ref: 518fd3ec8350a010e5ed6490e1106c66af8f4d02
dir: /sys/src/cmd/jpg/readgif.c/
#include <u.h> #include <libc.h> #include <bio.h> #include <draw.h> #include "imagefile.h" typedef struct Entry Entry; typedef struct Header Header; struct Entry{ int prefix; int exten; }; struct Header{ Biobuf *fd; char err[256]; jmp_buf errlab; uchar buf[3*256]; char vers[8]; uchar *globalcmap; int screenw; int screenh; int fields; int bgrnd; int aspect; int flags; int delay; int trindex; int loopcount; Entry tbl[4096]; Rawimage **array; Rawimage *new; uchar *pic; }; static char readerr[] = "ReadGIF: read error: %r"; static char extreaderr[] = "ReadGIF: can't read extension: %r"; static char memerr[] = "ReadGIF: malloc failed: %r"; static Rawimage** readarray(Header*); static Rawimage* readone(Header*); static void readheader(Header*); static void skipextension(Header*); static uchar* readcmap(Header*, int); static uchar* decode(Header*, Rawimage*, Entry*); static void interlace(Header*, Rawimage*); static void clear(void **p) { if(*p){ free(*p); *p = nil; } } static void giffreeall(Header *h, int freeimage) { int i; if(h->fd){ Bterm(h->fd); h->fd = nil; } clear(&h->pic); if(h->new){ clear(&h->new->cmap); clear(&h->new->chans[0]); clear(&h->new); } clear(&h->globalcmap); if(freeimage && h->array!=nil){ for(i=0; h->array[i]; i++){ clear(&h->array[i]->cmap); clear(&h->array[i]->chans[0]); } clear(&h->array); } } static void giferror(Header *h, char *fmt, ...) { va_list arg; va_start(arg, fmt); vseprint(h->err, h->err+sizeof h->err, fmt, arg); va_end(arg); werrstr("%s", h->err); giffreeall(h, 1); longjmp(h->errlab, 1); } Rawimage** readgif(int fd, int colorspace) { Rawimage **a; Biobuf b; Header *h; char buf[ERRMAX]; buf[0] = '\0'; USED(colorspace); if(Binit(&b, fd, OREAD) < 0) return nil; h = malloc(sizeof(Header)); if(h == nil){ Bterm(&b); return nil; } memset(h, 0, sizeof(Header)); h->fd = &b; errstr(buf, sizeof buf); /* throw it away */ if(setjmp(h->errlab)) a = nil; else a = readarray(h); giffreeall(h, 0); free(h); return a; } static void inittbl(Header *h) { int i; Entry *tbl; tbl = h->tbl; for(i=0; i<258; i++) { tbl[i].prefix = -1; tbl[i].exten = i; } } static Rawimage** readarray(Header *h) { Entry *tbl; Rawimage *new, **array; int c, nimages; tbl = h->tbl; readheader(h); if(h->fields & 0x80) h->globalcmap = readcmap(h, (h->fields&7)+1); array = malloc(sizeof(Rawimage*)); if(array == nil) giferror(h, memerr); nimages = 0; array[0] = nil; h->array = array; for(;;){ switch(c = Bgetc(h->fd)){ case Beof: goto Return; case 0x21: /* Extension (ignored) */ skipextension(h); break; case 0x2C: /* Image Descriptor */ inittbl(h); new = readone(h); if(new->fields & 0x80){ new->cmaplen = 3*(1<<((new->fields&7)+1)); new->cmap = readcmap(h, (new->fields&7)+1); }else{ if(h->globalcmap == nil) giferror(h, "ReadGIF: globalcmap missing"); new->cmaplen = 3*(1<<((h->fields&7)+1)); new->cmap = malloc(new->cmaplen); if(new->cmap == nil) giferror(h, memerr); memmove(new->cmap, h->globalcmap, new->cmaplen); } h->new = new; new->chans[0] = decode(h, new, tbl); if(new->fields & 0x40) interlace(h, new); new->gifflags = h->flags; new->gifdelay = h->delay; new->giftrindex = h->trindex; new->gifloopcount = h->loopcount; array = realloc(h->array, (nimages+2)*sizeof(Rawimage*)); if(array == nil) giferror(h, memerr); array[nimages++] = new; array[nimages] = nil; h->array = array; h->new = nil; break; case 0x3B: /* Trailer */ goto Return; default: fprint(2, "ReadGIF: unknown block type: 0x%.2x\n", c); goto Return; } } Return: if(array[0]==nil || array[0]->chans[0] == nil) giferror(h, "ReadGIF: no picture in file"); return array; } static void readheader(Header *h) { if(Bread(h->fd, h->buf, 13) != 13) giferror(h, "ReadGIF: can't read header: %r"); memmove(h->vers, h->buf, 6); if(strcmp(h->vers, "GIF87a")!=0 && strcmp(h->vers, "GIF89a")!=0) giferror(h, "ReadGIF: can't recognize format %s", h->vers); h->screenw = h->buf[6]+(h->buf[7]<<8); h->screenh = h->buf[8]+(h->buf[9]<<8); h->fields = h->buf[10]; h->bgrnd = h->buf[11]; h->aspect = h->buf[12]; h->flags = 0; h->delay = 0; h->trindex = 0; h->loopcount = -1; } static uchar* readcmap(Header *h, int size) { uchar *map; if(size > 8) giferror(h, "ReadGIF: can't handles %d bits per pixel", size); size = 3*(1<<size); if(Bread(h->fd, h->buf, size) != size) giferror(h, "ReadGIF: short read on color map"); map = malloc(size); if(map == nil) giferror(h, memerr); memmove(map, h->buf, size); return map; } static Rawimage* readone(Header *h) { Rawimage *i; int left, top, width, height; if(Bread(h->fd, h->buf, 9) != 9) giferror(h, "ReadGIF: can't read image descriptor: %r"); i = malloc(sizeof(Rawimage)); if(i == nil) giferror(h, memerr); left = h->buf[0]+(h->buf[1]<<8); top = h->buf[2]+(h->buf[3]<<8); width = h->buf[4]+(h->buf[5]<<8); height = h->buf[6]+(h->buf[7]<<8); i->fields = h->buf[8]; i->r.min.x = left; i->r.min.y = top; i->r.max.x = left+width; i->r.max.y = top+height; i->nchans = 1; i->chandesc = CRGB1; memset(i->chans, 0, sizeof(i->chans)); return i; } static int readdata(Header *h, uchar *data) { int nbytes, n; nbytes = Bgetc(h->fd); if(nbytes < 0) giferror(h, "ReadGIF: can't read data: %r"); if(nbytes == 0) return 0; n = Bread(h->fd, data, nbytes); if(n < 0) giferror(h, "ReadGIF: can't read data: %r"); if(n != nbytes) fprint(2, "ReadGIF: short data subblock\n"); return n; } static void graphiccontrol(Header *h) { if(Bread(h->fd, h->buf, 5+1) != 5+1) giferror(h, readerr); h->flags = h->buf[1]; h->delay = h->buf[2]+(h->buf[3]<<8); h->trindex = h->buf[4]; } static void skipextension(Header *h) { int type, hsize, hasdata, n; uchar data[256]; hsize = 0; hasdata = 0; type = Bgetc(h->fd); switch(type){ case Beof: giferror(h, extreaderr); break; case 0x01: /* Plain Text Extension */ hsize = 13; hasdata = 1; break; case 0xF9: /* Graphic Control Extension */ graphiccontrol(h); return; case 0xFE: /* Comment Extension */ hasdata = 1; break; case 0xFF: /* Application Extension */ hsize = Bgetc(h->fd); /* standard says this must be 11, but Adobe likes to put out 10-byte ones, * so we pay attention to the field. */ hasdata = 1; break; default: giferror(h, "ReadGIF: unknown extension"); } if(hsize>0 && Bread(h->fd, h->buf, hsize) != hsize) giferror(h, extreaderr); if(!hasdata){ /* * This code used to check h->buf[hsize-1] != 0 * and giferror if so, but if !hasdata, hsize == 0. */ return; } /* loop counter: Application Extension with NETSCAPE2.0 as string and 1 <loop.count> in data */ if(type == 0xFF && hsize==11 && memcmp(h->buf, "NETSCAPE2.0", 11)==0){ n = readdata(h, data); if(n == 0) return; if(n==3 && data[0]==1) h->loopcount = data[1] | (data[2]<<8); } while(readdata(h, data) != 0) ; } static uchar* decode(Header *h, Rawimage *i, Entry *tbl) { int c, incode, codesize, CTM, EOD, pici, datai, stacki, nbits, sreg, fc, code, piclen; int csize, nentry, maxentry, first, ocode, ndata, nb; uchar clip, *p, *pic; uchar stack[4096], data[256]; if(Bread(h->fd, h->buf, 1) != 1) giferror(h, "ReadGIF: can't read data: %r"); codesize = h->buf[0]; if(codesize>8 || 0>codesize) giferror(h, "ReadGIF: can't handle codesize %d", codesize); CTM =1<<codesize; EOD = CTM+1; piclen = (i->r.max.x-i->r.min.x)*(i->r.max.y-i->r.min.y); i->chanlen = piclen; pic = malloc(piclen); if(pic == nil) giferror(h, memerr); h->pic = pic; pici = 0; ndata = 0; datai = 0; nbits = 0; sreg = 0; fc = 0; Loop: for(;;){ csize = codesize+1; nentry = EOD+1; maxentry = (1<<csize)-1; first = 1; ocode = -1; for(;; ocode = incode) { while(nbits < csize) { if(datai == ndata){ ndata = readdata(h, data); if(ndata == 0) goto Return; datai = 0; } c = data[datai++]; sreg |= c<<nbits; nbits += 8; } code = sreg & ((1<<csize) - 1); sreg >>= csize; nbits -= csize; if(code == EOD){ ndata = readdata(h, data); if(ndata != 0) fprint(2, "ReadGIF: unexpected data past EOD\n"); goto Return; } if(code == CTM) goto Loop; stacki = (sizeof stack)-1; incode = code; /* special case for KwKwK */ if(code == nentry) { stack[stacki--] = fc; code = ocode; } if(code > nentry){ fprint(2, "ReadGIF: GIF invalid, code out of range, %x > %x\n", code, nentry); code = nentry; } for(c=code; stacki>0 && c>=0; c=tbl[c].prefix) stack[stacki--] = tbl[c].exten; nb = (sizeof stack)-(stacki+1); if(pici+nb > piclen){ /* this common error is harmless * we have to keep reading to keep the blocks in sync */ ; }else{ memmove(pic+pici, stack+stacki+1, sizeof stack - (stacki+1)); pici += nb; } fc = stack[stacki+1]; if(first){ first = 0; continue; } #define early 0 /* peculiar tiff feature here for reference */ if(nentry == maxentry-early) { if(csize >= 12) continue; csize++; maxentry = (1<<csize); if(csize < 12) maxentry--; } tbl[nentry].prefix = ocode; tbl[nentry].exten = fc; nentry++; } } Return: if(i->cmap!=nil && i->cmaplen!=3*256){ clip = (i->cmaplen/3)-1; for(p = pic; p < pic+piclen; p++) if(*p > clip) *p = clip; } h->pic = nil; return pic; } static void interlace(Header *h, Rawimage *image) { uchar *pic; Rectangle r; int dx, yy, y; uchar *ipic; pic = image->chans[0]; r = image->r; dx = r.max.x-r.min.x; ipic = malloc(dx*(r.max.y-r.min.y)); if(ipic == nil) giferror(h, nil); /* Group 1: every 8th row, starting with row 0 */ yy = 0; for(y=r.min.y; y<r.max.y; y+=8){ memmove(&ipic[(y-r.min.y)*dx], &pic[yy*dx], dx); yy++; } /* Group 2: every 8th row, starting with row 4 */ for(y=r.min.y+4; y<r.max.y; y+=8){ memmove(&ipic[(y-r.min.y)*dx], &pic[yy*dx], dx); yy++; } /* Group 3: every 4th row, starting with row 2 */ for(y=r.min.y+2; y<r.max.y; y+=4){ memmove(&ipic[(y-r.min.y)*dx], &pic[yy*dx], dx); yy++; } /* Group 4: every 2nd row, starting with row 1 */ for(y=r.min.y+1; y<r.max.y; y+=2){ memmove(&ipic[(y-r.min.y)*dx], &pic[yy*dx], dx); yy++; } free(image->chans[0]); image->chans[0] = ipic; }