diff options
author | Nicolas Pena <npm@chromium.org> | 2017-10-23 10:30:46 -0400 |
---|---|---|
committer | Chromium commit bot <commit-bot@chromium.org> | 2017-10-23 22:40:23 +0000 |
commit | 826480cf599f61fe0366ab2bd5803dd53c9d0562 (patch) | |
tree | d42bca4255a2ecf484b8498b08c6132dbcffe86a /third_party/libopenjpeg20/dwt.c | |
parent | ebdba614b9683ddd1d50e8960639bc54c9d4bb7a (diff) | |
download | pdfium-826480cf599f61fe0366ab2bd5803dd53c9d0562.tar.xz |
Upgrade LibopenJPEG to 2.3chromium/3249
Bug:
Change-Id: I4c968a4e5f41037d80e5dc64a1297cd2cbda31b1
Reviewed-on: https://pdfium-review.googlesource.com/16350
Reviewed-by: dsinclair <dsinclair@chromium.org>
Commit-Queue: Nicolás Peña Moreno <npm@chromium.org>
Diffstat (limited to 'third_party/libopenjpeg20/dwt.c')
-rw-r--r-- | third_party/libopenjpeg20/dwt.c | 1438 |
1 files changed, 1236 insertions, 202 deletions
diff --git a/third_party/libopenjpeg20/dwt.c b/third_party/libopenjpeg20/dwt.c index 8bf23b6d60..1455ee84a1 100644 --- a/third_party/libopenjpeg20/dwt.c +++ b/third_party/libopenjpeg20/dwt.c @@ -80,9 +80,9 @@ typedef struct dwt_local { OPJ_INT32* mem; OPJ_SIZE_T mem_count; - OPJ_INT32 dn; - OPJ_INT32 sn; - OPJ_INT32 cas; + OPJ_INT32 dn; /* number of elements in high pass band */ + OPJ_INT32 sn; /* number of elements in low pass band */ + OPJ_INT32 cas; /* 0 = start on even coord, 1 = start on odd coord */ } opj_dwt_t; typedef union { @@ -91,9 +91,13 @@ typedef union { typedef struct v4dwt_local { opj_v4_t* wavelet ; - OPJ_INT32 dn ; - OPJ_INT32 sn ; - OPJ_INT32 cas ; + OPJ_INT32 dn ; /* number of elements in high pass band */ + OPJ_INT32 sn ; /* number of elements in low pass band */ + OPJ_INT32 cas ; /* 0 = start on even coord, 1 = start on odd coord */ + OPJ_UINT32 win_l_x0; /* start coord in low pass band */ + OPJ_UINT32 win_l_x1; /* end coord in low pass band */ + OPJ_UINT32 win_h_x0; /* start coord in high pass band */ + OPJ_UINT32 win_h_x1; /* end coord in high pass band */ } opj_v4dwt_t ; static const OPJ_FLOAT32 opj_dwt_alpha = 1.586134342f; /* 12994 */ @@ -129,13 +133,13 @@ Forward 5-3 wavelet transform in 1-D */ static void opj_dwt_encode_1(OPJ_INT32 *a, OPJ_SIZE_T a_count, OPJ_INT32 dn, OPJ_INT32 sn, OPJ_INT32 cas); - /** Forward 9-7 wavelet transform in 1-D */ static void opj_dwt_encode_1_real(OPJ_INT32 *a, OPJ_SIZE_T a_count, OPJ_INT32 dn, OPJ_INT32 sn, OPJ_INT32 cas); + /** Explicit calculation of the Quantization Stepsizes */ @@ -147,6 +151,10 @@ Inverse wavelet transform in 2-D. static OPJ_BOOL opj_dwt_decode_tile(opj_thread_pool_t* tp, const opj_tcd_tilecomp_t* tilec, OPJ_UINT32 i); +static OPJ_BOOL opj_dwt_decode_partial_tile( + opj_tcd_tilecomp_t* tilec, + OPJ_UINT32 numres); + static OPJ_BOOL opj_dwt_encode_procedure(const opj_tcd_tilecomp_t * tilec, void(*p_function)(OPJ_INT32 *, OPJ_SIZE_T, OPJ_INT32, OPJ_INT32, OPJ_INT32)); @@ -158,25 +166,38 @@ static OPJ_UINT32 opj_dwt_max_resolution(opj_tcd_resolution_t* OPJ_RESTRICT r, /* </summary> */ static void opj_v4dwt_decode(opj_v4dwt_t* OPJ_RESTRICT dwt); -static void opj_v4dwt_interleave_h(opj_v4dwt_t* OPJ_RESTRICT w, - OPJ_FLOAT32* OPJ_RESTRICT a, OPJ_INT32 x, OPJ_INT32 size); +static void opj_v4dwt_interleave_h(opj_v4dwt_t* OPJ_RESTRICT dwt, + OPJ_FLOAT32* OPJ_RESTRICT a, + OPJ_UINT32 width, + OPJ_UINT32 remaining_height); -static void opj_v4dwt_interleave_v(opj_v4dwt_t* OPJ_RESTRICT v, - OPJ_FLOAT32* OPJ_RESTRICT a, OPJ_INT32 x, OPJ_INT32 nb_elts_read); +static void opj_v4dwt_interleave_v(opj_v4dwt_t* OPJ_RESTRICT dwt, + OPJ_FLOAT32* OPJ_RESTRICT a, + OPJ_UINT32 width, + OPJ_UINT32 nb_elts_read); #ifdef __SSE__ -static void opj_v4dwt_decode_step1_sse(opj_v4_t* w, OPJ_INT32 count, +static void opj_v4dwt_decode_step1_sse(opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, const __m128 c); -static void opj_v4dwt_decode_step2_sse(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, - OPJ_INT32 m, __m128 c); +static void opj_v4dwt_decode_step2_sse(opj_v4_t* l, opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, + OPJ_UINT32 m, __m128 c); #else -static void opj_v4dwt_decode_step1(opj_v4_t* w, OPJ_INT32 count, +static void opj_v4dwt_decode_step1(opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, const OPJ_FLOAT32 c); -static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, - OPJ_INT32 m, OPJ_FLOAT32 c); +static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, + OPJ_UINT32 m, + OPJ_FLOAT32 c); #endif @@ -202,6 +223,8 @@ static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, /* <summary> */ /* This table contains the norms of the 5-3 wavelets for different bands. */ /* </summary> */ +/* FIXME! the array should really be extended up to 33 resolution levels */ +/* See https://github.com/uclouvain/openjpeg/issues/493 */ static const OPJ_FLOAT64 opj_dwt_norms[4][10] = { {1.000, 1.500, 2.750, 5.375, 10.68, 21.34, 42.67, 85.33, 170.7, 341.3}, {1.038, 1.592, 2.919, 5.703, 11.33, 22.64, 45.25, 90.48, 180.9}, @@ -212,6 +235,8 @@ static const OPJ_FLOAT64 opj_dwt_norms[4][10] = { /* <summary> */ /* This table contains the norms of the 9-7 wavelets for different bands. */ /* </summary> */ +/* FIXME! the array should really be extended up to 33 resolution levels */ +/* See https://github.com/uclouvain/openjpeg/issues/493 */ static const OPJ_FLOAT64 opj_dwt_norms_real[4][10] = { {1.000, 1.965, 4.177, 8.403, 16.90, 33.84, 67.69, 135.3, 270.6, 540.9}, {2.022, 3.989, 8.355, 17.04, 34.27, 68.63, 137.3, 274.6, 549.0}, @@ -265,7 +290,7 @@ static void opj_dwt_deinterleave_v(OPJ_INT32 *a, OPJ_INT32 *b, OPJ_INT32 dn, l_src += 2; } /* b[i*x]=a[2*i+cas]; */ - l_dest = b + sn * x; + l_dest = b + (OPJ_SIZE_T)sn * (OPJ_SIZE_T)x; l_src = a + 1 - cas; i = dn; @@ -311,7 +336,7 @@ static void opj_dwt_interleave_v(const opj_dwt_t* v, OPJ_INT32 *a, OPJ_INT32 x) bi += 2; ai += x; } - ai = a + (v->sn * x); + ai = a + (v->sn * (OPJ_SIZE_T)x); bi = v->mem + 1 - v->cas; i = v->dn ; while (i--) { @@ -602,7 +627,7 @@ static void opj_idwt53_v_final_memcpy(OPJ_INT32* tiledp_col, const OPJ_INT32* tmp, OPJ_INT32 len, - OPJ_INT32 stride) + OPJ_SIZE_T stride) { OPJ_INT32 i; for (i = 0; i < len; ++i) { @@ -611,9 +636,9 @@ void opj_idwt53_v_final_memcpy(OPJ_INT32* tiledp_col, PARALLEL_COLS_53 * sizeof(OPJ_INT32)) would do but would be a tiny bit slower. We can take here advantage of our knowledge of alignment */ - STOREU(&tiledp_col[i * stride + 0], + STOREU(&tiledp_col[(OPJ_SIZE_T)i * stride + 0], LOAD(&tmp[PARALLEL_COLS_53 * i + 0])); - STOREU(&tiledp_col[i * stride + VREG_INT_COUNT], + STOREU(&tiledp_col[(OPJ_SIZE_T)i * stride + VREG_INT_COUNT], LOAD(&tmp[PARALLEL_COLS_53 * i + VREG_INT_COUNT])); } } @@ -625,12 +650,13 @@ static void opj_idwt53_v_cas0_mcols_SSE2_OR_AVX2( const OPJ_INT32 sn, const OPJ_INT32 len, OPJ_INT32* tiledp_col, - const OPJ_INT32 stride) + const OPJ_SIZE_T stride) { const OPJ_INT32* in_even = &tiledp_col[0]; - const OPJ_INT32* in_odd = &tiledp_col[sn * stride]; + const OPJ_INT32* in_odd = &tiledp_col[(OPJ_SIZE_T)sn * stride]; - OPJ_INT32 i, j; + OPJ_INT32 i; + OPJ_SIZE_T j; VREG d1c_0, d1n_0, s1n_0, s0c_0, s0n_0; VREG d1c_1, d1n_1, s1n_1, s0c_1, s0n_1; const VREG two = LOAD_CST(2); @@ -647,7 +673,7 @@ static void opj_idwt53_v_cas0_mcols_SSE2_OR_AVX2( /* Note: loads of input even/odd values must be done in a unaligned */ /* fashion. But stores in tmp can be done with aligned store, since */ /* the temporary buffer is properly aligned */ - assert((size_t)tmp % (sizeof(OPJ_INT32) * VREG_INT_COUNT) == 0); + assert((OPJ_SIZE_T)tmp % (sizeof(OPJ_INT32) * VREG_INT_COUNT) == 0); s1n_0 = LOADU(in_even + 0); s1n_1 = LOADU(in_even + VREG_INT_COUNT); @@ -689,7 +715,7 @@ static void opj_idwt53_v_cas0_mcols_SSE2_OR_AVX2( if (len & 1) { VREG tmp_len_minus_1; - s1n_0 = LOADU(in_even + ((len - 1) / 2) * stride); + s1n_0 = LOADU(in_even + (OPJ_SIZE_T)((len - 1) / 2) * stride); /* tmp_len_minus_1 = s1n - ((d1n + 1) >> 1); */ tmp_len_minus_1 = SUB(s1n_0, SAR(ADD3(d1n_0, d1n_0, two), 2)); STORE(tmp + PARALLEL_COLS_53 * (len - 1), tmp_len_minus_1); @@ -697,7 +723,7 @@ static void opj_idwt53_v_cas0_mcols_SSE2_OR_AVX2( STORE(tmp + PARALLEL_COLS_53 * (len - 2), ADD(d1n_0, SAR(ADD(s0n_0, tmp_len_minus_1), 1))); - s1n_1 = LOADU(in_even + ((len - 1) / 2) * stride + VREG_INT_COUNT); + s1n_1 = LOADU(in_even + (OPJ_SIZE_T)((len - 1) / 2) * stride + VREG_INT_COUNT); /* tmp_len_minus_1 = s1n - ((d1n + 1) >> 1); */ tmp_len_minus_1 = SUB(s1n_1, SAR(ADD3(d1n_1, d1n_1, two), 2)); STORE(tmp + PARALLEL_COLS_53 * (len - 1) + VREG_INT_COUNT, @@ -725,15 +751,16 @@ static void opj_idwt53_v_cas1_mcols_SSE2_OR_AVX2( const OPJ_INT32 sn, const OPJ_INT32 len, OPJ_INT32* tiledp_col, - const OPJ_INT32 stride) + const OPJ_SIZE_T stride) { - OPJ_INT32 i, j; + OPJ_INT32 i; + OPJ_SIZE_T j; VREG s1_0, s2_0, dc_0, dn_0; VREG s1_1, s2_1, dc_1, dn_1; const VREG two = LOAD_CST(2); - const OPJ_INT32* in_even = &tiledp_col[sn * stride]; + const OPJ_INT32* in_even = &tiledp_col[(OPJ_SIZE_T)sn * stride]; const OPJ_INT32* in_odd = &tiledp_col[0]; assert(len > 2); @@ -748,7 +775,7 @@ static void opj_idwt53_v_cas1_mcols_SSE2_OR_AVX2( /* Note: loads of input even/odd values must be done in a unaligned */ /* fashion. But stores in tmp can be done with aligned store, since */ /* the temporary buffer is properly aligned */ - assert((size_t)tmp % (sizeof(OPJ_INT32) * VREG_INT_COUNT) == 0); + assert((OPJ_SIZE_T)tmp % (sizeof(OPJ_INT32) * VREG_INT_COUNT) == 0); s1_0 = LOADU(in_even + stride); /* in_odd[0] - ((in_even[0] + s1 + 2) >> 2); */ @@ -793,9 +820,9 @@ static void opj_idwt53_v_cas1_mcols_SSE2_OR_AVX2( if (!(len & 1)) { /*dn = in_odd[(len / 2 - 1) * stride] - ((s1 + 1) >> 1); */ - dn_0 = SUB(LOADU(in_odd + (len / 2 - 1) * stride), + dn_0 = SUB(LOADU(in_odd + (OPJ_SIZE_T)(len / 2 - 1) * stride), SAR(ADD3(s1_0, s1_0, two), 2)); - dn_1 = SUB(LOADU(in_odd + (len / 2 - 1) * stride + VREG_INT_COUNT), + dn_1 = SUB(LOADU(in_odd + (OPJ_SIZE_T)(len / 2 - 1) * stride + VREG_INT_COUNT), SAR(ADD3(s1_1, s1_1, two), 2)); /* tmp[len - 2] = s1 + ((dn + dc) >> 1); */ @@ -835,7 +862,7 @@ static void opj_idwt3_v_cas0(OPJ_INT32* tmp, const OPJ_INT32 sn, const OPJ_INT32 len, OPJ_INT32* tiledp_col, - const OPJ_INT32 stride) + const OPJ_SIZE_T stride) { OPJ_INT32 i, j; OPJ_INT32 d1c, d1n, s1n, s0c, s0n; @@ -846,15 +873,15 @@ static void opj_idwt3_v_cas0(OPJ_INT32* tmp, /* accesses and explicit interleaving. */ s1n = tiledp_col[0]; - d1n = tiledp_col[sn * stride]; + d1n = tiledp_col[(OPJ_SIZE_T)sn * stride]; s0n = s1n - ((d1n + 1) >> 1); for (i = 0, j = 0; i < (len - 3); i += 2, j++) { d1c = d1n; s0c = s0n; - s1n = tiledp_col[(j + 1) * stride]; - d1n = tiledp_col[(sn + j + 1) * stride]; + s1n = tiledp_col[(OPJ_SIZE_T)(j + 1) * stride]; + d1n = tiledp_col[(OPJ_SIZE_T)(sn + j + 1) * stride]; s0n = s1n - ((d1c + d1n + 2) >> 2); @@ -866,7 +893,7 @@ static void opj_idwt3_v_cas0(OPJ_INT32* tmp, if (len & 1) { tmp[len - 1] = - tiledp_col[((len - 1) / 2) * stride] - + tiledp_col[(OPJ_SIZE_T)((len - 1) / 2) * stride] - ((d1n + 1) >> 1); tmp[len - 2] = d1n + ((s0n + tmp[len - 1]) >> 1); } else { @@ -874,7 +901,7 @@ static void opj_idwt3_v_cas0(OPJ_INT32* tmp, } for (i = 0; i < len; ++i) { - tiledp_col[i * stride] = tmp[i]; + tiledp_col[(OPJ_SIZE_T)i * stride] = tmp[i]; } } @@ -885,11 +912,11 @@ static void opj_idwt3_v_cas1(OPJ_INT32* tmp, const OPJ_INT32 sn, const OPJ_INT32 len, OPJ_INT32* tiledp_col, - const OPJ_INT32 stride) + const OPJ_SIZE_T stride) { OPJ_INT32 i, j; OPJ_INT32 s1, s2, dc, dn; - const OPJ_INT32* in_even = &tiledp_col[sn * stride]; + const OPJ_INT32* in_even = &tiledp_col[(OPJ_SIZE_T)sn * stride]; const OPJ_INT32* in_odd = &tiledp_col[0]; assert(len > 2); @@ -902,9 +929,9 @@ static void opj_idwt3_v_cas1(OPJ_INT32* tmp, tmp[0] = in_even[0] + dc; for (i = 1, j = 1; i < (len - 2 - !(len & 1)); i += 2, j++) { - s2 = in_even[(j + 1) * stride]; + s2 = in_even[(OPJ_SIZE_T)(j + 1) * stride]; - dn = in_odd[j * stride] - ((s1 + s2 + 2) >> 2); + dn = in_odd[(OPJ_SIZE_T)j * stride] - ((s1 + s2 + 2) >> 2); tmp[i ] = dc; tmp[i + 1] = s1 + ((dn + dc) >> 1); @@ -913,7 +940,7 @@ static void opj_idwt3_v_cas1(OPJ_INT32* tmp, } tmp[i] = dc; if (!(len & 1)) { - dn = in_odd[(len / 2 - 1) * stride] - ((s1 + 1) >> 1); + dn = in_odd[(OPJ_SIZE_T)(len / 2 - 1) * stride] - ((s1 + 1) >> 1); tmp[len - 2] = s1 + ((dn + dc) >> 1); tmp[len - 1] = dn; } else { @@ -921,7 +948,7 @@ static void opj_idwt3_v_cas1(OPJ_INT32* tmp, } for (i = 0; i < len; ++i) { - tiledp_col[i * stride] = tmp[i]; + tiledp_col[(OPJ_SIZE_T)i * stride] = tmp[i]; } } #endif /* !defined(STANDARD_SLOW_VERSION) */ @@ -932,7 +959,7 @@ static void opj_idwt3_v_cas1(OPJ_INT32* tmp, /* Performs interleave, inverse wavelet transform and copy back to buffer */ static void opj_idwt53_v(const opj_dwt_t *dwt, OPJ_INT32* tiledp_col, - OPJ_INT32 stride, + OPJ_SIZE_T stride, OPJ_INT32 nb_cols) { #ifdef STANDARD_SLOW_VERSION @@ -980,14 +1007,14 @@ static void opj_idwt53_v(const opj_dwt_t *dwt, OPJ_INT32* out = dwt->mem; for (c = 0; c < nb_cols; c++, tiledp_col++) { OPJ_INT32 i; - const OPJ_INT32* in_even = &tiledp_col[sn * stride]; + const OPJ_INT32* in_even = &tiledp_col[(OPJ_SIZE_T)sn * stride]; const OPJ_INT32* in_odd = &tiledp_col[0]; out[1] = in_odd[0] - ((in_even[0] + 1) >> 1); out[0] = in_even[0] + out[1]; for (i = 0; i < len; ++i) { - tiledp_col[i * stride] = out[i]; + tiledp_col[(OPJ_SIZE_T)i * stride] = out[i]; } } @@ -1097,8 +1124,8 @@ static INLINE OPJ_BOOL opj_dwt_encode_procedure(const opj_tcd_tilecomp_t * tilec OPJ_INT32 rw; /* width of the resolution level computed */ OPJ_INT32 rh; /* height of the resolution level computed */ - size_t l_data_count; - size_t l_data_size; + OPJ_SIZE_T l_data_count; + OPJ_SIZE_T l_data_size; opj_tcd_resolution_t * l_cur_res = 0; opj_tcd_resolution_t * l_last_res = 0; @@ -1184,10 +1211,14 @@ OPJ_BOOL opj_dwt_encode(opj_tcd_tilecomp_t * tilec) /* <summary> */ /* Inverse 5-3 wavelet transform in 2-D. */ /* </summary> */ -OPJ_BOOL opj_dwt_decode(opj_thread_pool_t* tp, opj_tcd_tilecomp_t* tilec, +OPJ_BOOL opj_dwt_decode(opj_tcd_t *p_tcd, opj_tcd_tilecomp_t* tilec, OPJ_UINT32 numres) { - return opj_dwt_decode_tile(tp, tilec, numres); + if (p_tcd->whole_tile_decoding) { + return opj_dwt_decode_tile(p_tcd->thread_pool, tilec, numres); + } else { + return opj_dwt_decode_partial_tile(tilec, numres); + } } @@ -1210,6 +1241,14 @@ OPJ_UINT32 opj_dwt_getgain(OPJ_UINT32 orient) /* </summary> */ OPJ_FLOAT64 opj_dwt_getnorm(OPJ_UINT32 level, OPJ_UINT32 orient) { + /* FIXME ! This is just a band-aid to avoid a buffer overflow */ + /* but the array should really be extended up to 33 resolution levels */ + /* See https://github.com/uclouvain/openjpeg/issues/493 */ + if (orient == 0 && level >= 10) { + level = 9; + } else if (orient > 0 && level >= 9) { + level = 8; + } return opj_dwt_norms[orient][level]; } @@ -1235,6 +1274,14 @@ OPJ_UINT32 opj_dwt_getgain_real(OPJ_UINT32 orient) /* </summary> */ OPJ_FLOAT64 opj_dwt_getnorm_real(OPJ_UINT32 level, OPJ_UINT32 orient) { + /* FIXME ! This is just a band-aid to avoid a buffer overflow */ + /* but the array should really be extended up to 33 resolution levels */ + /* See https://github.com/uclouvain/openjpeg/issues/493 */ + if (orient == 0 && level >= 10) { + level = 9; + } else if (orient > 0 && level >= 9) { + level = 8; + } return opj_dwt_norms_real[orient][level]; } @@ -1324,11 +1371,11 @@ static void opj_dwt_decode_v_func(void* user_data, opj_tls_t* tls) job = (opj_dwd_decode_v_job_t*)user_data; for (j = job->min_j; j + PARALLEL_COLS_53 <= job->max_j; j += PARALLEL_COLS_53) { - opj_idwt53_v(&job->v, &job->tiledp[j], (OPJ_INT32)job->w, + opj_idwt53_v(&job->v, &job->tiledp[j], (OPJ_SIZE_T)job->w, PARALLEL_COLS_53); } if (j < job->max_j) - opj_idwt53_v(&job->v, &job->tiledp[j], (OPJ_INT32)job->w, + opj_idwt53_v(&job->v, &job->tiledp[j], (OPJ_SIZE_T)job->w, (OPJ_INT32)(job->max_j - j)); opj_aligned_free(job->v.mem); @@ -1352,8 +1399,10 @@ static OPJ_BOOL opj_dwt_decode_tile(opj_thread_pool_t* tp, OPJ_UINT32 rh = (OPJ_UINT32)(tr->y1 - tr->y0); /* height of the resolution level computed */ - OPJ_UINT32 w = (OPJ_UINT32)(tilec->x1 - tilec->x0); - size_t h_mem_size; + OPJ_UINT32 w = (OPJ_UINT32)(tilec->resolutions[tilec->minimum_num_resolutions - + 1].x1 - + tilec->resolutions[tilec->minimum_num_resolutions - 1].x0); + OPJ_SIZE_T h_mem_size; int num_threads; if (numres == 1U) { @@ -1395,7 +1444,7 @@ static OPJ_BOOL opj_dwt_decode_tile(opj_thread_pool_t* tp, if (num_threads <= 1 || rh <= 1) { for (j = 0; j < rh; ++j) { - opj_idwt53_h(&h, &tiledp[j * w]); + opj_idwt53_h(&h, &tiledp[(OPJ_SIZE_T)j * w]); } } else { OPJ_UINT32 num_jobs = (OPJ_UINT32)num_threads; @@ -1447,10 +1496,10 @@ static OPJ_BOOL opj_dwt_decode_tile(opj_thread_pool_t* tp, if (num_threads <= 1 || rw <= 1) { for (j = 0; j + PARALLEL_COLS_53 <= rw; j += PARALLEL_COLS_53) { - opj_idwt53_v(&v, &tiledp[j], (OPJ_INT32)w, PARALLEL_COLS_53); + opj_idwt53_v(&v, &tiledp[j], (OPJ_SIZE_T)w, PARALLEL_COLS_53); } if (j < rw) { - opj_idwt53_v(&v, &tiledp[j], (OPJ_INT32)w, (OPJ_INT32)(rw - j)); + opj_idwt53_v(&v, &tiledp[j], (OPJ_SIZE_T)w, (OPJ_INT32)(rw - j)); } } else { OPJ_UINT32 num_jobs = (OPJ_UINT32)num_threads; @@ -1500,136 +1549,849 @@ static OPJ_BOOL opj_dwt_decode_tile(opj_thread_pool_t* tp, return OPJ_TRUE; } -static void opj_v4dwt_interleave_h(opj_v4dwt_t* OPJ_RESTRICT w, - OPJ_FLOAT32* OPJ_RESTRICT a, OPJ_INT32 x, OPJ_INT32 size) +static void opj_dwt_interleave_partial_h(OPJ_INT32 *dest, + OPJ_INT32 cas, + opj_sparse_array_int32_t* sa, + OPJ_UINT32 sa_line, + OPJ_UINT32 sn, + OPJ_UINT32 win_l_x0, + OPJ_UINT32 win_l_x1, + OPJ_UINT32 win_h_x0, + OPJ_UINT32 win_h_x1) +{ + OPJ_BOOL ret; + ret = opj_sparse_array_int32_read(sa, + win_l_x0, sa_line, + win_l_x1, sa_line + 1, + dest + cas + 2 * win_l_x0, + 2, 0, OPJ_TRUE); + assert(ret); + ret = opj_sparse_array_int32_read(sa, + sn + win_h_x0, sa_line, + sn + win_h_x1, sa_line + 1, + dest + 1 - cas + 2 * win_h_x0, + 2, 0, OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); +} + + +static void opj_dwt_interleave_partial_v(OPJ_INT32 *dest, + OPJ_INT32 cas, + opj_sparse_array_int32_t* sa, + OPJ_UINT32 sa_col, + OPJ_UINT32 nb_cols, + OPJ_UINT32 sn, + OPJ_UINT32 win_l_y0, + OPJ_UINT32 win_l_y1, + OPJ_UINT32 win_h_y0, + OPJ_UINT32 win_h_y1) +{ + OPJ_BOOL ret; + ret = opj_sparse_array_int32_read(sa, + sa_col, win_l_y0, + sa_col + nb_cols, win_l_y1, + dest + cas * 4 + 2 * 4 * win_l_y0, + 1, 2 * 4, OPJ_TRUE); + assert(ret); + ret = opj_sparse_array_int32_read(sa, + sa_col, sn + win_h_y0, + sa_col + nb_cols, sn + win_h_y1, + dest + (1 - cas) * 4 + 2 * 4 * win_h_y0, + 1, 2 * 4, OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); +} + +static void opj_dwt_decode_partial_1(OPJ_INT32 *a, OPJ_SIZE_T a_count, + OPJ_INT32 dn, OPJ_INT32 sn, + OPJ_INT32 cas, + OPJ_INT32 win_l_x0, + OPJ_INT32 win_l_x1, + OPJ_INT32 win_h_x0, + OPJ_INT32 win_h_x1) +{ + OPJ_INT32 i; + + if (!cas) { + if ((dn > 0) || (sn > 1)) { /* NEW : CASE ONE ELEMENT */ + + /* Naive version is : + for (i = win_l_x0; i < i_max; i++) { + OPJ_S(i) -= (OPJ_D_(i - 1) + OPJ_D_(i) + 2) >> 2; + } + for (i = win_h_x0; i < win_h_x1; i++) { + OPJ_D(i) += (OPJ_S_(i) + OPJ_S_(i + 1)) >> 1; + } + but the compiler doesn't manage to unroll it to avoid bound + checking in OPJ_S_ and OPJ_D_ macros + */ + + i = win_l_x0; + if (i < win_l_x1) { + OPJ_INT32 i_max; + + /* Left-most case */ + OPJ_S(i) -= (OPJ_D_(i - 1) + OPJ_D_(i) + 2) >> 2; + i ++; + + i_max = win_l_x1; + if (i_max > dn) { + i_max = dn; + } + for (; i < i_max; i++) { + /* No bound checking */ + OPJ_S(i) -= (OPJ_D(i - 1) + OPJ_D(i) + 2) >> 2; + } + for (; i < win_l_x1; i++) { + /* Right-most case */ + OPJ_S(i) -= (OPJ_D_(i - 1) + OPJ_D_(i) + 2) >> 2; + } + } + + i = win_h_x0; + if (i < win_h_x1) { + OPJ_INT32 i_max = win_h_x1; + if (i_max >= sn) { + i_max = sn - 1; + } + for (; i < i_max; i++) { + /* No bound checking */ + OPJ_D(i) += (OPJ_S(i) + OPJ_S(i + 1)) >> 1; + } + for (; i < win_h_x1; i++) { + /* Right-most case */ + OPJ_D(i) += (OPJ_S_(i) + OPJ_S_(i + 1)) >> 1; + } + } + } + } else { + if (!sn && dn == 1) { /* NEW : CASE ONE ELEMENT */ + OPJ_S(0) /= 2; + } else { + for (i = win_l_x0; i < win_l_x1; i++) { + OPJ_D(i) -= (OPJ_SS_(i) + OPJ_SS_(i + 1) + 2) >> 2; + } + for (i = win_h_x0; i < win_h_x1; i++) { + OPJ_S(i) += (OPJ_DD_(i) + OPJ_DD_(i - 1)) >> 1; + } + } + } +} + +#define OPJ_S_off(i,off) a[(OPJ_UINT32)(i)*2*4+off] +#define OPJ_D_off(i,off) a[(1+(OPJ_UINT32)(i)*2)*4+off] +#define OPJ_S__off(i,off) ((i)<0?OPJ_S_off(0,off):((i)>=sn?OPJ_S_off(sn-1,off):OPJ_S_off(i,off))) +#define OPJ_D__off(i,off) ((i)<0?OPJ_D_off(0,off):((i)>=dn?OPJ_D_off(dn-1,off):OPJ_D_off(i,off))) +#define OPJ_SS__off(i,off) ((i)<0?OPJ_S_off(0,off):((i)>=dn?OPJ_S_off(dn-1,off):OPJ_S_off(i,off))) +#define OPJ_DD__off(i,off) ((i)<0?OPJ_D_off(0,off):((i)>=sn?OPJ_D_off(sn-1,off):OPJ_D_off(i,off))) + +static void opj_dwt_decode_partial_1_parallel(OPJ_INT32 *a, + OPJ_UINT32 nb_cols, + OPJ_INT32 dn, OPJ_INT32 sn, + OPJ_INT32 cas, + OPJ_INT32 win_l_x0, + OPJ_INT32 win_l_x1, + OPJ_INT32 win_h_x0, + OPJ_INT32 win_h_x1) { - OPJ_FLOAT32* OPJ_RESTRICT bi = (OPJ_FLOAT32*)(w->wavelet + w->cas); - OPJ_INT32 count = w->sn; - OPJ_INT32 i, k; + OPJ_INT32 i; + OPJ_UINT32 off; + + (void)nb_cols; + + if (!cas) { + if ((dn > 0) || (sn > 1)) { /* NEW : CASE ONE ELEMENT */ + + /* Naive version is : + for (i = win_l_x0; i < i_max; i++) { + OPJ_S(i) -= (OPJ_D_(i - 1) + OPJ_D_(i) + 2) >> 2; + } + for (i = win_h_x0; i < win_h_x1; i++) { + OPJ_D(i) += (OPJ_S_(i) + OPJ_S_(i + 1)) >> 1; + } + but the compiler doesn't manage to unroll it to avoid bound + checking in OPJ_S_ and OPJ_D_ macros + */ + + i = win_l_x0; + if (i < win_l_x1) { + OPJ_INT32 i_max; + + /* Left-most case */ + for (off = 0; off < 4; off++) { + OPJ_S_off(i, off) -= (OPJ_D__off(i - 1, off) + OPJ_D__off(i, off) + 2) >> 2; + } + i ++; + + i_max = win_l_x1; + if (i_max > dn) { + i_max = dn; + } + +#ifdef __SSE2__ + if (i + 1 < i_max) { + const __m128i two = _mm_set1_epi32(2); + __m128i Dm1 = _mm_load_si128((__m128i * const)(a + 4 + (i - 1) * 8)); + for (; i + 1 < i_max; i += 2) { + /* No bound checking */ + __m128i S = _mm_load_si128((__m128i * const)(a + i * 8)); + __m128i D = _mm_load_si128((__m128i * const)(a + 4 + i * 8)); + __m128i S1 = _mm_load_si128((__m128i * const)(a + (i + 1) * 8)); + __m128i D1 = _mm_load_si128((__m128i * const)(a + 4 + (i + 1) * 8)); + S = _mm_sub_epi32(S, + _mm_srai_epi32(_mm_add_epi32(_mm_add_epi32(Dm1, D), two), 2)); + S1 = _mm_sub_epi32(S1, + _mm_srai_epi32(_mm_add_epi32(_mm_add_epi32(D, D1), two), 2)); + _mm_store_si128((__m128i*)(a + i * 8), S); + _mm_store_si128((__m128i*)(a + (i + 1) * 8), S1); + Dm1 = D1; + } + } +#endif + + for (; i < i_max; i++) { + /* No bound checking */ + for (off = 0; off < 4; off++) { + OPJ_S_off(i, off) -= (OPJ_D_off(i - 1, off) + OPJ_D_off(i, off) + 2) >> 2; + } + } + for (; i < win_l_x1; i++) { + /* Right-most case */ + for (off = 0; off < 4; off++) { + OPJ_S_off(i, off) -= (OPJ_D__off(i - 1, off) + OPJ_D__off(i, off) + 2) >> 2; + } + } + } + + i = win_h_x0; + if (i < win_h_x1) { + OPJ_INT32 i_max = win_h_x1; + if (i_max >= sn) { + i_max = sn - 1; + } + +#ifdef __SSE2__ + if (i + 1 < i_max) { + __m128i S = _mm_load_si128((__m128i * const)(a + i * 8)); + for (; i + 1 < i_max; i += 2) { + /* No bound checking */ + __m128i D = _mm_load_si128((__m128i * const)(a + 4 + i * 8)); + __m128i S1 = _mm_load_si128((__m128i * const)(a + (i + 1) * 8)); + __m128i D1 = _mm_load_si128((__m128i * const)(a + 4 + (i + 1) * 8)); + __m128i S2 = _mm_load_si128((__m128i * const)(a + (i + 2) * 8)); + D = _mm_add_epi32(D, _mm_srai_epi32(_mm_add_epi32(S, S1), 1)); + D1 = _mm_add_epi32(D1, _mm_srai_epi32(_mm_add_epi32(S1, S2), 1)); + _mm_store_si128((__m128i*)(a + 4 + i * 8), D); + _mm_store_si128((__m128i*)(a + 4 + (i + 1) * 8), D1); + S = S2; + } + } +#endif + + for (; i < i_max; i++) { + /* No bound checking */ + for (off = 0; off < 4; off++) { + OPJ_D_off(i, off) += (OPJ_S_off(i, off) + OPJ_S_off(i + 1, off)) >> 1; + } + } + for (; i < win_h_x1; i++) { + /* Right-most case */ + for (off = 0; off < 4; off++) { + OPJ_D_off(i, off) += (OPJ_S__off(i, off) + OPJ_S__off(i + 1, off)) >> 1; + } + } + } + } + } else { + if (!sn && dn == 1) { /* NEW : CASE ONE ELEMENT */ + for (off = 0; off < 4; off++) { + OPJ_S_off(0, off) /= 2; + } + } else { + for (i = win_l_x0; i < win_l_x1; i++) { + for (off = 0; off < 4; off++) { + OPJ_D_off(i, off) -= (OPJ_SS__off(i, off) + OPJ_SS__off(i + 1, off) + 2) >> 2; + } + } + for (i = win_h_x0; i < win_h_x1; i++) { + for (off = 0; off < 4; off++) { + OPJ_S_off(i, off) += (OPJ_DD__off(i, off) + OPJ_DD__off(i - 1, off)) >> 1; + } + } + } + } +} + +static void opj_dwt_get_band_coordinates(opj_tcd_tilecomp_t* tilec, + OPJ_UINT32 resno, + OPJ_UINT32 bandno, + OPJ_UINT32 tcx0, + OPJ_UINT32 tcy0, + OPJ_UINT32 tcx1, + OPJ_UINT32 tcy1, + OPJ_UINT32* tbx0, + OPJ_UINT32* tby0, + OPJ_UINT32* tbx1, + OPJ_UINT32* tby1) +{ + /* Compute number of decomposition for this band. See table F-1 */ + OPJ_UINT32 nb = (resno == 0) ? + tilec->numresolutions - 1 : + tilec->numresolutions - resno; + /* Map above tile-based coordinates to sub-band-based coordinates per */ + /* equation B-15 of the standard */ + OPJ_UINT32 x0b = bandno & 1; + OPJ_UINT32 y0b = bandno >> 1; + if (tbx0) { + *tbx0 = (nb == 0) ? tcx0 : + (tcx0 <= (1U << (nb - 1)) * x0b) ? 0 : + opj_uint_ceildivpow2(tcx0 - (1U << (nb - 1)) * x0b, nb); + } + if (tby0) { + *tby0 = (nb == 0) ? tcy0 : + (tcy0 <= (1U << (nb - 1)) * y0b) ? 0 : + opj_uint_ceildivpow2(tcy0 - (1U << (nb - 1)) * y0b, nb); + } + if (tbx1) { + *tbx1 = (nb == 0) ? tcx1 : + (tcx1 <= (1U << (nb - 1)) * x0b) ? 0 : + opj_uint_ceildivpow2(tcx1 - (1U << (nb - 1)) * x0b, nb); + } + if (tby1) { + *tby1 = (nb == 0) ? tcy1 : + (tcy1 <= (1U << (nb - 1)) * y0b) ? 0 : + opj_uint_ceildivpow2(tcy1 - (1U << (nb - 1)) * y0b, nb); + } +} + +static void opj_dwt_segment_grow(OPJ_UINT32 filter_width, + OPJ_UINT32 max_size, + OPJ_UINT32* start, + OPJ_UINT32* end) +{ + *start = opj_uint_subs(*start, filter_width); + *end = opj_uint_adds(*end, filter_width); + *end = opj_uint_min(*end, max_size); +} + + +static opj_sparse_array_int32_t* opj_dwt_init_sparse_array( + opj_tcd_tilecomp_t* tilec, + OPJ_UINT32 numres) +{ + opj_tcd_resolution_t* tr_max = &(tilec->resolutions[numres - 1]); + OPJ_UINT32 w = (OPJ_UINT32)(tr_max->x1 - tr_max->x0); + OPJ_UINT32 h = (OPJ_UINT32)(tr_max->y1 - tr_max->y0); + OPJ_UINT32 resno, bandno, precno, cblkno; + opj_sparse_array_int32_t* sa = opj_sparse_array_int32_create( + w, h, opj_uint_min(w, 64), opj_uint_min(h, 64)); + if (sa == NULL) { + return NULL; + } + + for (resno = 0; resno < numres; ++resno) { + opj_tcd_resolution_t* res = &tilec->resolutions[resno]; + + for (bandno = 0; bandno < res->numbands; ++bandno) { + opj_tcd_band_t* band = &res->bands[bandno]; + + for (precno = 0; precno < res->pw * res->ph; ++precno) { + opj_tcd_precinct_t* precinct = &band->precincts[precno]; + for (cblkno = 0; cblkno < precinct->cw * precinct->ch; ++cblkno) { + opj_tcd_cblk_dec_t* cblk = &precinct->cblks.dec[cblkno]; + if (cblk->decoded_data != NULL) { + OPJ_UINT32 x = (OPJ_UINT32)(cblk->x0 - band->x0); + OPJ_UINT32 y = (OPJ_UINT32)(cblk->y0 - band->y0); + OPJ_UINT32 cblk_w = (OPJ_UINT32)(cblk->x1 - cblk->x0); + OPJ_UINT32 cblk_h = (OPJ_UINT32)(cblk->y1 - cblk->y0); + + if (band->bandno & 1) { + opj_tcd_resolution_t* pres = &tilec->resolutions[resno - 1]; + x += (OPJ_UINT32)(pres->x1 - pres->x0); + } + if (band->bandno & 2) { + opj_tcd_resolution_t* pres = &tilec->resolutions[resno - 1]; + y += (OPJ_UINT32)(pres->y1 - pres->y0); + } + + if (!opj_sparse_array_int32_write(sa, x, y, + x + cblk_w, y + cblk_h, + cblk->decoded_data, + 1, cblk_w, OPJ_TRUE)) { + opj_sparse_array_int32_free(sa); + return NULL; + } + } + } + } + } + } + + return sa; +} + + +static OPJ_BOOL opj_dwt_decode_partial_tile( + opj_tcd_tilecomp_t* tilec, + OPJ_UINT32 numres) +{ + opj_sparse_array_int32_t* sa; + opj_dwt_t h; + opj_dwt_t v; + OPJ_UINT32 resno; + /* This value matches the maximum left/right extension given in tables */ + /* F.2 and F.3 of the standard. */ + const OPJ_UINT32 filter_width = 2U; + + opj_tcd_resolution_t* tr = tilec->resolutions; + opj_tcd_resolution_t* tr_max = &(tilec->resolutions[numres - 1]); + + OPJ_UINT32 rw = (OPJ_UINT32)(tr->x1 - + tr->x0); /* width of the resolution level computed */ + OPJ_UINT32 rh = (OPJ_UINT32)(tr->y1 - + tr->y0); /* height of the resolution level computed */ + + OPJ_SIZE_T h_mem_size; + + /* Compute the intersection of the area of interest, expressed in tile coordinates */ + /* with the tile coordinates */ + OPJ_UINT32 win_tcx0 = tilec->win_x0; + OPJ_UINT32 win_tcy0 = tilec->win_y0; + OPJ_UINT32 win_tcx1 = tilec->win_x1; + OPJ_UINT32 win_tcy1 = tilec->win_y1; + + if (tr_max->x0 == tr_max->x1 || tr_max->y0 == tr_max->y1) { + return OPJ_TRUE; + } + + sa = opj_dwt_init_sparse_array(tilec, numres); + if (sa == NULL) { + return OPJ_FALSE; + } + + if (numres == 1U) { + OPJ_BOOL ret = opj_sparse_array_int32_read(sa, + tr_max->win_x0 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y0 - (OPJ_UINT32)tr_max->y0, + tr_max->win_x1 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y1 - (OPJ_UINT32)tr_max->y0, + tilec->data_win, + 1, tr_max->win_x1 - tr_max->win_x0, + OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); + opj_sparse_array_int32_free(sa); + return OPJ_TRUE; + } + h.mem_count = opj_dwt_max_resolution(tr, numres); + /* overflow check */ + /* in vertical pass, we process 4 columns at a time */ + if (h.mem_count > (SIZE_MAX / (4 * sizeof(OPJ_INT32)))) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + return OPJ_FALSE; + } + + h_mem_size = h.mem_count * 4 * sizeof(OPJ_INT32); + h.mem = (OPJ_INT32*)opj_aligned_32_malloc(h_mem_size); + if (! h.mem) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + return OPJ_FALSE; + } + + v.mem_count = h.mem_count; + v.mem = h.mem; + + for (resno = 1; resno < numres; resno ++) { + OPJ_UINT32 i, j; + /* Window of interest subband-based coordinates */ + OPJ_UINT32 win_ll_x0, win_ll_y0, win_ll_x1, win_ll_y1; + OPJ_UINT32 win_hl_x0, win_hl_x1; + OPJ_UINT32 win_lh_y0, win_lh_y1; + /* Window of interest tile-resolution-based coordinates */ + OPJ_UINT32 win_tr_x0, win_tr_x1, win_tr_y0, win_tr_y1; + /* Tile-resolution subband-based coordinates */ + OPJ_UINT32 tr_ll_x0, tr_ll_y0, tr_hl_x0, tr_lh_y0; + + ++tr; + + h.sn = (OPJ_INT32)rw; + v.sn = (OPJ_INT32)rh; + + rw = (OPJ_UINT32)(tr->x1 - tr->x0); + rh = (OPJ_UINT32)(tr->y1 - tr->y0); + + h.dn = (OPJ_INT32)(rw - (OPJ_UINT32)h.sn); + h.cas = tr->x0 % 2; + + v.dn = (OPJ_INT32)(rh - (OPJ_UINT32)v.sn); + v.cas = tr->y0 % 2; + + /* Get the subband coordinates for the window of interest */ + /* LL band */ + opj_dwt_get_band_coordinates(tilec, resno, 0, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + &win_ll_x0, &win_ll_y0, + &win_ll_x1, &win_ll_y1); + + /* HL band */ + opj_dwt_get_band_coordinates(tilec, resno, 1, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + &win_hl_x0, NULL, &win_hl_x1, NULL); + + /* LH band */ + opj_dwt_get_band_coordinates(tilec, resno, 2, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + NULL, &win_lh_y0, NULL, &win_lh_y1); + + /* Beware: band index for non-LL0 resolution are 0=HL, 1=LH and 2=HH */ + tr_ll_x0 = (OPJ_UINT32)tr->bands[1].x0; + tr_ll_y0 = (OPJ_UINT32)tr->bands[0].y0; + tr_hl_x0 = (OPJ_UINT32)tr->bands[0].x0; + tr_lh_y0 = (OPJ_UINT32)tr->bands[1].y0; + + /* Substract the origin of the bands for this tile, to the subwindow */ + /* of interest band coordinates, so as to get them relative to the */ + /* tile */ + win_ll_x0 = opj_uint_subs(win_ll_x0, tr_ll_x0); + win_ll_y0 = opj_uint_subs(win_ll_y0, tr_ll_y0); + win_ll_x1 = opj_uint_subs(win_ll_x1, tr_ll_x0); + win_ll_y1 = opj_uint_subs(win_ll_y1, tr_ll_y0); + win_hl_x0 = opj_uint_subs(win_hl_x0, tr_hl_x0); + win_hl_x1 = opj_uint_subs(win_hl_x1, tr_hl_x0); + win_lh_y0 = opj_uint_subs(win_lh_y0, tr_lh_y0); + win_lh_y1 = opj_uint_subs(win_lh_y1, tr_lh_y0); + + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)h.sn, &win_ll_x0, &win_ll_x1); + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)h.dn, &win_hl_x0, &win_hl_x1); + + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)v.sn, &win_ll_y0, &win_ll_y1); + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)v.dn, &win_lh_y0, &win_lh_y1); + + /* Compute the tile-resolution-based coordinates for the window of interest */ + if (h.cas == 0) { + win_tr_x0 = opj_uint_min(2 * win_ll_x0, 2 * win_hl_x0 + 1); + win_tr_x1 = opj_uint_min(opj_uint_max(2 * win_ll_x1, 2 * win_hl_x1 + 1), rw); + } else { + win_tr_x0 = opj_uint_min(2 * win_hl_x0, 2 * win_ll_x0 + 1); + win_tr_x1 = opj_uint_min(opj_uint_max(2 * win_hl_x1, 2 * win_ll_x1 + 1), rw); + } + + if (v.cas == 0) { + win_tr_y0 = opj_uint_min(2 * win_ll_y0, 2 * win_lh_y0 + 1); + win_tr_y1 = opj_uint_min(opj_uint_max(2 * win_ll_y1, 2 * win_lh_y1 + 1), rh); + } else { + win_tr_y0 = opj_uint_min(2 * win_lh_y0, 2 * win_ll_y0 + 1); + win_tr_y1 = opj_uint_min(opj_uint_max(2 * win_lh_y1, 2 * win_ll_y1 + 1), rh); + } + + for (j = 0; j < rh; ++j) { + if ((j >= win_ll_y0 && j < win_ll_y1) || + (j >= win_lh_y0 + (OPJ_UINT32)v.sn && j < win_lh_y1 + (OPJ_UINT32)v.sn)) { + + /* Avoids dwt.c:1584:44 (in opj_dwt_decode_partial_1): runtime error: */ + /* signed integer overflow: -1094795586 + -1094795586 cannot be represented in type 'int' */ + /* on opj_decompress -i ../../openjpeg/MAPA.jp2 -o out.tif -d 0,0,256,256 */ + /* This is less extreme than memsetting the whole buffer to 0 */ + /* although we could potentially do better with better handling of edge conditions */ + if (win_tr_x1 >= 1 && win_tr_x1 < rw) { + h.mem[win_tr_x1 - 1] = 0; + } + if (win_tr_x1 < rw) { + h.mem[win_tr_x1] = 0; + } + + opj_dwt_interleave_partial_h(h.mem, + h.cas, + sa, + j, + (OPJ_UINT32)h.sn, + win_ll_x0, + win_ll_x1, + win_hl_x0, + win_hl_x1); + opj_dwt_decode_partial_1(h.mem, h.mem_count, h.dn, h.sn, h.cas, + (OPJ_INT32)win_ll_x0, + (OPJ_INT32)win_ll_x1, + (OPJ_INT32)win_hl_x0, + (OPJ_INT32)win_hl_x1); + if (!opj_sparse_array_int32_write(sa, + win_tr_x0, j, + win_tr_x1, j + 1, + h.mem + win_tr_x0, + 1, 0, OPJ_TRUE)) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.mem); + return OPJ_FALSE; + } + } + } + + for (i = win_tr_x0; i < win_tr_x1;) { + OPJ_UINT32 nb_cols = opj_uint_min(4U, win_tr_x1 - i); + opj_dwt_interleave_partial_v(v.mem, + v.cas, + sa, + i, + nb_cols, + (OPJ_UINT32)v.sn, + win_ll_y0, + win_ll_y1, + win_lh_y0, + win_lh_y1); + opj_dwt_decode_partial_1_parallel(v.mem, nb_cols, v.dn, v.sn, v.cas, + (OPJ_INT32)win_ll_y0, + (OPJ_INT32)win_ll_y1, + (OPJ_INT32)win_lh_y0, + (OPJ_INT32)win_lh_y1); + if (!opj_sparse_array_int32_write(sa, + i, win_tr_y0, + i + nb_cols, win_tr_y1, + v.mem + 4 * win_tr_y0, + 1, 4, OPJ_TRUE)) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.mem); + return OPJ_FALSE; + } + + i += nb_cols; + } + } + opj_aligned_free(h.mem); + + { + OPJ_BOOL ret = opj_sparse_array_int32_read(sa, + tr_max->win_x0 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y0 - (OPJ_UINT32)tr_max->y0, + tr_max->win_x1 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y1 - (OPJ_UINT32)tr_max->y0, + tilec->data_win, + 1, tr_max->win_x1 - tr_max->win_x0, + OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); + } + opj_sparse_array_int32_free(sa); + return OPJ_TRUE; +} + +static void opj_v4dwt_interleave_h(opj_v4dwt_t* OPJ_RESTRICT dwt, + OPJ_FLOAT32* OPJ_RESTRICT a, + OPJ_UINT32 width, + OPJ_UINT32 remaining_height) +{ + OPJ_FLOAT32* OPJ_RESTRICT bi = (OPJ_FLOAT32*)(dwt->wavelet + dwt->cas); + OPJ_UINT32 i, k; + OPJ_UINT32 x0 = dwt->win_l_x0; + OPJ_UINT32 x1 = dwt->win_l_x1; 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 (remaining_height >= 4 && ((OPJ_SIZE_T) a & 0x0f) == 0 && + ((OPJ_SIZE_T) bi & 0x0f) == 0 && (width & 0x0f) == 0) { /* Fast code path */ - for (i = 0; i < count; ++i) { - OPJ_INT32 j = i; + for (i = x0; i < x1; ++i) { + OPJ_UINT32 j = i; bi[i * 8 ] = a[j]; - j += x; + j += width; bi[i * 8 + 1] = a[j]; - j += x; + j += width; bi[i * 8 + 2] = a[j]; - j += x; + j += width; bi[i * 8 + 3] = a[j]; } } else { /* Slow code path */ - for (i = 0; i < count; ++i) { - OPJ_INT32 j = i; + for (i = x0; i < x1; ++i) { + OPJ_UINT32 j = i; bi[i * 8 ] = a[j]; - j += x; - if (j >= size) { + j += width; + if (remaining_height == 1) { continue; } bi[i * 8 + 1] = a[j]; - j += x; - if (j >= size) { + j += width; + if (remaining_height == 2) { continue; } bi[i * 8 + 2] = a[j]; - j += x; - if (j >= size) { + j += width; + if (remaining_height == 3) { continue; } bi[i * 8 + 3] = a[j]; /* This one*/ } } - bi = (OPJ_FLOAT32*)(w->wavelet + 1 - w->cas); - a += w->sn; - size -= w->sn; - count = w->dn; + bi = (OPJ_FLOAT32*)(dwt->wavelet + 1 - dwt->cas); + a += dwt->sn; + x0 = dwt->win_h_x0; + x1 = dwt->win_h_x1; } } -static void opj_v4dwt_interleave_v(opj_v4dwt_t* OPJ_RESTRICT v, - OPJ_FLOAT32* OPJ_RESTRICT a, OPJ_INT32 x, OPJ_INT32 nb_elts_read) +static void opj_v4dwt_interleave_partial_h(opj_v4dwt_t* dwt, + opj_sparse_array_int32_t* sa, + OPJ_UINT32 sa_line, + OPJ_UINT32 remaining_height) { - opj_v4_t* OPJ_RESTRICT bi = v->wavelet + v->cas; - OPJ_INT32 i; + OPJ_UINT32 i; + for (i = 0; i < remaining_height; i++) { + OPJ_BOOL ret; + ret = opj_sparse_array_int32_read(sa, + dwt->win_l_x0, sa_line + i, + dwt->win_l_x1, sa_line + i + 1, + /* Nasty cast from float* to int32* */ + (OPJ_INT32*)(dwt->wavelet + dwt->cas + 2 * dwt->win_l_x0) + i, + 8, 0, OPJ_TRUE); + assert(ret); + ret = opj_sparse_array_int32_read(sa, + (OPJ_UINT32)dwt->sn + dwt->win_h_x0, sa_line + i, + (OPJ_UINT32)dwt->sn + dwt->win_h_x1, sa_line + i + 1, + /* Nasty cast from float* to int32* */ + (OPJ_INT32*)(dwt->wavelet + 1 - dwt->cas + 2 * dwt->win_h_x0) + i, + 8, 0, OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); + } +} + +static void opj_v4dwt_interleave_v(opj_v4dwt_t* OPJ_RESTRICT dwt, + OPJ_FLOAT32* OPJ_RESTRICT a, + OPJ_UINT32 width, + OPJ_UINT32 nb_elts_read) +{ + opj_v4_t* OPJ_RESTRICT bi = dwt->wavelet + dwt->cas; + OPJ_UINT32 i; - for (i = 0; i < v->sn; ++i) { - memcpy(&bi[i * 2], &a[i * x], (size_t)nb_elts_read * sizeof(OPJ_FLOAT32)); + for (i = dwt->win_l_x0; i < dwt->win_l_x1; ++i) { + memcpy(&bi[i * 2], &a[i * (OPJ_SIZE_T)width], + (OPJ_SIZE_T)nb_elts_read * sizeof(OPJ_FLOAT32)); } - a += v->sn * x; - bi = v->wavelet + 1 - v->cas; + a += (OPJ_UINT32)dwt->sn * (OPJ_SIZE_T)width; + bi = dwt->wavelet + 1 - dwt->cas; - for (i = 0; i < v->dn; ++i) { - memcpy(&bi[i * 2], &a[i * x], (size_t)nb_elts_read * sizeof(OPJ_FLOAT32)); + for (i = dwt->win_h_x0; i < dwt->win_h_x1; ++i) { + memcpy(&bi[i * 2], &a[i * (OPJ_SIZE_T)width], + (OPJ_SIZE_T)nb_elts_read * sizeof(OPJ_FLOAT32)); } } +static void opj_v4dwt_interleave_partial_v(opj_v4dwt_t* OPJ_RESTRICT dwt, + opj_sparse_array_int32_t* sa, + OPJ_UINT32 sa_col, + OPJ_UINT32 nb_elts_read) +{ + OPJ_BOOL ret; + ret = opj_sparse_array_int32_read(sa, + sa_col, dwt->win_l_x0, + sa_col + nb_elts_read, dwt->win_l_x1, + (OPJ_INT32*)(dwt->wavelet + dwt->cas + 2 * dwt->win_l_x0), + 1, 8, OPJ_TRUE); + assert(ret); + ret = opj_sparse_array_int32_read(sa, + sa_col, (OPJ_UINT32)dwt->sn + dwt->win_h_x0, + sa_col + nb_elts_read, (OPJ_UINT32)dwt->sn + dwt->win_h_x1, + (OPJ_INT32*)(dwt->wavelet + 1 - dwt->cas + 2 * dwt->win_h_x0), + 1, 8, OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); +} + #ifdef __SSE__ -static void opj_v4dwt_decode_step1_sse(opj_v4_t* w, OPJ_INT32 count, +static void opj_v4dwt_decode_step1_sse(opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, const __m128 c) { __m128* OPJ_RESTRICT vw = (__m128*) w; - OPJ_INT32 i; + OPJ_UINT32 i; /* 4x unrolled loop */ - for (i = 0; i < count >> 2; ++i) { - *vw = _mm_mul_ps(*vw, c); - vw += 2; - *vw = _mm_mul_ps(*vw, c); - vw += 2; - *vw = _mm_mul_ps(*vw, c); - vw += 2; - *vw = _mm_mul_ps(*vw, c); - vw += 2; - } - count &= 3; - for (i = 0; i < count; ++i) { - *vw = _mm_mul_ps(*vw, c); - vw += 2; + vw += 2 * start; + for (i = start; i + 3 < end; i += 4, vw += 8) { + __m128 xmm0 = _mm_mul_ps(vw[0], c); + __m128 xmm2 = _mm_mul_ps(vw[2], c); + __m128 xmm4 = _mm_mul_ps(vw[4], c); + __m128 xmm6 = _mm_mul_ps(vw[6], c); + vw[0] = xmm0; + vw[2] = xmm2; + vw[4] = xmm4; + vw[6] = xmm6; + } + for (; i < end; ++i, vw += 2) { + vw[0] = _mm_mul_ps(vw[0], c); } } -void opj_v4dwt_decode_step2_sse(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, - OPJ_INT32 m, __m128 c) +static void opj_v4dwt_decode_step2_sse(opj_v4_t* l, opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, + OPJ_UINT32 m, + __m128 c) { __m128* OPJ_RESTRICT vl = (__m128*) l; __m128* OPJ_RESTRICT vw = (__m128*) w; - OPJ_INT32 i; + OPJ_UINT32 i; + OPJ_UINT32 imax = opj_uint_min(end, m); __m128 tmp1, tmp2, tmp3; - tmp1 = vl[0]; - for (i = 0; i < m; ++i) { + if (start == 0) { + tmp1 = vl[0]; + } else { + vw += start * 2; + tmp1 = vw[-3]; + } + + i = start; + + /* 4x loop unrolling */ + for (; i + 3 < imax; i += 4) { + __m128 tmp4, tmp5, tmp6, tmp7, tmp8, tmp9; + tmp2 = vw[-1]; + tmp3 = vw[ 0]; + tmp4 = vw[ 1]; + tmp5 = vw[ 2]; + tmp6 = vw[ 3]; + tmp7 = vw[ 4]; + tmp8 = vw[ 5]; + tmp9 = vw[ 6]; + vw[-1] = _mm_add_ps(tmp2, _mm_mul_ps(_mm_add_ps(tmp1, tmp3), c)); + vw[ 1] = _mm_add_ps(tmp4, _mm_mul_ps(_mm_add_ps(tmp3, tmp5), c)); + vw[ 3] = _mm_add_ps(tmp6, _mm_mul_ps(_mm_add_ps(tmp5, tmp7), c)); + vw[ 5] = _mm_add_ps(tmp8, _mm_mul_ps(_mm_add_ps(tmp7, tmp9), c)); + tmp1 = tmp9; + vw += 8; + } + + for (; i < imax; ++i) { tmp2 = vw[-1]; tmp3 = vw[ 0]; vw[-1] = _mm_add_ps(tmp2, _mm_mul_ps(_mm_add_ps(tmp1, tmp3), c)); tmp1 = tmp3; vw += 2; } - vl = vw - 2; - if (m >= k) { - return; - } - c = _mm_add_ps(c, c); - c = _mm_mul_ps(c, vl[0]); - for (; m < k; ++m) { - __m128 tmp = vw[-1]; - vw[-1] = _mm_add_ps(tmp, c); - vw += 2; + if (m < end) { + assert(m + 1 == end); + c = _mm_add_ps(c, c); + c = _mm_mul_ps(c, vw[-2]); + vw[-1] = _mm_add_ps(vw[-1], c); } } #else -static void opj_v4dwt_decode_step1(opj_v4_t* w, OPJ_INT32 count, +static void opj_v4dwt_decode_step1(opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, const OPJ_FLOAT32 c) { OPJ_FLOAT32* OPJ_RESTRICT fw = (OPJ_FLOAT32*) w; - OPJ_INT32 i; - for (i = 0; i < count; ++i) { + OPJ_UINT32 i; + for (i = start; i < end; ++i) { OPJ_FLOAT32 tmp1 = fw[i * 8 ]; OPJ_FLOAT32 tmp2 = fw[i * 8 + 1]; OPJ_FLOAT32 tmp3 = fw[i * 8 + 2]; @@ -1641,13 +2403,21 @@ static void opj_v4dwt_decode_step1(opj_v4_t* w, OPJ_INT32 count, } } -static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, - OPJ_INT32 m, OPJ_FLOAT32 c) +static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, + OPJ_UINT32 start, + OPJ_UINT32 end, + OPJ_UINT32 m, + OPJ_FLOAT32 c) { OPJ_FLOAT32* fl = (OPJ_FLOAT32*) l; OPJ_FLOAT32* fw = (OPJ_FLOAT32*) w; - OPJ_INT32 i; - for (i = 0; i < m; ++i) { + OPJ_UINT32 i; + OPJ_UINT32 imax = opj_uint_min(end, m); + if (start > 0) { + fw += 8 * start; + fl = fw - 8; + } + for (i = start; i < imax; ++i) { OPJ_FLOAT32 tmp1_1 = fl[0]; OPJ_FLOAT32 tmp1_2 = fl[1]; OPJ_FLOAT32 tmp1_3 = fl[2]; @@ -1667,27 +2437,13 @@ static void opj_v4dwt_decode_step2(opj_v4_t* l, opj_v4_t* w, OPJ_INT32 k, fl = fw; fw += 8; } - if (m < k) { - OPJ_FLOAT32 c1; - OPJ_FLOAT32 c2; - OPJ_FLOAT32 c3; - OPJ_FLOAT32 c4; + if (m < end) { + assert(m + 1 == end); c += c; - c1 = fl[0] * c; - c2 = fl[1] * c; - c3 = fl[2] * c; - c4 = fl[3] * c; - for (; m < k; ++m) { - OPJ_FLOAT32 tmp1 = fw[-4]; - OPJ_FLOAT32 tmp2 = fw[-3]; - OPJ_FLOAT32 tmp3 = fw[-2]; - OPJ_FLOAT32 tmp4 = fw[-1]; - fw[-4] = tmp1 + c1; - fw[-3] = tmp2 + c2; - fw[-2] = tmp3 + c3; - fw[-1] = tmp4 + c4; - fw += 8; - } + fw[-4] = fw[-4] + fl[0] * c; + fw[-3] = fw[-3] + fl[1] * c; + fw[-2] = fw[-2] + fl[2] * c; + fw[-1] = fw[-1] + fl[3] * c; } } @@ -1713,27 +2469,47 @@ static void opj_v4dwt_decode(opj_v4dwt_t* OPJ_RESTRICT dwt) b = 0; } #ifdef __SSE__ - opj_v4dwt_decode_step1_sse(dwt->wavelet + a, dwt->sn, _mm_set1_ps(opj_K)); - opj_v4dwt_decode_step1_sse(dwt->wavelet + b, dwt->dn, _mm_set1_ps(opj_c13318)); - opj_v4dwt_decode_step2_sse(dwt->wavelet + b, dwt->wavelet + a + 1, dwt->sn, - opj_int_min(dwt->sn, dwt->dn - a), _mm_set1_ps(opj_dwt_delta)); - opj_v4dwt_decode_step2_sse(dwt->wavelet + a, dwt->wavelet + b + 1, dwt->dn, - opj_int_min(dwt->dn, dwt->sn - b), _mm_set1_ps(opj_dwt_gamma)); - opj_v4dwt_decode_step2_sse(dwt->wavelet + b, dwt->wavelet + a + 1, dwt->sn, - opj_int_min(dwt->sn, dwt->dn - a), _mm_set1_ps(opj_dwt_beta)); - opj_v4dwt_decode_step2_sse(dwt->wavelet + a, dwt->wavelet + b + 1, dwt->dn, - opj_int_min(dwt->dn, dwt->sn - b), _mm_set1_ps(opj_dwt_alpha)); + opj_v4dwt_decode_step1_sse(dwt->wavelet + a, dwt->win_l_x0, dwt->win_l_x1, + _mm_set1_ps(opj_K)); + opj_v4dwt_decode_step1_sse(dwt->wavelet + b, dwt->win_h_x0, dwt->win_h_x1, + _mm_set1_ps(opj_c13318)); + opj_v4dwt_decode_step2_sse(dwt->wavelet + b, dwt->wavelet + a + 1, + dwt->win_l_x0, dwt->win_l_x1, + (OPJ_UINT32)opj_int_min(dwt->sn, dwt->dn - a), + _mm_set1_ps(opj_dwt_delta)); + opj_v4dwt_decode_step2_sse(dwt->wavelet + a, dwt->wavelet + b + 1, + dwt->win_h_x0, dwt->win_h_x1, + (OPJ_UINT32)opj_int_min(dwt->dn, dwt->sn - b), + _mm_set1_ps(opj_dwt_gamma)); + opj_v4dwt_decode_step2_sse(dwt->wavelet + b, dwt->wavelet + a + 1, + dwt->win_l_x0, dwt->win_l_x1, + (OPJ_UINT32)opj_int_min(dwt->sn, dwt->dn - a), + _mm_set1_ps(opj_dwt_beta)); + opj_v4dwt_decode_step2_sse(dwt->wavelet + a, dwt->wavelet + b + 1, + dwt->win_h_x0, dwt->win_h_x1, + (OPJ_UINT32)opj_int_min(dwt->dn, dwt->sn - b), + _mm_set1_ps(opj_dwt_alpha)); #else - opj_v4dwt_decode_step1(dwt->wavelet + a, dwt->sn, opj_K); - opj_v4dwt_decode_step1(dwt->wavelet + b, dwt->dn, opj_c13318); - opj_v4dwt_decode_step2(dwt->wavelet + b, dwt->wavelet + a + 1, dwt->sn, - opj_int_min(dwt->sn, dwt->dn - a), opj_dwt_delta); - opj_v4dwt_decode_step2(dwt->wavelet + a, dwt->wavelet + b + 1, dwt->dn, - opj_int_min(dwt->dn, dwt->sn - b), opj_dwt_gamma); - opj_v4dwt_decode_step2(dwt->wavelet + b, dwt->wavelet + a + 1, dwt->sn, - opj_int_min(dwt->sn, dwt->dn - a), opj_dwt_beta); - opj_v4dwt_decode_step2(dwt->wavelet + a, dwt->wavelet + b + 1, dwt->dn, - opj_int_min(dwt->dn, dwt->sn - b), opj_dwt_alpha); + opj_v4dwt_decode_step1(dwt->wavelet + a, dwt->win_l_x0, dwt->win_l_x1, + opj_K); + opj_v4dwt_decode_step1(dwt->wavelet + b, dwt->win_h_x0, dwt->win_h_x1, + opj_c13318); + opj_v4dwt_decode_step2(dwt->wavelet + b, dwt->wavelet + a + 1, + dwt->win_l_x0, dwt->win_l_x1, + (OPJ_UINT32)opj_int_min(dwt->sn, dwt->dn - a), + opj_dwt_delta); + opj_v4dwt_decode_step2(dwt->wavelet + a, dwt->wavelet + b + 1, + dwt->win_h_x0, dwt->win_h_x1, + (OPJ_UINT32)opj_int_min(dwt->dn, dwt->sn - b), + opj_dwt_gamma); + opj_v4dwt_decode_step2(dwt->wavelet + b, dwt->wavelet + a + 1, + dwt->win_l_x0, dwt->win_l_x1, + (OPJ_UINT32)opj_int_min(dwt->sn, dwt->dn - a), + opj_dwt_beta); + opj_v4dwt_decode_step2(dwt->wavelet + a, dwt->wavelet + b + 1, + dwt->win_h_x0, dwt->win_h_x1, + (OPJ_UINT32)opj_int_min(dwt->dn, dwt->sn - b), + opj_dwt_alpha); #endif } @@ -1741,8 +2517,9 @@ static void opj_v4dwt_decode(opj_v4dwt_t* OPJ_RESTRICT dwt) /* <summary> */ /* Inverse 9-7 wavelet transform in 2-D. */ /* </summary> */ -OPJ_BOOL opj_dwt_decode_real(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, - OPJ_UINT32 numres) +static +OPJ_BOOL opj_dwt_decode_tile_97(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, + OPJ_UINT32 numres) { opj_v4dwt_t h; opj_v4dwt_t v; @@ -1754,9 +2531,11 @@ OPJ_BOOL opj_dwt_decode_real(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, OPJ_UINT32 rh = (OPJ_UINT32)(res->y1 - res->y0); /* height of the resolution level computed */ - OPJ_UINT32 w = (OPJ_UINT32)(tilec->x1 - tilec->x0); + OPJ_UINT32 w = (OPJ_UINT32)(tilec->resolutions[tilec->minimum_num_resolutions - + 1].x1 - + tilec->resolutions[tilec->minimum_num_resolutions - 1].x0); - size_t l_data_size; + OPJ_SIZE_T l_data_size; l_data_size = opj_dwt_max_resolution(res, numres); /* overflow check */ @@ -1779,9 +2558,7 @@ OPJ_BOOL opj_dwt_decode_real(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, while (--numres) { OPJ_FLOAT32 * OPJ_RESTRICT aj = (OPJ_FLOAT32*) tilec->data; - OPJ_UINT32 bufsize = (OPJ_UINT32)((tilec->x1 - tilec->x0) * - (tilec->y1 - tilec->y0)); - OPJ_INT32 j; + OPJ_UINT32 j; h.sn = (OPJ_INT32)rw; v.sn = (OPJ_INT32)rh; @@ -1796,53 +2573,59 @@ OPJ_BOOL opj_dwt_decode_real(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, h.dn = (OPJ_INT32)(rw - (OPJ_UINT32)h.sn); h.cas = res->x0 % 2; - for (j = (OPJ_INT32)rh; j > 3; j -= 4) { - OPJ_INT32 k; - opj_v4dwt_interleave_h(&h, aj, (OPJ_INT32)w, (OPJ_INT32)bufsize); + h.win_l_x0 = 0; + h.win_l_x1 = (OPJ_UINT32)h.sn; + h.win_h_x0 = 0; + h.win_h_x1 = (OPJ_UINT32)h.dn; + for (j = 0; j + 3 < rh; j += 4) { + OPJ_UINT32 k; + opj_v4dwt_interleave_h(&h, aj, w, rh - j); opj_v4dwt_decode(&h); - for (k = (OPJ_INT32)rw; --k >= 0;) { - aj[k ] = h.wavelet[k].f[0]; - aj[k + (OPJ_INT32)w ] = h.wavelet[k].f[1]; - aj[k + (OPJ_INT32)w * 2] = h.wavelet[k].f[2]; - aj[k + (OPJ_INT32)w * 3] = h.wavelet[k].f[3]; + for (k = 0; k < rw; k++) { + aj[k ] = h.wavelet[k].f[0]; + aj[k + (OPJ_SIZE_T)w ] = h.wavelet[k].f[1]; + aj[k + (OPJ_SIZE_T)w * 2] = h.wavelet[k].f[2]; + aj[k + (OPJ_SIZE_T)w * 3] = h.wavelet[k].f[3]; } aj += w * 4; - bufsize -= w * 4; } - if (rh & 0x03) { - OPJ_INT32 k; - j = rh & 0x03; - opj_v4dwt_interleave_h(&h, aj, (OPJ_INT32)w, (OPJ_INT32)bufsize); + if (j < rh) { + OPJ_UINT32 k; + opj_v4dwt_interleave_h(&h, aj, w, rh - j); opj_v4dwt_decode(&h); - for (k = (OPJ_INT32)rw; --k >= 0;) { - switch (j) { + for (k = 0; k < rw; k++) { + switch (rh - j) { case 3: - aj[k + (OPJ_INT32)w * 2] = h.wavelet[k].f[2]; + aj[k + (OPJ_SIZE_T)w * 2] = h.wavelet[k].f[2]; /* FALLTHRU */ case 2: - aj[k + (OPJ_INT32)w ] = h.wavelet[k].f[1]; + aj[k + (OPJ_SIZE_T)w ] = h.wavelet[k].f[1]; /* FALLTHRU */ case 1: - aj[k ] = h.wavelet[k].f[0]; + aj[k] = h.wavelet[k].f[0]; } } } v.dn = (OPJ_INT32)(rh - (OPJ_UINT32)v.sn); v.cas = res->y0 % 2; + v.win_l_x0 = 0; + v.win_l_x1 = (OPJ_UINT32)v.sn; + v.win_h_x0 = 0; + v.win_h_x1 = (OPJ_UINT32)v.dn; aj = (OPJ_FLOAT32*) tilec->data; - for (j = (OPJ_INT32)rw; j > 3; j -= 4) { + for (j = rw; j > 3; j -= 4) { OPJ_UINT32 k; - opj_v4dwt_interleave_v(&v, aj, (OPJ_INT32)w, 4); + opj_v4dwt_interleave_v(&v, aj, w, 4); opj_v4dwt_decode(&v); for (k = 0; k < rh; ++k) { - memcpy(&aj[k * w], &v.wavelet[k], 4 * sizeof(OPJ_FLOAT32)); + memcpy(&aj[k * (OPJ_SIZE_T)w], &v.wavelet[k], 4 * sizeof(OPJ_FLOAT32)); } aj += 4; } @@ -1852,15 +2635,266 @@ OPJ_BOOL opj_dwt_decode_real(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, j = rw & 0x03; - opj_v4dwt_interleave_v(&v, aj, (OPJ_INT32)w, j); + opj_v4dwt_interleave_v(&v, aj, w, j); opj_v4dwt_decode(&v); for (k = 0; k < rh; ++k) { - memcpy(&aj[k * w], &v.wavelet[k], (size_t)j * sizeof(OPJ_FLOAT32)); + memcpy(&aj[k * (OPJ_SIZE_T)w], &v.wavelet[k], + (OPJ_SIZE_T)j * sizeof(OPJ_FLOAT32)); + } + } + } + + opj_aligned_free(h.wavelet); + return OPJ_TRUE; +} + +static +OPJ_BOOL opj_dwt_decode_partial_97(opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, + OPJ_UINT32 numres) +{ + opj_sparse_array_int32_t* sa; + opj_v4dwt_t h; + opj_v4dwt_t v; + OPJ_UINT32 resno; + /* This value matches the maximum left/right extension given in tables */ + /* F.2 and F.3 of the standard. Note: in opj_tcd_is_subband_area_of_interest() */ + /* we currently use 3. */ + const OPJ_UINT32 filter_width = 4U; + + opj_tcd_resolution_t* tr = tilec->resolutions; + opj_tcd_resolution_t* tr_max = &(tilec->resolutions[numres - 1]); + + OPJ_UINT32 rw = (OPJ_UINT32)(tr->x1 - + tr->x0); /* width of the resolution level computed */ + OPJ_UINT32 rh = (OPJ_UINT32)(tr->y1 - + tr->y0); /* height of the resolution level computed */ + + OPJ_SIZE_T l_data_size; + + /* Compute the intersection of the area of interest, expressed in tile coordinates */ + /* with the tile coordinates */ + OPJ_UINT32 win_tcx0 = tilec->win_x0; + OPJ_UINT32 win_tcy0 = tilec->win_y0; + OPJ_UINT32 win_tcx1 = tilec->win_x1; + OPJ_UINT32 win_tcy1 = tilec->win_y1; + + if (tr_max->x0 == tr_max->x1 || tr_max->y0 == tr_max->y1) { + return OPJ_TRUE; + } + + sa = opj_dwt_init_sparse_array(tilec, numres); + if (sa == NULL) { + return OPJ_FALSE; + } + + if (numres == 1U) { + OPJ_BOOL ret = opj_sparse_array_int32_read(sa, + tr_max->win_x0 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y0 - (OPJ_UINT32)tr_max->y0, + tr_max->win_x1 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y1 - (OPJ_UINT32)tr_max->y0, + tilec->data_win, + 1, tr_max->win_x1 - tr_max->win_x0, + OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); + opj_sparse_array_int32_free(sa); + return OPJ_TRUE; + } + + l_data_size = opj_dwt_max_resolution(tr, numres); + /* overflow check */ + if (l_data_size > (SIZE_MAX - 5U)) { + /* FIXME event manager error callback */ + return OPJ_FALSE; + } + l_data_size += 5U; + /* overflow check */ + if (l_data_size > (SIZE_MAX / sizeof(opj_v4_t))) { + /* FIXME event manager error callback */ + return OPJ_FALSE; + } + h.wavelet = (opj_v4_t*) opj_aligned_malloc(l_data_size * sizeof(opj_v4_t)); + if (!h.wavelet) { + /* FIXME event manager error callback */ + return OPJ_FALSE; + } + v.wavelet = h.wavelet; + + for (resno = 1; resno < numres; resno ++) { + OPJ_UINT32 j; + /* Window of interest subband-based coordinates */ + OPJ_UINT32 win_ll_x0, win_ll_y0, win_ll_x1, win_ll_y1; + OPJ_UINT32 win_hl_x0, win_hl_x1; + OPJ_UINT32 win_lh_y0, win_lh_y1; + /* Window of interest tile-resolution-based coordinates */ + OPJ_UINT32 win_tr_x0, win_tr_x1, win_tr_y0, win_tr_y1; + /* Tile-resolution subband-based coordinates */ + OPJ_UINT32 tr_ll_x0, tr_ll_y0, tr_hl_x0, tr_lh_y0; + + ++tr; + + h.sn = (OPJ_INT32)rw; + v.sn = (OPJ_INT32)rh; + + rw = (OPJ_UINT32)(tr->x1 - tr->x0); + rh = (OPJ_UINT32)(tr->y1 - tr->y0); + + h.dn = (OPJ_INT32)(rw - (OPJ_UINT32)h.sn); + h.cas = tr->x0 % 2; + + v.dn = (OPJ_INT32)(rh - (OPJ_UINT32)v.sn); + v.cas = tr->y0 % 2; + + /* Get the subband coordinates for the window of interest */ + /* LL band */ + opj_dwt_get_band_coordinates(tilec, resno, 0, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + &win_ll_x0, &win_ll_y0, + &win_ll_x1, &win_ll_y1); + + /* HL band */ + opj_dwt_get_band_coordinates(tilec, resno, 1, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + &win_hl_x0, NULL, &win_hl_x1, NULL); + + /* LH band */ + opj_dwt_get_band_coordinates(tilec, resno, 2, + win_tcx0, win_tcy0, win_tcx1, win_tcy1, + NULL, &win_lh_y0, NULL, &win_lh_y1); + + /* Beware: band index for non-LL0 resolution are 0=HL, 1=LH and 2=HH */ + tr_ll_x0 = (OPJ_UINT32)tr->bands[1].x0; + tr_ll_y0 = (OPJ_UINT32)tr->bands[0].y0; + tr_hl_x0 = (OPJ_UINT32)tr->bands[0].x0; + tr_lh_y0 = (OPJ_UINT32)tr->bands[1].y0; + + /* Substract the origin of the bands for this tile, to the subwindow */ + /* of interest band coordinates, so as to get them relative to the */ + /* tile */ + win_ll_x0 = opj_uint_subs(win_ll_x0, tr_ll_x0); + win_ll_y0 = opj_uint_subs(win_ll_y0, tr_ll_y0); + win_ll_x1 = opj_uint_subs(win_ll_x1, tr_ll_x0); + win_ll_y1 = opj_uint_subs(win_ll_y1, tr_ll_y0); + win_hl_x0 = opj_uint_subs(win_hl_x0, tr_hl_x0); + win_hl_x1 = opj_uint_subs(win_hl_x1, tr_hl_x0); + win_lh_y0 = opj_uint_subs(win_lh_y0, tr_lh_y0); + win_lh_y1 = opj_uint_subs(win_lh_y1, tr_lh_y0); + + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)h.sn, &win_ll_x0, &win_ll_x1); + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)h.dn, &win_hl_x0, &win_hl_x1); + + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)v.sn, &win_ll_y0, &win_ll_y1); + opj_dwt_segment_grow(filter_width, (OPJ_UINT32)v.dn, &win_lh_y0, &win_lh_y1); + + /* Compute the tile-resolution-based coordinates for the window of interest */ + if (h.cas == 0) { + win_tr_x0 = opj_uint_min(2 * win_ll_x0, 2 * win_hl_x0 + 1); + win_tr_x1 = opj_uint_min(opj_uint_max(2 * win_ll_x1, 2 * win_hl_x1 + 1), rw); + } else { + win_tr_x0 = opj_uint_min(2 * win_hl_x0, 2 * win_ll_x0 + 1); + win_tr_x1 = opj_uint_min(opj_uint_max(2 * win_hl_x1, 2 * win_ll_x1 + 1), rw); + } + + if (v.cas == 0) { + win_tr_y0 = opj_uint_min(2 * win_ll_y0, 2 * win_lh_y0 + 1); + win_tr_y1 = opj_uint_min(opj_uint_max(2 * win_ll_y1, 2 * win_lh_y1 + 1), rh); + } else { + win_tr_y0 = opj_uint_min(2 * win_lh_y0, 2 * win_ll_y0 + 1); + win_tr_y1 = opj_uint_min(opj_uint_max(2 * win_lh_y1, 2 * win_ll_y1 + 1), rh); + } + + h.win_l_x0 = win_ll_x0; + h.win_l_x1 = win_ll_x1; + h.win_h_x0 = win_hl_x0; + h.win_h_x1 = win_hl_x1; + for (j = 0; j + 3 < rh; j += 4) { + if ((j + 3 >= win_ll_y0 && j < win_ll_y1) || + (j + 3 >= win_lh_y0 + (OPJ_UINT32)v.sn && + j < win_lh_y1 + (OPJ_UINT32)v.sn)) { + opj_v4dwt_interleave_partial_h(&h, sa, j, opj_uint_min(4U, rh - j)); + opj_v4dwt_decode(&h); + if (!opj_sparse_array_int32_write(sa, + win_tr_x0, j, + win_tr_x1, j + 4, + (OPJ_INT32*)&h.wavelet[win_tr_x0].f[0], + 4, 1, OPJ_TRUE)) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.wavelet); + return OPJ_FALSE; + } + } + } + + if (j < rh && + ((j + 3 >= win_ll_y0 && j < win_ll_y1) || + (j + 3 >= win_lh_y0 + (OPJ_UINT32)v.sn && + j < win_lh_y1 + (OPJ_UINT32)v.sn))) { + opj_v4dwt_interleave_partial_h(&h, sa, j, rh - j); + opj_v4dwt_decode(&h); + if (!opj_sparse_array_int32_write(sa, + win_tr_x0, j, + win_tr_x1, rh, + (OPJ_INT32*)&h.wavelet[win_tr_x0].f[0], + 4, 1, OPJ_TRUE)) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.wavelet); + return OPJ_FALSE; + } + } + + v.win_l_x0 = win_ll_y0; + v.win_l_x1 = win_ll_y1; + v.win_h_x0 = win_lh_y0; + v.win_h_x1 = win_lh_y1; + for (j = win_tr_x0; j < win_tr_x1; j += 4) { + OPJ_UINT32 nb_elts = opj_uint_min(4U, win_tr_x1 - j); + + opj_v4dwt_interleave_partial_v(&v, sa, j, nb_elts); + opj_v4dwt_decode(&v); + + if (!opj_sparse_array_int32_write(sa, + j, win_tr_y0, + j + nb_elts, win_tr_y1, + (OPJ_INT32*)&h.wavelet[win_tr_y0].f[0], + 1, 4, OPJ_TRUE)) { + /* FIXME event manager error callback */ + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.wavelet); + return OPJ_FALSE; } } } + { + OPJ_BOOL ret = opj_sparse_array_int32_read(sa, + tr_max->win_x0 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y0 - (OPJ_UINT32)tr_max->y0, + tr_max->win_x1 - (OPJ_UINT32)tr_max->x0, + tr_max->win_y1 - (OPJ_UINT32)tr_max->y0, + tilec->data_win, + 1, tr_max->win_x1 - tr_max->win_x0, + OPJ_TRUE); + assert(ret); + OPJ_UNUSED(ret); + } + opj_sparse_array_int32_free(sa); + opj_aligned_free(h.wavelet); return OPJ_TRUE; } + + +OPJ_BOOL opj_dwt_decode_real(opj_tcd_t *p_tcd, + opj_tcd_tilecomp_t* OPJ_RESTRICT tilec, + OPJ_UINT32 numres) +{ + if (p_tcd->whole_tile_decoding) { + return opj_dwt_decode_tile_97(tilec, numres); + } else { + return opj_dwt_decode_partial_97(tilec, numres); + } +} |