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+/*
+ * Copyright © 2018, VideoLAN and dav1d authors
+ * Copyright © 2018, Two Orioles, LLC
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * 1. Redistributions of source code must retain the above copyright notice, this
+ * list of conditions and the following disclaimer.
+ *
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
+ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+ * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
+ * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+ * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+ * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#include "config.h"
+
+#include <stdlib.h>
+
+#include "common/intops.h"
+
+#include "src/looprestoration.h"
+#include "src/tables.h"
+
+// 256 * 1.5 + 3 + 3 = 390
+#define REST_UNIT_STRIDE (390)
+
+// TODO Reuse p when no padding is needed (add and remove lpf pixels in p)
+// TODO Chroma only requires 2 rows of padding.
+static NOINLINE void
+padding(pixel *dst, const pixel *p, const ptrdiff_t stride,
+ const pixel (*left)[4], const pixel *lpf, int unit_w,
+ const int stripe_h, const enum LrEdgeFlags edges)
+{
+ const int have_left = !!(edges & LR_HAVE_LEFT);
+ const int have_right = !!(edges & LR_HAVE_RIGHT);
+
+ // Copy more pixels if we don't have to pad them
+ unit_w += 3 * have_left + 3 * have_right;
+ pixel *dst_l = dst + 3 * !have_left;
+ p -= 3 * have_left;
+ lpf -= 3 * have_left;
+
+ if (edges & LR_HAVE_TOP) {
+ // Copy previous loop filtered rows
+ const pixel *const above_1 = lpf;
+ const pixel *const above_2 = above_1 + PXSTRIDE(stride);
+ pixel_copy(dst_l, above_1, unit_w);
+ pixel_copy(dst_l + REST_UNIT_STRIDE, above_1, unit_w);
+ pixel_copy(dst_l + 2 * REST_UNIT_STRIDE, above_2, unit_w);
+ } else {
+ // Pad with first row
+ pixel_copy(dst_l, p, unit_w);
+ pixel_copy(dst_l + REST_UNIT_STRIDE, p, unit_w);
+ pixel_copy(dst_l + 2 * REST_UNIT_STRIDE, p, unit_w);
+ if (have_left) {
+ pixel_copy(dst_l, &left[0][1], 3);
+ pixel_copy(dst_l + REST_UNIT_STRIDE, &left[0][1], 3);
+ pixel_copy(dst_l + 2 * REST_UNIT_STRIDE, &left[0][1], 3);
+ }
+ }
+
+ pixel *dst_tl = dst_l + 3 * REST_UNIT_STRIDE;
+ if (edges & LR_HAVE_BOTTOM) {
+ // Copy next loop filtered rows
+ const pixel *const below_1 = lpf + 6 * PXSTRIDE(stride);
+ const pixel *const below_2 = below_1 + PXSTRIDE(stride);
+ pixel_copy(dst_tl + stripe_h * REST_UNIT_STRIDE, below_1, unit_w);
+ pixel_copy(dst_tl + (stripe_h + 1) * REST_UNIT_STRIDE, below_2, unit_w);
+ pixel_copy(dst_tl + (stripe_h + 2) * REST_UNIT_STRIDE, below_2, unit_w);
+ } else {
+ // Pad with last row
+ const pixel *const src = p + (stripe_h - 1) * PXSTRIDE(stride);
+ pixel_copy(dst_tl + stripe_h * REST_UNIT_STRIDE, src, unit_w);
+ pixel_copy(dst_tl + (stripe_h + 1) * REST_UNIT_STRIDE, src, unit_w);
+ pixel_copy(dst_tl + (stripe_h + 2) * REST_UNIT_STRIDE, src, unit_w);
+ if (have_left) {
+ pixel_copy(dst_tl + stripe_h * REST_UNIT_STRIDE, &left[stripe_h - 1][1], 3);
+ pixel_copy(dst_tl + (stripe_h + 1) * REST_UNIT_STRIDE, &left[stripe_h - 1][1], 3);
+ pixel_copy(dst_tl + (stripe_h + 2) * REST_UNIT_STRIDE, &left[stripe_h - 1][1], 3);
+ }
+ }
+
+ // Inner UNIT_WxSTRIPE_H
+ for (int j = 0; j < stripe_h; j++) {
+ pixel_copy(dst_tl + 3 * have_left, p + 3 * have_left, unit_w - 3 * have_left);
+ dst_tl += REST_UNIT_STRIDE;
+ p += PXSTRIDE(stride);
+ }
+
+ if (!have_right) {
+ pixel *pad = dst_l + unit_w;
+ pixel *row_last = &dst_l[unit_w - 1];
+ // Pad 3x(STRIPE_H+6) with last column
+ for (int j = 0; j < stripe_h + 6; j++) {
+ pixel_set(pad, *row_last, 3);
+ pad += REST_UNIT_STRIDE;
+ row_last += REST_UNIT_STRIDE;
+ }
+ }
+
+ if (!have_left) {
+ // Pad 3x(STRIPE_H+6) with first column
+ for (int j = 0; j < stripe_h + 6; j++) {
+ pixel_set(dst, *dst_l, 3);
+ dst += REST_UNIT_STRIDE;
+ dst_l += REST_UNIT_STRIDE;
+ }
+ } else {
+ dst += 3 * REST_UNIT_STRIDE;
+ for (int j = 0; j < stripe_h; j++) {
+ pixel_copy(dst, &left[j][1], 3);
+ dst += REST_UNIT_STRIDE;
+ }
+ }
+}
+
+// FIXME Could split into luma and chroma specific functions,
+// (since first and last tops are always 0 for chroma)
+// FIXME Could implement a version that requires less temporary memory
+// (should be possible to implement with only 6 rows of temp storage)
+static void wiener_c(pixel *p, const ptrdiff_t stride,
+ const pixel (*const left)[4],
+ const pixel *lpf, const int w, const int h,
+ const LooprestorationParams *const params,
+ const enum LrEdgeFlags edges HIGHBD_DECL_SUFFIX)
+{
+ // Wiener filtering is applied to a maximum stripe height of 64 + 3 pixels
+ // of padding above and below
+ pixel tmp[70 /*(64 + 3 + 3)*/ * REST_UNIT_STRIDE];
+ pixel *tmp_ptr = tmp;
+
+ padding(tmp, p, stride, left, lpf, w, h, edges);
+
+ // Values stored between horizontal and vertical filtering don't
+ // fit in a uint8_t.
+ uint16_t hor[70 /*(64 + 3 + 3)*/ * REST_UNIT_STRIDE];
+ uint16_t *hor_ptr = hor;
+
+ const int16_t (*const filter)[8] = params->filter;
+ const int bitdepth = bitdepth_from_max(bitdepth_max);
+ const int round_bits_h = 3 + (bitdepth == 12) * 2;
+ const int rounding_off_h = 1 << (round_bits_h - 1);
+ const int clip_limit = 1 << (bitdepth + 1 + 7 - round_bits_h);
+ for (int j = 0; j < h + 6; j++) {
+ for (int i = 0; i < w; i++) {
+ int sum = (1 << (bitdepth + 6));
+#if BITDEPTH == 8
+ sum += tmp_ptr[i + 3] * 128;
+#endif
+
+ for (int k = 0; k < 7; k++) {
+ sum += tmp_ptr[i + k] * filter[0][k];
+ }
+
+ hor_ptr[i] =
+ iclip((sum + rounding_off_h) >> round_bits_h, 0, clip_limit - 1);
+ }
+ tmp_ptr += REST_UNIT_STRIDE;
+ hor_ptr += REST_UNIT_STRIDE;
+ }
+
+ const int round_bits_v = 11 - (bitdepth == 12) * 2;
+ const int rounding_off_v = 1 << (round_bits_v - 1);
+ const int round_offset = 1 << (bitdepth + (round_bits_v - 1));
+ for (int j = 0; j < h; j++) {
+ for (int i = 0; i < w; i++) {
+ int sum = -round_offset;
+
+ for (int k = 0; k < 7; k++) {
+ sum += hor[(j + k) * REST_UNIT_STRIDE + i] * filter[1][k];
+ }
+
+ p[j * PXSTRIDE(stride) + i] =
+ iclip_pixel((sum + rounding_off_v) >> round_bits_v);
+ }
+ }
+}
+
+// Sum over a 3x3 area
+// The dst and src pointers are positioned 3 pixels above and 3 pixels to the
+// left of the top left corner. However, the self guided filter only needs 1
+// pixel above and one pixel to the left. As for the pixels below and to the
+// right they must be computed in the sums, but don't need to be stored.
+//
+// Example for a 4x4 block:
+// x x x x x x x x x x
+// x c c c c c c c c x
+// x i s s s s s s i x
+// x i s s s s s s i x
+// x i s s s s s s i x
+// x i s s s s s s i x
+// x i s s s s s s i x
+// x i s s s s s s i x
+// x c c c c c c c c x
+// x x x x x x x x x x
+//
+// s: Pixel summed and stored
+// i: Pixel summed and stored (between loops)
+// c: Pixel summed not stored
+// x: Pixel not summed not stored
+static void boxsum3(int32_t *sumsq, coef *sum, const pixel *src,
+ const int w, const int h)
+{
+ // We skip the first row, as it is never used
+ src += REST_UNIT_STRIDE;
+
+ // We skip the first and last columns, as they are never used
+ for (int x = 1; x < w - 1; x++) {
+ coef *sum_v = sum + x;
+ int32_t *sumsq_v = sumsq + x;
+ const pixel *s = src + x;
+ int a = s[0], a2 = a * a;
+ int b = s[REST_UNIT_STRIDE], b2 = b * b;
+
+ // We skip the first 2 rows, as they are skipped in the next loop and
+ // we don't need the last 2 row as it is skipped in the next loop
+ for (int y = 2; y < h - 2; y++) {
+ s += REST_UNIT_STRIDE;
+ const int c = s[REST_UNIT_STRIDE];
+ const int c2 = c * c;
+ sum_v += REST_UNIT_STRIDE;
+ sumsq_v += REST_UNIT_STRIDE;
+ *sum_v = a + b + c;
+ *sumsq_v = a2 + b2 + c2;
+ a = b;
+ a2 = b2;
+ b = c;
+ b2 = c2;
+ }
+ }
+
+ // We skip the first row as it is never read
+ sum += REST_UNIT_STRIDE;
+ sumsq += REST_UNIT_STRIDE;
+ // We skip the last 2 rows as it is never read
+ for (int y = 2; y < h - 2; y++) {
+ int a = sum[1], a2 = sumsq[1];
+ int b = sum[2], b2 = sumsq[2];
+
+ // We don't store the first column as it is never read and
+ // we don't store the last 2 columns as they are never read
+ for (int x = 2; x < w - 2; x++) {
+ const int c = sum[x + 1], c2 = sumsq[x + 1];
+ sum[x] = a + b + c;
+ sumsq[x] = a2 + b2 + c2;
+ a = b;
+ a2 = b2;
+ b = c;
+ b2 = c2;
+ }
+ sum += REST_UNIT_STRIDE;
+ sumsq += REST_UNIT_STRIDE;
+ }
+}
+
+// Sum over a 5x5 area
+// The dst and src pointers are positioned 3 pixels above and 3 pixels to the
+// left of the top left corner. However, the self guided filter only needs 1
+// pixel above and one pixel to the left. As for the pixels below and to the
+// right they must be computed in the sums, but don't need to be stored.
+//
+// Example for a 4x4 block:
+// c c c c c c c c c c
+// c c c c c c c c c c
+// i i s s s s s s i i
+// i i s s s s s s i i
+// i i s s s s s s i i
+// i i s s s s s s i i
+// i i s s s s s s i i
+// i i s s s s s s i i
+// c c c c c c c c c c
+// c c c c c c c c c c
+//
+// s: Pixel summed and stored
+// i: Pixel summed and stored (between loops)
+// c: Pixel summed not stored
+// x: Pixel not summed not stored
+static void boxsum5(int32_t *sumsq, coef *sum, const pixel *const src,
+ const int w, const int h)
+{
+ for (int x = 0; x < w; x++) {
+ coef *sum_v = sum + x;
+ int32_t *sumsq_v = sumsq + x;
+ const pixel *s = src + 3 * REST_UNIT_STRIDE + x;
+ int a = s[-3 * REST_UNIT_STRIDE], a2 = a * a;
+ int b = s[-2 * REST_UNIT_STRIDE], b2 = b * b;
+ int c = s[-1 * REST_UNIT_STRIDE], c2 = c * c;
+ int d = s[0], d2 = d * d;
+
+ // We skip the first 2 rows, as they are skipped in the next loop and
+ // we don't need the last 2 row as it is skipped in the next loop
+ for (int y = 2; y < h - 2; y++) {
+ s += REST_UNIT_STRIDE;
+ const int e = *s, e2 = e * e;
+ sum_v += REST_UNIT_STRIDE;
+ sumsq_v += REST_UNIT_STRIDE;
+ *sum_v = a + b + c + d + e;
+ *sumsq_v = a2 + b2 + c2 + d2 + e2;
+ a = b;
+ b = c;
+ c = d;
+ d = e;
+ a2 = b2;
+ b2 = c2;
+ c2 = d2;
+ d2 = e2;
+ }
+ }
+
+ // We skip the first row as it is never read
+ sum += REST_UNIT_STRIDE;
+ sumsq += REST_UNIT_STRIDE;
+ for (int y = 2; y < h - 2; y++) {
+ int a = sum[0], a2 = sumsq[0];
+ int b = sum[1], b2 = sumsq[1];
+ int c = sum[2], c2 = sumsq[2];
+ int d = sum[3], d2 = sumsq[3];
+
+ for (int x = 2; x < w - 2; x++) {
+ const int e = sum[x + 2], e2 = sumsq[x + 2];
+ sum[x] = a + b + c + d + e;
+ sumsq[x] = a2 + b2 + c2 + d2 + e2;
+ a = b;
+ b = c;
+ c = d;
+ d = e;
+ a2 = b2;
+ b2 = c2;
+ c2 = d2;
+ d2 = e2;
+ }
+ sum += REST_UNIT_STRIDE;
+ sumsq += REST_UNIT_STRIDE;
+ }
+}
+
+static NOINLINE void
+selfguided_filter(coef *dst, const pixel *src, const ptrdiff_t src_stride,
+ const int w, const int h, const int n, const unsigned s
+ HIGHBD_DECL_SUFFIX)
+{
+ const unsigned sgr_one_by_x = n == 25 ? 164 : 455;
+
+ // Selfguided filter is applied to a maximum stripe height of 64 + 3 pixels
+ // of padding above and below
+ int32_t sumsq[68 /*(64 + 2 + 2)*/ * REST_UNIT_STRIDE];
+ int32_t *A = sumsq + 2 * REST_UNIT_STRIDE + 3;
+ // By inverting A and B after the boxsums, B can be of size coef instead
+ // of int32_t
+ coef sum[68 /*(64 + 2 + 2)*/ * REST_UNIT_STRIDE];
+ coef *B = sum + 2 * REST_UNIT_STRIDE + 3;
+
+ const int step = (n == 25) + 1;
+ if (n == 25)
+ boxsum5(sumsq, sum, src, w + 6, h + 6);
+ else
+ boxsum3(sumsq, sum, src, w + 6, h + 6);
+ const int bitdepth_min_8 = bitdepth_from_max(bitdepth_max) - 8;
+
+ int32_t *AA = A - REST_UNIT_STRIDE;
+ coef *BB = B - REST_UNIT_STRIDE;
+ for (int j = -1; j < h + 1; j+= step) {
+ for (int i = -1; i < w + 1; i++) {
+ const int a =
+ (AA[i] + ((1 << (2 * bitdepth_min_8)) >> 1)) >> (2 * bitdepth_min_8);
+ const int b =
+ (BB[i] + ((1 << bitdepth_min_8) >> 1)) >> bitdepth_min_8;
+
+ const unsigned p = imax(a * n - b * b, 0);
+ const unsigned z = (p * s + (1 << 19)) >> 20;
+ const unsigned x = dav1d_sgr_x_by_x[umin(z, 255)];
+
+ // This is where we invert A and B, so that B is of size coef.
+ AA[i] = (x * BB[i] * sgr_one_by_x + (1 << 11)) >> 12;
+ BB[i] = x;
+ }
+ AA += step * REST_UNIT_STRIDE;
+ BB += step * REST_UNIT_STRIDE;
+ }
+
+ src += 3 * REST_UNIT_STRIDE + 3;
+ if (n == 25) {
+ int j = 0;
+#define SIX_NEIGHBORS(P, i)\
+ ((P[i - REST_UNIT_STRIDE] + P[i + REST_UNIT_STRIDE]) * 6 + \
+ (P[i - 1 - REST_UNIT_STRIDE] + P[i - 1 + REST_UNIT_STRIDE] + \
+ P[i + 1 - REST_UNIT_STRIDE] + P[i + 1 + REST_UNIT_STRIDE]) * 5)
+ for (; j < h - 1; j+=2) {
+ for (int i = 0; i < w; i++) {
+ const int a = SIX_NEIGHBORS(B, i);
+ const int b = SIX_NEIGHBORS(A, i);
+ dst[i] = (b - a * src[i] + (1 << 8)) >> 9;
+ }
+ dst += 384 /* Maximum restoration width is 384 (256 * 1.5) */;
+ src += REST_UNIT_STRIDE;
+ B += REST_UNIT_STRIDE;
+ A += REST_UNIT_STRIDE;
+ for (int i = 0; i < w; i++) {
+ const int a = B[i] * 6 + (B[i - 1] + B[i + 1]) * 5;
+ const int b = A[i] * 6 + (A[i - 1] + A[i + 1]) * 5;
+ dst[i] = (b - a * src[i] + (1 << 7)) >> 8;
+ }
+ dst += 384 /* Maximum restoration width is 384 (256 * 1.5) */;
+ src += REST_UNIT_STRIDE;
+ B += REST_UNIT_STRIDE;
+ A += REST_UNIT_STRIDE;
+ }
+ if (j + 1 == h) { // Last row, when number of rows is odd
+ for (int i = 0; i < w; i++) {
+ const int a = SIX_NEIGHBORS(B, i);
+ const int b = SIX_NEIGHBORS(A, i);
+ dst[i] = (b - a * src[i] + (1 << 8)) >> 9;
+ }
+ }
+#undef SIX_NEIGHBORS
+ } else {
+#define EIGHT_NEIGHBORS(P, i)\
+ ((P[i] + P[i - 1] + P[i + 1] + P[i - REST_UNIT_STRIDE] + P[i + REST_UNIT_STRIDE]) * 4 + \
+ (P[i - 1 - REST_UNIT_STRIDE] + P[i - 1 + REST_UNIT_STRIDE] + \
+ P[i + 1 - REST_UNIT_STRIDE] + P[i + 1 + REST_UNIT_STRIDE]) * 3)
+ for (int j = 0; j < h; j++) {
+ for (int i = 0; i < w; i++) {
+ const int a = EIGHT_NEIGHBORS(B, i);
+ const int b = EIGHT_NEIGHBORS(A, i);
+ dst[i] = (b - a * src[i] + (1 << 8)) >> 9;
+ }
+ dst += 384;
+ src += REST_UNIT_STRIDE;
+ B += REST_UNIT_STRIDE;
+ A += REST_UNIT_STRIDE;
+ }
+ }
+#undef EIGHT_NEIGHBORS
+}
+
+static void sgr_5x5_c(pixel *p, const ptrdiff_t stride,
+ const pixel (*const left)[4], const pixel *lpf,
+ const int w, const int h,
+ const LooprestorationParams *const params,
+ const enum LrEdgeFlags edges HIGHBD_DECL_SUFFIX)
+{
+ // Selfguided filter is applied to a maximum stripe height of 64 + 3 pixels
+ // of padding above and below
+ pixel tmp[70 /*(64 + 3 + 3)*/ * REST_UNIT_STRIDE];
+
+ // Selfguided filter outputs to a maximum stripe height of 64 and a
+ // maximum restoration width of 384 (256 * 1.5)
+ coef dst[64 * 384];
+
+ padding(tmp, p, stride, left, lpf, w, h, edges);
+ selfguided_filter(dst, tmp, REST_UNIT_STRIDE, w, h, 25,
+ params->sgr.s0 HIGHBD_TAIL_SUFFIX);
+
+ const int w0 = params->sgr.w0;
+ for (int j = 0; j < h; j++) {
+ for (int i = 0; i < w; i++) {
+ const int v = w0 * dst[j * 384 + i];
+ p[i] = iclip_pixel(p[i] + ((v + (1 << 10)) >> 11));
+ }
+ p += PXSTRIDE(stride);
+ }
+}
+
+static void sgr_3x3_c(pixel *p, const ptrdiff_t stride,
+ const pixel (*const left)[4], const pixel *lpf,
+ const int w, const int h,
+ const LooprestorationParams *const params,
+ const enum LrEdgeFlags edges HIGHBD_DECL_SUFFIX)
+{
+ pixel tmp[70 /*(64 + 3 + 3)*/ * REST_UNIT_STRIDE];
+ coef dst[64 * 384];
+
+ padding(tmp, p, stride, left, lpf, w, h, edges);
+ selfguided_filter(dst, tmp, REST_UNIT_STRIDE, w, h, 9,
+ params->sgr.s1 HIGHBD_TAIL_SUFFIX);
+
+ const int w1 = params->sgr.w1;
+ for (int j = 0; j < h; j++) {
+ for (int i = 0; i < w; i++) {
+ const int v = w1 * dst[j * 384 + i];
+ p[i] = iclip_pixel(p[i] + ((v + (1 << 10)) >> 11));
+ }
+ p += PXSTRIDE(stride);
+ }
+}
+
+static void sgr_mix_c(pixel *p, const ptrdiff_t stride,
+ const pixel (*const left)[4], const pixel *lpf,
+ const int w, const int h,
+ const LooprestorationParams *const params,
+ const enum LrEdgeFlags edges HIGHBD_DECL_SUFFIX)
+{
+ pixel tmp[70 /*(64 + 3 + 3)*/ * REST_UNIT_STRIDE];
+ coef dst0[64 * 384];
+ coef dst1[64 * 384];
+
+ padding(tmp, p, stride, left, lpf, w, h, edges);
+ selfguided_filter(dst0, tmp, REST_UNIT_STRIDE, w, h, 25,
+ params->sgr.s0 HIGHBD_TAIL_SUFFIX);
+ selfguided_filter(dst1, tmp, REST_UNIT_STRIDE, w, h, 9,
+ params->sgr.s1 HIGHBD_TAIL_SUFFIX);
+
+ const int w0 = params->sgr.w0;
+ const int w1 = params->sgr.w1;
+ for (int j = 0; j < h; j++) {
+ for (int i = 0; i < w; i++) {
+ const int v = w0 * dst0[j * 384 + i] + w1 * dst1[j * 384 + i];
+ p[i] = iclip_pixel(p[i] + ((v + (1 << 10)) >> 11));
+ }
+ p += PXSTRIDE(stride);
+ }
+}
+
+#if HAVE_ASM
+#if ARCH_AARCH64 || ARCH_ARM
+#include "src/arm/looprestoration.h"
+#elif ARCH_PPC64LE
+#include "src/ppc/looprestoration.h"
+#elif ARCH_X86
+#include "src/x86/looprestoration.h"
+#endif
+#endif
+
+COLD void bitfn(dav1d_loop_restoration_dsp_init)(Dav1dLoopRestorationDSPContext *const c,
+ const int bpc)
+{
+ c->wiener[0] = c->wiener[1] = wiener_c;
+ c->sgr[0] = sgr_5x5_c;
+ c->sgr[1] = sgr_3x3_c;
+ c->sgr[2] = sgr_mix_c;
+
+#if HAVE_ASM
+#if ARCH_AARCH64 || ARCH_ARM
+ loop_restoration_dsp_init_arm(c, bpc);
+#elif ARCH_PPC64LE
+ loop_restoration_dsp_init_ppc(c, bpc);
+#elif ARCH_X86
+ loop_restoration_dsp_init_x86(c, bpc);
+#endif
+#endif
+}