ref: 27860ee5c4a2976f6818ee2b95c34fe5b8bbf42e
dir: /src/mc_tmpl.c/
/* * 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 <assert.h> #include <stdlib.h> #include <string.h> #include "common/attributes.h" #include "common/intops.h" #include "src/mc.h" #include "src/tables.h" static NOINLINE void put_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *src, const ptrdiff_t src_stride, const int w, int h) { do { pixel_copy(dst, src, w); dst += dst_stride; src += src_stride; } while (--h); } static NOINLINE void prep_c(coef *tmp, const pixel *src, const ptrdiff_t src_stride, const int w, int h) { do { for (int x = 0; x < w; x++) tmp[x] = src[x] << 4; tmp += w; src += src_stride; } while (--h); } #define FILTER_8TAP(src, x, F, stride) \ (F[0] * src[x + -3 * stride] + \ F[1] * src[x + -2 * stride] + \ F[2] * src[x + -1 * stride] + \ F[3] * src[x + +0 * stride] + \ F[4] * src[x + +1 * stride] + \ F[5] * src[x + +2 * stride] + \ F[6] * src[x + +3 * stride] + \ F[7] * src[x + +4 * stride]) #define FILTER_8TAP_RND(src, x, F, stride, sh) \ ((FILTER_8TAP(src, x, F, stride) + ((1 << sh) >> 1)) >> sh) #define FILTER_8TAP_CLIP(src, x, F, stride, sh) \ iclip_pixel(FILTER_8TAP_RND(src, x, F, stride, sh)) #define GET_H_FILTER(mx) \ const int8_t *const fh = !(mx) ? NULL : w > 4 ? \ dav1d_mc_subpel_filters[filter_type & 3][(mx) - 1] : \ dav1d_mc_subpel_filters[3 + (filter_type & 1)][(mx) - 1] #define GET_V_FILTER(my) \ const int8_t *const fv = !(my) ? NULL : h > 4 ? \ dav1d_mc_subpel_filters[filter_type >> 2][(my) - 1] : \ dav1d_mc_subpel_filters[3 + ((filter_type >> 2) & 1)][(my) - 1] #define GET_FILTERS() \ GET_H_FILTER(mx); \ GET_V_FILTER(my) static NOINLINE void put_8tap_c(pixel *dst, ptrdiff_t dst_stride, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, const int my, const int filter_type) { GET_FILTERS(); dst_stride = PXSTRIDE(dst_stride); src_stride = PXSTRIDE(src_stride); if (fh) { if (fv) { int tmp_h = h + 7; coef mid[128 * 135], *mid_ptr = mid; src -= src_stride * 3; do { for (int x = 0; x < w; x++) mid_ptr[x] = FILTER_8TAP_RND(src, x, fh, 1, 2); mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid + 128 * 3; do { for (int x = 0; x < w; x++) dst[x] = FILTER_8TAP_CLIP(mid_ptr, x, fv, 128, 10); mid_ptr += 128; dst += dst_stride; } while (--h); } else { do { for (int x = 0; x < w; x++) { const int px = FILTER_8TAP_RND(src, x, fh, 1, 2); dst[x] = iclip_pixel((px + 8) >> 4); } dst += dst_stride; src += src_stride; } while (--h); } } else if (fv) { do { for (int x = 0; x < w; x++) dst[x] = FILTER_8TAP_CLIP(src, x, fv, src_stride, 6); dst += dst_stride; src += src_stride; } while (--h); } else put_c(dst, dst_stride, src, src_stride, w, h); } static NOINLINE void put_8tap_scaled_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, int my, const int dx, const int dy, const int filter_type) { int tmp_h = (((h - 1) * dy + my) >> 10) + 8; coef mid[128 * (256 + 7)], *mid_ptr = mid; src_stride = PXSTRIDE(src_stride); src -= src_stride * 3; do { int x; int imx = mx, ioff = 0; for (x = 0; x < w; x++) { GET_H_FILTER(imx >> 6); mid_ptr[x] = fh ? FILTER_8TAP_RND(src, ioff, fh, 1, 2) : src[ioff] << 4; imx += dx; ioff += imx >> 10; imx &= 0x3ff; } mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid + 128 * 3; for (int y = 0; y < h; y++) { int x; GET_V_FILTER(my >> 6); for (x = 0; x < w; x++) dst[x] = fv ? FILTER_8TAP_CLIP(mid_ptr, x, fv, 128, 10) : iclip_pixel((mid_ptr[x] + 8) >> 4); my += dy; mid_ptr += (my >> 10) * 128; my &= 0x3ff; dst += PXSTRIDE(dst_stride); } } static NOINLINE void prep_8tap_c(coef *tmp, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, const int my, const int filter_type) { GET_FILTERS(); src_stride = PXSTRIDE(src_stride); if (fh) { if (fv) { int tmp_h = h + 7; coef mid[128 * 135], *mid_ptr = mid; src -= src_stride * 3; do { for (int x = 0; x < w; x++) mid_ptr[x] = FILTER_8TAP_RND(src, x, fh, 1, 2); mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid + 128 * 3; do { for (int x = 0; x < w; x++) tmp[x] = FILTER_8TAP_RND(mid_ptr, x, fv, 128, 6); mid_ptr += 128; tmp += w; } while (--h); } else { do { for (int x = 0; x < w; x++) tmp[x] = FILTER_8TAP_RND(src, x, fh, 1, 2); tmp += w; src += src_stride; } while (--h); } } else if (fv) { do { for (int x = 0; x < w; x++) tmp[x] = FILTER_8TAP_RND(src, x, fv, src_stride, 2); tmp += w; src += src_stride; } while (--h); } else prep_c(tmp, src, src_stride, w, h); } static NOINLINE void prep_8tap_scaled_c(coef *tmp, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, int my, const int dx, const int dy, const int filter_type) { int tmp_h = (((h - 1) * dy + my) >> 10) + 8; coef mid[128 * (256 + 7)], *mid_ptr = mid; src_stride = PXSTRIDE(src_stride); src -= src_stride * 3; do { int x; int imx = mx, ioff = 0; for (x = 0; x < w; x++) { GET_H_FILTER(imx >> 6); mid_ptr[x] = fh ? FILTER_8TAP_RND(src, ioff, fh, 1, 2) : src[ioff] << 4; imx += dx; ioff += imx >> 10; imx &= 0x3ff; } mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid + 128 * 3; for (int y = 0; y < h; y++) { int x; GET_V_FILTER(my >> 6); for (x = 0; x < w; x++) tmp[x] = fv ? FILTER_8TAP_RND(mid_ptr, x, fv, 128, 6) : mid_ptr[x]; my += dy; mid_ptr += (my >> 10) * 128; my &= 0x3ff; tmp += w; } } #define filter_fns(type, type_h, type_v) \ static void put_8tap_##type##_c(pixel *const dst, \ const ptrdiff_t dst_stride, \ const pixel *const src, \ const ptrdiff_t src_stride, \ const int w, const int h, \ const int mx, const int my) \ { \ put_8tap_c(dst, dst_stride, src, src_stride, w, h, mx, my, \ type_h | (type_v << 2)); \ } \ static void put_8tap_##type##_scaled_c(pixel *const dst, \ const ptrdiff_t dst_stride, \ const pixel *const src, \ const ptrdiff_t src_stride, \ const int w, const int h, \ const int mx, const int my, \ const int dx, const int dy) \ { \ put_8tap_scaled_c(dst, dst_stride, src, src_stride, w, h, mx, my, dx, dy, \ type_h | (type_v << 2)); \ } \ static void prep_8tap_##type##_c(coef *const tmp, \ const pixel *const src, \ const ptrdiff_t src_stride, \ const int w, const int h, \ const int mx, const int my) \ { \ prep_8tap_c(tmp, src, src_stride, w, h, mx, my, \ type_h | (type_v << 2)); \ } \ static void prep_8tap_##type##_scaled_c(coef *const tmp, \ const pixel *const src, \ const ptrdiff_t src_stride, \ const int w, const int h, \ const int mx, const int my, \ const int dx, const int dy) \ { \ prep_8tap_scaled_c(tmp, src, src_stride, w, h, mx, my, dx, dy, \ type_h | (type_v << 2)); \ } filter_fns(regular, FILTER_8TAP_REGULAR, FILTER_8TAP_REGULAR) filter_fns(regular_sharp, FILTER_8TAP_REGULAR, FILTER_8TAP_SHARP) filter_fns(regular_smooth, FILTER_8TAP_REGULAR, FILTER_8TAP_SMOOTH) filter_fns(smooth, FILTER_8TAP_SMOOTH, FILTER_8TAP_SMOOTH) filter_fns(smooth_regular, FILTER_8TAP_SMOOTH, FILTER_8TAP_REGULAR) filter_fns(smooth_sharp, FILTER_8TAP_SMOOTH, FILTER_8TAP_SHARP) filter_fns(sharp, FILTER_8TAP_SHARP, FILTER_8TAP_SHARP) filter_fns(sharp_regular, FILTER_8TAP_SHARP, FILTER_8TAP_REGULAR) filter_fns(sharp_smooth, FILTER_8TAP_SHARP, FILTER_8TAP_SMOOTH) #define FILTER_BILIN(src, x, mxy, stride) \ (16 * src[x] + ((mxy) * (src[x + stride] - src[x]))) #define FILTER_BILIN_RND(src, x, mxy, stride, sh) \ ((FILTER_BILIN(src, x, mxy, stride) + ((1 << sh) >> 1)) >> sh) #define FILTER_BILIN_CLIP(src, x, mxy, stride, sh) \ iclip_pixel(FILTER_BILIN_RND(src, x, mxy, stride, sh)) static void put_bilin_c(pixel *dst, ptrdiff_t dst_stride, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, const int my) { dst_stride = PXSTRIDE(dst_stride); src_stride = PXSTRIDE(src_stride); if (mx) { if (my) { coef mid[128 * 129], *mid_ptr = mid; int tmp_h = h + 1; do { for (int x = 0; x < w; x++) mid_ptr[x] = FILTER_BILIN(src, x, mx, 1); mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid; do { for (int x = 0; x < w; x++) dst[x] = FILTER_BILIN_CLIP(mid_ptr, x, my, 128, 8); mid_ptr += 128; dst += dst_stride; } while (--h); } else { do { for (int x = 0; x < w; x++) dst[x] = FILTER_BILIN_CLIP(src, x, mx, 1, 4); dst += dst_stride; src += src_stride; } while (--h); } } else if (my) { do { for (int x = 0; x < w; x++) dst[x] = FILTER_BILIN_CLIP(src, x, my, src_stride, 4); dst += dst_stride; src += src_stride; } while (--h); } else put_c(dst, dst_stride, src, src_stride, w, h); } static void put_bilin_scaled_c(pixel *dst, ptrdiff_t dst_stride, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, int my, const int dx, const int dy) { int tmp_h = (((h - 1) * dy + my) >> 10) + 2; coef mid[128 * (256 + 1)], *mid_ptr = mid; do { int x; int imx = mx, ioff = 0; for (x = 0; x < w; x++) { mid_ptr[x] = FILTER_BILIN(src, ioff, imx >> 6, 1); imx += dx; ioff += imx >> 10; imx &= 0x3ff; } mid_ptr += 128; src += PXSTRIDE(src_stride); } while (--tmp_h); mid_ptr = mid; do { int x; for (x = 0; x < w; x++) dst[x] = FILTER_BILIN_CLIP(mid_ptr, x, my >> 6, 128, 8); my += dy; mid_ptr += (my >> 10) * 128; my &= 0x3ff; dst += PXSTRIDE(dst_stride); } while (--h); } static void prep_bilin_c(coef *tmp, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, const int my) { src_stride = PXSTRIDE(src_stride); if (mx) { if (my) { coef mid[128 * 129], *mid_ptr = mid; int tmp_h = h + 1; do { for (int x = 0; x < w; x++) mid_ptr[x] = FILTER_BILIN(src, x, mx, 1); mid_ptr += 128; src += src_stride; } while (--tmp_h); mid_ptr = mid; do { for (int x = 0; x < w; x++) tmp[x] = FILTER_BILIN_RND(mid_ptr, x, my, 128, 4); mid_ptr += 128; tmp += w; } while (--h); } else { do { for (int x = 0; x < w; x++) tmp[x] = FILTER_BILIN(src, x, mx, 1); tmp += w; src += src_stride; } while (--h); } } else if (my) { do { for (int x = 0; x < w; x++) tmp[x] = FILTER_BILIN(src, x, my, src_stride); tmp += w; src += src_stride; } while (--h); } else prep_c(tmp, src, src_stride, w, h); } static void prep_bilin_scaled_c(coef *tmp, const pixel *src, ptrdiff_t src_stride, const int w, int h, const int mx, int my, const int dx, const int dy) { int tmp_h = (((h - 1) * dy + my) >> 10) + 2; coef mid[128 * (256 + 1)], *mid_ptr = mid; do { int x; int imx = mx, ioff = 0; for (x = 0; x < w; x++) { mid_ptr[x] = FILTER_BILIN(src, ioff, imx >> 6, 1); imx += dx; ioff += imx >> 10; imx &= 0x3ff; } mid_ptr += 128; src += PXSTRIDE(src_stride); } while (--tmp_h); mid_ptr = mid; do { int x; for (x = 0; x < w; x++) tmp[x] = FILTER_BILIN_RND(mid_ptr, x, my >> 6, 128, 4); my += dy; mid_ptr += (my >> 10) * 128; my &= 0x3ff; tmp += w; } while (--h); } static void avg_c(pixel *dst, const ptrdiff_t dst_stride, const coef *tmp1, const coef *tmp2, const int w, int h) { do { for (int x = 0; x < w; x++) dst[x] = iclip_pixel((tmp1[x] + tmp2[x] + 16) >> 5); tmp1 += w; tmp2 += w; dst += PXSTRIDE(dst_stride); } while (--h); } static void w_avg_c(pixel *dst, const ptrdiff_t dst_stride, const coef *tmp1, const coef *tmp2, const int w, int h, const int weight) { do { for (int x = 0; x < w; x++) dst[x] = iclip_pixel((tmp1[x] * weight + tmp2[x] * (16 - weight) + 128) >> 8); tmp1 += w; tmp2 += w; dst += PXSTRIDE(dst_stride); } while (--h); } static void mask_c(pixel *dst, const ptrdiff_t dst_stride, const coef *tmp1, const coef *tmp2, const int w, int h, const uint8_t *mask) { do { for (int x = 0; x < w; x++) dst[x] = iclip_pixel((tmp1[x] * mask[x] + tmp2[x] * (64 - mask[x]) + 512) >> 10); tmp1 += w; tmp2 += w; mask += w; dst += PXSTRIDE(dst_stride); } while (--h); } #define blend_px(a, b, m) (((a * (64 - m) + b * m) + 32) >> 6) static NOINLINE void blend_internal_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *tmp, const int w, int h, const uint8_t *mask, const ptrdiff_t mask_stride) { do { for (int x = 0; x < w; x++) { dst[x] = blend_px(dst[x], tmp[x], mask[x]); } dst += PXSTRIDE(dst_stride); tmp += w; mask += mask_stride; } while (--h); } static void blend_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *tmp, const int w, const int h, const uint8_t *mask) { blend_internal_c(dst, dst_stride, tmp, w, h, mask, w); } static void blend_v_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *tmp, const int w, const int h) { blend_internal_c(dst, dst_stride, tmp, w, h, &dav1d_obmc_masks[w], 0); } static void blend_h_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *tmp, const int w, int h) { const uint8_t *mask = &dav1d_obmc_masks[h]; do { const int m = *mask++; for (int x = 0; x < w; x++) { dst[x] = blend_px(dst[x], tmp[x], m); } dst += PXSTRIDE(dst_stride); tmp += w; } while (--h); } static void w_mask_c(pixel *dst, const ptrdiff_t dst_stride, const coef *tmp1, const coef *tmp2, const int w, int h, uint8_t *mask, const int sign, const int ss_hor, const int ss_ver) { // store mask at 2x2 resolution, i.e. store 2x1 sum for even rows, // and then load this intermediate to calculate final value for odd rows const int rnd = 8 << (BITDEPTH - 8); do { for (int x = 0; x < w; x++) { const int m = imin(38 + ((abs(tmp1[x] - tmp2[x]) + rnd) >> BITDEPTH), 64); dst[x] = iclip_pixel((tmp1[x] * m + tmp2[x] * (64 - m) + 512) >> 10); if (ss_hor) { x++; const int n = imin(38 + ((abs(tmp1[x] - tmp2[x]) + rnd) >> BITDEPTH), 64); dst[x] = iclip_pixel((tmp1[x] * n + tmp2[x] * (64 - n) + 512) >> 10); if (h & ss_ver) { mask[x >> 1] = (m + n + mask[x >> 1] + 2 - sign) >> 2; } else if (ss_ver) { mask[x >> 1] = m + n; } else { mask[x >> 1] = (m + n + 1 - sign) >> 1; } } else { mask[x] = m; } } tmp1 += w; tmp2 += w; dst += PXSTRIDE(dst_stride); if (!ss_ver || (h & 1)) mask += w >> ss_hor; } while (--h); } #define w_mask_fns(ssn, ss_hor, ss_ver) \ static void w_mask_##ssn##_c(pixel *const dst, const ptrdiff_t dst_stride, \ const coef *const tmp1, const coef *const tmp2, \ const int w, const int h, uint8_t *mask, \ const int sign) \ { \ w_mask_c(dst, dst_stride, tmp1, tmp2, w, h, mask, sign, ss_hor, ss_ver); \ } w_mask_fns(444, 0, 0); w_mask_fns(422, 1, 0); w_mask_fns(420, 1, 1); #undef w_mask_fns #define FILTER_WARP(src, x, F, stride) \ (F[0] * src[x + -3 * stride] + \ F[4] * src[x + -2 * stride] + \ F[1] * src[x + -1 * stride] + \ F[5] * src[x + +0 * stride] + \ F[2] * src[x + +1 * stride] + \ F[6] * src[x + +2 * stride] + \ F[3] * src[x + +3 * stride] + \ F[7] * src[x + +4 * stride]) #define FILTER_WARP_RND(src, x, F, stride, sh) \ ((FILTER_WARP(src, x, F, stride) + ((1 << sh) >> 1)) >> sh) #define FILTER_WARP_CLIP(src, x, F, stride, sh) \ iclip_pixel(FILTER_WARP_RND(src, x, F, stride, sh)) static void warp_affine_8x8_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *src, const ptrdiff_t src_stride, const int16_t *const abcd, int mx, int my) { coef mid[15 * 8], *mid_ptr = mid; src -= 3 * PXSTRIDE(src_stride); for (int y = 0; y < 15; y++, mx += abcd[1]) { for (int x = 0, tmx = mx; x < 8; x++, tmx += abcd[0]) { const int8_t *const filter = dav1d_mc_warp_filter[64 + ((tmx + 512) >> 10)]; mid_ptr[x] = FILTER_WARP_RND(src, x, filter, 1, 3); } src += PXSTRIDE(src_stride); mid_ptr += 8; } mid_ptr = &mid[3 * 8]; for (int y = 0; y < 8; y++, my += abcd[3]) { for (int x = 0, tmy = my; x < 8; x++, tmy += abcd[2]) { const int8_t *const filter = dav1d_mc_warp_filter[64 + ((tmy + 512) >> 10)]; dst[x] = FILTER_WARP_CLIP(mid_ptr, x, filter, 8, 11); } mid_ptr += 8; dst += PXSTRIDE(dst_stride); } } static void warp_affine_8x8t_c(coef *tmp, const ptrdiff_t tmp_stride, const pixel *src, const ptrdiff_t src_stride, const int16_t *const abcd, int mx, int my) { coef mid[15 * 8], *mid_ptr = mid; src -= 3 * PXSTRIDE(src_stride); for (int y = 0; y < 15; y++, mx += abcd[1]) { for (int x = 0, tmx = mx; x < 8; x++, tmx += abcd[0]) { const int8_t *const filter = dav1d_mc_warp_filter[64 + ((tmx + 512) >> 10)]; mid_ptr[x] = FILTER_WARP_RND(src, x, filter, 1, 3); } src += PXSTRIDE(src_stride); mid_ptr += 8; } mid_ptr = &mid[3 * 8]; for (int y = 0; y < 8; y++, my += abcd[3]) { for (int x = 0, tmy = my; x < 8; x++, tmy += abcd[2]) { const int8_t *const filter = dav1d_mc_warp_filter[64 + ((tmy + 512) >> 10)]; tmp[x] = FILTER_WARP_RND(mid_ptr, x, filter, 8, 7); } mid_ptr += 8; tmp += tmp_stride; } } static void emu_edge_c(const intptr_t bw, const intptr_t bh, const intptr_t iw, const intptr_t ih, const intptr_t x, const intptr_t y, pixel *dst, const ptrdiff_t dst_stride, const pixel *ref, const ptrdiff_t ref_stride) { // find offset in reference of visible block to copy ref += iclip(y, 0, ih - 1) * PXSTRIDE(ref_stride) + iclip(x, 0, iw - 1); // number of pixels to extend (left, right, top, bottom) const int left_ext = iclip(-x, 0, bw - 1); const int right_ext = iclip(x + bw - iw, 0, bw - 1); assert(left_ext + right_ext < bw); const int top_ext = iclip(-y, 0, bh - 1); const int bottom_ext = iclip(y + bh - ih, 0, bh - 1); assert(top_ext + bottom_ext < bh); // copy visible portion first pixel *blk = dst + top_ext * PXSTRIDE(dst_stride); const int center_w = bw - left_ext - right_ext; const int center_h = bh - top_ext - bottom_ext; for (int y = 0; y < center_h; y++) { pixel_copy(blk + left_ext, ref, center_w); // extend left edge for this line if (left_ext) pixel_set(blk, blk[left_ext], left_ext); // extend right edge for this line if (right_ext) pixel_set(blk + left_ext + center_w, blk[left_ext + center_w - 1], right_ext); ref += PXSTRIDE(ref_stride); blk += PXSTRIDE(dst_stride); } // copy top blk = dst + top_ext * PXSTRIDE(dst_stride); for (int y = 0; y < top_ext; y++) { pixel_copy(dst, blk, bw); dst += PXSTRIDE(dst_stride); } // copy bottom dst += center_h * PXSTRIDE(dst_stride); for (int y = 0; y < bottom_ext; y++) { pixel_copy(dst, &dst[-PXSTRIDE(dst_stride)], bw); dst += PXSTRIDE(dst_stride); } } static void resize_c(pixel *dst, const ptrdiff_t dst_stride, const pixel *src, const ptrdiff_t src_stride, const int dst_w, const int src_w, int h, const int dx, const int mx0) { do { int mx = mx0, src_x = -1; for (int x = 0; x < dst_w; x++) { const int16_t *const F = dav1d_resize_filter[mx >> 8]; dst[x] = iclip_pixel((F[0] * src[iclip(src_x - 3, 0, src_w - 1)] + F[1] * src[iclip(src_x - 2, 0, src_w - 1)] + F[2] * src[iclip(src_x - 1, 0, src_w - 1)] + F[3] * src[iclip(src_x + 0, 0, src_w - 1)] + F[4] * src[iclip(src_x + 1, 0, src_w - 1)] + F[5] * src[iclip(src_x + 2, 0, src_w - 1)] + F[6] * src[iclip(src_x + 3, 0, src_w - 1)] + F[7] * src[iclip(src_x + 4, 0, src_w - 1)] + 64) >> 7); mx += dx; src_x += mx >> 14; mx &= 0x3fff; } dst += PXSTRIDE(dst_stride); src += PXSTRIDE(src_stride); } while (--h); } void bitfn(dav1d_mc_dsp_init)(Dav1dMCDSPContext *const c) { #define init_mc_fns(type, name) do { \ c->mc [type] = put_##name##_c; \ c->mc_scaled [type] = put_##name##_scaled_c; \ c->mct [type] = prep_##name##_c; \ c->mct_scaled[type] = prep_##name##_scaled_c; \ } while (0) init_mc_fns(FILTER_2D_8TAP_REGULAR, 8tap_regular); init_mc_fns(FILTER_2D_8TAP_REGULAR_SMOOTH, 8tap_regular_smooth); init_mc_fns(FILTER_2D_8TAP_REGULAR_SHARP, 8tap_regular_sharp); init_mc_fns(FILTER_2D_8TAP_SHARP_REGULAR, 8tap_sharp_regular); init_mc_fns(FILTER_2D_8TAP_SHARP_SMOOTH, 8tap_sharp_smooth); init_mc_fns(FILTER_2D_8TAP_SHARP, 8tap_sharp); init_mc_fns(FILTER_2D_8TAP_SMOOTH_REGULAR, 8tap_smooth_regular); init_mc_fns(FILTER_2D_8TAP_SMOOTH, 8tap_smooth); init_mc_fns(FILTER_2D_8TAP_SMOOTH_SHARP, 8tap_smooth_sharp); init_mc_fns(FILTER_2D_BILINEAR, bilin); c->avg = avg_c; c->w_avg = w_avg_c; c->mask = mask_c; c->blend = blend_c; c->blend_v = blend_v_c; c->blend_h = blend_h_c; c->w_mask[0] = w_mask_444_c; c->w_mask[1] = w_mask_422_c; c->w_mask[2] = w_mask_420_c; c->warp8x8 = warp_affine_8x8_c; c->warp8x8t = warp_affine_8x8t_c; c->emu_edge = emu_edge_c; c->resize = resize_c; #if HAVE_ASM #if ARCH_AARCH64 || ARCH_ARM bitfn(dav1d_mc_dsp_init_arm)(c); #elif ARCH_X86 bitfn(dav1d_mc_dsp_init_x86)(c); #endif #endif }