av1/common/txb_common.h - aom - Git at Google

 /*
  * Copyright (c) 2017, 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 AV1_COMMON_TXB_COMMON_H_
 #define AV1_COMMON_TXB_COMMON_H_
 extern const int16_t av1_coeff_band_4x4[16];

 extern const int16_t av1_coeff_band_8x8[64];

 extern const int16_t av1_coeff_band_16x16[256];

 extern const int16_t av1_coeff_band_32x32[1024];

 typedef struct txb_ctx {
   int txb_skip_ctx;
   int dc_sign_ctx;
 } TXB_CTX;

 static INLINE TX_SIZE get_txsize_context(TX_SIZE tx_size) {
   return txsize_sqr_up_map[tx_size];
 }

 static int base_ref_offset[BASE_CONTEXT_POSITION_NUM][2] = {
   /* clang-format off*/
   { -2, 0 }, { -1, -1 }, { -1, 0 }, { -1, 1 }, { 0, -2 }, { 0, -1 }, { 0, 1 },
   { 0, 2 },  { 1, -1 },  { 1, 0 },  { 1, 1 },  { 2, 0 }
   /* clang-format on*/
 };

 static INLINE int get_level_count(const tran_low_t *tcoeffs, int bwl,
                                   int height, int row, int col, int level,
                                   int (*nb_offset)[2], int nb_num) {
   int count = 0;
   for (int idx = 0; idx < nb_num; ++idx) {
     const int ref_row = row + nb_offset[idx][0];
     const int ref_col = col + nb_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height ||
         ref_col >= (1 << bwl))
       continue;
     const int pos = (ref_row << bwl) + ref_col;
     tran_low_t abs_coeff = abs(tcoeffs[pos]);
     count += abs_coeff > level;
   }
   return count;
 }

 static INLINE void get_mag(int *mag, const tran_low_t *tcoeffs, int bwl,
                            int height, int row, int col, int (*nb_offset)[2],
                            int nb_num) {
   mag[0] = 0;
   mag[1] = 0;
   for (int idx = 0; idx < nb_num; ++idx) {
     const int ref_row = row + nb_offset[idx][0];
     const int ref_col = col + nb_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height ||
         ref_col >= (1 << bwl))
       continue;
     const int pos = (ref_row << bwl) + ref_col;
     tran_low_t abs_coeff = abs(tcoeffs[pos]);
     if (nb_offset[idx][0] >= 0 && nb_offset[idx][1] >= 0) {
       if (abs_coeff > mag[0]) {
         mag[0] = abs_coeff;
         mag[1] = 1;
       } else if (abs_coeff == mag[0]) {
         ++mag[1];
       }
     }
   }
 }

 static INLINE void get_base_count_mag(int *mag, int *count,
                                       const tran_low_t *tcoeffs, int bwl,
                                       int height, int row, int col) {
   mag[0] = 0;
   mag[1] = 0;
   for (int i = 0; i < NUM_BASE_LEVELS; ++i) count[i] = 0;
   for (int idx = 0; idx < BASE_CONTEXT_POSITION_NUM; ++idx) {
     const int ref_row = row + base_ref_offset[idx][0];
     const int ref_col = col + base_ref_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height ||
         ref_col >= (1 << bwl))
       continue;
     const int pos = (ref_row << bwl) + ref_col;
     tran_low_t abs_coeff = abs(tcoeffs[pos]);
     // count
     for (int i = 0; i < NUM_BASE_LEVELS; ++i) {
       count[i] += abs_coeff > i;
     }
     // mag
     if (base_ref_offset[idx][0] >= 0 && base_ref_offset[idx][1] >= 0) {
       if (abs_coeff > mag[0]) {
         mag[0] = abs_coeff;
         mag[1] = 1;
       } else if (abs_coeff == mag[0]) {
         ++mag[1];
       }
     }
   }
 }

 static INLINE int get_level_count_mag(int *mag, const tran_low_t *tcoeffs,
                                       int bwl, int height, int row, int col,
                                       int level, int (*nb_offset)[2],
                                       int nb_num) {
   const int stride = 1 << bwl;
   int count = 0;
   *mag = 0;
   for (int idx = 0; idx < nb_num; ++idx) {
     const int ref_row = row + nb_offset[idx][0];
     const int ref_col = col + nb_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height || ref_col >= stride)
       continue;
     const int pos = (ref_row << bwl) + ref_col;
     tran_low_t abs_coeff = abs(tcoeffs[pos]);
     count += abs_coeff > level;
     if (nb_offset[idx][0] >= 0 && nb_offset[idx][1] >= 0)
       *mag = AOMMAX(*mag, abs_coeff);
   }
   return count;
 }

 static INLINE int get_base_ctx_from_count_mag(int row, int col, int count,
                                               int sig_mag) {
   const int ctx = (count + 1) >> 1;
   int ctx_idx = -1;
   if (row == 0 && col == 0) {
     ctx_idx = (ctx << 1) + sig_mag;
     // TODO(angiebird): turn this on once the optimization is finalized
     // assert(ctx_idx < 8);
   } else if (row == 0) {
     ctx_idx = 8 + (ctx << 1) + sig_mag;
     // TODO(angiebird): turn this on once the optimization is finalized
     // assert(ctx_idx < 18);
   } else if (col == 0) {
     ctx_idx = 8 + 10 + (ctx << 1) + sig_mag;
     // TODO(angiebird): turn this on once the optimization is finalized
     // assert(ctx_idx < 28);
   } else {
     ctx_idx = 8 + 10 + 10 + (ctx << 1) + sig_mag;
     assert(ctx_idx < COEFF_BASE_CONTEXTS);
   }
   return ctx_idx;
 }

 static INLINE int get_base_ctx(const tran_low_t *tcoeffs,
                                int c,  // raster order
                                const int bwl, const int height,
                                const int level) {
   const int row = c >> bwl;
   const int col = c - (row << bwl);
   const int level_minus_1 = level - 1;
   int mag;
   int count =
       get_level_count_mag(&mag, tcoeffs, bwl, height, row, col, level_minus_1,
                           base_ref_offset, BASE_CONTEXT_POSITION_NUM);
   int ctx_idx = get_base_ctx_from_count_mag(row, col, count, mag > level);
   return ctx_idx;
 }

 #define BR_CONTEXT_POSITION_NUM 8  // Base range coefficient context
 static int br_ref_offset[BR_CONTEXT_POSITION_NUM][2] = {
   /* clang-format off*/
   { -1, -1 }, { -1, 0 }, { -1, 1 }, { 0, -1 },
   { 0, 1 },   { 1, -1 }, { 1, 0 },  { 1, 1 },
   /* clang-format on*/
 };

 static const int br_level_map[9] = {
   0, 0, 1, 1, 2, 2, 3, 3, 3,
 };

 static const int coeff_to_br_index[COEFF_BASE_RANGE] = {
   0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2,
 };

 static const int br_index_to_coeff[BASE_RANGE_SETS] = {
   0, 2, 6,
 };

 static const int br_extra_bits[BASE_RANGE_SETS] = {
   1, 2, 3,
 };

 #define BR_MAG_OFFSET 1
 // TODO(angiebird): optimize this function by using a table to map from
 // count/mag to ctx

 static INLINE int get_br_count_mag(int *mag, const tran_low_t *tcoeffs, int bwl,
                                    int height, int row, int col, int level) {
   mag[0] = 0;
   mag[1] = 0;
   int count = 0;
   for (int idx = 0; idx < BR_CONTEXT_POSITION_NUM; ++idx) {
     const int ref_row = row + br_ref_offset[idx][0];
     const int ref_col = col + br_ref_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height ||
         ref_col >= (1 << bwl))
       continue;
     const int pos = (ref_row << bwl) + ref_col;
     tran_low_t abs_coeff = abs(tcoeffs[pos]);
     count += abs_coeff > level;
     if (br_ref_offset[idx][0] >= 0 && br_ref_offset[idx][1] >= 0) {
       if (abs_coeff > mag[0]) {
         mag[0] = abs_coeff;
         mag[1] = 1;
       } else if (abs_coeff == mag[0]) {
         ++mag[1];
       }
     }
   }
   return count;
 }

 static INLINE int get_br_ctx_from_count_mag(int row, int col, int count,
                                             int mag) {
   int offset = 0;
   if (mag <= BR_MAG_OFFSET)
     offset = 0;
   else if (mag <= 3)
     offset = 1;
   else if (mag <= 5)
     offset = 2;
   else
     offset = 3;

   int ctx = br_level_map[count];
   ctx += offset * BR_TMP_OFFSET;

   // DC: 0 - 1
   if (row == 0 && col == 0) return ctx;

   // Top row: 2 - 4
   if (row == 0) return 2 + ctx;

   // Left column: 5 - 7
   if (col == 0) return 5 + ctx;

   // others: 8 - 11
   return 8 + ctx;
 }

 static INLINE int get_br_ctx(const tran_low_t *tcoeffs,
                              const int c,  // raster order
                              const int bwl, const int height) {
   const int row = c >> bwl;
   const int col = c - (row << bwl);
   const int level_minus_1 = NUM_BASE_LEVELS;
   int mag;
   const int count =
       get_level_count_mag(&mag, tcoeffs, bwl, height, row, col, level_minus_1,
                           br_ref_offset, BR_CONTEXT_POSITION_NUM);
   const int ctx = get_br_ctx_from_count_mag(row, col, count, mag);
   return ctx;
 }

 #define SIG_REF_OFFSET_NUM 7
 static int sig_ref_offset[SIG_REF_OFFSET_NUM][2] = {
   { -2, -1 }, { -2, 0 }, { -1, -2 }, { -1, -1 },
   { -1, 0 },  { 0, -2 }, { 0, -1 },
 };

 static INLINE int get_nz_count(const tran_low_t *tcoeffs, int bwl, int height,
                                int row, int col) {
   int count = 0;
   for (int idx = 0; idx < SIG_REF_OFFSET_NUM; ++idx) {
     const int ref_row = row + sig_ref_offset[idx][0];
     const int ref_col = col + sig_ref_offset[idx][1];
     if (ref_row < 0 || ref_col < 0 || ref_row >= height ||
         ref_col >= (1 << bwl))
       continue;
     const int nb_pos = (ref_row << bwl) + ref_col;
     count += (tcoeffs[nb_pos] != 0);
   }
   return count;
 }

 static INLINE TX_CLASS get_tx_class(TX_TYPE tx_type) {
   switch (tx_type) {
 #if CONFIG_EXT_TX
     case V_DCT:
     case V_ADST:
     case V_FLIPADST: return TX_CLASS_VERT;
     case H_DCT:
     case H_ADST:
     case H_FLIPADST: return TX_CLASS_HORIZ;
 #endif
     default: return TX_CLASS_2D;
   }
 }

 // TODO(angiebird): optimize this function by generate a table that maps from
 // count to ctx
 static INLINE int get_nz_map_ctx_from_count(int count,
                                             int coeff_idx,  // raster order
                                             int bwl, TX_TYPE tx_type) {
   (void)tx_type;
   const int row = coeff_idx >> bwl;
   const int col = coeff_idx - (row << bwl);
   int ctx = 0;
 #if CONFIG_EXT_TX
   int tx_class = get_tx_class(tx_type);
   int offset;
   if (tx_class == TX_CLASS_2D)
     offset = 0;
   else if (tx_class == TX_CLASS_VERT)
     offset = SIG_COEF_CONTEXTS_2D;
   else
     offset = SIG_COEF_CONTEXTS_2D + SIG_COEF_CONTEXTS_1D;
 #else
   int offset = 0;
 #endif

   if (row == 0 && col == 0) return offset + 0;

   if (row == 0 && col == 1) return offset + 1 + count;

   if (row == 1 && col == 0) return offset + 3 + count;

   if (row == 1 && col == 1) {
     ctx = (count + 1) >> 1;

     assert(5 + ctx <= 7);

     return offset + 5 + ctx;
   }

   if (row == 0) {
     ctx = (count + 1) >> 1;

     assert(ctx < 2);
     return offset + 8 + ctx;
   }

   if (col == 0) {
     ctx = (count + 1) >> 1;

     assert(ctx < 2);
     return offset + 10 + ctx;
   }

   ctx = count >> 1;

   assert(12 + ctx < 16);

   return offset + 12 + ctx;
 }

 static INLINE int get_nz_map_ctx(const tran_low_t *tcoeffs,
                                  const int coeff_idx,  // raster order
                                  const int bwl, const int height,
                                  TX_TYPE tx_type) {
   const int row = coeff_idx >> bwl;
   const int col = coeff_idx - (row << bwl);
   int count = get_nz_count(tcoeffs, bwl, height, row, col);
   return get_nz_map_ctx_from_count(count, coeff_idx, bwl, tx_type);
 }

 static INLINE int get_eob_ctx(const tran_low_t *tcoeffs,
                               const int coeff_idx,  // raster order
                               const TX_SIZE txs_ctx, TX_TYPE tx_type) {
   (void)tcoeffs;
   (void)tx_type;
   if (txs_ctx == TX_4X4) return av1_coeff_band_4x4[coeff_idx];
   if (txs_ctx == TX_8X8) return av1_coeff_band_8x8[coeff_idx];
   if (txs_ctx == TX_16X16) return av1_coeff_band_16x16[coeff_idx];
   if (txs_ctx == TX_32X32) return av1_coeff_band_32x32[coeff_idx];

   assert(0);
   return 0;
 }

 static INLINE void set_dc_sign(int *cul_level, tran_low_t v) {
   if (v < 0)
     *cul_level |= 1 << COEFF_CONTEXT_BITS;
   else if (v > 0)
     *cul_level += 2 << COEFF_CONTEXT_BITS;
 }

 static INLINE int get_dc_sign_ctx(int dc_sign) {
   int dc_sign_ctx = 0;
   if (dc_sign < 0)
     dc_sign_ctx = 1;
   else if (dc_sign > 0)
     dc_sign_ctx = 2;

   return dc_sign_ctx;
 }

 static INLINE void get_txb_ctx(BLOCK_SIZE plane_bsize, TX_SIZE tx_size,
                                int plane, const ENTROPY_CONTEXT *a,
                                const ENTROPY_CONTEXT *l, TXB_CTX *txb_ctx) {
   const int txb_w_unit = tx_size_wide_unit[tx_size];
   const int txb_h_unit = tx_size_high_unit[tx_size];
   int ctx_offset = (plane == 0) ? 0 : 7;

   if (plane_bsize > txsize_to_bsize[tx_size]) ctx_offset += 3;

   int dc_sign = 0;
   for (int k = 0; k < txb_w_unit; ++k) {
     int sign = ((uint8_t)a[k]) >> COEFF_CONTEXT_BITS;
     if (sign == 1)
       --dc_sign;
     else if (sign == 2)
       ++dc_sign;
     else if (sign != 0)
       assert(0);
   }

   for (int k = 0; k < txb_h_unit; ++k) {
     int sign = ((uint8_t)l[k]) >> COEFF_CONTEXT_BITS;
     if (sign == 1)
       --dc_sign;
     else if (sign == 2)
       ++dc_sign;
     else if (sign != 0)
       assert(0);
   }

   txb_ctx->dc_sign_ctx = get_dc_sign_ctx(dc_sign);

   if (plane == 0) {
     int top = 0;
     int left = 0;

     for (int k = 0; k < txb_w_unit; ++k) {
       top = AOMMAX(top, ((uint8_t)a[k] & COEFF_CONTEXT_MASK));
     }

     for (int k = 0; k < txb_h_unit; ++k) {
       left = AOMMAX(left, ((uint8_t)l[k] & COEFF_CONTEXT_MASK));
     }

     top = AOMMIN(top, 255);
     left = AOMMIN(left, 255);

     if (plane_bsize == txsize_to_bsize[tx_size])
       txb_ctx->txb_skip_ctx = 0;
     else if (top == 0 && left == 0)
       txb_ctx->txb_skip_ctx = 1;
     else if (top == 0 || left == 0)
       txb_ctx->txb_skip_ctx = 2 + (AOMMAX(top, left) > 3);
     else if (AOMMAX(top, left) <= 3)
       txb_ctx->txb_skip_ctx = 4;
     else if (AOMMIN(top, left) <= 3)
       txb_ctx->txb_skip_ctx = 5;
     else
       txb_ctx->txb_skip_ctx = 6;
   } else {
     int ctx_base = get_entropy_context(tx_size, a, l);
     txb_ctx->txb_skip_ctx = ctx_offset + ctx_base;
   }
 }

 #if LV_MAP_PROB
 void av1_init_txb_probs(FRAME_CONTEXT *fc);
 #endif  // LV_MAP_PROB

 void av1_adapt_txb_probs(AV1_COMMON *cm, unsigned int count_sat,
                          unsigned int update_factor);

 void av1_init_lv_map(AV1_COMMON *cm);
 #endif  // AV1_COMMON_TXB_COMMON_H_
	/*
	* Copyright (c) 2017, 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 AV1_COMMON_TXB_COMMON_H_
	#define AV1_COMMON_TXB_COMMON_H_
	extern const int16_t av1_coeff_band_4x4[16];

	extern const int16_t av1_coeff_band_8x8[64];

	extern const int16_t av1_coeff_band_16x16[256];

	extern const int16_t av1_coeff_band_32x32[1024];

	typedef struct txb_ctx {
	int txb_skip_ctx;
	int dc_sign_ctx;
	} TXB_CTX;

	static INLINE TX_SIZE get_txsize_context(TX_SIZE tx_size) {
	return txsize_sqr_up_map[tx_size];
	}

	static int base_ref_offset[BASE_CONTEXT_POSITION_NUM][2] = {
	/* clang-format off*/
	{ -2, 0 }, { -1, -1 }, { -1, 0 }, { -1, 1 }, { 0, -2 }, { 0, -1 }, { 0, 1 },
	{ 0, 2 }, { 1, -1 }, { 1, 0 }, { 1, 1 }, { 2, 0 }
	/* clang-format on*/
	};

	static INLINE int get_level_count(const tran_low_t *tcoeffs, int bwl,
	int height, int row, int col, int level,
	int (*nb_offset)[2], int nb_num) {
	int count = 0;
	for (int idx = 0; idx < nb_num; ++idx) {
	const int ref_row = row + nb_offset[idx][0];
	const int ref_col = col + nb_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\|
	ref_col >= (1 << bwl))
	continue;
	const int pos = (ref_row << bwl) + ref_col;
	tran_low_t abs_coeff = abs(tcoeffs[pos]);
	count += abs_coeff > level;
	}
	return count;
	}

	static INLINE void get_mag(int mag, const tran_low_t tcoeffs, int bwl,
	int height, int row, int col, int (*nb_offset)[2],
	int nb_num) {
	mag[0] = 0;
	mag[1] = 0;
	for (int idx = 0; idx < nb_num; ++idx) {
	const int ref_row = row + nb_offset[idx][0];
	const int ref_col = col + nb_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\|
	ref_col >= (1 << bwl))
	continue;
	const int pos = (ref_row << bwl) + ref_col;
	tran_low_t abs_coeff = abs(tcoeffs[pos]);
	if (nb_offset[idx][0] >= 0 && nb_offset[idx][1] >= 0) {
	if (abs_coeff > mag[0]) {
	mag[0] = abs_coeff;
	mag[1] = 1;
	} else if (abs_coeff == mag[0]) {
	++mag[1];
	}
	}
	}
	}

	static INLINE void get_base_count_mag(int mag, int count,
	const tran_low_t *tcoeffs, int bwl,
	int height, int row, int col) {
	mag[0] = 0;
	mag[1] = 0;
	for (int i = 0; i < NUM_BASE_LEVELS; ++i) count[i] = 0;
	for (int idx = 0; idx < BASE_CONTEXT_POSITION_NUM; ++idx) {
	const int ref_row = row + base_ref_offset[idx][0];
	const int ref_col = col + base_ref_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\|
	ref_col >= (1 << bwl))
	continue;
	const int pos = (ref_row << bwl) + ref_col;
	tran_low_t abs_coeff = abs(tcoeffs[pos]);
	// count
	for (int i = 0; i < NUM_BASE_LEVELS; ++i) {
	count[i] += abs_coeff > i;
	}
	// mag
	if (base_ref_offset[idx][0] >= 0 && base_ref_offset[idx][1] >= 0) {
	if (abs_coeff > mag[0]) {
	mag[0] = abs_coeff;
	mag[1] = 1;
	} else if (abs_coeff == mag[0]) {
	++mag[1];
	}
	}
	}
	}

	static INLINE int get_level_count_mag(int mag, const tran_low_t tcoeffs,
	int bwl, int height, int row, int col,
	int level, int (*nb_offset)[2],
	int nb_num) {
	const int stride = 1 << bwl;
	int count = 0;
	*mag = 0;
	for (int idx = 0; idx < nb_num; ++idx) {
	const int ref_row = row + nb_offset[idx][0];
	const int ref_col = col + nb_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\| ref_col >= stride)
	continue;
	const int pos = (ref_row << bwl) + ref_col;
	tran_low_t abs_coeff = abs(tcoeffs[pos]);
	count += abs_coeff > level;
	if (nb_offset[idx][0] >= 0 && nb_offset[idx][1] >= 0)
	mag = AOMMAX(mag, abs_coeff);
	}
	return count;
	}

	static INLINE int get_base_ctx_from_count_mag(int row, int col, int count,
	int sig_mag) {
	const int ctx = (count + 1) >> 1;
	int ctx_idx = -1;
	if (row == 0 && col == 0) {
	ctx_idx = (ctx << 1) + sig_mag;
	// TODO(angiebird): turn this on once the optimization is finalized
	// assert(ctx_idx < 8);
	} else if (row == 0) {
	ctx_idx = 8 + (ctx << 1) + sig_mag;
	// TODO(angiebird): turn this on once the optimization is finalized
	// assert(ctx_idx < 18);
	} else if (col == 0) {
	ctx_idx = 8 + 10 + (ctx << 1) + sig_mag;
	// TODO(angiebird): turn this on once the optimization is finalized
	// assert(ctx_idx < 28);
	} else {
	ctx_idx = 8 + 10 + 10 + (ctx << 1) + sig_mag;
	assert(ctx_idx < COEFF_BASE_CONTEXTS);
	}
	return ctx_idx;
	}

	static INLINE int get_base_ctx(const tran_low_t *tcoeffs,
	int c, // raster order
	const int bwl, const int height,
	const int level) {
	const int row = c >> bwl;
	const int col = c - (row << bwl);
	const int level_minus_1 = level - 1;
	int mag;
	int count =
	get_level_count_mag(&mag, tcoeffs, bwl, height, row, col, level_minus_1,
	base_ref_offset, BASE_CONTEXT_POSITION_NUM);
	int ctx_idx = get_base_ctx_from_count_mag(row, col, count, mag > level);
	return ctx_idx;
	}

	#define BR_CONTEXT_POSITION_NUM 8 // Base range coefficient context
	static int br_ref_offset[BR_CONTEXT_POSITION_NUM][2] = {
	/* clang-format off*/
	{ -1, -1 }, { -1, 0 }, { -1, 1 }, { 0, -1 },
	{ 0, 1 }, { 1, -1 }, { 1, 0 }, { 1, 1 },
	/* clang-format on*/
	};

	static const int br_level_map[9] = {
	0, 0, 1, 1, 2, 2, 3, 3, 3,
	};

	static const int coeff_to_br_index[COEFF_BASE_RANGE] = {
	0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2,
	};

	static const int br_index_to_coeff[BASE_RANGE_SETS] = {
	0, 2, 6,
	};

	static const int br_extra_bits[BASE_RANGE_SETS] = {
	1, 2, 3,
	};

	#define BR_MAG_OFFSET 1
	// TODO(angiebird): optimize this function by using a table to map from
	// count/mag to ctx

	static INLINE int get_br_count_mag(int mag, const tran_low_t tcoeffs, int bwl,
	int height, int row, int col, int level) {
	mag[0] = 0;
	mag[1] = 0;
	int count = 0;
	for (int idx = 0; idx < BR_CONTEXT_POSITION_NUM; ++idx) {
	const int ref_row = row + br_ref_offset[idx][0];
	const int ref_col = col + br_ref_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\|
	ref_col >= (1 << bwl))
	continue;
	const int pos = (ref_row << bwl) + ref_col;
	tran_low_t abs_coeff = abs(tcoeffs[pos]);
	count += abs_coeff > level;
	if (br_ref_offset[idx][0] >= 0 && br_ref_offset[idx][1] >= 0) {
	if (abs_coeff > mag[0]) {
	mag[0] = abs_coeff;
	mag[1] = 1;
	} else if (abs_coeff == mag[0]) {
	++mag[1];
	}
	}
	}
	return count;
	}

	static INLINE int get_br_ctx_from_count_mag(int row, int col, int count,
	int mag) {
	int offset = 0;
	if (mag <= BR_MAG_OFFSET)
	offset = 0;
	else if (mag <= 3)
	offset = 1;
	else if (mag <= 5)
	offset = 2;
	else
	offset = 3;

	int ctx = br_level_map[count];
	ctx += offset * BR_TMP_OFFSET;

	// DC: 0 - 1
	if (row == 0 && col == 0) return ctx;

	// Top row: 2 - 4
	if (row == 0) return 2 + ctx;

	// Left column: 5 - 7
	if (col == 0) return 5 + ctx;

	// others: 8 - 11
	return 8 + ctx;
	}

	static INLINE int get_br_ctx(const tran_low_t *tcoeffs,
	const int c, // raster order
	const int bwl, const int height) {
	const int row = c >> bwl;
	const int col = c - (row << bwl);
	const int level_minus_1 = NUM_BASE_LEVELS;
	int mag;
	const int count =
	get_level_count_mag(&mag, tcoeffs, bwl, height, row, col, level_minus_1,
	br_ref_offset, BR_CONTEXT_POSITION_NUM);
	const int ctx = get_br_ctx_from_count_mag(row, col, count, mag);
	return ctx;
	}

	#define SIG_REF_OFFSET_NUM 7
	static int sig_ref_offset[SIG_REF_OFFSET_NUM][2] = {
	{ -2, -1 }, { -2, 0 }, { -1, -2 }, { -1, -1 },
	{ -1, 0 }, { 0, -2 }, { 0, -1 },
	};

	static INLINE int get_nz_count(const tran_low_t *tcoeffs, int bwl, int height,
	int row, int col) {
	int count = 0;
	for (int idx = 0; idx < SIG_REF_OFFSET_NUM; ++idx) {
	const int ref_row = row + sig_ref_offset[idx][0];
	const int ref_col = col + sig_ref_offset[idx][1];
	if (ref_row < 0 \|\| ref_col < 0 \|\| ref_row >= height \|\|
	ref_col >= (1 << bwl))
	continue;
	const int nb_pos = (ref_row << bwl) + ref_col;
	count += (tcoeffs[nb_pos] != 0);
	}
	return count;
	}

	static INLINE TX_CLASS get_tx_class(TX_TYPE tx_type) {
	switch (tx_type) {
	#if CONFIG_EXT_TX
	case V_DCT:
	case V_ADST:
	case V_FLIPADST: return TX_CLASS_VERT;
	case H_DCT:
	case H_ADST:
	case H_FLIPADST: return TX_CLASS_HORIZ;
	#endif
	default: return TX_CLASS_2D;
	}
	}

	// TODO(angiebird): optimize this function by generate a table that maps from
	// count to ctx
	static INLINE int get_nz_map_ctx_from_count(int count,
	int coeff_idx, // raster order
	int bwl, TX_TYPE tx_type) {
	(void)tx_type;
	const int row = coeff_idx >> bwl;
	const int col = coeff_idx - (row << bwl);
	int ctx = 0;
	#if CONFIG_EXT_TX
	int tx_class = get_tx_class(tx_type);
	int offset;
	if (tx_class == TX_CLASS_2D)
	offset = 0;
	else if (tx_class == TX_CLASS_VERT)
	offset = SIG_COEF_CONTEXTS_2D;
	else
	offset = SIG_COEF_CONTEXTS_2D + SIG_COEF_CONTEXTS_1D;
	#else
	int offset = 0;
	#endif

	if (row == 0 && col == 0) return offset + 0;

	if (row == 0 && col == 1) return offset + 1 + count;

	if (row == 1 && col == 0) return offset + 3 + count;

	if (row == 1 && col == 1) {
	ctx = (count + 1) >> 1;

	assert(5 + ctx <= 7);

	return offset + 5 + ctx;
	}

	if (row == 0) {
	ctx = (count + 1) >> 1;

	assert(ctx < 2);
	return offset + 8 + ctx;
	}

	if (col == 0) {
	ctx = (count + 1) >> 1;

	assert(ctx < 2);
	return offset + 10 + ctx;
	}

	ctx = count >> 1;

	assert(12 + ctx < 16);

	return offset + 12 + ctx;
	}

	static INLINE int get_nz_map_ctx(const tran_low_t *tcoeffs,
	const int coeff_idx, // raster order
	const int bwl, const int height,
	TX_TYPE tx_type) {
	const int row = coeff_idx >> bwl;
	const int col = coeff_idx - (row << bwl);
	int count = get_nz_count(tcoeffs, bwl, height, row, col);
	return get_nz_map_ctx_from_count(count, coeff_idx, bwl, tx_type);
	}

	static INLINE int get_eob_ctx(const tran_low_t *tcoeffs,
	const int coeff_idx, // raster order
	const TX_SIZE txs_ctx, TX_TYPE tx_type) {
	(void)tcoeffs;
	(void)tx_type;
	if (txs_ctx == TX_4X4) return av1_coeff_band_4x4[coeff_idx];
	if (txs_ctx == TX_8X8) return av1_coeff_band_8x8[coeff_idx];
	if (txs_ctx == TX_16X16) return av1_coeff_band_16x16[coeff_idx];
	if (txs_ctx == TX_32X32) return av1_coeff_band_32x32[coeff_idx];

	assert(0);
	return 0;
	}

	static INLINE void set_dc_sign(int *cul_level, tran_low_t v) {
	if (v < 0)
	*cul_level \|= 1 << COEFF_CONTEXT_BITS;
	else if (v > 0)
	*cul_level += 2 << COEFF_CONTEXT_BITS;
	}

	static INLINE int get_dc_sign_ctx(int dc_sign) {
	int dc_sign_ctx = 0;
	if (dc_sign < 0)
	dc_sign_ctx = 1;
	else if (dc_sign > 0)
	dc_sign_ctx = 2;

	return dc_sign_ctx;
	}

	static INLINE void get_txb_ctx(BLOCK_SIZE plane_bsize, TX_SIZE tx_size,
	int plane, const ENTROPY_CONTEXT *a,
	const ENTROPY_CONTEXT l, TXB_CTX txb_ctx) {
	const int txb_w_unit = tx_size_wide_unit[tx_size];
	const int txb_h_unit = tx_size_high_unit[tx_size];
	int ctx_offset = (plane == 0) ? 0 : 7;

	if (plane_bsize > txsize_to_bsize[tx_size]) ctx_offset += 3;

	int dc_sign = 0;
	for (int k = 0; k < txb_w_unit; ++k) {
	int sign = ((uint8_t)a[k]) >> COEFF_CONTEXT_BITS;
	if (sign == 1)
	--dc_sign;
	else if (sign == 2)
	++dc_sign;
	else if (sign != 0)
	assert(0);
	}

	for (int k = 0; k < txb_h_unit; ++k) {
	int sign = ((uint8_t)l[k]) >> COEFF_CONTEXT_BITS;
	if (sign == 1)
	--dc_sign;
	else if (sign == 2)
	++dc_sign;
	else if (sign != 0)
	assert(0);
	}

	txb_ctx->dc_sign_ctx = get_dc_sign_ctx(dc_sign);

	if (plane == 0) {
	int top = 0;
	int left = 0;

	for (int k = 0; k < txb_w_unit; ++k) {
	top = AOMMAX(top, ((uint8_t)a[k] & COEFF_CONTEXT_MASK));
	}

	for (int k = 0; k < txb_h_unit; ++k) {
	left = AOMMAX(left, ((uint8_t)l[k] & COEFF_CONTEXT_MASK));
	}

	top = AOMMIN(top, 255);
	left = AOMMIN(left, 255);

	if (plane_bsize == txsize_to_bsize[tx_size])
	txb_ctx->txb_skip_ctx = 0;
	else if (top == 0 && left == 0)
	txb_ctx->txb_skip_ctx = 1;
	else if (top == 0 \|\| left == 0)
	txb_ctx->txb_skip_ctx = 2 + (AOMMAX(top, left) > 3);
	else if (AOMMAX(top, left) <= 3)
	txb_ctx->txb_skip_ctx = 4;
	else if (AOMMIN(top, left) <= 3)
	txb_ctx->txb_skip_ctx = 5;
	else
	txb_ctx->txb_skip_ctx = 6;
	} else {
	int ctx_base = get_entropy_context(tx_size, a, l);
	txb_ctx->txb_skip_ctx = ctx_offset + ctx_base;
	}
	}

	#if LV_MAP_PROB
	void av1_init_txb_probs(FRAME_CONTEXT *fc);
	#endif // LV_MAP_PROB

	void av1_adapt_txb_probs(AV1_COMMON *cm, unsigned int count_sat,
	unsigned int update_factor);

	void av1_init_lv_map(AV1_COMMON *cm);
	#endif // AV1_COMMON_TXB_COMMON_H_