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diff --git a/third_party/aom/av1/encoder/pickcdef.c b/third_party/aom/av1/encoder/pickcdef.c
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+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <string.h>
+
+#include "config/aom_scale_rtcd.h"
+
+#include "aom/aom_integer.h"
+#include "av1/common/cdef.h"
+#include "av1/common/onyxc_int.h"
+#include "av1/common/reconinter.h"
+#include "av1/encoder/encoder.h"
+
+#define REDUCED_PRI_STRENGTHS 8
+#define REDUCED_TOTAL_STRENGTHS (REDUCED_PRI_STRENGTHS * CDEF_SEC_STRENGTHS)
+#define TOTAL_STRENGTHS (CDEF_PRI_STRENGTHS * CDEF_SEC_STRENGTHS)
+
+static int priconv[REDUCED_PRI_STRENGTHS] = { 0, 1, 2, 3, 5, 7, 10, 13 };
+
+/* Search for the best strength to add as an option, knowing we
+ already selected nb_strengths options. */
+static uint64_t search_one(int *lev, int nb_strengths,
+ uint64_t mse[][TOTAL_STRENGTHS], int sb_count,
+ int fast) {
+ uint64_t tot_mse[TOTAL_STRENGTHS];
+ const int total_strengths = fast ? REDUCED_TOTAL_STRENGTHS : TOTAL_STRENGTHS;
+ int i, j;
+ uint64_t best_tot_mse = (uint64_t)1 << 63;
+ int best_id = 0;
+ memset(tot_mse, 0, sizeof(tot_mse));
+ for (i = 0; i < sb_count; i++) {
+ int gi;
+ uint64_t best_mse = (uint64_t)1 << 63;
+ /* Find best mse among already selected options. */
+ for (gi = 0; gi < nb_strengths; gi++) {
+ if (mse[i][lev[gi]] < best_mse) {
+ best_mse = mse[i][lev[gi]];
+ }
+ }
+ /* Find best mse when adding each possible new option. */
+ for (j = 0; j < total_strengths; j++) {
+ uint64_t best = best_mse;
+ if (mse[i][j] < best) best = mse[i][j];
+ tot_mse[j] += best;
+ }
+ }
+ for (j = 0; j < total_strengths; j++) {
+ if (tot_mse[j] < best_tot_mse) {
+ best_tot_mse = tot_mse[j];
+ best_id = j;
+ }
+ }
+ lev[nb_strengths] = best_id;
+ return best_tot_mse;
+}
+
+/* Search for the best luma+chroma strength to add as an option, knowing we
+ already selected nb_strengths options. */
+static uint64_t search_one_dual(int *lev0, int *lev1, int nb_strengths,
+ uint64_t (**mse)[TOTAL_STRENGTHS], int sb_count,
+ int fast) {
+ uint64_t tot_mse[TOTAL_STRENGTHS][TOTAL_STRENGTHS];
+ int i, j;
+ uint64_t best_tot_mse = (uint64_t)1 << 63;
+ int best_id0 = 0;
+ int best_id1 = 0;
+ const int total_strengths = fast ? REDUCED_TOTAL_STRENGTHS : TOTAL_STRENGTHS;
+ memset(tot_mse, 0, sizeof(tot_mse));
+ for (i = 0; i < sb_count; i++) {
+ int gi;
+ uint64_t best_mse = (uint64_t)1 << 63;
+ /* Find best mse among already selected options. */
+ for (gi = 0; gi < nb_strengths; gi++) {
+ uint64_t curr = mse[0][i][lev0[gi]];
+ curr += mse[1][i][lev1[gi]];
+ if (curr < best_mse) {
+ best_mse = curr;
+ }
+ }
+ /* Find best mse when adding each possible new option. */
+ for (j = 0; j < total_strengths; j++) {
+ int k;
+ for (k = 0; k < total_strengths; k++) {
+ uint64_t best = best_mse;
+ uint64_t curr = mse[0][i][j];
+ curr += mse[1][i][k];
+ if (curr < best) best = curr;
+ tot_mse[j][k] += best;
+ }
+ }
+ }
+ for (j = 0; j < total_strengths; j++) {
+ int k;
+ for (k = 0; k < total_strengths; k++) {
+ if (tot_mse[j][k] < best_tot_mse) {
+ best_tot_mse = tot_mse[j][k];
+ best_id0 = j;
+ best_id1 = k;
+ }
+ }
+ }
+ lev0[nb_strengths] = best_id0;
+ lev1[nb_strengths] = best_id1;
+ return best_tot_mse;
+}
+
+/* Search for the set of strengths that minimizes mse. */
+static uint64_t joint_strength_search(int *best_lev, int nb_strengths,
+ uint64_t mse[][TOTAL_STRENGTHS],
+ int sb_count, int fast) {
+ uint64_t best_tot_mse;
+ int i;
+ best_tot_mse = (uint64_t)1 << 63;
+ /* Greedy search: add one strength options at a time. */
+ for (i = 0; i < nb_strengths; i++) {
+ best_tot_mse = search_one(best_lev, i, mse, sb_count, fast);
+ }
+ /* Trying to refine the greedy search by reconsidering each
+ already-selected option. */
+ if (!fast) {
+ for (i = 0; i < 4 * nb_strengths; i++) {
+ int j;
+ for (j = 0; j < nb_strengths - 1; j++) best_lev[j] = best_lev[j + 1];
+ best_tot_mse =
+ search_one(best_lev, nb_strengths - 1, mse, sb_count, fast);
+ }
+ }
+ return best_tot_mse;
+}
+
+/* Search for the set of luma+chroma strengths that minimizes mse. */
+static uint64_t joint_strength_search_dual(int *best_lev0, int *best_lev1,
+ int nb_strengths,
+ uint64_t (**mse)[TOTAL_STRENGTHS],
+ int sb_count, int fast) {
+ uint64_t best_tot_mse;
+ int i;
+ best_tot_mse = (uint64_t)1 << 63;
+ /* Greedy search: add one strength options at a time. */
+ for (i = 0; i < nb_strengths; i++) {
+ best_tot_mse =
+ search_one_dual(best_lev0, best_lev1, i, mse, sb_count, fast);
+ }
+ /* Trying to refine the greedy search by reconsidering each
+ already-selected option. */
+ for (i = 0; i < 4 * nb_strengths; i++) {
+ int j;
+ for (j = 0; j < nb_strengths - 1; j++) {
+ best_lev0[j] = best_lev0[j + 1];
+ best_lev1[j] = best_lev1[j + 1];
+ }
+ best_tot_mse = search_one_dual(best_lev0, best_lev1, nb_strengths - 1, mse,
+ sb_count, fast);
+ }
+ return best_tot_mse;
+}
+
+/* FIXME: SSE-optimize this. */
+static void copy_sb16_16(uint16_t *dst, int dstride, const uint16_t *src,
+ int src_voffset, int src_hoffset, int sstride,
+ int vsize, int hsize) {
+ int r, c;
+ const uint16_t *base = &src[src_voffset * sstride + src_hoffset];
+ for (r = 0; r < vsize; r++) {
+ for (c = 0; c < hsize; c++) {
+ dst[r * dstride + c] = base[r * sstride + c];
+ }
+ }
+}
+
+static INLINE uint64_t dist_8x8_16bit(uint16_t *dst, int dstride, uint16_t *src,
+ int sstride, int coeff_shift) {
+ uint64_t svar = 0;
+ uint64_t dvar = 0;
+ uint64_t sum_s = 0;
+ uint64_t sum_d = 0;
+ uint64_t sum_s2 = 0;
+ uint64_t sum_d2 = 0;
+ uint64_t sum_sd = 0;
+ int i, j;
+ for (i = 0; i < 8; i++) {
+ for (j = 0; j < 8; j++) {
+ sum_s += src[i * sstride + j];
+ sum_d += dst[i * dstride + j];
+ sum_s2 += src[i * sstride + j] * src[i * sstride + j];
+ sum_d2 += dst[i * dstride + j] * dst[i * dstride + j];
+ sum_sd += src[i * sstride + j] * dst[i * dstride + j];
+ }
+ }
+ /* Compute the variance -- the calculation cannot go negative. */
+ svar = sum_s2 - ((sum_s * sum_s + 32) >> 6);
+ dvar = sum_d2 - ((sum_d * sum_d + 32) >> 6);
+ return (uint64_t)floor(
+ .5 + (sum_d2 + sum_s2 - 2 * sum_sd) * .5 *
+ (svar + dvar + (400 << 2 * coeff_shift)) /
+ (sqrt((20000 << 4 * coeff_shift) + svar * (double)dvar)));
+}
+
+static INLINE uint64_t mse_8x8_16bit(uint16_t *dst, int dstride, uint16_t *src,
+ int sstride) {
+ uint64_t sum = 0;
+ int i, j;
+ for (i = 0; i < 8; i++) {
+ for (j = 0; j < 8; j++) {
+ int e = dst[i * dstride + j] - src[i * sstride + j];
+ sum += e * e;
+ }
+ }
+ return sum;
+}
+
+static INLINE uint64_t mse_4x4_16bit(uint16_t *dst, int dstride, uint16_t *src,
+ int sstride) {
+ uint64_t sum = 0;
+ int i, j;
+ for (i = 0; i < 4; i++) {
+ for (j = 0; j < 4; j++) {
+ int e = dst[i * dstride + j] - src[i * sstride + j];
+ sum += e * e;
+ }
+ }
+ return sum;
+}
+
+/* Compute MSE only on the blocks we filtered. */
+uint64_t compute_cdef_dist(uint16_t *dst, int dstride, uint16_t *src,
+ cdef_list *dlist, int cdef_count, BLOCK_SIZE bsize,
+ int coeff_shift, int pli) {
+ uint64_t sum = 0;
+ int bi, bx, by;
+ if (bsize == BLOCK_8X8) {
+ for (bi = 0; bi < cdef_count; bi++) {
+ by = dlist[bi].by;
+ bx = dlist[bi].bx;
+ if (pli == 0) {
+ sum += dist_8x8_16bit(&dst[(by << 3) * dstride + (bx << 3)], dstride,
+ &src[bi << (3 + 3)], 8, coeff_shift);
+ } else {
+ sum += mse_8x8_16bit(&dst[(by << 3) * dstride + (bx << 3)], dstride,
+ &src[bi << (3 + 3)], 8);
+ }
+ }
+ } else if (bsize == BLOCK_4X8) {
+ for (bi = 0; bi < cdef_count; bi++) {
+ by = dlist[bi].by;
+ bx = dlist[bi].bx;
+ sum += mse_4x4_16bit(&dst[(by << 3) * dstride + (bx << 2)], dstride,
+ &src[bi << (3 + 2)], 4);
+ sum += mse_4x4_16bit(&dst[((by << 3) + 4) * dstride + (bx << 2)], dstride,
+ &src[(bi << (3 + 2)) + 4 * 4], 4);
+ }
+ } else if (bsize == BLOCK_8X4) {
+ for (bi = 0; bi < cdef_count; bi++) {
+ by = dlist[bi].by;
+ bx = dlist[bi].bx;
+ sum += mse_4x4_16bit(&dst[(by << 2) * dstride + (bx << 3)], dstride,
+ &src[bi << (2 + 3)], 8);
+ sum += mse_4x4_16bit(&dst[(by << 2) * dstride + (bx << 3) + 4], dstride,
+ &src[(bi << (2 + 3)) + 4], 8);
+ }
+ } else {
+ assert(bsize == BLOCK_4X4);
+ for (bi = 0; bi < cdef_count; bi++) {
+ by = dlist[bi].by;
+ bx = dlist[bi].bx;
+ sum += mse_4x4_16bit(&dst[(by << 2) * dstride + (bx << 2)], dstride,
+ &src[bi << (2 + 2)], 4);
+ }
+ }
+ return sum >> 2 * coeff_shift;
+}
+
+void av1_cdef_search(YV12_BUFFER_CONFIG *frame, const YV12_BUFFER_CONFIG *ref,
+ AV1_COMMON *cm, MACROBLOCKD *xd, int fast) {
+ int r, c;
+ int fbr, fbc;
+ uint16_t *src[3];
+ uint16_t *ref_coeff[3];
+ static cdef_list dlist[MI_SIZE_128X128 * MI_SIZE_128X128];
+ int dir[CDEF_NBLOCKS][CDEF_NBLOCKS] = { { 0 } };
+ int var[CDEF_NBLOCKS][CDEF_NBLOCKS] = { { 0 } };
+ int stride[3];
+ int bsize[3];
+ int mi_wide_l2[3];
+ int mi_high_l2[3];
+ int xdec[3];
+ int ydec[3];
+ int pli;
+ int cdef_count;
+ int coeff_shift = AOMMAX(cm->seq_params.bit_depth - 8, 0);
+ uint64_t best_tot_mse = (uint64_t)1 << 63;
+ uint64_t tot_mse;
+ int sb_count;
+ int nvfb = (cm->mi_rows + MI_SIZE_64X64 - 1) / MI_SIZE_64X64;
+ int nhfb = (cm->mi_cols + MI_SIZE_64X64 - 1) / MI_SIZE_64X64;
+ int *sb_index = aom_malloc(nvfb * nhfb * sizeof(*sb_index));
+ int *selected_strength = aom_malloc(nvfb * nhfb * sizeof(*sb_index));
+ uint64_t(*mse[2])[TOTAL_STRENGTHS];
+ int pri_damping = 3 + (cm->base_qindex >> 6);
+ int sec_damping = 3 + (cm->base_qindex >> 6);
+ int i;
+ int nb_strengths;
+ int nb_strength_bits;
+ int quantizer;
+ double lambda;
+ const int num_planes = av1_num_planes(cm);
+ const int total_strengths = fast ? REDUCED_TOTAL_STRENGTHS : TOTAL_STRENGTHS;
+ DECLARE_ALIGNED(32, uint16_t, inbuf[CDEF_INBUF_SIZE]);
+ uint16_t *in;
+ DECLARE_ALIGNED(32, uint16_t, tmp_dst[1 << (MAX_SB_SIZE_LOG2 * 2)]);
+ quantizer = av1_ac_quant_Q3(cm->base_qindex, 0, cm->seq_params.bit_depth) >>
+ (cm->seq_params.bit_depth - 8);
+ lambda = .12 * quantizer * quantizer / 256.;
+
+ av1_setup_dst_planes(xd->plane, cm->seq_params.sb_size, frame, 0, 0, 0,
+ num_planes);
+ mse[0] = aom_malloc(sizeof(**mse) * nvfb * nhfb);
+ mse[1] = aom_malloc(sizeof(**mse) * nvfb * nhfb);
+ for (pli = 0; pli < num_planes; pli++) {
+ uint8_t *ref_buffer;
+ int ref_stride;
+ switch (pli) {
+ case 0:
+ ref_buffer = ref->y_buffer;
+ ref_stride = ref->y_stride;
+ break;
+ case 1:
+ ref_buffer = ref->u_buffer;
+ ref_stride = ref->uv_stride;
+ break;
+ case 2:
+ ref_buffer = ref->v_buffer;
+ ref_stride = ref->uv_stride;
+ break;
+ }
+ src[pli] = aom_memalign(
+ 32, sizeof(*src) * cm->mi_rows * cm->mi_cols * MI_SIZE * MI_SIZE);
+ ref_coeff[pli] = aom_memalign(
+ 32, sizeof(*ref_coeff) * cm->mi_rows * cm->mi_cols * MI_SIZE * MI_SIZE);
+ xdec[pli] = xd->plane[pli].subsampling_x;
+ ydec[pli] = xd->plane[pli].subsampling_y;
+ bsize[pli] = ydec[pli] ? (xdec[pli] ? BLOCK_4X4 : BLOCK_8X4)
+ : (xdec[pli] ? BLOCK_4X8 : BLOCK_8X8);
+ stride[pli] = cm->mi_cols << MI_SIZE_LOG2;
+ mi_wide_l2[pli] = MI_SIZE_LOG2 - xd->plane[pli].subsampling_x;
+ mi_high_l2[pli] = MI_SIZE_LOG2 - xd->plane[pli].subsampling_y;
+
+ const int frame_height =
+ (cm->mi_rows * MI_SIZE) >> xd->plane[pli].subsampling_y;
+ const int frame_width =
+ (cm->mi_cols * MI_SIZE) >> xd->plane[pli].subsampling_x;
+
+ for (r = 0; r < frame_height; ++r) {
+ for (c = 0; c < frame_width; ++c) {
+ if (cm->seq_params.use_highbitdepth) {
+ src[pli][r * stride[pli] + c] = CONVERT_TO_SHORTPTR(
+ xd->plane[pli].dst.buf)[r * xd->plane[pli].dst.stride + c];
+ ref_coeff[pli][r * stride[pli] + c] =
+ CONVERT_TO_SHORTPTR(ref_buffer)[r * ref_stride + c];
+ } else {
+ src[pli][r * stride[pli] + c] =
+ xd->plane[pli].dst.buf[r * xd->plane[pli].dst.stride + c];
+ ref_coeff[pli][r * stride[pli] + c] = ref_buffer[r * ref_stride + c];
+ }
+ }
+ }
+ }
+ in = inbuf + CDEF_VBORDER * CDEF_BSTRIDE + CDEF_HBORDER;
+ sb_count = 0;
+ for (fbr = 0; fbr < nvfb; ++fbr) {
+ for (fbc = 0; fbc < nhfb; ++fbc) {
+ int nvb, nhb;
+ int gi;
+ int dirinit = 0;
+ nhb = AOMMIN(MI_SIZE_64X64, cm->mi_cols - MI_SIZE_64X64 * fbc);
+ nvb = AOMMIN(MI_SIZE_64X64, cm->mi_rows - MI_SIZE_64X64 * fbr);
+ int hb_step = 1;
+ int vb_step = 1;
+ BLOCK_SIZE bs = BLOCK_64X64;
+ MB_MODE_INFO *const mbmi =
+ cm->mi_grid_visible[MI_SIZE_64X64 * fbr * cm->mi_stride +
+ MI_SIZE_64X64 * fbc];
+ if (((fbc & 1) &&
+ (mbmi->sb_type == BLOCK_128X128 || mbmi->sb_type == BLOCK_128X64)) ||
+ ((fbr & 1) &&
+ (mbmi->sb_type == BLOCK_128X128 || mbmi->sb_type == BLOCK_64X128)))
+ continue;
+ if (mbmi->sb_type == BLOCK_128X128 || mbmi->sb_type == BLOCK_128X64 ||
+ mbmi->sb_type == BLOCK_64X128)
+ bs = mbmi->sb_type;
+ if (bs == BLOCK_128X128 || bs == BLOCK_128X64) {
+ nhb = AOMMIN(MI_SIZE_128X128, cm->mi_cols - MI_SIZE_64X64 * fbc);
+ hb_step = 2;
+ }
+ if (bs == BLOCK_128X128 || bs == BLOCK_64X128) {
+ nvb = AOMMIN(MI_SIZE_128X128, cm->mi_rows - MI_SIZE_64X64 * fbr);
+ vb_step = 2;
+ }
+ // No filtering if the entire filter block is skipped
+ if (sb_all_skip(cm, fbr * MI_SIZE_64X64, fbc * MI_SIZE_64X64)) continue;
+ cdef_count = sb_compute_cdef_list(cm, fbr * MI_SIZE_64X64,
+ fbc * MI_SIZE_64X64, dlist, bs);
+ for (pli = 0; pli < num_planes; pli++) {
+ for (i = 0; i < CDEF_INBUF_SIZE; i++) inbuf[i] = CDEF_VERY_LARGE;
+ for (gi = 0; gi < total_strengths; gi++) {
+ int threshold;
+ uint64_t curr_mse;
+ int sec_strength;
+ threshold = gi / CDEF_SEC_STRENGTHS;
+ if (fast) threshold = priconv[threshold];
+ /* We avoid filtering the pixels for which some of the pixels to
+ average
+ are outside the frame. We could change the filter instead, but it
+ would add special cases for any future vectorization. */
+ int yoff = CDEF_VBORDER * (fbr != 0);
+ int xoff = CDEF_HBORDER * (fbc != 0);
+ int ysize = (nvb << mi_high_l2[pli]) +
+ CDEF_VBORDER * (fbr + vb_step < nvfb) + yoff;
+ int xsize = (nhb << mi_wide_l2[pli]) +
+ CDEF_HBORDER * (fbc + hb_step < nhfb) + xoff;
+ sec_strength = gi % CDEF_SEC_STRENGTHS;
+ copy_sb16_16(&in[(-yoff * CDEF_BSTRIDE - xoff)], CDEF_BSTRIDE,
+ src[pli],
+ (fbr * MI_SIZE_64X64 << mi_high_l2[pli]) - yoff,
+ (fbc * MI_SIZE_64X64 << mi_wide_l2[pli]) - xoff,
+ stride[pli], ysize, xsize);
+ cdef_filter_fb(NULL, tmp_dst, CDEF_BSTRIDE, in, xdec[pli], ydec[pli],
+ dir, &dirinit, var, pli, dlist, cdef_count, threshold,
+ sec_strength + (sec_strength == 3), pri_damping,
+ sec_damping, coeff_shift);
+ curr_mse = compute_cdef_dist(
+ ref_coeff[pli] +
+ (fbr * MI_SIZE_64X64 << mi_high_l2[pli]) * stride[pli] +
+ (fbc * MI_SIZE_64X64 << mi_wide_l2[pli]),
+ stride[pli], tmp_dst, dlist, cdef_count, bsize[pli], coeff_shift,
+ pli);
+ if (pli < 2)
+ mse[pli][sb_count][gi] = curr_mse;
+ else
+ mse[1][sb_count][gi] += curr_mse;
+ sb_index[sb_count] =
+ MI_SIZE_64X64 * fbr * cm->mi_stride + MI_SIZE_64X64 * fbc;
+ }
+ }
+ sb_count++;
+ }
+ }
+ nb_strength_bits = 0;
+ /* Search for different number of signalling bits. */
+ for (i = 0; i <= 3; i++) {
+ int j;
+ int best_lev0[CDEF_MAX_STRENGTHS];
+ int best_lev1[CDEF_MAX_STRENGTHS] = { 0 };
+ nb_strengths = 1 << i;
+ if (num_planes >= 3)
+ tot_mse = joint_strength_search_dual(best_lev0, best_lev1, nb_strengths,
+ mse, sb_count, fast);
+ else
+ tot_mse = joint_strength_search(best_lev0, nb_strengths, mse[0], sb_count,
+ fast);
+ /* Count superblock signalling cost. */
+ tot_mse += (uint64_t)(sb_count * lambda * i);
+ /* Count header signalling cost. */
+ tot_mse += (uint64_t)(nb_strengths * lambda * CDEF_STRENGTH_BITS);
+ if (tot_mse < best_tot_mse) {
+ best_tot_mse = tot_mse;
+ nb_strength_bits = i;
+ for (j = 0; j < 1 << nb_strength_bits; j++) {
+ cm->cdef_strengths[j] = best_lev0[j];
+ cm->cdef_uv_strengths[j] = best_lev1[j];
+ }
+ }
+ }
+ nb_strengths = 1 << nb_strength_bits;
+
+ cm->cdef_bits = nb_strength_bits;
+ cm->nb_cdef_strengths = nb_strengths;
+ for (i = 0; i < sb_count; i++) {
+ int gi;
+ int best_gi;
+ uint64_t best_mse = (uint64_t)1 << 63;
+ best_gi = 0;
+ for (gi = 0; gi < cm->nb_cdef_strengths; gi++) {
+ uint64_t curr = mse[0][i][cm->cdef_strengths[gi]];
+ if (num_planes >= 3) curr += mse[1][i][cm->cdef_uv_strengths[gi]];
+ if (curr < best_mse) {
+ best_gi = gi;
+ best_mse = curr;
+ }
+ }
+ selected_strength[i] = best_gi;
+ cm->mi_grid_visible[sb_index[i]]->cdef_strength = best_gi;
+ }
+
+ if (fast) {
+ for (int j = 0; j < nb_strengths; j++) {
+ cm->cdef_strengths[j] =
+ priconv[cm->cdef_strengths[j] / CDEF_SEC_STRENGTHS] *
+ CDEF_SEC_STRENGTHS +
+ (cm->cdef_strengths[j] % CDEF_SEC_STRENGTHS);
+ cm->cdef_uv_strengths[j] =
+ priconv[cm->cdef_uv_strengths[j] / CDEF_SEC_STRENGTHS] *
+ CDEF_SEC_STRENGTHS +
+ (cm->cdef_uv_strengths[j] % CDEF_SEC_STRENGTHS);
+ }
+ }
+ cm->cdef_pri_damping = pri_damping;
+ cm->cdef_sec_damping = sec_damping;
+ aom_free(mse[0]);
+ aom_free(mse[1]);
+ for (pli = 0; pli < num_planes; pli++) {
+ aom_free(src[pli]);
+ aom_free(ref_coeff[pli]);
+ }
+ aom_free(sb_index);
+ aom_free(selected_strength);
+}