/* * Copyright (c) 2010 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "vp9/common/vp9_onyxc_int.h" #include "vp9/common/vp9_entropymv.h" //#define MV_COUNT_TESTING #define MV_COUNT_SAT 16 #define MV_MAX_UPDATE_FACTOR 160 #if CONFIG_NEW_MVREF /* Integer pel reference mv threshold for use of high-precision 1/8 mv */ #define COMPANDED_MVREF_THRESH 1000000 #else /* Integer pel reference mv threshold for use of high-precision 1/8 mv */ #define COMPANDED_MVREF_THRESH 8 #endif /* Smooth or bias the mv-counts before prob computation */ /* #define SMOOTH_MV_COUNTS */ const vp9_tree_index vp9_mv_joint_tree[2 * MV_JOINTS - 2] = { -MV_JOINT_ZERO, 2, -MV_JOINT_HNZVZ, 4, -MV_JOINT_HZVNZ, -MV_JOINT_HNZVNZ }; struct vp9_token_struct vp9_mv_joint_encodings[MV_JOINTS]; const vp9_tree_index vp9_mv_class_tree[2 * MV_CLASSES - 2] = { -MV_CLASS_0, 2, -MV_CLASS_1, 4, 6, 8, -MV_CLASS_2, -MV_CLASS_3, 10, 12, -MV_CLASS_4, -MV_CLASS_5, -MV_CLASS_6, -MV_CLASS_7, }; struct vp9_token_struct vp9_mv_class_encodings[MV_CLASSES]; const vp9_tree_index vp9_mv_class0_tree [2 * CLASS0_SIZE - 2] = { -0, -1, }; struct vp9_token_struct vp9_mv_class0_encodings[CLASS0_SIZE]; const vp9_tree_index vp9_mv_fp_tree [2 * 4 - 2] = { -0, 2, -1, 4, -2, -3 }; struct vp9_token_struct vp9_mv_fp_encodings[4]; const nmv_context vp9_default_nmv_context = { {32, 64, 96}, { { /* vert component */ 128, /* sign */ {224, 144, 192, 168, 192, 176, 192}, /* class */ {216}, /* class0 */ {136, 140, 148, 160, 176, 192, 224}, /* bits */ {{128, 128, 64}, {96, 112, 64}}, /* class0_fp */ {64, 96, 64}, /* fp */ 160, /* class0_hp bit */ 128, /* hp */ }, { /* hor component */ 128, /* sign */ {216, 128, 176, 160, 176, 176, 192}, /* class */ {208}, /* class0 */ {136, 140, 148, 160, 176, 192, 224}, /* bits */ {{128, 128, 64}, {96, 112, 64}}, /* class0_fp */ {64, 96, 64}, /* fp */ 160, /* class0_hp bit */ 128, /* hp */ } }, }; MV_JOINT_TYPE vp9_get_mv_joint(MV mv) { if (mv.row == 0 && mv.col == 0) return MV_JOINT_ZERO; else if (mv.row == 0 && mv.col != 0) return MV_JOINT_HNZVZ; else if (mv.row != 0 && mv.col == 0) return MV_JOINT_HZVNZ; else return MV_JOINT_HNZVNZ; } #define mv_class_base(c) ((c) ? (CLASS0_SIZE << (c + 2)) : 0) MV_CLASS_TYPE vp9_get_mv_class(int z, int *offset) { MV_CLASS_TYPE c; if (z < CLASS0_SIZE * 8) c = MV_CLASS_0; else if (z < CLASS0_SIZE * 16) c = MV_CLASS_1; else if (z < CLASS0_SIZE * 32) c = MV_CLASS_2; else if (z < CLASS0_SIZE * 64) c = MV_CLASS_3; else if (z < CLASS0_SIZE * 128) c = MV_CLASS_4; else if (z < CLASS0_SIZE * 256) c = MV_CLASS_5; else if (z < CLASS0_SIZE * 512) c = MV_CLASS_6; else if (z < CLASS0_SIZE * 1024) c = MV_CLASS_7; else assert(0); if (offset) *offset = z - mv_class_base(c); return c; } int vp9_use_nmv_hp(const MV *ref) { if ((abs(ref->row) >> 3) < COMPANDED_MVREF_THRESH && (abs(ref->col) >> 3) < COMPANDED_MVREF_THRESH) return 1; else return 0; } int vp9_get_mv_mag(MV_CLASS_TYPE c, int offset) { return mv_class_base(c) + offset; } static void increment_nmv_component_count(int v, nmv_component_counts *mvcomp, int incr, int usehp) { assert (v != 0); /* should not be zero */ mvcomp->mvcount[MV_MAX + v] += incr; } static void increment_nmv_component(int v, nmv_component_counts *mvcomp, int incr, int usehp) { int s, z, c, o, d, e, f; assert (v != 0); /* should not be zero */ s = v < 0; mvcomp->sign[s] += incr; z = (s ? -v : v) - 1; /* magnitude - 1 */ c = vp9_get_mv_class(z, &o); mvcomp->classes[c] += incr; d = (o >> 3); /* int mv data */ f = (o >> 1) & 3; /* fractional pel mv data */ e = (o & 1); /* high precision mv data */ if (c == MV_CLASS_0) { mvcomp->class0[d] += incr; } else { int i, b; b = c + CLASS0_BITS - 1; /* number of bits */ for (i = 0; i < b; ++i) mvcomp->bits[i][((d >> i) & 1)] += incr; } /* Code the fractional pel bits */ if (c == MV_CLASS_0) { mvcomp->class0_fp[d][f] += incr; } else { mvcomp->fp[f] += incr; } /* Code the high precision bit */ if (usehp) { if (c == MV_CLASS_0) { mvcomp->class0_hp[e] += incr; } else { mvcomp->hp[e] += incr; } } } #ifdef SMOOTH_MV_COUNTS static void smooth_counts(nmv_component_counts *mvcomp) { static const int flen = 3; // (filter_length + 1) / 2 static const int fval[] = {8, 3, 1}; static const int fvalbits = 4; int i; unsigned int smvcount[MV_VALS]; vpx_memcpy(smvcount, mvcomp->mvcount, sizeof(smvcount)); smvcount[MV_MAX] = (smvcount[MV_MAX - 1] + smvcount[MV_MAX + 1]) >> 1; for (i = flen - 1; i <= MV_VALS - flen; ++i) { int j, s = smvcount[i] * fval[0]; for (j = 1; j < flen; ++j) s += (smvcount[i - j] + smvcount[i + j]) * fval[j]; mvcomp->mvcount[i] = (s + (1 << (fvalbits - 1))) >> fvalbits; } } #endif static void counts_to_context(nmv_component_counts *mvcomp, int usehp) { int v; vpx_memset(mvcomp->sign, 0, sizeof(nmv_component_counts) - sizeof(mvcomp->mvcount)); for (v = 1; v <= MV_MAX; v++) { increment_nmv_component(-v, mvcomp, mvcomp->mvcount[MV_MAX - v], usehp); increment_nmv_component( v, mvcomp, mvcomp->mvcount[MV_MAX + v], usehp); } } void vp9_increment_nmv(const MV *mv, const MV *ref, nmv_context_counts *mvctx, int usehp) { MV_JOINT_TYPE j = vp9_get_mv_joint(*mv); mvctx->joints[j]++; usehp = usehp && vp9_use_nmv_hp(ref); if (j == MV_JOINT_HZVNZ || j == MV_JOINT_HNZVNZ) { increment_nmv_component_count(mv->row, &mvctx->comps[0], 1, usehp); } if (j == MV_JOINT_HNZVZ || j == MV_JOINT_HNZVNZ) { increment_nmv_component_count(mv->col, &mvctx->comps[1], 1, usehp); } } static void adapt_prob(vp9_prob *dest, vp9_prob prep, vp9_prob newp, unsigned int ct[2]) { int count = ct[0] + ct[1]; if (count) { count = count > MV_COUNT_SAT ? MV_COUNT_SAT : count; *dest = weighted_prob(prep, newp, MV_MAX_UPDATE_FACTOR * count / MV_COUNT_SAT); } } void vp9_counts_process(nmv_context_counts *NMVcount, int usehp) { counts_to_context(&NMVcount->comps[0], usehp); counts_to_context(&NMVcount->comps[1], usehp); } void vp9_counts_to_nmv_context( nmv_context_counts *NMVcount, nmv_context *prob, int usehp, unsigned int (*branch_ct_joint)[2], unsigned int (*branch_ct_sign)[2], unsigned int (*branch_ct_classes)[MV_CLASSES - 1][2], unsigned int (*branch_ct_class0)[CLASS0_SIZE - 1][2], unsigned int (*branch_ct_bits)[MV_OFFSET_BITS][2], unsigned int (*branch_ct_class0_fp)[CLASS0_SIZE][4 - 1][2], unsigned int (*branch_ct_fp)[4 - 1][2], unsigned int (*branch_ct_class0_hp)[2], unsigned int (*branch_ct_hp)[2]) { int i, j, k; vp9_counts_process(NMVcount, usehp); vp9_tree_probs_from_distribution(MV_JOINTS, vp9_mv_joint_encodings, vp9_mv_joint_tree, prob->joints, branch_ct_joint, NMVcount->joints); for (i = 0; i < 2; ++i) { prob->comps[i].sign = get_binary_prob(NMVcount->comps[i].sign[0], NMVcount->comps[i].sign[1]); branch_ct_sign[i][0] = NMVcount->comps[i].sign[0]; branch_ct_sign[i][1] = NMVcount->comps[i].sign[1]; vp9_tree_probs_from_distribution(MV_CLASSES, vp9_mv_class_encodings, vp9_mv_class_tree, prob->comps[i].classes, branch_ct_classes[i], NMVcount->comps[i].classes); vp9_tree_probs_from_distribution(CLASS0_SIZE, vp9_mv_class0_encodings, vp9_mv_class0_tree, prob->comps[i].class0, branch_ct_class0[i], NMVcount->comps[i].class0); for (j = 0; j < MV_OFFSET_BITS; ++j) { prob->comps[i].bits[j] = get_binary_prob(NMVcount->comps[i].bits[j][0], NMVcount->comps[i].bits[j][1]); branch_ct_bits[i][j][0] = NMVcount->comps[i].bits[j][0]; branch_ct_bits[i][j][1] = NMVcount->comps[i].bits[j][1]; } } for (i = 0; i < 2; ++i) { for (k = 0; k < CLASS0_SIZE; ++k) { vp9_tree_probs_from_distribution(4, vp9_mv_fp_encodings, vp9_mv_fp_tree, prob->comps[i].class0_fp[k], branch_ct_class0_fp[i][k], NMVcount->comps[i].class0_fp[k]); } vp9_tree_probs_from_distribution(4, vp9_mv_fp_encodings, vp9_mv_fp_tree, prob->comps[i].fp, branch_ct_fp[i], NMVcount->comps[i].fp); } if (usehp) { for (i = 0; i < 2; ++i) { prob->comps[i].class0_hp = get_binary_prob(NMVcount->comps[i].class0_hp[0], NMVcount->comps[i].class0_hp[1]); branch_ct_class0_hp[i][0] = NMVcount->comps[i].class0_hp[0]; branch_ct_class0_hp[i][1] = NMVcount->comps[i].class0_hp[1]; prob->comps[i].hp = get_binary_prob(NMVcount->comps[i].hp[0], NMVcount->comps[i].hp[1]); branch_ct_hp[i][0] = NMVcount->comps[i].hp[0]; branch_ct_hp[i][1] = NMVcount->comps[i].hp[1]; } } } void vp9_adapt_nmv_probs(VP9_COMMON *cm, int usehp) { int i, j, k; nmv_context prob; unsigned int branch_ct_joint[MV_JOINTS - 1][2]; unsigned int branch_ct_sign[2][2]; unsigned int branch_ct_classes[2][MV_CLASSES - 1][2]; unsigned int branch_ct_class0[2][CLASS0_SIZE - 1][2]; unsigned int branch_ct_bits[2][MV_OFFSET_BITS][2]; unsigned int branch_ct_class0_fp[2][CLASS0_SIZE][4 - 1][2]; unsigned int branch_ct_fp[2][4 - 1][2]; unsigned int branch_ct_class0_hp[2][2]; unsigned int branch_ct_hp[2][2]; #ifdef MV_COUNT_TESTING printf("joints count: "); for (j = 0; j < MV_JOINTS; ++j) printf("%d ", cm->fc.NMVcount.joints[j]); printf("\n"); fflush(stdout); printf("signs count:\n"); for (i = 0; i < 2; ++i) printf("%d/%d ", cm->fc.NMVcount.comps[i].sign[0], cm->fc.NMVcount.comps[i].sign[1]); printf("\n"); fflush(stdout); printf("classes count:\n"); for (i = 0; i < 2; ++i) { for (j = 0; j < MV_CLASSES; ++j) printf("%d ", cm->fc.NMVcount.comps[i].classes[j]); printf("\n"); fflush(stdout); } printf("class0 count:\n"); for (i = 0; i < 2; ++i) { for (j = 0; j < CLASS0_SIZE; ++j) printf("%d ", cm->fc.NMVcount.comps[i].class0[j]); printf("\n"); fflush(stdout); } printf("bits count:\n"); for (i = 0; i < 2; ++i) { for (j = 0; j < MV_OFFSET_BITS; ++j) printf("%d/%d ", cm->fc.NMVcount.comps[i].bits[j][0], cm->fc.NMVcount.comps[i].bits[j][1]); printf("\n"); fflush(stdout); } printf("class0_fp count:\n"); for (i = 0; i < 2; ++i) { for (j = 0; j < CLASS0_SIZE; ++j) { printf("{"); for (k = 0; k < 4; ++k) printf("%d ", cm->fc.NMVcount.comps[i].class0_fp[j][k]); printf("}, "); } printf("\n"); fflush(stdout); } printf("fp count:\n"); for (i = 0; i < 2; ++i) { for (j = 0; j < 4; ++j) printf("%d ", cm->fc.NMVcount.comps[i].fp[j]); printf("\n"); fflush(stdout); } if (usehp) { printf("class0_hp count:\n"); for (i = 0; i < 2; ++i) printf("%d/%d ", cm->fc.NMVcount.comps[i].class0_hp[0], cm->fc.NMVcount.comps[i].class0_hp[1]); printf("\n"); fflush(stdout); printf("hp count:\n"); for (i = 0; i < 2; ++i) printf("%d/%d ", cm->fc.NMVcount.comps[i].hp[0], cm->fc.NMVcount.comps[i].hp[1]); printf("\n"); fflush(stdout); } #endif #ifdef SMOOTH_MV_COUNTS smooth_counts(&cm->fc.NMVcount.comps[0]); smooth_counts(&cm->fc.NMVcount.comps[1]); #endif vp9_counts_to_nmv_context(&cm->fc.NMVcount, &prob, usehp, branch_ct_joint, branch_ct_sign, branch_ct_classes, branch_ct_class0, branch_ct_bits, branch_ct_class0_fp, branch_ct_fp, branch_ct_class0_hp, branch_ct_hp); for (j = 0; j < MV_JOINTS - 1; ++j) { adapt_prob(&cm->fc.nmvc.joints[j], cm->fc.pre_nmvc.joints[j], prob.joints[j], branch_ct_joint[j]); } for (i = 0; i < 2; ++i) { adapt_prob(&cm->fc.nmvc.comps[i].sign, cm->fc.pre_nmvc.comps[i].sign, prob.comps[i].sign, branch_ct_sign[i]); for (j = 0; j < MV_CLASSES - 1; ++j) { adapt_prob(&cm->fc.nmvc.comps[i].classes[j], cm->fc.pre_nmvc.comps[i].classes[j], prob.comps[i].classes[j], branch_ct_classes[i][j]); } for (j = 0; j < CLASS0_SIZE - 1; ++j) { adapt_prob(&cm->fc.nmvc.comps[i].class0[j], cm->fc.pre_nmvc.comps[i].class0[j], prob.comps[i].class0[j], branch_ct_class0[i][j]); } for (j = 0; j < MV_OFFSET_BITS; ++j) { adapt_prob(&cm->fc.nmvc.comps[i].bits[j], cm->fc.pre_nmvc.comps[i].bits[j], prob.comps[i].bits[j], branch_ct_bits[i][j]); } } for (i = 0; i < 2; ++i) { for (j = 0; j < CLASS0_SIZE; ++j) { for (k = 0; k < 3; ++k) { adapt_prob(&cm->fc.nmvc.comps[i].class0_fp[j][k], cm->fc.pre_nmvc.comps[i].class0_fp[j][k], prob.comps[i].class0_fp[j][k], branch_ct_class0_fp[i][j][k]); } } for (j = 0; j < 3; ++j) { adapt_prob(&cm->fc.nmvc.comps[i].fp[j], cm->fc.pre_nmvc.comps[i].fp[j], prob.comps[i].fp[j], branch_ct_fp[i][j]); } } if (usehp) { for (i = 0; i < 2; ++i) { adapt_prob(&cm->fc.nmvc.comps[i].class0_hp, cm->fc.pre_nmvc.comps[i].class0_hp, prob.comps[i].class0_hp, branch_ct_class0_hp[i]); adapt_prob(&cm->fc.nmvc.comps[i].hp, cm->fc.pre_nmvc.comps[i].hp, prob.comps[i].hp, branch_ct_hp[i]); } } } void vp9_entropy_mv_init() { vp9_tokens_from_tree(vp9_mv_joint_encodings, vp9_mv_joint_tree); vp9_tokens_from_tree(vp9_mv_class_encodings, vp9_mv_class_tree); vp9_tokens_from_tree(vp9_mv_class0_encodings, vp9_mv_class0_tree); vp9_tokens_from_tree(vp9_mv_fp_encodings, vp9_mv_fp_tree); } void vp9_init_mv_probs(VP9_COMMON *cm) { vpx_memcpy(&cm->fc.nmvc, &vp9_default_nmv_context, sizeof(nmv_context)); }