int cas ;
} v4dwt_t ;
-static const float dwt_alpha = 1.586134342f; // 12994
-static const float dwt_beta = 0.052980118f; // 434
-static const float dwt_gamma = -0.882911075f; // -7233
-static const float dwt_delta = -0.443506852f; // -3633
+static const float dwt_alpha = 1.586134342f; /* 12994 */
+static const float dwt_beta = 0.052980118f; /* 434 */
+static const float dwt_gamma = -0.882911075f; /* -7233 */
+static const float dwt_delta = -0.443506852f; /* -3633 */
-static const float K = 1.230174105f; // 10078
+static const float K = 1.230174105f; /* 10078 */
/* FIXME: What is this constant? */
static const float c13318 = 1.625732422f;
/**
Inverse wavelet transform in 2-D.
*/
+#ifdef OPJ_V1
static void dwt_decode_tile(opj_tcd_tilecomp_t* tilec, int i, DWT1DFN fn);
+#endif
+static opj_bool dwt_decode_tile(opj_tcd_tilecomp_t* tilec, OPJ_UINT32 i, DWT1DFN fn);
+
+/**
+Inverse wavelet transform in 2-D.
+*/
+static opj_bool dwt_decode_tile_v2(opj_tcd_tilecomp_v2_t* tilec, OPJ_UINT32 i, DWT1DFN fn);
+
+static opj_bool dwt_encode_procedure( opj_tcd_tilecomp_v2_t * tilec,
+ void (*p_function)(OPJ_INT32 *, OPJ_INT32,OPJ_INT32,OPJ_INT32) );
+
+static OPJ_UINT32 dwt_max_resolution_v2(opj_tcd_resolution_v2_t* restrict r, OPJ_UINT32 i);
+
/*@}*/
}
}
+/* <summary> */
+/* Forward 5-3 wavelet transform in 2-D. */
+/* </summary> */
+INLINE opj_bool dwt_encode_procedure(opj_tcd_tilecomp_v2_t * tilec,void (*p_function)(OPJ_INT32 *, OPJ_INT32,OPJ_INT32,OPJ_INT32) )
+{
+ OPJ_INT32 i, j, k;
+ OPJ_INT32 *a = 00;
+ OPJ_INT32 *aj = 00;
+ OPJ_INT32 *bj = 00;
+ OPJ_INT32 w, l;
+
+ OPJ_INT32 rw; /* width of the resolution level computed */
+ OPJ_INT32 rh; /* height of the resolution level computed */
+ OPJ_INT32 l_data_size;
+
+ opj_tcd_resolution_v2_t * l_cur_res = 0;
+ opj_tcd_resolution_v2_t * l_last_res = 0;
+
+ w = tilec->x1-tilec->x0;
+ l = tilec->numresolutions-1;
+ a = tilec->data;
+
+ l_cur_res = tilec->resolutions + l;
+ l_last_res = l_cur_res - 1;
+
+ rw = l_cur_res->x1 - l_cur_res->x0;
+ rh = l_cur_res->y1 - l_cur_res->y0;
+
+ l_data_size = dwt_max_resolution_v2( tilec->resolutions,tilec->numresolutions) * sizeof(OPJ_INT32);
+ bj = (OPJ_INT32*)opj_malloc(l_data_size);
+ if (! bj) {
+ return OPJ_FALSE;
+ }
+ i = l;
+
+ while (i--) {
+ OPJ_INT32 rw1; /* width of the resolution level once lower than computed one */
+ OPJ_INT32 rh1; /* height of the resolution level once lower than computed one */
+ OPJ_INT32 cas_col; /* 0 = non inversion on horizontal filtering 1 = inversion between low-pass and high-pass filtering */
+ OPJ_INT32 cas_row; /* 0 = non inversion on vertical filtering 1 = inversion between low-pass and high-pass filtering */
+ OPJ_INT32 dn, sn;
+
+ rw = l_cur_res->x1 - l_cur_res->x0;
+ rh = l_cur_res->y1 - l_cur_res->y0;
+ rw1 = l_last_res->x1 - l_last_res->x0;
+ rh1 = l_last_res->y1 - l_last_res->y0;
+
+ cas_row = l_cur_res->x0 & 1;
+ cas_col = l_cur_res->y0 & 1;
+
+ sn = rh1;
+ dn = rh - rh1;
+ for (j = 0; j < rw; ++j) {
+ aj = a + j;
+ for (k = 0; k < rh; ++k) {
+ bj[k] = aj[k*w];
+ }
+
+ (*p_function) (bj, dn, sn, cas_col);
+
+ dwt_deinterleave_v(bj, aj, dn, sn, w, cas_col);
+ }
+
+ sn = rw1;
+ dn = rw - rw1;
+ for (j = 0; j < rh; j++) {
+ aj = a + j * w;
+ for (k = 0; k < rw; k++) bj[k] = aj[k];
+ (*p_function) (bj, dn, sn, cas_row);
+ dwt_deinterleave_h(bj, aj, dn, sn, cas_row);
+ }
+
+ l_cur_res = l_last_res;
+
+ --l_last_res;
+ }
+
+ opj_free(bj);
+ return OPJ_TRUE;
+}
+
+/* Forward 5-3 wavelet transform in 2-D. */
+/* </summary> */
+opj_bool dwt_encode_v2(opj_tcd_tilecomp_v2_t * tilec)
+{
+ return dwt_encode_procedure(tilec,dwt_encode_1);
+}
+
+#ifdef OPJ_V1
/* <summary> */
/* Inverse 5-3 wavelet transform in 2-D. */
/* </summary> */
void dwt_decode(opj_tcd_tilecomp_t* tilec, int numres) {
dwt_decode_tile(tilec, numres, &dwt_decode_1);
}
+#endif
+
+/* <summary> */
+/* Inverse 5-3 wavelet transform in 2-D. */
+/* </summary> */
+opj_bool dwt_decode(opj_tcd_tilecomp_t* tilec, OPJ_UINT32 numres) {
+ return dwt_decode_tile(tilec, numres, &dwt_decode_1);
+}
+
+/* <summary> */
+/* Inverse 5-3 wavelet transform in 2-D. */
+/* </summary> */
+opj_bool dwt_decode_v2(opj_tcd_tilecomp_v2_t* tilec, OPJ_UINT32 numres) {
+ return dwt_decode_tile_v2(tilec, numres, &dwt_decode_1);
+}
/* <summary> */
return 2;
}
+/* <summary> */
+/* Get gain of 5-3 wavelet transform. */
+/* </summary> */
+OPJ_UINT32 dwt_getgain_v2(OPJ_UINT32 orient) {
+ if (orient == 0)
+ return 0;
+ if (orient == 1 || orient == 2)
+ return 1;
+ return 2;
+}
+
/* <summary> */
/* Get norm of 5-3 wavelet. */
/* </summary> */
}
}
+/* <summary> */
+/* Forward 9-7 wavelet transform in 2-D. */
+/* </summary> */
+opj_bool dwt_encode_real_v2(opj_tcd_tilecomp_v2_t * tilec)
+{
+ return dwt_encode_procedure(tilec,dwt_encode_1_real);
+}
/* <summary> */
/* Get gain of 9-7 wavelet transform. */
return 0;
}
+/* <summary> */
+/* Get gain of 9-7 wavelet transform. */
+/* </summary> */
+OPJ_UINT32 dwt_getgain_real_v2(OPJ_UINT32 orient) {
+ (void)orient;
+ return 0;
+}
+
/* <summary> */
/* Get norm of 9-7 wavelet. */
/* </summary> */
}
}
-
+#ifdef OPJ_V1
/* <summary> */
/* Determine maximum computed resolution level for inverse wavelet transform */
/* </summary> */
}
return mr ;
}
+#endif
+/* <summary> */
+/* Determine maximum computed resolution level for inverse wavelet transform */
+/* </summary> */
+static OPJ_UINT32 dwt_max_resolution(opj_tcd_resolution_t* restrict r, OPJ_UINT32 i) {
+ OPJ_UINT32 mr = 0;
+ OPJ_UINT32 w;
+ while( --i ) {
+ ++r;
+ if( mr < ( w = r->x1 - r->x0 ) )
+ mr = w ;
+ if( mr < ( w = r->y1 - r->y0 ) )
+ mr = w ;
+ }
+ return mr ;
+}
+/* <summary> */
+/* Determine maximum computed resolution level for inverse wavelet transform */
+/* </summary> */
+static OPJ_UINT32 dwt_max_resolution_v2(opj_tcd_resolution_v2_t* restrict r, OPJ_UINT32 i) {
+ OPJ_UINT32 mr = 0;
+ OPJ_UINT32 w;
+ while( --i ) {
+ ++r;
+ if( mr < ( w = r->x1 - r->x0 ) )
+ mr = w ;
+ if( mr < ( w = r->y1 - r->y0 ) )
+ mr = w ;
+ }
+ return mr ;
+}
+#ifdef OPJ_V1
/* <summary> */
/* Inverse wavelet transform in 2-D. */
/* </summary> */
int w = tilec->x1 - tilec->x0;
- h.mem = (int*)opj_aligned_malloc(dwt_decode_max_resolution(tr, numres) * sizeof(int));
+ h.mem = (int*)opj_aligned_malloc(dwt_max_resolution(tr, numres) * sizeof(int));
v.mem = h.mem;
while( --numres) {
}
opj_aligned_free(h.mem);
}
+#endif
+
+/* <summary> */
+/* Inverse wavelet transform in 2-D. */
+/* </summary> */
+static opj_bool dwt_decode_tile(opj_tcd_tilecomp_t* tilec, OPJ_UINT32 numres, DWT1DFN dwt_1D) {
+ dwt_t h;
+ dwt_t v;
+
+ opj_tcd_resolution_t* tr = tilec->resolutions;
+
+ OPJ_UINT32 rw = tr->x1 - tr->x0; /* width of the resolution level computed */
+ OPJ_UINT32 rh = tr->y1 - tr->y0; /* height of the resolution level computed */
+
+ OPJ_UINT32 w = tilec->x1 - tilec->x0;
+
+ h.mem = (OPJ_INT32*)
+ opj_aligned_malloc(dwt_max_resolution(tr, numres) * sizeof(OPJ_INT32));
+ if
+ (! h.mem)
+ {
+ return OPJ_FALSE;
+ }
+
+ v.mem = h.mem;
+
+ while( --numres) {
+ OPJ_INT32 * restrict tiledp = tilec->data;
+ OPJ_UINT32 j;
+
+ ++tr;
+ h.sn = rw;
+ v.sn = rh;
+
+ rw = tr->x1 - tr->x0;
+ rh = tr->y1 - tr->y0;
+
+ h.dn = rw - h.sn;
+ h.cas = tr->x0 % 2;
+
+ for(j = 0; j < rh; ++j) {
+ dwt_interleave_h(&h, &tiledp[j*w]);
+ (dwt_1D)(&h);
+ memcpy(&tiledp[j*w], h.mem, rw * sizeof(OPJ_INT32));
+ }
+
+ v.dn = rh - v.sn;
+ v.cas = tr->y0 % 2;
+
+ for(j = 0; j < rw; ++j){
+ OPJ_UINT32 k;
+ dwt_interleave_v(&v, &tiledp[j], w);
+ (dwt_1D)(&v);
+ for(k = 0; k < rh; ++k) {
+ tiledp[k * w + j] = v.mem[k];
+ }
+ }
+ }
+ opj_aligned_free(h.mem);
+ return OPJ_TRUE;
+}
+
+/* <summary> */
+/* Inverse wavelet transform in 2-D. */
+/* </summary> */
+static opj_bool dwt_decode_tile_v2(opj_tcd_tilecomp_v2_t* tilec, OPJ_UINT32 numres, DWT1DFN dwt_1D) {
+ dwt_t h;
+ dwt_t v;
+
+ opj_tcd_resolution_v2_t* tr = tilec->resolutions;
+
+ OPJ_UINT32 rw = tr->x1 - tr->x0; /* width of the resolution level computed */
+ OPJ_UINT32 rh = tr->y1 - tr->y0; /* height of the resolution level computed */
+
+ OPJ_UINT32 w = tilec->x1 - tilec->x0;
+
+ h.mem = (OPJ_INT32*)
+ opj_aligned_malloc(dwt_max_resolution_v2(tr, numres) * sizeof(OPJ_INT32));
+ if
+ (! h.mem)
+ {
+ return OPJ_FALSE;
+ }
+
+ v.mem = h.mem;
+
+ while( --numres) {
+ OPJ_INT32 * restrict tiledp = tilec->data;
+ OPJ_UINT32 j;
+
+ ++tr;
+ h.sn = rw;
+ v.sn = rh;
+
+ rw = tr->x1 - tr->x0;
+ rh = tr->y1 - tr->y0;
+
+ h.dn = rw - h.sn;
+ h.cas = tr->x0 % 2;
+
+ for(j = 0; j < rh; ++j) {
+ dwt_interleave_h(&h, &tiledp[j*w]);
+ (dwt_1D)(&h);
+ memcpy(&tiledp[j*w], h.mem, rw * sizeof(OPJ_INT32));
+ }
+
+ v.dn = rh - v.sn;
+ v.cas = tr->y0 % 2;
+
+ for(j = 0; j < rw; ++j){
+ OPJ_UINT32 k;
+ dwt_interleave_v(&v, &tiledp[j], w);
+ (dwt_1D)(&v);
+ for(k = 0; k < rh; ++k) {
+ tiledp[k * w + j] = v.mem[k];
+ }
+ }
+ }
+ opj_aligned_free(h.mem);
+ return OPJ_TRUE;
+}
static void v4dwt_interleave_h(v4dwt_t* restrict w, float* restrict a, int x, int size){
float* restrict bi = (float*) (w->wavelet + w->cas);
int count = w->sn;
int i, k;
+
for(k = 0; k < 2; ++k){
- if (count + 3 * x < size && ((size_t) a & 0x0f) == 0 && ((size_t) bi & 0x0f) == 0 && (x & 0x0f) == 0) {
+ if ( count + 3 * x < size && ((size_t) a & 0x0f) == 0 && ((size_t) bi & 0x0f) == 0 && (x & 0x0f) == 0 ) {
/* Fast code path */
for(i = 0; i < count; ++i){
int j = i;
j += x;
bi[i*8 + 3] = a[j];
}
- } else {
- /* Slow code path */
- for(i = 0; i < count; ++i){
- int j = i;
- bi[i*8 ] = a[j];
- j += x;
- if(j > size) continue;
- bi[i*8 + 1] = a[j];
- j += x;
- if(j > size) continue;
- bi[i*8 + 2] = a[j];
- j += x;
- if(j > size) continue;
- bi[i*8 + 3] = a[j];
}
+ else {
+ /* Slow code path */
+ for(i = 0; i < count; ++i){
+ int j = i;
+ bi[i*8 ] = a[j];
+ j += x;
+ if(j >= size) continue;
+ bi[i*8 + 1] = a[j];
+ j += x;
+ if(j >= size) continue;
+ bi[i*8 + 2] = a[j];
+ j += x;
+ if(j >= size) continue;
+ bi[i*8 + 3] = a[j]; /* This one*/
+ }
}
+
bi = (float*) (w->wavelet + 1 - w->cas);
a += w->sn;
size -= w->sn;
}
}
-static void v4dwt_interleave_v(v4dwt_t* restrict v , float* restrict a , int x){
+static void v4dwt_interleave_v(v4dwt_t* restrict v , float* restrict a , int x, int nb_elts_read){
v4* restrict bi = v->wavelet + v->cas;
int i;
+
for(i = 0; i < v->sn; ++i){
- memcpy(&bi[i*2], &a[i*x], 4 * sizeof(float));
+ memcpy(&bi[i*2], &a[i*x], nb_elts_read * sizeof(float));
}
+
a += v->sn * x;
bi = v->wavelet + 1 - v->cas;
+
for(i = 0; i < v->dn; ++i){
- memcpy(&bi[i*2], &a[i*x], 4 * sizeof(float));
+ memcpy(&bi[i*2], &a[i*x], nb_elts_read * sizeof(float));
}
}
#endif
}
+
+/* KEEP TRUNK VERSION + return type of v2 because rev557 */
/* <summary> */
/* Inverse 9-7 wavelet transform in 2-D. */
/* </summary> */
-void dwt_decode_real(opj_tcd_tilecomp_t* restrict tilec, int numres){
+/* V1 void dwt_decode_real(opj_tcd_tilecomp_t* restrict tilec, int numres){ */
+opj_bool dwt_decode_real(opj_tcd_tilecomp_t* restrict tilec, int numres){
v4dwt_t h;
v4dwt_t v;
int w = tilec->x1 - tilec->x0;
- h.wavelet = (v4*) opj_aligned_malloc((dwt_decode_max_resolution(res, numres)+5) * sizeof(v4));
+ h.wavelet = (v4*) opj_aligned_malloc((dwt_max_resolution(res, numres)+5) * sizeof(v4));
v.wavelet = h.wavelet;
while( --numres) {
aj = (float*) tilec->data;
for(j = rw; j > 3; j -= 4){
int k;
- v4dwt_interleave_v(&v, aj, w);
+ v4dwt_interleave_v(&v, aj, w, 4);
v4dwt_decode(&v);
for(k = 0; k < rh; ++k){
memcpy(&aj[k*w], &v.wavelet[k], 4 * sizeof(float));
if (rw & 0x03){
int k;
j = rw & 0x03;
- v4dwt_interleave_v(&v, aj, w);
+ v4dwt_interleave_v(&v, aj, w, j);
v4dwt_decode(&v);
for(k = 0; k < rh; ++k){
memcpy(&aj[k*w], &v.wavelet[k], j * sizeof(float));
}
opj_aligned_free(h.wavelet);
+ return OPJ_TRUE;
}
+
+/* <summary> */
+/* Inverse 9-7 wavelet transform in 2-D. */
+/* </summary> */
+opj_bool dwt_decode_real_v2(opj_tcd_tilecomp_v2_t* restrict tilec, OPJ_UINT32 numres){
+ v4dwt_t h;
+ v4dwt_t v;
+
+ opj_tcd_resolution_v2_t* res = tilec->resolutions;
+
+ OPJ_UINT32 rw = res->x1 - res->x0; /* width of the resolution level computed */
+ OPJ_UINT32 rh = res->y1 - res->y0; /* height of the resolution level computed */
+
+ OPJ_UINT32 w = tilec->x1 - tilec->x0;
+
+ h.wavelet = (v4*) opj_aligned_malloc((dwt_max_resolution_v2(res, numres)+5) * sizeof(v4));
+ v.wavelet = h.wavelet;
+
+ while( --numres) {
+ OPJ_FLOAT32 * restrict aj = (OPJ_FLOAT32*) tilec->data;
+ OPJ_UINT32 bufsize = (tilec->x1 - tilec->x0) * (tilec->y1 - tilec->y0);
+ OPJ_INT32 j;
+
+ h.sn = rw;
+ v.sn = rh;
+
+ ++res;
+
+ rw = res->x1 - res->x0; /* width of the resolution level computed */
+ rh = res->y1 - res->y0; /* height of the resolution level computed */
+
+ h.dn = rw - h.sn;
+ h.cas = res->x0 % 2;
+
+ for(j = rh; j > 3; j -= 4) {
+ OPJ_INT32 k;
+ v4dwt_interleave_h(&h, aj, w, bufsize);
+ v4dwt_decode(&h);
+
+ for(k = rw; --k >= 0;){
+ aj[k ] = h.wavelet[k].f[0];
+ aj[k+w ] = h.wavelet[k].f[1];
+ aj[k+w*2] = h.wavelet[k].f[2];
+ aj[k+w*3] = h.wavelet[k].f[3];
+ }
+
+ aj += w*4;
+ bufsize -= w*4;
+ }
+
+ if (rh & 0x03) {
+ int k;
+ j = rh & 0x03;
+ v4dwt_interleave_h(&h, aj, w, bufsize);
+ v4dwt_decode(&h);
+ for(k = rw; --k >= 0;){
+ switch(j) {
+ case 3: aj[k+w*2] = h.wavelet[k].f[2];
+ case 2: aj[k+w ] = h.wavelet[k].f[1];
+ case 1: aj[k ] = h.wavelet[k].f[0];
+ }
+ }
+ }
+
+ v.dn = rh - v.sn;
+ v.cas = res->y0 % 2;
+
+ aj = (OPJ_FLOAT32*) tilec->data;
+ for(j = rw; j > 3; j -= 4){
+ OPJ_INT32 k;
+
+ v4dwt_interleave_v(&v, aj, w, 4);
+ v4dwt_decode(&v);
+
+ for(k = 0; k < rh; ++k){
+ memcpy(&aj[k*w], &v.wavelet[k], 4 * sizeof(OPJ_FLOAT32));
+ }
+ aj += 4;
+ }
+
+ if (rw & 0x03){
+ OPJ_INT32 k;
+
+ j = rw & 0x03;
+
+ v4dwt_interleave_v(&v, aj, w, j);
+ v4dwt_decode(&v);
+
+ for(k = 0; k < rh; ++k){
+ memcpy(&aj[k*w], &v.wavelet[k], j * sizeof(OPJ_FLOAT32));
+ }
+ }
+ }
+
+ opj_aligned_free(h.wavelet);
+ return OPJ_TRUE;
+}