ref: 1bfde841484fadb1c41f41a6279e7e070f61a31b
dir: /sys/src/cmd/jpg/readpng.c/
#include <u.h> #include <libc.h> #include <ctype.h> #include <bio.h> #include <flate.h> #include <draw.h> #include "imagefile.h" int debug; enum { IDATSIZE = 8*1024*1024, /* filtering algorithms */ FilterNone = 0, /* new[x][y] = buf[x][y] */ FilterSub = 1, /* new[x][y] = buf[x][y] + new[x-1][y] */ FilterUp = 2, /* new[x][y] = buf[x][y] + new[x][y-1] */ FilterAvg = 3, /* new[x][y] = buf[x][y] + (new[x-1][y]+new[x][y-1])/2 */ FilterPaeth = 4, /* new[x][y] = buf[x][y] + paeth(new[x-1][y],new[x][y-1],new[x-1][y-1]) */ FilterLast = 5, PropertyBit = 1<<5, }; typedef struct ZlibR ZlibR; typedef struct ZlibW ZlibW; struct ZlibW { uchar *data; /* Rawimage data */ int ndata; int noutchan; int chandesc; int nchan; uchar *scan; /* new scanline */ uchar *lastscan; /* previous scan line */ int scanlen; /* scan line length */ int scanpos; /* scan position */ int dx; /* width of image */ int dy; /* height of image */ int bpc; /* bits per channel (per pixel) */ int y; /* current scan line */ int pass; /* adam7 pass#; 0 means no adam7 */ uchar palette[3*256]; /* color palette */ int palsize; /* number of palette entries */ }; struct ZlibR { Biobuf *io; /* input buffer */ uchar *buf; /* malloc'ed staging buffer */ uchar *p; /* next byte to decompress */ uchar *e; /* end of buffer */ ZlibW *w; }; static ulong *crctab; static uchar PNGmagic[] = { 137, 'P', 'N', 'G', '\r', '\n', 26, '\n'}; static ulong get4(uchar *a) { return (a[0]<<24) | (a[1]<<16) | (a[2]<<8) | a[3]; } static void pnginit(void) { static int inited; if(inited) return; inited = 1; crctab = mkcrctab(0xedb88320); if(crctab == nil) sysfatal("mkcrctab error"); inflateinit(); } static void* pngmalloc(ulong n, int clear) { void *p; p = mallocz(n, clear); if(p == nil) sysfatal("malloc: %r"); return p; } static int getchunk(Biobuf *b, char *type, uchar *d, int m) { uchar buf[8]; ulong crc = 0, crc2; int n, nr; if(Bread(b, buf, 8) != 8) return -1; n = get4(buf); memmove(type, buf+4, 4); type[4] = 0; if(n > m) sysfatal("getchunk needed %d, had %d", n, m); nr = Bread(b, d, n); if(nr != n) sysfatal("getchunk read %d, expected %d", nr, n); crc = blockcrc(crctab, crc, type, 4); crc = blockcrc(crctab, crc, d, n); if(Bread(b, buf, 4) != 4) sysfatal("getchunk tlr failed"); crc2 = get4(buf); if(crc != crc2) sysfatal("getchunk crc failed"); return n; } static int zread(void *va) { ZlibR *z = va; char type[5]; int n; if(z->p >= z->e){ Again: z->p = z->buf; z->e = z->p; n = getchunk(z->io, type, z->p, IDATSIZE); if(n < 0 || strcmp(type, "IEND") == 0) return -1; z->e = z->p + n; if(!strcmp(type,"PLTE")){ if(n < 3 || n > 3*256 || n%3) sysfatal("invalid PLTE chunk len %d", n); memcpy(z->w->palette, z->p, n); z->w->palsize = 256; goto Again; } if(type[0] & PropertyBit) goto Again; /* skip auxiliary chunks fornow */ if(strcmp(type,"IDAT")){ sysfatal("unrecognized mandatory chunk %s", type); goto Again; } } return *z->p++; } static uchar paeth(uchar a, uchar b, uchar c) { int p, pa, pb, pc; p = a + b - c; pa = abs(p - a); pb = abs(p - b); pc = abs(p - c); if(pa <= pb && pa <= pc) return a; else if(pb <= pc) return b; return c; } static void unfilter(int alg, uchar *buf, uchar *up, int len, int bypp) { int i; switch(alg){ default: fprint(2, "unknown filtering scheme %d\n", alg); case FilterNone: break; case FilterSub: for(i = bypp; i < len; ++i) buf[i] += buf[i-bypp]; break; case FilterUp: for(i = 0; i < len; ++i) buf[i] += up[i]; break; case FilterAvg: for(i = 0; i < bypp; ++i) buf[i] += (0+up[i])/2; for(; i < len; ++i) buf[i] += (buf[i-bypp]+up[i])/2; break; case FilterPaeth: for(i = 0; i < bypp; ++i) buf[i] += paeth(0, up[i], 0); for(; i < len; ++i) buf[i] += paeth(buf[i-bypp], up[i], up[i-bypp]); break; } } struct { int x; int y; int dx; int dy; } adam7[] = { {0,0,1,1}, /* eve alone */ {0,0,8,8}, /* pass 1 */ {4,0,8,8}, /* pass 2 */ {0,4,4,8}, /* pass 3 */ {2,0,4,4}, /* pass 4 */ {0,2,2,4}, /* pass 5 */ {1,0,2,2}, /* pass 6 */ {0,1,1,2}, /* pass 7 */ }; static void scan(int len, ZlibW *z) { int chan, i, j, nbit, off, val; uchar pixel[4], *p, *w; unfilter(z->scan[0], z->scan+1, z->lastscan+1, len-1, (z->nchan*z->bpc+7)/8); /* * loop over raw bits extracting pixel values and converting to 8-bit */ nbit = 0; chan = 0; val = 0; off = z->y*z->dx + adam7[z->pass].x; w = z->data + z->noutchan*off; p = z->scan+1; /* skip alg byte */ len--; for(i=0; i<len*8; i++){ val <<= 1; if(p[i>>3] & (1<<(7-(i&7)))) val++; if(++nbit == z->bpc){ /* finished the value */ pixel[chan++] = (val*255)/((1<<z->bpc)-1); val = 0; nbit = 0; if(chan == z->nchan){ /* finished the pixel */ if(off < z->dx*z->dy){ if(z->nchan < 3 && z->palsize){ j = pixel[0]; if(z->bpc < 8) j >>= 8-z->bpc; if(j >= z->palsize) sysfatal("index %d >= palette size %d", j, z->palsize); pixel[3] = pixel[1]; /* alpha */ pixel[0] = z->palette[3*j]; pixel[1] = z->palette[3*j+1]; pixel[2] = z->palette[3*j+2]; } switch(z->chandesc){ case CYA16: // print("%.2x%.2x ", pixel[0], pixel[1]); *w++ = pixel[1]; *w++ += (pixel[0]*pixel[1])/255; break; case CRGBA32: // print("%.2x%.2x%.2x%.2x ", pixel[0], pixel[1], pixel[2], pixel[3]); *w++ += pixel[3]; *w++ += (pixel[2]*pixel[3])/255; *w++ += (pixel[1]*pixel[3])/255; *w++ += (pixel[0]*pixel[3])/255; break; case CRGB24: *w++ = pixel[2]; *w++ = pixel[1]; case CY: *w++ = pixel[0]; break; } w += (adam7[z->pass].dx-1)*z->noutchan; } off += adam7[z->pass].dx; if(off >= (z->y+1)*z->dx){ /* finished the line */ return; } chan = 0; } } } sysfatal("scan line too short"); } static int scanbytes(ZlibW *z) { int bits, n, adx, dx; if(adam7[z->pass].y >= z->dy || adam7[z->pass].x >= z->dx) return 0; adx = adam7[z->pass].dx; dx = z->dx - adam7[z->pass].x; if(dx <= 0) n = 1; else n = (dx+adx-1)/adx; if(n != 1 + (z->dx - (adam7[z->pass].x+1)) / adam7[z->pass].dx){ fprint(2, "%d/%d != 1+(%d-1)/%d = %d\n", z->dx - adam7[z->pass].x - 1 + adx, adx, z->dx - (adam7[z->pass].x+1), adam7[z->pass].dx, 1 + (z->dx - (adam7[z->pass].x+1)) / adam7[z->pass].dx); } bits = n*z->bpc*z->nchan; return 1 + (bits+7)/8; } static int nextpass(ZlibW *z) { int len; memset(z->lastscan, 0, z->scanlen); do{ z->pass = (z->pass+1)%8; z->y = adam7[z->pass].y; len = scanbytes(z); }while(len < 2); return len; } static int zwrite(void *vz, void *vbuf, int n) { int oldn, m, len; uchar *buf, *t; ZlibW *z; z = vz; buf = vbuf; oldn = n; len = scanbytes(z); if(len < 2) len = nextpass(z); while(n > 0){ m = len - z->scanpos; if(m > n){ /* save final partial line */ memmove(z->scan+z->scanpos, buf, n); z->scanpos += n; break; } /* fill line */ memmove(z->scan+z->scanpos, buf, m); buf += m; n -= m; /* process line */ scan(len, z); t = z->scan; z->scan = z->lastscan; z->lastscan = t; z->scanpos = 0; z->y += adam7[z->pass].dy; if(z->y >= z->dy) len = nextpass(z); } return oldn; } static Rawimage* readslave(Biobuf *b) { char type[5]; int bpc, colorfmt, dx, dy, err, n, nchan, nout, useadam7; uchar *buf, *h; Rawimage *image; ZlibR zr; ZlibW zw; buf = pngmalloc(IDATSIZE, 0); if(Bread(b, buf, sizeof PNGmagic) != sizeof PNGmagic || memcmp(PNGmagic, buf, sizeof PNGmagic) != 0) sysfatal("bad PNGmagic"); n = getchunk(b, type, buf, IDATSIZE); if(n < 13 || strcmp(type,"IHDR") != 0) sysfatal("missing IHDR chunk"); h = buf; dx = get4(h); h += 4; dy = get4(h); h += 4; if(dx <= 0 || dy <= 0) sysfatal("impossible image size %dx%d", dx, dy); if(debug) fprint(2, "readpng %dx%d\n", dx, dy); bpc = *h++; colorfmt = *h++; nchan = 0; if(*h++ != 0) sysfatal("only deflate supported for now [%d]", h[-1]); if(*h++ != FilterNone) sysfatal("only FilterNone supported for now [%d]", h[-1]); useadam7 = *h++; USED(h); image = pngmalloc(sizeof(Rawimage), 1); image->r = Rect(0, 0, dx, dy); nout = 0; switch(colorfmt){ case 0: /* grey */ if(bpc != 1 && bpc != 2 && bpc != 4 && bpc != 8 && bpc != 16) sysfatal("invalid greyscale bpc %d", bpc); image->nchans = 1; image->chandesc = CY; nout = 1; nchan = 1; break; case 2: /* rgb */ if(bpc != 8 && bpc != 16) sysfatal("invalid rgb bpc %d", bpc); image->nchans = 1; image->chandesc = CRGB24; nout = 3; nchan = 3; break; case 3: /* indexed rgb with PLTE */ if(bpc != 1 && bpc != 2 && bpc != 4 && bpc != 8) sysfatal("invalid indexed rgb bpc %d", bpc); image->nchans = 1; image->chandesc = CRGB24; nout = 3; nchan = 1; break; case 4: /* grey+alpha */ if(bpc != 8 && bpc != 16) sysfatal("invalid grey+alpha bpc %d", bpc); image->nchans = 1; image->chandesc = CYA16; nout = 2; nchan = 2; break; case 6: /* rgb+alpha */ if(bpc != 8 && bpc != 16) sysfatal("invalid rgb+alpha bpc %d", bpc); image->nchans = 1; image->chandesc = CRGBA32; nout = 4; nchan = 4; break; default: sysfatal("unsupported color scheme %d", h[-1]); } image->chanlen = dx*dy*nout; image->chans[0] = pngmalloc(image->chanlen, 0); memset(image->chans[0], 0, image->chanlen); memset(&zr, 0, sizeof zr); zr.w = &zw; zr.io = b; zr.buf = buf; memset(&zw, 0, sizeof zw); if(useadam7) zw.pass = 1; zw.data = image->chans[0]; zw.ndata = image->chanlen; zw.chandesc = image->chandesc; zw.noutchan = nout; zw.dx = dx; zw.dy = dy; zw.scanlen = (nchan*dx*bpc+7)/8+1; zw.scan = pngmalloc(zw.scanlen, 1); zw.lastscan = pngmalloc(zw.scanlen, 1); zw.nchan = nchan; zw.bpc = bpc; err = inflatezlib(&zw, zwrite, &zr, zread); if(err) sysfatal("inflatezlib %s\n", flateerr(err)); free(buf); free(zw.scan); free(zw.lastscan); return image; } Rawimage** Breadpng(Biobuf *b, int colorspace) { Rawimage **array, *r; if(colorspace != CRGB){ werrstr("ReadPNG: unknown color space %d", colorspace); return nil; } pnginit(); array = malloc(2*sizeof(*array)); if(array==nil) return nil; r = readslave(b); array[0] = r; array[1] = nil; return array; } Rawimage** readpng(int fd, int colorspace) { Biobuf b; Rawimage **a; if(Binit(&b, fd, OREAD) < 0) return nil; a = Breadpng(&b, colorspace); Bterm(&b); return a; }