}
-TAG* PNG2Image(TAG*t, U16 id, char*filename, unsigned*width, unsigned*height)
-{
- char tagid[4];
- U8*data;
- U8*imagedata;
- U8*zimagedata=0;
- unsigned long int imagedatalen;
- unsigned long int zimagedatalen=0;
- U8*palette = 0;
- int palettelen = 0;
- U8*alphapalette = 0;
- int alphapalettelen = 0;
- struct png_header header;
- int bypp;
- U8 alphacolor[3];
- int hasalphacolor=0;
- int len;
-
-
- FILE *fi;
- U8 *scanline;
-
- if ((fi = fopen(filename, "rb")) == NULL) {
- if (VERBOSE(1))
- fprintf(stderr, "Read access failed: %s\n", filename);
- return t;
- }
-
- if(!png_read_header(fi, &header))
- return 0;
-
- *width = header.width;
- *height = header.height;
-
- if(header.mode == 3 || header.mode == 0) bypp = 1;
- else
- if(header.mode == 2) bypp = 3;
- else
- if(header.mode == 6) bypp = 4;
- else
- return 0;
- imagedatalen = bypp * header.width * header.height + 65536;
- imagedata = malloc(imagedatalen);
-
- fseek(fi,8,SEEK_SET);
- while(!feof(fi))
- {
- if(!png_read_chunk(&tagid, &len, &data, fi))
- break;
- if(!strncmp(tagid, "IEND", 4)) {
- break;
- }
- if(!strncmp(tagid, "PLTE", 4)) {
- palette = data;
- palettelen = len/3;
- data = 0; //don't free data
- if(VERBOSE(2))
- printf("%d colors in palette\n", palettelen);
- }
- if(!strncmp(tagid, "tRNS", 4)) {
- if(header.mode == 3) {
- alphapalette = data;
- alphapalettelen = len;
- data = 0; //don't free data
- if(VERBOSE(2))
- printf("found %d alpha colors\n", alphapalettelen);
- } else if(header.mode == 0 || header.mode == 2) {
- int t;
- if(header.mode == 2) { // palette or grayscale?
- alphacolor[0] = data[1];
- alphacolor[1] = data[3];
- alphacolor[2] = data[5];
- } else {
- alphacolor[0] = alphacolor[1] = alphacolor[2] = data[1];
- }
- if(VERBOSE(2))
- printf("found alpha color: %02x%02x%02x\n", alphacolor[0], alphacolor[1], alphacolor[2]);
- hasalphacolor = 1;
- } else {
- if(VERBOSE(2))
- printf("ignoring tRNS %d entry (%d bytes)\n", header.mode, len);
- }
- }
- if(!strncmp(tagid, "IDAT", 4)) {
- if(!zimagedata) {
- zimagedatalen = len;
- zimagedata = malloc(len);
- memcpy(zimagedata,data,len);
- } else {
- zimagedata = realloc(zimagedata, zimagedatalen+len);
- memcpy(&zimagedata[zimagedatalen], data, len);
- zimagedatalen += len;
- }
- }
- if(data)
- free(data);
- }
-
- if(!zimagedata || uncompress(imagedata, &imagedatalen, zimagedata, zimagedatalen) != Z_OK) {
- fprintf(stderr, "Couldn't uncompress IDAT chunk (%lu bytes) in %s!\n", imagedatalen, filename);
- if(zimagedata)
- free(zimagedata);
- return 0;
- }
- free(zimagedata);
-
- if(alphapalette || hasalphacolor)
- t = swf_InsertTag(t, ST_DEFINEBITSLOSSLESS2);
- else
- t = swf_InsertTag(t, ST_DEFINEBITSLOSSLESS);
-
- swf_SetU16(t, id); // id
- if(header.mode == 2 || header.mode == 6) {
- U8*data2 = malloc(header.width*header.height*4);
- int i,s=0;
- int x,y;
- int pos=0;
- int opaque=0;
- int transparent=0;
- int semitransparent=0;
- /* in case for mode 2, the following also performs 24->32 bit conversion */
- unsigned char* firstline = malloc(header.width*4);
-
- for(y=0;y<header.height;y++) {
- int mode = imagedata[pos++]; //filter mode
- U8*src;
- U8*dest;
- U8*old;
- dest = &data2[(y*header.width)*4];
-
- if(header.bpp == 8)
- {
- /* one byte per pixel */
- src = &imagedata[pos];
- pos+=header.width*(header.mode==6?4:3);
- } else {
- /* not implemented yet */
- exit(1);
- }
-
- if(!y) {
- old = firstline;
- memset(old, 0, header.width*4); //TODO: fill alpha with 255?
- } else {
- old = &data2[(y-1)*header.width*4];
- }
- if(header.mode==6) {
- applyfilter4(mode, src, old, dest, header.width);
- } else if(header.mode==2) {
- applyfilter3(mode, src, old, dest, header.width);
- /* replace alpha color */
- if(hasalphacolor) {
- int x;
- for(x=0;x<header.width;x++) {
- if(dest[x*4+1] == alphacolor[0] &&
- dest[x*4+2] == alphacolor[1] &&
- dest[x*4+3] == alphacolor[2]) {
- *(U32*)&dest[x*4] = 0;
- }
- }
- }
- }
- }
- free(firstline);
-
- /* the image is now compressed and stored in data. Now let's take
- a look at the alpha values */
- if(header.mode == 6) {
- for(y=0;y<header.height;y++) {
- U8*l = &data2[(y*header.width)*4];
- for(x=0;x<header.width;x++) {
- U8 a = l[x*4];
- U8 b = l[x*4+1];
- U8 g = l[x*4+2];
- U8 r = l[x*4+3];
- if(a==255) transparent++;
- else {
- if(a==0) opaque++;
- else semitransparent++;
- l[x*4+3]=(int)r*a/255;
- l[x*4+2]=(int)g*a/255;
- l[x*4+1]=(int)b*a/255;
- }
- }
- }
- if(semitransparent || opaque) {
- t->id = ST_DEFINEBITSLOSSLESS2;
- }
- }
- swf_SetLosslessBits(t, header.width, header.height, data2, BMF_32BIT);
- free(data2);
- } else if(header.mode == 0 || header.mode == 3) {
- RGBA*rgba;
- int swf_width = BYTES_PER_SCANLINE(header.width);
- U8*data2 = malloc(swf_width*header.height);
- U8*tmpline = malloc(header.width);
- int i,x,y;
- int pos=0;
- if(header.mode == 3) { // palette or grayscale?
- rgba = (RGBA*)malloc(palettelen*sizeof(RGBA));
- if(!palette) {
- fprintf(stderr, "Error: No palette found!\n");
- exit(1);
- }
- /* 24->32 bit conversion */
- for(i=0;i<palettelen;i++) {
- rgba[i].r = palette[i*3+0];
- rgba[i].g = palette[i*3+1];
- rgba[i].b = palette[i*3+2];
- if(alphapalette && i<alphapalettelen) {
- rgba[i].a = alphapalette[i];
- rgba[i].r = ((int)rgba[i].r*rgba[i].a)/255;
- rgba[i].g = ((int)rgba[i].g*rgba[i].a)/255;
- rgba[i].b = ((int)rgba[i].b*rgba[i].a)/255;
- } else {
- rgba[i].a = 255;
- }
- if(hasalphacolor) {
- if(rgba[i].r == alphacolor[0] &&
- rgba[i].g == alphacolor[1] &&
- rgba[i].b == alphacolor[2]) {
- rgba[i].r = 0;
- rgba[i].g = 0;
- rgba[i].b = 0;
- rgba[i].a = 0;
- }
- }
- }
- } else {
- int mult = (0x1ff>>header.bpp);
- palettelen = 1<<header.bpp;
- rgba = (RGBA*)malloc(palettelen*sizeof(RGBA));
- for(i=0;i<palettelen;i++) {
- rgba[i].r = i*mult;
- rgba[i].g = i*mult;
- rgba[i].b = i*mult;
- rgba[i].a = 255;
- if(hasalphacolor) {
- if(rgba[i].r == alphacolor[0]) {
- rgba[i].r = 0;
- rgba[i].g = 0;
- rgba[i].b = 0;
- rgba[i].a = 0;
- }
- }
- }
- }
-
- for(y=0;y<header.height;y++) {
- int mode = imagedata[pos++]; //filter mode
- U8*old;
- U8*dest = &data2[y*swf_width];
- U8*src;
- src = &imagedata[pos];
- if(header.bpp == 8) {
- pos+=header.width;
- } else {
- int x,s=0;
- int bitpos = 0;
- U32 v = (1<<header.bpp)-1;
- for(x=0;x<header.width;x++) {
- U32 r = src[s/8]<<8 |
- src[s/8+1];
- int t;
- tmpline[x] = (r>>(16-header.bpp-(s&7)))&v;
- s+=header.bpp;
- }
- src = tmpline;
- pos+=(header.width*header.bpp+7)/8;
- }
-
- if(!y) {
- memset(data2,0,swf_width);
- old = &data2[y*swf_width];
- } else {
- old = &data2[(y-1)*swf_width];
- }
- applyfilter1(mode, src, old, dest, header.width);
- }
- swf_SetLosslessBitsIndexed(t, header.width, header.height, data2, rgba, palettelen);
- free(tmpline);
- free(rgba);
- free(data2);
- }
- fclose(fi);
- return t;
-}
-
TAG *MovieAddFrame(SWF * swf, TAG * t, char *sname, int id)
{
SHAPE *s;
swf_SetJPEGBits2(t, width,height,data,global.mkjpeg);
}
#endif
- } else if(1) {
+ } else {
RGBA*data = 0;
png_load(sname, &width, &height, (unsigned char**)&data);
if(!data)
t = swf_InsertTag(t, ST_DEFINEBITSLOSSLESS);
swf_SetU16(t, id);
swf_SetLosslessImage(t, data,width,height);
- } else {
- /* old code: transform PNG encoding 1:1 to SWF */
- t = PNG2Image(t, id, sname, &width, &height);
}
t = swf_InsertTag(t, ST_DEFINESHAPE3);
git.asbjorn.biz / swftools.git / commitdiff