aom_dsp/bitwriter.h - avm - Git at Google

 /*
  * Copyright (c) 2021, Alliance for Open Media. All rights reserved
  *
  * This source code is subject to the terms of the BSD 3-Clause Clear License
  * and the Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear
  * License was not distributed with this source code in the LICENSE file, you
  * can obtain it at aomedia.org/license/software-license/bsd-3-c-c/.  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
  * aomedia.org/license/patent-license/.
  */

 #ifndef AOM_AOM_DSP_BITWRITER_H_
 #define AOM_AOM_DSP_BITWRITER_H_

 #include <assert.h>

 #include "config/aom_config.h"

 #include "aom_dsp/entenc.h"
 #include "aom_dsp/prob.h"
 #include "aom_dsp_common.h"
 #if ENABLE_LR_4PART_CODE
 #include "aom_dsp/recenter.h"
 #endif  // ENABLE_LR_4PART_CODE

 #if CONFIG_RD_DEBUG
 #include "av1/common/blockd.h"
 #include "av1/common/cost.h"
 #endif

 #if CONFIG_BITSTREAM_DEBUG
 #include "aom_util/debug_util.h"
 #endif  // CONFIG_BITSTREAM_DEBUG

 #ifdef __cplusplus
 extern "C" {
 #endif

 struct aom_writer {
   unsigned int pos;
   uint8_t *buffer;
   od_ec_enc ec;
   uint8_t allow_update_cdf;
 };

 typedef struct aom_writer aom_writer;

 typedef struct TOKEN_STATS {
   int cost;
 #if CONFIG_RD_DEBUG
   int txb_coeff_cost_map[TXB_COEFF_COST_MAP_SIZE][TXB_COEFF_COST_MAP_SIZE];
 #endif
 } TOKEN_STATS;

 static INLINE void init_token_stats(TOKEN_STATS *token_stats) {
 #if CONFIG_RD_DEBUG
   int r, c;
   for (r = 0; r < TXB_COEFF_COST_MAP_SIZE; ++r) {
     for (c = 0; c < TXB_COEFF_COST_MAP_SIZE; ++c) {
       token_stats->txb_coeff_cost_map[r][c] = 0;
     }
   }
 #endif
   token_stats->cost = 0;
 }

 void aom_start_encode(aom_writer *w, uint8_t *buffer);

 int aom_stop_encode(aom_writer *w);

 #if CONFIG_BITSTREAM_DEBUG
 // Push a literal (one or more equi-probably symbols) into
 // the bitstream debug queue, in the same order it is
 // encoded into the stream (msb to lsb).
 static INLINE void bitstream_queue_push_literal(int data, int bits) {
   aom_cdf_prob cdf[2] = { 128, 32767 };
   for (int bit = bits - 1; bit >= 0; bit--) {
     bitstream_queue_push(1 & (data >> bit), cdf, 2);
   }
 }
 #endif  // CONFIG_BITSTREAM_DEBUG

 static INLINE void aom_write(aom_writer *w, int bit, int probability) {
   int p = (0x7FFFFF - (probability << 15) + probability) >> 8;
 #if CONFIG_BITSTREAM_DEBUG
   aom_cdf_prob cdf[2] = { (aom_cdf_prob)p, 32767 };
   bitstream_queue_push(bit, cdf, 2);
 #endif  // CONFIG_BITSTREAM_DEBUG

   od_ec_encode_bool_q15(&w->ec, bit, p);
 }

 static INLINE void aom_write_bit(aom_writer *w, int bit) {
 #if CONFIG_BYPASS_IMPROVEMENT
 #if CONFIG_BITSTREAM_DEBUG
   bitstream_queue_push_literal(bit, 1);
 #endif  // CONFIG_BITSTREAM_DEBUG
   od_ec_encode_literal_bypass(&w->ec, bit, 1);
 #else
   aom_write(w, bit, 128);  // aom_prob_half
 #endif  // CONFIG_BYPASS_IMPROVEMENT
 }

 static INLINE void aom_write_literal(aom_writer *w, int data, int bits) {
 #if CONFIG_BYPASS_IMPROVEMENT
 #if CONFIG_BITSTREAM_DEBUG
   bitstream_queue_push_literal(data, bits);
 #endif  // CONFIG_BITSTREAM_DEBUG
   int n;
   while (bits > 0) {
     n = bits >= 8 ? 8 : bits;
     od_ec_encode_literal_bypass(&w->ec, (data >> (bits - n)), n);
     bits -= n;
     data &= ((1 << bits) - 1);
   }
 #else
   int bit;

   for (bit = bits - 1; bit >= 0; bit--) aom_write_bit(w, 1 & (data >> bit));
 #endif  // CONFIG_BYPASS_IMPROVEMENT
 }

 static INLINE void aom_write_cdf(aom_writer *w, int symb,
                                  const aom_cdf_prob *cdf, int nsymbs) {
 #if CONFIG_BITSTREAM_DEBUG
   bitstream_queue_push(symb, cdf, nsymbs);
 #endif  // CONFIG_BITSTREAM_DEBUG

   od_ec_encode_cdf_q15(&w->ec, symb, cdf, nsymbs);
 }

 static INLINE void aom_write_symbol(aom_writer *w, int symb, aom_cdf_prob *cdf,
                                     int nsymbs) {
   aom_write_cdf(w, symb, cdf, nsymbs);
   if (w->allow_update_cdf) update_cdf(cdf, symb, nsymbs);
 }

 #if ENABLE_LR_4PART_CODE
 // Implements a code where a symbol with an alphabet size a power of 2 with
 // nsymb_bits bits (with nsymb_bits >= 3), is coded by decomposing the symbol
 // into 4 parts covering 1/8, 1/8, 1/4, 1/2 of the total number of symbols.
 // The part is arithmetically coded using the provided cdf of size 4. The
 // offset within each part is coded using fixed length binary codes with
 // (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2) or (nsymb_bits - 1)
 // bits, depending on the part.
 //
 static INLINE int symb_to_part(int symb, int nsymb_bits) {
   assert(nsymb_bits >= 3);
   int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
                        1 << (nsymb_bits - 1) };
   if (symb < part_offs[1])
     return 0;
   else if (symb < part_offs[2])
     return 1;
   else if (symb < part_offs[3])
     return 2;
   else
     return 3;
 }

 static INLINE void aom_write_4part(aom_writer *w, int symb, aom_cdf_prob *cdf,
                                    int nsymb_bits) {
   assert(nsymb_bits >= 3);
   int part;
   int part_bits[4] = { (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2),
                        (nsymb_bits - 1) };
   int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
                        1 << (nsymb_bits - 1) };
   if (symb < part_offs[1])
     part = 0;
   else if (symb < part_offs[2])
     part = 1;
   else if (symb < part_offs[3])
     part = 2;
   else
     part = 3;
   aom_write_symbol(w, part, cdf, 4);
   aom_write_literal(w, symb - part_offs[part], part_bits[part]);
 }

 // Implements a nsymb_bits bit 4-part code that codes a symbol symb given a
 // reference ref_symb after recentering symb around ref_symb.
 static INLINE void aom_write_4part_wref(aom_writer *w, int ref_symb, int symb,
                                         aom_cdf_prob *cdf, int nsymb_bits) {
   const int recentered_symb =
       recenter_finite_nonneg(1 << nsymb_bits, ref_symb, symb);
   aom_write_4part(w, recentered_symb, cdf, nsymb_bits);
 }

 static INLINE int64_t aom_count_4part(int symb, const int *part_cost,
                                       int nsymb_bits, int scale_shift) {
   assert(nsymb_bits >= 3);
   int part_bits[4] = { (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2),
                        (nsymb_bits - 1) };
   int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
                        1 << (nsymb_bits - 1) };
   if (symb < part_offs[1])
     return part_cost[0] + (part_bits[0] << scale_shift);
   else if (symb < part_offs[2])
     return part_cost[1] + (part_bits[1] << scale_shift);
   else if (symb < part_offs[3])
     return part_cost[2] + (part_bits[2] << scale_shift);
   else
     return part_cost[3] + (part_bits[3] << scale_shift);
 }

 static INLINE int64_t aom_count_4part_wref(int ref_symb, int symb,
                                            const int *part_cost, int nsymb_bits,
                                            int scale_shift) {
   const int recentered_symb =
       recenter_finite_nonneg(1 << nsymb_bits, ref_symb, symb);
   return aom_count_4part(recentered_symb, part_cost, nsymb_bits, scale_shift);
 }
 #endif  // ENABLE_LR_4PART_CODE

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

 #endif  // AOM_AOM_DSP_BITWRITER_H_
	/*
	* Copyright (c) 2021, Alliance for Open Media. All rights reserved
	*
	* This source code is subject to the terms of the BSD 3-Clause Clear License
	* and the Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear
	* License was not distributed with this source code in the LICENSE file, you
	* can obtain it at aomedia.org/license/software-license/bsd-3-c-c/. 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
	* aomedia.org/license/patent-license/.
	*/

	#ifndef AOM_AOM_DSP_BITWRITER_H_
	#define AOM_AOM_DSP_BITWRITER_H_

	#include <assert.h>

	#include "config/aom_config.h"

	#include "aom_dsp/entenc.h"
	#include "aom_dsp/prob.h"
	#include "aom_dsp_common.h"
	#if ENABLE_LR_4PART_CODE
	#include "aom_dsp/recenter.h"
	#endif // ENABLE_LR_4PART_CODE

	#if CONFIG_RD_DEBUG
	#include "av1/common/blockd.h"
	#include "av1/common/cost.h"
	#endif

	#if CONFIG_BITSTREAM_DEBUG
	#include "aom_util/debug_util.h"
	#endif // CONFIG_BITSTREAM_DEBUG

	#ifdef __cplusplus
	extern "C" {
	#endif

	struct aom_writer {
	unsigned int pos;
	uint8_t *buffer;
	od_ec_enc ec;
	uint8_t allow_update_cdf;
	};

	typedef struct aom_writer aom_writer;

	typedef struct TOKEN_STATS {
	int cost;
	#if CONFIG_RD_DEBUG
	int txb_coeff_cost_map[TXB_COEFF_COST_MAP_SIZE][TXB_COEFF_COST_MAP_SIZE];
	#endif
	} TOKEN_STATS;

	static INLINE void init_token_stats(TOKEN_STATS *token_stats) {
	#if CONFIG_RD_DEBUG
	int r, c;
	for (r = 0; r < TXB_COEFF_COST_MAP_SIZE; ++r) {
	for (c = 0; c < TXB_COEFF_COST_MAP_SIZE; ++c) {
	token_stats->txb_coeff_cost_map[r][c] = 0;
	}
	}
	#endif
	token_stats->cost = 0;
	}

	void aom_start_encode(aom_writer w, uint8_t buffer);

	int aom_stop_encode(aom_writer *w);

	#if CONFIG_BITSTREAM_DEBUG
	// Push a literal (one or more equi-probably symbols) into
	// the bitstream debug queue, in the same order it is
	// encoded into the stream (msb to lsb).
	static INLINE void bitstream_queue_push_literal(int data, int bits) {
	aom_cdf_prob cdf[2] = { 128, 32767 };
	for (int bit = bits - 1; bit >= 0; bit--) {
	bitstream_queue_push(1 & (data >> bit), cdf, 2);
	}
	}
	#endif // CONFIG_BITSTREAM_DEBUG

	static INLINE void aom_write(aom_writer *w, int bit, int probability) {
	int p = (0x7FFFFF - (probability << 15) + probability) >> 8;
	#if CONFIG_BITSTREAM_DEBUG
	aom_cdf_prob cdf[2] = { (aom_cdf_prob)p, 32767 };
	bitstream_queue_push(bit, cdf, 2);
	#endif // CONFIG_BITSTREAM_DEBUG

	od_ec_encode_bool_q15(&w->ec, bit, p);
	}

	static INLINE void aom_write_bit(aom_writer *w, int bit) {
	#if CONFIG_BYPASS_IMPROVEMENT
	#if CONFIG_BITSTREAM_DEBUG
	bitstream_queue_push_literal(bit, 1);
	#endif // CONFIG_BITSTREAM_DEBUG
	od_ec_encode_literal_bypass(&w->ec, bit, 1);
	#else
	aom_write(w, bit, 128); // aom_prob_half
	#endif // CONFIG_BYPASS_IMPROVEMENT
	}

	static INLINE void aom_write_literal(aom_writer *w, int data, int bits) {
	#if CONFIG_BYPASS_IMPROVEMENT
	#if CONFIG_BITSTREAM_DEBUG
	bitstream_queue_push_literal(data, bits);
	#endif // CONFIG_BITSTREAM_DEBUG
	int n;
	while (bits > 0) {
	n = bits >= 8 ? 8 : bits;
	od_ec_encode_literal_bypass(&w->ec, (data >> (bits - n)), n);
	bits -= n;
	data &= ((1 << bits) - 1);
	}
	#else
	int bit;

	for (bit = bits - 1; bit >= 0; bit--) aom_write_bit(w, 1 & (data >> bit));
	#endif // CONFIG_BYPASS_IMPROVEMENT
	}

	static INLINE void aom_write_cdf(aom_writer *w, int symb,
	const aom_cdf_prob *cdf, int nsymbs) {
	#if CONFIG_BITSTREAM_DEBUG
	bitstream_queue_push(symb, cdf, nsymbs);
	#endif // CONFIG_BITSTREAM_DEBUG

	od_ec_encode_cdf_q15(&w->ec, symb, cdf, nsymbs);
	}

	static INLINE void aom_write_symbol(aom_writer w, int symb, aom_cdf_prob cdf,
	int nsymbs) {
	aom_write_cdf(w, symb, cdf, nsymbs);
	if (w->allow_update_cdf) update_cdf(cdf, symb, nsymbs);
	}

	#if ENABLE_LR_4PART_CODE
	// Implements a code where a symbol with an alphabet size a power of 2 with
	// nsymb_bits bits (with nsymb_bits >= 3), is coded by decomposing the symbol
	// into 4 parts covering 1/8, 1/8, 1/4, 1/2 of the total number of symbols.
	// The part is arithmetically coded using the provided cdf of size 4. The
	// offset within each part is coded using fixed length binary codes with
	// (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2) or (nsymb_bits - 1)
	// bits, depending on the part.
	//
	static INLINE int symb_to_part(int symb, int nsymb_bits) {
	assert(nsymb_bits >= 3);
	int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
	1 << (nsymb_bits - 1) };
	if (symb < part_offs[1])
	return 0;
	else if (symb < part_offs[2])
	return 1;
	else if (symb < part_offs[3])
	return 2;
	else
	return 3;
	}

	static INLINE void aom_write_4part(aom_writer w, int symb, aom_cdf_prob cdf,
	int nsymb_bits) {
	assert(nsymb_bits >= 3);
	int part;
	int part_bits[4] = { (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2),
	(nsymb_bits - 1) };
	int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
	1 << (nsymb_bits - 1) };
	if (symb < part_offs[1])
	part = 0;
	else if (symb < part_offs[2])
	part = 1;
	else if (symb < part_offs[3])
	part = 2;
	else
	part = 3;
	aom_write_symbol(w, part, cdf, 4);
	aom_write_literal(w, symb - part_offs[part], part_bits[part]);
	}

	// Implements a nsymb_bits bit 4-part code that codes a symbol symb given a
	// reference ref_symb after recentering symb around ref_symb.
	static INLINE void aom_write_4part_wref(aom_writer *w, int ref_symb, int symb,
	aom_cdf_prob *cdf, int nsymb_bits) {
	const int recentered_symb =
	recenter_finite_nonneg(1 << nsymb_bits, ref_symb, symb);
	aom_write_4part(w, recentered_symb, cdf, nsymb_bits);
	}

	static INLINE int64_t aom_count_4part(int symb, const int *part_cost,
	int nsymb_bits, int scale_shift) {
	assert(nsymb_bits >= 3);
	int part_bits[4] = { (nsymb_bits - 3), (nsymb_bits - 3), (nsymb_bits - 2),
	(nsymb_bits - 1) };
	int part_offs[4] = { 0, 1 << (nsymb_bits - 3), 1 << (nsymb_bits - 2),
	1 << (nsymb_bits - 1) };
	if (symb < part_offs[1])
	return part_cost[0] + (part_bits[0] << scale_shift);
	else if (symb < part_offs[2])
	return part_cost[1] + (part_bits[1] << scale_shift);
	else if (symb < part_offs[3])
	return part_cost[2] + (part_bits[2] << scale_shift);
	else
	return part_cost[3] + (part_bits[3] << scale_shift);
	}

	static INLINE int64_t aom_count_4part_wref(int ref_symb, int symb,
	const int *part_cost, int nsymb_bits,
	int scale_shift) {
	const int recentered_symb =
	recenter_finite_nonneg(1 << nsymb_bits, ref_symb, symb);
	return aom_count_4part(recentered_symb, part_cost, nsymb_bits, scale_shift);
	}
	#endif // ENABLE_LR_4PART_CODE

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

	#endif // AOM_AOM_DSP_BITWRITER_H_