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80afcc8539
This already avoids unnecessary indirectly included headers in the arch-specific vf_bwdif_init.c files; it is also in preparation for splitting the actual functions out of vf_bwdif.c. Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@outlook.com>
256 lines
11 KiB
C
256 lines
11 KiB
C
/*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with FFmpeg; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include <string.h>
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#include "checkasm.h"
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#include "libavfilter/bwdifdsp.h"
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#include "libavutil/mem_internal.h"
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#define WIDTH 256
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#define randomize_buffers(buf0, buf1, mask, count) \
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for (size_t i = 0; i < count; i++) \
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buf0[i] = buf1[i] = rnd() & mask
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#define randomize_overflow_check(buf0, buf1, mask, count) \
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for (size_t i = 0; i < count; i++) \
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buf0[i] = buf1[i] = (rnd() & 1) != 0 ? mask : 0;
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#define BODY(type, depth) \
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do { \
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type prev0[9*WIDTH], prev1[9*WIDTH]; \
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type next0[9*WIDTH], next1[9*WIDTH]; \
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type cur0[9*WIDTH], cur1[9*WIDTH]; \
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type dst0[WIDTH], dst1[WIDTH]; \
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const int stride = WIDTH; \
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const int mask = (1<<depth)-1; \
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\
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declare_func(void, void *dst, void *prev, void *cur, void *next, \
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int w, int prefs, int mrefs, int prefs2, int mrefs2, \
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int prefs3, int mrefs3, int prefs4, int mrefs4, \
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int parity, int clip_max); \
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\
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randomize_buffers(prev0, prev1, mask, 9*WIDTH); \
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randomize_buffers(next0, next1, mask, 9*WIDTH); \
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randomize_buffers( cur0, cur1, mask, 9*WIDTH); \
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\
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call_ref(dst0, prev0 + 4*WIDTH, cur0 + 4*WIDTH, next0 + 4*WIDTH, \
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WIDTH, stride, -stride, 2*stride, -2*stride, \
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3*stride, -3*stride, 4*stride, -4*stride, \
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0, mask); \
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call_new(dst1, prev1 + 4*WIDTH, cur1 + 4*WIDTH, next1 + 4*WIDTH, \
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WIDTH, stride, -stride, 2*stride, -2*stride, \
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3*stride, -3*stride, 4*stride, -4*stride, \
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0, mask); \
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\
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if (memcmp(dst0, dst1, sizeof dst0) \
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|| memcmp(prev0, prev1, sizeof prev0) \
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|| memcmp(next0, next1, sizeof next0) \
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|| memcmp( cur0, cur1, sizeof cur0)) \
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fail(); \
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bench_new(dst1, prev1 + 4*WIDTH, cur1 + 4*WIDTH, next1 + 4*WIDTH, \
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WIDTH, stride, -stride, 2*stride, -2*stride, \
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3*stride, -3*stride, 4*stride, -4*stride, \
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0, mask); \
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} while (0)
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void checkasm_check_vf_bwdif(void)
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{
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BWDIFDSPContext ctx_8, ctx_10;
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ff_bwdif_init_filter_line(&ctx_8, 8);
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ff_bwdif_init_filter_line(&ctx_10, 10);
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if (check_func(ctx_8.filter_line, "bwdif8")) {
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BODY(uint8_t, 8);
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report("bwdif8");
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}
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if (check_func(ctx_10.filter_line, "bwdif10")) {
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BODY(uint16_t, 10);
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report("bwdif10");
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}
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if (!ctx_8.filter_line3)
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ctx_8.filter_line3 = ff_bwdif_filter_line3_c;
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{
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LOCAL_ALIGNED_16(uint8_t, prev0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, prev1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, next0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, next1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, cur0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, cur1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, dst0, [WIDTH*3]);
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LOCAL_ALIGNED_16(uint8_t, dst1, [WIDTH*3]);
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const int stride = WIDTH;
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const int mask = (1<<8)-1;
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int parity;
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for (parity = 0; parity != 2; ++parity) {
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if (check_func(ctx_8.filter_line3, "bwdif8.line3.rnd.p%d", parity)) {
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declare_func(void, void * dst1, int d_stride,
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const void * prev1, const void * cur1, const void * next1, int prefs,
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int w, int parity, int clip_max);
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randomize_buffers(prev0, prev1, mask, 11*WIDTH);
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randomize_buffers(next0, next1, mask, 11*WIDTH);
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randomize_buffers( cur0, cur1, mask, 11*WIDTH);
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call_ref(dst0, stride,
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prev0 + stride * 4, cur0 + stride * 4, next0 + stride * 4, stride,
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WIDTH, parity, mask);
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call_new(dst1, stride,
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prev1 + stride * 4, cur1 + stride * 4, next1 + stride * 4, stride,
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WIDTH, parity, mask);
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if (memcmp(dst0, dst1, WIDTH*3)
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|| memcmp(prev0, prev1, WIDTH*11)
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|| memcmp(next0, next1, WIDTH*11)
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|| memcmp( cur0, cur1, WIDTH*11))
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fail();
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bench_new(dst1, stride,
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prev1 + stride * 4, cur1 + stride * 4, next1 + stride * 4, stride,
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WIDTH, parity, mask);
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}
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}
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// Use just 0s and ~0s to try to provoke bad cropping or overflow
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// Parity makes no difference to this test so just test 0
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if (check_func(ctx_8.filter_line3, "bwdif8.line3.overflow")) {
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declare_func(void, void * dst1, int d_stride,
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const void * prev1, const void * cur1, const void * next1, int prefs,
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int w, int parity, int clip_max);
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randomize_overflow_check(prev0, prev1, mask, 11*WIDTH);
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randomize_overflow_check(next0, next1, mask, 11*WIDTH);
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randomize_overflow_check( cur0, cur1, mask, 11*WIDTH);
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call_ref(dst0, stride,
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prev0 + stride * 4, cur0 + stride * 4, next0 + stride * 4, stride,
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WIDTH, 0, mask);
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call_new(dst1, stride,
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prev1 + stride * 4, cur1 + stride * 4, next1 + stride * 4, stride,
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WIDTH, 0, mask);
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if (memcmp(dst0, dst1, WIDTH*3)
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|| memcmp(prev0, prev1, WIDTH*11)
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|| memcmp(next0, next1, WIDTH*11)
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|| memcmp( cur0, cur1, WIDTH*11))
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fail();
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// No point to benching
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}
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report("bwdif8.line3");
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}
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{
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LOCAL_ALIGNED_16(uint8_t, prev0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, prev1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, next0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, next1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, cur0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, cur1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, dst0, [WIDTH*3]);
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LOCAL_ALIGNED_16(uint8_t, dst1, [WIDTH*3]);
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const int stride = WIDTH;
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const int mask = (1<<8)-1;
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int spat;
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int parity;
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for (spat = 0; spat != 2; ++spat) {
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for (parity = 0; parity != 2; ++parity) {
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if (check_func(ctx_8.filter_edge, "bwdif8.edge.s%d.p%d", spat, parity)) {
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declare_func(void, void *dst1, void *prev1, void *cur1, void *next1,
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int w, int prefs, int mrefs, int prefs2, int mrefs2,
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int parity, int clip_max, int spat);
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randomize_buffers(prev0, prev1, mask, 11*WIDTH);
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randomize_buffers(next0, next1, mask, 11*WIDTH);
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randomize_buffers( cur0, cur1, mask, 11*WIDTH);
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memset(dst0, 0xba, WIDTH * 3);
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memset(dst1, 0xba, WIDTH * 3);
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call_ref(dst0 + stride,
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prev0 + stride * 4, cur0 + stride * 4, next0 + stride * 4, WIDTH,
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stride, -stride, stride * 2, -stride * 2,
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parity, mask, spat);
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call_new(dst1 + stride,
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prev1 + stride * 4, cur1 + stride * 4, next1 + stride * 4, WIDTH,
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stride, -stride, stride * 2, -stride * 2,
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parity, mask, spat);
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if (memcmp(dst0, dst1, WIDTH*3)
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|| memcmp(prev0, prev1, WIDTH*11)
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|| memcmp(next0, next1, WIDTH*11)
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|| memcmp( cur0, cur1, WIDTH*11))
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fail();
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bench_new(dst1 + stride,
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prev1 + stride * 4, cur1 + stride * 4, next1 + stride * 4, WIDTH,
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stride, -stride, stride * 2, -stride * 2,
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parity, mask, spat);
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}
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}
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}
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report("bwdif8.edge");
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}
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if (check_func(ctx_8.filter_intra, "bwdif8.intra")) {
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LOCAL_ALIGNED_16(uint8_t, cur0, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, cur1, [11*WIDTH]);
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LOCAL_ALIGNED_16(uint8_t, dst0, [WIDTH*3]);
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LOCAL_ALIGNED_16(uint8_t, dst1, [WIDTH*3]);
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const int stride = WIDTH;
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const int mask = (1<<8)-1;
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declare_func(void, void *dst1, void *cur1, int w, int prefs, int mrefs,
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int prefs3, int mrefs3, int parity, int clip_max);
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randomize_buffers( cur0, cur1, mask, 11*WIDTH);
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memset(dst0, 0xba, WIDTH * 3);
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memset(dst1, 0xba, WIDTH * 3);
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call_ref(dst0 + stride,
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cur0 + stride * 4, WIDTH,
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stride, -stride, stride * 3, -stride * 3,
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0, mask);
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call_new(dst1 + stride,
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cur0 + stride * 4, WIDTH,
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stride, -stride, stride * 3, -stride * 3,
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0, mask);
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if (memcmp(dst0, dst1, WIDTH*3)
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|| memcmp( cur0, cur1, WIDTH*11))
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fail();
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bench_new(dst1 + stride,
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cur0 + stride * 4, WIDTH,
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stride, -stride, stride * 3, -stride * 3,
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0, mask);
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report("bwdif8.intra");
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}
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}
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