Fixed the handling of 16bit TIFF files for cinema compression. Modified "convert.c".
Fixed the parameters used for cinema compression (9-7 transform used instead of 5-3). Modified "image_to_j2k.c"
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15
ChangeLog
15
ChangeLog
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@ -5,6 +5,21 @@ What's New for OpenJPEG
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! : changed
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+ : added
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May 31, 2007
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* [FOD] Fixed the handling of 16bit TIFF files for cinema compression. Modified "convert.c"
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* [FOD] Fixed the parameters used for cinema compression (9-7 transform used instead of 5-3). Modified "image_to_j2k.c"
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May 24, 2007
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* [FOD] Bug fixed by Sylvain Munaut. Change in the reading of the POC marker. Since COD/COC can be anywhere in the header, the decoder cannot always know while decoding the POC marker the value of numlayers and numresolution.
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May 23, 2007
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! [FOD] Patch suggested by Callum Lerwick <seg@haxxed.com>: "This makes the t1 data arrays dynamic, which greatly reduces cache thrashing. Also, some minor cleanup to prevent unnecessary casts"
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May 22, 2007
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! [FOD] Patch suggested by Callum Lerwick <seg@haxxed.com>: "Some formatting cleanups, so that the long function definitions and calls fit on screen. Use of prefix increment which is theoretically faster, in practice any sane compiler can optimize a postfix increment but its best not to count on such things. Consolidation of some redundant calculations in the inner loops, which becomes very useful in the future autovectorize patch."
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! [FOD] Patch suggested by Callum Lerwick <seg@haxxed.com>: "This changes the flag code in t1 to use a flag_t type, which can then be changed to reduce RAM usage. It is now typedef to a short."
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! [FOD] Patch suggested by Callum Lerwick <seg@haxxed.com>: "This patch makes the t1 LUTs static. I actually intend this as a prelude to possibly eliminating some or all of the LUTs entirely."
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May 11, 2007
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- [FOD] JP3D library Binaries removed from SVN.
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! [FOD] MJ2 codec updated from LibOpenJPEG version 0.97 to LibOpenJPEG version 1. Hence, the MJ2 codec will now take advantage of all the improvements and optimizations done on the LibOpenJPEG library.
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150
codec/convert.c
150
codec/convert.c
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@ -1082,7 +1082,7 @@ typedef struct tiff_infoheader{
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}tiff_infoheader_t;
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int imagetotif(opj_image_t * image, const char *outfile) {
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int width, height, imgsize;
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int width, height;
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int bps,index;
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TIFF *tif;
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tdata_t buf;
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@ -1107,8 +1107,7 @@ int imagetotif(opj_image_t * image, const char *outfile) {
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}
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width = image->comps[0].w;
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height = image->comps[0].h;
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imgsize = image->comps[0].w * image->comps[0].h ;
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height= image->comps[0].h;
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bps = image->comps[0].prec;
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/* Set tags */
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TIFFSetField(tif, TIFFTAG_IMAGEWIDTH, width);
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@ -1130,74 +1129,34 @@ int imagetotif(opj_image_t * image, const char *outfile) {
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int i;
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dat8 = buf;
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if (image->comps[0].prec == 8){
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for (i=0; i < strip_size; i+=3) { // 8 bits per pixel
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int r = 0,g = 0,b = 0;
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if(index < imgsize){
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r = image->comps[0].data[index];
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r += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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g = image->comps[1].data[index];
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g += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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b = image->comps[2].data[index];
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b += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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dat8[i+0] = r ; // R
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dat8[i+1] = g ; // G
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dat8[i+2] = b ; // B
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index++;
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}else
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break;
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for (i=0; i<TIFFStripSize(tif); i+=3) { // 8 bits per pixel
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dat8[i+0] = image->comps[0].data[index] ; // R
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dat8[i+1] = image->comps[1].data[index] ; // G
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dat8[i+2] = image->comps[2].data[index] ; // B
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index++;
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}
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}else if (image->comps[0].prec == 12){
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for (i=0; i<strip_size; i+=9) { // 12 bits per pixel
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int r = 0,g = 0,b = 0;
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int r1 = 0,g1 = 0,b1 = 0;
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if(index < imgsize){
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r = image->comps[0].data[index];
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r += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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g = image->comps[1].data[index];
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g += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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b = image->comps[2].data[index];
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b += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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r1 = image->comps[0].data[index+1];
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r1 += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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g1 = image->comps[1].data[index+1];
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g1 += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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b1 = image->comps[2].data[index+1];
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b1 += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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dat8[i+0] = (r >> 4);
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dat8[i+1] = ((r & 0x0f) << 4 )|((g >> 8)& 0x0f);
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dat8[i+2] = g ;
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dat8[i+3] = (b >> 4);
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dat8[i+4] = ((b & 0x0f) << 4 )|((r1 >> 8)& 0x0f);
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dat8[i+5] = (r1);
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dat8[i+6] = (g1 >> 4);
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dat8[i+7] = ((g1 & 0x0f)<< 4 )|((b1 >> 8)& 0x0f);
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dat8[i+8] = (b1);
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index+=2;
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}else
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break;
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for (i=0; i<TIFFStripSize(tif); i+=9) { // 12 bits per pixel
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dat8[i+0] = (image->comps[0].data[index]>>8)<<4 | (image->comps[0].data[index]>>4);
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dat8[i+1] = (image->comps[0].data[index]<<4)|((image->comps[1].data[index]>>8)& 0x0f);
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dat8[i+2] = (image->comps[1].data[index]);
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dat8[i+3] = (image->comps[2].data[index]>>8)<<4 | (image->comps[2].data[index]>>4);
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dat8[i+4] = (image->comps[2].data[index]<<4)|((image->comps[1].data[index+1]>>8)& 0x0f);
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dat8[i+5] = (image->comps[0].data[index+1]);
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dat8[i+6] = (image->comps[1].data[index+1]>>8)<<4 | (image->comps[1].data[index+1]>>4);
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dat8[i+7] = (image->comps[1].data[index+1]<<4)|((image->comps[2].data[index+1]>>8)& 0x0f);
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dat8[i+8] = (image->comps[2].data[index+1]);
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index+=2;
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}
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}else if (image->comps[0].prec == 16){
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for (i=0; i<strip_size; i+=6) { // 16 bits per pixel
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int r = 0,g = 0,b = 0;
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if(index < imgsize){
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r = image->comps[0].data[index];
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r += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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g = image->comps[1].data[index];
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g += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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b = image->comps[2].data[index];
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b += (image->comps[0].sgnd ? 1 << (image->comps[0].prec - 1) : 0);
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dat8[i+0] = r;//LSB
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dat8[i+1] = (r >> 8);//MSB
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dat8[i+2] = g;
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dat8[i+3] = (g >> 8);
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dat8[i+4] = b;
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dat8[i+5] = (b >> 8);
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index++;
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}else
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break;
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for (i=0; i<TIFFStripSize(tif); i+=6) { // 16 bits per pixel
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dat8[i+0] = image->comps[0].data[index];//LSB
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dat8[i+1] = (image->comps[0].data[index]>> 8);//MSB
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dat8[i+2] = image->comps[1].data[index];
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dat8[i+3] = (image->comps[1].data[index]>> 8);
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dat8[i+4] = image->comps[2].data[index];
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dat8[i+5] = (image->comps[2].data[index]>> 8);
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index++;
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}
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}else{
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fprintf(stderr,"Bits=%d, Only 8,12,16 bits implemented\n",image->comps[0].prec);
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@ -1290,7 +1249,6 @@ opj_image_t* tiftoimage(char *filename, opj_cparameters_t *parameters)
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OPJ_COLOR_SPACE color_space;
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opj_image_cmptparm_t cmptparm[3];
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opj_image_t * image = NULL;
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int imgsize;
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tif = TIFFOpen(filename, "r");
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@ -1309,7 +1267,7 @@ opj_image_t* tiftoimage(char *filename, opj_cparameters_t *parameters)
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TIFFGetField(tif, TIFFTAG_PLANARCONFIG, &Info.tiPC);
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w= Info.tiWidth;
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h= Info.tiHeight;
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if (Info.tiPhoto == 2) {
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/* -->> -->> -->>
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RGB color
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@ -1320,8 +1278,13 @@ opj_image_t* tiftoimage(char *filename, opj_cparameters_t *parameters)
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/* initialize image components*/
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memset(&cmptparm[0], 0, 3 * sizeof(opj_image_cmptparm_t));
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for(j = 0; j < numcomps; j++) {
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cmptparm[j].prec = Info.tiBps;
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cmptparm[j].bpp = Info.tiBps;
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if ((parameters->cp_cinema) & (Info.tiBps== 16)){
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cmptparm[j].prec = 12;
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cmptparm[j].bpp = 12;
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}else{
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cmptparm[j].prec = Info.tiBps;
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cmptparm[j].bpp = Info.tiBps;
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}
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cmptparm[j].sgnd = 0;
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cmptparm[j].dx = subsampling_dx;
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cmptparm[j].dy = subsampling_dy;
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@ -1345,7 +1308,6 @@ opj_image_t* tiftoimage(char *filename, opj_cparameters_t *parameters)
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strip_size=0;
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strip_size=TIFFStripSize(tif);
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index = 0;
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imgsize = image->comps[0].w * image->comps[0].h ;
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/* Read the Image components*/
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for (strip = 0; strip < TIFFNumberOfStrips(tif); strip++) {
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unsigned char *dat8;
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@ -1355,38 +1317,34 @@ opj_image_t* tiftoimage(char *filename, opj_cparameters_t *parameters)
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if (Info.tiBps==12){
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for (i=0; i<ssize; i+=9) { /*12 bits per pixel*/
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if(index < imgsize){
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image->comps[0].data[index] = ( dat8[i+0]<<4 ) |(dat8[i+1]>>4);
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image->comps[1].data[index] = ((dat8[i+1]& 0x0f)<< 8) | dat8[i+2];
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image->comps[2].data[index] = ( dat8[i+3]<<4) |(dat8[i+4]>>4);
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image->comps[0].data[index+1] = ((dat8[i+4]& 0x0f)<< 8) | dat8[i+5];
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image->comps[1].data[index+1] = ( dat8[i+6] <<4) |(dat8[i+7]>>4);
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image->comps[2].data[index+1] = ((dat8[i+7]& 0x0f)<< 8) | dat8[i+8];
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index+=2;
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}else
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break;
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image->comps[0].data[index] = ( dat8[i+0]<<4 ) |(dat8[i+1]>>4);
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image->comps[1].data[index] = ((dat8[i+1]& 0x0f)<< 8) | dat8[i+2];
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image->comps[2].data[index] = ( dat8[i+3]<<4) |(dat8[i+4]>>4);
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image->comps[0].data[index+1] = ((dat8[i+4]& 0x0f)<< 8) | dat8[i+5];
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image->comps[1].data[index+1] = ( dat8[i+6] <<4) |(dat8[i+7]>>4);
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image->comps[2].data[index+1] = ((dat8[i+7]& 0x0f)<< 8) | dat8[i+8];
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index+=2;
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}
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}
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else if( Info.tiBps==16){
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for (i=0; i<ssize; i+=6) { /* 16 bits per pixel */
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if(index < imgsize){
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image->comps[0].data[index] = ( dat8[i+1] << 8 ) | dat8[i+0]; // R
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image->comps[1].data[index] = ( dat8[i+3] << 8 ) | dat8[i+2]; // G
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image->comps[2].data[index] = ( dat8[i+5] << 8 ) | dat8[i+4]; // B
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index++;
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}else
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break;
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image->comps[0].data[index] = ( dat8[i+1] << 8 ) | dat8[i+0]; // R
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image->comps[1].data[index] = ( dat8[i+3] << 8 ) | dat8[i+2]; // G
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image->comps[2].data[index] = ( dat8[i+5] << 8 ) | dat8[i+4]; // B
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if(parameters->cp_cinema){/* Rounding to 12 bits*/
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image->comps[0].data[index] = (image->comps[0].data[index] + 0x08) >> 4 ;
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image->comps[1].data[index] = (image->comps[1].data[index] + 0x08) >> 4 ;
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image->comps[2].data[index] = (image->comps[2].data[index] + 0x08) >> 4 ;
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}
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index++;
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}
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}
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else if ( Info.tiBps==8){
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for (i=0; i<ssize; i+=3) { /* 8 bits per pixel */
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if(index < imgsize){
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image->comps[0].data[index] = dat8[i+0]; // R
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image->comps[1].data[index] = dat8[i+1]; // G
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image->comps[2].data[index] = dat8[i+2]; // B
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index++;
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}else
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break;
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image->comps[0].data[index] = dat8[i+0]; // R
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image->comps[1].data[index] = dat8[i+1]; // G
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image->comps[2].data[index] = dat8[i+2]; // B
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index++;
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}
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}
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else{
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@ -465,6 +465,10 @@ void cinema_parameters(opj_cparameters_t *parameters){
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parameters->roi_compno = -1;
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parameters->subsampling_dx = 1; parameters->subsampling_dy = 1;
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/* 9-7 transform */
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parameters->irreversible = 1;
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}
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void cinema_setup_encoder(opj_cparameters_t *parameters,opj_image_t *image){
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