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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.
*/
#include <assert.h>
#include "./av1_rtcd.h"
#include "aom_dsp/txfm_common.h"
#include "av1/common/enums.h"
#include "av1/common/av1_fwd_txfm1d.h"
#include "av1/common/av1_fwd_txfm1d_cfg.h"
#include "av1/common/av1_txfm.h"
static INLINE TxfmFunc fwd_txfm_type_to_func(TXFM_TYPE txfm_type) {
switch (txfm_type) {
case TXFM_TYPE_DCT4: return av1_fdct4_new;
case TXFM_TYPE_DCT8: return av1_fdct8_new;
case TXFM_TYPE_DCT16: return av1_fdct16_new;
case TXFM_TYPE_DCT32: return av1_fdct32_new;
case TXFM_TYPE_ADST4: return av1_fadst4_new;
case TXFM_TYPE_ADST8: return av1_fadst8_new;
case TXFM_TYPE_ADST16: return av1_fadst16_new;
case TXFM_TYPE_ADST32: return av1_fadst32_new;
#if CONFIG_EXT_TX
case TXFM_TYPE_IDENTITY4: return av1_fidentity4_c;
case TXFM_TYPE_IDENTITY8: return av1_fidentity8_c;
case TXFM_TYPE_IDENTITY16: return av1_fidentity16_c;
case TXFM_TYPE_IDENTITY32: return av1_fidentity32_c;
#endif // CONFIG_EXT_TX
default: assert(0); return NULL;
}
}
static INLINE void fwd_txfm2d_c(const int16_t *input, int32_t *output,
const int stride, const TXFM_2D_FLIP_CFG *cfg,
int32_t *buf) {
int c, r;
// Note when assigning txfm_size_col, we use the txfm_size from the
// row configuration and vice versa. This is intentionally done to
// accurately perform rectangular transforms. When the transform is
// rectangular, the number of columns will be the same as the
// txfm_size stored in the row cfg struct. It will make no difference
// for square transforms.
const int txfm_size_col = cfg->row_cfg->txfm_size;
const int txfm_size_row = cfg->col_cfg->txfm_size;
// Take the shift from the larger dimension in the rectangular case.
const int8_t *shift = (txfm_size_col > txfm_size_row) ? cfg->row_cfg->shift
: cfg->col_cfg->shift;
const int8_t *stage_range_col = cfg->col_cfg->stage_range;
const int8_t *stage_range_row = cfg->row_cfg->stage_range;
const int8_t *cos_bit_col = cfg->col_cfg->cos_bit;
const int8_t *cos_bit_row = cfg->row_cfg->cos_bit;
const TxfmFunc txfm_func_col = fwd_txfm_type_to_func(cfg->col_cfg->txfm_type);
const TxfmFunc txfm_func_row = fwd_txfm_type_to_func(cfg->row_cfg->txfm_type);
// use output buffer as temp buffer
int32_t *temp_in = output;
int32_t *temp_out = output + txfm_size_row;
// Columns
for (c = 0; c < txfm_size_col; ++c) {
if (cfg->ud_flip == 0) {
for (r = 0; r < txfm_size_row; ++r) temp_in[r] = input[r * stride + c];
} else {
for (r = 0; r < txfm_size_row; ++r)
// flip upside down
temp_in[r] = input[(txfm_size_row - r - 1) * stride + c];
}
round_shift_array(temp_in, txfm_size_row, -shift[0]);
// Multiply everything by Sqrt2 on the larger dimension if the
// transform is rectangular
if (txfm_size_col > txfm_size_row) {
for (r = 0; r < txfm_size_row; ++r)
temp_in[r] = (int32_t)fdct_round_shift(temp_in[r] * Sqrt2);
}
txfm_func_col(temp_in, temp_out, cos_bit_col, stage_range_col);
round_shift_array(temp_out, txfm_size_row, -shift[1]);
if (cfg->lr_flip == 0) {
for (r = 0; r < txfm_size_row; ++r)
buf[r * txfm_size_col + c] = temp_out[r];
} else {
for (r = 0; r < txfm_size_row; ++r)
// flip from left to right
buf[r * txfm_size_col + (txfm_size_col - c - 1)] = temp_out[r];
}
}
// Rows
for (r = 0; r < txfm_size_row; ++r) {
// Multiply everything by Sqrt2 on the larger dimension if the
// transform is rectangular
if (txfm_size_row > txfm_size_col) {
for (c = 0; c < txfm_size_col; ++c)
buf[r * txfm_size_col + c] =
(int32_t)fdct_round_shift(buf[r * txfm_size_col + c] * Sqrt2);
}
txfm_func_row(buf + r * txfm_size_col, output + r * txfm_size_col,
cos_bit_row, stage_range_row);
round_shift_array(output + r * txfm_size_col, txfm_size_col, -shift[2]);
}
}
void av1_fwd_txfm2d_4x8_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[4 * 8];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_4X8);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_8x4_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[8 * 4];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_8X4);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_8x16_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[8 * 16];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_8X16);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_16x8_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[16 * 8];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_16X8);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_16x32_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[16 * 32];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_16X32);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_32x16_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[32 * 16];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_32X16);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_4x4_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[4 * 4];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_4X4);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_8x8_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[8 * 8];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_8X8);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_16x16_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[16 * 16];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_16X16);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_32x32_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[32 * 32];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_cfg(tx_type, TX_32X32);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
void av1_fwd_txfm2d_64x64_c(const int16_t *input, int32_t *output, int stride,
int tx_type, int bd) {
int32_t txfm_buf[64 * 64];
TXFM_2D_FLIP_CFG cfg = av1_get_fwd_txfm_64x64_cfg(tx_type);
(void)bd;
fwd_txfm2d_c(input, output, stride, &cfg, txfm_buf);
}
static const TXFM_1D_CFG *fwd_txfm_col_cfg_ls[TX_TYPES_1D][TX_SIZES] = {
// DCT
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_col_cfg_dct_4, &fwd_txfm_1d_col_cfg_dct_8,
&fwd_txfm_1d_col_cfg_dct_16, &fwd_txfm_1d_col_cfg_dct_32 },
// ADST
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_col_cfg_adst_4, &fwd_txfm_1d_col_cfg_adst_8,
&fwd_txfm_1d_col_cfg_adst_16, &fwd_txfm_1d_col_cfg_adst_32 },
#if CONFIG_EXT_TX
// FLIPADST
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_col_cfg_adst_4, &fwd_txfm_1d_col_cfg_adst_8,
&fwd_txfm_1d_col_cfg_adst_16, &fwd_txfm_1d_col_cfg_adst_32 },
// IDENTITY
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_cfg_identity_4, &fwd_txfm_1d_cfg_identity_8,
&fwd_txfm_1d_cfg_identity_16, &fwd_txfm_1d_cfg_identity_32 },
#endif // CONFIG_EXT_TX
};
static const TXFM_1D_CFG *fwd_txfm_row_cfg_ls[TX_TYPES_1D][TX_SIZES] = {
// DCT
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_row_cfg_dct_4, &fwd_txfm_1d_row_cfg_dct_8,
&fwd_txfm_1d_row_cfg_dct_16, &fwd_txfm_1d_row_cfg_dct_32 },
// ADST
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_row_cfg_adst_4, &fwd_txfm_1d_row_cfg_adst_8,
&fwd_txfm_1d_row_cfg_adst_16, &fwd_txfm_1d_row_cfg_adst_32 },
#if CONFIG_EXT_TX
// FLIPADST
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_row_cfg_adst_4, &fwd_txfm_1d_row_cfg_adst_8,
&fwd_txfm_1d_row_cfg_adst_16, &fwd_txfm_1d_row_cfg_adst_32 },
// IDENTITY
{
#if CONFIG_CHROMA_2X2
NULL,
#endif
&fwd_txfm_1d_cfg_identity_4, &fwd_txfm_1d_cfg_identity_8,
&fwd_txfm_1d_cfg_identity_16, &fwd_txfm_1d_cfg_identity_32 },
#endif // CONFIG_EXT_TX
};
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_cfg(int tx_type, int tx_size) {
TXFM_2D_FLIP_CFG cfg;
set_flip_cfg(tx_type, &cfg);
const int tx_type_col = vtx_tab[tx_type];
const int tx_type_row = htx_tab[tx_type];
const int tx_size_col = txsize_vert_map[tx_size];
const int tx_size_row = txsize_horz_map[tx_size];
cfg.col_cfg = fwd_txfm_col_cfg_ls[tx_type_col][tx_size_col];
cfg.row_cfg = fwd_txfm_row_cfg_ls[tx_type_row][tx_size_row];
return cfg;
}
TXFM_2D_FLIP_CFG av1_get_fwd_txfm_64x64_cfg(int tx_type) {
TXFM_2D_FLIP_CFG cfg;
switch (tx_type) {
case DCT_DCT:
cfg.col_cfg = &fwd_txfm_1d_col_cfg_dct_64;
cfg.row_cfg = &fwd_txfm_1d_row_cfg_dct_64;
cfg.ud_flip = 0;
cfg.lr_flip = 0;
break;
default:
cfg.ud_flip = 0;
cfg.lr_flip = 0;
assert(0);
}
return cfg;
}
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