/** * File: GIF Input * * Read GIF images. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include "gd.h" /* Used only when debugging GIF compression code */ /* #define DEBUGGING_ENVARS */ #ifdef DEBUGGING_ENVARS static int verbose_set = 0; static int verbose; #define VERBOSE (verbose_set ? verbose : set_verbose()) static int set_verbose(void) { verbose = !!getenv("GIF_VERBOSE"); verbose_set = 1; return(verbose); } #else #define VERBOSE 0 #endif #define MAXCOLORMAPSIZE 256 #define TRUE 1 #define FALSE 0 #define CM_RED 0 #define CM_GREEN 1 #define CM_BLUE 2 #define MAX_LWZ_BITS 12 #define INTERLACE 0x40 #define LOCALCOLORMAP 0x80 #define BitSet(byte, bit) (((byte) & (bit)) == (bit)) #define ReadOK(file, buffer, len) (gdGetBuf(buffer, len, file) > 0) #define LM_to_uint(a, b) (((b)<<8)|(a)) /* We may eventually want to use this information, but def it out for now */ #if 0 static struct { unsigned int Width; unsigned int Height; unsigned char ColorMap[3][MAXCOLORMAPSIZE]; unsigned int BitPixel; unsigned int ColorResolution; unsigned int Background; unsigned int AspectRatio; } GifScreen; #endif #if 0 static struct { int transparent; int delayTime; int inputFlag; int disposal; } Gif89 = { -1, -1, -1, 0 }; #endif #define STACK_SIZE ((1<<(MAX_LWZ_BITS))*2) #define CSD_BUF_SIZE 280 typedef struct { unsigned char buf[CSD_BUF_SIZE]; int curbit; int lastbit; int done; int last_byte; } CODE_STATIC_DATA; typedef struct { int fresh; int code_size, set_code_size; int max_code, max_code_size; int firstcode, oldcode; int clear_code, end_code; int table[2][(1<< MAX_LWZ_BITS)]; int stack[STACK_SIZE], *sp; CODE_STATIC_DATA scd; } LZW_STATIC_DATA; static int ReadColorMap (gdIOCtx *fd, int number, unsigned char (*buffer)[256]); static int DoExtension (gdIOCtx *fd, int label, int *Transparent, int *ZeroDataBlockP); static int GetDataBlock (gdIOCtx *fd, unsigned char *buf, int *ZeroDataBlockP); static int GetCode (gdIOCtx *fd, CODE_STATIC_DATA *scd, int code_size, int flag, int *ZeroDataBlockP); static int LWZReadByte (gdIOCtx *fd, LZW_STATIC_DATA *sd, char flag, int input_code_size, int *ZeroDataBlockP); static void ReadImage (gdImagePtr im, gdIOCtx *fd, int len, int height, unsigned char (*cmap)[256], int interlace, int *ZeroDataBlockP); /*1.4//, int ignore); */ /* Function: gdImageCreateFromGif is called to load images from GIF format files. Invoke with an already opened pointer to a file containing the desired image. returns a to the new image, or NULL if unable to load the image (most often because the file is corrupt or does not contain a GIF image). does not close the file. You can inspect the sx and sy members of the image to determine its size. The image must eventually be destroyed using . Variants: creates an image from GIF data (i.e. the contents of a GIF file) already in memory. reads in an image using the functions in a struct. Parameters: infile - The input FILE pointer Returns: A pointer to the new image or NULL if an error occurred. Example: > gdImagePtr im; > ... inside a function ... > FILE *in; > in = fopen("mygif.gif", "rb"); > im = gdImageCreateFromGif(in); > fclose(in); > // ... Use the image ... > gdImageDestroy(im); */ BGD_DECLARE(gdImagePtr) gdImageCreateFromGif(FILE *fdFile) { gdIOCtx *fd = gdNewFileCtx(fdFile); gdImagePtr im; if (fd == NULL) return NULL; im = gdImageCreateFromGifCtx(fd); fd->gd_free(fd); return im; } /* Function: gdImageCreateFromGifPtr Parameters: size - size of GIF data in bytes. data - GIF data (i.e. contents of a GIF file). See . */ BGD_DECLARE(gdImagePtr) gdImageCreateFromGifPtr (int size, void *data) { gdImagePtr im; gdIOCtx *in = gdNewDynamicCtxEx(size, data, 0); if(!in) { return 0; } im = gdImageCreateFromGifCtx(in); in->gd_free(in); return im; } /* Function: gdImageCreateFromGifCtx See . */ BGD_DECLARE(gdImagePtr) gdImageCreateFromGifCtx(gdIOCtxPtr fd) { int BitPixel; #if 0 int ColorResolution; int Background; int AspectRatio; #endif int Transparent = (-1); unsigned char buf[16]; unsigned char c; unsigned char ColorMap[3][MAXCOLORMAPSIZE]; unsigned char localColorMap[3][MAXCOLORMAPSIZE]; int imw, imh, screen_width, screen_height; int useGlobalColormap; int bitPixel, i; /*1.4//int imageCount = 0; */ /* 2.0.28: threadsafe storage */ int ZeroDataBlock = FALSE; int haveGlobalColormap; gdImagePtr im = 0; memset(ColorMap, 0, 3 * MAXCOLORMAPSIZE); memset(localColorMap, 0, 3 * MAXCOLORMAPSIZE); if(!ReadOK(fd, buf, 6)) { return 0; } if(strncmp((char *)buf, "GIF", 3) != 0) { return 0; } if(memcmp((char *)buf + 3, "87a", 3) == 0) { /* GIF87a */ } else if(memcmp((char *)buf + 3, "89a", 3) == 0) { /* GIF89a */ } else { return 0; } if(!ReadOK(fd, buf, 7)) { return 0; } BitPixel = 2 << (buf[4] & 0x07); #if 0 ColorResolution = (int) (((buf[4]&0x70)>>3)+1); Background = buf[5]; AspectRatio = buf[6]; #endif screen_width = imw = LM_to_uint(buf[0], buf[1]); screen_height = imh = LM_to_uint(buf[2], buf[3]); haveGlobalColormap = BitSet(buf[4], LOCALCOLORMAP); /* Global Colormap */ if(haveGlobalColormap) { if(ReadColorMap(fd, BitPixel, ColorMap)) { return 0; } } for (;;) { int top, left; int width, height; if(!ReadOK(fd, &c, 1)) { return 0; } if (c == ';') { /* GIF terminator */ goto terminated; } if(c == '!') { /* Extension */ if(!ReadOK(fd, &c, 1)) { return 0; } DoExtension(fd, c, &Transparent, &ZeroDataBlock); continue; } if(c != ',') { /* Not a valid start character */ continue; } /*1.4//++imageCount; */ if(!ReadOK(fd, buf, 9)) { return 0; } useGlobalColormap = !BitSet(buf[8], LOCALCOLORMAP); bitPixel = 1 << ((buf[8] & 0x07) + 1); left = LM_to_uint(buf[0], buf[1]); top = LM_to_uint(buf[2], buf[3]); width = LM_to_uint(buf[4], buf[5]); height = LM_to_uint(buf[6], buf[7]); if(((left + width) > screen_width) || ((top + height) > screen_height)) { if(VERBOSE) { printf("Frame is not confined to screen dimension.\n"); } return 0; } if(!(im = gdImageCreate(width, height))) { return 0; } im->interlace = BitSet(buf[8], INTERLACE); if(!useGlobalColormap) { if(ReadColorMap(fd, bitPixel, localColorMap)) { gdImageDestroy(im); return 0; } ReadImage(im, fd, width, height, localColorMap, BitSet(buf[8], INTERLACE), &ZeroDataBlock); } else { if(!haveGlobalColormap) { gdImageDestroy(im); return 0; } ReadImage(im, fd, width, height, ColorMap, BitSet(buf[8], INTERLACE), &ZeroDataBlock); } if(Transparent != (-1)) { gdImageColorTransparent(im, Transparent); } goto terminated; } terminated: /* Terminator before any image was declared! */ if(!im) { return 0; } /* Check for open colors at the end, so * we can reduce colorsTotal and ultimately * BitsPerPixel */ for(i = im->colorsTotal - 1; i >= 0; i--) { if(im->open[i]) { im->colorsTotal--; } else { break; } } if(!im->colorsTotal) { gdImageDestroy(im); return 0; } return im; } static int ReadColorMap(gdIOCtx *fd, int number, unsigned char (*buffer)[256]) { int i; unsigned char rgb[3]; for(i = 0; i < number; ++i) { if(!ReadOK(fd, rgb, sizeof(rgb))) { return TRUE; } buffer[CM_RED][i] = rgb[0]; buffer[CM_GREEN][i] = rgb[1]; buffer[CM_BLUE][i] = rgb[2]; } return FALSE; } static int DoExtension(gdIOCtx *fd, int label, int *Transparent, int *ZeroDataBlockP) { unsigned char buf[256]; switch(label) { case 0xf9: /* Graphic Control Extension */ memset(buf, 0, 4); /* initialize a few bytes in the case the next function fails */ (void) GetDataBlock(fd, (unsigned char*) buf, ZeroDataBlockP); #if 0 Gif89.disposal = (buf[0] >> 2) & 0x7; Gif89.inputFlag = (buf[0] >> 1) & 0x1; Gif89.delayTime = LM_to_uint(buf[1], buf[2]); #endif if((buf[0] & 0x1) != 0) { *Transparent = buf[3]; } while(GetDataBlock(fd, (unsigned char*) buf, ZeroDataBlockP) > 0); return FALSE; default: break; } while(GetDataBlock(fd, (unsigned char*) buf, ZeroDataBlockP) > 0); return FALSE; } static int GetDataBlock_(gdIOCtx *fd, unsigned char *buf, int *ZeroDataBlockP) { unsigned char count; if(!ReadOK(fd, &count, 1)) { return -1; } *ZeroDataBlockP = count == 0; if((count != 0) && (!ReadOK(fd, buf, count))) { return -1; } return count; } static int GetDataBlock(gdIOCtx *fd, unsigned char *buf, int *ZeroDataBlockP) { int rv, i; rv = GetDataBlock_(fd,buf, ZeroDataBlockP); if(VERBOSE) { printf("[GetDataBlock returning %d",rv); if(rv > 0) { printf(":"); for(i = 0; i < rv; i++) { printf(" %02x",buf[i]); } } printf("]\n"); } return rv; } static int GetCode_(gdIOCtx *fd, CODE_STATIC_DATA *scd, int code_size, int flag, int *ZeroDataBlockP) { int i, j, ret; int count; if(flag) { scd->curbit = 0; scd->lastbit = 0; scd->last_byte = 2; scd->done = FALSE; return 0; } if((scd->curbit + code_size) >= scd->lastbit) { if(scd->done) { if(scd->curbit >= scd->lastbit) { /* Oh well */ } return -1; } scd->buf[0] = scd->buf[scd->last_byte - 2]; scd->buf[1] = scd->buf[scd->last_byte - 1]; if((count = GetDataBlock(fd, &scd->buf[2], ZeroDataBlockP)) <= 0) { scd->done = TRUE; } scd->last_byte = 2 + count; scd->curbit = (scd->curbit - scd->lastbit) + 16; scd->lastbit = (2 + count) * 8; } if ((scd->curbit + code_size - 1) >= (CSD_BUF_SIZE * 8)) { ret = -1; } else { ret = 0; for (i = scd->curbit, j = 0; j < code_size; ++i, ++j) { ret |= ((scd->buf[i / 8] & (1 << (i % 8))) != 0) << j; } } scd->curbit += code_size; return ret; } static int GetCode(gdIOCtx *fd, CODE_STATIC_DATA *scd, int code_size, int flag, int *ZeroDataBlockP) { int rv; rv = GetCode_(fd, scd, code_size,flag, ZeroDataBlockP); if(VERBOSE) { printf("[GetCode(,%d,%d) returning %d]\n",code_size,flag,rv); } return rv; } static int LWZReadByte_(gdIOCtx *fd, LZW_STATIC_DATA *sd, char flag, int input_code_size, int *ZeroDataBlockP) { int code, incode, i; if(flag) { sd->set_code_size = input_code_size; sd->code_size = sd->set_code_size + 1; sd->clear_code = 1 << sd->set_code_size; sd->end_code = sd->clear_code + 1; sd->max_code_size = 2 * sd->clear_code; sd->max_code = sd->clear_code + 2; GetCode(fd, &sd->scd, 0, TRUE, ZeroDataBlockP); sd->fresh = TRUE; for(i = 0; i < sd->clear_code; ++i) { sd->table[0][i] = 0; sd->table[1][i] = i; } for(; i < (1 << MAX_LWZ_BITS); ++i) { sd->table[0][i] = sd->table[1][0] = 0; } sd->sp = sd->stack; return 0; } else if(sd->fresh) { sd->fresh = FALSE; do { sd->firstcode = sd->oldcode = GetCode(fd, &sd->scd, sd->code_size, FALSE, ZeroDataBlockP); } while(sd->firstcode == sd->clear_code); return sd->firstcode; } if(sd->sp > sd->stack) { return *--sd->sp; } while((code = GetCode(fd, &sd->scd, sd->code_size, FALSE, ZeroDataBlockP)) >= 0) { if(code == sd->clear_code) { for(i = 0; i < sd->clear_code; ++i) { sd->table[0][i] = 0; sd->table[1][i] = i; } for (; i < (1 << MAX_LWZ_BITS); ++i) { sd->table[0][i] = sd->table[1][i] = 0; } sd->code_size = sd->set_code_size + 1; sd->max_code_size = 2 * sd->clear_code; sd->max_code = sd->clear_code + 2; sd->sp = sd->stack; sd->firstcode = sd->oldcode = GetCode(fd, &sd->scd, sd->code_size, FALSE, ZeroDataBlockP); return sd->firstcode; } else if(code == sd->end_code) { int count; unsigned char buf[260]; if(*ZeroDataBlockP) { return -2; } while((count = GetDataBlock(fd, buf, ZeroDataBlockP)) > 0); if(count != 0) { return -2; } } incode = code; if(sd->sp == (sd->stack + STACK_SIZE)) { /* Bad compressed data stream */ return -1; } if(code >= sd->max_code) { *sd->sp++ = sd->firstcode; code = sd->oldcode; } while(code >= sd->clear_code) { if(sd->sp == (sd->stack + STACK_SIZE)) { /* Bad compressed data stream */ return -1; } *sd->sp++ = sd->table[1][code]; if(code == sd->table[0][code]) { /* Oh well */ } code = sd->table[0][code]; } *sd->sp++ = sd->firstcode = sd->table[1][code]; if((code = sd->max_code) < (1 << MAX_LWZ_BITS)) { sd->table[0][code] = sd->oldcode; sd->table[1][code] = sd->firstcode; ++sd->max_code; if((sd->max_code >= sd->max_code_size) && (sd->max_code_size < (1<max_code_size *= 2; ++sd->code_size; } } sd->oldcode = incode; if(sd->sp > sd->stack) { return *--sd->sp; } } return code; } static int LWZReadByte(gdIOCtx *fd, LZW_STATIC_DATA *sd, char flag, int input_code_size, int *ZeroDataBlockP) { int rv; rv = LWZReadByte_(fd, sd, flag, input_code_size, ZeroDataBlockP); if(VERBOSE) { printf("[LWZReadByte(,%d,%d) returning %d]\n",flag,input_code_size,rv); } return rv; } static void ReadImage(gdImagePtr im, gdIOCtx *fd, int len, int height, unsigned char (*cmap)[256], int interlace, int *ZeroDataBlockP) /*1.4//, int ignore) */ { unsigned char c; int xpos = 0, ypos = 0, pass = 0; int v, i; LZW_STATIC_DATA sd; /* Initialize the Compression routines */ if(!ReadOK(fd, &c, 1)) { return; } if(c > MAX_LWZ_BITS) { return; } /* Stash the color map into the image */ for(i=0; (i < gdMaxColors); i++) { im->red[i] = cmap[CM_RED][i]; im->green[i] = cmap[CM_GREEN][i]; im->blue[i] = cmap[CM_BLUE][i]; im->open[i] = 1; } /* Many (perhaps most) of these colors will remain marked open. */ im->colorsTotal = gdMaxColors; if(LWZReadByte(fd, &sd, TRUE, c, ZeroDataBlockP) < 0) { return; } /* ** If this is an "uninteresting picture" ignore it. ** REMOVED For 1.4 */ /*if (ignore) { */ /* while (LWZReadByte(fd, &sd, FALSE, c) >= 0) */ /* ; */ /* return; */ /*} */ while((v = LWZReadByte(fd, &sd, FALSE, c, ZeroDataBlockP)) >= 0 ) { if(v >= gdMaxColors) { v = 0; } /* This how we recognize which colors are actually used. */ if(im->open[v]) { im->open[v] = 0; } gdImageSetPixel(im, xpos, ypos, v); ++xpos; if(xpos == len) { xpos = 0; if(interlace) { switch (pass) { case 0: case 1: ypos += 8; break; case 2: ypos += 4; break; case 3: ypos += 2; break; } if(ypos >= height) { ++pass; switch (pass) { case 1: ypos = 4; break; case 2: ypos = 2; break; case 3: ypos = 1; break; default: goto fini; } } } else { ++ypos; } } if(ypos >= height) { break; } } fini: if(LWZReadByte(fd, &sd, FALSE, c, ZeroDataBlockP) >=0) { /* Ignore extra */ } }