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android / platform / external / libvpx / 4ec72fb10684276b048d5b3a6ba7a88d43b06411 / . / libvpx / vp9 / decoder / vp9_detokenize.c
blob: 91cdf3860e87d3dadc3577274ca6957becd5b84f [file] [log] [blame]
/*
* 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 "vpx_mem/vpx_mem.h"
#include "vpx_ports/mem.h"
#include "vp9/common/vp9_blockd.h"
#include "vp9/common/vp9_common.h"
#include "vp9/decoder/vp9_detokenize.h"
#define EOB_CONTEXT_NODE 0
#define ZERO_CONTEXT_NODE 1
#define ONE_CONTEXT_NODE 2
#define LOW_VAL_CONTEXT_NODE 0
#define TWO_CONTEXT_NODE 1
#define THREE_CONTEXT_NODE 2
#define HIGH_LOW_CONTEXT_NODE 3
#define CAT_ONE_CONTEXT_NODE 4
#define CAT_THREEFOUR_CONTEXT_NODE 5
#define CAT_THREE_CONTEXT_NODE 6
#define CAT_FIVE_CONTEXT_NODE 7
#define INCREMENT_COUNT(token) \
do { \
if (!cm->frame_parallel_decoding_mode) \
++coef_counts[band][ctx][token]; \
} while (0)
#define WRITE_COEF_CONTINUE(val, token) \
{ \
v = (val * dqv) >> dq_shift; \
dqcoeff[scan[c]] = vp9_read_bit(r) ? -v : v; \
token_cache[scan[c]] = vp9_pt_energy_class[token]; \
++c; \
ctx = get_coef_context(nb, token_cache, c); \
dqv = dq[1]; \
continue; \
}
#define ADJUST_COEF(prob, bits_count) \
do { \
val += (vp9_read(r, prob) << bits_count); \
} while (0)
static int decode_coefs(VP9_COMMON *cm, const MACROBLOCKD *xd, PLANE_TYPE type,
int16_t *dqcoeff, TX_SIZE tx_size, const int16_t *dq,
int ctx, const int16_t *scan, const int16_t *nb,
vp9_reader *r) {
const int max_eob = 16 << (tx_size << 1);
const FRAME_CONTEXT *const fc = &cm->fc;
FRAME_COUNTS *const counts = &cm->counts;
const int ref = is_inter_block(&xd->mi[0]->mbmi);
int band, c = 0;
const vp9_prob (*coef_probs)[COEFF_CONTEXTS][UNCONSTRAINED_NODES] =
fc->coef_probs[tx_size][type][ref];
const vp9_prob *prob;
unsigned int (*coef_counts)[COEFF_CONTEXTS][UNCONSTRAINED_NODES + 1] =
counts->coef[tx_size][type][ref];
unsigned int (*eob_branch_count)[COEFF_CONTEXTS] =
counts->eob_branch[tx_size][type][ref];
uint8_t token_cache[32 * 32];
const uint8_t *band_translate = get_band_translate(tx_size);
const int dq_shift = (tx_size == TX_32X32);
int v;
int16_t dqv = dq[0];
while (c < max_eob) {
int val;
band = *band_translate++;
prob = coef_probs[band][ctx];
if (!cm->frame_parallel_decoding_mode)
++eob_branch_count[band][ctx];
if (!vp9_read(r, prob[EOB_CONTEXT_NODE])) {
INCREMENT_COUNT(EOB_MODEL_TOKEN);
break;
}
while (!vp9_read(r, prob[ZERO_CONTEXT_NODE])) {
INCREMENT_COUNT(ZERO_TOKEN);
dqv = dq[1];
token_cache[scan[c]] = 0;
++c;
if (c >= max_eob)
return c; // zero tokens at the end (no eob token)
ctx = get_coef_context(nb, token_cache, c);
band = *band_translate++;
prob = coef_probs[band][ctx];
}
// ONE_CONTEXT_NODE_0_
if (!vp9_read(r, prob[ONE_CONTEXT_NODE])) {
INCREMENT_COUNT(ONE_TOKEN);
WRITE_COEF_CONTINUE(1, ONE_TOKEN);
}
INCREMENT_COUNT(TWO_TOKEN);
prob = vp9_pareto8_full[prob[PIVOT_NODE] - 1];
if (!vp9_read(r, prob[LOW_VAL_CONTEXT_NODE])) {
if (!vp9_read(r, prob[TWO_CONTEXT_NODE])) {
WRITE_COEF_CONTINUE(2, TWO_TOKEN);
}
if (!vp9_read(r, prob[THREE_CONTEXT_NODE])) {
WRITE_COEF_CONTINUE(3, THREE_TOKEN);
}
WRITE_COEF_CONTINUE(4, FOUR_TOKEN);
}
if (!vp9_read(r, prob[HIGH_LOW_CONTEXT_NODE])) {
if (!vp9_read(r, prob[CAT_ONE_CONTEXT_NODE])) {
val = CAT1_MIN_VAL;
ADJUST_COEF(vp9_cat1_prob[0], 0);
WRITE_COEF_CONTINUE(val, CATEGORY1_TOKEN);
}
val = CAT2_MIN_VAL;
ADJUST_COEF(vp9_cat2_prob[0], 1);
ADJUST_COEF(vp9_cat2_prob[1], 0);
WRITE_COEF_CONTINUE(val, CATEGORY2_TOKEN);
}
if (!vp9_read(r, prob[CAT_THREEFOUR_CONTEXT_NODE])) {
if (!vp9_read(r, prob[CAT_THREE_CONTEXT_NODE])) {
val = CAT3_MIN_VAL;
ADJUST_COEF(vp9_cat3_prob[0], 2);
ADJUST_COEF(vp9_cat3_prob[1], 1);
ADJUST_COEF(vp9_cat3_prob[2], 0);
WRITE_COEF_CONTINUE(val, CATEGORY3_TOKEN);
}
val = CAT4_MIN_VAL;
ADJUST_COEF(vp9_cat4_prob[0], 3);
ADJUST_COEF(vp9_cat4_prob[1], 2);
ADJUST_COEF(vp9_cat4_prob[2], 1);
ADJUST_COEF(vp9_cat4_prob[3], 0);
WRITE_COEF_CONTINUE(val, CATEGORY4_TOKEN);
}
if (!vp9_read(r, prob[CAT_FIVE_CONTEXT_NODE])) {
val = CAT5_MIN_VAL;
ADJUST_COEF(vp9_cat5_prob[0], 4);
ADJUST_COEF(vp9_cat5_prob[1], 3);
ADJUST_COEF(vp9_cat5_prob[2], 2);
ADJUST_COEF(vp9_cat5_prob[3], 1);
ADJUST_COEF(vp9_cat5_prob[4], 0);
WRITE_COEF_CONTINUE(val, CATEGORY5_TOKEN);
}
val = 0;
val = (val << 1) | vp9_read(r, vp9_cat6_prob[0]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[1]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[2]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[3]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[4]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[5]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[6]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[7]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[8]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[9]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[10]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[11]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[12]);
val = (val << 1) | vp9_read(r, vp9_cat6_prob[13]);
val += CAT6_MIN_VAL;
WRITE_COEF_CONTINUE(val, CATEGORY6_TOKEN);
}
return c;
}
int vp9_decode_block_tokens(VP9_COMMON *cm, MACROBLOCKD *xd,
int plane, int block, BLOCK_SIZE plane_bsize,
int x, int y, TX_SIZE tx_size, vp9_reader *r) {
struct macroblockd_plane *const pd = &xd->plane[plane];
const int ctx = get_entropy_context(tx_size, pd->above_context + x,
pd->left_context + y);
const scan_order *so = get_scan(xd, tx_size, pd->plane_type, block);
const int eob = decode_coefs(cm, xd, pd->plane_type,
BLOCK_OFFSET(pd->dqcoeff, block), tx_size,
pd->dequant, ctx, so->scan, so->neighbors, r);
vp9_set_contexts(xd, pd, plane_bsize, tx_size, eob > 0, x, y);
return eob;
}