d765df2796
stragglers Change-Id: Ib1e853f9a331b7b66639dc34d79568d84d1930f1
381 lines
13 KiB
C
381 lines
13 KiB
C
/*
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* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#ifndef VP9_COMMON_VP9_ENTROPY_H_
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#define VP9_COMMON_VP9_ENTROPY_H_
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#include "vpx/vpx_integer.h"
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#include "vp9/common/vp9_treecoder.h"
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#include "vp9/common/vp9_blockd.h"
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#include "vp9/common/vp9_common.h"
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/* Coefficient token alphabet */
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#define ZERO_TOKEN 0 /* 0 Extra Bits 0+0 */
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#define ONE_TOKEN 1 /* 1 Extra Bits 0+1 */
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#define TWO_TOKEN 2 /* 2 Extra Bits 0+1 */
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#define THREE_TOKEN 3 /* 3 Extra Bits 0+1 */
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#define FOUR_TOKEN 4 /* 4 Extra Bits 0+1 */
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#define DCT_VAL_CATEGORY1 5 /* 5-6 Extra Bits 1+1 */
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#define DCT_VAL_CATEGORY2 6 /* 7-10 Extra Bits 2+1 */
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#define DCT_VAL_CATEGORY3 7 /* 11-18 Extra Bits 3+1 */
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#define DCT_VAL_CATEGORY4 8 /* 19-34 Extra Bits 4+1 */
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#define DCT_VAL_CATEGORY5 9 /* 35-66 Extra Bits 5+1 */
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#define DCT_VAL_CATEGORY6 10 /* 67+ Extra Bits 14+1 */
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#define DCT_EOB_TOKEN 11 /* EOB Extra Bits 0+0 */
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#define MAX_ENTROPY_TOKENS 12
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#define ENTROPY_NODES 11
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#define EOSB_TOKEN 127 /* Not signalled, encoder only */
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#define INTER_MODE_CONTEXTS 7
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extern const vp9_tree_index vp9_coef_tree[];
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#define DCT_EOB_MODEL_TOKEN 3 /* EOB Extra Bits 0+0 */
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extern const vp9_tree_index vp9_coefmodel_tree[];
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extern struct vp9_token vp9_coef_encodings[MAX_ENTROPY_TOKENS];
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typedef struct {
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vp9_tree_p tree;
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const vp9_prob *prob;
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int len;
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int base_val;
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} vp9_extra_bit;
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extern const vp9_extra_bit vp9_extra_bits[12]; /* indexed by token value */
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#define MAX_PROB 255
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#define DCT_MAX_VALUE 16384
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/* Coefficients are predicted via a 3-dimensional probability table. */
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/* Outside dimension. 0 = Y with DC, 1 = UV */
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#define BLOCK_TYPES 2
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#define REF_TYPES 2 // intra=0, inter=1
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/* Middle dimension reflects the coefficient position within the transform. */
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#define COEF_BANDS 6
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/* Inside dimension is measure of nearby complexity, that reflects the energy
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of nearby coefficients are nonzero. For the first coefficient (DC, unless
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block type is 0), we look at the (already encoded) blocks above and to the
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left of the current block. The context index is then the number (0,1,or 2)
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of these blocks having nonzero coefficients.
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After decoding a coefficient, the measure is determined by the size of the
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most recently decoded coefficient.
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Note that the intuitive meaning of this measure changes as coefficients
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are decoded, e.g., prior to the first token, a zero means that my neighbors
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are empty while, after the first token, because of the use of end-of-block,
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a zero means we just decoded a zero and hence guarantees that a non-zero
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coefficient will appear later in this block. However, this shift
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in meaning is perfectly OK because our context depends also on the
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coefficient band (and since zigzag positions 0, 1, and 2 are in
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distinct bands). */
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#define PREV_COEF_CONTEXTS 6
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// #define ENTROPY_STATS
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typedef unsigned int vp9_coeff_count[REF_TYPES][COEF_BANDS][PREV_COEF_CONTEXTS]
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[MAX_ENTROPY_TOKENS];
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typedef unsigned int vp9_coeff_stats[REF_TYPES][COEF_BANDS][PREV_COEF_CONTEXTS]
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[ENTROPY_NODES][2];
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typedef vp9_prob vp9_coeff_probs[REF_TYPES][COEF_BANDS][PREV_COEF_CONTEXTS]
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[ENTROPY_NODES];
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#define SUBEXP_PARAM 4 /* Subexponential code parameter */
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#define MODULUS_PARAM 13 /* Modulus parameter */
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struct VP9Common;
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void vp9_default_coef_probs(struct VP9Common *cm);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_default_scan_4x4[16]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_col_scan_4x4[16]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_row_scan_4x4[16]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_default_scan_8x8[64]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_col_scan_8x8[64]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_row_scan_8x8[64]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_default_scan_16x16[256]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_col_scan_16x16[256]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_row_scan_16x16[256]);
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extern DECLARE_ALIGNED(16, const int16_t, vp9_default_scan_32x32[1024]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_default_iscan_4x4[16]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_col_iscan_4x4[16]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_row_iscan_4x4[16]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_default_iscan_8x8[64]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_col_iscan_8x8[64]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_row_iscan_8x8[64]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_default_iscan_16x16[256]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_col_iscan_16x16[256]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_row_iscan_16x16[256]);
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extern DECLARE_ALIGNED(16, int16_t, vp9_default_iscan_32x32[1024]);
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#define MAX_NEIGHBORS 2
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_default_scan_4x4_neighbors[17 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_col_scan_4x4_neighbors[17 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_row_scan_4x4_neighbors[17 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_col_scan_8x8_neighbors[65 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_row_scan_8x8_neighbors[65 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_default_scan_8x8_neighbors[65 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_col_scan_16x16_neighbors[257 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_row_scan_16x16_neighbors[257 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_default_scan_16x16_neighbors[257 * MAX_NEIGHBORS]);
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extern DECLARE_ALIGNED(16, int16_t,
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vp9_default_scan_32x32_neighbors[1025 * MAX_NEIGHBORS]);
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void vp9_coef_tree_initialize(void);
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void vp9_adapt_coef_probs(struct VP9Common *cm);
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static INLINE void reset_skip_context(MACROBLOCKD *xd, BLOCK_SIZE bsize) {
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int i;
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for (i = 0; i < MAX_MB_PLANE; i++) {
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struct macroblockd_plane *const pd = &xd->plane[i];
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const BLOCK_SIZE plane_bsize = get_plane_block_size(bsize, pd);
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vpx_memset(pd->above_context, 0, sizeof(ENTROPY_CONTEXT) *
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num_4x4_blocks_wide_lookup[plane_bsize]);
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vpx_memset(pd->left_context, 0, sizeof(ENTROPY_CONTEXT) *
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num_4x4_blocks_high_lookup[plane_bsize]);
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}
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}
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// This is the index in the scan order beyond which all coefficients for
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// 8x8 transform and above are in the top band.
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// For 4x4 blocks the index is less but to keep things common the lookup
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// table for 4x4 is padded out to this index.
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#define MAXBAND_INDEX 21
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extern const uint8_t vp9_coefband_trans_8x8plus[MAXBAND_INDEX + 1];
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extern const uint8_t vp9_coefband_trans_4x4[MAXBAND_INDEX + 1];
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static int get_coef_band(const uint8_t * band_translate, int coef_index) {
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return (coef_index > MAXBAND_INDEX)
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? (COEF_BANDS-1) : band_translate[coef_index];
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}
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static INLINE int get_coef_context(const int16_t *neighbors,
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uint8_t *token_cache,
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int c) {
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return (1 + token_cache[neighbors[MAX_NEIGHBORS * c + 0]] +
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token_cache[neighbors[MAX_NEIGHBORS * c + 1]]) >> 1;
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}
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const int16_t *vp9_get_coef_neighbors_handle(const int16_t *scan);
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// 128 lists of probabilities are stored for the following ONE node probs:
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// 1, 3, 5, 7, ..., 253, 255
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// In between probabilities are interpolated linearly
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#define COEFPROB_MODELS 128
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#define UNCONSTRAINED_NODES 3
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#define PIVOT_NODE 2 // which node is pivot
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typedef vp9_prob vp9_coeff_probs_model[REF_TYPES][COEF_BANDS]
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[PREV_COEF_CONTEXTS]
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[UNCONSTRAINED_NODES];
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typedef unsigned int vp9_coeff_count_model[REF_TYPES][COEF_BANDS]
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[PREV_COEF_CONTEXTS]
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[UNCONSTRAINED_NODES + 1];
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typedef unsigned int vp9_coeff_stats_model[REF_TYPES][COEF_BANDS]
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[PREV_COEF_CONTEXTS]
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[UNCONSTRAINED_NODES][2];
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void vp9_model_to_full_probs(const vp9_prob *model, vp9_prob *full);
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static INLINE const int16_t* get_scan_4x4(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_scan_4x4;
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case DCT_ADST:
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return vp9_col_scan_4x4;
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default:
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return vp9_default_scan_4x4;
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}
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}
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static INLINE void get_scan_nb_4x4(TX_TYPE tx_type,
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const int16_t **scan, const int16_t **nb) {
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switch (tx_type) {
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case ADST_DCT:
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*scan = vp9_row_scan_4x4;
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*nb = vp9_row_scan_4x4_neighbors;
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break;
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case DCT_ADST:
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*scan = vp9_col_scan_4x4;
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*nb = vp9_col_scan_4x4_neighbors;
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break;
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default:
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*scan = vp9_default_scan_4x4;
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*nb = vp9_default_scan_4x4_neighbors;
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break;
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}
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}
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static INLINE const int16_t* get_iscan_4x4(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_iscan_4x4;
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case DCT_ADST:
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return vp9_col_iscan_4x4;
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default:
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return vp9_default_iscan_4x4;
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}
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}
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static INLINE const int16_t* get_scan_8x8(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_scan_8x8;
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case DCT_ADST:
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return vp9_col_scan_8x8;
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default:
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return vp9_default_scan_8x8;
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}
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}
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static INLINE void get_scan_nb_8x8(TX_TYPE tx_type,
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const int16_t **scan, const int16_t **nb) {
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switch (tx_type) {
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case ADST_DCT:
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*scan = vp9_row_scan_8x8;
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*nb = vp9_row_scan_8x8_neighbors;
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break;
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case DCT_ADST:
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*scan = vp9_col_scan_8x8;
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*nb = vp9_col_scan_8x8_neighbors;
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break;
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default:
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*scan = vp9_default_scan_8x8;
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*nb = vp9_default_scan_8x8_neighbors;
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break;
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}
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}
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static INLINE const int16_t* get_iscan_8x8(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_iscan_8x8;
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case DCT_ADST:
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return vp9_col_iscan_8x8;
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default:
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return vp9_default_iscan_8x8;
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}
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}
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static INLINE const int16_t* get_scan_16x16(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_scan_16x16;
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case DCT_ADST:
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return vp9_col_scan_16x16;
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default:
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return vp9_default_scan_16x16;
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}
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}
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static INLINE void get_scan_nb_16x16(TX_TYPE tx_type,
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const int16_t **scan, const int16_t **nb) {
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switch (tx_type) {
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case ADST_DCT:
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*scan = vp9_row_scan_16x16;
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*nb = vp9_row_scan_16x16_neighbors;
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break;
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case DCT_ADST:
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*scan = vp9_col_scan_16x16;
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*nb = vp9_col_scan_16x16_neighbors;
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break;
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default:
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*scan = vp9_default_scan_16x16;
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*nb = vp9_default_scan_16x16_neighbors;
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break;
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}
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}
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static INLINE const int16_t* get_iscan_16x16(TX_TYPE tx_type) {
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switch (tx_type) {
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case ADST_DCT:
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return vp9_row_iscan_16x16;
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case DCT_ADST:
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return vp9_col_iscan_16x16;
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default:
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return vp9_default_iscan_16x16;
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}
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}
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static int get_entropy_context(const MACROBLOCKD *xd, TX_SIZE tx_size,
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PLANE_TYPE type, int block_idx,
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ENTROPY_CONTEXT *A, ENTROPY_CONTEXT *L,
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const int16_t **scan,
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const uint8_t **band_translate) {
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ENTROPY_CONTEXT above_ec, left_ec;
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switch (tx_size) {
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case TX_4X4:
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*scan = get_scan_4x4(get_tx_type_4x4(type, xd, block_idx));
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*band_translate = vp9_coefband_trans_4x4;
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above_ec = A[0] != 0;
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left_ec = L[0] != 0;
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break;
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case TX_8X8:
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*scan = get_scan_8x8(get_tx_type_8x8(type, xd));
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*band_translate = vp9_coefband_trans_8x8plus;
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above_ec = !!*(uint16_t *)A;
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left_ec = !!*(uint16_t *)L;
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break;
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case TX_16X16:
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*scan = get_scan_16x16(get_tx_type_16x16(type, xd));
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*band_translate = vp9_coefband_trans_8x8plus;
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above_ec = !!*(uint32_t *)A;
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left_ec = !!*(uint32_t *)L;
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break;
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case TX_32X32:
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*scan = vp9_default_scan_32x32;
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*band_translate = vp9_coefband_trans_8x8plus;
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above_ec = !!*(uint64_t *)A;
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left_ec = !!*(uint64_t *)L;
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break;
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default:
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assert(!"Invalid transform size.");
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}
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return combine_entropy_contexts(above_ec, left_ec);
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}
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enum { VP9_COEF_UPDATE_PROB = 252 };
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#endif // VP9_COMMON_VP9_ENTROPY_H_
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