mirror of
https://git.ffmpeg.org/ffmpeg.git
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bbe95f7353
From x86inc: > On AMD cpus <=K10, an ordinary ret is slow if it immediately follows either > a branch or a branch target. So switch to a 2-byte form of ret in that case. > We can automatically detect "follows a branch", but not a branch target. > (SSSE3 is a sufficient condition to know that your cpu doesn't have this problem.) x86inc can automatically determine whether to use REP_RET rather than REP in most of these cases, so impact is minimal. Additionally, a few REP_RETs were used unnecessary, despite the return being nowhere near a branch. The only CPUs affected were AMD K10s, made between 2007 and 2011, 16 years ago and 12 years ago, respectively. In the future, everyone involved with x86inc should consider dropping REP_RETs altogether.
437 lines
13 KiB
NASM
437 lines
13 KiB
NASM
;******************************************************************************
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;* Core video DSP functions
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;* Copyright (c) 2012 Ronald S. Bultje <rsbultje@gmail.com>
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;*
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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
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;* modify it under the terms of the GNU Lesser General Public
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;* License as published by the Free Software Foundation; either
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;* version 2.1 of the License, or (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 GNU
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;* Lesser General Public License for more details.
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;*
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;* You should have received a copy of the GNU Lesser General Public
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;* License along with FFmpeg; if not, write to the Free Software
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;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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;******************************************************************************
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%include "libavutil/x86/x86util.asm"
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SECTION .text
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; slow vertical extension loop function. Works with variable-width, and
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; does per-line reading/writing of source data
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%macro V_COPY_ROW 2 ; type (top/body/bottom), h
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.%1_y_loop: ; do {
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mov wq, r7mp ; initialize w (r7mp = wmp)
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.%1_x_loop: ; do {
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movu m0, [srcq+wq] ; m0 = read($mmsize)
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movu [dstq+wq], m0 ; write(m0, $mmsize)
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add wq, mmsize ; w -= $mmsize
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cmp wq, -mmsize ; } while (w > $mmsize);
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jl .%1_x_loop
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movu m0, [srcq-mmsize] ; m0 = read($mmsize)
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movu [dstq-mmsize], m0 ; write(m0, $mmsize)
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%ifidn %1, body ; if ($type == body) {
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add srcq, src_strideq ; src += src_stride
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%endif ; }
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add dstq, dst_strideq ; dst += dst_stride
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dec %2 ; } while (--$h);
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jnz .%1_y_loop
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%endmacro
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; .----. <- zero
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; | | <- top is copied from first line in body of source
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; |----| <- start_y
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; | | <- body is copied verbatim (line-by-line) from source
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; |----| <- end_y
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; | | <- bottom is copied from last line in body of source
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; '----' <- bh
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INIT_XMM sse
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%if ARCH_X86_64
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cglobal emu_edge_vvar, 7, 8, 1, dst, dst_stride, src, src_stride, \
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start_y, end_y, bh, w
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%else ; x86-32
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cglobal emu_edge_vvar, 1, 6, 1, dst, src, start_y, end_y, bh, w
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%define src_strideq r3mp
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%define dst_strideq r1mp
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mov srcq, r2mp
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mov start_yq, r4mp
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mov end_yq, r5mp
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mov bhq, r6mp
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%endif
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sub bhq, end_yq ; bh -= end_q
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sub end_yq, start_yq ; end_q -= start_q
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add srcq, r7mp ; (r7mp = wmp)
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add dstq, r7mp ; (r7mp = wmp)
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neg r7mp ; (r7mp = wmp)
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test start_yq, start_yq ; if (start_q) {
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jz .body
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V_COPY_ROW top, start_yq ; v_copy_row(top, start_yq)
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.body: ; }
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V_COPY_ROW body, end_yq ; v_copy_row(body, end_yq)
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test bhq, bhq ; if (bh) {
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jz .end
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sub srcq, src_strideq ; src -= src_stride
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V_COPY_ROW bottom, bhq ; v_copy_row(bottom, bh)
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.end: ; }
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RET
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%macro hvar_fn 0
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cglobal emu_edge_hvar, 5, 6, 1, dst, dst_stride, start_x, n_words, h, w
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lea dstq, [dstq+n_wordsq*2]
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neg n_wordsq
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lea start_xq, [start_xq+n_wordsq*2]
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.y_loop: ; do {
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%if cpuflag(avx2)
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vpbroadcastb m0, [dstq+start_xq]
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mov wq, n_wordsq ; initialize w
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%else
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movzx wd, byte [dstq+start_xq] ; w = read(1)
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imul wd, 0x01010101 ; w *= 0x01010101
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movd m0, wd
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mov wq, n_wordsq ; initialize w
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pshufd m0, m0, q0000 ; splat
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%endif ; avx2
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.x_loop: ; do {
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movu [dstq+wq*2], m0 ; write($reg, $mmsize)
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add wq, mmsize/2 ; w -= $mmsize/2
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cmp wq, -(mmsize/2) ; } while (w > $mmsize/2)
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jl .x_loop
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movu [dstq-mmsize], m0 ; write($reg, $mmsize)
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add dstq, dst_strideq ; dst += dst_stride
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dec hq ; } while (h--)
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jnz .y_loop
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RET
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%endmacro
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INIT_XMM sse2
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hvar_fn
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%if HAVE_AVX2_EXTERNAL
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INIT_XMM avx2
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hvar_fn
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%endif
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; macro to read/write a horizontal number of pixels (%2) to/from registers
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; on sse, - fills xmm0-15 for consecutive sets of 16 pixels
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; - if (%2 & 8) fills 8 bytes into xmm$next
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; - if (%2 & 4) fills 4 bytes into xmm$next
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; - if (%2 & 3) fills 1, 2 or 4 bytes in eax
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; on mmx, - fills mm0-7 for consecutive sets of 8 pixels
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; - if (%2 & 4) fills 4 bytes into mm$next
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; - if (%2 & 3) fills 1, 2 or 4 bytes in eax
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; writing data out is in the same way
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%macro READ_NUM_BYTES 2
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%assign %%off 0 ; offset in source buffer
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%assign %%mmx_idx 0 ; mmx register index
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%assign %%xmm_idx 0 ; xmm register index
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%rep %2/mmsize
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%if mmsize == 16
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movu xmm %+ %%xmm_idx, [srcq+%%off]
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%assign %%xmm_idx %%xmm_idx+1
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%else ; mmx
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movu mm %+ %%mmx_idx, [srcq+%%off]
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%assign %%mmx_idx %%mmx_idx+1
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%endif
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%assign %%off %%off+mmsize
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%endrep ; %2/mmsize
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%if mmsize == 16
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%if (%2-%%off) >= 8
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%if %2 > 16 && (%2-%%off) > 8
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movu xmm %+ %%xmm_idx, [srcq+%2-16]
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%assign %%xmm_idx %%xmm_idx+1
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%assign %%off %2
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%else
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movq mm %+ %%mmx_idx, [srcq+%%off]
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%assign %%mmx_idx %%mmx_idx+1
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%assign %%off %%off+8
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%endif
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%endif ; (%2-%%off) >= 8
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%endif
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%if (%2-%%off) >= 4
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%if %2 > 8 && (%2-%%off) > 4
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movq mm %+ %%mmx_idx, [srcq+%2-8]
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%assign %%off %2
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%else
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movd mm %+ %%mmx_idx, [srcq+%%off]
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%assign %%off %%off+4
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%endif
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%assign %%mmx_idx %%mmx_idx+1
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%endif ; (%2-%%off) >= 4
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%if (%2-%%off) >= 1
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%if %2 >= 4
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movd mm %+ %%mmx_idx, [srcq+%2-4]
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%elif (%2-%%off) == 1
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mov valb, [srcq+%2-1]
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%elif (%2-%%off) == 2
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mov valw, [srcq+%2-2]
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%else
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mov valb, [srcq+%2-1]
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ror vald, 16
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mov valw, [srcq+%2-3]
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%endif
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%endif ; (%2-%%off) >= 1
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%endmacro ; READ_NUM_BYTES
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%macro WRITE_NUM_BYTES 2
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%assign %%off 0 ; offset in destination buffer
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%assign %%mmx_idx 0 ; mmx register index
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%assign %%xmm_idx 0 ; xmm register index
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%rep %2/mmsize
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%if mmsize == 16
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movu [dstq+%%off], xmm %+ %%xmm_idx
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%assign %%xmm_idx %%xmm_idx+1
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%else ; mmx
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movu [dstq+%%off], mm %+ %%mmx_idx
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%assign %%mmx_idx %%mmx_idx+1
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%endif
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%assign %%off %%off+mmsize
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%endrep ; %2/mmsize
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%if mmsize == 16
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%if (%2-%%off) >= 8
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%if %2 > 16 && (%2-%%off) > 8
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movu [dstq+%2-16], xmm %+ %%xmm_idx
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%assign %%xmm_idx %%xmm_idx+1
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%assign %%off %2
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%else
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movq [dstq+%%off], mm %+ %%mmx_idx
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%assign %%mmx_idx %%mmx_idx+1
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%assign %%off %%off+8
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%endif
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%endif ; (%2-%%off) >= 8
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%endif
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%if (%2-%%off) >= 4
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%if %2 > 8 && (%2-%%off) > 4
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movq [dstq+%2-8], mm %+ %%mmx_idx
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%assign %%off %2
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%else
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movd [dstq+%%off], mm %+ %%mmx_idx
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%assign %%off %%off+4
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%endif
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%assign %%mmx_idx %%mmx_idx+1
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%endif ; (%2-%%off) >= 4
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%if (%2-%%off) >= 1
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%if %2 >= 4
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movd [dstq+%2-4], mm %+ %%mmx_idx
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%elif (%2-%%off) == 1
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mov [dstq+%2-1], valb
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%elif (%2-%%off) == 2
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mov [dstq+%2-2], valw
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%else
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mov [dstq+%2-3], valw
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ror vald, 16
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mov [dstq+%2-1], valb
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%ifnidn %1, body
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ror vald, 16
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%endif
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%endif
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%endif ; (%2-%%off) >= 1
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%endmacro ; WRITE_NUM_BYTES
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; vertical top/bottom extend and body copy fast loops
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; these are function pointers to set-width line copy functions, i.e.
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; they read a fixed number of pixels into set registers, and write
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; those out into the destination buffer
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%macro VERTICAL_EXTEND 2
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%assign %%n %1
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%rep 1+%2-%1
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%if %%n <= 3
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%if ARCH_X86_64
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cglobal emu_edge_vfix %+ %%n, 6, 8, 0, dst, dst_stride, src, src_stride, \
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start_y, end_y, val, bh
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mov bhq, r6mp ; r6mp = bhmp
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%else ; x86-32
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cglobal emu_edge_vfix %+ %%n, 0, 6, 0, val, dst, src, start_y, end_y, bh
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mov dstq, r0mp
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mov srcq, r2mp
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mov start_yq, r4mp
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mov end_yq, r5mp
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mov bhq, r6mp
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%define dst_strideq r1mp
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%define src_strideq r3mp
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%endif ; x86-64/32
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%else
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%if ARCH_X86_64
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cglobal emu_edge_vfix %+ %%n, 7, 7, 1, dst, dst_stride, src, src_stride, \
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start_y, end_y, bh
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%else ; x86-32
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cglobal emu_edge_vfix %+ %%n, 1, 5, 1, dst, src, start_y, end_y, bh
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mov srcq, r2mp
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mov start_yq, r4mp
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mov end_yq, r5mp
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mov bhq, r6mp
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%define dst_strideq r1mp
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%define src_strideq r3mp
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%endif ; x86-64/32
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%endif
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; FIXME move this to c wrapper?
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sub bhq, end_yq ; bh -= end_y
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sub end_yq, start_yq ; end_y -= start_y
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; extend pixels above body
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test start_yq, start_yq ; if (start_y) {
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jz .body_loop
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READ_NUM_BYTES top, %%n ; $variable_regs = read($n)
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.top_loop: ; do {
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WRITE_NUM_BYTES top, %%n ; write($variable_regs, $n)
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add dstq, dst_strideq ; dst += linesize
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dec start_yq ; } while (--start_y)
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jnz .top_loop ; }
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; copy body pixels
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.body_loop: ; do {
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READ_NUM_BYTES body, %%n ; $variable_regs = read($n)
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WRITE_NUM_BYTES body, %%n ; write($variable_regs, $n)
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add dstq, dst_strideq ; dst += dst_stride
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add srcq, src_strideq ; src += src_stride
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dec end_yq ; } while (--end_y)
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jnz .body_loop
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; copy bottom pixels
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test bhq, bhq ; if (block_h) {
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jz .end
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sub srcq, src_strideq ; src -= linesize
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READ_NUM_BYTES bottom, %%n ; $variable_regs = read($n)
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.bottom_loop: ; do {
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WRITE_NUM_BYTES bottom, %%n ; write($variable_regs, $n)
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add dstq, dst_strideq ; dst += linesize
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dec bhq ; } while (--bh)
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jnz .bottom_loop ; }
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.end:
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RET
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%assign %%n %%n+1
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%endrep ; 1+%2-%1
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%endmacro ; VERTICAL_EXTEND
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INIT_MMX mmx
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VERTICAL_EXTEND 1, 15
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INIT_XMM sse
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VERTICAL_EXTEND 16, 22
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; left/right (horizontal) fast extend functions
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; these are essentially identical to the vertical extend ones above,
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; just left/right separated because number of pixels to extend is
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; obviously not the same on both sides.
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%macro READ_V_PIXEL 2
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%if cpuflag(avx2)
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vpbroadcastb m0, %2
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%else
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movzx vald, byte %2
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imul vald, 0x01010101
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%if %1 >= 8
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movd m0, vald
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%if mmsize == 16
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pshufd m0, m0, q0000
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%else
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punpckldq m0, m0
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%endif ; mmsize == 16
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%endif ; %1 > 16
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%endif ; avx2
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%endmacro ; READ_V_PIXEL
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%macro WRITE_V_PIXEL 2
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%assign %%off 0
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%if %1 >= 8
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%rep %1/mmsize
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movu [%2+%%off], m0
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%assign %%off %%off+mmsize
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%endrep ; %1/mmsize
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%if mmsize == 16
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%if %1-%%off >= 8
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%if %1 > 16 && %1-%%off > 8
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movu [%2+%1-16], m0
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%assign %%off %1
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%else
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movq [%2+%%off], m0
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%assign %%off %%off+8
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%endif
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%endif ; %1-%%off >= 8
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%endif ; mmsize == 16
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%if %1-%%off >= 4
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%if %1 > 8 && %1-%%off > 4
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movq [%2+%1-8], m0
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%assign %%off %1
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%else
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movd [%2+%%off], m0
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%assign %%off %%off+4
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%endif
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%endif ; %1-%%off >= 4
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%else ; %1 < 8
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%rep %1/4
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mov [%2+%%off], vald
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%assign %%off %%off+4
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%endrep ; %1/4
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%endif ; %1 >=/< 8
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%if %1-%%off == 2
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%if cpuflag(avx2)
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movd [%2+%%off-2], m0
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%else
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mov [%2+%%off], valw
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%endif ; avx2
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%endif ; (%1-%%off)/2
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%endmacro ; WRITE_V_PIXEL
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%macro H_EXTEND 2
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%assign %%n %1
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%rep 1+(%2-%1)/2
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%if cpuflag(avx2)
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cglobal emu_edge_hfix %+ %%n, 4, 4, 1, dst, dst_stride, start_x, bh
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%else
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cglobal emu_edge_hfix %+ %%n, 4, 5, 1, dst, dst_stride, start_x, bh, val
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%endif
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.loop_y: ; do {
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READ_V_PIXEL %%n, [dstq+start_xq] ; $variable_regs = read($n)
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WRITE_V_PIXEL %%n, dstq ; write($variable_regs, $n)
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add dstq, dst_strideq ; dst += dst_stride
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dec bhq ; } while (--bh)
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jnz .loop_y
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RET
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%assign %%n %%n+2
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%endrep ; 1+(%2-%1)/2
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%endmacro ; H_EXTEND
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INIT_MMX mmx
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H_EXTEND 2, 14
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INIT_XMM sse2
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H_EXTEND 16, 22
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%if HAVE_AVX2_EXTERNAL
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INIT_XMM avx2
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H_EXTEND 8, 22
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%endif
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INIT_MMX mmxext
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cglobal prefetch, 3, 3, 0, buf, stride, h
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.loop:
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prefetcht0 [bufq]
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add bufq, strideq
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dec hd
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jg .loop
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RET
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