av1/encoder/tokenize.h - aom - Git at Google

 /*
  * Copyright (c) 2016, Alliance for Open Media. All rights reserved
  *
  * This source code is subject to the terms of the BSD 2 Clause License and
  * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
  * was not distributed with this source code in the LICENSE file, you can
  * obtain it at www.aomedia.org/license/software. If the Alliance for Open
  * Media Patent License 1.0 was not distributed with this source code in the
  * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
  */

 #ifndef AOM_AV1_ENCODER_TOKENIZE_H_
 #define AOM_AV1_ENCODER_TOKENIZE_H_

 #include "av1/common/entropy.h"
 #include "av1/encoder/block.h"
 #include "aom_dsp/bitwriter.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 // The token and color_ctx members of the TokenExtra structure are used
 // to store the indices of color and color context of each pixel in
 // case of palette mode.
 // 1) token can take values in the range of [0, 7] as maximum number of possible
 // colors is 8 (PALETTE_COLORS). Hence token requires 3 bits (unsigned).
 // 2) The reserved field (1-bit) is positioned such that color_ctx occupies the
 // most significant bits and token occupies the least significant bits of the
 // byte. Thus accesses to token and color_ctx are optimal. If TokenExtra is
 // defined as:
 //   typedef struct {
 //     int8_t color_ctx : 4;
 //     uint8_t token : 3;
 //   } TokenExtra;
 // then read of color_ctx requires an extra left shift to facilitate sign
 // extension and write of token requires an extra masking.
 // 3) color_ctx can take 5 (PALETTE_COLOR_INDEX_CONTEXTS) valid values, i.e.,
 // from 0 to 4. As per the current implementation it can take values in the
 // range of [-1, 4]. Here -1 corresponds to invalid color index context and is
 // used for default initialization. Hence color_ctx requires 4 bits (signed).
 typedef struct {
   uint8_t token : 3;
   uint8_t reserved : 1;
   int8_t color_ctx : 4;
 } TokenExtra;

 typedef struct {
   TokenExtra *start;
   unsigned int count;
 } TokenList;

 typedef struct {
   // Number of tile tokens for which memory is allocated.
   unsigned int tokens_allocated;
   // tile_tok[i][j] is a pointer to the buffer storing palette tokens of the ith
   // tile row, jth tile column.
   TokenExtra *tile_tok[MAX_TILE_ROWS][MAX_TILE_COLS];
   // tplist[i][j][k] holds the start pointer of tile_tok[i][j] and the count of
   // palette tokens for the kth superblock row of the ith tile row, jth tile
   // column.
   TokenList *tplist[MAX_TILE_ROWS][MAX_TILE_COLS];
 } TokenInfo;

 struct AV1_COMP;
 struct ThreadData;
 struct FRAME_COUNTS;

 enum {
   OUTPUT_ENABLED = 0,
   DRY_RUN_NORMAL,
   DRY_RUN_COSTCOEFFS,
 } UENUM1BYTE(RUN_TYPE);

 struct tokenize_b_args {
   const struct AV1_COMP *cpi;
   struct ThreadData *td;
   int this_rate;
   uint8_t allow_update_cdf;
   RUN_TYPE dry_run;
 };

 // Note in all the tokenize functions rate if non NULL is incremented
 // with the coefficient token cost only if dry_run = DRY_RUN_COSTCOEFS,
 // otherwise rate is not incremented.
 void av1_tokenize_sb_vartx(const struct AV1_COMP *cpi, struct ThreadData *td,
                            RUN_TYPE dry_run, BLOCK_SIZE bsize, int *rate,
                            uint8_t allow_update_cdf);

 int av1_cost_color_map(const MACROBLOCK *const x, int plane, BLOCK_SIZE bsize,
                        TX_SIZE tx_size, COLOR_MAP_TYPE type);

 void av1_tokenize_color_map(const MACROBLOCK *const x, int plane,
                             TokenExtra **t, BLOCK_SIZE bsize, TX_SIZE tx_size,
                             COLOR_MAP_TYPE type, int allow_update_cdf,
                             struct FRAME_COUNTS *counts);

 static INLINE int av1_get_tx_eob(const struct segmentation *seg, int segment_id,
                                  TX_SIZE tx_size) {
   const int eob_max = av1_get_max_eob(tx_size);
   return segfeature_active(seg, segment_id, SEG_LVL_SKIP) ? 0 : eob_max;
 }

 // Token buffer is only used for palette tokens.
 static INLINE unsigned int get_token_alloc(int mb_rows, int mb_cols,
                                            int sb_size_log2,
                                            const int num_planes) {
   // Calculate the maximum number of max superblocks in the image.
   const int shift = sb_size_log2 - 4;
   const int sb_size = 1 << sb_size_log2;
   const int sb_size_square = sb_size * sb_size;
   const int sb_rows = CEIL_POWER_OF_TWO(mb_rows, shift);
   const int sb_cols = CEIL_POWER_OF_TWO(mb_cols, shift);

   // One palette token for each pixel. There can be palettes on two planes.
   const int sb_palette_toks = AOMMIN(2, num_planes) * sb_size_square;

   return sb_rows * sb_cols * sb_palette_toks;
 }

 // Allocate memory for token related info.
 static AOM_INLINE void alloc_token_info(AV1_COMMON *cm, TokenInfo *token_info,
                                         unsigned int tokens_required) {
   int sb_rows =
       CEIL_POWER_OF_TWO(cm->mi_params.mi_rows, cm->seq_params->mib_size_log2);
   token_info->tokens_allocated = tokens_required;

   CHECK_MEM_ERROR(cm, token_info->tile_tok[0][0],
                   (TokenExtra *)aom_calloc(
                       tokens_required, sizeof(*token_info->tile_tok[0][0])));

   CHECK_MEM_ERROR(
       cm, token_info->tplist[0][0],
       (TokenList *)aom_calloc(sb_rows * MAX_TILE_ROWS * MAX_TILE_COLS,
                               sizeof(*token_info->tplist[0][0])));
 }

 // Check if memory allocation has been done for token related info.
 static AOM_INLINE bool is_token_info_allocated(const TokenInfo *token_info) {
   return ((token_info->tile_tok[0][0] != NULL) &&
           (token_info->tplist[0][0] != NULL));
 }

 // Free memory from token related variables.
 static AOM_INLINE void free_token_info(TokenInfo *token_info) {
   aom_free(token_info->tile_tok[0][0]);
   token_info->tile_tok[0][0] = NULL;

   aom_free(token_info->tplist[0][0]);
   token_info->tplist[0][0] = NULL;

   token_info->tokens_allocated = 0;
 }

 #ifdef __cplusplus
 }  // extern "C"
 #endif

 #endif  // AOM_AV1_ENCODER_TOKENIZE_H_
	/*
	* Copyright (c) 2016, Alliance for Open Media. All rights reserved
	*
	* This source code is subject to the terms of the BSD 2 Clause License and
	* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
	* was not distributed with this source code in the LICENSE file, you can
	* obtain it at www.aomedia.org/license/software. If the Alliance for Open
	* Media Patent License 1.0 was not distributed with this source code in the
	* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
	*/

	#ifndef AOM_AV1_ENCODER_TOKENIZE_H_
	#define AOM_AV1_ENCODER_TOKENIZE_H_

	#include "av1/common/entropy.h"
	#include "av1/encoder/block.h"
	#include "aom_dsp/bitwriter.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	// The token and color_ctx members of the TokenExtra structure are used
	// to store the indices of color and color context of each pixel in
	// case of palette mode.
	// 1) token can take values in the range of [0, 7] as maximum number of possible
	// colors is 8 (PALETTE_COLORS). Hence token requires 3 bits (unsigned).
	// 2) The reserved field (1-bit) is positioned such that color_ctx occupies the
	// most significant bits and token occupies the least significant bits of the
	// byte. Thus accesses to token and color_ctx are optimal. If TokenExtra is
	// defined as:
	// typedef struct {
	// int8_t color_ctx : 4;
	// uint8_t token : 3;
	// } TokenExtra;
	// then read of color_ctx requires an extra left shift to facilitate sign
	// extension and write of token requires an extra masking.
	// 3) color_ctx can take 5 (PALETTE_COLOR_INDEX_CONTEXTS) valid values, i.e.,
	// from 0 to 4. As per the current implementation it can take values in the
	// range of [-1, 4]. Here -1 corresponds to invalid color index context and is
	// used for default initialization. Hence color_ctx requires 4 bits (signed).
	typedef struct {
	uint8_t token : 3;
	uint8_t reserved : 1;
	int8_t color_ctx : 4;
	} TokenExtra;

	typedef struct {
	TokenExtra *start;
	unsigned int count;
	} TokenList;

	typedef struct {
	// Number of tile tokens for which memory is allocated.
	unsigned int tokens_allocated;
	// tile_tok[i][j] is a pointer to the buffer storing palette tokens of the ith
	// tile row, jth tile column.
	TokenExtra *tile_tok[MAX_TILE_ROWS][MAX_TILE_COLS];
	// tplist[i][j][k] holds the start pointer of tile_tok[i][j] and the count of
	// palette tokens for the kth superblock row of the ith tile row, jth tile
	// column.
	TokenList *tplist[MAX_TILE_ROWS][MAX_TILE_COLS];
	} TokenInfo;

	struct AV1_COMP;
	struct ThreadData;
	struct FRAME_COUNTS;

	enum {
	OUTPUT_ENABLED = 0,
	DRY_RUN_NORMAL,
	DRY_RUN_COSTCOEFFS,
	} UENUM1BYTE(RUN_TYPE);

	struct tokenize_b_args {
	const struct AV1_COMP *cpi;
	struct ThreadData *td;
	int this_rate;
	uint8_t allow_update_cdf;
	RUN_TYPE dry_run;
	};

	// Note in all the tokenize functions rate if non NULL is incremented
	// with the coefficient token cost only if dry_run = DRY_RUN_COSTCOEFS,
	// otherwise rate is not incremented.
	void av1_tokenize_sb_vartx(const struct AV1_COMP cpi, struct ThreadData td,
	RUN_TYPE dry_run, BLOCK_SIZE bsize, int *rate,
	uint8_t allow_update_cdf);

	int av1_cost_color_map(const MACROBLOCK *const x, int plane, BLOCK_SIZE bsize,
	TX_SIZE tx_size, COLOR_MAP_TYPE type);

	void av1_tokenize_color_map(const MACROBLOCK *const x, int plane,
	TokenExtra **t, BLOCK_SIZE bsize, TX_SIZE tx_size,
	COLOR_MAP_TYPE type, int allow_update_cdf,
	struct FRAME_COUNTS *counts);

	static INLINE int av1_get_tx_eob(const struct segmentation *seg, int segment_id,
	TX_SIZE tx_size) {
	const int eob_max = av1_get_max_eob(tx_size);
	return segfeature_active(seg, segment_id, SEG_LVL_SKIP) ? 0 : eob_max;
	}

	// Token buffer is only used for palette tokens.
	static INLINE unsigned int get_token_alloc(int mb_rows, int mb_cols,
	int sb_size_log2,
	const int num_planes) {
	// Calculate the maximum number of max superblocks in the image.
	const int shift = sb_size_log2 - 4;
	const int sb_size = 1 << sb_size_log2;
	const int sb_size_square = sb_size * sb_size;
	const int sb_rows = CEIL_POWER_OF_TWO(mb_rows, shift);
	const int sb_cols = CEIL_POWER_OF_TWO(mb_cols, shift);

	// One palette token for each pixel. There can be palettes on two planes.
	const int sb_palette_toks = AOMMIN(2, num_planes) * sb_size_square;

	return sb_rows * sb_cols * sb_palette_toks;
	}

	// Allocate memory for token related info.
	static AOM_INLINE void alloc_token_info(AV1_COMMON cm, TokenInfo token_info,
	unsigned int tokens_required) {
	int sb_rows =
	CEIL_POWER_OF_TWO(cm->mi_params.mi_rows, cm->seq_params->mib_size_log2);
	token_info->tokens_allocated = tokens_required;

	CHECK_MEM_ERROR(cm, token_info->tile_tok[0][0],
	(TokenExtra *)aom_calloc(
	tokens_required, sizeof(*token_info->tile_tok[0][0])));

	CHECK_MEM_ERROR(
	cm, token_info->tplist[0][0],
	(TokenList )aom_calloc(sb_rows MAX_TILE_ROWS * MAX_TILE_COLS,
	sizeof(*token_info->tplist[0][0])));
	}

	// Check if memory allocation has been done for token related info.
	static AOM_INLINE bool is_token_info_allocated(const TokenInfo *token_info) {
	return ((token_info->tile_tok[0][0] != NULL) &&
	(token_info->tplist[0][0] != NULL));
	}

	// Free memory from token related variables.
	static AOM_INLINE void free_token_info(TokenInfo *token_info) {
	aom_free(token_info->tile_tok[0][0]);
	token_info->tile_tok[0][0] = NULL;

	aom_free(token_info->tplist[0][0]);
	token_info->tplist[0][0] = NULL;

	token_info->tokens_allocated = 0;
	}

	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // AOM_AV1_ENCODER_TOKENIZE_H_