NULL - when using MuPDF in a single-threaded applications. The - context will keep the locks pointer, so the data it points to - must not be modified or freed during the lifetime of the - context. - - max_store: Maximum size in bytes of the resource store, before - it will start evicting cached resources such as fonts and - images. FZ_STORE_UNLIMITED can be used if a hard limit is not - desired. Use FZ_STORE_DEFAULT to get a reasonable size. - - Does not throw exceptions, but may return NULL. -*/ -fz_context *fz_new_context(fz_alloc_context *alloc, fz_locks_context *locks, unsigned int max_store); - -/* - fz_clone_context: Make a clone of an existing context. - - This function is meant to be used in multi-threaded - applications where each thread requires its own context, yet - parts of the global state, for example caching, is shared. - - ctx: Context obtained from fz_new_context to make a copy of. - ctx must have had locks and lock/functions setup when created. - The two contexts will share the memory allocator, resource - store, locks and lock/unlock functions. They will each have - their own exception stacks though. - - Does not throw exception, but may return NULL. -*/ -fz_context *fz_clone_context(fz_context *ctx); - -/* - fz_free_context: Free a context and its global state. - - The context and all of its global state is freed, and any - buffered warnings are flushed (see fz_flush_warnings). If NULL - is passed in nothing will happen. - - Does not throw exceptions. -*/ -void fz_free_context(fz_context *ctx); - -/* - fz_aa_level: Get the number of bits of antialiasing we are - using. Between 0 and 8. -*/ -int fz_aa_level(fz_context *ctx); - -/* - fz_set_aa_level: Set the number of bits of antialiasing we should use. - - bits: The number of bits of antialiasing to use (values are clamped - to within the 0 to 8 range). -*/ -void fz_set_aa_level(fz_context *ctx, int bits); - -/* - Locking functions - - MuPDF is kept deliberately free of any knowledge of particular - threading systems. As such, in order for safe multi-threaded - operation, we rely on callbacks to client provided functions. - - A client is expected to provide FZ_LOCK_MAX number of mutexes, - and a function to lock/unlock each of them. These may be - recursive mutexes, but do not have to be. - - If a client does not intend to use multiple threads, then it - may pass NULL instead of a lock structure. - - In order to avoid deadlocks, we have one simple rule - internally as to how we use locks: We can never take lock n - when we already hold any lock i, where 0 <= i <= n. In order - to verify this, we have some debugging code, that can be - enabled by defining FITZ_DEBUG_LOCKING. -*/ - -struct fz_locks_context_s -{ - void *user; - void (*lock)(void *user, int lock); - void (*unlock)(void *user, int lock); -}; - -enum { - FZ_LOCK_ALLOC = 0, - FZ_LOCK_FILE, - FZ_LOCK_FREETYPE, - FZ_LOCK_GLYPHCACHE, - FZ_LOCK_MAX -}; - -/* - Memory Allocation and Scavenging: - - All calls to MuPDFs allocator functions pass through to the - underlying allocators passed in when the initial context is - created, after locks are taken (using the supplied locking function) - to ensure that only one thread at a time calls through. - - If the underlying allocator fails, MuPDF attempts to make room for - the allocation by evicting elements from the store, then retrying. - - Any call to allocate may then result in several calls to the underlying - allocator, and result in elements that are only referred to by the - store being freed. -*/ - -/* - fz_malloc: Allocate a block of memory (with scavenging) - - size: The number of bytes to allocate. - - Returns a pointer to the allocated block. May return NULL if size is - 0. Throws exception on failure to allocate. -*/ -void *fz_malloc(fz_context *ctx, unsigned int size); - -/* - fz_calloc: Allocate a zeroed block of memory (with scavenging) - - count: The number of objects to allocate space for. - - size: The size (in bytes) of each object. - - Returns a pointer to the allocated block. May return NULL if size - and/or count are 0. Throws exception on failure to allocate. -*/ -void *fz_calloc(fz_context *ctx, unsigned int count, unsigned int size); - -/* - fz_malloc_struct: Allocate storage for a structure (with scavenging), - clear it, and (in Memento builds) tag the pointer as belonging to a - struct of this type. - - CTX: The context. - - STRUCT: The structure type. - - Returns a pointer to allocated (and cleared) structure. Throws - exception on failure to allocate. -*/ -#define fz_malloc_struct(CTX, STRUCT) \ - ((STRUCT *)Memento_label(fz_calloc(CTX,1,sizeof(STRUCT)), #STRUCT)) - -/* - fz_malloc_array: Allocate a block of (non zeroed) memory (with - scavenging). Equivalent to fz_calloc without the memory clearing. - - count: The number of objects to allocate space for. - - size: The size (in bytes) of each object. - - Returns a pointer to the allocated block. May return NULL if size - and/or count are 0. Throws exception on failure to allocate. -*/ -void *fz_malloc_array(fz_context *ctx, unsigned int count, unsigned int size); - -/* - fz_resize_array: Resize a block of memory (with scavenging). - - p: The existing block to resize - - count: The number of objects to resize to. - - size: The size (in bytes) of each object. - - Returns a pointer to the resized block. May return NULL if size - and/or count are 0. Throws exception on failure to resize (original - block is left unchanged). -*/ -void *fz_resize_array(fz_context *ctx, void *p, unsigned int count, unsigned int size); - -/* - fz_strdup: Duplicate a C string (with scavenging) - - s: The string to duplicate. - - Returns a pointer to a duplicated string. Throws exception on failure - to allocate. -*/ -char *fz_strdup(fz_context *ctx, const char *s); - -/* - fz_free: Frees an allocation. - - Does not throw exceptions. -*/ -void fz_free(fz_context *ctx, void *p); - -/* - fz_malloc_no_throw: Allocate a block of memory (with scavenging) - - size: The number of bytes to allocate. - - Returns a pointer to the allocated block. May return NULL if size is - 0. Returns NULL on failure to allocate. -*/ -void *fz_malloc_no_throw(fz_context *ctx, unsigned int size); - -/* - fz_calloc_no_throw: Allocate a zeroed block of memory (with scavenging) - - count: The number of objects to allocate space for. - - size: The size (in bytes) of each object. - - Returns a pointer to the allocated block. May return NULL if size - and/or count are 0. Returns NULL on failure to allocate. -*/ -void *fz_calloc_no_throw(fz_context *ctx, unsigned int count, unsigned int size); - -/* - fz_malloc_array_no_throw: Allocate a block of (non zeroed) memory - (with scavenging). Equivalent to fz_calloc_no_throw without the - memory clearing. - - count: The number of objects to allocate space for. - - size: The size (in bytes) of each object. - - Returns a pointer to the allocated block. May return NULL if size - and/or count are 0. Returns NULL on failure to allocate. -*/ -void *fz_malloc_array_no_throw(fz_context *ctx, unsigned int count, unsigned int size); - -/* - fz_resize_array_no_throw: Resize a block of memory (with scavenging). - - p: The existing block to resize - - count: The number of objects to resize to. - - size: The size (in bytes) of each object. - - Returns a pointer to the resized block. May return NULL if size - and/or count are 0. Returns NULL on failure to resize (original - block is left unchanged). -*/ -void *fz_resize_array_no_throw(fz_context *ctx, void *p, unsigned int count, unsigned int size); - -/* - fz_strdup_no_throw: Duplicate a C string (with scavenging) - - s: The string to duplicate. - - Returns a pointer to a duplicated string. Returns NULL on failure - to allocate. -*/ -char *fz_strdup_no_throw(fz_context *ctx, const char *s); - -/* - Safe string functions -*/ -/* - fz_strsep: Given a pointer to a C string (or a pointer to NULL) break - it at the first occurence of a delimiter char (from a given set). - - stringp: Pointer to a C string pointer (or NULL). Updated on exit to - point to the first char of the string after the delimiter that was - found. The string pointed to by stringp will be corrupted by this - call (as the found delimiter will be overwritten by 0). - - delim: A C string of acceptable delimiter characters. - - Returns a pointer to a C string containing the chars of stringp up - to the first delimiter char (or the end of the string), or NULL. -*/ -char *fz_strsep(char **stringp, const char *delim); - -/* - fz_strlcpy: Copy at most n-1 chars of a string into a destination - buffer with null termination, returning the real length of the - initial string (excluding terminator). - - dst: Destination buffer, at least n bytes long. - - src: C string (non-NULL). - - n: Size of dst buffer in bytes. - - Returns the length (excluding terminator) of src. -*/ -int fz_strlcpy(char *dst, const char *src, int n); - -/* - fz_strlcat: Concatenate 2 strings, with a maximum length. - - dst: pointer to first string in a buffer of n bytes. - - src: pointer to string to concatenate. - - n: Size (in bytes) of buffer that dst is in. - - Returns the real length that a concatenated dst + src would have been - (not including terminator). -*/ -int fz_strlcat(char *dst, const char *src, int n); - -/* - fz_chartorune: UTF8 decode a single rune from a sequence of chars. - - rune: Pointer to an int to assign the decoded 'rune' to. - - str: Pointer to a UTF8 encoded string. - - Returns the number of bytes consumed. Does not throw exceptions. -*/ -int fz_chartorune(int *rune, const char *str); - -/* - fz_runetochar: UTF8 encode a rune to a sequence of chars. - - str: Pointer to a place to put the UTF8 encoded character. - - rune: Pointer to a 'rune'. - - Returns the number of bytes the rune took to output. Does not throw - exceptions. -*/ -int fz_runetochar(char *str, int rune); - -/* - fz_runelen: Count how many chars are required to represent a rune. - - rune: The rune to encode. - - Returns the number of bytes required to represent this run in UTF8. -*/ -int fz_runelen(int rune); - -/* - fz_gen_id: Generate an id (guaranteed unique within this family of - contexts). -*/ -int fz_gen_id(fz_context *ctx); - -/* - getopt: Simple functions/variables for use in tools. -*/ -extern int fz_getopt(int nargc, char * const *nargv, const char *ostr); -extern int fz_optind; -extern char *fz_optarg; - -/* - XML document model -*/ - -typedef struct fz_xml_s fz_xml; - -/* - fz_parse_xml: Parse a zero-terminated string into a tree of xml nodes. -*/ -fz_xml *fz_parse_xml(fz_context *ctx, unsigned char *buf, int len); - -/* - fz_xml_next: Return next sibling of XML node. -*/ -fz_xml *fz_xml_next(fz_xml *item); - -/* - fz_xml_down: Return first child of XML node. -*/ -fz_xml *fz_xml_down(fz_xml *item); - -/* - fz_xml_tag: Return tag of XML node. Return the empty string for text nodes. -*/ -char *fz_xml_tag(fz_xml *item); - -/* - fz_xml_att: Return the value of an attribute of an XML node. - NULL if the attribute doesn't exist. -*/ -char *fz_xml_att(fz_xml *item, const char *att); - -/* - fz_xml_text: Return the text content of an XML node. - NULL if the node is a tag. -*/ -char *fz_xml_text(fz_xml *item); - -/* - fz_free_xml: Free the XML node and all its children and siblings. -*/ -void fz_free_xml(fz_context *doc, fz_xml *item); - -/* - fz_detach_xml: Detach a node from the tree, unlinking it from its parent. -*/ -void fz_detach_xml(fz_xml *node); - -/* - fz_debug_xml: Pretty-print an XML tree to stdout. -*/ -void fz_debug_xml(fz_xml *item, int level); - -/* - fz_point is a point in a two-dimensional space. -*/ -typedef struct fz_point_s fz_point; -struct fz_point_s -{ - float x, y; -}; - -/* - fz_rect is a rectangle represented by two diagonally opposite - corners at arbitrary coordinates. - - Rectangles are always axis-aligned with the X- and Y- axes. - The relationship between the coordinates are that x0 <= x1 and - y0 <= y1 in all cases except for infinte rectangles. The area - of a rectangle is defined as (x1 - x0) * (y1 - y0). If either - x0 > x1 or y0 > y1 is true for a given rectangle then it is - defined to be infinite. - - To check for empty or infinite rectangles use fz_is_empty_rect - and fz_is_infinite_rect. - - x0, y0: The top left corner. - - x1, y1: The botton right corner. -*/ -typedef struct fz_rect_s fz_rect; -struct fz_rect_s -{ - float x0, y0; - float x1, y1; -}; - -/* - fz_rect_min: get the minimum point from a rectangle as an fz_point. -*/ -static inline fz_point *fz_rect_min(fz_rect *f) -{ - return (fz_point *)(void *)&f->x0; -} - -/* - fz_rect_max: get the maximum point from a rectangle as an fz_point. -*/ -static inline fz_point *fz_rect_max(fz_rect *f) -{ - return (fz_point *)(void *)&f->x1; -} - -/* - fz_irect is a rectangle using integers instead of floats. - - It's used in the draw device and for pixmap dimensions. -*/ -typedef struct fz_irect_s fz_irect; -struct fz_irect_s -{ - int x0, y0; - int x1, y1; -}; - -/* - A rectangle with sides of length one. - - The bottom left corner is at (0, 0) and the top right corner - is at (1, 1). -*/ -extern const fz_rect fz_unit_rect; - -/* - An empty rectangle with an area equal to zero. - - Both the top left and bottom right corner are at (0, 0). -*/ -extern const fz_rect fz_empty_rect; -extern const fz_irect fz_empty_irect; - -/* - An infinite rectangle with negative area. - - The corner (x0, y0) is at (1, 1) while the corner (x1, y1) is - at (-1, -1). -*/ -extern const fz_rect fz_infinite_rect; -extern const fz_irect fz_infinite_irect; - -/* - fz_is_empty_rect: Check if rectangle is empty. - - An empty rectangle is defined as one whose area is zero. -*/ -static inline int -fz_is_empty_rect(const fz_rect *r) -{ - return ((r)->x0 == (r)->x1 || (r)->y0 == (r)->y1); -} - -static inline int -fz_is_empty_irect(const fz_irect *r) -{ - return ((r)->x0 == (r)->x1 || (r)->y0 == (r)->y1); -} - -/* - fz_is_infinite: Check if rectangle is infinite. - - An infinite rectangle is defined as one where either of the - two relationships between corner coordinates are not true. -*/ -static inline int -fz_is_infinite_rect(const fz_rect *r) -{ - return ((r)->x0 > (r)->x1 || (r)->y0 > (r)->y1); -} - -static inline int -fz_is_infinite_irect(const fz_irect *r) -{ - return ((r)->x0 > (r)->x1 || (r)->y0 > (r)->y1); -} - -/* - fz_matrix is a a row-major 3x3 matrix used for representing - transformations of coordinates throughout MuPDF. - - Since all points reside in a two-dimensional space, one vector - is always a constant unit vector; hence only some elements may - vary in a matrix. Below is how the elements map between - different representations. - - / a b 0 \ - | c d 0 | normally represented as [ a b c d e f ]. - \ e f 1 / -*/ -typedef struct fz_matrix_s fz_matrix; -struct fz_matrix_s -{ - float a, b, c, d, e, f; -}; - -/* - fz_identity: Identity transform matrix. -*/ -extern const fz_matrix fz_identity; - -static inline fz_matrix *fz_copy_matrix(fz_matrix *restrict m, const fz_matrix *restrict s) -{ - *m = *s; - return m; -} - -/* - fz_concat: Multiply two matrices. - - The order of the two matrices are important since matrix - multiplication is not commutative. - - Returns result. - - Does not throw exceptions. -*/ -fz_matrix *fz_concat(fz_matrix *result, const fz_matrix *left, const fz_matrix *right); - -/* - fz_scale: Create a scaling matrix. - - The returned matrix is of the form [ sx 0 0 sy 0 0 ]. - - m: Pointer to the matrix to populate - - sx, sy: Scaling factors along the X- and Y-axes. A scaling - factor of 1.0 will not cause any scaling along the relevant - axis. - - Returns m. - - Does not throw exceptions. -*/ -fz_matrix *fz_scale(fz_matrix *m, float sx, float sy); - -/* - fz_pre_scale: Scale a matrix by premultiplication. - - m: Pointer to the matrix to scale - - sx, sy: Scaling factors along the X- and Y-axes. A scaling - factor of 1.0 will not cause any scaling along the relevant - axis. - - Returns m (updated). - - Does not throw exceptions. -*/ -fz_matrix *fz_pre_scale(fz_matrix *m, float sx, float sy); - -/* - fz_shear: Create a shearing matrix. - - The returned matrix is of the form [ 1 sy sx 1 0 0 ]. - - m: pointer to place to store returned matrix - - sx, sy: Shearing factors. A shearing factor of 0.0 will not - cause any shearing along the relevant axis. - - Returns m. - - Does not throw exceptions. -*/ -fz_matrix *fz_shear(fz_matrix *m, float sx, float sy); - -/* - fz_pre_shear: Premultiply a matrix with a shearing matrix. - - The shearing matrix is of the form [ 1 sy sx 1 0 0 ]. - - m: pointer to matrix to premultiply - - sx, sy: Shearing factors. A shearing factor of 0.0 will not - cause any shearing along the relevant axis. - - Returns m (updated). - - Does not throw exceptions. -*/ -fz_matrix *fz_pre_shear(fz_matrix *m, float sx, float sy); - -/* - fz_rotate: Create a rotation matrix. - - The returned matrix is of the form - [ cos(deg) sin(deg) -sin(deg) cos(deg) 0 0 ]. - - m: Pointer to place to store matrix - - degrees: Degrees of counter clockwise rotation. Values less - than zero and greater than 360 are handled as expected. - - Returns m. - - Does not throw exceptions. -*/ -fz_matrix *fz_rotate(fz_matrix *m, float degrees); - -/* - fz_pre_rotate: Rotate a transformation by premultiplying. - - The premultiplied matrix is of the form - [ cos(deg) sin(deg) -sin(deg) cos(deg) 0 0 ]. - - m: Pointer to matrix to premultiply. - - degrees: Degrees of counter clockwise rotation. Values less - than zero and greater than 360 are handled as expected. - - Returns m (updated). - - Does not throw exceptions. -*/ -fz_matrix *fz_pre_rotate(fz_matrix *m, float degrees); - -/* - fz_translate: Create a translation matrix. - - The returned matrix is of the form [ 1 0 0 1 tx ty ]. - - m: A place to store the created matrix. - - tx, ty: Translation distances along the X- and Y-axes. A - translation of 0 will not cause any translation along the - relevant axis. - - Returns m. - - Does not throw exceptions. -*/ -fz_matrix *fz_translate(fz_matrix *m, float tx, float ty); - -/* - fz_pre_translate: Translate a matrix by premultiplication. - - m: The matrix to translate - - tx, ty: Translation distances along the X- and Y-axes. A - translation of 0 will not cause any translation along the - relevant axis. - - Returns m. - - Does not throw exceptions. -*/ -fz_matrix *fz_pre_translate(fz_matrix *m, float tx, float ty); - -/* - fz_invert_matrix: Create an inverse matrix. - - inverse: Place to store inverse matrix. - - matrix: Matrix to invert. A degenerate matrix, where the - determinant is equal to zero, can not be inverted and the - original matrix is returned instead. - - Returns inverse. - - Does not throw exceptions. -*/ -fz_matrix *fz_invert_matrix(fz_matrix *inverse, const fz_matrix *matrix); - -/* - fz_is_rectilinear: Check if a transformation is rectilinear. - - Rectilinear means that no shearing is present and that any - rotations present are a multiple of 90 degrees. Usually this - is used to make sure that axis-aligned rectangles before the - transformation are still axis-aligned rectangles afterwards. - - Does not throw exceptions. -*/ -int fz_is_rectilinear(const fz_matrix *m); - -/* - fz_matrix_expansion: Calculate average scaling factor of matrix. -*/ -float fz_matrix_expansion(const fz_matrix *m); /* sumatrapdf */ - -/* - fz_intersect_rect: Compute intersection of two rectangles. - - Given two rectangles, update the first to be the smallest - axis-aligned rectangle that covers the area covered by both - given rectangles. If either rectangle is empty then the - intersection is also empty. If either rectangle is infinite - then the intersection is simply the non-infinite rectangle. - Should both rectangles be infinite, then the intersection is - also infinite. - - Does not throw exceptions. -*/ -fz_rect *fz_intersect_rect(fz_rect *restrict a, const fz_rect *restrict b); - -/* - fz_intersect_irect: Compute intersection of two bounding boxes. - - Similar to fz_intersect_rect but operates on two bounding - boxes instead of two rectangles. - - Does not throw exceptions. -*/ -fz_irect *fz_intersect_irect(fz_irect *restrict a, const fz_irect *restrict b); - -/* - fz_union_rect: Compute union of two rectangles. - - Given two rectangles, update the first to be the smallest - axis-aligned rectangle that encompasses both given rectangles. - If either rectangle is infinite then the union is also infinite. - If either rectangle is empty then the union is simply the - non-empty rectangle. Should both rectangles be empty, then the - union is also empty. - - Does not throw exceptions. -*/ -fz_rect *fz_union_rect(fz_rect *restrict a, const fz_rect *restrict b); - -/* - fz_irect_from_rect: Convert a rect into the minimal bounding box - that covers the rectangle. - - bbox: Place to store the returned bbox. - - rect: The rectangle to convert to a bbox. - - Coordinates in a bounding box are integers, so rounding of the - rects coordinates takes place. The top left corner is rounded - upwards and left while the bottom right corner is rounded - downwards and to the right. - - Returns bbox (updated). - - Does not throw exceptions. -*/ - -fz_irect *fz_irect_from_rect(fz_irect *restrict bbox, const fz_rect *restrict rect); - -/* - fz_round_rect: Round rectangle coordinates. - - Coordinates in a bounding box are integers, so rounding of the - rects coordinates takes place. The top left corner is rounded - upwards and left while the bottom right corner is rounded - downwards and to the right. - - This differs from fz_irect_from_rect, in that fz_irect_from_rect - slavishly follows the numbers (i.e any slight over/under calculations - can cause whole extra pixels to be added). fz_round_rect - allows for a small amount of rounding error when calculating - the bbox. - - Does not throw exceptions. -*/ -fz_irect *fz_round_rect(fz_irect *restrict bbox, const fz_rect *restrict rect); - -/* - fz_rect_from_irect: Convert a bbox into a rect. - - For our purposes, a rect can represent all the values we meet in - a bbox, so nothing can go wrong. - - rect: A place to store the generated rectangle. - - bbox: The bbox to convert. - - Returns rect (updated). - - Does not throw exceptions. -*/ -fz_rect *fz_rect_from_irect(fz_rect *restrict rect, const fz_irect *restrict bbox); - -/* - fz_expand_rect: Expand a bbox by a given amount in all directions. - - Does not throw exceptions. -*/ -fz_rect *fz_expand_rect(fz_rect *b, float expand); - -/* - fz_include_point_in_rect: Expand a bbox to include a given point. - To create a rectangle that encompasses a sequence of points, the - rectangle must first be set to be the empty rectangle at one of - the points before including the others. -*/ -fz_rect *fz_include_point_in_rect(fz_rect *r, const fz_point *p); - -/* - fz_translate_irect: Translate bounding box. - - Translate a bbox by a given x and y offset. Allows for overflow. - - Does not throw exceptions. -*/ -fz_irect *fz_translate_irect(fz_irect *a, int xoff, int yoff); - -/* - fz_transform_point: Apply a transformation to a point. - - transform: Transformation matrix to apply. See fz_concat, - fz_scale, fz_rotate and fz_translate for how to create a - matrix. - - point: Pointer to point to update. - - Returns transform (unchanged). - - Does not throw exceptions. -*/ -fz_point *fz_transform_point(fz_point *restrict point, const fz_matrix *restrict transform); - -/* - fz_transform_vector: Apply a transformation to a vector. - - transform: Transformation matrix to apply. See fz_concat, - fz_scale and fz_rotate for how to create a matrix. Any - translation will be ignored. - - vector: Pointer to vector to update. - - Does not throw exceptions. -*/ -fz_point *fz_transform_vector(fz_point *restrict vector, const fz_matrix *restrict transform); - -/* - fz_transform_rect: Apply a transform to a rectangle. - - After the four corner points of the axis-aligned rectangle - have been transformed it may not longer be axis-aligned. So a - new axis-aligned rectangle is created covering at least the - area of the transformed rectangle. - - transform: Transformation matrix to apply. See fz_concat, - fz_scale and fz_rotate for how to create a matrix. - - rect: Rectangle to be transformed. The two special cases - fz_empty_rect and fz_infinite_rect, may be used but are - returned unchanged as expected. - - Does not throw exceptions. -*/ -fz_rect *fz_transform_rect(fz_rect *restrict rect, const fz_matrix *restrict transform); - -/* - fz_normalize_vector: Normalize a vector to length one. -*/ -void fz_normalize_vector(fz_point *p); - -/* - fz_buffer is a wrapper around a dynamically allocated array of bytes. - - Buffers have a capacity (the number of bytes storage immediately - available) and a current size. -*/ -typedef struct fz_buffer_s fz_buffer; - -/* - fz_keep_buffer: Increment the reference count for a buffer. - - buf: The buffer to increment the reference count for. - - Returns a pointer to the buffer. Does not throw exceptions. -*/ -fz_buffer *fz_keep_buffer(fz_context *ctx, fz_buffer *buf); - -/* - fz_drop_buffer: Decrement the reference count for a buffer. - - buf: The buffer to decrement the reference count for. -*/ -void fz_drop_buffer(fz_context *ctx, fz_buffer *buf); - -/* - fz_buffer_storage: Retrieve information on the storage currently used - by a buffer. - - data: Pointer to place to retrieve data pointer. - - Returns length of stream. -*/ -int fz_buffer_storage(fz_context *ctx, fz_buffer *buf, unsigned char **data); - -/* - fz_stream is a buffered reader capable of seeking in both - directions. - - Streams are reference counted, so references must be dropped - by a call to fz_close. - - Only the data between rp and wp is valid. -*/ -typedef struct fz_stream_s fz_stream; - -/* - fz_open_file: Open the named file and wrap it in a stream. - - filename: Path to a file. On non-Windows machines the filename should - be exactly as it would be passed to open(2). On Windows machines, the - path should be UTF-8 encoded so that non-ASCII characters can be - represented. Other platforms do the encoding as standard anyway (and - in most cases, particularly for MacOS and Linux, the encoding they - use is UTF-8 anyway). -*/ -fz_stream *fz_open_file(fz_context *ctx, const char *filename); - -/* - fz_open_file_w: Open the named file and wrap it in a stream. - - This function is only available when compiling for Win32. - - filename: Wide character path to the file as it would be given - to _wopen(). -*/ -fz_stream *fz_open_file_w(fz_context *ctx, const wchar_t *filename); - -/* - fz_open_fd: Wrap an open file descriptor in a stream. - - file: An open file descriptor supporting bidirectional - seeking. The stream will take ownership of the file - descriptor, so it may not be modified or closed after the call - to fz_open_fd. When the stream is closed it will also close - the file descriptor. -*/ -fz_stream *fz_open_fd(fz_context *ctx, int file); - -/* - fz_open_memory: Open a block of memory as a stream. - - data: Pointer to start of data block. Ownership of the data block is - NOT passed in. - - len: Number of bytes in data block. - - Returns pointer to newly created stream. May throw exceptions on - failure to allocate. -*/ -fz_stream *fz_open_memory(fz_context *ctx, unsigned char *data, int len); - -/* - fz_open_buffer: Open a buffer as a stream. - - buf: The buffer to open. Ownership of the buffer is NOT passed in - (this function takes it's own reference). - - Returns pointer to newly created stream. May throw exceptions on - failure to allocate. -*/ -fz_stream *fz_open_buffer(fz_context *ctx, fz_buffer *buf); - -/* - fz_close: Close an open stream. - - Drops a reference for the stream. Once no references remain - the stream will be closed, as will any file descriptor the - stream is using. - - Does not throw exceptions. -*/ -void fz_close(fz_stream *stm); - -/* - fz_tell: return the current reading position within a stream -*/ -int fz_tell(fz_stream *stm); - -/* - fz_seek: Seek within a stream. - - stm: The stream to seek within. - - offset: The offset to seek to. - - whence: From where the offset is measured (see fseek). -*/ -void fz_seek(fz_stream *stm, int offset, int whence); - -/* - fz_read: Read from a stream into a given data block. - - stm: The stream to read from. - - data: The data block to read into. - - len: The length of the data block (in bytes). - - Returns the number of bytes read. May throw exceptions. -*/ -int fz_read(fz_stream *stm, unsigned char *data, int len); - -/* - fz_read_all: Read all of a stream into a buffer. - - stm: The stream to read from - - initial: Suggested initial size for the buffer. - - Returns a buffer created from reading from the stream. May throw - exceptions on failure to allocate. -*/ -fz_buffer *fz_read_all(fz_stream *stm, int initial); - -/* - Bitmaps have 1 bit per component. Only used for creating halftoned - versions of contone buffers, and saving out. Samples are stored msb - first, akin to pbms. -*/ -typedef struct fz_bitmap_s fz_bitmap; - -/* - fz_keep_bitmap: Take a reference to a bitmap. - - bit: The bitmap to increment the reference for. - - Returns bit. Does not throw exceptions. -*/ -fz_bitmap *fz_keep_bitmap(fz_context *ctx, fz_bitmap *bit); - -/* - fz_drop_bitmap: Drop a reference and free a bitmap. - - Decrement the reference count for the bitmap. When no - references remain the pixmap will be freed. - - Does not throw exceptions. -*/ -void fz_drop_bitmap(fz_context *ctx, fz_bitmap *bit); - -/* - An fz_colorspace object represents an abstract colorspace. While - this should be treated as a black box by callers of the library at - this stage, know that it encapsulates knowledge of how to convert - colors to and from the colorspace, any lookup tables generated, the - number of components in the colorspace etc. -*/ -typedef struct fz_colorspace_s fz_colorspace; - -/* - fz_lookup_device_colorspace: Find a standard colorspace based upon - it's name. -*/ -fz_colorspace *fz_lookup_device_colorspace(fz_context *ctx, char *name); - -/* - fz_colorspace_is_indexed: Return true, iff a given colorspace is - indexed. -*/ -int fz_colorspace_is_indexed(fz_colorspace *cs); - -/* - fz_device_gray: Get colorspace representing device specific gray. -*/ -fz_colorspace *fz_device_gray(fz_context *ctx); - -/* - fz_device_rgb: Get colorspace representing device specific rgb. -*/ -fz_colorspace *fz_device_rgb(fz_context *ctx); - -/* - fz_device_bgr: Get colorspace representing device specific bgr. -*/ -fz_colorspace *fz_device_bgr(fz_context *ctx); - -/* - fz_device_cmyk: Get colorspace representing device specific CMYK. -*/ -fz_colorspace *fz_device_cmyk(fz_context *ctx); - -/* - fz_set_device_gray: Set colorspace representing device specific gray. -*/ -void fz_set_device_gray(fz_context *ctx, fz_colorspace *cs); - -/* - fz_set_device_rgb: Set colorspace representing device specific rgb. -*/ -void fz_set_device_rgb(fz_context *ctx, fz_colorspace *cs); - -/* - fz_set_device_bgr: Set colorspace representing device specific bgr. -*/ -void fz_set_device_bgr(fz_context *ctx, fz_colorspace *cs); - -/* - fz_set_device_cmyk: Set colorspace representing device specific CMYK. -*/ -void fz_set_device_cmyk(fz_context *ctx, fz_colorspace *cs); - -/* - Pixmaps represent a set of pixels for a 2 dimensional region of a - plane. Each pixel has n components per pixel, the last of which is - always alpha. The data is in premultiplied alpha when rendering, but - non-premultiplied for colorspace conversions and rescaling. -*/ -typedef struct fz_pixmap_s fz_pixmap; - -/* - fz_pixmap_bbox: Return the bounding box for a pixmap. -*/ -fz_irect *fz_pixmap_bbox(fz_context *ctx, fz_pixmap *pix, fz_irect *bbox); - -/* - fz_pixmap_width: Return the width of the pixmap in pixels. -*/ -int fz_pixmap_width(fz_context *ctx, fz_pixmap *pix); - -/* - fz_pixmap_height: Return the height of the pixmap in pixels. -*/ -int fz_pixmap_height(fz_context *ctx, fz_pixmap *pix); - -/* - fz_new_pixmap: Create a new pixmap, with it's origin at (0,0) - - cs: The colorspace to use for the pixmap, or NULL for an alpha - plane/mask. - - w: The width of the pixmap (in pixels) - - h: The height of the pixmap (in pixels) - - Returns a pointer to the new pixmap. Throws exception on failure to - allocate. -*/ -fz_pixmap *fz_new_pixmap(fz_context *ctx, fz_colorspace *cs, int w, int h); - -/* - fz_new_pixmap_with_bbox: Create a pixmap of a given size, - location and pixel format. - - The bounding box specifies the size of the created pixmap and - where it will be located. The colorspace determines the number - of components per pixel. Alpha is always present. Pixmaps are - reference counted, so drop references using fz_drop_pixmap. - - colorspace: Colorspace format used for the created pixmap. The - pixmap will keep a reference to the colorspace. - - bbox: Bounding box specifying location/size of created pixmap. - - Returns a pointer to the new pixmap. Throws exception on failure to - allocate. -*/ -fz_pixmap *fz_new_pixmap_with_bbox(fz_context *ctx, fz_colorspace *colorspace, const fz_irect *bbox); - -/* - fz_new_pixmap_with_data: Create a new pixmap, with it's origin at - (0,0) using the supplied data block. - - cs: The colorspace to use for the pixmap, or NULL for an alpha - plane/mask. - - w: The width of the pixmap (in pixels) - - h: The height of the pixmap (in pixels) - - samples: The data block to keep the samples in. - - Returns a pointer to the new pixmap. Throws exception on failure to - allocate. -*/ -fz_pixmap *fz_new_pixmap_with_data(fz_context *ctx, fz_colorspace *colorspace, int w, int h, unsigned char *samples); - -/* - fz_new_pixmap_with_bbox_and_data: Create a pixmap of a given size, - location and pixel format, using the supplied data block. - - The bounding box specifies the size of the created pixmap and - where it will be located. The colorspace determines the number - of components per pixel. Alpha is always present. Pixmaps are - reference counted, so drop references using fz_drop_pixmap. - - colorspace: Colorspace format used for the created pixmap. The - pixmap will keep a reference to the colorspace. - - bbox: Bounding box specifying location/size of created pixmap. - - samples: The data block to keep the samples in. - - Returns a pointer to the new pixmap. Throws exception on failure to - allocate. -*/ -fz_pixmap *fz_new_pixmap_with_bbox_and_data(fz_context *ctx, fz_colorspace *colorspace, const fz_irect *rect, unsigned char *samples); - -/* - fz_keep_pixmap: Take a reference to a pixmap. - - pix: The pixmap to increment the reference for. - - Returns pix. Does not throw exceptions. -*/ -fz_pixmap *fz_keep_pixmap(fz_context *ctx, fz_pixmap *pix); - -/* - fz_drop_pixmap: Drop a reference and free a pixmap. - - Decrement the reference count for the pixmap. When no - references remain the pixmap will be freed. - - Does not throw exceptions. -*/ -void fz_drop_pixmap(fz_context *ctx, fz_pixmap *pix); - -/* - fz_pixmap_colorspace: Return the colorspace of a pixmap - - Returns colorspace. Does not throw exceptions. -*/ -fz_colorspace *fz_pixmap_colorspace(fz_context *ctx, fz_pixmap *pix); - -/* - fz_pixmap_components: Return the number of components in a pixmap. - - Returns the number of components. Does not throw exceptions. -*/ -int fz_pixmap_components(fz_context *ctx, fz_pixmap *pix); - -/* - fz_pixmap_samples: Returns a pointer to the pixel data of a pixmap. - - Returns the pointer. Does not throw exceptions. -*/ -unsigned char *fz_pixmap_samples(fz_context *ctx, fz_pixmap *pix); - -void fz_pixmap_set_resolution(fz_pixmap *pix, int res); - -/* - fz_clear_pixmap_with_value: Clears a pixmap with the given value. - - pix: The pixmap to clear. - - value: Values in the range 0 to 255 are valid. Each component - sample for each pixel in the pixmap will be set to this value, - while alpha will always be set to 255 (non-transparent). - - Does not throw exceptions. -*/ -void fz_clear_pixmap_with_value(fz_context *ctx, fz_pixmap *pix, int value); - -/* - fz_clear_pixmap_with_value: Clears a subrect of a pixmap with the given value. - - pix: The pixmap to clear. - - value: Values in the range 0 to 255 are valid. Each component - sample for each pixel in the pixmap will be set to this value, - while alpha will always be set to 255 (non-transparent). - - r: the rectangle. - - Does not throw exceptions. -*/ -void fz_clear_pixmap_rect_with_value(fz_context *ctx, fz_pixmap *pix, int value, const fz_irect *r); - -/* - fz_clear_pixmap_with_value: Sets all components (including alpha) of - all pixels in a pixmap to 0. - - pix: The pixmap to clear. - - Does not throw exceptions. -*/ -void fz_clear_pixmap(fz_context *ctx, fz_pixmap *pix); - -/* - fz_invert_pixmap: Invert all the pixels in a pixmap. All components - of all pixels are inverted (except alpha, which is unchanged). - - Does not throw exceptions. -*/ -void fz_invert_pixmap(fz_context *ctx, fz_pixmap *pix); - -/* - fz_invert_pixmap: Invert all the pixels in a given rectangle of a - pixmap. All components of all pixels in the rectangle are inverted - (except alpha, which is unchanged). - - Does not throw exceptions. -*/ -void fz_invert_pixmap_rect(fz_pixmap *image, const fz_irect *rect); - -/* - fz_gamma_pixmap: Apply gamma correction to a pixmap. All components - of all pixels are modified (except alpha, which is unchanged). - - gamma: The gamma value to apply; 1.0 for no change. - - Does not throw exceptions. -*/ -void fz_gamma_pixmap(fz_context *ctx, fz_pixmap *pix, float gamma); - -/* - fz_unmultiply_pixmap: Convert a pixmap from premultiplied to - non-premultiplied format. - - Does not throw exceptions. -*/ -void fz_unmultiply_pixmap(fz_context *ctx, fz_pixmap *pix); - -/* - fz_convert_pixmap: Convert from one pixmap to another (assumed to be - the same size, but possibly with a different colorspace). - - dst: the source pixmap. - - src: the destination pixmap. -*/ -void fz_convert_pixmap(fz_context *ctx, fz_pixmap *dst, fz_pixmap *src); - -/* - fz_write_pixmap: Save a pixmap out. - - name: The prefix for the name of the pixmap. The pixmap will be saved - as "name.png" if the pixmap is RGB or Greyscale, "name.pam" otherwise. - - rgb: If non zero, the pixmap is converted to rgb (if possible) before - saving. -*/ -void fz_write_pixmap(fz_context *ctx, fz_pixmap *img, char *name, int rgb); - -/* - fz_write_pnm: Save a pixmap as a pnm - - filename: The filename to save as (including extension). -*/ -void fz_write_pnm(fz_context *ctx, fz_pixmap *pixmap, char *filename); - -/* - fz_write_pam: Save a pixmap as a pam - - filename: The filename to save as (including extension). -*/ -void fz_write_pam(fz_context *ctx, fz_pixmap *pixmap, char *filename, int savealpha); - -/* - fz_write_png: Save a pixmap as a png - - filename: The filename to save as (including extension). -*/ -void fz_write_png(fz_context *ctx, fz_pixmap *pixmap, char *filename, int savealpha); - -typedef struct fz_pwg_options_s fz_pwg_options; - -struct fz_pwg_options_s -{ - /* These are not interpreted as CStrings by the writing code, but - * are rather copied directly out. */ - char media_class[64]; - char media_color[64]; - char media_type[64]; - char output_type[64]; - - unsigned int advance_distance; - int advance_media; - int collate; - int cut_media; - int duplex; - int insert_sheet; - int jog; - int leading_edge; - int manual_feed; - unsigned int media_position; - unsigned int media_weight; - int mirror_print; - int negative_print; - unsigned int num_copies; - int orientation; - int output_face_up; - unsigned int PageSize[2]; - int separations; - int tray_switch; - int tumble; - - int media_type_num; - int compression; - unsigned int row_count; - unsigned int row_feed; - unsigned int row_step; - - /* These are not interpreted as CStrings by the writing code, but - * are rather copied directly out. */ - char rendering_intent[64]; - char page_size_name[64]; -}; - -/* - fz_write_pwg: Save a pixmap as a pwg - - filename: The filename to save as (including extension). - - append: If non-zero, then append a new page to existing file. - - pwg: NULL, or a pointer to an options structure (initialised to zero - before being filled in, for future expansion). -*/ -void fz_write_pwg(fz_context *ctx, fz_pixmap *pixmap, char *filename, int append, const fz_pwg_options *pwg); - -/* - fz_write_pwg_bitmap: Save a bitmap as a pwg - - filename: The filename to save as (including extension). - - append: If non-zero, then append a new page to existing file. - - pwg: NULL, or a pointer to an options structure (initialised to zero - before being filled in, for future expansion). -*/ -void fz_write_pwg_bitmap(fz_context *ctx, fz_bitmap *bitmap, char *filename, int append, const fz_pwg_options *pwg); - -/* - fz_write_pbm: Save a bitmap as a pbm - - filename: The filename to save as (including extension). -*/ -void fz_write_pbm(fz_context *ctx, fz_bitmap *bitmap, char *filename); - -/* - fz_md5_pixmap: Return the md5 digest for a pixmap - - filename: The filename to save as (including extension). -*/ -void fz_md5_pixmap(fz_pixmap *pixmap, unsigned char digest[16]); - -/* - Images are storable objects from which we can obtain fz_pixmaps. - These may be implemented as simple wrappers around a pixmap, or as - more complex things that decode at different subsample settings on - demand. -*/ -typedef struct fz_image_s fz_image; - -/* - fz_image_to_pixmap: Called to get a handle to a pixmap from an image. - - image: The image to retrieve a pixmap from. - - w: The desired width (in pixels). This may be completely ignored, but - may serve as an indication of a suitable subsample factor to use for - image types that support this. - - h: The desired height (in pixels). This may be completely ignored, but - may serve as an indication of a suitable subsample factor to use for - image types that support this. - - Returns a non NULL pixmap pointer. May throw exceptions. -*/ -fz_pixmap *fz_image_to_pixmap(fz_context *ctx, fz_image *image, int w, int h); - -/* - fz_drop_image: Drop a reference to an image. - - image: The image to drop a reference to. -*/ -void fz_drop_image(fz_context *ctx, fz_image *image); - -/* - fz_keep_image: Increment the reference count of an image. - - image: The image to take a reference to. - - Returns a pointer to the image. -*/ -fz_image *fz_keep_image(fz_context *ctx, fz_image *image); - -/* - A halftone is a set of threshold tiles, one per component. Each - threshold tile is a pixmap, possibly of varying sizes and phases. - Currently, we only provide one 'default' halftone tile for operating - on 1 component plus alpha pixmaps (where the alpha is ignored). This - is signified by an fz_halftone pointer to NULL. -*/ -typedef struct fz_halftone_s fz_halftone; - -/* - fz_halftone_pixmap: Make a bitmap from a pixmap and a halftone. - - pix: The pixmap to generate from. Currently must be a single color - component + alpha (where the alpha is assumed to be solid). - - ht: The halftone to use. NULL implies the default halftone. - - Returns the resultant bitmap. Throws exceptions in the case of - failure to allocate. -*/ -fz_bitmap *fz_halftone_pixmap(fz_context *ctx, fz_pixmap *pix, fz_halftone *ht); - -/* - An abstract font handle. Currently there are no public API functions - for handling these. -*/ -typedef struct fz_font_s fz_font; - -/* - Generic output streams - generalise between outputting to a file, - a buffer, etc. -*/ -typedef struct fz_output_s fz_output; - -struct fz_output_s -{ - fz_context *ctx; - void *opaque; - int (*printf)(fz_output *, const char *, va_list ap); - int (*write)(fz_output *, const void *, int n); - void (*close)(fz_output *); -}; - -/* - fz_new_output_with_file: Open an output stream onto a FILE *. - - The stream does NOT take ownership of the FILE *. -*/ -fz_output *fz_new_output_with_file(fz_context *, FILE *); - -/* - fz_new_output_with_buffer: Open an output stream onto a buffer. - - The stream does NOT take ownership of the buffer. -*/ -fz_output *fz_new_output_with_buffer(fz_context *, fz_buffer *); - -/* - fz_printf: fprintf equivalent for output streams. -*/ -int fz_printf(fz_output *, const char *, ...); - -/* - fz_puts: fputs equivalent for output streams. -*/ -int fz_puts(fz_output *, const char *); - -/* - fz_write: fwrite equivalent for output streams. -*/ -int fz_write(fz_output *out, const void *data, int len); - -/* - Output a pixmap to an output stream as a png. -*/ -void fz_output_png(fz_output *out, const fz_pixmap *pixmap, int savealpha); - -/* - Output a pixmap to an output stream as a pwg raster. -*/ -void fz_output_pwg(fz_output *out, const fz_pixmap *pixmap, const fz_pwg_options *pwg); - -/* - Output the file header to a pwg stream, ready for pages to follow it. -*/ -void fz_output_pwg_file_header(fz_output *out); - -/* - Output a page to a pwg stream to follow a header, or other pages. -*/ -void fz_output_pwg_page(fz_output *out, const fz_pixmap *pixmap, const fz_pwg_options *pwg); - -/* - Output a bitmap page to a pwg stream to follow a header, or other pages. -*/ -void fz_output_pwg_bitmap_page(fz_output *out, const fz_bitmap *bitmap, const fz_pwg_options *pwg); - -/* - Get an image as a png in a buffer. -*/ -fz_buffer *fz_image_as_png(fz_context *ctx, fz_image *image, int w, int h); - -/* - fz_close_output: Close a previously opened fz_output stream. - - Note: whether or not this closes the underlying output method is - method dependent. FILE * streams created by fz_new_output_with_file - are NOT closed. -*/ -void fz_close_output(fz_output *); - -/* - The different format handlers (pdf, xps etc) interpret pages to a - device. These devices can then process the stream of calls they - recieve in various ways: - The trace device outputs debugging information for the calls. - The draw device will render them. - The list device stores them in a list to play back later. - The text device performs text extraction and searching. - The bbox device calculates the bounding box for the page. - Other devices can (and will) be written in future. -*/ -typedef struct fz_device_s fz_device; - -/* - fz_free_device: Free a devices of any type and its resources. -*/ -void fz_free_device(fz_device *dev); - -/* - fz_new_trace_device: Create a device to print a debug trace of - all device calls. -*/ -fz_device *fz_new_trace_device(fz_context *ctx); - -/* - fz_new_bbox_device: Create a device to compute the bounding - box of all marks on a page. - - The returned bounding box will be the union of all bounding - boxes of all objects on a page. -*/ -fz_device *fz_new_bbox_device(fz_context *ctx, fz_rect *rectp); - -/* - fz_new_draw_device: Create a device to draw on a pixmap. - - dest: Target pixmap for the draw device. See fz_new_pixmap* - for how to obtain a pixmap. The pixmap is not cleared by the - draw device, see fz_clear_pixmap* for how to clear it prior to - calling fz_new_draw_device. Free the device by calling - fz_free_device. -*/ -fz_device *fz_new_draw_device(fz_context *ctx, fz_pixmap *dest); - -/* - fz_new_draw_device_with_bbox: Create a device to draw on a pixmap. - - dest: Target pixmap for the draw device. See fz_new_pixmap* - for how to obtain a pixmap. The pixmap is not cleared by the - draw device, see fz_clear_pixmap* for how to clear it prior to - calling fz_new_draw_device. Free the device by calling - fz_free_device. - - clip: Bounding box to restrict any marking operations of the - draw device. -*/ -fz_device *fz_new_draw_device_with_bbox(fz_context *ctx, fz_pixmap *dest, const fz_irect *clip); - -fz_device *fz_new_svg_device(fz_context *ctx, fz_output *out, float page_width, float page_height); - -/* - fz_enable_device_hints : Enable hints in a device. - - hints: mask of hints to enable. - - For example: By default the draw device renders shadings. For some - purposes (perhaps rendering fast low quality thumbnails) you may want - to tell it to ignore shadings. For this you would enable the - FZ_IGNORE_SHADE hint. -*/ -void fz_enable_device_hints(fz_device *dev, int hints); - -/* - fz_disable_device_hints : Disable hints in a device. - - hints: mask of hints to disable. - - For example: By default the text extraction device ignores images. - For some purposes however (such as extracting HTML) you may want to - enable the capturing of image data too. For this you would disable - the FZ_IGNORE_IMAGE hint. -*/ -void fz_disable_device_hints(fz_device *dev, int hints); - -enum -{ - /* Hints */ - FZ_IGNORE_IMAGE = 1, - FZ_IGNORE_SHADE = 2, -}; - -/* - Text extraction device: Used for searching, format conversion etc. - - (In development - Subject to change in future versions) -*/ - -typedef struct fz_text_style_s fz_text_style; -typedef struct fz_text_char_s fz_text_char; -typedef struct fz_text_span_s fz_text_span; -typedef struct fz_text_line_s fz_text_line; -typedef struct fz_text_block_s fz_text_block; -typedef struct fz_image_block_s fz_image_block; -typedef struct fz_page_block_s fz_page_block; - -typedef struct fz_text_sheet_s fz_text_sheet; -typedef struct fz_text_page_s fz_text_page; - -/* - fz_text_sheet: A text sheet contains a list of distinct text styles - used on a page (or a series of pages). -*/ -struct fz_text_sheet_s -{ - int maxid; - fz_text_style *style; -}; - -/* - fz_text_style: A text style contains details of a distinct text style - used on a page. -*/ -struct fz_text_style_s -{ - fz_text_style *next; - int id; - fz_font *font; - float size; - int wmode; - int script; - float ascender; - float descender; - /* etc... */ -}; - -/* - fz_text_page: A text page is a list of page blocks, together with - an overall bounding box. -*/ -struct fz_text_page_s -{ - fz_rect mediabox; - int len, cap; - fz_page_block *blocks; - fz_text_page *next; -}; - -/* - fz_page_block: A page block is a typed block pointer. -*/ -struct fz_page_block_s -{ - int type; - union - { - fz_text_block *text; - fz_image_block *image; - } u; -}; - -enum -{ - FZ_PAGE_BLOCK_TEXT = 0, - FZ_PAGE_BLOCK_IMAGE = 1 -}; - -/* - fz_text_block: A text block is a list of lines of text. In typical - cases this may correspond to a paragraph or a column of text. A - collection of blocks makes up a page. -*/ -struct fz_text_block_s -{ - fz_rect bbox; - int len, cap; - fz_text_line *lines; -}; - -enum { FZ_MAX_COLORS = 32 }; - -/* - fz_image_block: An image block is an image, together with the list of lines of text. In typical - cases this may correspond to a paragraph or a column of text. A - collection of blocks makes up a page. -*/ -struct fz_image_block_s -{ - fz_rect bbox; - fz_matrix mat; - fz_image *image; - fz_colorspace *cspace; - float colors[FZ_MAX_COLORS]; -}; - -/* - fz_text_line: A text line is a list of text spans, with the same - baseline. In typical cases this should correspond (as expected) to - complete lines of text. A collection of lines makes up a block. -*/ -struct fz_text_line_s -{ - fz_text_span *first_span, *last_span; - - /* Cached information */ - float distance; /* Perpendicular distance from previous line */ - fz_rect bbox; - void *region; /* Opaque value for matching line masks */ -}; - -/* - fz_text_span: A text span is a list of characters that share a common - baseline/transformation. In typical cases a single span may be enough - to represent a complete line. In cases where the text has big gaps in - it (perhaps as it crosses columns or tables), a line may be represented - by multiple spans. -*/ -struct fz_text_span_s -{ - int len, cap; - fz_text_char *text; - fz_point min; /* Device space */ - fz_point max; /* Device space */ - int wmode; /* 0 for horizontal, 1 for vertical */ - fz_matrix transform; /* e and f are always 0 here */ - float ascender_max; /* Document space */ - float descender_min; /* Document space */ - fz_rect bbox; /* Device space */ - - /* Cached information */ - float base_offset; /* Perpendicular distance from baseline of line */ - float spacing; /* Distance along baseline from previous span in this line (or 0 if first) */ - int column; /* If non zero, the column that it's in */ - float column_width; /* Percentage */ - int align; /* 0 = left, 1 = centre, 2 = right */ - float indent; /* The indent position for this column. */ - - fz_text_span *next; -}; - -/* - fz_text_char: A text char is a unicode character, the style in which - is appears, and the point at which it is positioned. Transform - (and hence bbox) information is given by the enclosing span. -*/ -struct fz_text_char_s -{ - fz_point p; /* Device space */ - int c; - fz_text_style *style; -}; - -typedef struct fz_char_and_box_s fz_char_and_box; - -struct fz_char_and_box_s -{ - int c; - fz_rect bbox; -}; - -fz_char_and_box *fz_text_char_at(fz_char_and_box *cab, fz_text_page *page, int idx); - -/* - fz_text_char_bbox: Return the bbox of a text char. Calculated from - the supplied enclosing span. - - bbox: A place to store the bbox - - span: The enclosing span - - idx: The index of the char within the span - - Returns bbox (updated) - - Does not throw exceptions -*/ -fz_rect *fz_text_char_bbox(fz_rect *bbox, fz_text_span *span, int idx); - -/* - fz_new_text_device: Create a device to extract the text on a page. - - Gather and sort the text on a page into spans of uniform style, - arranged into lines and blocks by reading order. The reading order - is determined by various heuristics, so may not be accurate. - - sheet: The text sheet to which styles should be added. This can - either be a newly created (empty) text sheet, or one containing - styles from a previous text device. The same sheet cannot be used - in multiple threads simultaneously. - - page: The text page to which content should be added. This will - usually be a newly created (empty) text page, but it can be one - containing data already (for example when merging multiple pages, or - watermarking). -*/ -fz_device *fz_new_text_device(fz_context *ctx, fz_text_sheet *sheet, fz_text_page *page); - -/* - fz_new_text_sheet: Create an empty style sheet. - - The style sheet is filled out by the text device, creating - one style for each unique font, color, size combination that - is used. -*/ -fz_text_sheet *fz_new_text_sheet(fz_context *ctx); -void fz_free_text_sheet(fz_context *ctx, fz_text_sheet *sheet); - -/* - fz_new_text_page: Create an empty text page. - - The text page is filled out by the text device to contain the blocks, - lines and spans of text on the page. -*/ -fz_text_page *fz_new_text_page(fz_context *ctx); -void fz_free_text_page(fz_context *ctx, fz_text_page *page); - -void fz_analyze_text(fz_context *ctx, fz_text_sheet *sheet, fz_text_page *page); - -/* - fz_print_text_sheet: Output a text sheet to a file as CSS. -*/ -void fz_print_text_sheet(fz_context *ctx, fz_output *out, fz_text_sheet *sheet); - -/* - fz_print_text_page_html: Output a page to a file in HTML format. -*/ -void fz_print_text_page_html(fz_context *ctx, fz_output *out, fz_text_page *page); - -/* - fz_print_text_page_xml: Output a page to a file in XML format. -*/ -void fz_print_text_page_xml(fz_context *ctx, fz_output *out, fz_text_page *page); - -/* - fz_print_text_page: Output a page to a file in UTF-8 format. -*/ -void fz_print_text_page(fz_context *ctx, fz_output *out, fz_text_page *page); - -/* - fz_search_text_page: Search for occurrence of 'needle' in text page. - - Return the number of hits and store hit bboxes in the passed in array. - - NOTE: This is an experimental interface and subject to change without notice. -*/ -int fz_search_text_page(fz_context *ctx, fz_text_page *text, const char *needle, fz_rect *hit_bbox, int hit_max); - -/* - fz_highlight_selection: Return a list of rectangles to highlight given a selection rectangle. - - NOTE: This is an experimental interface and subject to change without notice. -*/ -int fz_highlight_selection(fz_context *ctx, fz_text_page *page, fz_rect rect, fz_rect *hit_bbox, int hit_max); - -/* - fz_copy_selection: Return a newly allocated UTF-8 string with the text for a given selection rectangle. - - NOTE: This is an experimental interface and subject to change without notice. -*/ -char *fz_copy_selection(fz_context *ctx, fz_text_page *page, fz_rect rect); - -/* - Cookie support - simple communication channel between app/library. -*/ - -typedef struct fz_cookie_s fz_cookie; - -/* - Provide two-way communication between application and library. - Intended for multi-threaded applications where one thread is - rendering pages and another thread wants read progress - feedback or abort a job that takes a long time to finish. The - communication is unsynchronized without locking. - - abort: The appliation should set this field to 0 before - calling fz_run_page to render a page. At any point when the - page is being rendered the application my set this field to 1 - which will cause the rendering to finish soon. This field is - checked periodically when the page is rendered, but exactly - when is not known, therefore there is no upper bound on - exactly when the the rendering will abort. If the application - did not provide a set of locks to fz_new_context, it must also - await the completion of fz_run_page before issuing another - call to fz_run_page. Note that once the application has set - this field to 1 after it called fz_run_page it may not change - the value again. - - progress: Communicates rendering progress back to the - application and is read only. Increments as a page is being - rendered. The value starts out at 0 and is limited to less - than or equal to progress_max, unless progress_max is -1. - - progress_max: Communicates the known upper bound of rendering - back to the application and is read only. The maximum value - that the progress field may take. If there is no known upper - bound on how long the rendering may take this value is -1 and - progress is not limited. Note that the value of progress_max - may change from -1 to a positive value once an upper bound is - known, so take this into consideration when comparing the - value of progress to that of progress_max. - - errors: count of errors during current rendering. -*/ -struct fz_cookie_s -{ - int abort; - int progress; - int progress_max; /* -1 for unknown */ - int errors; -}; - -/* - Display list device -- record and play back device commands. -*/ - -/* - fz_display_list is a list containing drawing commands (text, - images, etc.). The intent is two-fold: as a caching-mechanism - to reduce parsing of a page, and to be used as a data - structure in multi-threading where one thread parses the page - and another renders pages. - - Create a displaylist with fz_new_display_list, hand it over to - fz_new_list_device to have it populated, and later replay the - list (once or many times) by calling fz_run_display_list. When - the list is no longer needed drop it with fz_drop_display_list. -*/ -typedef struct fz_display_list_s fz_display_list; - -/* - fz_new_display_list: Create an empty display list. - - A display list contains drawing commands (text, images, etc.). - Use fz_new_list_device for populating the list. -*/ -fz_display_list *fz_new_display_list(fz_context *ctx); - -/* - fz_new_list_device: Create a rendering device for a display list. - - When the device is rendering a page it will populate the - display list with drawing commsnds (text, images, etc.). The - display list can later be reused to render a page many times - without having to re-interpret the page from the document file - for each rendering. Once the device is no longer needed, free - it with fz_free_device. - - list: A display list that the list device takes ownership of. -*/ -fz_device *fz_new_list_device(fz_context *ctx, fz_display_list *list); - -/* - fz_run_display_list: (Re)-run a display list through a device. - - list: A display list, created by fz_new_display_list and - populated with objects from a page by running fz_run_page on a - device obtained from fz_new_list_device. - - dev: Device obtained from fz_new_*_device. - - ctm: Transform to apply to display list contents. May include - for example scaling and rotation, see fz_scale, fz_rotate and - fz_concat. Set to fz_identity if no transformation is desired. - - area: Only the part of the contents of the display list - visible within this area will be considered when the list is - run through the device. This does not imply for tile objects - contained in the display list. - - cookie: Communication mechanism between caller and library - running the page. Intended for multi-threaded applications, - while single-threaded applications set cookie to NULL. The - caller may abort an ongoing page run. Cookie also communicates - progress information back to the caller. The fields inside - cookie are continually updated while the page is being run. -*/ -void fz_run_display_list(fz_display_list *list, fz_device *dev, const fz_matrix *ctm, const fz_rect *area, fz_cookie *cookie); - -/* - fz_keep_display_list: Keep a reference to a display list. - - Does not throw exceptions. -*/ -fz_display_list *fz_keep_display_list(fz_context *ctx, fz_display_list *list); - -/* - fz_drop_display_list: Drop a reference to a display list, freeing it - if the reference count reaches zero. - - Does not throw exceptions. -*/ -void fz_drop_display_list(fz_context *ctx, fz_display_list *list); - -/* - Links - - NOTE: The link destination struct is scheduled for imminent change! - Use at your own peril. -*/ - -typedef struct fz_link_s fz_link; - -typedef struct fz_link_dest_s fz_link_dest; - -typedef enum fz_link_kind_e -{ - FZ_LINK_NONE = 0, - FZ_LINK_GOTO, - FZ_LINK_URI, - FZ_LINK_LAUNCH, - FZ_LINK_NAMED, - FZ_LINK_GOTOR -} fz_link_kind; - -enum { - fz_link_flag_l_valid = 1, /* lt.x is valid */ - fz_link_flag_t_valid = 2, /* lt.y is valid */ - fz_link_flag_r_valid = 4, /* rb.x is valid */ - fz_link_flag_b_valid = 8, /* rb.y is valid */ - fz_link_flag_fit_h = 16, /* Fit horizontally */ - fz_link_flag_fit_v = 32, /* Fit vertically */ - fz_link_flag_r_is_zoom = 64 /* rb.x is actually a zoom figure */ -}; - -/* - fz_link_dest: This structure represents the destination of - an fz_link; this may be a page to display, a new file to open, - a javascript action to perform, etc. - - kind: This identifies the kind of link destination. Different - kinds use different sections of the union. - - For FZ_LINK_GOTO or FZ_LINK_GOTOR: - - gotor.page: The target page number to move to (0 being the - first page in the document). - - gotor.flags: A bitfield consisting of fz_link_flag_* - describing the validity and meaning of the different parts - of gotor.lt and gotor.rb. Link destinations are constructed - (as far as possible) so that lt and rb can be treated as a - bounding box, though the validity flags indicate which of the - values was actually specified in the file. - - gotor.lt: The top left corner of the destination bounding box. - - gotor.rb: The bottom right corner of the destination bounding - box. If fz_link_flag_r_is_zoom is set, then the r figure - should actually be interpretted as a zoom ratio. - - gotor.file_spec: If set, this destination should cause a new - file to be opened; this field holds a pointer to a remote - file specification (UTF-8). Always NULL in the FZ_LINK_GOTO - case. - - gotor.new_window: If true, the destination should open in a - new window. - - For FZ_LINK_URI: - - uri.uri: A UTF-8 encoded URI to launch. - - uri.is_map: If true, the x and y coords (as ints, in user - space) should be appended to the URI before launch. - - For FZ_LINK_LAUNCH: - - launch.file_spec: A UTF-8 file specification to launch. - - launch.new_window: If true, the destination should be launched - in a new window. - - For FZ_LINK_NAMED: - - named.named: The named action to perform. Likely to be - client specific. -*/ -struct fz_link_dest_s -{ - fz_link_kind kind; - union - { - struct - { - int page; - int flags; - fz_point lt; - fz_point rb; - char *file_spec; - int new_window; - } - gotor; - struct - { - char *uri; - int is_map; - } - uri; - struct - { - char *file_spec; - int new_window; - } - launch; - struct - { - char *named; - } - named; - } - ld; -}; - -/* - fz_link is a list of interactive links on a page. - - There is no relation between the order of the links in the - list and the order they appear on the page. The list of links - for a given page can be obtained from fz_load_links. - - A link is reference counted. Dropping a reference to a link is - done by calling fz_drop_link. - - rect: The hot zone. The area that can be clicked in - untransformed coordinates. - - dest: Link destinations come in two forms: Page and area that - an application should display when this link is activated. Or - as an URI that can be given to a browser. - - next: A pointer to the next link on the same page. -*/ -struct fz_link_s -{ - int refs; - fz_rect rect; - fz_link_dest dest; - fz_link *next; -}; - -fz_link *fz_new_link(fz_context *ctx, const fz_rect *bbox, fz_link_dest dest); -fz_link *fz_keep_link(fz_context *ctx, fz_link *link); - -/* - fz_drop_link: Drop and free a list of links. - - Does not throw exceptions. -*/ -void fz_drop_link(fz_context *ctx, fz_link *link); - -void fz_free_link_dest(fz_context *ctx, fz_link_dest *dest); - -/* Outline */ - -typedef struct fz_outline_s fz_outline; - -/* - fz_outline is a tree of the outline of a document (also known - as table of contents). - - title: Title of outline item using UTF-8 encoding. May be NULL - if the outline item has no text string. - - dest: Destination in the document to be displayed when this - outline item is activated. May be FZ_LINK_NONE if the outline - item does not have a destination. - - next: The next outline item at the same level as this outline - item. May be NULL if no more outline items exist at this level. - - down: The outline items immediate children in the hierarchy. - May be NULL if no children exist. -*/ -struct fz_outline_s -{ - char *title; - fz_link_dest dest; - fz_outline *next; - fz_outline *down; -}; - -/* - fz_print_outline_xml: Dump the given outlines as (pseudo) XML. - - out: The file handle to output to. - - outline: The outlines to output. -*/ -void fz_print_outline_xml(fz_context *ctx, fz_output *out, fz_outline *outline); - -/* - fz_print_outline: Dump the given outlines to as text. - - out: The file handle to output to. - - outline: The outlines to output. -*/ -void fz_print_outline(fz_context *ctx, fz_output *out, fz_outline *outline); - -/* - fz_free_outline: Free hierarchical outline. - - Free an outline obtained from fz_load_outline. - - Does not throw exceptions. -*/ -void fz_free_outline(fz_context *ctx, fz_outline *outline); - -/* Transition support */ -typedef struct fz_transition_s fz_transition; - -enum { - FZ_TRANSITION_NONE = 0, /* aka 'R' or 'REPLACE' */ - FZ_TRANSITION_SPLIT, - FZ_TRANSITION_BLINDS, - FZ_TRANSITION_BOX, - FZ_TRANSITION_WIPE, - FZ_TRANSITION_DISSOLVE, - FZ_TRANSITION_GLITTER, - FZ_TRANSITION_FLY, - FZ_TRANSITION_PUSH, - FZ_TRANSITION_COVER, - FZ_TRANSITION_UNCOVER, - FZ_TRANSITION_FADE -}; - -struct fz_transition_s -{ - int type; - float duration; /* Effect duration (seconds) */ - - /* Parameters controlling the effect */ - int vertical; /* 0 or 1 */ - int outwards; /* 0 or 1 */ - int direction; /* Degrees */ - /* Potentially more to come */ - - /* State variables for use of the transition code */ - int state0; - int state1; -}; - -/* - fz_generate_transition: Generate a frame of a transition. - - tpix: Target pixmap - opix: Old pixmap - npix: New pixmap - time: Position within the transition (0 to 256) - trans: Transition details - - Returns 1 if successfully generated a frame. -*/ -int fz_generate_transition(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time, fz_transition *trans); - -/* - Document interface -*/ -typedef struct fz_document_s fz_document; -typedef struct fz_page_s fz_page; - -/* - fz_open_document: Open a PDF, XPS or CBZ document. - - Open a document file and read its basic structure so pages and - objects can be located. MuPDF will try to repair broken - documents (without actually changing the file contents). - - The returned fz_document is used when calling most other - document related functions. Note that it wraps the context, so - those functions implicitly can access the global state in - context. - - filename: a path to a file as it would be given to open(2). -*/ -fz_document *fz_open_document(fz_context *ctx, const char *filename); - -/* - fz_open_document_with_stream: Open a PDF, XPS or CBZ document. - - Open a document using the specified stream object rather than - opening a file on disk. - - magic: a string used to detect document type; either a file name or mime-type. -*/ -fz_document *fz_open_document_with_stream(fz_context *ctx, const char *magic, fz_stream *stream); - -/* - fz_close_document: Close and free an open document. - - The resource store in the context associated with fz_document - is emptied, and any allocations for the document are freed. - - Does not throw exceptions. -*/ -void fz_close_document(fz_document *doc); - -/* - fz_needs_password: Check if a document is encrypted with a - non-blank password. - - Does not throw exceptions. -*/ -int fz_needs_password(fz_document *doc); - -/* - fz_authenticate_password: Test if the given password can - decrypt the document. - - password: The password string to be checked. Some document - specifications do not specify any particular text encoding, so - neither do we. - - Does not throw exceptions. -*/ -int fz_authenticate_password(fz_document *doc, char *password); - -/* - fz_load_outline: Load the hierarchical document outline. - - Should be freed by fz_free_outline. -*/ -fz_outline *fz_load_outline(fz_document *doc); - -/* - fz_count_pages: Return the number of pages in document - - May return 0 for documents with no pages. -*/ -int fz_count_pages(fz_document *doc); - -/* - fz_load_page: Load a page. - - After fz_load_page is it possible to retrieve the size of the - page using fz_bound_page, or to render the page using - fz_run_page_*. Free the page by calling fz_free_page. - - number: page number, 0 is the first page of the document. -*/ -fz_page *fz_load_page(fz_document *doc, int number); - -/* - fz_load_links: Load the list of links for a page. - - Returns a linked list of all the links on the page, each with - its clickable region and link destination. Each link is - reference counted so drop and free the list of links by - calling fz_drop_link on the pointer return from fz_load_links. - - page: Page obtained from fz_load_page. -*/ -fz_link *fz_load_links(fz_document *doc, fz_page *page); - -/* - fz_bound_page: Determine the size of a page at 72 dpi. - - Does not throw exceptions. -*/ -fz_rect *fz_bound_page(fz_document *doc, fz_page *page, fz_rect *rect); - -/* - fz_annot: opaque pointer to annotation details. -*/ -typedef struct fz_annot_s fz_annot; - -typedef enum -{ - FZ_ANNOT_TEXT, - FZ_ANNOT_LINK, - FZ_ANNOT_FREETEXT, - FZ_ANNOT_LINE, - FZ_ANNOT_SQUARE, - FZ_ANNOT_CIRCLE, - FZ_ANNOT_POLYGON, - FZ_ANNOT_POLYLINE, - FZ_ANNOT_HIGHLIGHT, - FZ_ANNOT_UNDERLINE, - FZ_ANNOT_SQUIGGLY, - FZ_ANNOT_STRIKEOUT, - FZ_ANNOT_STAMP, - FZ_ANNOT_CARET, - FZ_ANNOT_INK, - FZ_ANNOT_POPUP, - FZ_ANNOT_FILEATTACHMENT, - FZ_ANNOT_SOUND, - FZ_ANNOT_MOVIE, - FZ_ANNOT_WIDGET, - FZ_ANNOT_SCREEN, - FZ_ANNOT_PRINTERMARK, - FZ_ANNOT_TRAPNET, - FZ_ANNOT_WATERMARK, - FZ_ANNOT_3D -} fz_annot_type; - -/* - fz_get_annot_type: return the type of an annotation -*/ -fz_annot_type fz_get_annot_type(fz_annot *annot); - -/* - fz_first_annot: Return a pointer to the first annotation on a page. - - Does not throw exceptions. -*/ -fz_annot *fz_first_annot(fz_document *doc, fz_page *page); - -/* - fz_next_annot: Return a pointer to the next annotation on a page. - - Does not throw exceptions. -*/ -fz_annot *fz_next_annot(fz_document *doc, fz_annot *annot); - -/* - fz_bound_annot: Return the bounding rectangle of the annotation. - - Does not throw exceptions. -*/ -fz_rect *fz_bound_annot(fz_document *doc, fz_annot *annot, fz_rect *rect); - -/* - fz_run_page: Run a page through a device. - - page: Page obtained from fz_load_page. - - dev: Device obtained from fz_new_*_device. - - transform: Transform to apply to page. May include for example - scaling and rotation, see fz_scale, fz_rotate and fz_concat. - Set to fz_identity if no transformation is desired. - - cookie: Communication mechanism between caller and library - rendering the page. Intended for multi-threaded applications, - while single-threaded applications set cookie to NULL. The - caller may abort an ongoing rendering of a page. Cookie also - communicates progress information back to the caller. The - fields inside cookie are continually updated while the page is - rendering. -*/ -void fz_run_page(fz_document *doc, fz_page *page, fz_device *dev, const fz_matrix *transform, fz_cookie *cookie); - -/* - fz_run_page_contents: Run a page through a device. Just the main - page content, without the annotations, if any. - - page: Page obtained from fz_load_page. - - dev: Device obtained from fz_new_*_device. - - transform: Transform to apply to page. May include for example - scaling and rotation, see fz_scale, fz_rotate and fz_concat. - Set to fz_identity if no transformation is desired. - - cookie: Communication mechanism between caller and library - rendering the page. Intended for multi-threaded applications, - while single-threaded applications set cookie to NULL. The - caller may abort an ongoing rendering of a page. Cookie also - communicates progress information back to the caller. The - fields inside cookie are continually updated while the page is - rendering. -*/ -void fz_run_page_contents(fz_document *doc, fz_page *page, fz_device *dev, const fz_matrix *transform, fz_cookie *cookie); - -/* - fz_run_annot: Run an annotation through a device. - - page: Page obtained from fz_load_page. - - annot: an annotation. - - dev: Device obtained from fz_new_*_device. - - transform: Transform to apply to page. May include for example - scaling and rotation, see fz_scale, fz_rotate and fz_concat. - Set to fz_identity if no transformation is desired. - - cookie: Communication mechanism between caller and library - rendering the page. Intended for multi-threaded applications, - while single-threaded applications set cookie to NULL. The - caller may abort an ongoing rendering of a page. Cookie also - communicates progress information back to the caller. The - fields inside cookie are continually updated while the page is - rendering. -*/ -void fz_run_annot(fz_document *doc, fz_page *page, fz_annot *annot, fz_device *dev, const fz_matrix *transform, fz_cookie *cookie); - -/* - fz_free_page: Free a loaded page. - - Does not throw exceptions. -*/ -void fz_free_page(fz_document *doc, fz_page *page); - -/* - fz_meta: Perform a meta operation on a document. - - (In development - Subject to change in future versions) - - Meta operations provide a way to perform format specific - operations on a document. The meta operation scheme is - designed to be extensible so that new features can be - transparently added in later versions of the library. - - doc: The document on which to perform the meta operation. - - key: The meta operation to try. If a particular operation - is unsupported on a given document, the function will return - FZ_META_UNKNOWN_KEY. - - ptr: An operation dependent (possibly NULL) pointer. - - size: An operation dependent integer. Often this will - be the size of the block pointed to by ptr, but not always. - - Returns an operation dependent value; FZ_META_UNKNOWN_KEY - always means "unknown operation for this document". In general - FZ_META_OK should be used to indicate successful operation. -*/ -int fz_meta(fz_document *doc, int key, void *ptr, int size); - -enum -{ - FZ_META_UNKNOWN_KEY = -1, - FZ_META_OK = 0, - - /* - ptr: Pointer to block (uninitialised on entry) - size: Size of block (at least 64 bytes) - Returns: Document format as a brief text string. - All formats should support this. - */ - FZ_META_FORMAT_INFO = 1, - - /* - ptr: Pointer to block (uninitialised on entry) - size: Size of block (at least 64 bytes) - Returns: Encryption info as a brief text string. - */ - FZ_META_CRYPT_INFO = 2, - - /* - ptr: NULL - size: Which permission to check - Returns: 1 if permitted, 0 otherwise. - */ - FZ_META_HAS_PERMISSION = 3, - - FZ_PERMISSION_PRINT = 0, - FZ_PERMISSION_CHANGE = 1, - FZ_PERMISSION_COPY = 2, - FZ_PERMISSION_NOTES = 3, - - /* - ptr: Pointer to block. First entry in the block is - a pointer to a UTF8 string to lookup. The rest of the - block is uninitialised on entry. - size: size of the block in bytes. - Returns: 0 if not found. 1 if found. The string - result is copied into the block (truncated to size - and NULL terminated) - - */ - FZ_META_INFO = 4, -}; - -/* - fz_page_presentation: Get the presentation details for a given page. - - duration: NULL, or a pointer to a place to set the page duration in - seconds. (Will be set to 0 if unspecified). - - Returns: a pointer to a transition structure, or NULL if there isn't - one. - - Does not throw exceptions. -*/ -fz_transition *fz_page_presentation(fz_document *doc, fz_page *page, float *duration); - - - -/* - fz_javascript_supported: test whether a version of mupdf with - a javascript engine is in use. -*/ -int fz_javascript_supported(void); - -typedef struct fz_write_options_s fz_write_options; - -/* - In calls to fz_write, the following options structure can be used - to control aspects of the writing process. This structure may grow - in future, and should be zero-filled to allow forwards compatiblity. -*/ -struct fz_write_options_s -{ - int do_ascii; /* If non-zero then attempt (where possible) to make - the output ascii. */ - int do_expand; /* Bitflags; each non zero bit indicates an aspect - of the file that should be 'expanded' on - writing. */ - int do_garbage; /* If non-zero then attempt (where possible) to - garbage collect the file before writing. */ - int do_linear; /* If non-zero then write linearised. */ - int continue_on_error; /* If non-zero, errors are (optionally) - counted and writing continues. */ - int *errors; /* Pointer to a place to store a count of errors */ -}; - -/* An enumeration of bitflags to use in the above 'do_expand' field of - fz_write_options. -*/ -enum -{ - fz_expand_images = 1, - fz_expand_fonts = 2, - fz_expand_all = -1 -}; - -/* - fz_write: Write a document out. - - (In development - Subject to change in future versions) - - Save a copy of the current document in its original format. - Internally the document may change. - - doc: The document to save. - - filename: The filename to save to. - - opts: NULL, or a pointer to an options structure. - - May throw exceptions. -*/ -void fz_write_document(fz_document *doc, char *filename, fz_write_options *opts); - -/* - PCL output -*/ -typedef struct fz_pcl_options_s fz_pcl_options; - -struct fz_pcl_options_s -{ - /* Features of a particular printer */ - int features; - const char *odd_page_init; - const char *even_page_init; - - /* Options for this job */ - int tumble; - int duplex_set; - int duplex; - int paper_size; - int manual_feed_set; - int manual_feed; - int media_position_set; - int media_position; - - /* Updated as we move through the job */ - int page_count; -}; - -/* - fz_pcl_preset: Retrieve a set of fz_pcl_options suitable for a given - preset. - - opts: pointer to options structure to populate. - - preset: Preset to fetch. Currently defined presets include: - ljet4 HP DeskJet - dj500 HP DeskJet 500 - fs600 Kyocera FS-600 - lj HP LaserJet, HP LaserJet Plus - lj2 HP LaserJet IIp, HP LaserJet IId - lj3 HP LaserJet III - lj3d HP LaserJet IIId - lj4 HP LaserJet 4 - lj4pl HP LaserJet 4 PL - lj4d HP LaserJet 4d - lp2563b HP 2563B line printer - oce9050 Oce 9050 Line printer - - Throws exception on unknown preset. -*/ -void fz_pcl_preset(fz_context *ctx, fz_pcl_options *opts, const char *preset); - -/* - fz_pcl_option: Set a given PCL option to a given value in the supplied - options structure. - - opts: The option structure to modify, - - option: The option to change. - - val: The value that the option should be set to. Acceptable ranges of - values depend on the option in question. - - Throws an exception on attempt to set an unknown option, or an illegal - value. - - Currently defined options/values are as follows: - - spacing,0 No vertical spacing capability - spacing,1 PCL 3 spacing (<ESC>*p+<n>Y) - spacing,2 PCL 4 spacing (<ESC>*b<n>Y) - spacing,3 PCL 5 spacing (<ESC>*b<n>Y and clear seed row) - mode2,0 or 1 Disable/Enable mode 2 graphics compression - mode3,0 or 1 Disable/Enable mode 3 graphics compression - mode3,0 or 1 Disable/Enable mode 3 graphics compression - eog_reset,0 or 1 End of graphics (<ESC>*rB) resets all parameters - has_duplex,0 or 1 Duplex supported (<ESC>&l<duplex>S) - has_papersize,0 or 1 Papersize setting supported (<ESC>&l<sizecode>A) - has_copies,0 or 1 Number of copies supported (<ESC>&l<copies>X) - is_ljet4pjl,0 or 1 Disable/Enable HP 4PJL model-specific output - is_oce9050,0 or 1 Disable/Enable Oce 9050 model-specific output -*/ -void fz_pcl_option(fz_context *ctx, fz_pcl_options *opts, const char *option, int val); - -void fz_output_pcl(fz_output *out, const fz_pixmap *pixmap, fz_pcl_options *pcl); - -void fz_output_pcl_bitmap(fz_output *out, const fz_bitmap *bitmap, fz_pcl_options *pcl); - -void fz_write_pcl(fz_context *ctx, fz_pixmap *pixmap, char *filename, int append, fz_pcl_options *pcl); - -void fz_write_pcl_bitmap(fz_context *ctx, fz_bitmap *bitmap, char *filename, int append, fz_pcl_options *pcl); - -#endif diff --git a/fitz/image_jpeg.c b/fitz/image_jpeg.c index bd7a6d5b..2ab83180 100644 --- a/fitz/image_jpeg.c +++ b/fitz/image_jpeg.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <jpeglib.h> diff --git a/fitz/image_jpx.c b/fitz/image_jpx.c index a77fb19b..be7368f4 100644 --- a/fitz/image_jpx.c +++ b/fitz/image_jpx.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Without the definition of OPJ_STATIC, compilation fails on windows * due to the use of __stdcall. We believe it is required on some diff --git a/fitz/image_md5.c b/fitz/image_md5.c index 86ba0a12..3e479d69 100644 --- a/fitz/image_md5.c +++ b/fitz/image_md5.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_md5_pixmap(fz_pixmap *pix, unsigned char digest[16]) { diff --git a/fitz/image_png.c b/fitz/image_png.c index 1adaaf7a..a86f4b56 100644 --- a/fitz/image_png.c +++ b/fitz/image_png.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <zlib.h> diff --git a/fitz/image_save.c b/fitz/image_save.c index 8695002b..b44323ab 100644 --- a/fitz/image_save.c +++ b/fitz/image_save.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_write_pixmap(fz_context *ctx, fz_pixmap *img, char *file, int rgb) { diff --git a/fitz/image_tiff.c b/fitz/image_tiff.c index 7a372214..1249927f 100644 --- a/fitz/image_tiff.c +++ b/fitz/image_tiff.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* * TIFF image loader. Should be enough to support TIFF files in XPS. diff --git a/fitz/memento.c b/fitz/memento.c index 086504a7..6a159f10 100644 --- a/fitz/memento.c +++ b/fitz/memento.c @@ -39,7 +39,7 @@ void *memset(void *,int,size_t); #endif int atexit(void (*)(void)); #else -#include "memento.h" +#include "mupdf/memento.h" #include <stdio.h> #include <stdlib.h> #endif diff --git a/fitz/memento.h b/fitz/memento.h deleted file mode 100644 index 1886ceb8..00000000 --- a/fitz/memento.h +++ /dev/null @@ -1,234 +0,0 @@ -/* Copyright (C) 2001-2013 Artifex Software, Inc. - All Rights Reserved. - - This software is provided AS-IS with no warranty, either express or - implied. - - This software is distributed under license and may not be copied, modified - or distributed except as expressly authorized under the terms of that - license. Refer to licensing information at http://www.artifex.com - or contact Artifex Software, Inc., 7 Mt. Lassen Drive - Suite A-134, - San Rafael, CA 94903, U.S.A., +1(415)492-9861, for further information. -*/ - - -/* Memento: A library to aid debugging of memory leaks/heap corruption. - * - * Usage: - * First, build your project with MEMENTO defined, and include this - * header file wherever you use malloc, realloc or free. - * This header file will use macros to point malloc, realloc and free to - * point to Memento_malloc, Memento_realloc, Memento_free. - * - * Run your program, and all mallocs/frees/reallocs should be redirected - * through here. When the program exits, you will get a list of all the - * leaked blocks, together with some helpful statistics. You can get the - * same list of allocated blocks at any point during program execution by - * calling Memento_listBlocks(); - * - * Every call to malloc/free/realloc counts as an 'allocation event'. - * On each event Memento increments a counter. Every block is tagged with - * the current counter on allocation. Every so often during program - * execution, the heap is checked for consistency. By default this happens - * every 1024 events. This can be changed at runtime by using - * Memento_setParanoia(int level). 0 turns off such checking, 1 sets - * checking to happen on every event, any other number n sets checking to - * happen once every n events. - * - * Memento keeps blocks around for a while after they have been freed, and - * checks them as part of these heap checks to see if they have been - * written to (or are freed twice etc). - * - * A given heap block can be checked for consistency (it's 'pre' and - * 'post' guard blocks are checked to see if they have been written to) - * by calling Memento_checkBlock(void *blockAddress); - * - * A check of all the memory can be triggered by calling Memento_check(); - * (or Memento_checkAllMemory(); if you'd like it to be quieter). - * - * A good place to breakpoint is Memento_breakpoint, as this will then - * trigger your debugger if an error is detected. This is done - * automatically for debug windows builds. - * - * If a block is found to be corrupt, information will be printed to the - * console, including the address of the block, the size of the block, - * the type of corruption, the number of the block and the event on which - * it last passed a check for correctness. - * - * If you rerun, and call Memento_paranoidAt(int event); with this number - * the the code will wait until it reaches that event and then start - * checking the heap after every allocation event. Assuming it is a - * deterministic failure, you should then find out where in your program - * the error is occurring (between event x-1 and event x). - * - * Then you can rerun the program again, and call - * Memento_breakAt(int event); and the program will call - * Memento_Breakpoint() when event x is reached, enabling you to step - * through. - * - * Memento_find(address) will tell you what block (if any) the given - * address is in. - * - * An example: - * Suppose we have a gs invocation that crashes with memory corruption. - * * Build with -DMEMENTO. - * * In your debugger put breakpoints on Memento_inited and - * Memento_Breakpoint. - * * Run the program. It will stop in Memento_inited. - * * Execute Memento_setParanoia(1); (In VS use Ctrl-Alt-Q). (Note #1) - * * Continue execution. - * * It will detect the memory corruption on the next allocation event - * after it happens, and stop in Memento_breakpoint. The console should - * show something like: - * - * Freed blocks: - * 0x172e610(size=288,num=1415) index 256 (0x172e710) onwards corrupted - * Block last checked OK at allocation 1457. Now 1458. - * - * * This means that the block became corrupted between allocation 1457 - * and 1458 - so if we rerun and stop the program at 1457, we can then - * step through, possibly with a data breakpoint at 0x172e710 and see - * when it occurs. - * * So restart the program from the beginning. When we hit Memento_inited - * execute Memento_breakAt(1457); (and maybe Memento_setParanoia(1), or - * Memento_setParanoidAt(1457)) - * * Continue execution until we hit Memento_breakpoint. - * * Now you can step through and watch the memory corruption happen. - * - * Note #1: Using Memento_setParanoia(1) can cause your program to run - * very slowly. You may instead choose to use Memento_setParanoia(100) - * (or some other figure). This will only exhaustively check memory on - * every 100th allocation event. This trades speed for the size of the - * average allocation event range in which detection of memory corruption - * occurs. You may (for example) choose to run once checking every 100 - * allocations and discover that the corruption happens between events - * X and X+100. You can then rerun using Memento_paranoidAt(X), and - * it'll only start exhaustively checking when it reaches X. - * - * More than one memory allocator? - * - * If you have more than one memory allocator in the system (like for - * instance the ghostscript chunk allocator, that builds on top of the - * standard malloc and returns chunks itself), then there are some things - * to note: - * - * * If the secondary allocator gets its underlying blocks from calling - * malloc, then those will be checked by Memento, but 'subblocks' that - * are returned to the secondary allocator will not. There is currently - * no way to fix this other than trying to bypass the secondary - * allocator. One way I have found to do this with the chunk allocator - * is to tweak its idea of a 'large block' so that it puts every - * allocation in its own chunk. Clearly this negates the point of having - * a secondary allocator, and is therefore not recommended for general - * use. - * - * * Again, if the secondary allocator gets its underlying blocks from - * calling malloc (and hence Memento) leak detection should still work - * (but whole blocks will be detected rather than subblocks). - * - * * If on every allocation attempt the secondary allocator calls into - * Memento_failThisEvent(), and fails the allocation if it returns true - * then more useful features can be used; firstly memory squeezing will - * work, and secondly, Memento will have a "finer grained" paranoia - * available to it. - */ - -#ifndef MEMENTO_H - -#include <memory.h> - -#ifdef __ANDROID__ -#define MEMENTO_ANDROID -#include <stdio.h> -#include <stdlib.h> -#endif - -#define MEMENTO_H - -#ifndef MEMENTO_UNDERLYING_MALLOC -#define MEMENTO_UNDERLYING_MALLOC malloc -#endif -#ifndef MEMENTO_UNDERLYING_FREE -#define MEMENTO_UNDERLYING_FREE free -#endif -#ifndef MEMENTO_UNDERLYING_REALLOC -#define MEMENTO_UNDERLYING_REALLOC realloc -#endif -#ifndef MEMENTO_UNDERLYING_CALLOC -#define MEMENTO_UNDERLYING_CALLOC calloc -#endif - -#ifndef MEMENTO_MAXALIGN -#define MEMENTO_MAXALIGN (sizeof(int)) -#endif - -#define MEMENTO_PREFILL 0xa6 -#define MEMENTO_POSTFILL 0xa7 -#define MEMENTO_ALLOCFILL 0xa8 -#define MEMENTO_FREEFILL 0xa9 - -#define MEMENTO_FREELIST_MAX 0x2000000 - -int Memento_checkBlock(void *); -int Memento_checkAllMemory(void); -int Memento_check(void); - -int Memento_setParanoia(int); -int Memento_paranoidAt(int); -int Memento_breakAt(int); -void Memento_breakOnFree(void *a); -void Memento_breakOnRealloc(void *a); -int Memento_getBlockNum(void *); -int Memento_find(void *a); -void Memento_breakpoint(void); -int Memento_failAt(int); -int Memento_failThisEvent(void); -void Memento_listBlocks(void); -void Memento_listNewBlocks(void); -size_t Memento_setMax(size_t); -void Memento_stats(void); -void *Memento_label(void *, const char *); - -void *Memento_malloc(size_t s); -void *Memento_realloc(void *, size_t s); -void Memento_free(void *); -void *Memento_calloc(size_t, size_t); - -#ifdef MEMENTO - -#ifndef COMPILING_MEMENTO_C -#define malloc Memento_malloc -#define free Memento_free -#define realloc Memento_realloc -#define calloc Memento_calloc -#endif - -#else - -#define Memento_malloc MEMENTO_UNDERLYING_MALLOC -#define Memento_free MEMENTO_UNDERLYING_FREE -#define Memento_realloc MEMENTO_UNDERLYING_REALLOC -#define Memento_calloc MEMENTO_UNDERLYING_CALLOC - -#define Memento_checkBlock(A) 0 -#define Memento_checkAllMemory() 0 -#define Memento_check() 0 -#define Memento_setParanoia(A) 0 -#define Memento_paranoidAt(A) 0 -#define Memento_breakAt(A) 0 -#define Memento_breakOnFree(A) 0 -#define Memento_breakOnRealloc(A) 0 -#define Memento_getBlockNum(A) 0 -#define Memento_find(A) 0 -#define Memento_breakpoint() do {} while (0) -#define Memento_failAt(A) 0 -#define Memento_failThisEvent() 0 -#define Memento_listBlocks() do {} while (0) -#define Memento_listNewBlocks() do {} while (0) -#define Memento_setMax(A) 0 -#define Memento_stats() do {} while (0) -#define Memento_label(A,B) (A) - -#endif /* MEMENTO */ - -#endif /* MEMENTO_H */ diff --git a/fitz/res_bitmap.c b/fitz/res_bitmap.c index af70f983..c31e85b4 100644 --- a/fitz/res_bitmap.c +++ b/fitz/res_bitmap.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_bitmap * fz_new_bitmap(fz_context *ctx, int w, int h, int n, int xres, int yres) diff --git a/fitz/res_colorspace.c b/fitz/res_colorspace.c index 9603f46d..2486799d 100644 --- a/fitz/res_colorspace.c +++ b/fitz/res_colorspace.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define SLOWCMYK diff --git a/fitz/res_font.c b/fitz/res_font.c index db2ffe5d..5f8721f6 100644 --- a/fitz/res_font.c +++ b/fitz/res_font.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include <ft2build.h> #include FT_FREETYPE_H diff --git a/fitz/res_func.c b/fitz/res_func.c index a8ffa907..53f0d2c9 100644 --- a/fitz/res_func.c +++ b/fitz/res_func.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_eval_function(fz_context *ctx, fz_function *func, float *in_, int inlen, float *out_, int outlen) diff --git a/fitz/res_halftone.c b/fitz/res_halftone.c index b0094cb4..0472a8d9 100644 --- a/fitz/res_halftone.c +++ b/fitz/res_halftone.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_halftone * fz_new_halftone(fz_context *ctx, int comps) diff --git a/fitz/res_image.c b/fitz/res_image.c index 4aac14ae..06d1f2f0 100644 --- a/fitz/res_image.c +++ b/fitz/res_image.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_pixmap * fz_image_to_pixmap(fz_context *ctx, fz_image *image, int w, int h) diff --git a/fitz/res_path.c b/fitz/res_path.c index b2e4f6f5..142928b9 100644 --- a/fitz/res_path.c +++ b/fitz/res_path.c @@ -1,5 +1,5 @@ #include <assert.h> -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_path * fz_new_path(fz_context *ctx) diff --git a/fitz/res_pcl.c b/fitz/res_pcl.c index 0cbf6c3c..e456f401 100644 --- a/fitz/res_pcl.c +++ b/fitz/res_pcl.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Lifted from ghostscript gdevjlm.h */ /* diff --git a/fitz/res_pixmap.c b/fitz/res_pixmap.c index e45a6e9c..c528a77d 100644 --- a/fitz/res_pixmap.c +++ b/fitz/res_pixmap.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_pixmap * fz_keep_pixmap(fz_context *ctx, fz_pixmap *pix) diff --git a/fitz/res_pwg.c b/fitz/res_pwg.c index ea2ef588..0cdcc771 100644 --- a/fitz/res_pwg.c +++ b/fitz/res_pwg.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" void fz_output_pwg_file_header(fz_output *out) diff --git a/fitz/res_shade.c b/fitz/res_shade.c index c678bd17..0bbbeae3 100644 --- a/fitz/res_shade.c +++ b/fitz/res_shade.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define SWAP(a,b) {fz_vertex *t = (a); (a) = (b); (b) = t;} diff --git a/fitz/res_store.c b/fitz/res_store.c index 2cb16c7f..5b25f197 100644 --- a/fitz/res_store.c +++ b/fitz/res_store.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" typedef struct fz_item_s fz_item; diff --git a/fitz/res_text.c b/fitz/res_text.c index 54c7691e..28142e2c 100644 --- a/fitz/res_text.c +++ b/fitz/res_text.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_text * fz_new_text(fz_context *ctx, fz_font *font, const fz_matrix *trm, int wmode) diff --git a/fitz/stm_buffer.c b/fitz/stm_buffer.c index 55c057f0..40adff0c 100644 --- a/fitz/stm_buffer.c +++ b/fitz/stm_buffer.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_buffer * fz_new_buffer(fz_context *ctx, int size) diff --git a/fitz/stm_comp_buf.c b/fitz/stm_comp_buf.c index e6a167b5..77f7b741 100644 --- a/fitz/stm_comp_buf.c +++ b/fitz/stm_comp_buf.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* This code needs to be kept out of stm_buffer.c to avoid it being * pulled into cmapdump.c */ diff --git a/fitz/stm_open.c b/fitz/stm_open.c index ffa6de82..3b2eb53f 100644 --- a/fitz/stm_open.c +++ b/fitz/stm_open.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" fz_stream * fz_new_stream(fz_context *ctx, void *state, diff --git a/fitz/stm_output.c b/fitz/stm_output.c index 7c181a9c..ff9e866b 100644 --- a/fitz/stm_output.c +++ b/fitz/stm_output.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" static int file_printf(fz_output *out, const char *fmt, va_list ap) diff --git a/fitz/stm_read.c b/fitz/stm_read.c index 84fd877f..a0988f46 100644 --- a/fitz/stm_read.c +++ b/fitz/stm_read.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define MIN_BOMB (100 << 20) diff --git a/fitz/text_extract.c b/fitz/text_extract.c index 01a789fd..cf32ae53 100644 --- a/fitz/text_extract.c +++ b/fitz/text_extract.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #include "ucdn.h" /* Extract text into an unsorted span soup. */ diff --git a/fitz/text_output.c b/fitz/text_output.c index c4af4160..b3af936f 100644 --- a/fitz/text_output.c +++ b/fitz/text_output.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" #define SUBSCRIPT_OFFSET 0.2f #define SUPERSCRIPT_OFFSET -0.2f diff --git a/fitz/text_paragraph.c b/fitz/text_paragraph.c index c0fc42d2..df626f5e 100644 --- a/fitz/text_paragraph.c +++ b/fitz/text_paragraph.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" /* Assemble span soup into blocks and lines. */ diff --git a/fitz/text_search.c b/fitz/text_search.c index 9b0a3acf..a90a682f 100644 --- a/fitz/text_search.c +++ b/fitz/text_search.c @@ -1,4 +1,4 @@ -#include "fitz-internal.h" +#include "mupdf/fitz-internal.h" static inline int fz_tolower(int c) { |