uvg266/src/strategies/strategies-ipol.h

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#ifndef STRATEGIES_IPOL_H_
#define STRATEGIES_IPOL_H_
/*****************************************************************************
* This file is part of Kvazaar HEVC encoder.
*
* Copyright (C) 2013-2015 Tampere University of Technology and others (see
* COPYING file).
*
* Kvazaar is free software: you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License as published by the
* Free Software Foundation; either version 2.1 of the License, or (at your
* option) any later version.
*
* Kvazaar is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
/**
* \ingroup Optimization
* \file
* Interface for subpixel interpolation functions.
*/
#include "encoder.h"
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#include "global.h" // IWYU pragma: keep
#include "kvazaar.h"
#include "search_inter.h"
// AVX2 implementation of horizontal filter reads and
// writes two rows for luma and four for chroma at a time.
// Extra vertical padding is added to prevent segfaults.
// Horizontal padding is not needed even if one extra byte
// is read because kvz_image_alloc adds enough padding.
#define KVZ_IPOL_MAX_INPUT_SIZE_LUMA_SIMD ((KVZ_EXT_BLOCK_W_LUMA + 1) * KVZ_EXT_BLOCK_W_LUMA)
#define KVZ_IPOL_MAX_INPUT_SIZE_CHROMA_SIMD ((KVZ_EXT_BLOCK_W_CHROMA + 3) * KVZ_EXT_BLOCK_W_CHROMA)
#define KVZ_IPOL_MAX_IM_SIZE_LUMA_SIMD ((KVZ_EXT_BLOCK_W_LUMA + 1) * LCU_WIDTH)
#define KVZ_IPOL_MAX_IM_SIZE_CHROMA_SIMD ((KVZ_EXT_BLOCK_W_CHROMA + 3) * LCU_WIDTH_C)
// On top of basic interpolation, FME needs one extra
// column and row for ME (left and up). Adding the
// extra row happens to satisfy AVX2 requirements for
// row count. No other extra rows are needed.
#define KVZ_FME_MAX_INPUT_SIZE_SIMD ((KVZ_EXT_BLOCK_W_LUMA + 1) * (KVZ_EXT_BLOCK_W_LUMA + 1))
typedef struct { kvz_pixel *buffer; kvz_pixel *orig_topleft; unsigned stride; unsigned malloc_used; } kvz_extended_block;
typedef void(ipol_blocks_func)(const encoder_control_t * encoder, kvz_pixel *src, int16_t src_stride, int width, int height,
kvz_pixel filtered[4][LCU_LUMA_SIZE], int16_t hor_intermediate[5][KVZ_IPOL_MAX_IM_SIZE_LUMA_SIMD], int8_t fme_level, int16_t hor_first_cols[5][KVZ_EXT_BLOCK_W_LUMA + 1],
int8_t sample_off_x, int8_t sample_off_y);
typedef struct {
// Source samples
kvz_pixel *src; // Top-left sample
int src_w; // Width
int src_h; // Height
int src_s; // Stride
// Requested sampling position, base dimensions, and padding
int blk_x;
int blk_y;
int blk_w; // Width
int blk_h; // Height
int pad_l; // Left
int pad_r; // Right
int pad_t; // Top
int pad_b; // Bottom
int pad_b_simd; // "Don't care" rows in the end. Zeroed out.
// Buffer for possible extrapolation. Free memory provided by the caller.
kvz_pixel *buf;
// Extended block data. These are set by the function.
kvz_pixel **ext; // Top-left sample with padding
kvz_pixel **ext_origin; // Top-left sample without padding
int *ext_s; // Stride
} kvz_epol_args;
typedef void(epol_func)(kvz_epol_args *args);
typedef void(kvz_sample_quarterpel_luma_func)(const encoder_control_t * const encoder, kvz_pixel *src, int16_t src_stride, int width, int height, kvz_pixel *dst, int16_t dst_stride, int8_t hor_flag, int8_t ver_flag, const int16_t mv[2]);
typedef void(kvz_sample_octpel_chroma_func)(const encoder_control_t * const encoder, kvz_pixel *src, int16_t src_stride, int width, int height, kvz_pixel *dst, int16_t dst_stride, int8_t hor_flag, int8_t ver_flag, const int16_t mv[2]);
typedef void(kvz_sample_quarterpel_luma_hi_func)(const encoder_control_t * const encoder, kvz_pixel *src, int16_t src_stride, int width, int height, int16_t *dst, int16_t dst_stride, int8_t hor_flag, int8_t ver_flag, const int16_t mv[2]);
typedef void(kvz_sample_octpel_chroma_hi_func)(const encoder_control_t * const encoder, kvz_pixel *src, int16_t src_stride, int width, int height, int16_t *dst, int16_t dst_stride, int8_t hor_flag, int8_t ver_flag, const int16_t mv[2]);
// Declare function pointers.
extern ipol_blocks_func * kvz_filter_hpel_blocks_hor_ver_luma;
extern ipol_blocks_func * kvz_filter_hpel_blocks_diag_luma;
extern ipol_blocks_func * kvz_filter_qpel_blocks_hor_ver_luma;
extern ipol_blocks_func * kvz_filter_qpel_blocks_diag_luma;
extern epol_func * kvz_get_extended_block;
extern kvz_sample_quarterpel_luma_func * kvz_sample_quarterpel_luma;
extern kvz_sample_octpel_chroma_func * kvz_sample_octpel_chroma;
extern kvz_sample_quarterpel_luma_hi_func * kvz_sample_quarterpel_luma_hi;
extern kvz_sample_octpel_chroma_hi_func * kvz_sample_octpel_chroma_hi;
int kvz_strategy_register_ipol(void* opaque, uint8_t bitdepth);
#define STRATEGIES_IPOL_EXPORTS \
{"filter_hpel_blocks_hor_ver_luma", (void**) &kvz_filter_hpel_blocks_hor_ver_luma}, \
{"filter_hpel_blocks_diag_luma", (void**) &kvz_filter_hpel_blocks_diag_luma}, \
{"filter_qpel_blocks_hor_ver_luma", (void**) &kvz_filter_qpel_blocks_hor_ver_luma}, \
{"filter_qpel_blocks_diag_luma", (void**) &kvz_filter_qpel_blocks_diag_luma}, \
{"sample_quarterpel_luma", (void**) &kvz_sample_quarterpel_luma}, \
{"sample_octpel_chroma", (void**) &kvz_sample_octpel_chroma}, \
{"sample_quarterpel_luma_hi", (void**) &kvz_sample_quarterpel_luma_hi}, \
{"sample_octpel_chroma_hi", (void**) &kvz_sample_octpel_chroma_hi}, \
{"get_extended_block", (void**) &kvz_get_extended_block}, \
#endif //STRATEGIES_IPOL_H_