499 строки
17 KiB
C
499 строки
17 KiB
C
/*
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* Copyright (c) 2012 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <assert.h>
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#include <limits.h>
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#include "vpx_scale/yv12config.h"
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#include "vpx/vpx_integer.h"
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#include "vp9/common/vp9_reconinter.h"
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#include "vp9/encoder/vp9_context_tree.h"
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#include "vp9/encoder/vp9_denoiser.h"
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/* The VP9 denoiser is a work-in-progress. It currently is only designed to work
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* with speed 6, though it (inexplicably) seems to also work with speed 5 (one
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* would need to modify the source code in vp9_pickmode.c and vp9_encoder.c to
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* make the calls to the vp9_denoiser_* functions when in speed 5).
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*
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* The implementation is very similar to that of the VP8 denoiser. While
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* choosing the motion vectors / reference frames, the denoiser is run, and if
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* it did not modify the signal to much, the denoised block is copied to the
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* signal.
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*/
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#ifdef OUTPUT_YUV_DENOISED
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static void make_grayscale(YV12_BUFFER_CONFIG *yuv);
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#endif
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static int absdiff_thresh(BLOCK_SIZE bs, int increase_denoising) {
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(void)bs;
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return 3 + (increase_denoising ? 1 : 0);
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}
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static int delta_thresh(BLOCK_SIZE bs, int increase_denoising) {
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(void)bs;
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(void)increase_denoising;
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return 4;
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}
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static int noise_motion_thresh(BLOCK_SIZE bs, int increase_denoising) {
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(void)bs;
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(void)increase_denoising;
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return 625;
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}
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static unsigned int sse_thresh(BLOCK_SIZE bs, int increase_denoising) {
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return (1 << num_pels_log2_lookup[bs]) * (increase_denoising ? 60 : 40);
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}
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static int sse_diff_thresh(BLOCK_SIZE bs, int increase_denoising,
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int motion_magnitude) {
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if (motion_magnitude >
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noise_motion_thresh(bs, increase_denoising)) {
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return 0;
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} else {
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return (1 << num_pels_log2_lookup[bs]) * 20;
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}
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}
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int total_adj_strong_thresh(BLOCK_SIZE bs, int increase_denoising) {
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return (1 << num_pels_log2_lookup[bs]) * (increase_denoising ? 3 : 2);
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}
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static int total_adj_weak_thresh(BLOCK_SIZE bs, int increase_denoising) {
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return (1 << num_pels_log2_lookup[bs]) * (increase_denoising ? 3 : 2);
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}
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// TODO(jackychen): If increase_denoising is enabled in the future,
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// we might need to update the code for calculating 'total_adj' in
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// case the C code is not bit-exact with corresponding sse2 code.
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int vp9_denoiser_filter_c(const uint8_t *sig, int sig_stride,
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const uint8_t *mc_avg,
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int mc_avg_stride,
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uint8_t *avg, int avg_stride,
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int increase_denoising,
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BLOCK_SIZE bs,
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int motion_magnitude) {
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int r, c;
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const uint8_t *sig_start = sig;
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const uint8_t *mc_avg_start = mc_avg;
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uint8_t *avg_start = avg;
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int diff, adj, absdiff, delta;
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int adj_val[] = {3, 4, 6};
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int total_adj = 0;
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int shift_inc = 1;
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// If motion_magnitude is small, making the denoiser more aggressive by
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// increasing the adjustment for each level. Add another increment for
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// blocks that are labeled for increase denoising.
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if (motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD) {
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if (increase_denoising) {
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shift_inc = 2;
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}
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adj_val[0] += shift_inc;
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adj_val[1] += shift_inc;
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adj_val[2] += shift_inc;
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}
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// First attempt to apply a strong temporal denoising filter.
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for (r = 0; r < (4 << b_height_log2_lookup[bs]); ++r) {
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for (c = 0; c < (4 << b_width_log2_lookup[bs]); ++c) {
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diff = mc_avg[c] - sig[c];
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absdiff = abs(diff);
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if (absdiff <= absdiff_thresh(bs, increase_denoising)) {
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avg[c] = mc_avg[c];
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total_adj += diff;
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} else {
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switch (absdiff) {
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case 4: case 5: case 6: case 7:
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adj = adj_val[0];
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break;
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case 8: case 9: case 10: case 11:
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case 12: case 13: case 14: case 15:
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adj = adj_val[1];
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break;
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default:
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adj = adj_val[2];
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}
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if (diff > 0) {
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avg[c] = MIN(UINT8_MAX, sig[c] + adj);
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total_adj += adj;
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} else {
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avg[c] = MAX(0, sig[c] - adj);
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total_adj -= adj;
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}
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}
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}
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sig += sig_stride;
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avg += avg_stride;
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mc_avg += mc_avg_stride;
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}
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// If the strong filter did not modify the signal too much, we're all set.
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if (abs(total_adj) <= total_adj_strong_thresh(bs, increase_denoising)) {
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return FILTER_BLOCK;
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}
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// Otherwise, we try to dampen the filter if the delta is not too high.
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delta = ((abs(total_adj) - total_adj_strong_thresh(bs, increase_denoising))
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>> num_pels_log2_lookup[bs]) + 1;
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if (delta >= delta_thresh(bs, increase_denoising)) {
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return COPY_BLOCK;
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}
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mc_avg = mc_avg_start;
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avg = avg_start;
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sig = sig_start;
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for (r = 0; r < (4 << b_height_log2_lookup[bs]); ++r) {
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for (c = 0; c < (4 << b_width_log2_lookup[bs]); ++c) {
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diff = mc_avg[c] - sig[c];
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adj = abs(diff);
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if (adj > delta) {
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adj = delta;
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}
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if (diff > 0) {
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// Diff positive means we made positive adjustment above
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// (in first try/attempt), so now make negative adjustment to bring
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// denoised signal down.
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avg[c] = MAX(0, avg[c] - adj);
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total_adj -= adj;
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} else {
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// Diff negative means we made negative adjustment above
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// (in first try/attempt), so now make positive adjustment to bring
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// denoised signal up.
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avg[c] = MIN(UINT8_MAX, avg[c] + adj);
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total_adj += adj;
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}
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}
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sig += sig_stride;
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avg += avg_stride;
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mc_avg += mc_avg_stride;
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}
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// We can use the filter if it has been sufficiently dampened
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if (abs(total_adj) <= total_adj_weak_thresh(bs, increase_denoising)) {
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return FILTER_BLOCK;
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}
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return COPY_BLOCK;
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}
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static uint8_t *block_start(uint8_t *framebuf, int stride,
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int mi_row, int mi_col) {
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return framebuf + (stride * mi_row * 8) + (mi_col * 8);
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}
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static VP9_DENOISER_DECISION perform_motion_compensation(VP9_DENOISER *denoiser,
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MACROBLOCK *mb,
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BLOCK_SIZE bs,
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int increase_denoising,
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int mi_row,
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int mi_col,
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PICK_MODE_CONTEXT *ctx,
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int *motion_magnitude
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) {
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int mv_col, mv_row;
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int sse_diff = ctx->zeromv_sse - ctx->newmv_sse;
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MV_REFERENCE_FRAME frame;
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MACROBLOCKD *filter_mbd = &mb->e_mbd;
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MB_MODE_INFO *mbmi = &filter_mbd->mi[0].src_mi->mbmi;
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MB_MODE_INFO saved_mbmi;
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int i, j;
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struct buf_2d saved_dst[MAX_MB_PLANE];
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struct buf_2d saved_pre[MAX_MB_PLANE][2]; // 2 pre buffers
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mv_col = ctx->best_sse_mv.as_mv.col;
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mv_row = ctx->best_sse_mv.as_mv.row;
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*motion_magnitude = mv_row * mv_row + mv_col * mv_col;
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frame = ctx->best_reference_frame;
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saved_mbmi = *mbmi;
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// If the best reference frame uses inter-prediction and there is enough of a
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// difference in sum-squared-error, use it.
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if (frame != INTRA_FRAME &&
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sse_diff > sse_diff_thresh(bs, increase_denoising, *motion_magnitude)) {
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mbmi->ref_frame[0] = ctx->best_reference_frame;
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mbmi->mode = ctx->best_sse_inter_mode;
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mbmi->mv[0] = ctx->best_sse_mv;
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} else {
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// Otherwise, use the zero reference frame.
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frame = ctx->best_zeromv_reference_frame;
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mbmi->ref_frame[0] = ctx->best_zeromv_reference_frame;
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mbmi->mode = ZEROMV;
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mbmi->mv[0].as_int = 0;
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ctx->best_sse_inter_mode = ZEROMV;
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ctx->best_sse_mv.as_int = 0;
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ctx->newmv_sse = ctx->zeromv_sse;
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}
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if (ctx->newmv_sse > sse_thresh(bs, increase_denoising)) {
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// Restore everything to its original state
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*mbmi = saved_mbmi;
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return COPY_BLOCK;
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}
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if (*motion_magnitude >
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(noise_motion_thresh(bs, increase_denoising) << 3)) {
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// Restore everything to its original state
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*mbmi = saved_mbmi;
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return COPY_BLOCK;
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}
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// We will restore these after motion compensation.
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for (i = 0; i < MAX_MB_PLANE; ++i) {
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for (j = 0; j < 2; ++j) {
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saved_pre[i][j] = filter_mbd->plane[i].pre[j];
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}
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saved_dst[i] = filter_mbd->plane[i].dst;
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}
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// Set the pointers in the MACROBLOCKD to point to the buffers in the denoiser
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// struct.
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for (j = 0; j < 2; ++j) {
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filter_mbd->plane[0].pre[j].buf =
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block_start(denoiser->running_avg_y[frame].y_buffer,
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denoiser->running_avg_y[frame].y_stride,
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mi_row, mi_col);
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filter_mbd->plane[0].pre[j].stride =
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denoiser->running_avg_y[frame].y_stride;
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filter_mbd->plane[1].pre[j].buf =
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block_start(denoiser->running_avg_y[frame].u_buffer,
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denoiser->running_avg_y[frame].uv_stride,
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mi_row, mi_col);
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filter_mbd->plane[1].pre[j].stride =
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denoiser->running_avg_y[frame].uv_stride;
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filter_mbd->plane[2].pre[j].buf =
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block_start(denoiser->running_avg_y[frame].v_buffer,
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denoiser->running_avg_y[frame].uv_stride,
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mi_row, mi_col);
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filter_mbd->plane[2].pre[j].stride =
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denoiser->running_avg_y[frame].uv_stride;
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}
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filter_mbd->plane[0].dst.buf =
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block_start(denoiser->mc_running_avg_y.y_buffer,
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denoiser->mc_running_avg_y.y_stride,
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mi_row, mi_col);
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filter_mbd->plane[0].dst.stride = denoiser->mc_running_avg_y.y_stride;
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filter_mbd->plane[1].dst.buf =
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block_start(denoiser->mc_running_avg_y.u_buffer,
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denoiser->mc_running_avg_y.uv_stride,
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mi_row, mi_col);
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filter_mbd->plane[1].dst.stride = denoiser->mc_running_avg_y.uv_stride;
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filter_mbd->plane[2].dst.buf =
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block_start(denoiser->mc_running_avg_y.v_buffer,
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denoiser->mc_running_avg_y.uv_stride,
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mi_row, mi_col);
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filter_mbd->plane[2].dst.stride = denoiser->mc_running_avg_y.uv_stride;
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vp9_build_inter_predictors_sby(filter_mbd, mv_row, mv_col, bs);
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// Restore everything to its original state
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*mbmi = saved_mbmi;
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for (i = 0; i < MAX_MB_PLANE; ++i) {
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for (j = 0; j < 2; ++j) {
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filter_mbd->plane[i].pre[j] = saved_pre[i][j];
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}
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filter_mbd->plane[i].dst = saved_dst[i];
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}
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mv_row = ctx->best_sse_mv.as_mv.row;
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mv_col = ctx->best_sse_mv.as_mv.col;
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return FILTER_BLOCK;
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}
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void vp9_denoiser_denoise(VP9_DENOISER *denoiser, MACROBLOCK *mb,
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int mi_row, int mi_col, BLOCK_SIZE bs,
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PICK_MODE_CONTEXT *ctx) {
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int motion_magnitude = 0;
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VP9_DENOISER_DECISION decision = FILTER_BLOCK;
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YV12_BUFFER_CONFIG avg = denoiser->running_avg_y[INTRA_FRAME];
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YV12_BUFFER_CONFIG mc_avg = denoiser->mc_running_avg_y;
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uint8_t *avg_start = block_start(avg.y_buffer, avg.y_stride, mi_row, mi_col);
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uint8_t *mc_avg_start = block_start(mc_avg.y_buffer, mc_avg.y_stride,
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mi_row, mi_col);
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struct buf_2d src = mb->plane[0].src;
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decision = perform_motion_compensation(denoiser, mb, bs,
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denoiser->increase_denoising,
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mi_row, mi_col, ctx,
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&motion_magnitude);
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if (decision == FILTER_BLOCK) {
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decision = vp9_denoiser_filter(src.buf, src.stride,
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mc_avg_start, mc_avg.y_stride,
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avg_start, avg.y_stride,
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0, bs, motion_magnitude);
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}
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if (decision == FILTER_BLOCK) {
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vp9_convolve_copy(avg_start, avg.y_stride, src.buf, src.stride,
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NULL, 0, NULL, 0,
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num_4x4_blocks_wide_lookup[bs] << 2,
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num_4x4_blocks_high_lookup[bs] << 2);
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} else { // COPY_BLOCK
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vp9_convolve_copy(src.buf, src.stride, avg_start, avg.y_stride,
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NULL, 0, NULL, 0,
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num_4x4_blocks_wide_lookup[bs] << 2,
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num_4x4_blocks_high_lookup[bs] << 2);
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}
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}
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static void copy_frame(YV12_BUFFER_CONFIG dest, const YV12_BUFFER_CONFIG src) {
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int r;
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const uint8_t *srcbuf = src.y_buffer;
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uint8_t *destbuf = dest.y_buffer;
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assert(dest.y_width == src.y_width);
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assert(dest.y_height == src.y_height);
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for (r = 0; r < dest.y_height; ++r) {
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vpx_memcpy(destbuf, srcbuf, dest.y_width);
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destbuf += dest.y_stride;
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srcbuf += src.y_stride;
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}
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}
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static void swap_frame_buffer(YV12_BUFFER_CONFIG *dest,
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YV12_BUFFER_CONFIG *src) {
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uint8_t *tmp_buf = dest->y_buffer;
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assert(dest->y_width == src->y_width);
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assert(dest->y_height == src->y_height);
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dest->y_buffer = src->y_buffer;
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src->y_buffer = tmp_buf;
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}
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void vp9_denoiser_update_frame_info(VP9_DENOISER *denoiser,
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YV12_BUFFER_CONFIG src,
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FRAME_TYPE frame_type,
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int refresh_alt_ref_frame,
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int refresh_golden_frame,
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int refresh_last_frame) {
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if (frame_type == KEY_FRAME) {
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int i;
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// Start at 1 so as not to overwrite the INTRA_FRAME
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for (i = 1; i < MAX_REF_FRAMES; ++i)
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copy_frame(denoiser->running_avg_y[i], src);
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return;
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}
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/* For non key frames */
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if (refresh_alt_ref_frame) {
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swap_frame_buffer(&denoiser->running_avg_y[ALTREF_FRAME],
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&denoiser->running_avg_y[INTRA_FRAME]);
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}
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if (refresh_golden_frame) {
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swap_frame_buffer(&denoiser->running_avg_y[GOLDEN_FRAME],
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&denoiser->running_avg_y[INTRA_FRAME]);
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}
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if (refresh_last_frame) {
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swap_frame_buffer(&denoiser->running_avg_y[LAST_FRAME],
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&denoiser->running_avg_y[INTRA_FRAME]);
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}
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}
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void vp9_denoiser_reset_frame_stats(PICK_MODE_CONTEXT *ctx) {
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ctx->zeromv_sse = UINT_MAX;
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ctx->newmv_sse = UINT_MAX;
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}
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void vp9_denoiser_update_frame_stats(MB_MODE_INFO *mbmi, unsigned int sse,
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PREDICTION_MODE mode,
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PICK_MODE_CONTEXT *ctx) {
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// TODO(tkopp): Use both MVs if possible
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if (mbmi->mv[0].as_int == 0 && sse < ctx->zeromv_sse) {
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ctx->zeromv_sse = sse;
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ctx->best_zeromv_reference_frame = mbmi->ref_frame[0];
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}
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if (mbmi->mv[0].as_int != 0 && sse < ctx->newmv_sse) {
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ctx->newmv_sse = sse;
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ctx->best_sse_inter_mode = mode;
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ctx->best_sse_mv = mbmi->mv[0];
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ctx->best_reference_frame = mbmi->ref_frame[0];
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}
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}
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int vp9_denoiser_alloc(VP9_DENOISER *denoiser, int width, int height,
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int ssx, int ssy,
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#if CONFIG_VP9_HIGHBITDEPTH
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int use_highbitdepth,
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#endif
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int border) {
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int i, fail;
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const int legacy_byte_alignment = 0;
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assert(denoiser != NULL);
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for (i = 0; i < MAX_REF_FRAMES; ++i) {
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fail = vp9_alloc_frame_buffer(&denoiser->running_avg_y[i], width, height,
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ssx, ssy,
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#if CONFIG_VP9_HIGHBITDEPTH
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use_highbitdepth,
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#endif
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border, legacy_byte_alignment);
|
|
if (fail) {
|
|
vp9_denoiser_free(denoiser);
|
|
return 1;
|
|
}
|
|
#ifdef OUTPUT_YUV_DENOISED
|
|
make_grayscale(&denoiser->running_avg_y[i]);
|
|
#endif
|
|
}
|
|
|
|
fail = vp9_alloc_frame_buffer(&denoiser->mc_running_avg_y, width, height,
|
|
ssx, ssy,
|
|
#if CONFIG_VP9_HIGHBITDEPTH
|
|
use_highbitdepth,
|
|
#endif
|
|
border, legacy_byte_alignment);
|
|
if (fail) {
|
|
vp9_denoiser_free(denoiser);
|
|
return 1;
|
|
}
|
|
#ifdef OUTPUT_YUV_DENOISED
|
|
make_grayscale(&denoiser->running_avg_y[i]);
|
|
#endif
|
|
denoiser->increase_denoising = 0;
|
|
denoiser->frame_buffer_initialized = 1;
|
|
|
|
return 0;
|
|
}
|
|
|
|
void vp9_denoiser_free(VP9_DENOISER *denoiser) {
|
|
int i;
|
|
denoiser->frame_buffer_initialized = 0;
|
|
if (denoiser == NULL) {
|
|
return;
|
|
}
|
|
for (i = 0; i < MAX_REF_FRAMES; ++i) {
|
|
vp9_free_frame_buffer(&denoiser->running_avg_y[i]);
|
|
}
|
|
vp9_free_frame_buffer(&denoiser->mc_running_avg_y);
|
|
}
|
|
|
|
#ifdef OUTPUT_YUV_DENOISED
|
|
static void make_grayscale(YV12_BUFFER_CONFIG *yuv) {
|
|
int r, c;
|
|
uint8_t *u = yuv->u_buffer;
|
|
uint8_t *v = yuv->v_buffer;
|
|
|
|
for (r = 0; r < yuv->uv_height; ++r) {
|
|
for (c = 0; c < yuv->uv_width; ++c) {
|
|
u[c] = UINT8_MAX / 2;
|
|
v[c] = UINT8_MAX / 2;
|
|
}
|
|
u += yuv->uv_stride;
|
|
v += yuv->uv_stride;
|
|
}
|
|
}
|
|
#endif
|