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

 /*
  * 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_COMMON_RESTORATION_H_
 #define AV1_COMMON_RESTORATION_H_

 #include "aom_ports/mem.h"
 #include "./aom_config.h"

 #include "av1/common/blockd.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 #define CLIP(x, lo, hi) ((x) < (lo) ? (lo) : (x) > (hi) ? (hi) : (x))
 #define RINT(x) ((x) < 0 ? (int)((x)-0.5) : (int)((x) + 0.5))

 #define RESTORATION_TILESIZE_SML 128
 #define RESTORATION_TILESIZE_BIG 256
 #define RESTORATION_TILEPELS_MAX \
   (RESTORATION_TILESIZE_BIG * RESTORATION_TILESIZE_BIG * 9 / 4)

 #define DOMAINTXFMRF_PARAMS_BITS 6
 #define DOMAINTXFMRF_PARAMS (1 << DOMAINTXFMRF_PARAMS_BITS)
 #define DOMAINTXFMRF_SIGMA_SCALEBITS 4
 #define DOMAINTXFMRF_SIGMA_SCALE (1 << DOMAINTXFMRF_SIGMA_SCALEBITS)
 #define DOMAINTXFMRF_ITERS 3
 #define DOMAINTXFMRF_VTABLE_PRECBITS 8
 #define DOMAINTXFMRF_VTABLE_PREC (1 << DOMAINTXFMRF_VTABLE_PRECBITS)
 #define DOMAINTXFMRF_MULT \
   sqrt(((1 << (DOMAINTXFMRF_ITERS * 2)) - 1) * 2.0 / 3.0)
 // A single 32 bit buffer needed for the filter
 #define DOMAINTXFMRF_TMPBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(int32_t))
 // One extra buffer needed in encoder, which is either 8-bit or 16-bit
 // depending on the video bit depth.
 #if CONFIG_AOM_HIGHBITDEPTH
 #define DOMAINTXFMRF_EXTBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(uint16_t))
 #else
 #define DOMAINTXFMRF_EXTBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(uint8_t))
 #endif
 #define DOMAINTXFMRF_BITS (DOMAINTXFMRF_PARAMS_BITS)

 // 5 32-bit buffers needed for the filter:
 // 2 for the restored versions of the frame and
 // 3 for each restoration operation
 #define SGRPROJ_TMPBUF_SIZE (RESTORATION_TILEPELS_MAX * 5 * sizeof(int32_t))
 #define SGRPROJ_EXTBUF_SIZE (0)
 #define SGRPROJ_PARAMS_BITS 3
 #define SGRPROJ_PARAMS (1 << SGRPROJ_PARAMS_BITS)

 // Precision bits for projection
 #define SGRPROJ_PRJ_BITS 7
 // Restoration precision bits generated higher than source before projection
 #define SGRPROJ_RST_BITS 4
 // Internal precision bits for core selfguided_restoration
 #define SGRPROJ_SGR_BITS 8
 #define SGRPROJ_SGR (1 << SGRPROJ_SGR_BITS)

 #define SGRPROJ_PRJ_MIN0 (-(1 << SGRPROJ_PRJ_BITS) / 4)
 #define SGRPROJ_PRJ_MAX0 (SGRPROJ_PRJ_MIN0 + (1 << SGRPROJ_PRJ_BITS) - 1)
 #define SGRPROJ_PRJ_MIN1 (-(1 << SGRPROJ_PRJ_BITS) / 4)
 #define SGRPROJ_PRJ_MAX1 (SGRPROJ_PRJ_MIN1 + (1 << SGRPROJ_PRJ_BITS) - 1)

 #define SGRPROJ_BITS (SGRPROJ_PRJ_BITS * 2 + SGRPROJ_PARAMS_BITS)

 #define WIENER_HALFWIN 3
 #define WIENER_HALFWIN1 (WIENER_HALFWIN + 1)
 #define WIENER_WIN (2 * WIENER_HALFWIN + 1)
 #define WIENER_WIN2 ((WIENER_WIN) * (WIENER_WIN))
 #define WIENER_TMPBUF_SIZE (0)
 #define WIENER_EXTBUF_SIZE (0)

 #define WIENER_FILT_PREC_BITS 7
 #define WIENER_FILT_STEP (1 << WIENER_FILT_PREC_BITS)

 // Central values for the taps
 #define WIENER_FILT_TAP0_MIDV (3)
 #define WIENER_FILT_TAP1_MIDV (-7)
 #define WIENER_FILT_TAP2_MIDV (16)

 #define WIENER_FILT_TAP0_BITS 4
 #define WIENER_FILT_TAP1_BITS 5
 #define WIENER_FILT_TAP2_BITS 6

 #define WIENER_FILT_BITS \
   ((WIENER_FILT_TAP0_BITS + WIENER_FILT_TAP1_BITS + WIENER_FILT_TAP2_BITS) * 2)

 #define WIENER_FILT_TAP0_MINV \
   (WIENER_FILT_TAP0_MIDV - (1 << WIENER_FILT_TAP0_BITS) / 2)
 #define WIENER_FILT_TAP1_MINV \
   (WIENER_FILT_TAP1_MIDV - (1 << WIENER_FILT_TAP1_BITS) / 2)
 #define WIENER_FILT_TAP2_MINV \
   (WIENER_FILT_TAP2_MIDV - (1 << WIENER_FILT_TAP2_BITS) / 2)

 #define WIENER_FILT_TAP0_MAXV \
   (WIENER_FILT_TAP0_MIDV - 1 + (1 << WIENER_FILT_TAP0_BITS) / 2)
 #define WIENER_FILT_TAP1_MAXV \
   (WIENER_FILT_TAP1_MIDV - 1 + (1 << WIENER_FILT_TAP1_BITS) / 2)
 #define WIENER_FILT_TAP2_MAXV \
   (WIENER_FILT_TAP2_MIDV - 1 + (1 << WIENER_FILT_TAP2_BITS) / 2)

 // Max of SGRPROJ_TMPBUF_SIZE, DOMAINTXFMRF_TMPBUF_SIZE, WIENER_TMPBUF_SIZE
 #define RESTORATION_TMPBUF_SIZE (SGRPROJ_TMPBUF_SIZE)
 // Max of SGRPROJ_EXTBUF_SIZE, DOMAINTXFMRF_EXTBUF_SIZE, WIENER_EXTBUF_SIZE
 #define RESTORATION_EXTBUF_SIZE (DOMAINTXFMRF_EXTBUF_SIZE)

 typedef struct {
   int level;
   int vfilter[WIENER_WIN], hfilter[WIENER_WIN];
 } WienerInfo;

 typedef struct {
   int r1;
   int e1;
   int r2;
   int e2;
 } sgr_params_type;

 typedef struct {
   int level;
   int ep;
   int xqd[2];
 } SgrprojInfo;

 typedef struct {
   int level;
   int sigma_r;
 } DomaintxfmrfInfo;

 typedef struct {
   RestorationType frame_restoration_type;
   RestorationType *restoration_type;
   // Wiener filter
   WienerInfo *wiener_info;
   // Selfguided proj filter
   SgrprojInfo *sgrproj_info;
   // Domain transform filter
   DomaintxfmrfInfo *domaintxfmrf_info;
 } RestorationInfo;

 typedef struct {
   RestorationInfo *rsi;
   int keyframe;
   int subsampling_x;
   int subsampling_y;
   int ntiles;
   int tile_width, tile_height;
   int nhtiles, nvtiles;
   int32_t *tmpbuf;
 } RestorationInternal;

 static INLINE int get_rest_tilesize(int width, int height) {
   if (width * height <= 352 * 288)
     return RESTORATION_TILESIZE_SML;
   else
     return RESTORATION_TILESIZE_BIG;
 }

 static INLINE int av1_get_rest_ntiles(int width, int height, int *tile_width,
                                       int *tile_height, int *nhtiles,
                                       int *nvtiles) {
   int nhtiles_, nvtiles_;
   int tile_width_, tile_height_;
   int tilesize = get_rest_tilesize(width, height);
   tile_width_ = (tilesize < 0) ? width : AOMMIN(tilesize, width);
   tile_height_ = (tilesize < 0) ? height : AOMMIN(tilesize, height);
   nhtiles_ = (width + (tile_width_ >> 1)) / tile_width_;
   nvtiles_ = (height + (tile_height_ >> 1)) / tile_height_;
   if (tile_width) *tile_width = tile_width_;
   if (tile_height) *tile_height = tile_height_;
   if (nhtiles) *nhtiles = nhtiles_;
   if (nvtiles) *nvtiles = nvtiles_;
   return (nhtiles_ * nvtiles_);
 }

 static INLINE void av1_get_rest_tile_limits(
     int tile_idx, int subtile_idx, int subtile_bits, int nhtiles, int nvtiles,
     int tile_width, int tile_height, int im_width, int im_height, int clamp_h,
     int clamp_v, int *h_start, int *h_end, int *v_start, int *v_end) {
   const int htile_idx = tile_idx % nhtiles;
   const int vtile_idx = tile_idx / nhtiles;
   *h_start = htile_idx * tile_width;
   *v_start = vtile_idx * tile_height;
   *h_end = (htile_idx < nhtiles - 1) ? *h_start + tile_width : im_width;
   *v_end = (vtile_idx < nvtiles - 1) ? *v_start + tile_height : im_height;
   if (subtile_bits) {
     const int num_subtiles_1d = (1 << subtile_bits);
     const int subtile_width = (*h_end - *h_start) >> subtile_bits;
     const int subtile_height = (*v_end - *v_start) >> subtile_bits;
     const int subtile_idx_h = subtile_idx & (num_subtiles_1d - 1);
     const int subtile_idx_v = subtile_idx >> subtile_bits;
     *h_start += subtile_idx_h * subtile_width;
     *v_start += subtile_idx_v * subtile_height;
     *h_end = subtile_idx_h == num_subtiles_1d - 1 ? *h_end
                                                   : *h_start + subtile_width;
     *v_end = subtile_idx_v == num_subtiles_1d - 1 ? *v_end
                                                   : *v_start + subtile_height;
   }
   if (clamp_h) {
     *h_start = AOMMAX(*h_start, clamp_h);
     *h_end = AOMMIN(*h_end, im_width - clamp_h);
   }
   if (clamp_v) {
     *v_start = AOMMAX(*v_start, clamp_v);
     *v_end = AOMMIN(*v_end, im_height - clamp_v);
   }
 }

 extern const sgr_params_type sgr_params[SGRPROJ_PARAMS];

 int av1_alloc_restoration_struct(RestorationInfo *rst_info, int width,
                                  int height);
 void av1_free_restoration_struct(RestorationInfo *rst_info);

 void av1_selfguided_restoration(int32_t *dgd, int width, int height, int stride,
                                 int bit_depth, int r, int eps, int32_t *tmpbuf);
 void av1_domaintxfmrf_restoration(uint8_t *dgd, int width, int height,
                                   int stride, int param, uint8_t *dst,
                                   int dst_stride, int32_t *tmpbuf);
 #if CONFIG_AOM_HIGHBITDEPTH
 void av1_domaintxfmrf_restoration_highbd(uint16_t *dgd, int width, int height,
                                          int stride, int param, int bit_depth,
                                          uint16_t *dst, int dst_stride,
                                          int32_t *tmpbuf);
 #endif  // CONFIG_AOM_HIGHBITDEPTH
 void decode_xq(int *xqd, int *xq);
 void av1_loop_restoration_frame(YV12_BUFFER_CONFIG *frame, struct AV1Common *cm,
                                 RestorationInfo *rsi, int components_pattern,
                                 int partial_frame, YV12_BUFFER_CONFIG *dst);
 void av1_loop_restoration_precal();
 #ifdef __cplusplus
 }  // extern "C"
 #endif

 #endif  // AV1_COMMON_RESTORATION_H_
	/*
	* 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_COMMON_RESTORATION_H_
	#define AV1_COMMON_RESTORATION_H_

	#include "aom_ports/mem.h"
	#include "./aom_config.h"

	#include "av1/common/blockd.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	#define CLIP(x, lo, hi) ((x) < (lo) ? (lo) : (x) > (hi) ? (hi) : (x))
	#define RINT(x) ((x) < 0 ? (int)((x)-0.5) : (int)((x) + 0.5))

	#define RESTORATION_TILESIZE_SML 128
	#define RESTORATION_TILESIZE_BIG 256
	#define RESTORATION_TILEPELS_MAX \
	(RESTORATION_TILESIZE_BIG * RESTORATION_TILESIZE_BIG * 9 / 4)

	#define DOMAINTXFMRF_PARAMS_BITS 6
	#define DOMAINTXFMRF_PARAMS (1 << DOMAINTXFMRF_PARAMS_BITS)
	#define DOMAINTXFMRF_SIGMA_SCALEBITS 4
	#define DOMAINTXFMRF_SIGMA_SCALE (1 << DOMAINTXFMRF_SIGMA_SCALEBITS)
	#define DOMAINTXFMRF_ITERS 3
	#define DOMAINTXFMRF_VTABLE_PRECBITS 8
	#define DOMAINTXFMRF_VTABLE_PREC (1 << DOMAINTXFMRF_VTABLE_PRECBITS)
	#define DOMAINTXFMRF_MULT \
	sqrt(((1 << (DOMAINTXFMRF_ITERS * 2)) - 1) * 2.0 / 3.0)
	// A single 32 bit buffer needed for the filter
	#define DOMAINTXFMRF_TMPBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(int32_t))
	// One extra buffer needed in encoder, which is either 8-bit or 16-bit
	// depending on the video bit depth.
	#if CONFIG_AOM_HIGHBITDEPTH
	#define DOMAINTXFMRF_EXTBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(uint16_t))
	#else
	#define DOMAINTXFMRF_EXTBUF_SIZE (RESTORATION_TILEPELS_MAX * sizeof(uint8_t))
	#endif
	#define DOMAINTXFMRF_BITS (DOMAINTXFMRF_PARAMS_BITS)

	// 5 32-bit buffers needed for the filter:
	// 2 for the restored versions of the frame and
	// 3 for each restoration operation
	#define SGRPROJ_TMPBUF_SIZE (RESTORATION_TILEPELS_MAX * 5 * sizeof(int32_t))
	#define SGRPROJ_EXTBUF_SIZE (0)
	#define SGRPROJ_PARAMS_BITS 3
	#define SGRPROJ_PARAMS (1 << SGRPROJ_PARAMS_BITS)

	// Precision bits for projection
	#define SGRPROJ_PRJ_BITS 7
	// Restoration precision bits generated higher than source before projection
	#define SGRPROJ_RST_BITS 4
	// Internal precision bits for core selfguided_restoration
	#define SGRPROJ_SGR_BITS 8
	#define SGRPROJ_SGR (1 << SGRPROJ_SGR_BITS)

	#define SGRPROJ_PRJ_MIN0 (-(1 << SGRPROJ_PRJ_BITS) / 4)
	#define SGRPROJ_PRJ_MAX0 (SGRPROJ_PRJ_MIN0 + (1 << SGRPROJ_PRJ_BITS) - 1)
	#define SGRPROJ_PRJ_MIN1 (-(1 << SGRPROJ_PRJ_BITS) / 4)
	#define SGRPROJ_PRJ_MAX1 (SGRPROJ_PRJ_MIN1 + (1 << SGRPROJ_PRJ_BITS) - 1)

	#define SGRPROJ_BITS (SGRPROJ_PRJ_BITS * 2 + SGRPROJ_PARAMS_BITS)

	#define WIENER_HALFWIN 3
	#define WIENER_HALFWIN1 (WIENER_HALFWIN + 1)
	#define WIENER_WIN (2 * WIENER_HALFWIN + 1)
	#define WIENER_WIN2 ((WIENER_WIN) * (WIENER_WIN))
	#define WIENER_TMPBUF_SIZE (0)
	#define WIENER_EXTBUF_SIZE (0)

	#define WIENER_FILT_PREC_BITS 7
	#define WIENER_FILT_STEP (1 << WIENER_FILT_PREC_BITS)

	// Central values for the taps
	#define WIENER_FILT_TAP0_MIDV (3)
	#define WIENER_FILT_TAP1_MIDV (-7)
	#define WIENER_FILT_TAP2_MIDV (16)

	#define WIENER_FILT_TAP0_BITS 4
	#define WIENER_FILT_TAP1_BITS 5
	#define WIENER_FILT_TAP2_BITS 6

	#define WIENER_FILT_BITS \
	((WIENER_FILT_TAP0_BITS + WIENER_FILT_TAP1_BITS + WIENER_FILT_TAP2_BITS) * 2)

	#define WIENER_FILT_TAP0_MINV \
	(WIENER_FILT_TAP0_MIDV - (1 << WIENER_FILT_TAP0_BITS) / 2)
	#define WIENER_FILT_TAP1_MINV \
	(WIENER_FILT_TAP1_MIDV - (1 << WIENER_FILT_TAP1_BITS) / 2)
	#define WIENER_FILT_TAP2_MINV \
	(WIENER_FILT_TAP2_MIDV - (1 << WIENER_FILT_TAP2_BITS) / 2)

	#define WIENER_FILT_TAP0_MAXV \
	(WIENER_FILT_TAP0_MIDV - 1 + (1 << WIENER_FILT_TAP0_BITS) / 2)
	#define WIENER_FILT_TAP1_MAXV \
	(WIENER_FILT_TAP1_MIDV - 1 + (1 << WIENER_FILT_TAP1_BITS) / 2)
	#define WIENER_FILT_TAP2_MAXV \
	(WIENER_FILT_TAP2_MIDV - 1 + (1 << WIENER_FILT_TAP2_BITS) / 2)

	// Max of SGRPROJ_TMPBUF_SIZE, DOMAINTXFMRF_TMPBUF_SIZE, WIENER_TMPBUF_SIZE
	#define RESTORATION_TMPBUF_SIZE (SGRPROJ_TMPBUF_SIZE)
	// Max of SGRPROJ_EXTBUF_SIZE, DOMAINTXFMRF_EXTBUF_SIZE, WIENER_EXTBUF_SIZE
	#define RESTORATION_EXTBUF_SIZE (DOMAINTXFMRF_EXTBUF_SIZE)

	typedef struct {
	int level;
	int vfilter[WIENER_WIN], hfilter[WIENER_WIN];
	} WienerInfo;

	typedef struct {
	int r1;
	int e1;
	int r2;
	int e2;
	} sgr_params_type;

	typedef struct {
	int level;
	int ep;
	int xqd[2];
	} SgrprojInfo;

	typedef struct {
	int level;
	int sigma_r;
	} DomaintxfmrfInfo;

	typedef struct {
	RestorationType frame_restoration_type;
	RestorationType *restoration_type;
	// Wiener filter
	WienerInfo *wiener_info;
	// Selfguided proj filter
	SgrprojInfo *sgrproj_info;
	// Domain transform filter
	DomaintxfmrfInfo *domaintxfmrf_info;
	} RestorationInfo;

	typedef struct {
	RestorationInfo *rsi;
	int keyframe;
	int subsampling_x;
	int subsampling_y;
	int ntiles;
	int tile_width, tile_height;
	int nhtiles, nvtiles;
	int32_t *tmpbuf;
	} RestorationInternal;

	static INLINE int get_rest_tilesize(int width, int height) {
	if (width * height <= 352 * 288)
	return RESTORATION_TILESIZE_SML;
	else
	return RESTORATION_TILESIZE_BIG;
	}

	static INLINE int av1_get_rest_ntiles(int width, int height, int *tile_width,
	int tile_height, int nhtiles,
	int *nvtiles) {
	int nhtiles_, nvtiles_;
	int tile_width_, tile_height_;
	int tilesize = get_rest_tilesize(width, height);
	tile_width_ = (tilesize < 0) ? width : AOMMIN(tilesize, width);
	tile_height_ = (tilesize < 0) ? height : AOMMIN(tilesize, height);
	nhtiles_ = (width + (tile_width_ >> 1)) / tile_width_;
	nvtiles_ = (height + (tile_height_ >> 1)) / tile_height_;
	if (tile_width) *tile_width = tile_width_;
	if (tile_height) *tile_height = tile_height_;
	if (nhtiles) *nhtiles = nhtiles_;
	if (nvtiles) *nvtiles = nvtiles_;
	return (nhtiles_ * nvtiles_);
	}

	static INLINE void av1_get_rest_tile_limits(
	int tile_idx, int subtile_idx, int subtile_bits, int nhtiles, int nvtiles,
	int tile_width, int tile_height, int im_width, int im_height, int clamp_h,
	int clamp_v, int h_start, int h_end, int v_start, int v_end) {
	const int htile_idx = tile_idx % nhtiles;
	const int vtile_idx = tile_idx / nhtiles;
	h_start = htile_idx tile_width;
	v_start = vtile_idx tile_height;
	h_end = (htile_idx < nhtiles - 1) ? h_start + tile_width : im_width;
	v_end = (vtile_idx < nvtiles - 1) ? v_start + tile_height : im_height;
	if (subtile_bits) {
	const int num_subtiles_1d = (1 << subtile_bits);
	const int subtile_width = (h_end - h_start) >> subtile_bits;
	const int subtile_height = (v_end - v_start) >> subtile_bits;
	const int subtile_idx_h = subtile_idx & (num_subtiles_1d - 1);
	const int subtile_idx_v = subtile_idx >> subtile_bits;
	h_start += subtile_idx_h subtile_width;
	v_start += subtile_idx_v subtile_height;
	h_end = subtile_idx_h == num_subtiles_1d - 1 ? h_end
	: *h_start + subtile_width;
	v_end = subtile_idx_v == num_subtiles_1d - 1 ? v_end
	: *v_start + subtile_height;
	}
	if (clamp_h) {
	h_start = AOMMAX(h_start, clamp_h);
	h_end = AOMMIN(h_end, im_width - clamp_h);
	}
	if (clamp_v) {
	v_start = AOMMAX(v_start, clamp_v);
	v_end = AOMMIN(v_end, im_height - clamp_v);
	}
	}

	extern const sgr_params_type sgr_params[SGRPROJ_PARAMS];

	int av1_alloc_restoration_struct(RestorationInfo *rst_info, int width,
	int height);
	void av1_free_restoration_struct(RestorationInfo *rst_info);

	void av1_selfguided_restoration(int32_t *dgd, int width, int height, int stride,
	int bit_depth, int r, int eps, int32_t *tmpbuf);
	void av1_domaintxfmrf_restoration(uint8_t *dgd, int width, int height,
	int stride, int param, uint8_t *dst,
	int dst_stride, int32_t *tmpbuf);
	#if CONFIG_AOM_HIGHBITDEPTH
	void av1_domaintxfmrf_restoration_highbd(uint16_t *dgd, int width, int height,
	int stride, int param, int bit_depth,
	uint16_t *dst, int dst_stride,
	int32_t *tmpbuf);
	#endif // CONFIG_AOM_HIGHBITDEPTH
	void decode_xq(int xqd, int xq);
	void av1_loop_restoration_frame(YV12_BUFFER_CONFIG frame, struct AV1Common cm,
	RestorationInfo *rsi, int components_pattern,
	int partial_frame, YV12_BUFFER_CONFIG *dst);
	void av1_loop_restoration_precal();
	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // AV1_COMMON_RESTORATION_H_