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/*
* 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 AV1_TXFM_H_
#define AV1_TXFM_H_
#include <assert.h>
#include <math.h>
#include <stdio.h>
#include "av1/common/enums.h"
#include "av1/common/blockd.h"
#include "aom/aom_integer.h"
#include "aom_dsp/aom_dsp_common.h"
#ifdef __cplusplus
extern "C" {
#endif
#define MAX_TXFM_STAGE_NUM 12
static const int cos_bit_min = 10;
static const int cos_bit_max = 16;
// cospi_arr[i][j] = (int)round(cos(M_PI*j/128) * (1<<(cos_bit_min+i)));
static const int32_t cospi_arr_data[7][64] = {
{ 1024, 1024, 1023, 1021, 1019, 1016, 1013, 1009, 1004, 999, 993, 987, 980,
972, 964, 955, 946, 936, 926, 915, 903, 891, 878, 865, 851, 837,
822, 807, 792, 775, 759, 742, 724, 706, 688, 669, 650, 630, 610,
590, 569, 548, 526, 505, 483, 460, 438, 415, 392, 369, 345, 321,
297, 273, 249, 224, 200, 175, 150, 125, 100, 75, 50, 25 },
{ 2048, 2047, 2046, 2042, 2038, 2033, 2026, 2018, 2009, 1998, 1987,
1974, 1960, 1945, 1928, 1911, 1892, 1872, 1851, 1829, 1806, 1782,
1757, 1730, 1703, 1674, 1645, 1615, 1583, 1551, 1517, 1483, 1448,
1412, 1375, 1338, 1299, 1260, 1220, 1179, 1138, 1096, 1053, 1009,
965, 921, 876, 830, 784, 737, 690, 642, 595, 546, 498,
449, 400, 350, 301, 251, 201, 151, 100, 50 },
{ 4096, 4095, 4091, 4085, 4076, 4065, 4052, 4036, 4017, 3996, 3973,
3948, 3920, 3889, 3857, 3822, 3784, 3745, 3703, 3659, 3612, 3564,
3513, 3461, 3406, 3349, 3290, 3229, 3166, 3102, 3035, 2967, 2896,
2824, 2751, 2675, 2598, 2520, 2440, 2359, 2276, 2191, 2106, 2019,
1931, 1842, 1751, 1660, 1567, 1474, 1380, 1285, 1189, 1092, 995,
897, 799, 700, 601, 501, 401, 301, 201, 101 },
{ 8192, 8190, 8182, 8170, 8153, 8130, 8103, 8071, 8035, 7993, 7946,
7895, 7839, 7779, 7713, 7643, 7568, 7489, 7405, 7317, 7225, 7128,
7027, 6921, 6811, 6698, 6580, 6458, 6333, 6203, 6070, 5933, 5793,
5649, 5501, 5351, 5197, 5040, 4880, 4717, 4551, 4383, 4212, 4038,
3862, 3683, 3503, 3320, 3135, 2948, 2760, 2570, 2378, 2185, 1990,
1795, 1598, 1401, 1202, 1003, 803, 603, 402, 201 },
{ 16384, 16379, 16364, 16340, 16305, 16261, 16207, 16143, 16069, 15986, 15893,
15791, 15679, 15557, 15426, 15286, 15137, 14978, 14811, 14635, 14449, 14256,
14053, 13842, 13623, 13395, 13160, 12916, 12665, 12406, 12140, 11866, 11585,
11297, 11003, 10702, 10394, 10080, 9760, 9434, 9102, 8765, 8423, 8076,
7723, 7366, 7005, 6639, 6270, 5897, 5520, 5139, 4756, 4370, 3981,
3590, 3196, 2801, 2404, 2006, 1606, 1205, 804, 402 },
{ 32768, 32758, 32729, 32679, 32610, 32522, 32413, 32286, 32138, 31972, 31786,
31581, 31357, 31114, 30853, 30572, 30274, 29957, 29622, 29269, 28899, 28511,
28106, 27684, 27246, 26791, 26320, 25833, 25330, 24812, 24279, 23732, 23170,
22595, 22006, 21403, 20788, 20160, 19520, 18868, 18205, 17531, 16846, 16151,
15447, 14733, 14010, 13279, 12540, 11793, 11039, 10279, 9512, 8740, 7962,
7180, 6393, 5602, 4808, 4011, 3212, 2411, 1608, 804 },
{ 65536, 65516, 65457, 65358, 65220, 65043, 64827, 64571, 64277, 63944, 63572,
63162, 62714, 62228, 61705, 61145, 60547, 59914, 59244, 58538, 57798, 57022,
56212, 55368, 54491, 53581, 52639, 51665, 50660, 49624, 48559, 47464, 46341,
45190, 44011, 42806, 41576, 40320, 39040, 37736, 36410, 35062, 33692, 32303,
30893, 29466, 28020, 26558, 25080, 23586, 22078, 20557, 19024, 17479, 15924,
14359, 12785, 11204, 9616, 8022, 6424, 4821, 3216, 1608 }
};
static INLINE const int32_t *cospi_arr(int n) {
return cospi_arr_data[n - cos_bit_min];
}
static INLINE int32_t round_shift(int32_t value, int bit) {
assert(bit >= 1);
return (value + (1 << (bit - 1))) >> bit;
}
static INLINE void round_shift_array(int32_t *arr, int size, int bit) {
int i;
if (bit == 0) {
return;
} else {
if (bit > 0) {
for (i = 0; i < size; i++) {
arr[i] = round_shift(arr[i], bit);
}
} else {
for (i = 0; i < size; i++) {
arr[i] = arr[i] * (1 << (-bit));
}
}
}
}
static INLINE int32_t half_btf(int32_t w0, int32_t in0, int32_t w1, int32_t in1,
int bit) {
int32_t result_32 = w0 * in0 + w1 * in1;
#if CONFIG_COEFFICIENT_RANGE_CHECKING
int64_t result_64 = (int64_t)w0 * (int64_t)in0 + (int64_t)w1 * (int64_t)in1;
if (result_64 < INT32_MIN || result_64 > INT32_MAX) {
printf("%s %d overflow result_32: %d result_64: %" PRId64
" w0: %d in0: %d w1: %d in1: "
"%d\n",
__FILE__, __LINE__, result_32, result_64, w0, in0, w1, in1);
assert(0 && "half_btf overflow");
}
#endif
return round_shift(result_32, bit);
}
typedef void (*TxfmFunc)(const int32_t *input, int32_t *output,
const int8_t *cos_bit, const int8_t *stage_range);
typedef enum TXFM_TYPE {
TXFM_TYPE_DCT4,
TXFM_TYPE_DCT8,
TXFM_TYPE_DCT16,
TXFM_TYPE_DCT32,
TXFM_TYPE_DCT64,
TXFM_TYPE_ADST4,
TXFM_TYPE_ADST8,
TXFM_TYPE_ADST16,
TXFM_TYPE_ADST32,
TXFM_TYPE_IDENTITY4,
TXFM_TYPE_IDENTITY8,
TXFM_TYPE_IDENTITY16,
TXFM_TYPE_IDENTITY32,
TXFM_TYPE_IDENTITY64,
} TXFM_TYPE;
typedef struct TXFM_1D_CFG {
const int txfm_size;
const int stage_num;
const int8_t *shift;
const int8_t *stage_range;
const int8_t *cos_bit;
const TXFM_TYPE txfm_type;
} TXFM_1D_CFG;
typedef struct TXFM_2D_FLIP_CFG {
int ud_flip; // flip upside down
int lr_flip; // flip left to right
const TXFM_1D_CFG *col_cfg;
const TXFM_1D_CFG *row_cfg;
} TXFM_2D_FLIP_CFG;
static INLINE void set_flip_cfg(TX_TYPE tx_type, TXFM_2D_FLIP_CFG *cfg) {
switch (tx_type) {
case DCT_DCT:
case ADST_DCT:
case DCT_ADST:
case ADST_ADST:
cfg->ud_flip = 0;
cfg->lr_flip = 0;
break;
#if CONFIG_EXT_TX
case IDTX:
case V_DCT:
case H_DCT:
case V_ADST:
case H_ADST:
cfg->ud_flip = 0;
cfg->lr_flip = 0;
break;
case FLIPADST_DCT:
case FLIPADST_ADST:
case V_FLIPADST:
cfg->ud_flip = 1;
cfg->lr_flip = 0;
break;
case DCT_FLIPADST:
case ADST_FLIPADST:
case H_FLIPADST:
cfg->ud_flip = 0;
cfg->lr_flip = 1;
break;
case FLIPADST_FLIPADST:
cfg->ud_flip = 1;
cfg->lr_flip = 1;
break;
#endif // CONFIG_EXT_TX
default:
cfg->ud_flip = 0;
cfg->lr_flip = 0;
assert(0);
}
}
#if CONFIG_TXMG
static INLINE TX_SIZE av1_rotate_tx_size(TX_SIZE tx_size) {
switch (tx_size) {
#if CONFIG_CHROMA_2X2
case TX_2X2: return TX_2X2;
#endif
case TX_4X4: return TX_4X4;
case TX_8X8: return TX_8X8;
case TX_16X16: return TX_16X16;
case TX_32X32: return TX_32X32;
#if CONFIG_TX64X64
case TX_64X64: return TX_64X64;
case TX_32X64: return TX_64X32;
case TX_64X32: return TX_32X64;
#endif
case TX_4X8: return TX_8X4;
case TX_8X4: return TX_4X8;
case TX_8X16: return TX_16X8;
case TX_16X8: return TX_8X16;
case TX_16X32: return TX_32X16;
case TX_32X16: return TX_16X32;
case TX_4X16: return TX_16X4;
case TX_16X4: return TX_4X16;
case TX_8X32: return TX_32X8;
case TX_32X8: return TX_8X32;
default: assert(0); return TX_INVALID;
}
}
static INLINE TX_TYPE av1_rotate_tx_type(TX_TYPE tx_type) {
switch (tx_type) {
case DCT_DCT: return DCT_DCT;
case ADST_DCT: return DCT_ADST;
case DCT_ADST: return ADST_DCT;
case ADST_ADST: return ADST_ADST;
#if CONFIG_EXT_TX
case FLIPADST_DCT: return DCT_FLIPADST;
case DCT_FLIPADST: return FLIPADST_DCT;
case FLIPADST_FLIPADST: return FLIPADST_FLIPADST;
case ADST_FLIPADST: return FLIPADST_ADST;
case FLIPADST_ADST: return ADST_FLIPADST;
case IDTX: return IDTX;
case V_DCT: return H_DCT;
case H_DCT: return V_DCT;
case V_ADST: return H_ADST;
case H_ADST: return V_ADST;
case V_FLIPADST: return H_FLIPADST;
case H_FLIPADST: return V_FLIPADST;
#endif // CONFIG_EXT_TX
#if CONFIG_MRC_TX
case MRC_DCT: return MRC_DCT;
#endif // CONFIG_MRC_TX
default: assert(0); return TX_TYPES;
}
}
#endif // CONFIG_TXMG
#if CONFIG_MRC_TX
static INLINE int get_mrc_diff_mask_inter(const int16_t *diff, int diff_stride,
uint8_t *mask, int mask_stride,
int width, int height) {
// placeholder mask generation function
assert(SIGNAL_MRC_MASK_INTER);
int n_masked_vals = 0;
for (int i = 0; i < height; ++i) {
for (int j = 0; j < width; ++j) {
mask[i * mask_stride + j] = diff[i * diff_stride + j] > 100 ? 1 : 0;
n_masked_vals += mask[i * mask_stride + j];
}
}
return n_masked_vals;
}
static INLINE int get_mrc_pred_mask_inter(const uint8_t *pred, int pred_stride,
uint8_t *mask, int mask_stride,
int width, int height) {
// placeholder mask generation function
int n_masked_vals = 0;
for (int i = 0; i < height; ++i) {
for (int j = 0; j < width; ++j) {
mask[i * mask_stride + j] = pred[i * pred_stride + j] > 100 ? 1 : 0;
n_masked_vals += mask[i * mask_stride + j];
}
}
return n_masked_vals;
}
static INLINE int get_mrc_diff_mask_intra(const int16_t *diff, int diff_stride,
uint8_t *mask, int mask_stride,
int width, int height) {
// placeholder mask generation function
assert(SIGNAL_MRC_MASK_INTRA);
int n_masked_vals = 0;
for (int i = 0; i < height; ++i) {
for (int j = 0; j < width; ++j) {
mask[i * mask_stride + j] = diff[i * diff_stride + j] > 100 ? 1 : 0;
n_masked_vals += mask[i * mask_stride + j];
}
}
return n_masked_vals;
}
static INLINE int get_mrc_pred_mask_intra(const uint8_t *pred, int pred_stride,
uint8_t *mask, int mask_stride,
int width, int height) {
// placeholder mask generation function
int n_masked_vals = 0;
for (int i = 0; i < height; ++i) {
for (int j = 0; j < width; ++j) {
mask[i * mask_stride + j] = pred[i * pred_stride + j] > 100 ? 1 : 0;
n_masked_vals += mask[i * mask_stride + j];
}
}
return n_masked_vals;
}
static INLINE int get_mrc_diff_mask(const int16_t *diff, int diff_stride,
uint8_t *mask, int mask_stride, int width,
int height, int is_inter) {
if (is_inter) {
assert(USE_MRC_INTER && "MRC invalid for inter blocks");
assert(SIGNAL_MRC_MASK_INTER);
return get_mrc_diff_mask_inter(diff, diff_stride, mask, mask_stride, width,
height);
} else {
assert(USE_MRC_INTRA && "MRC invalid for intra blocks");
assert(SIGNAL_MRC_MASK_INTRA);
return get_mrc_diff_mask_intra(diff, diff_stride, mask, mask_stride, width,
height);
}
}
static INLINE int get_mrc_pred_mask(const uint8_t *pred, int pred_stride,
uint8_t *mask, int mask_stride, int width,
int height, int is_inter) {
if (is_inter) {
assert(USE_MRC_INTER && "MRC invalid for inter blocks");
return get_mrc_pred_mask_inter(pred, pred_stride, mask, mask_stride, width,
height);
} else {
assert(USE_MRC_INTRA && "MRC invalid for intra blocks");
return get_mrc_pred_mask_intra(pred, pred_stride, mask, mask_stride, width,
height);
}
}
static INLINE int is_valid_mrc_mask(int n_masked_vals, int width, int height) {
return !(n_masked_vals == 0 || n_masked_vals == (width * height));
}
#endif // CONFIG_MRC_TX
void av1_gen_fwd_stage_range(int8_t *stage_range_col, int8_t *stage_range_row,
const TXFM_2D_FLIP_CFG *cfg, int bd);
void av1_gen_inv_stage_range(int8_t *stage_range_col, int8_t *stage_range_row,
const TXFM_2D_FLIP_CFG *cfg, int8_t fwd_shift,
int bd);
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_cfg(TX_TYPE tx_type, TX_SIZE tx_size);
#if CONFIG_TX64X64
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_64x64_cfg(TX_TYPE tx_type);
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_64x32_cfg(TX_TYPE tx_type);
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_32x64_cfg(TX_TYPE tx_type);
#endif // CONFIG_TX64X64
TXFM_2D_FLIP_CFG av1_get_inv_txfm_cfg(TX_TYPE tx_type, TX_SIZE tx_size);
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // AV1_TXFM_H_
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