Aligned malloc using Intel's _mm_malloc(), cleanup on the t1 memory allocation, getting rid of some leftover debug code
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ca2a0114a2
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3810e943b1
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@ -10,6 +10,7 @@ August 21, 2007
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* [FOD] Robustified MJ2 codecs
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* [FOD] Robustified MJ2 codecs
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* [Parvatha] Solved problems with codec reading from image file directory when filename had more than one "." in name
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* [Parvatha] Solved problems with codec reading from image file directory when filename had more than one "." in name
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* [Callum Lerwick] Minor cleanup patch, that gets rid of a bunch of "old style declaration" warnings from Intel's compiler
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* [Callum Lerwick] Minor cleanup patch, that gets rid of a bunch of "old style declaration" warnings from Intel's compiler
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* [Callum Lerwick] Aligned malloc using Intel's _mm_malloc(). Cleanup on the t1 memory allocation, getting rid of some leftover debug code
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August 20, 2007
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August 20, 2007
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+ [FOD] Added support for the TGA file format in the codec
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+ [FOD] Added support for the TGA file format in the codec
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@ -32,6 +32,10 @@
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The functions in J2K_LIB.C are internal utilities mainly used for memory management.
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The functions in J2K_LIB.C are internal utilities mainly used for memory management.
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*/
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*/
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#ifndef __GCC__
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#define __attribute__(x) /* */
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#endif
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/** @defgroup MISC MISC - Miscellaneous internal functions */
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/** @defgroup MISC MISC - Miscellaneous internal functions */
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/*@{*/
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/*@{*/
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@ -50,7 +54,16 @@ Allocate a memory block with elements initialized to 0
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@param size Bytes to allocate
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@param size Bytes to allocate
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@return Returns a void pointer to the allocated space, or NULL if there is insufficient memory available
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@return Returns a void pointer to the allocated space, or NULL if there is insufficient memory available
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*/
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*/
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void* opj_malloc( size_t size );
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void* __attribute__ ((malloc)) opj_malloc( size_t size );
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/**
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Allocate memory aligned to a 16 byte boundry
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@param size Bytes to allocate
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@return Returns a void pointer to the allocated space, or NULL if there is insufficient memory available
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*/
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#include <xmmintrin.h>
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#define opj_aligned_malloc(size) _mm_malloc(size, 16)
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#define opj_aligned_free(m) _mm_free(m)
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/**
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/**
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Reallocate memory blocks.
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Reallocate memory blocks.
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@ -58,7 +71,7 @@ Reallocate memory blocks.
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@param size New size in bytes
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@param size New size in bytes
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@return Returns a void pointer to the reallocated (and possibly moved) memory block
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@return Returns a void pointer to the reallocated (and possibly moved) memory block
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*/
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*/
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void* opj_realloc( void *memblock, size_t size );
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void* __attribute__ ((malloc)) opj_realloc( void *memblock, size_t size );
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/**
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/**
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Deallocates or frees a memory block.
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Deallocates or frees a memory block.
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@ -758,47 +758,41 @@ static double t1_getwmsedec(
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return wmsedec;
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return wmsedec;
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}
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}
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static void allocate_buffers(
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static bool allocate_buffers(
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opj_t1_t *t1,
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opj_t1_t *t1,
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int w,
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int w,
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int h)
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int h)
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{
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{
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int datasize;
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int datasize=w * h;
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int flagssize;
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int flagssize;
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datasize=w * h;
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//fprintf(stderr,"w=%i h=%i datasize=%i flagssize=%i\n",w,h,datasize,flagssize);
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if(datasize > t1->datasize){
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if(datasize > t1->datasize){
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//fprintf(stderr,"Allocating t1->data: datasize=%i\n",datasize);
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opj_aligned_free(t1->data);
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free(t1->data);
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t1->data=opj_aligned_malloc(datasize * sizeof(int));
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t1->data=malloc(datasize * sizeof(int));
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if(!t1->data){
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if(!t1->data){
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return;
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return false;
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}
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}
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t1->datasize=datasize;
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t1->datasize=datasize;
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}
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}
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//memset(t1->data,0xff,t1->datasize);
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memset(t1->data,0,datasize * sizeof(int));
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memset(t1->data,0,datasize * sizeof(int));
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t1->flags_stride=w+2;
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t1->flags_stride=w+2;
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flagssize = t1->flags_stride * (h+2);
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flagssize = t1->flags_stride * (h+2);
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if(flagssize > t1->flagssize){
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if(flagssize > t1->flagssize){
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//fprintf(stderr,"Allocating t1->flags: flagssize=%i\n",flagssize);
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opj_aligned_free(t1->flags);
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free(t1->flags);
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t1->flags=opj_aligned_malloc(flagssize * sizeof(flag_t));
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t1->flags=malloc(flagssize * sizeof(flag_t));
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if(!t1->flags){
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if(!t1->flags){
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fprintf(stderr,"Allocating t1->flags FAILED!\n");
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return false;
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return;
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}
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}
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t1->flagssize=flagssize;
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t1->flagssize=flagssize;
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}
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}
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//memset(t1->flags,0xff,t1->flagssize);
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memset(t1->flags,0,flagssize * sizeof(flag_t));
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memset(t1->flags,0,flagssize * sizeof(flag_t));
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t1->w=w;
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t1->w=w;
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t1->h=h;
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t1->h=h;
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return true;
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}
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}
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/** mod fixed_quality */
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/** mod fixed_quality */
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@ -949,10 +943,13 @@ static void t1_decode_cblk(
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opj_raw_t *raw = t1->raw; /* RAW component */
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opj_raw_t *raw = t1->raw; /* RAW component */
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opj_mqc_t *mqc = t1->mqc; /* MQC component */
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opj_mqc_t *mqc = t1->mqc; /* MQC component */
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allocate_buffers(
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if(!allocate_buffers(
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t1,
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t1,
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cblk->x1 - cblk->x0,
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cblk->x1 - cblk->x0,
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cblk->y1 - cblk->y0);
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cblk->y1 - cblk->y0))
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{
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return;
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}
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bpno = roishift + cblk->numbps - 1;
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bpno = roishift + cblk->numbps - 1;
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passtype = 2;
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passtype = 2;
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@ -1025,8 +1022,8 @@ void t1_destroy(opj_t1_t *t1) {
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/* destroy MQC and RAW handles */
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/* destroy MQC and RAW handles */
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mqc_destroy(t1->mqc);
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mqc_destroy(t1->mqc);
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raw_destroy(t1->raw);
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raw_destroy(t1->raw);
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free(t1->data);
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opj_aligned_free(t1->data);
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free(t1->flags);
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opj_aligned_free(t1->flags);
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free(t1);
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free(t1);
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}
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}
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}
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}
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@ -1067,10 +1064,13 @@ void t1_encode_cblks(
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y += pres->y1 - pres->y0;
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y += pres->y1 - pres->y0;
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}
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}
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allocate_buffers(
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if(!allocate_buffers(
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t1,
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t1,
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cblk->x1 - cblk->x0,
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cblk->x1 - cblk->x0,
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cblk->y1 - cblk->y0);
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cblk->y1 - cblk->y0))
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{
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return;
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}
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w = tilec->x1 - tilec->x0;
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w = tilec->x1 - tilec->x0;
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if (tcp->tccps[compno].qmfbid == 1) {
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if (tcp->tccps[compno].qmfbid == 1) {
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@ -192,7 +192,7 @@ void tcd_malloc_encode(opj_tcd_t *tcd, opj_image_t * image, opj_cp_t * cp, int c
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->data = (int *) opj_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->data = (int *) opj_aligned_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->numresolutions = tccp->numresolutions;
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tilec->numresolutions = tccp->numresolutions;
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tilec->resolutions = (opj_tcd_resolution_t *) opj_malloc(tilec->numresolutions * sizeof(opj_tcd_resolution_t));
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tilec->resolutions = (opj_tcd_resolution_t *) opj_malloc(tilec->numresolutions * sizeof(opj_tcd_resolution_t));
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@ -437,7 +437,7 @@ void tcd_init_encode(opj_tcd_t *tcd, opj_image_t * image, opj_cp_t * cp, int cur
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->data = (int *) opj_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->data = (int *) opj_aligned_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->numresolutions = tccp->numresolutions;
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tilec->numresolutions = tccp->numresolutions;
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/* tilec->resolutions=(opj_tcd_resolution_t*)opj_realloc(tilec->resolutions,tilec->numresolutions*sizeof(opj_tcd_resolution_t)); */
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/* tilec->resolutions=(opj_tcd_resolution_t*)opj_realloc(tilec->resolutions,tilec->numresolutions*sizeof(opj_tcd_resolution_t)); */
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for (resno = 0; resno < tilec->numresolutions; resno++) {
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for (resno = 0; resno < tilec->numresolutions; resno++) {
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@ -676,7 +676,7 @@ void tcd_malloc_decode_tile(opj_tcd_t *tcd, opj_image_t * image, opj_cp_t * cp,
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->x1 = int_ceildiv(tile->x1, image->comps[compno].dx);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->y1 = int_ceildiv(tile->y1, image->comps[compno].dy);
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tilec->data = (int *) opj_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->data = (int*) opj_aligned_malloc((tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0) * sizeof(int));
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tilec->numresolutions = tccp->numresolutions;
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tilec->numresolutions = tccp->numresolutions;
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tilec->resolutions = (opj_tcd_resolution_t *) opj_malloc(tilec->numresolutions * sizeof(opj_tcd_resolution_t));
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tilec->resolutions = (opj_tcd_resolution_t *) opj_malloc(tilec->numresolutions * sizeof(opj_tcd_resolution_t));
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@ -1283,7 +1283,7 @@ int tcd_encode_tile(opj_tcd_t *tcd, int tileno, unsigned char *dest, int len, op
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/* cleaning memory */
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/* cleaning memory */
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for (compno = 0; compno < tile->numcomps; compno++) {
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for (compno = 0; compno < tile->numcomps; compno++) {
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opj_tcd_tilecomp_t *tilec = &tile->comps[compno];
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opj_tcd_tilecomp_t *tilec = &tile->comps[compno];
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opj_free(tilec->data);
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opj_aligned_free(tilec->data);
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}
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}
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}
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}
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@ -1403,7 +1403,7 @@ bool tcd_decode_tile(opj_tcd_t *tcd, unsigned char *src, int len, int tileno) {
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opj_event_msg(tcd->cinfo, EVT_INFO, "- tile decoded in %f s\n", tile_time);
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opj_event_msg(tcd->cinfo, EVT_INFO, "- tile decoded in %f s\n", tile_time);
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for (compno = 0; compno < tile->numcomps; compno++) {
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for (compno = 0; compno < tile->numcomps; compno++) {
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opj_free(tcd->tcd_image->tiles[tileno].comps[compno].data);
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opj_aligned_free(tcd->tcd_image->tiles[tileno].comps[compno].data);
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tcd->tcd_image->tiles[tileno].comps[compno].data = NULL;
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tcd->tcd_image->tiles[tileno].comps[compno].data = NULL;
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}
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}
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