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|
#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 <float.h> /* FLT_EPSILON */
#include <fcntl.h> /* O_RDONLY & co */
#define nil ((void*)0)
#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 strtoll _strtoi64
#else /* Unix or close enough */
#include <unistd.h>
#define O_BINARY 0
#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
*/
#if __STDC_VERSION__ == 199901L /* C99 */
#define fz_throw(...) fz_throwimp(__FILE__, __LINE__, __func__, __VA_ARGS__)
#define fz_rethrow(cause, ...) fz_rethrowimp(__FILE__, __LINE__, __func__, cause, __VA_ARGS__)
#define fz_catch(cause, ...) fz_catchimp(__FILE__, __LINE__, __func__, cause, __VA_ARGS__)
#elif _MSC_VER >= 1500 /* MSVC 9 or newer */
#define inline __inline
#define restrict __restrict
#define fz_throw(...) fz_throwimp(__FILE__, __LINE__, __FUNCTION__, __VA_ARGS__)
#define fz_rethrow(cause, ...) fz_rethrowimp(__FILE__, __LINE__, __FUNCTION__, cause, __VA_ARGS__)
#define fz_catch(cause, ...) fz_catchimp(__FILE__, __LINE__, __FUNCTION__, cause, __VA_ARGS__)
#elif __GNUC__ >= 3 /* GCC 3 or newer */
#define inline __inline
#define restrict __restrict
#define fz_throw(fmt...) fz_throwimp(__FILE__, __LINE__, __FUNCTION__, fmt)
#define fz_rethrow(cause, fmt...) fz_rethrowimp(__FILE__, __LINE__, __FUNCTION__, cause, fmt)
#define fz_catch(cause, fmt...) fz_catchimp(__FILE__, __LINE__, __FUNCTION__, cause, fmt)
#else /* Unknown or ancient */
#define inline
#define restrict
#define fz_throw fz_throwimpx
#define fz_rethrow fz_rethrowimpx
#define fz_catch fz_catchimpx
#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
/*
* Error handling
*/
typedef int fz_error;
void fz_warn(char *fmt, ...) __printflike(1, 2);
fz_error fz_throwimp(const char *file, int line, const char *func, char *fmt, ...) __printflike(4, 5);
fz_error fz_rethrowimp(const char *file, int line, const char *func, fz_error cause, char *fmt, ...) __printflike(5, 6);
void fz_catchimp(const char *file, int line, const char *func, fz_error cause, char *fmt, ...) __printflike(5, 6);
fz_error fz_throwimpx(char *fmt, ...) __printflike(1, 2);
fz_error fz_rethrowimpx(fz_error cause, char *fmt, ...) __printflike(2, 3);
void fz_catchimpx(fz_error cause, char *fmt, ...) __printflike(2, 3);
#define fz_okay ((fz_error)0)
/*
* Basic runtime and utility functions
*/
#define ABS(x) ( (x) < 0 ? -(x) : (x) )
#define MIN(a,b) ( (a) < (b) ? (a) : (b) )
#define MAX(a,b) ( (a) > (b) ? (a) : (b) )
#define CLAMP(x,a,b) ( (x) > (b) ? (b) : ( (x) < (a) ? (a) : (x) ) )
/* memory allocation */
void *fz_malloc(int n);
void *fz_realloc(void *p, int n);
void fz_free(void *p);
char *fz_strdup(char *s);
/* runtime (hah!) test for endian-ness */
int fz_isbigendian(void);
/* safe string functions */
char *fz_strsep(char **stringp, const char *delim);
int fz_strlcpy(char *dst, const char *src, int n);
int fz_strlcat(char *dst, const char *src, int n);
/* utf-8 encoding and decoding */
int chartorune(int *rune, char *str);
int runetochar(char *str, int *rune);
int runelen(int c);
/* getopt */
extern int fz_getopt(int nargc, char * const * nargv, const char *ostr);
extern int fz_optind;
extern char *fz_optarg;
/*
* Generic hash-table with fixed-length keys.
*/
typedef struct fz_hashtable_s fz_hashtable;
fz_hashtable * fz_newhash(int initialsize, int keylen);
void fz_debughash(fz_hashtable *table);
void fz_emptyhash(fz_hashtable *table);
void fz_freehash(fz_hashtable *table);
void *fz_hashfind(fz_hashtable *table, void *key);
void fz_hashinsert(fz_hashtable *table, void *key, void *val);
void fz_hashremove(fz_hashtable *table, void *key);
int fz_hashlen(fz_hashtable *table);
void *fz_hashgetkey(fz_hashtable *table, int idx);
void *fz_hashgetval(fz_hashtable *table, int idx);
/*
* 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)
/* 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)
typedef struct fz_matrix_s fz_matrix;
typedef struct fz_point_s fz_point;
typedef struct fz_rect_s fz_rect;
typedef struct fz_bbox_s fz_bbox;
extern const fz_rect fz_unitrect;
extern const fz_rect fz_emptyrect;
extern const fz_rect fz_infiniterect;
extern const fz_bbox fz_unitbbox;
extern const fz_bbox fz_emptybbox;
extern const fz_bbox fz_infinitebbox;
#define fz_isemptyrect(r) ((r).x0 == (r).x1)
#define fz_isinfiniterect(r) ((r).x0 > (r).x1)
struct fz_matrix_s
{
float a, b, c, d, e, f;
};
struct fz_point_s
{
float x, y;
};
struct fz_rect_s
{
float x0, y0;
float x1, y1;
};
struct fz_bbox_s
{
int x0, y0;
int x1, y1;
};
extern const fz_matrix fz_identity;
fz_matrix fz_concat(fz_matrix one, fz_matrix two);
fz_matrix fz_scale(float sx, float sy);
fz_matrix fz_rotate(float theta);
fz_matrix fz_translate(float tx, float ty);
fz_matrix fz_invertmatrix(fz_matrix m);
int fz_isrectilinear(fz_matrix m);
float fz_matrixexpansion(fz_matrix m);
fz_bbox fz_roundrect(fz_rect r);
fz_bbox fz_intersectbbox(fz_bbox a, fz_bbox b);
fz_bbox fz_unionbbox(fz_bbox a, fz_bbox b);
fz_point fz_transformpoint(fz_matrix m, fz_point p);
fz_point fz_transformvector(fz_matrix m, fz_point p);
fz_rect fz_transformrect(fz_matrix m, fz_rect r);
/*
* 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_md5init(fz_md5 *state);
void fz_md5update(fz_md5 *state, const unsigned char *input, const unsigned inlen);
void fz_md5final(fz_md5 *state, unsigned char digest[16]);
/* arc4 crypto */
typedef struct fz_arc4_s fz_arc4;
struct fz_arc4_s
{
unsigned x;
unsigned y;
unsigned char state[256];
};
void fz_arc4init(fz_arc4 *state, const unsigned char *key, const unsigned len);
unsigned char fz_arc4next(fz_arc4 *state);
void fz_arc4encrypt(fz_arc4 *state, unsigned char *dest, const unsigned char *src, const 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 */
};
void aes_setkey_enc( fz_aes *ctx, const unsigned char *key, int keysize );
void 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 );
/*
* Dynamic objects.
* The same type of objects as found in PDF and PostScript.
* Used by the filters and the mupdf parser.
*/
typedef struct fz_obj_s fz_obj;
typedef struct fz_keyval_s fz_keyval;
struct pdf_xref_s;
typedef enum fz_objkind_e
{
FZ_NULL,
FZ_BOOL,
FZ_INT,
FZ_REAL,
FZ_STRING,
FZ_NAME,
FZ_ARRAY,
FZ_DICT,
FZ_INDIRECT
} fz_objkind;
struct fz_keyval_s
{
fz_obj *k;
fz_obj *v;
};
struct fz_obj_s
{
int refs;
fz_objkind kind;
union
{
int b;
int i;
float f;
struct {
unsigned short len;
char buf[1];
} s;
char n[1];
struct {
int len;
int cap;
fz_obj **items;
} a;
struct {
char sorted;
int len;
int cap;
fz_keyval *items;
} d;
struct {
int num;
int gen;
struct pdf_xref_s *xref;
fz_obj *obj;
} r;
} u;
};
fz_obj * fz_newnull(void);
fz_obj * fz_newbool(int b);
fz_obj * fz_newint(int i);
fz_obj * fz_newreal(float f);
fz_obj * fz_newname(char *str);
fz_obj * fz_newstring(char *str, int len);
fz_obj * fz_newindirect(int num, int gen, struct pdf_xref_s *xref);
fz_obj * fz_newarray(int initialcap);
fz_obj * fz_newdict(int initialcap);
fz_obj * fz_copyarray(fz_obj *array);
fz_obj * fz_copydict(fz_obj *dict);
fz_obj *fz_keepobj(fz_obj *obj);
void fz_dropobj(fz_obj *obj);
/* type queries */
int fz_isnull(fz_obj *obj);
int fz_isbool(fz_obj *obj);
int fz_isint(fz_obj *obj);
int fz_isreal(fz_obj *obj);
int fz_isname(fz_obj *obj);
int fz_isstring(fz_obj *obj);
int fz_isarray(fz_obj *obj);
int fz_isdict(fz_obj *obj);
int fz_isindirect(fz_obj *obj);
int fz_objcmp(fz_obj *a, fz_obj *b);
fz_obj *fz_resolveindirect(fz_obj *obj);
/* silent failure, no error reporting */
int fz_tobool(fz_obj *obj);
int fz_toint(fz_obj *obj);
float fz_toreal(fz_obj *obj);
char *fz_toname(fz_obj *obj);
char *fz_tostrbuf(fz_obj *obj);
int fz_tostrlen(fz_obj *obj);
int fz_tonum(fz_obj *obj);
int fz_togen(fz_obj *obj);
int fz_arraylen(fz_obj *array);
fz_obj *fz_arrayget(fz_obj *array, int i);
void fz_arrayput(fz_obj *array, int i, fz_obj *obj);
void fz_arraypush(fz_obj *array, fz_obj *obj);
int fz_dictlen(fz_obj *dict);
fz_obj *fz_dictgetkey(fz_obj *dict, int idx);
fz_obj *fz_dictgetval(fz_obj *dict, int idx);
fz_obj *fz_dictget(fz_obj *dict, fz_obj *key);
fz_obj *fz_dictgets(fz_obj *dict, char *key);
fz_obj *fz_dictgetsa(fz_obj *dict, char *key, char *abbrev);
void fz_dictput(fz_obj *dict, fz_obj *key, fz_obj *val);
void fz_dictputs(fz_obj *dict, char *key, fz_obj *val);
void fz_dictdel(fz_obj *dict, fz_obj *key);
void fz_dictdels(fz_obj *dict, char *key);
void fz_sortdict(fz_obj *dict);
int fz_sprintobj(char *s, int n, fz_obj *obj, int tight);
int fz_fprintobj(FILE *fp, fz_obj *obj, int tight);
void fz_debugobj(fz_obj *obj);
char *fz_objkindstr(fz_obj *obj);
/*
* Data buffers for streams and filters.
*
* bp is the pointer to the allocated memory
* rp is read-position (*in->rp++ to read data)
* wp is write-position (*out->wp++ to write data)
* ep is the sentinel
*
* Only the data between rp and wp is valid data.
*
* Writers set eof to true at the end.
* Readers look at eof.
*
* A buffer owns the memory it has allocated, unless ownsdata is false,
* in which case the creator of the buffer owns it.
*/
typedef struct fz_buffer_s fz_buffer;
#define FZ_BUFSIZE (8 * 1024)
struct fz_buffer_s
{
int refs;
int ownsdata;
unsigned char *bp;
unsigned char *rp;
unsigned char *wp;
unsigned char *ep;
int eof;
};
fz_buffer * fz_newbuffer(int size);
fz_buffer * fz_newbufferwithmemory(unsigned char *data, int size);
void fz_resizebuffer(fz_buffer *buf, int size);
void fz_rewindbuffer(fz_buffer *buf);
void fz_growbuffer(fz_buffer *buf);
fz_buffer *fz_keepbuffer(fz_buffer *buf);
void fz_dropbuffer(fz_buffer *buf);
/*
* Data filters for encryption, compression and decompression.
*
* A filter has one method, process, that takes an input and an output buffer.
*
* It returns one of three statuses:
* ioneedin -- input buffer exhausted, please give me more data (wp-rp)
* ioneedout -- output buffer exhausted, please provide more space (ep-wp)
* iodone -- finished, please never call me again. ever!
* or...
* any other error code -- oops, something blew up.
*
* To make using the filter easier, three variables are updated:
* produced -- if we actually produced any new data
* consumed -- like above
* count -- number of bytes produced in total since the beginning
* done -- remember if we've ever returned fz_iodone
*
* Most filters take fz_obj as a way to specify parameters.
* In most cases, this is a dictionary that contains the same keys
* that the corresponding PDF filter would expect.
*
* The pipeline filter is special, and needs some care when chaining
* and unchaining new filters.
*/
typedef struct fz_filter_s fz_filter;
#define fz_ioneedin ((fz_error)1)
#define fz_ioneedout ((fz_error)2)
#define fz_iodone ((fz_error)3)
/*
* Evil looking macro to create an initialize a filter struct.
*/
#define FZ_NEWFILTER(TYPE,VAR,NAME) \
fz_error fz_process ## NAME (fz_filter*,fz_buffer*,fz_buffer*); \
void fz_drop ## NAME (fz_filter*); \
TYPE *VAR; \
VAR = fz_malloc(sizeof(TYPE)); \
((fz_filter*)VAR)->refs = 1; \
((fz_filter*)VAR)->process = fz_process ## NAME ; \
((fz_filter*)VAR)->drop = fz_drop ## NAME ; \
((fz_filter*)VAR)->consumed = 0; \
((fz_filter*)VAR)->produced = 0; \
((fz_filter*)VAR)->count = 0; \
((fz_filter*)VAR)->done = 0;
struct fz_filter_s
{
int refs;
fz_error (*process)(fz_filter *filter, fz_buffer *in, fz_buffer *out);
void (*drop)(fz_filter *filter);
int consumed;
int produced;
int count;
int done;
};
fz_error fz_process(fz_filter *f, fz_buffer *in, fz_buffer *out);
fz_filter *fz_keepfilter(fz_filter *f);
void fz_dropfilter(fz_filter *f);
fz_filter * fz_newpipeline(fz_filter *head, fz_filter *tail);
fz_filter * fz_chainpipeline(fz_filter *head, fz_filter *tail, fz_buffer *buf);
void fz_unchainpipeline(fz_filter *pipe, fz_filter **oldfp, fz_buffer **oldbp);
fz_filter * fz_newnullfilter(int len);
fz_filter * fz_newcopyfilter();
fz_filter * fz_newarc4filter(unsigned char *key, unsigned keylen);
fz_filter * fz_newaesdfilter(unsigned char *key, unsigned keylen);
fz_filter * fz_newa85d(fz_obj *param);
fz_filter * fz_newahxd(fz_obj *param);
fz_filter * fz_newrld(fz_obj *param);
fz_filter * fz_newdctd(fz_obj *param);
fz_filter * fz_newfaxd(fz_obj *param);
fz_filter * fz_newflated(fz_obj *param);
fz_filter * fz_newlzwd(fz_obj *param);
fz_filter * fz_newpredictd(fz_obj *param);
fz_filter * fz_newjbig2d(fz_obj *param);
fz_filter * fz_newjpxd(fz_obj *param);
fz_error fz_setjbig2dglobalstream(fz_filter *filter, unsigned char *buf, int len);
/*
* Stream API for Fitz.
* Read and write data to and from files, memory buffers and filters.
*/
typedef struct fz_stream_s fz_stream;
enum { FZ_SFILE, FZ_SBUFFER, FZ_SFILTER };
struct fz_stream_s
{
int refs;
int kind;
int dead;
fz_buffer *buffer;
fz_filter *filter;
fz_stream *chain;
fz_error error; /* delayed error from readbyte and peekbyte */
int file;
};
/*
* Various stream creation functions.
*/
fz_stream * fz_openfile(int file);
fz_stream * fz_openmemory(unsigned char *mem, int len);
fz_stream * fz_openbuffer(fz_buffer *buf);
fz_stream * fz_openfilter(fz_filter *flt, fz_stream *chain);
/*
* Functions that are common to both input and output streams.
*/
fz_stream *fz_keepstream(fz_stream *stm);
void fz_dropstream(fz_stream *stm);
int fz_tell(fz_stream *stm);
fz_error fz_seek(fz_stream *stm, int offset, int whence);
/*
* Input stream functions.
*/
fz_error fz_readimp(fz_stream *stm);
fz_error fz_read(int *np, fz_stream *stm, unsigned char *buf, int len);
fz_error fz_readline(fz_stream *stm, char *buf, int max);
fz_buffer * fz_readall(fz_stream *stm, int sizehint);
/*
* Error handling when reading with readbyte/peekbyte is non-standard.
* The cause of an error is stuck into the stream struct,
* and EOF is returned. Not good, but any other way is too painful.
* So we have to be careful to check the error status eventually.
*/
fz_error fz_readerror(fz_stream *stm);
int fz_readbytex(fz_stream *stm);
int fz_peekbytex(fz_stream *stm);
static inline int fz_readbyte(fz_stream *stm)
{
fz_buffer *buf = stm->buffer;
if (buf->rp < buf->wp)
return *buf->rp++;
return fz_readbytex(stm);
}
static inline int fz_peekbyte(fz_stream *stm)
{
fz_buffer *buf = stm->buffer;
if (buf->rp < buf->wp)
return *buf->rp;
return fz_peekbytex(stm);
}
static inline void fz_unreadbyte(fz_stream *stm)
{
fz_buffer *buf = stm->buffer;
buf->rp--;
}
/*
* Resources and other graphics related objects.
*/
enum { FZ_MAXCOLORS = 32 };
typedef enum fz_blendkind_e
{
/* PDF 1.4 -- standard separable */
FZ_BNORMAL,
FZ_BMULTIPLY,
FZ_BSCREEN,
FZ_BOVERLAY,
FZ_BDARKEN,
FZ_BLIGHTEN,
FZ_BCOLORDODGE,
FZ_BCOLORBURN,
FZ_BHARDLIGHT,
FZ_BSOFTLIGHT,
FZ_BDIFFERENCE,
FZ_BEXCLUSION,
/* PDF 1.4 -- standard non-separable */
FZ_BHUE,
FZ_BSATURATION,
FZ_BCOLOR,
FZ_BLUMINOSITY,
} fz_blendkind;
/*
* Pixmaps have n components per pixel. the last is always alpha.
* premultiplied alpha when rendering, but non-premultiplied for colorspace
* conversions and rescaling.
*/
typedef struct fz_pixmap_s fz_pixmap;
typedef struct fz_colorspace_s fz_colorspace;
struct fz_pixmap_s
{
int refs;
int x, y, w, h, n;
fz_colorspace *colorspace;
unsigned char *samples;
};
fz_pixmap * fz_newpixmapwithrect(fz_colorspace *, fz_bbox bbox);
fz_pixmap * fz_newpixmap(fz_colorspace *, int x, int y, int w, int h);
fz_pixmap *fz_keeppixmap(fz_pixmap *map);
void fz_droppixmap(fz_pixmap *map);
void fz_debugpixmap(fz_pixmap *map, char *prefix);
void fz_clearpixmap(fz_pixmap *map, unsigned char value);
fz_pixmap * fz_scalepixmap(fz_pixmap *src, int xdenom, int ydenom);
/*
* Colorspace resources.
*/
extern fz_colorspace *pdf_devicegray;
extern fz_colorspace *pdf_devicergb;
extern fz_colorspace *pdf_devicebgr;
extern fz_colorspace *pdf_devicecmyk;
struct fz_colorspace_s
{
int refs;
char name[16];
int n;
void (*toxyz)(fz_colorspace *, float *src, float *xyz);
void (*fromxyz)(fz_colorspace *, float *xyz, float *dst);
void (*freedata)(fz_colorspace *);
void *data;
};
fz_colorspace *fz_newcolorspace(char *name, int n);
fz_colorspace *fz_keepcolorspace(fz_colorspace *cs);
void fz_dropcolorspace(fz_colorspace *cs);
void fz_convertcolor(fz_colorspace *srcs, float *srcv, fz_colorspace *dsts, float *dstv);
void fz_convertpixmap(fz_pixmap *src, fz_pixmap *dst);
/*
* Fonts come in two variants:
* Regular fonts are handled by FreeType.
* Type 3 fonts have callbacks to the interpreter.
*/
struct fz_device_s;
struct pdf_xref_s;
typedef struct fz_font_s fz_font;
char *ft_errorstring(int err);
struct fz_font_s
{
int refs;
char name[32];
void *ftface; /* has an FT_Face if used */
int ftsubstitute; /* ... substitute metrics */
int fthint; /* ... force hinting for DynaLab fonts */
fz_matrix t3matrix;
fz_obj *t3resources;
fz_buffer **t3procs; /* has 256 entries if used */
float *t3widths; /* has 256 entries if used */
void *t3xref; /* a pdf_xref for the callback */
fz_error (*t3runcontentstream)(struct fz_device_s *dev, fz_matrix ctm,
struct pdf_xref_s *xref, fz_obj *resources, fz_buffer *contents);
fz_rect bbox;
/* substitute metrics */
int widthcount;
int *widthtable;
};
fz_error fz_newfreetypefont(fz_font **fontp, char *name, int substitute);
fz_error fz_loadfreetypefontfile(fz_font *font, char *path, int index);
fz_error fz_loadfreetypefontbuffer(fz_font *font, unsigned char *data, int len, int index);
fz_font * fz_newtype3font(char *name, fz_matrix matrix);
fz_error fz_newfontfrombuffer(fz_font **fontp, unsigned char *data, int len, int index);
fz_error fz_newfontfromfile(fz_font **fontp, char *path, int index);
fz_font * fz_keepfont(fz_font *font);
void fz_dropfont(fz_font *font);
void fz_debugfont(fz_font *font);
void fz_setfontbbox(fz_font *font, float xmin, float ymin, float xmax, float ymax);
/*
* Vector path buffer.
* It can be stroked and dashed, or be filled.
* It has a fill rule (nonzero or evenodd).
*
* When rendering, they are flattened, stroked and dashed straight
* into the Global Edge List.
*/
typedef struct fz_path_s fz_path;
typedef struct fz_strokestate_s fz_strokestate;
typedef union fz_pathel_s fz_pathel;
typedef enum fz_pathelkind_e
{
FZ_MOVETO,
FZ_LINETO,
FZ_CURVETO,
FZ_CLOSEPATH
} fz_pathelkind;
union fz_pathel_s
{
fz_pathelkind k;
float v;
};
struct fz_strokestate_s
{
int linecap;
int linejoin;
float linewidth;
float miterlimit;
float dashphase;
int dashlen;
float dashlist[32];
};
struct fz_path_s
{
int len, cap;
fz_pathel *els;
};
fz_path *fz_newpath(void);
void fz_moveto(fz_path*, float x, float y);
void fz_lineto(fz_path*, float x, float y);
void fz_curveto(fz_path*, float, float, float, float, float, float);
void fz_curvetov(fz_path*, float, float, float, float);
void fz_curvetoy(fz_path*, float, float, float, float);
void fz_closepath(fz_path*);
void fz_freepath(fz_path *path);
fz_path *fz_clonepath(fz_path *old);
fz_rect fz_boundpath(fz_path *path, fz_strokestate *stroke, fz_matrix ctm);
void fz_debugpath(fz_path *, int indent);
/*
* 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_textel_s fz_textel;
struct fz_textel_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_textel *els;
};
fz_text * fz_newtext(fz_font *face, fz_matrix trm, int wmode);
void fz_addtext(fz_text *text, int gid, int ucs, float x, float y);
void fz_endtext(fz_text *text);
void fz_freetext(fz_text *text);
void fz_debugtext(fz_text*, int indent);
fz_rect fz_boundtext(fz_text *text, fz_matrix ctm);
fz_text *fz_clonetext(fz_text *old);
/*
* The shading code uses gouraud shaded triangle meshes.
*/
typedef struct fz_shade_s fz_shade;
struct fz_shade_s
{
int refs;
fz_rect bbox; /* can be fz_infiniterect */
fz_colorspace *cs;
fz_matrix matrix; /* matrix from pattern dict */
int usebackground; /* background color for fills but not 'sh' */
float background[FZ_MAXCOLORS];
int usefunction;
float function[256][FZ_MAXCOLORS];
int meshlen;
int meshcap;
float *mesh; /* [x y t] or [x y c1 ... cn] */
};
fz_shade *fz_keepshade(fz_shade *shade);
void fz_dropshade(fz_shade *shade);
void fz_debugshade(fz_shade *shade);
fz_rect fz_boundshade(fz_shade *shade, fz_matrix ctm);
void fz_rendershade(fz_shade *shade, fz_matrix ctm, fz_pixmap *dst, fz_bbox bbox);
/*
* Glyph cache
*/
typedef struct fz_glyphcache_s fz_glyphcache;
fz_glyphcache * fz_newglyphcache(void);
fz_pixmap * fz_renderftglyph(fz_font *font, int cid, fz_matrix trm);
fz_pixmap * fz_rendert3glyph(fz_font *font, int cid, fz_matrix trm);
fz_pixmap * fz_renderglyph(fz_glyphcache*, fz_font*, int, fz_matrix);
void fz_freeglyphcache(fz_glyphcache *);
/*
* Scan converter
*/
typedef struct fz_edge_s fz_edge;
typedef struct fz_gel_s fz_gel;
typedef struct fz_ael_s fz_ael;
struct fz_edge_s
{
int x, e, h, y;
int adjup, adjdown;
int xmove;
int xdir, ydir; /* -1 or +1 */
};
struct fz_gel_s
{
fz_bbox clip;
fz_bbox bbox;
int cap;
int len;
fz_edge *edges;
};
struct fz_ael_s
{
int cap;
int len;
fz_edge **edges;
};
fz_gel * fz_newgel(void);
void fz_insertgel(fz_gel *gel, float x0, float y0, float x1, float y1);
fz_bbox fz_boundgel(fz_gel *gel);
void fz_resetgel(fz_gel *gel, fz_bbox clip);
void fz_sortgel(fz_gel *gel);
void fz_freegel(fz_gel *gel);
int fz_isrectgel(fz_gel *gel);
fz_ael * fz_newael(void);
void fz_freeael(fz_ael *ael);
fz_error fz_scanconvert(fz_gel *gel, fz_ael *ael, int eofill,
fz_bbox clip, fz_pixmap *pix, unsigned char *colorbv, fz_pixmap *image, fz_matrix *invmat);
void fz_fillpath(fz_gel *gel, fz_path *path, fz_matrix ctm, float flatness);
void fz_strokepath(fz_gel *gel, fz_path *path, fz_strokestate *stroke, fz_matrix ctm, float flatness, float linewidth);
void fz_dashpath(fz_gel *gel, fz_path *path, fz_strokestate *stroke, fz_matrix ctm, float flatness, float linewidth);
/*
* The device interface.
*/
enum
{
FZ_IGNOREIMAGE = 1,
FZ_IGNORESHADE = 2,
};
typedef struct fz_device_s fz_device;
struct fz_device_s
{
int hints;
void *user;
void (*freeuser)(void *);
void (*fillpath)(void *, fz_path *, int evenodd, fz_matrix, fz_colorspace *, float *color, float alpha);
void (*strokepath)(void *, fz_path *, fz_strokestate *, fz_matrix, fz_colorspace *, float *color, float alpha);
void (*clippath)(void *, fz_path *, int evenodd, fz_matrix);
void (*clipstrokepath)(void *, fz_path *, fz_strokestate *, fz_matrix);
void (*filltext)(void *, fz_text *, fz_matrix, fz_colorspace *, float *color, float alpha);
void (*stroketext)(void *, fz_text *, fz_strokestate *, fz_matrix, fz_colorspace *, float *color, float alpha);
void (*cliptext)(void *, fz_text *, fz_matrix, int accumulate);
void (*clipstroketext)(void *, fz_text *, fz_strokestate *, fz_matrix);
void (*ignoretext)(void *, fz_text *, fz_matrix);
void (*fillshade)(void *, fz_shade *shd, fz_matrix ctm);
void (*fillimage)(void *, fz_pixmap *img, fz_matrix ctm);
void (*fillimagemask)(void *, fz_pixmap *img, fz_matrix ctm, fz_colorspace *, float *color, float alpha);
void (*clipimagemask)(void *, fz_pixmap *img, fz_matrix ctm);
void (*popclip)(void *);
};
fz_device *fz_newdevice(void *user);
void fz_freedevice(fz_device *dev);
fz_device *fz_newtracedevice(void);
fz_device *fz_newbboxdevice(fz_bbox *bboxp);
fz_device *fz_newdrawdevice(fz_glyphcache *cache, fz_pixmap *dest);
/*
* Text extraction device
*/
typedef struct fz_textspan_s fz_textspan;
typedef struct fz_textchar_s fz_textchar;
struct fz_textchar_s
{
int c;
fz_bbox bbox;
};
struct fz_textspan_s
{
fz_font *font;
float size;
int wmode;
int len, cap;
fz_textchar *text;
fz_textspan *next;
int eol;
};
fz_textspan * fz_newtextspan(void);
void fz_freetextspan(fz_textspan *line);
void fz_debugtextspan(fz_textspan *line);
void fz_debugtextspanxml(fz_textspan *span);
fz_device *fz_newtextdevice(fz_textspan *text);
/*
* Display list device -- record and play back device commands.
*/
typedef struct fz_displaylist_s fz_displaylist;
typedef struct fz_displaynode_s fz_displaynode;
typedef enum fz_displaycommand_e
{
FZ_CMDFILLPATH,
FZ_CMDSTROKEPATH,
FZ_CMDCLIPPATH,
FZ_CMDCLIPSTROKEPATH,
FZ_CMDFILLTEXT,
FZ_CMDSTROKETEXT,
FZ_CMDCLIPTEXT,
FZ_CMDCLIPSTROKETEXT,
FZ_CMDIGNORETEXT,
FZ_CMDFILLSHADE,
FZ_CMDFILLIMAGE,
FZ_CMDFILLIMAGEMASK,
FZ_CMDCLIPIMAGEMASK,
FZ_CMDPOPCLIP,
} fz_displaycommand;
struct fz_displaylist_s
{
fz_displaynode *first;
fz_displaynode *last;
};
struct fz_displaynode_s
{
fz_displaycommand cmd;
fz_displaynode *next;
union {
fz_path *path;
fz_text *text;
fz_shade *shade;
fz_pixmap *image;
} item;
fz_strokestate *stroke;
int flag; /* evenodd, accumulate, ... */
fz_matrix ctm;
fz_colorspace *colorspace;
float alpha;
float color[FZ_MAXCOLORS];
};
fz_displaylist *fz_newdisplaylist(void);
void fz_freedisplaylist(fz_displaylist *list);
fz_device *fz_newlistdevice(fz_displaylist *list);
void fz_executedisplaylist(fz_displaylist *list, fz_device *dev, fz_matrix ctm);
/*
* Function pointers for plotting functions.
* They can be replaced by cpu-optimized versions.
*/
extern void fz_accelerate(void);
extern void fz_acceleratearch(void);
extern void fz_decodetile(fz_pixmap *pix, float *decode, int scale);
extern void fz_unpacktile(fz_pixmap *dst, unsigned char * restrict src, int n, int depth, int stride);
extern void (*fz_duff_ni1on)(unsigned char*restrict,int,int,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_duff_1i1o1)(unsigned char*restrict,int,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_duff_2i1o2)(unsigned char*restrict,int,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_duff_4i1o4)(unsigned char*restrict,int,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_path_1o1)(unsigned char*restrict,unsigned char,int,unsigned char*restrict);
extern void (*fz_path_w2i1o2)(unsigned char*,unsigned char*restrict,unsigned char,int,unsigned char*restrict);
extern void (*fz_path_w4i1o4)(unsigned char*,unsigned char*restrict,unsigned char,int,unsigned char*restrict);
extern void (*fz_text_1o1)(unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_text_w2i1o2)(unsigned char*,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_text_w4i1o4)(unsigned char*,unsigned char*restrict,int,unsigned char*restrict,int,int,int);
extern void (*fz_img_non)(unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,fz_matrix*);
extern void (*fz_img_1o1)(unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,int u, int v, int fa, int fb);
extern void (*fz_img_4o4)(unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,int u, int v, int fa, int fb);
extern void (*fz_img_2o2)(unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,int u, int v, int fa, int fb);
extern void (*fz_img_w2i1o2)(unsigned char*,unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,int u, int v, int fa, int fb);
extern void (*fz_img_w4i1o4)(unsigned char*,unsigned char*restrict,unsigned char,int,unsigned char*restrict,fz_pixmap*,int u, int v, int fa, int fb);
extern void (*fz_srown)(unsigned char *restrict, unsigned char *restrict, int w, int denom, int n);
extern void (*fz_srow1)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_srow2)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_srow4)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_srow5)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_scoln)(unsigned char *restrict, unsigned char *restrict, int w, int denom, int n);
extern void (*fz_scol1)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_scol2)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_scol4)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
extern void (*fz_scol5)(unsigned char *restrict, unsigned char *restrict, int w, int denom);
#endif
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