Source code
Revision control
Copy as Markdown
Other Tools
/*
* Copyright (c) 2020, 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_ENCODER_UTILS_H_
#define AOM_AV1_ENCODER_ENCODER_UTILS_H_
#include "config/aom_dsp_rtcd.h"
#include "config/aom_scale_rtcd.h"
#include "av1/encoder/encoder.h"
#include "av1/encoder/encodetxb.h"
#ifdef __cplusplus
extern "C" {
#endif
#define AM_SEGMENT_ID_INACTIVE 7
#define AM_SEGMENT_ID_ACTIVE 0
#define DUMP_RECON_FRAMES 0
extern const int default_tx_type_probs[FRAME_UPDATE_TYPES][TX_SIZES_ALL]
[TX_TYPES];
extern const int default_obmc_probs[FRAME_UPDATE_TYPES][BLOCK_SIZES_ALL];
extern const int default_warped_probs[FRAME_UPDATE_TYPES];
extern const int default_switchable_interp_probs[FRAME_UPDATE_TYPES]
[SWITCHABLE_FILTER_CONTEXTS]
[SWITCHABLE_FILTERS];
// Mark all inactive blocks as active. Other segmentation features may be set
// so memset cannot be used, instead only inactive blocks should be reset.
static inline void suppress_active_map(AV1_COMP *cpi) {
unsigned char *const seg_map = cpi->enc_seg.map;
int i;
const int num_mis =
cpi->common.mi_params.mi_rows * cpi->common.mi_params.mi_cols;
if (cpi->active_map.enabled || cpi->active_map.update)
for (i = 0; i < num_mis; ++i)
if (seg_map[i] == AM_SEGMENT_ID_INACTIVE)
seg_map[i] = AM_SEGMENT_ID_ACTIVE;
}
// Returns 'size' in the number of Mode Info (MI) units. 'size' is either the
// width or height.
static inline int size_in_mi(int size) {
// Ensure that the decoded width and height are both multiples of
// 8 luma pixels (note: this may only be a multiple of 4 chroma pixels if
// subsampling is used).
// This simplifies the implementation of various experiments,
// eg. cdef, which operates on units of 8x8 luma pixels.
const int aligned_size = ALIGN_POWER_OF_TWO(size, 3);
return aligned_size >> MI_SIZE_LOG2;
}
static inline void set_mb_mi(CommonModeInfoParams *mi_params, int width,
int height) {
mi_params->mi_cols = size_in_mi(width);
mi_params->mi_rows = size_in_mi(height);
mi_params->mi_stride = calc_mi_size(mi_params->mi_cols);
mi_params->mb_cols = ROUND_POWER_OF_TWO(mi_params->mi_cols, 2);
mi_params->mb_rows = ROUND_POWER_OF_TWO(mi_params->mi_rows, 2);
mi_params->MBs = mi_params->mb_rows * mi_params->mb_cols;
const int mi_alloc_size_1d = mi_size_wide[mi_params->mi_alloc_bsize];
mi_params->mi_alloc_stride =
(mi_params->mi_stride + mi_alloc_size_1d - 1) / mi_alloc_size_1d;
assert(mi_size_wide[mi_params->mi_alloc_bsize] ==
mi_size_high[mi_params->mi_alloc_bsize]);
}
static inline void enc_free_mi(CommonModeInfoParams *mi_params) {
aom_free(mi_params->mi_alloc);
mi_params->mi_alloc = NULL;
mi_params->mi_alloc_size = 0;
aom_free(mi_params->mi_grid_base);
mi_params->mi_grid_base = NULL;
mi_params->mi_grid_size = 0;
aom_free(mi_params->tx_type_map);
mi_params->tx_type_map = NULL;
}
static inline void enc_set_mb_mi(CommonModeInfoParams *mi_params, int width,
int height, BLOCK_SIZE min_partition_size) {
mi_params->mi_alloc_bsize = min_partition_size;
set_mb_mi(mi_params, width, height);
}
static inline void stat_stage_set_mb_mi(CommonModeInfoParams *mi_params,
int width, int height,
BLOCK_SIZE min_partition_size) {
(void)min_partition_size;
mi_params->mi_alloc_bsize = BLOCK_16X16;
set_mb_mi(mi_params, width, height);
}
static inline void enc_setup_mi(CommonModeInfoParams *mi_params) {
const int mi_grid_size =
mi_params->mi_stride * calc_mi_size(mi_params->mi_rows);
memset(mi_params->mi_alloc, 0,
mi_params->mi_alloc_size * sizeof(*mi_params->mi_alloc));
memset(mi_params->mi_grid_base, 0,
mi_grid_size * sizeof(*mi_params->mi_grid_base));
memset(mi_params->tx_type_map, 0,
mi_grid_size * sizeof(*mi_params->tx_type_map));
}
static inline void init_buffer_indices(
ForceIntegerMVInfo *const force_intpel_info, int *const remapped_ref_idx) {
int fb_idx;
for (fb_idx = 0; fb_idx < REF_FRAMES; ++fb_idx)
remapped_ref_idx[fb_idx] = fb_idx;
force_intpel_info->rate_index = 0;
force_intpel_info->rate_size = 0;
}
#define HIGHBD_BFP(BT, SDF, SDAF, VF, SVF, SVAF, SDX4DF, SDX3DF) \
ppi->fn_ptr[BT].sdf = SDF; \
ppi->fn_ptr[BT].sdaf = SDAF; \
ppi->fn_ptr[BT].vf = VF; \
ppi->fn_ptr[BT].svf = SVF; \
ppi->fn_ptr[BT].svaf = SVAF; \
ppi->fn_ptr[BT].sdx4df = SDX4DF; \
ppi->fn_ptr[BT].sdx3df = SDX3DF;
#define HIGHBD_BFP_WRAPPER(WIDTH, HEIGHT, BD) \
HIGHBD_BFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_sad##WIDTH##x##HEIGHT##_bits##BD, \
aom_highbd_sad##WIDTH##x##HEIGHT##_avg_bits##BD, \
aom_highbd_##BD##_variance##WIDTH##x##HEIGHT, \
aom_highbd_##BD##_sub_pixel_variance##WIDTH##x##HEIGHT, \
aom_highbd_##BD##_sub_pixel_avg_variance##WIDTH##x##HEIGHT, \
aom_highbd_sad##WIDTH##x##HEIGHT##x4d_bits##BD, \
aom_highbd_sad##WIDTH##x##HEIGHT##x3d_bits##BD)
#define HIGHBD_BFP_WRAPPER_NO_SAD_AVG(WIDTH, HEIGHT, BD) \
HIGHBD_BFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_sad##WIDTH##x##HEIGHT##_bits##BD, /*SDAF=*/NULL, \
aom_highbd_##BD##_variance##WIDTH##x##HEIGHT, \
aom_highbd_##BD##_sub_pixel_variance##WIDTH##x##HEIGHT, \
aom_highbd_##BD##_sub_pixel_avg_variance##WIDTH##x##HEIGHT, \
aom_highbd_sad##WIDTH##x##HEIGHT##x4d_bits##BD, \
aom_highbd_sad##WIDTH##x##HEIGHT##x3d_bits##BD)
#define MAKE_BFP_SAD_WRAPPER(fnname) \
static unsigned int fnname##_bits8(const uint8_t *src_ptr, \
int source_stride, \
const uint8_t *ref_ptr, int ref_stride) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride); \
} \
static unsigned int fnname##_bits10( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride) >> 2; \
} \
static unsigned int fnname##_bits12( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride) >> 4; \
}
#define MAKE_BFP_SADAVG_WRAPPER(fnname) \
static unsigned int fnname##_bits8( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, second_pred); \
} \
static unsigned int fnname##_bits10( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, second_pred) >> \
2; \
} \
static unsigned int fnname##_bits12( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, second_pred) >> \
4; \
}
#define MAKE_BFP_SAD4D_WRAPPER(fnname) \
static void fnname##_bits8(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
} \
static void fnname##_bits10(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
int i; \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
for (i = 0; i < 4; i++) sad_array[i] >>= 2; \
} \
static void fnname##_bits12(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
int i; \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
for (i = 0; i < 4; i++) sad_array[i] >>= 4; \
}
#if CONFIG_AV1_HIGHBITDEPTH
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad128x128)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad128x128_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad128x128x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad128x128x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad128x64)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad128x64_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad128x64x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad128x64x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad64x128)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad64x128_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x128x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x128x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad32x16)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad32x16_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x16x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x16x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad16x32)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad16x32_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x32x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x32x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad64x32)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad64x32_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x32x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x32x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad32x64)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad32x64_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x64x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x64x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad32x32)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad32x32_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x32x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x32x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad64x64)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad64x64_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x64x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x64x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad16x16)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad16x16_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x16x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x16x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad16x8)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad16x8_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x8x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x8x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad8x16)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad8x16_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x16x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x16x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad8x8)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad8x8_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x8x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x8x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad8x4)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x4x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x4x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad4x8)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x8x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x8x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad4x4)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x4x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x4x3d)
#if !CONFIG_REALTIME_ONLY
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad4x16)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x16x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad4x16x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad16x4)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x4x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x4x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad8x32)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad8x32_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x32x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad8x32x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad32x8)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad32x8_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x8x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad32x8x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad16x64)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad16x64_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x64x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad16x64x3d)
MAKE_BFP_SAD_WRAPPER(aom_highbd_sad64x16)
MAKE_BFP_SADAVG_WRAPPER(aom_highbd_sad64x16_avg)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x16x4d)
MAKE_BFP_SAD4D_WRAPPER(aom_highbd_sad64x16x3d)
#endif
#endif // CONFIG_AV1_HIGHBITDEPTH
#define HIGHBD_MBFP(BT, MCSDF, MCSVF) \
ppi->fn_ptr[BT].msdf = MCSDF; \
ppi->fn_ptr[BT].msvf = MCSVF;
#define HIGHBD_MBFP_WRAPPER(WIDTH, HEIGHT, BD) \
HIGHBD_MBFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_masked_sad##WIDTH##x##HEIGHT##_bits##BD, \
aom_highbd_##BD##_masked_sub_pixel_variance##WIDTH##x##HEIGHT)
#define MAKE_MBFP_COMPOUND_SAD_WRAPPER(fnname) \
static unsigned int fnname##_bits8( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred_ptr, const uint8_t *m, \
int m_stride, int invert_mask) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, \
second_pred_ptr, m, m_stride, invert_mask); \
} \
static unsigned int fnname##_bits10( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred_ptr, const uint8_t *m, \
int m_stride, int invert_mask) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, \
second_pred_ptr, m, m_stride, invert_mask) >> \
2; \
} \
static unsigned int fnname##_bits12( \
const uint8_t *src_ptr, int source_stride, const uint8_t *ref_ptr, \
int ref_stride, const uint8_t *second_pred_ptr, const uint8_t *m, \
int m_stride, int invert_mask) { \
return fnname(src_ptr, source_stride, ref_ptr, ref_stride, \
second_pred_ptr, m, m_stride, invert_mask) >> \
4; \
}
#if CONFIG_AV1_HIGHBITDEPTH
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad128x128)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad128x64)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad64x128)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad64x64)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad64x32)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad32x64)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad32x32)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad32x16)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad16x32)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad16x16)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad16x8)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad8x16)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad8x8)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad8x4)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad4x8)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad4x4)
#if !CONFIG_REALTIME_ONLY
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad4x16)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad16x4)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad8x32)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad32x8)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad16x64)
MAKE_MBFP_COMPOUND_SAD_WRAPPER(aom_highbd_masked_sad64x16)
#endif
#endif
#define HIGHBD_SDSFP(BT, SDSF, SDSX4DF) \
ppi->fn_ptr[BT].sdsf = SDSF; \
ppi->fn_ptr[BT].sdsx4df = SDSX4DF;
#define HIGHBD_SDSFP_WRAPPER(WIDTH, HEIGHT, BD) \
HIGHBD_SDSFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_sad_skip_##WIDTH##x##HEIGHT##_bits##BD, \
aom_highbd_sad_skip_##WIDTH##x##HEIGHT##x4d##_bits##BD)
#define MAKE_SDSF_SKIP_SAD_WRAPPER(fnname) \
static unsigned int fnname##_bits8(const uint8_t *src, int src_stride, \
const uint8_t *ref, int ref_stride) { \
return fnname(src, src_stride, ref, ref_stride); \
} \
static unsigned int fnname##_bits10(const uint8_t *src, int src_stride, \
const uint8_t *ref, int ref_stride) { \
return fnname(src, src_stride, ref, ref_stride) >> 2; \
} \
static unsigned int fnname##_bits12(const uint8_t *src, int src_stride, \
const uint8_t *ref, int ref_stride) { \
return fnname(src, src_stride, ref, ref_stride) >> 4; \
}
#define MAKE_SDSF_SKIP_SAD_4D_WRAPPER(fnname) \
static void fnname##_bits8(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
} \
static void fnname##_bits10(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
int i; \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
for (i = 0; i < 4; i++) sad_array[i] >>= 2; \
} \
static void fnname##_bits12(const uint8_t *src_ptr, int source_stride, \
const uint8_t *const ref_ptr[], int ref_stride, \
unsigned int *sad_array) { \
int i; \
fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
for (i = 0; i < 4; i++) sad_array[i] >>= 4; \
}
#if CONFIG_AV1_HIGHBITDEPTH
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_128x128)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_128x64)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_64x128)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_64x64)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_64x32)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_32x64)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_32x32)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_32x16)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_16x32)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_16x16)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_8x16)
#if !CONFIG_REALTIME_ONLY
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_64x16)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_16x64)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_4x16)
MAKE_SDSF_SKIP_SAD_WRAPPER(aom_highbd_sad_skip_8x32)
#endif
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_128x128x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_128x64x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_64x128x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_64x64x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_64x32x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_32x64x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_32x32x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_32x16x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_16x32x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_16x16x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_8x16x4d)
#if !CONFIG_REALTIME_ONLY
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_64x16x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_16x64x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_4x16x4d)
MAKE_SDSF_SKIP_SAD_4D_WRAPPER(aom_highbd_sad_skip_8x32x4d)
#endif
#endif
#if !CONFIG_REALTIME_ONLY
#if CONFIG_AV1_HIGHBITDEPTH
#define HIGHBD_OBFP_WRAPPER_8(WIDTH, HEIGHT) \
HIGHBD_OBFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_obmc_sad##WIDTH##x##HEIGHT##_bits8, \
aom_highbd_8_obmc_variance##WIDTH##x##HEIGHT, \
aom_highbd_8_obmc_sub_pixel_variance##WIDTH##x##HEIGHT)
#define HIGHBD_OBFP(BT, OSDF, OVF, OSVF) \
ppi->fn_ptr[BT].osdf = OSDF; \
ppi->fn_ptr[BT].ovf = OVF; \
ppi->fn_ptr[BT].osvf = OSVF;
#define HIGHBD_OBFP_WRAPPER(WIDTH, HEIGHT, BD) \
HIGHBD_OBFP(BLOCK_##WIDTH##X##HEIGHT, \
aom_highbd_obmc_sad##WIDTH##x##HEIGHT##_bits##BD, \
aom_highbd_##BD##_obmc_variance##WIDTH##x##HEIGHT, \
aom_highbd_##BD##_obmc_sub_pixel_variance##WIDTH##x##HEIGHT)
#define MAKE_OBFP_SAD_WRAPPER(fnname) \
static unsigned int fnname##_bits8(const uint8_t *ref, int ref_stride, \
const int32_t *wsrc, \
const int32_t *msk) { \
return fnname(ref, ref_stride, wsrc, msk); \
} \
static unsigned int fnname##_bits10(const uint8_t *ref, int ref_stride, \
const int32_t *wsrc, \
const int32_t *msk) { \
return fnname(ref, ref_stride, wsrc, msk) >> 2; \
} \
static unsigned int fnname##_bits12(const uint8_t *ref, int ref_stride, \
const int32_t *wsrc, \
const int32_t *msk) { \
return fnname(ref, ref_stride, wsrc, msk) >> 4; \
}
#endif // CONFIG_AV1_HIGHBITDEPTH
#endif // !CONFIG_REALTIME_ONLY
#if CONFIG_AV1_HIGHBITDEPTH
#if !CONFIG_REALTIME_ONLY
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad128x128)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad128x64)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad64x128)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad64x64)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad64x32)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad32x64)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad32x32)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad32x16)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad16x32)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad16x16)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad16x8)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad8x16)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad8x8)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad8x4)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad4x8)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad4x4)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad4x16)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad16x4)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad8x32)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad32x8)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad16x64)
MAKE_OBFP_SAD_WRAPPER(aom_highbd_obmc_sad64x16)
#endif
static inline void highbd_set_var_fns(AV1_PRIMARY *const ppi) {
SequenceHeader *const seq_params = &ppi->seq_params;
if (seq_params->use_highbitdepth) {
switch (seq_params->bit_depth) {
case AOM_BITS_8:
#if !CONFIG_REALTIME_ONLY
HIGHBD_BFP_WRAPPER(64, 16, 8)
HIGHBD_BFP_WRAPPER(16, 64, 8)
HIGHBD_BFP_WRAPPER(32, 8, 8)
HIGHBD_BFP_WRAPPER(8, 32, 8)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(16, 4, 8)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 16, 8)
#endif
HIGHBD_BFP_WRAPPER(32, 16, 8)
HIGHBD_BFP_WRAPPER(16, 32, 8)
HIGHBD_BFP_WRAPPER(64, 32, 8)
HIGHBD_BFP_WRAPPER(32, 64, 8)
HIGHBD_BFP_WRAPPER(32, 32, 8)
HIGHBD_BFP_WRAPPER(64, 64, 8)
HIGHBD_BFP_WRAPPER(16, 16, 8)
HIGHBD_BFP_WRAPPER(16, 8, 8)
HIGHBD_BFP_WRAPPER(8, 16, 8)
HIGHBD_BFP_WRAPPER(8, 8, 8)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(8, 4, 8)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 8, 8)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 4, 8)
HIGHBD_BFP_WRAPPER(128, 128, 8)
HIGHBD_BFP_WRAPPER(128, 64, 8)
HIGHBD_BFP_WRAPPER(64, 128, 8)
HIGHBD_MBFP_WRAPPER(128, 128, 8)
HIGHBD_MBFP_WRAPPER(128, 64, 8)
HIGHBD_MBFP_WRAPPER(64, 128, 8)
HIGHBD_MBFP_WRAPPER(64, 64, 8)
HIGHBD_MBFP_WRAPPER(64, 32, 8)
HIGHBD_MBFP_WRAPPER(32, 64, 8)
HIGHBD_MBFP_WRAPPER(32, 32, 8)
HIGHBD_MBFP_WRAPPER(32, 16, 8)
HIGHBD_MBFP_WRAPPER(16, 32, 8)
HIGHBD_MBFP_WRAPPER(16, 16, 8)
HIGHBD_MBFP_WRAPPER(8, 16, 8)
HIGHBD_MBFP_WRAPPER(16, 8, 8)
HIGHBD_MBFP_WRAPPER(8, 8, 8)
HIGHBD_MBFP_WRAPPER(4, 8, 8)
HIGHBD_MBFP_WRAPPER(8, 4, 8)
HIGHBD_MBFP_WRAPPER(4, 4, 8)
#if !CONFIG_REALTIME_ONLY
HIGHBD_MBFP_WRAPPER(64, 16, 8)
HIGHBD_MBFP_WRAPPER(16, 64, 8)
HIGHBD_MBFP_WRAPPER(32, 8, 8)
HIGHBD_MBFP_WRAPPER(8, 32, 8)
HIGHBD_MBFP_WRAPPER(16, 4, 8)
HIGHBD_MBFP_WRAPPER(4, 16, 8)
#endif
// OBMC excluded from realtime only build.
#if !CONFIG_REALTIME_ONLY
HIGHBD_OBFP_WRAPPER_8(128, 128)
HIGHBD_OBFP_WRAPPER_8(128, 64)
HIGHBD_OBFP_WRAPPER_8(64, 128)
HIGHBD_OBFP_WRAPPER_8(64, 64)
HIGHBD_OBFP_WRAPPER_8(64, 32)
HIGHBD_OBFP_WRAPPER_8(32, 64)
HIGHBD_OBFP_WRAPPER_8(32, 32)
HIGHBD_OBFP_WRAPPER_8(32, 16)
HIGHBD_OBFP_WRAPPER_8(16, 32)
HIGHBD_OBFP_WRAPPER_8(16, 16)
HIGHBD_OBFP_WRAPPER_8(8, 16)
HIGHBD_OBFP_WRAPPER_8(16, 8)
HIGHBD_OBFP_WRAPPER_8(8, 8)
HIGHBD_OBFP_WRAPPER_8(4, 8)
HIGHBD_OBFP_WRAPPER_8(8, 4)
HIGHBD_OBFP_WRAPPER_8(4, 4)
HIGHBD_OBFP_WRAPPER_8(64, 16)
HIGHBD_OBFP_WRAPPER_8(16, 64)
HIGHBD_OBFP_WRAPPER_8(32, 8)
HIGHBD_OBFP_WRAPPER_8(8, 32)
HIGHBD_OBFP_WRAPPER_8(16, 4)
HIGHBD_OBFP_WRAPPER_8(4, 16)
#endif
HIGHBD_SDSFP_WRAPPER(128, 128, 8)
HIGHBD_SDSFP_WRAPPER(128, 64, 8)
HIGHBD_SDSFP_WRAPPER(64, 128, 8)
HIGHBD_SDSFP_WRAPPER(64, 64, 8)
HIGHBD_SDSFP_WRAPPER(64, 32, 8)
HIGHBD_SDSFP_WRAPPER(32, 64, 8)
HIGHBD_SDSFP_WRAPPER(32, 32, 8)
HIGHBD_SDSFP_WRAPPER(32, 16, 8)
HIGHBD_SDSFP_WRAPPER(16, 32, 8)
HIGHBD_SDSFP_WRAPPER(16, 16, 8)
HIGHBD_SDSFP_WRAPPER(8, 16, 8)
#if !CONFIG_REALTIME_ONLY
HIGHBD_SDSFP_WRAPPER(64, 16, 8)
HIGHBD_SDSFP_WRAPPER(16, 64, 8)
HIGHBD_SDSFP_WRAPPER(8, 32, 8)
HIGHBD_SDSFP_WRAPPER(4, 16, 8)
#endif
break;
case AOM_BITS_10:
#if !CONFIG_REALTIME_ONLY
HIGHBD_BFP_WRAPPER(64, 16, 10)
HIGHBD_BFP_WRAPPER(16, 64, 10)
HIGHBD_BFP_WRAPPER(32, 8, 10)
HIGHBD_BFP_WRAPPER(8, 32, 10)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(16, 4, 10)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 16, 10)
#endif
HIGHBD_BFP_WRAPPER(32, 16, 10)
HIGHBD_BFP_WRAPPER(16, 32, 10)
HIGHBD_BFP_WRAPPER(64, 32, 10)
HIGHBD_BFP_WRAPPER(32, 64, 10)
HIGHBD_BFP_WRAPPER(32, 32, 10)
HIGHBD_BFP_WRAPPER(64, 64, 10)
HIGHBD_BFP_WRAPPER(16, 16, 10)
HIGHBD_BFP_WRAPPER(16, 8, 10)
HIGHBD_BFP_WRAPPER(8, 16, 10)
HIGHBD_BFP_WRAPPER(8, 8, 10)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(8, 4, 10)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 8, 10)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 4, 10)
HIGHBD_BFP_WRAPPER(128, 128, 10)
HIGHBD_BFP_WRAPPER(128, 64, 10)
HIGHBD_BFP_WRAPPER(64, 128, 10)
HIGHBD_MBFP_WRAPPER(128, 128, 10)
HIGHBD_MBFP_WRAPPER(128, 64, 10)
HIGHBD_MBFP_WRAPPER(64, 128, 10)
HIGHBD_MBFP_WRAPPER(64, 64, 10)
HIGHBD_MBFP_WRAPPER(64, 32, 10)
HIGHBD_MBFP_WRAPPER(32, 64, 10)
HIGHBD_MBFP_WRAPPER(32, 32, 10)
HIGHBD_MBFP_WRAPPER(32, 16, 10)
HIGHBD_MBFP_WRAPPER(16, 32, 10)
HIGHBD_MBFP_WRAPPER(16, 16, 10)
HIGHBD_MBFP_WRAPPER(8, 16, 10)
HIGHBD_MBFP_WRAPPER(16, 8, 10)
HIGHBD_MBFP_WRAPPER(8, 8, 10)
HIGHBD_MBFP_WRAPPER(4, 8, 10)
HIGHBD_MBFP_WRAPPER(8, 4, 10)
HIGHBD_MBFP_WRAPPER(4, 4, 10)
#if !CONFIG_REALTIME_ONLY
HIGHBD_MBFP_WRAPPER(64, 16, 10)
HIGHBD_MBFP_WRAPPER(16, 64, 10)
HIGHBD_MBFP_WRAPPER(32, 8, 10)
HIGHBD_MBFP_WRAPPER(8, 32, 10)
HIGHBD_MBFP_WRAPPER(16, 4, 10)
HIGHBD_MBFP_WRAPPER(4, 16, 10)
#endif
// OBMC excluded from realtime only build.
#if !CONFIG_REALTIME_ONLY
HIGHBD_OBFP_WRAPPER(128, 128, 10)
HIGHBD_OBFP_WRAPPER(128, 64, 10)
HIGHBD_OBFP_WRAPPER(64, 128, 10)
HIGHBD_OBFP_WRAPPER(64, 64, 10)
HIGHBD_OBFP_WRAPPER(64, 32, 10)
HIGHBD_OBFP_WRAPPER(32, 64, 10)
HIGHBD_OBFP_WRAPPER(32, 32, 10)
HIGHBD_OBFP_WRAPPER(32, 16, 10)
HIGHBD_OBFP_WRAPPER(16, 32, 10)
HIGHBD_OBFP_WRAPPER(16, 16, 10)
HIGHBD_OBFP_WRAPPER(8, 16, 10)
HIGHBD_OBFP_WRAPPER(16, 8, 10)
HIGHBD_OBFP_WRAPPER(8, 8, 10)
HIGHBD_OBFP_WRAPPER(4, 8, 10)
HIGHBD_OBFP_WRAPPER(8, 4, 10)
HIGHBD_OBFP_WRAPPER(4, 4, 10)
HIGHBD_OBFP_WRAPPER(64, 16, 10)
HIGHBD_OBFP_WRAPPER(16, 64, 10)
HIGHBD_OBFP_WRAPPER(32, 8, 10)
HIGHBD_OBFP_WRAPPER(8, 32, 10)
HIGHBD_OBFP_WRAPPER(16, 4, 10)
HIGHBD_OBFP_WRAPPER(4, 16, 10)
#endif
HIGHBD_SDSFP_WRAPPER(128, 128, 10)
HIGHBD_SDSFP_WRAPPER(128, 64, 10)
HIGHBD_SDSFP_WRAPPER(64, 128, 10)
HIGHBD_SDSFP_WRAPPER(64, 64, 10)
HIGHBD_SDSFP_WRAPPER(64, 32, 10)
HIGHBD_SDSFP_WRAPPER(32, 64, 10)
HIGHBD_SDSFP_WRAPPER(32, 32, 10)
HIGHBD_SDSFP_WRAPPER(32, 16, 10)
HIGHBD_SDSFP_WRAPPER(16, 32, 10)
HIGHBD_SDSFP_WRAPPER(16, 16, 10)
HIGHBD_SDSFP_WRAPPER(8, 16, 10)
#if !CONFIG_REALTIME_ONLY
HIGHBD_SDSFP_WRAPPER(64, 16, 10)
HIGHBD_SDSFP_WRAPPER(16, 64, 10)
HIGHBD_SDSFP_WRAPPER(8, 32, 10)
HIGHBD_SDSFP_WRAPPER(4, 16, 10)
#endif
break;
case AOM_BITS_12:
#if !CONFIG_REALTIME_ONLY
HIGHBD_BFP_WRAPPER(64, 16, 12)
HIGHBD_BFP_WRAPPER(16, 64, 12)
HIGHBD_BFP_WRAPPER(32, 8, 12)
HIGHBD_BFP_WRAPPER(8, 32, 12)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(16, 4, 12)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 16, 12)
#endif
HIGHBD_BFP_WRAPPER(32, 16, 12)
HIGHBD_BFP_WRAPPER(16, 32, 12)
HIGHBD_BFP_WRAPPER(64, 32, 12)
HIGHBD_BFP_WRAPPER(32, 64, 12)
HIGHBD_BFP_WRAPPER(32, 32, 12)
HIGHBD_BFP_WRAPPER(64, 64, 12)
HIGHBD_BFP_WRAPPER(16, 16, 12)
HIGHBD_BFP_WRAPPER(16, 8, 12)
HIGHBD_BFP_WRAPPER(8, 16, 12)
HIGHBD_BFP_WRAPPER(8, 8, 12)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(8, 4, 12)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 8, 12)
HIGHBD_BFP_WRAPPER_NO_SAD_AVG(4, 4, 12)
HIGHBD_BFP_WRAPPER(128, 128, 12)
HIGHBD_BFP_WRAPPER(128, 64, 12)
HIGHBD_BFP_WRAPPER(64, 128, 12)
HIGHBD_MBFP_WRAPPER(128, 128, 12)
HIGHBD_MBFP_WRAPPER(128, 64, 12)
HIGHBD_MBFP_WRAPPER(64, 128, 12)
HIGHBD_MBFP_WRAPPER(64, 64, 12)
HIGHBD_MBFP_WRAPPER(64, 32, 12)
HIGHBD_MBFP_WRAPPER(32, 64, 12)
HIGHBD_MBFP_WRAPPER(32, 32, 12)
HIGHBD_MBFP_WRAPPER(32, 16, 12)
HIGHBD_MBFP_WRAPPER(16, 32, 12)
HIGHBD_MBFP_WRAPPER(16, 16, 12)
HIGHBD_MBFP_WRAPPER(8, 16, 12)
HIGHBD_MBFP_WRAPPER(16, 8, 12)
HIGHBD_MBFP_WRAPPER(8, 8, 12)
HIGHBD_MBFP_WRAPPER(4, 8, 12)
HIGHBD_MBFP_WRAPPER(8, 4, 12)
HIGHBD_MBFP_WRAPPER(4, 4, 12)
#if !CONFIG_REALTIME_ONLY
HIGHBD_MBFP_WRAPPER(64, 16, 12)
HIGHBD_MBFP_WRAPPER(16, 64, 12)
HIGHBD_MBFP_WRAPPER(32, 8, 12)
HIGHBD_MBFP_WRAPPER(8, 32, 12)
HIGHBD_MBFP_WRAPPER(16, 4, 12)
HIGHBD_MBFP_WRAPPER(4, 16, 12)
#endif
// OBMC excluded from realtime only build.
#if !CONFIG_REALTIME_ONLY
HIGHBD_OBFP_WRAPPER(128, 128, 12)
HIGHBD_OBFP_WRAPPER(128, 64, 12)
HIGHBD_OBFP_WRAPPER(64, 128, 12)
HIGHBD_OBFP_WRAPPER(64, 64, 12)
HIGHBD_OBFP_WRAPPER(64, 32, 12)
HIGHBD_OBFP_WRAPPER(32, 64, 12)
HIGHBD_OBFP_WRAPPER(32, 32, 12)
HIGHBD_OBFP_WRAPPER(32, 16, 12)
HIGHBD_OBFP_WRAPPER(16, 32, 12)
HIGHBD_OBFP_WRAPPER(16, 16, 12)
HIGHBD_OBFP_WRAPPER(8, 16, 12)
HIGHBD_OBFP_WRAPPER(16, 8, 12)
HIGHBD_OBFP_WRAPPER(8, 8, 12)
HIGHBD_OBFP_WRAPPER(4, 8, 12)
HIGHBD_OBFP_WRAPPER(8, 4, 12)
HIGHBD_OBFP_WRAPPER(4, 4, 12)
HIGHBD_OBFP_WRAPPER(64, 16, 12)
HIGHBD_OBFP_WRAPPER(16, 64, 12)
HIGHBD_OBFP_WRAPPER(32, 8, 12)
HIGHBD_OBFP_WRAPPER(8, 32, 12)
HIGHBD_OBFP_WRAPPER(16, 4, 12)
HIGHBD_OBFP_WRAPPER(4, 16, 12)
#endif
HIGHBD_SDSFP_WRAPPER(128, 128, 12)
HIGHBD_SDSFP_WRAPPER(128, 64, 12)
HIGHBD_SDSFP_WRAPPER(64, 128, 12)
HIGHBD_SDSFP_WRAPPER(64, 64, 12)
HIGHBD_SDSFP_WRAPPER(64, 32, 12)
HIGHBD_SDSFP_WRAPPER(32, 64, 12)
HIGHBD_SDSFP_WRAPPER(32, 32, 12)
HIGHBD_SDSFP_WRAPPER(32, 16, 12)
HIGHBD_SDSFP_WRAPPER(16, 32, 12)
HIGHBD_SDSFP_WRAPPER(16, 16, 12)
HIGHBD_SDSFP_WRAPPER(8, 16, 12)
#if !CONFIG_REALTIME_ONLY
HIGHBD_SDSFP_WRAPPER(64, 16, 12)
HIGHBD_SDSFP_WRAPPER(16, 64, 12)
HIGHBD_SDSFP_WRAPPER(8, 32, 12)
HIGHBD_SDSFP_WRAPPER(4, 16, 12)
#endif
break;
default:
assert(0 &&
"cm->seq_params->bit_depth should be AOM_BITS_8, "
"AOM_BITS_10 or AOM_BITS_12");
}
}
}
#endif // CONFIG_AV1_HIGHBITDEPTH
static inline void copy_frame_prob_info(AV1_COMP *cpi) {
FrameProbInfo *const frame_probs = &cpi->ppi->frame_probs;
if (cpi->sf.tx_sf.tx_type_search.prune_tx_type_using_stats) {
av1_copy(frame_probs->tx_type_probs, default_tx_type_probs);
}
if (cpi->sf.inter_sf.prune_obmc_prob_thresh > 0 &&
cpi->sf.inter_sf.prune_obmc_prob_thresh < INT_MAX) {
av1_copy(frame_probs->obmc_probs, default_obmc_probs);
}
if (cpi->sf.inter_sf.prune_warped_prob_thresh > 0) {
av1_copy(frame_probs->warped_probs, default_warped_probs);
}
if (cpi->sf.interp_sf.adaptive_interp_filter_search == 2) {
av1_copy(frame_probs->switchable_interp_probs,
default_switchable_interp_probs);
}
#if CONFIG_FPMT_TEST
if (cpi->ppi->fpmt_unit_test_cfg == PARALLEL_SIMULATION_ENCODE) {
FrameProbInfo *const temp_frame_probs = &cpi->ppi->temp_frame_probs;
if (cpi->sf.tx_sf.tx_type_search.prune_tx_type_using_stats) {
av1_copy(temp_frame_probs->tx_type_probs, default_tx_type_probs);
}
if (cpi->sf.inter_sf.prune_obmc_prob_thresh > 0 &&
cpi->sf.inter_sf.prune_obmc_prob_thresh < INT_MAX) {
av1_copy(temp_frame_probs->obmc_probs, default_obmc_probs);
}
if (cpi->sf.inter_sf.prune_warped_prob_thresh > 0) {
av1_copy(temp_frame_probs->warped_probs, default_warped_probs);
}
if (cpi->sf.interp_sf.adaptive_interp_filter_search == 2) {
av1_copy(temp_frame_probs->switchable_interp_probs,
default_switchable_interp_probs);
}
FrameProbInfo *const temp_frame_probs_simulation =
&cpi->ppi->temp_frame_probs_simulation;
if (cpi->sf.tx_sf.tx_type_search.prune_tx_type_using_stats) {
av1_copy(temp_frame_probs_simulation->tx_type_probs,
default_tx_type_probs);
}
if (cpi->sf.inter_sf.prune_obmc_prob_thresh > 0 &&
cpi->sf.inter_sf.prune_obmc_prob_thresh < INT_MAX) {
av1_copy(temp_frame_probs_simulation->obmc_probs, default_obmc_probs);
}
if (cpi->sf.inter_sf.prune_warped_prob_thresh > 0) {
av1_copy(temp_frame_probs_simulation->warped_probs, default_warped_probs);
}
if (cpi->sf.interp_sf.adaptive_interp_filter_search == 2) {
av1_copy(temp_frame_probs_simulation->switchable_interp_probs,
default_switchable_interp_probs);
}
}
#endif
}
static inline void restore_cdef_coding_context(CdefInfo *const dst,
const CdefInfo *const src) {
dst->cdef_bits = src->cdef_bits;
dst->cdef_damping = src->cdef_damping;
av1_copy(dst->cdef_strengths, src->cdef_strengths);
av1_copy(dst->cdef_uv_strengths, src->cdef_uv_strengths);
dst->nb_cdef_strengths = src->nb_cdef_strengths;
}
// Coding context that only needs to be restored when recode loop includes
// filtering (deblocking, CDEF, superres post-encode upscale and/or loop
// restoraton).
static inline void restore_extra_coding_context(AV1_COMP *cpi) {
CODING_CONTEXT *const cc = &cpi->coding_context;
AV1_COMMON *cm = &cpi->common;
cm->lf = cc->lf;
restore_cdef_coding_context(&cm->cdef_info, &cc->cdef_info);
cpi->rc = cc->rc;
cpi->ppi->mv_stats = cc->mv_stats;
}
static inline int equal_dimensions_and_border(const YV12_BUFFER_CONFIG *a,
const YV12_BUFFER_CONFIG *b) {
return a->y_height == b->y_height && a->y_width == b->y_width &&
a->uv_height == b->uv_height && a->uv_width == b->uv_width &&
a->y_stride == b->y_stride && a->uv_stride == b->uv_stride &&
a->border == b->border &&
(a->flags & YV12_FLAG_HIGHBITDEPTH) ==
(b->flags & YV12_FLAG_HIGHBITDEPTH);
}
static inline int update_entropy(bool *ext_refresh_frame_context,
bool *ext_refresh_frame_context_pending,
bool update) {
*ext_refresh_frame_context = update;
*ext_refresh_frame_context_pending = 1;
return 0;
}
#if !CONFIG_REALTIME_ONLY
static inline int combine_prior_with_tpl_boost(double min_factor,
double max_factor,
int prior_boost, int tpl_boost,
int frames_to_key) {
double factor = sqrt((double)frames_to_key);
double range = max_factor - min_factor;
factor = AOMMIN(factor, max_factor);
factor = AOMMAX(factor, min_factor);
factor -= min_factor;
int boost =
(int)((factor * prior_boost + (range - factor) * tpl_boost) / range);
return boost;
}
#endif
static inline void set_size_independent_vars(AV1_COMP *cpi) {
int i;
AV1_COMMON *const cm = &cpi->common;
FeatureFlags *const features = &cm->features;
for (i = LAST_FRAME; i <= ALTREF_FRAME; ++i) {
cm->global_motion[i] = default_warp_params;
}
cpi->gm_info.search_done = 0;
av1_set_speed_features_framesize_independent(cpi, cpi->speed);
av1_set_rd_speed_thresholds(cpi);
features->interp_filter = SWITCHABLE;
features->switchable_motion_mode = is_switchable_motion_mode_allowed(
features->allow_warped_motion, cpi->oxcf.motion_mode_cfg.enable_obmc);
}
static inline void release_scaled_references(AV1_COMP *cpi) {
// Scaled references should only need to be released under certain conditions:
// if the reference will be updated, or if the scaled reference has same
// resolution. For now only apply this to Golden for non-svc RTC mode.
AV1_COMMON *const cm = &cpi->common;
const bool refresh_golden = (cpi->refresh_frame.golden_frame) ? 1 : 0;
bool release_golden = true;
for (int i = 0; i < INTER_REFS_PER_FRAME; ++i) {
RefCntBuffer *const buf = cpi->scaled_ref_buf[i];
const int golden_ref = (i == GOLDEN_FRAME - 1);
if (golden_ref && is_one_pass_rt_params(cpi) && !cpi->ppi->use_svc &&
buf != NULL) {
const RefCntBuffer *const ref = get_ref_frame_buf(cm, GOLDEN_FRAME);
const bool same_resoln = buf->buf.y_crop_width == ref->buf.y_crop_width &&
buf->buf.y_crop_height == ref->buf.y_crop_height;
release_golden = refresh_golden || same_resoln;
}
if (buf != NULL && (!golden_ref || (golden_ref && release_golden))) {
--buf->ref_count;
cpi->scaled_ref_buf[i] = NULL;
}
}
}
static inline void restore_all_coding_context(AV1_COMP *cpi) {
restore_extra_coding_context(cpi);
if (!frame_is_intra_only(&cpi->common)) release_scaled_references(cpi);
}
static inline int reduce_num_ref_buffers(const AV1_COMP *cpi) {
const SequenceHeader *const seq_params = cpi->common.seq_params;
return is_one_pass_rt_params(cpi) &&
use_rtc_reference_structure_one_layer(cpi) &&
(seq_params->order_hint_info.enable_order_hint == 0) &&
cpi->rt_reduce_num_ref_buffers;
}
// Refresh reference frame buffers according to refresh_frame_flags.
static inline void refresh_reference_frames(AV1_COMP *cpi) {
AV1_COMMON *const cm = &cpi->common;
// All buffers are refreshed for shown keyframes and S-frames.
// In case of RT, golden frame refreshes the 6th slot and other reference
// frames refresh slots 0 to 5. Slot 7 is not refreshed by any reference
// frame. Thus, only 7 buffers are refreshed for keyframes and S-frames
// instead of 8.
int num_ref_buffers = REF_FRAMES;
if (reduce_num_ref_buffers(cpi)) {
const int refresh_all_bufs =
(cpi->ppi->gf_group.refbuf_state[cpi->gf_frame_index] == REFBUF_RESET ||
frame_is_sframe(cm));
assert(IMPLIES(((cm->current_frame.refresh_frame_flags >> 7) & 1) == 1,
refresh_all_bufs));
(void)refresh_all_bufs;
num_ref_buffers--;
}
for (int ref_frame = 0; ref_frame < num_ref_buffers; ref_frame++) {
if (((cm->current_frame.refresh_frame_flags >> ref_frame) & 1) == 1) {
assign_frame_buffer_p(&cm->ref_frame_map[ref_frame], cm->cur_frame);
}
}
}
#if !CONFIG_REALTIME_ONLY
void av1_update_film_grain_parameters_seq(struct AV1_PRIMARY *ppi,
const AV1EncoderConfig *oxcf);
void av1_update_film_grain_parameters(struct AV1_COMP *cpi,
const AV1EncoderConfig *oxcf);
#endif
void av1_scale_references(AV1_COMP *cpi, const InterpFilter filter,
const int phase, const int use_optimized_scaler);
void av1_setup_frame(AV1_COMP *cpi);
BLOCK_SIZE av1_select_sb_size(const AV1EncoderConfig *const oxcf, int width,
int height, int number_spatial_layers);
void av1_apply_active_map(AV1_COMP *cpi);
#if !CONFIG_REALTIME_ONLY
uint16_t av1_setup_interp_filter_search_mask(AV1_COMP *cpi);
void av1_determine_sc_tools_with_encoding(AV1_COMP *cpi, const int q_orig);
#endif
void av1_set_size_dependent_vars(AV1_COMP *cpi, int *q, int *bottom_index,
int *top_index);
void av1_finalize_encoded_frame(AV1_COMP *const cpi);
int av1_is_integer_mv(const YV12_BUFFER_CONFIG *cur_picture,
const YV12_BUFFER_CONFIG *last_picture,
ForceIntegerMVInfo *const force_intpel_info);
void av1_set_mb_ssim_rdmult_scaling(AV1_COMP *cpi);
void av1_save_all_coding_context(AV1_COMP *cpi);
#if DUMP_RECON_FRAMES == 1
void av1_dump_filtered_recon_frames(AV1_COMP *cpi);
#endif
static inline int av1_get_enc_border_size(bool resize, bool all_intra,
BLOCK_SIZE sb_size) {
// For allintra encoding mode, inter-frame motion search is not applicable and
// the intraBC motion vectors are restricted within the tile boundaries. Hence
// a smaller frame border size (AOM_ENC_ALLINTRA_BORDER) is used in this case.
if (resize) {
return AOM_BORDER_IN_PIXELS;
}
if (all_intra) {
return AOM_ENC_ALLINTRA_BORDER;
}
return block_size_wide[sb_size] + 32;
}
static inline bool av1_is_resize_needed(const AV1EncoderConfig *oxcf) {
const ResizeCfg *resize_cfg = &oxcf->resize_cfg;
const SuperResCfg *superres_cfg = &oxcf->superres_cfg;
return resize_cfg->resize_mode || superres_cfg->superres_mode;
}
#ifdef __cplusplus
} // extern "C"
#endif
#endif // AOM_AV1_ENCODER_ENCODER_UTILS_H_