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https://github.com/FFmpeg/FFmpeg.git
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b089ca871a
Recent register allocation changes (x86inc.asm update) changed the register order and thus opcodes for the inner loops. One of them became >128bytes, which confuses other parts of this function where it jumps to fixed-offset positions to extend the edge by fixed amounts. A simple register change fixes this.
1301 lines
33 KiB
NASM
1301 lines
33 KiB
NASM
;******************************************************************************
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;* MMX optimized DSP utils
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;* Copyright (c) 2008 Loren Merritt
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;*
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;* This file is part of Libav.
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;*
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;* Libav 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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;* Libav 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 Libav; 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 "x86inc.asm"
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%include "x86util.asm"
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SECTION_RODATA
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pb_f: times 16 db 15
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pb_zzzzzzzz77777777: times 8 db -1
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pb_7: times 8 db 7
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pb_zzzz3333zzzzbbbb: db -1,-1,-1,-1,3,3,3,3,-1,-1,-1,-1,11,11,11,11
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pb_zz11zz55zz99zzdd: db -1,-1,1,1,-1,-1,5,5,-1,-1,9,9,-1,-1,13,13
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pb_revwords: db 14, 15, 12, 13, 10, 11, 8, 9, 6, 7, 4, 5, 2, 3, 0, 1
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pd_16384: times 4 dd 16384
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pb_bswap32: db 3, 2, 1, 0, 7, 6, 5, 4, 11, 10, 9, 8, 15, 14, 13, 12
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SECTION_TEXT
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%macro SCALARPRODUCT 1
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; int scalarproduct_int16(int16_t *v1, int16_t *v2, int order)
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cglobal scalarproduct_int16_%1, 3,3,3, v1, v2, order
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shl orderq, 1
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add v1q, orderq
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add v2q, orderq
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neg orderq
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pxor m2, m2
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.loop:
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movu m0, [v1q + orderq]
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movu m1, [v1q + orderq + mmsize]
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pmaddwd m0, [v2q + orderq]
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pmaddwd m1, [v2q + orderq + mmsize]
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paddd m2, m0
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paddd m2, m1
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add orderq, mmsize*2
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jl .loop
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%if mmsize == 16
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movhlps m0, m2
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paddd m2, m0
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pshuflw m0, m2, 0x4e
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%else
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pshufw m0, m2, 0x4e
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%endif
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paddd m2, m0
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movd eax, m2
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RET
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; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul)
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cglobal scalarproduct_and_madd_int16_%1, 4,4,8, v1, v2, v3, order, mul
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shl orderq, 1
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movd m7, mulm
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%if mmsize == 16
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pshuflw m7, m7, 0
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punpcklqdq m7, m7
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%else
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pshufw m7, m7, 0
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%endif
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pxor m6, m6
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add v1q, orderq
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add v2q, orderq
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add v3q, orderq
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neg orderq
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.loop:
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movu m0, [v2q + orderq]
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movu m1, [v2q + orderq + mmsize]
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mova m4, [v1q + orderq]
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mova m5, [v1q + orderq + mmsize]
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movu m2, [v3q + orderq]
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movu m3, [v3q + orderq + mmsize]
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pmaddwd m0, m4
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pmaddwd m1, m5
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pmullw m2, m7
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pmullw m3, m7
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paddd m6, m0
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paddd m6, m1
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paddw m2, m4
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paddw m3, m5
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mova [v1q + orderq], m2
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mova [v1q + orderq + mmsize], m3
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add orderq, mmsize*2
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jl .loop
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%if mmsize == 16
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movhlps m0, m6
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paddd m6, m0
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pshuflw m0, m6, 0x4e
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%else
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pshufw m0, m6, 0x4e
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%endif
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paddd m6, m0
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movd eax, m6
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RET
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%endmacro
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INIT_MMX
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SCALARPRODUCT mmx2
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INIT_XMM
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SCALARPRODUCT sse2
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%macro SCALARPRODUCT_LOOP 1
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align 16
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.loop%1:
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sub orderq, mmsize*2
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%if %1
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mova m1, m4
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mova m4, [v2q + orderq]
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mova m0, [v2q + orderq + mmsize]
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palignr m1, m0, %1
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palignr m0, m4, %1
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mova m3, m5
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mova m5, [v3q + orderq]
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mova m2, [v3q + orderq + mmsize]
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palignr m3, m2, %1
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palignr m2, m5, %1
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%else
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mova m0, [v2q + orderq]
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mova m1, [v2q + orderq + mmsize]
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mova m2, [v3q + orderq]
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mova m3, [v3q + orderq + mmsize]
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%endif
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%define t0 [v1q + orderq]
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%define t1 [v1q + orderq + mmsize]
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%if ARCH_X86_64
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mova m8, t0
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mova m9, t1
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%define t0 m8
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%define t1 m9
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%endif
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pmaddwd m0, t0
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pmaddwd m1, t1
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pmullw m2, m7
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pmullw m3, m7
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paddw m2, t0
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paddw m3, t1
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paddd m6, m0
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paddd m6, m1
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mova [v1q + orderq], m2
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mova [v1q + orderq + mmsize], m3
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jg .loop%1
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%if %1
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jmp .end
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%endif
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%endmacro
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; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul)
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cglobal scalarproduct_and_madd_int16_ssse3, 4,5,10, v1, v2, v3, order, mul
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shl orderq, 1
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movd m7, mulm
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pshuflw m7, m7, 0
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punpcklqdq m7, m7
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pxor m6, m6
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mov r4d, v2d
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and r4d, 15
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and v2q, ~15
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and v3q, ~15
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mova m4, [v2q + orderq]
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mova m5, [v3q + orderq]
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; linear is faster than branch tree or jump table, because the branches taken are cyclic (i.e. predictable)
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cmp r4d, 0
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je .loop0
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cmp r4d, 2
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je .loop2
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cmp r4d, 4
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je .loop4
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cmp r4d, 6
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je .loop6
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cmp r4d, 8
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je .loop8
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cmp r4d, 10
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je .loop10
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cmp r4d, 12
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je .loop12
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SCALARPRODUCT_LOOP 14
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SCALARPRODUCT_LOOP 12
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SCALARPRODUCT_LOOP 10
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SCALARPRODUCT_LOOP 8
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SCALARPRODUCT_LOOP 6
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SCALARPRODUCT_LOOP 4
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SCALARPRODUCT_LOOP 2
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SCALARPRODUCT_LOOP 0
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.end:
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movhlps m0, m6
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paddd m6, m0
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pshuflw m0, m6, 0x4e
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paddd m6, m0
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movd eax, m6
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RET
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;-----------------------------------------------------------------------------
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; void ff_apply_window_int16(int16_t *output, const int16_t *input,
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; const int16_t *window, unsigned int len)
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;-----------------------------------------------------------------------------
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%macro REVERSE_WORDS_MMXEXT 1-2
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pshufw %1, %1, 0x1B
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%endmacro
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%macro REVERSE_WORDS_SSE2 1-2
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pshuflw %1, %1, 0x1B
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pshufhw %1, %1, 0x1B
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pshufd %1, %1, 0x4E
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%endmacro
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%macro REVERSE_WORDS_SSSE3 2
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pshufb %1, %2
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%endmacro
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; dst = (dst * src) >> 15
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; pmulhw cuts off the bottom bit, so we have to lshift by 1 and add it back
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; in from the pmullw result.
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%macro MUL16FIXED_MMXEXT 3 ; dst, src, temp
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mova %3, %1
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pmulhw %1, %2
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pmullw %3, %2
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psrlw %3, 15
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psllw %1, 1
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por %1, %3
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%endmacro
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; dst = ((dst * src) + (1<<14)) >> 15
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%macro MUL16FIXED_SSSE3 3 ; dst, src, unused
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pmulhrsw %1, %2
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%endmacro
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%macro APPLY_WINDOW_INT16 3 ; %1=instruction set, %2=mmxext/sse2 bit exact version, %3=has_ssse3
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cglobal apply_window_int16_%1, 4,5,6, output, input, window, offset, offset2
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lea offset2q, [offsetq-mmsize]
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%if %2
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mova m5, [pd_16384]
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%elifidn %1, ssse3
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mova m5, [pb_revwords]
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ALIGN 16
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%endif
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.loop:
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%if %2
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; This version expands 16-bit to 32-bit, multiplies by the window,
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; adds 16384 for rounding, right shifts 15, then repacks back to words to
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; save to the output. The window is reversed for the second half.
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mova m3, [windowq+offset2q]
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mova m4, [ inputq+offset2q]
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pxor m0, m0
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punpcklwd m0, m3
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punpcklwd m1, m4
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pmaddwd m0, m1
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paddd m0, m5
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psrad m0, 15
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pxor m2, m2
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punpckhwd m2, m3
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punpckhwd m1, m4
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pmaddwd m2, m1
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paddd m2, m5
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psrad m2, 15
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packssdw m0, m2
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mova [outputq+offset2q], m0
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REVERSE_WORDS m3
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mova m4, [ inputq+offsetq]
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pxor m0, m0
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punpcklwd m0, m3
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punpcklwd m1, m4
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pmaddwd m0, m1
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paddd m0, m5
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psrad m0, 15
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pxor m2, m2
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punpckhwd m2, m3
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punpckhwd m1, m4
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pmaddwd m2, m1
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paddd m2, m5
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psrad m2, 15
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packssdw m0, m2
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mova [outputq+offsetq], m0
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%elif %3
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; This version does the 16x16->16 multiplication in-place without expanding
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; to 32-bit. The ssse3 version is bit-identical.
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mova m0, [windowq+offset2q]
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mova m1, [ inputq+offset2q]
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pmulhrsw m1, m0
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REVERSE_WORDS m0, m5
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pmulhrsw m0, [ inputq+offsetq ]
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mova [outputq+offset2q], m1
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mova [outputq+offsetq ], m0
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%else
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; This version does the 16x16->16 multiplication in-place without expanding
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; to 32-bit. The mmxext and sse2 versions do not use rounding, and
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; therefore are not bit-identical to the C version.
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mova m0, [windowq+offset2q]
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mova m1, [ inputq+offset2q]
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mova m2, [ inputq+offsetq ]
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MUL16FIXED m1, m0, m3
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REVERSE_WORDS m0
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MUL16FIXED m2, m0, m3
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mova [outputq+offset2q], m1
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mova [outputq+offsetq ], m2
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%endif
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add offsetd, mmsize
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sub offset2d, mmsize
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jae .loop
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REP_RET
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%endmacro
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INIT_MMX
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%define REVERSE_WORDS REVERSE_WORDS_MMXEXT
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%define MUL16FIXED MUL16FIXED_MMXEXT
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APPLY_WINDOW_INT16 mmxext, 0, 0
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APPLY_WINDOW_INT16 mmxext_ba, 1, 0
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INIT_XMM
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%define REVERSE_WORDS REVERSE_WORDS_SSE2
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APPLY_WINDOW_INT16 sse2, 0, 0
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APPLY_WINDOW_INT16 sse2_ba, 1, 0
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APPLY_WINDOW_INT16 ssse3_atom, 0, 1
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%define REVERSE_WORDS REVERSE_WORDS_SSSE3
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APPLY_WINDOW_INT16 ssse3, 0, 1
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; void add_hfyu_median_prediction_mmx2(uint8_t *dst, const uint8_t *top, const uint8_t *diff, int w, int *left, int *left_top)
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cglobal add_hfyu_median_prediction_mmx2, 6,6,0, dst, top, diff, w, left, left_top
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movq mm0, [topq]
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movq mm2, mm0
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movd mm4, [left_topq]
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psllq mm2, 8
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movq mm1, mm0
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por mm4, mm2
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movd mm3, [leftq]
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psubb mm0, mm4 ; t-tl
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add dstq, wq
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add topq, wq
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add diffq, wq
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neg wq
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jmp .skip
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.loop:
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movq mm4, [topq+wq]
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movq mm0, mm4
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psllq mm4, 8
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por mm4, mm1
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movq mm1, mm0 ; t
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psubb mm0, mm4 ; t-tl
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.skip:
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movq mm2, [diffq+wq]
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%assign i 0
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%rep 8
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movq mm4, mm0
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paddb mm4, mm3 ; t-tl+l
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movq mm5, mm3
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pmaxub mm3, mm1
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pminub mm5, mm1
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pminub mm3, mm4
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pmaxub mm3, mm5 ; median
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paddb mm3, mm2 ; +residual
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%if i==0
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movq mm7, mm3
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psllq mm7, 56
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%else
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movq mm6, mm3
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psrlq mm7, 8
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psllq mm6, 56
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por mm7, mm6
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%endif
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%if i<7
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psrlq mm0, 8
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psrlq mm1, 8
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psrlq mm2, 8
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%endif
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%assign i i+1
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%endrep
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movq [dstq+wq], mm7
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add wq, 8
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jl .loop
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movzx r2d, byte [dstq-1]
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mov [leftq], r2d
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movzx r2d, byte [topq-1]
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mov [left_topq], r2d
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RET
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%macro ADD_HFYU_LEFT_LOOP 1 ; %1 = is_aligned
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add srcq, wq
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add dstq, wq
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neg wq
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%%.loop:
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mova m1, [srcq+wq]
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mova m2, m1
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psllw m1, 8
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paddb m1, m2
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mova m2, m1
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pshufb m1, m3
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paddb m1, m2
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pshufb m0, m5
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mova m2, m1
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pshufb m1, m4
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paddb m1, m2
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%if mmsize == 16
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mova m2, m1
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pshufb m1, m6
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paddb m1, m2
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%endif
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paddb m0, m1
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%if %1
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mova [dstq+wq], m0
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%else
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movq [dstq+wq], m0
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movhps [dstq+wq+8], m0
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%endif
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add wq, mmsize
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jl %%.loop
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mov eax, mmsize-1
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sub eax, wd
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movd m1, eax
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pshufb m0, m1
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movd eax, m0
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RET
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%endmacro
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; int add_hfyu_left_prediction(uint8_t *dst, const uint8_t *src, int w, int left)
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INIT_MMX
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cglobal add_hfyu_left_prediction_ssse3, 3,3,7, dst, src, w, left
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.skip_prologue:
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mova m5, [pb_7]
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mova m4, [pb_zzzz3333zzzzbbbb]
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mova m3, [pb_zz11zz55zz99zzdd]
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movd m0, leftm
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psllq m0, 56
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ADD_HFYU_LEFT_LOOP 1
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INIT_XMM
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cglobal add_hfyu_left_prediction_sse4, 3,3,7, dst, src, w, left
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mova m5, [pb_f]
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mova m6, [pb_zzzzzzzz77777777]
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mova m4, [pb_zzzz3333zzzzbbbb]
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mova m3, [pb_zz11zz55zz99zzdd]
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movd m0, leftm
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pslldq m0, 15
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test srcq, 15
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jnz add_hfyu_left_prediction_ssse3.skip_prologue
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test dstq, 15
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jnz .unaligned
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ADD_HFYU_LEFT_LOOP 1
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.unaligned:
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ADD_HFYU_LEFT_LOOP 0
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; float scalarproduct_float_sse(const float *v1, const float *v2, int len)
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cglobal scalarproduct_float_sse, 3,3,2, v1, v2, offset
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neg offsetq
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shl offsetq, 2
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sub v1q, offsetq
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sub v2q, offsetq
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xorps xmm0, xmm0
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.loop:
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movaps xmm1, [v1q+offsetq]
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mulps xmm1, [v2q+offsetq]
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addps xmm0, xmm1
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add offsetq, 16
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js .loop
|
|
movhlps xmm1, xmm0
|
|
addps xmm0, xmm1
|
|
movss xmm1, xmm0
|
|
shufps xmm0, xmm0, 1
|
|
addss xmm0, xmm1
|
|
%if ARCH_X86_64 == 0
|
|
movss r0m, xmm0
|
|
fld dword r0m
|
|
%endif
|
|
RET
|
|
|
|
; extern void ff_emu_edge_core(uint8_t *buf, const uint8_t *src, x86_reg linesize,
|
|
; x86_reg start_y, x86_reg end_y, x86_reg block_h,
|
|
; x86_reg start_x, x86_reg end_x, x86_reg block_w);
|
|
;
|
|
; The actual function itself is below. It basically wraps a very simple
|
|
; w = end_x - start_x
|
|
; if (w) {
|
|
; if (w > 22) {
|
|
; jump to the slow loop functions
|
|
; } else {
|
|
; jump to the fast loop functions
|
|
; }
|
|
; }
|
|
;
|
|
; ... and then the same for left/right extend also. See below for loop
|
|
; function implementations. Fast are fixed-width, slow is variable-width
|
|
|
|
%macro EMU_EDGE_FUNC 0
|
|
%if ARCH_X86_64
|
|
%define w_reg r7
|
|
cglobal emu_edge_core, 6, 9, 1
|
|
mov r8, r5 ; save block_h
|
|
%else
|
|
%define w_reg r6
|
|
cglobal emu_edge_core, 2, 7, 0
|
|
mov r4, r4m ; end_y
|
|
mov r5, r5m ; block_h
|
|
%endif
|
|
|
|
; start with vertical extend (top/bottom) and body pixel copy
|
|
mov w_reg, r7m
|
|
sub w_reg, r6m ; w = start_x - end_x
|
|
sub r5, r4
|
|
%if ARCH_X86_64
|
|
sub r4, r3
|
|
%else
|
|
sub r4, dword r3m
|
|
%endif
|
|
cmp w_reg, 22
|
|
jg .slow_v_extend_loop
|
|
%if ARCH_X86_32
|
|
mov r2, r2m ; linesize
|
|
%endif
|
|
sal w_reg, 7 ; w * 128
|
|
%ifdef PIC
|
|
lea rax, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)]
|
|
add w_reg, rax
|
|
%else
|
|
lea w_reg, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)+w_reg]
|
|
%endif
|
|
call w_reg ; fast top extend, body copy and bottom extend
|
|
.v_extend_end:
|
|
|
|
; horizontal extend (left/right)
|
|
mov w_reg, r6m ; start_x
|
|
sub r0, w_reg
|
|
%if ARCH_X86_64
|
|
mov r3, r0 ; backup of buf+block_h*linesize
|
|
mov r5, r8
|
|
%else
|
|
mov r0m, r0 ; backup of buf+block_h*linesize
|
|
mov r5, r5m
|
|
%endif
|
|
test w_reg, w_reg
|
|
jz .right_extend
|
|
cmp w_reg, 22
|
|
jg .slow_left_extend_loop
|
|
mov r1, w_reg
|
|
dec w_reg
|
|
; FIXME we can do a if size == 1 here if that makes any speed difference, test me
|
|
sar w_reg, 1
|
|
sal w_reg, 6
|
|
; r0=buf+block_h*linesize,r7(64)/r6(32)=start_x offset for funcs
|
|
; r6(rax)/r3(ebx)=val,r2=linesize,r1=start_x,r5=block_h
|
|
%ifdef PIC
|
|
lea rax, [.emuedge_extend_left_2]
|
|
add w_reg, rax
|
|
%else
|
|
lea w_reg, [.emuedge_extend_left_2+w_reg]
|
|
%endif
|
|
call w_reg
|
|
|
|
; now r3(64)/r0(32)=buf,r2=linesize,r8/r5=block_h,r6/r3=val, r7/r6=end_x, r1=block_w
|
|
.right_extend:
|
|
%if ARCH_X86_32
|
|
mov r0, r0m
|
|
mov r5, r5m
|
|
%endif
|
|
mov w_reg, r7m ; end_x
|
|
mov r1, r8m ; block_w
|
|
mov r4, r1
|
|
sub r1, w_reg
|
|
jz .h_extend_end ; if (end_x == block_w) goto h_extend_end
|
|
cmp r1, 22
|
|
jg .slow_right_extend_loop
|
|
dec r1
|
|
; FIXME we can do a if size == 1 here if that makes any speed difference, test me
|
|
sar r1, 1
|
|
sal r1, 6
|
|
%ifdef PIC
|
|
lea rax, [.emuedge_extend_right_2]
|
|
add r1, rax
|
|
%else
|
|
lea r1, [.emuedge_extend_right_2+r1]
|
|
%endif
|
|
call r1
|
|
.h_extend_end:
|
|
RET
|
|
|
|
%if ARCH_X86_64
|
|
%define vall al
|
|
%define valh ah
|
|
%define valw ax
|
|
%define valw2 r7w
|
|
%define valw3 r3w
|
|
%if WIN64
|
|
%define valw4 r7w
|
|
%else ; unix64
|
|
%define valw4 r3w
|
|
%endif
|
|
%define vald eax
|
|
%else
|
|
%define vall bl
|
|
%define valh bh
|
|
%define valw bx
|
|
%define valw2 r6w
|
|
%define valw3 valw2
|
|
%define valw4 valw3
|
|
%define vald ebx
|
|
%define stack_offset 0x14
|
|
%endif
|
|
|
|
%endmacro
|
|
|
|
; macro to read/write a horizontal number of pixels (%2) to/from registers
|
|
; on x86-64, - fills xmm0-15 for consecutive sets of 16 pixels
|
|
; - if (%2 & 15 == 8) fills the last 8 bytes into rax
|
|
; - else if (%2 & 8) fills 8 bytes into mm0
|
|
; - if (%2 & 7 == 4) fills the last 4 bytes into rax
|
|
; - else if (%2 & 4) fills 4 bytes into mm0-1
|
|
; - if (%2 & 3 == 3) fills 2 bytes into r7/r3, and 1 into eax
|
|
; (note that we're using r3 for body/bottom because it's a shorter
|
|
; opcode, and then the loop fits in 128 bytes)
|
|
; - else fills remaining bytes into rax
|
|
; on x86-32, - fills mm0-7 for consecutive sets of 8 pixels
|
|
; - if (%2 & 7 == 4) fills 4 bytes into ebx
|
|
; - else if (%2 & 4) fills 4 bytes into mm0-7
|
|
; - if (%2 & 3 == 3) fills 2 bytes into r6, and 1 into ebx
|
|
; - else fills remaining bytes into ebx
|
|
; writing data out is in the same way
|
|
%macro READ_NUM_BYTES 2
|
|
%assign %%src_off 0 ; offset in source buffer
|
|
%assign %%smidx 0 ; mmx register idx
|
|
%assign %%sxidx 0 ; xmm register idx
|
|
|
|
%if cpuflag(sse)
|
|
%rep %2/16
|
|
movups xmm %+ %%sxidx, [r1+%%src_off]
|
|
%assign %%src_off %%src_off+16
|
|
%assign %%sxidx %%sxidx+1
|
|
%endrep ; %2/16
|
|
%endif
|
|
|
|
%if ARCH_X86_64
|
|
%if (%2-%%src_off) == 8
|
|
mov rax, [r1+%%src_off]
|
|
%assign %%src_off %%src_off+8
|
|
%endif ; (%2-%%src_off) == 8
|
|
%endif ; x86-64
|
|
|
|
%rep (%2-%%src_off)/8
|
|
movq mm %+ %%smidx, [r1+%%src_off]
|
|
%assign %%src_off %%src_off+8
|
|
%assign %%smidx %%smidx+1
|
|
%endrep ; (%2-%%dst_off)/8
|
|
|
|
%if (%2-%%src_off) == 4
|
|
mov vald, [r1+%%src_off]
|
|
%elif (%2-%%src_off) & 4
|
|
movd mm %+ %%smidx, [r1+%%src_off]
|
|
%assign %%src_off %%src_off+4
|
|
%endif ; (%2-%%src_off) ==/& 4
|
|
|
|
%if (%2-%%src_off) == 1
|
|
mov vall, [r1+%%src_off]
|
|
%elif (%2-%%src_off) == 2
|
|
mov valw, [r1+%%src_off]
|
|
%elif (%2-%%src_off) == 3
|
|
%ifidn %1, top
|
|
mov valw2, [r1+%%src_off]
|
|
%elifidn %1, body
|
|
mov valw3, [r1+%%src_off]
|
|
%elifidn %1, bottom
|
|
mov valw4, [r1+%%src_off]
|
|
%endif ; %1 ==/!= top
|
|
mov vall, [r1+%%src_off+2]
|
|
%endif ; (%2-%%src_off) == 1/2/3
|
|
%endmacro ; READ_NUM_BYTES
|
|
|
|
%macro WRITE_NUM_BYTES 2
|
|
%assign %%dst_off 0 ; offset in destination buffer
|
|
%assign %%dmidx 0 ; mmx register idx
|
|
%assign %%dxidx 0 ; xmm register idx
|
|
|
|
%if cpuflag(sse)
|
|
%rep %2/16
|
|
movups [r0+%%dst_off], xmm %+ %%dxidx
|
|
%assign %%dst_off %%dst_off+16
|
|
%assign %%dxidx %%dxidx+1
|
|
%endrep ; %2/16
|
|
%endif
|
|
|
|
%if ARCH_X86_64
|
|
%if (%2-%%dst_off) == 8
|
|
mov [r0+%%dst_off], rax
|
|
%assign %%dst_off %%dst_off+8
|
|
%endif ; (%2-%%dst_off) == 8
|
|
%endif ; x86-64
|
|
|
|
%rep (%2-%%dst_off)/8
|
|
movq [r0+%%dst_off], mm %+ %%dmidx
|
|
%assign %%dst_off %%dst_off+8
|
|
%assign %%dmidx %%dmidx+1
|
|
%endrep ; (%2-%%dst_off)/8
|
|
|
|
%if (%2-%%dst_off) == 4
|
|
mov [r0+%%dst_off], vald
|
|
%elif (%2-%%dst_off) & 4
|
|
movd [r0+%%dst_off], mm %+ %%dmidx
|
|
%assign %%dst_off %%dst_off+4
|
|
%endif ; (%2-%%dst_off) ==/& 4
|
|
|
|
%if (%2-%%dst_off) == 1
|
|
mov [r0+%%dst_off], vall
|
|
%elif (%2-%%dst_off) == 2
|
|
mov [r0+%%dst_off], valw
|
|
%elif (%2-%%dst_off) == 3
|
|
%ifidn %1, top
|
|
mov [r0+%%dst_off], valw2
|
|
%elifidn %1, body
|
|
mov [r0+%%dst_off], valw3
|
|
%elifidn %1, bottom
|
|
mov [r0+%%dst_off], valw4
|
|
%endif ; %1 ==/!= top
|
|
mov [r0+%%dst_off+2], vall
|
|
%endif ; (%2-%%dst_off) == 1/2/3
|
|
%endmacro ; WRITE_NUM_BYTES
|
|
|
|
; vertical top/bottom extend and body copy fast loops
|
|
; these are function pointers to set-width line copy functions, i.e.
|
|
; they read a fixed number of pixels into set registers, and write
|
|
; those out into the destination buffer
|
|
; r0=buf,r1=src,r2=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h
|
|
; r6(eax/64)/r3(ebx/32)=val_reg
|
|
%macro VERTICAL_EXTEND 0
|
|
%assign %%n 1
|
|
%rep 22
|
|
ALIGN 128
|
|
.emuedge_v_extend_ %+ %%n:
|
|
; extend pixels above body
|
|
%if ARCH_X86_64
|
|
test r3 , r3 ; if (!start_y)
|
|
jz .emuedge_copy_body_ %+ %%n %+ _loop ; goto body
|
|
%else ; ARCH_X86_32
|
|
cmp dword r3m, 0
|
|
je .emuedge_copy_body_ %+ %%n %+ _loop
|
|
%endif ; ARCH_X86_64/32
|
|
READ_NUM_BYTES top, %%n ; read bytes
|
|
.emuedge_extend_top_ %+ %%n %+ _loop: ; do {
|
|
WRITE_NUM_BYTES top, %%n ; write bytes
|
|
add r0 , r2 ; dst += linesize
|
|
%if ARCH_X86_64
|
|
dec r3d
|
|
%else ; ARCH_X86_32
|
|
dec dword r3m
|
|
%endif ; ARCH_X86_64/32
|
|
jnz .emuedge_extend_top_ %+ %%n %+ _loop ; } while (--start_y)
|
|
|
|
; copy body pixels
|
|
.emuedge_copy_body_ %+ %%n %+ _loop: ; do {
|
|
READ_NUM_BYTES body, %%n ; read bytes
|
|
WRITE_NUM_BYTES body, %%n ; write bytes
|
|
add r0 , r2 ; dst += linesize
|
|
add r1 , r2 ; src += linesize
|
|
dec r4d
|
|
jnz .emuedge_copy_body_ %+ %%n %+ _loop ; } while (--end_y)
|
|
|
|
; copy bottom pixels
|
|
test r5 , r5 ; if (!block_h)
|
|
jz .emuedge_v_extend_end_ %+ %%n ; goto end
|
|
sub r1 , r2 ; src -= linesize
|
|
READ_NUM_BYTES bottom, %%n ; read bytes
|
|
.emuedge_extend_bottom_ %+ %%n %+ _loop: ; do {
|
|
WRITE_NUM_BYTES bottom, %%n ; write bytes
|
|
add r0 , r2 ; dst += linesize
|
|
dec r5d
|
|
jnz .emuedge_extend_bottom_ %+ %%n %+ _loop ; } while (--block_h)
|
|
|
|
.emuedge_v_extend_end_ %+ %%n:
|
|
%if ARCH_X86_64
|
|
ret
|
|
%else ; ARCH_X86_32
|
|
rep ret
|
|
%endif ; ARCH_X86_64/32
|
|
%assign %%n %%n+1
|
|
%endrep
|
|
%endmacro VERTICAL_EXTEND
|
|
|
|
; left/right (horizontal) fast extend functions
|
|
; these are essentially identical to the vertical extend ones above,
|
|
; just left/right separated because number of pixels to extend is
|
|
; obviously not the same on both sides.
|
|
; for reading, pixels are placed in eax (x86-64) or ebx (x86-64) in the
|
|
; lowest two bytes of the register (so val*0x0101), and are splatted
|
|
; into each byte of mm0 as well if n_pixels >= 8
|
|
|
|
%macro READ_V_PIXEL 2
|
|
mov vall, %2
|
|
mov valh, vall
|
|
%if %1 >= 8
|
|
movd mm0, vald
|
|
%if cpuflag(mmx2)
|
|
pshufw mm0, mm0, 0
|
|
%else ; mmx
|
|
punpcklwd mm0, mm0
|
|
punpckldq mm0, mm0
|
|
%endif ; sse
|
|
%endif ; %1 >= 8
|
|
%endmacro
|
|
|
|
%macro WRITE_V_PIXEL 2
|
|
%assign %%dst_off 0
|
|
%rep %1/8
|
|
movq [%2+%%dst_off], mm0
|
|
%assign %%dst_off %%dst_off+8
|
|
%endrep
|
|
%if %1 & 4
|
|
%if %1 >= 8
|
|
movd [%2+%%dst_off], mm0
|
|
%else ; %1 < 8
|
|
mov [%2+%%dst_off] , valw
|
|
mov [%2+%%dst_off+2], valw
|
|
%endif ; %1 >=/< 8
|
|
%assign %%dst_off %%dst_off+4
|
|
%endif ; %1 & 4
|
|
%if %1&2
|
|
mov [%2+%%dst_off], valw
|
|
%endif ; %1 & 2
|
|
%endmacro
|
|
|
|
; r0=buf+block_h*linesize, r1=start_x, r2=linesize, r5=block_h, r6/r3=val
|
|
%macro LEFT_EXTEND 0
|
|
%assign %%n 2
|
|
%rep 11
|
|
ALIGN 64
|
|
.emuedge_extend_left_ %+ %%n: ; do {
|
|
sub r0, r2 ; dst -= linesize
|
|
READ_V_PIXEL %%n, [r0+r1] ; read pixels
|
|
WRITE_V_PIXEL %%n, r0 ; write pixels
|
|
dec r5
|
|
jnz .emuedge_extend_left_ %+ %%n ; } while (--block_h)
|
|
%if ARCH_X86_64
|
|
ret
|
|
%else ; ARCH_X86_32
|
|
rep ret
|
|
%endif ; ARCH_X86_64/32
|
|
%assign %%n %%n+2
|
|
%endrep
|
|
%endmacro ; LEFT_EXTEND
|
|
|
|
; r3/r0=buf+block_h*linesize, r2=linesize, r8/r5=block_h, r0/r6=end_x, r6/r3=val
|
|
%macro RIGHT_EXTEND 0
|
|
%assign %%n 2
|
|
%rep 11
|
|
ALIGN 64
|
|
.emuedge_extend_right_ %+ %%n: ; do {
|
|
%if ARCH_X86_64
|
|
sub r3, r2 ; dst -= linesize
|
|
READ_V_PIXEL %%n, [r3+w_reg-1] ; read pixels
|
|
WRITE_V_PIXEL %%n, r3+r4-%%n ; write pixels
|
|
dec r8
|
|
%else ; ARCH_X86_32
|
|
sub r0, r2 ; dst -= linesize
|
|
READ_V_PIXEL %%n, [r0+w_reg-1] ; read pixels
|
|
WRITE_V_PIXEL %%n, r0+r4-%%n ; write pixels
|
|
dec r5
|
|
%endif ; ARCH_X86_64/32
|
|
jnz .emuedge_extend_right_ %+ %%n ; } while (--block_h)
|
|
%if ARCH_X86_64
|
|
ret
|
|
%else ; ARCH_X86_32
|
|
rep ret
|
|
%endif ; ARCH_X86_64/32
|
|
%assign %%n %%n+2
|
|
%endrep
|
|
|
|
%if ARCH_X86_32
|
|
%define stack_offset 0x10
|
|
%endif
|
|
%endmacro ; RIGHT_EXTEND
|
|
|
|
; below follow the "slow" copy/extend functions, these act on a non-fixed
|
|
; width specified in a register, and run a loop to copy the full amount
|
|
; of bytes. They are optimized for copying of large amounts of pixels per
|
|
; line, so they unconditionally splat data into mm registers to copy 8
|
|
; bytes per loop iteration. It could be considered to use xmm for x86-64
|
|
; also, but I haven't optimized this as much (i.e. FIXME)
|
|
%macro V_COPY_NPX 4-5
|
|
%if %0 == 4
|
|
test w_reg, %4
|
|
jz .%1_skip_%4_px
|
|
%else ; %0 == 5
|
|
.%1_%4_px_loop:
|
|
%endif
|
|
%3 %2, [r1+cnt_reg]
|
|
%3 [r0+cnt_reg], %2
|
|
add cnt_reg, %4
|
|
%if %0 == 5
|
|
sub w_reg, %4
|
|
test w_reg, %5
|
|
jnz .%1_%4_px_loop
|
|
%endif
|
|
.%1_skip_%4_px:
|
|
%endmacro
|
|
|
|
%macro V_COPY_ROW 2
|
|
%ifidn %1, bottom
|
|
sub r1, linesize
|
|
%endif
|
|
.%1_copy_loop:
|
|
xor cnt_reg, cnt_reg
|
|
%if notcpuflag(sse)
|
|
%define linesize r2m
|
|
V_COPY_NPX %1, mm0, movq, 8, 0xFFFFFFF8
|
|
%else ; sse
|
|
V_COPY_NPX %1, xmm0, movups, 16, 0xFFFFFFF0
|
|
%if ARCH_X86_64
|
|
%define linesize r2
|
|
V_COPY_NPX %1, rax , mov, 8
|
|
%else ; ARCH_X86_32
|
|
%define linesize r2m
|
|
V_COPY_NPX %1, mm0, movq, 8
|
|
%endif ; ARCH_X86_64/32
|
|
%endif ; sse
|
|
V_COPY_NPX %1, vald, mov, 4
|
|
V_COPY_NPX %1, valw, mov, 2
|
|
V_COPY_NPX %1, vall, mov, 1
|
|
mov w_reg, cnt_reg
|
|
%ifidn %1, body
|
|
add r1, linesize
|
|
%endif
|
|
add r0, linesize
|
|
dec %2
|
|
jnz .%1_copy_loop
|
|
%endmacro
|
|
|
|
%macro SLOW_V_EXTEND 0
|
|
.slow_v_extend_loop:
|
|
; r0=buf,r1=src,r2(64)/r2m(32)=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h
|
|
; r8(64)/r3(later-64)/r2(32)=cnt_reg,r6(64)/r3(32)=val_reg,r7(64)/r6(32)=w=end_x-start_x
|
|
%if ARCH_X86_64
|
|
push r8 ; save old value of block_h
|
|
test r3, r3
|
|
%define cnt_reg r8
|
|
jz .do_body_copy ; if (!start_y) goto do_body_copy
|
|
V_COPY_ROW top, r3
|
|
%else
|
|
cmp dword r3m, 0
|
|
%define cnt_reg r2
|
|
je .do_body_copy ; if (!start_y) goto do_body_copy
|
|
V_COPY_ROW top, dword r3m
|
|
%endif
|
|
|
|
.do_body_copy:
|
|
V_COPY_ROW body, r4
|
|
|
|
%if ARCH_X86_64
|
|
pop r8 ; restore old value of block_h
|
|
%define cnt_reg r3
|
|
%endif
|
|
test r5, r5
|
|
%if ARCH_X86_64
|
|
jz .v_extend_end
|
|
%else
|
|
jz .skip_bottom_extend
|
|
%endif
|
|
V_COPY_ROW bottom, r5
|
|
%if ARCH_X86_32
|
|
.skip_bottom_extend:
|
|
mov r2, r2m
|
|
%endif
|
|
jmp .v_extend_end
|
|
%endmacro
|
|
|
|
%macro SLOW_LEFT_EXTEND 0
|
|
.slow_left_extend_loop:
|
|
; r0=buf+block_h*linesize,r2=linesize,r6(64)/r3(32)=val,r5=block_h,r4=cntr,r7/r6=start_x
|
|
mov r4, 8
|
|
sub r0, linesize
|
|
READ_V_PIXEL 8, [r0+w_reg]
|
|
.left_extend_8px_loop:
|
|
movq [r0+r4-8], mm0
|
|
add r4, 8
|
|
cmp r4, w_reg
|
|
jle .left_extend_8px_loop
|
|
sub r4, 8
|
|
cmp r4, w_reg
|
|
jge .left_extend_loop_end
|
|
.left_extend_2px_loop:
|
|
mov [r0+r4], valw
|
|
add r4, 2
|
|
cmp r4, w_reg
|
|
jl .left_extend_2px_loop
|
|
.left_extend_loop_end:
|
|
dec r5
|
|
jnz .slow_left_extend_loop
|
|
%if ARCH_X86_32
|
|
mov r2, r2m
|
|
%endif
|
|
jmp .right_extend
|
|
%endmacro
|
|
|
|
%macro SLOW_RIGHT_EXTEND 0
|
|
.slow_right_extend_loop:
|
|
; r3(64)/r0(32)=buf+block_h*linesize,r2=linesize,r4=block_w,r8(64)/r5(32)=block_h,
|
|
; r7(64)/r6(32)=end_x,r6/r3=val,r1=cntr
|
|
%if ARCH_X86_64
|
|
%define buf_reg r3
|
|
%define bh_reg r8
|
|
%else
|
|
%define buf_reg r0
|
|
%define bh_reg r5
|
|
%endif
|
|
lea r1, [r4-8]
|
|
sub buf_reg, linesize
|
|
READ_V_PIXEL 8, [buf_reg+w_reg-1]
|
|
.right_extend_8px_loop:
|
|
movq [buf_reg+r1], mm0
|
|
sub r1, 8
|
|
cmp r1, w_reg
|
|
jge .right_extend_8px_loop
|
|
add r1, 8
|
|
cmp r1, w_reg
|
|
je .right_extend_loop_end
|
|
.right_extend_2px_loop:
|
|
sub r1, 2
|
|
mov [buf_reg+r1], valw
|
|
cmp r1, w_reg
|
|
jg .right_extend_2px_loop
|
|
.right_extend_loop_end:
|
|
dec bh_reg
|
|
jnz .slow_right_extend_loop
|
|
jmp .h_extend_end
|
|
%endmacro
|
|
|
|
%macro emu_edge 1
|
|
INIT_XMM %1
|
|
EMU_EDGE_FUNC
|
|
VERTICAL_EXTEND
|
|
LEFT_EXTEND
|
|
RIGHT_EXTEND
|
|
SLOW_V_EXTEND
|
|
SLOW_LEFT_EXTEND
|
|
SLOW_RIGHT_EXTEND
|
|
%endmacro
|
|
|
|
emu_edge sse
|
|
%if ARCH_X86_32
|
|
emu_edge mmx
|
|
%endif
|
|
|
|
;-----------------------------------------------------------------------------
|
|
; void ff_vector_clip_int32(int32_t *dst, const int32_t *src, int32_t min,
|
|
; int32_t max, unsigned int len)
|
|
;-----------------------------------------------------------------------------
|
|
|
|
; %1 = number of xmm registers used
|
|
; %2 = number of inline load/process/store loops per asm loop
|
|
; %3 = process 4*mmsize (%3=0) or 8*mmsize (%3=1) bytes per loop
|
|
; %4 = CLIPD function takes min/max as float instead of int (CLIPD_SSE2)
|
|
; %5 = suffix
|
|
%macro VECTOR_CLIP_INT32 4-5
|
|
cglobal vector_clip_int32%5, 5,5,%1, dst, src, min, max, len
|
|
%if %4
|
|
cvtsi2ss m4, minm
|
|
cvtsi2ss m5, maxm
|
|
%else
|
|
movd m4, minm
|
|
movd m5, maxm
|
|
%endif
|
|
SPLATD m4
|
|
SPLATD m5
|
|
.loop:
|
|
%assign %%i 1
|
|
%rep %2
|
|
mova m0, [srcq+mmsize*0*%%i]
|
|
mova m1, [srcq+mmsize*1*%%i]
|
|
mova m2, [srcq+mmsize*2*%%i]
|
|
mova m3, [srcq+mmsize*3*%%i]
|
|
%if %3
|
|
mova m7, [srcq+mmsize*4*%%i]
|
|
mova m8, [srcq+mmsize*5*%%i]
|
|
mova m9, [srcq+mmsize*6*%%i]
|
|
mova m10, [srcq+mmsize*7*%%i]
|
|
%endif
|
|
CLIPD m0, m4, m5, m6
|
|
CLIPD m1, m4, m5, m6
|
|
CLIPD m2, m4, m5, m6
|
|
CLIPD m3, m4, m5, m6
|
|
%if %3
|
|
CLIPD m7, m4, m5, m6
|
|
CLIPD m8, m4, m5, m6
|
|
CLIPD m9, m4, m5, m6
|
|
CLIPD m10, m4, m5, m6
|
|
%endif
|
|
mova [dstq+mmsize*0*%%i], m0
|
|
mova [dstq+mmsize*1*%%i], m1
|
|
mova [dstq+mmsize*2*%%i], m2
|
|
mova [dstq+mmsize*3*%%i], m3
|
|
%if %3
|
|
mova [dstq+mmsize*4*%%i], m7
|
|
mova [dstq+mmsize*5*%%i], m8
|
|
mova [dstq+mmsize*6*%%i], m9
|
|
mova [dstq+mmsize*7*%%i], m10
|
|
%endif
|
|
%assign %%i %%i+1
|
|
%endrep
|
|
add srcq, mmsize*4*(%2+%3)
|
|
add dstq, mmsize*4*(%2+%3)
|
|
sub lend, mmsize*(%2+%3)
|
|
jg .loop
|
|
REP_RET
|
|
%endmacro
|
|
|
|
INIT_MMX mmx
|
|
%define SPLATD SPLATD_MMX
|
|
%define CLIPD CLIPD_MMX
|
|
VECTOR_CLIP_INT32 0, 1, 0, 0
|
|
INIT_XMM sse2
|
|
%define SPLATD SPLATD_SSE2
|
|
VECTOR_CLIP_INT32 6, 1, 0, 0, _int
|
|
%define CLIPD CLIPD_SSE2
|
|
VECTOR_CLIP_INT32 6, 2, 0, 1
|
|
INIT_XMM sse4
|
|
%define CLIPD CLIPD_SSE41
|
|
%ifdef m8
|
|
VECTOR_CLIP_INT32 11, 1, 1, 0
|
|
%else
|
|
VECTOR_CLIP_INT32 6, 1, 0, 0
|
|
%endif
|
|
|
|
;-----------------------------------------------------------------------------
|
|
; void ff_butterflies_float_interleave(float *dst, const float *src0,
|
|
; const float *src1, int len);
|
|
;-----------------------------------------------------------------------------
|
|
|
|
%macro BUTTERFLIES_FLOAT_INTERLEAVE 0
|
|
cglobal butterflies_float_interleave, 4,4,3, dst, src0, src1, len
|
|
%if ARCH_X86_64
|
|
movsxd lenq, lend
|
|
%endif
|
|
test lenq, lenq
|
|
jz .end
|
|
shl lenq, 2
|
|
lea src0q, [src0q + lenq]
|
|
lea src1q, [src1q + lenq]
|
|
lea dstq, [ dstq + 2*lenq]
|
|
neg lenq
|
|
.loop:
|
|
mova m0, [src0q + lenq]
|
|
mova m1, [src1q + lenq]
|
|
subps m2, m0, m1
|
|
addps m0, m0, m1
|
|
unpcklps m1, m0, m2
|
|
unpckhps m0, m0, m2
|
|
%if cpuflag(avx)
|
|
vextractf128 [dstq + 2*lenq ], m1, 0
|
|
vextractf128 [dstq + 2*lenq + 16], m0, 0
|
|
vextractf128 [dstq + 2*lenq + 32], m1, 1
|
|
vextractf128 [dstq + 2*lenq + 48], m0, 1
|
|
%else
|
|
mova [dstq + 2*lenq ], m1
|
|
mova [dstq + 2*lenq + mmsize], m0
|
|
%endif
|
|
add lenq, mmsize
|
|
jl .loop
|
|
%if mmsize == 32
|
|
vzeroupper
|
|
RET
|
|
%endif
|
|
.end:
|
|
REP_RET
|
|
%endmacro
|
|
|
|
INIT_XMM sse
|
|
BUTTERFLIES_FLOAT_INTERLEAVE
|
|
INIT_YMM avx
|
|
BUTTERFLIES_FLOAT_INTERLEAVE
|
|
|
|
INIT_XMM sse2
|
|
; %1 = aligned/unaligned
|
|
%macro BSWAP_LOOPS_SSE2 1
|
|
mov r3, r2
|
|
sar r2, 3
|
|
jz .left4_%1
|
|
.loop8_%1:
|
|
mov%1 m0, [r1 + 0]
|
|
mov%1 m1, [r1 + 16]
|
|
pshuflw m0, m0, 10110001b
|
|
pshuflw m1, m1, 10110001b
|
|
pshufhw m0, m0, 10110001b
|
|
pshufhw m1, m1, 10110001b
|
|
mova m2, m0
|
|
mova m3, m1
|
|
psllw m0, 8
|
|
psllw m1, 8
|
|
psrlw m2, 8
|
|
psrlw m3, 8
|
|
por m2, m0
|
|
por m3, m1
|
|
mova [r0 + 0], m2
|
|
mova [r0 + 16], m3
|
|
add r1, 32
|
|
add r0, 32
|
|
dec r2
|
|
jnz .loop8_%1
|
|
.left4_%1:
|
|
mov r2, r3
|
|
and r3, 4
|
|
jz .left
|
|
mov%1 m0, [r1]
|
|
pshuflw m0, m0, 10110001b
|
|
pshufhw m0, m0, 10110001b
|
|
mova m2, m0
|
|
psllw m0, 8
|
|
psrlw m2, 8
|
|
por m2, m0
|
|
mova [r0], m2
|
|
add r1, 16
|
|
add r0, 16
|
|
%endmacro
|
|
|
|
; void bswap_buf(uint32_t *dst, const uint32_t *src, int w);
|
|
cglobal bswap32_buf, 3,4,5
|
|
mov r3, r1
|
|
and r3, 15
|
|
jz .start_align
|
|
BSWAP_LOOPS_SSE2 u
|
|
jmp .left
|
|
.start_align:
|
|
BSWAP_LOOPS_SSE2 a
|
|
.left:
|
|
and r2, 3
|
|
jz .end
|
|
.loop2:
|
|
mov r3d, [r1]
|
|
bswap r3d
|
|
mov [r0], r3d
|
|
add r1, 4
|
|
add r0, 4
|
|
dec r2
|
|
jnz .loop2
|
|
.end
|
|
RET
|
|
|
|
; %1 = aligned/unaligned
|
|
%macro BSWAP_LOOPS_SSSE3 1
|
|
mov r3, r2
|
|
sar r2, 3
|
|
jz .left4_%1
|
|
.loop8_%1:
|
|
mov%1 m0, [r1 + 0]
|
|
mov%1 m1, [r1 + 16]
|
|
pshufb m0, m2
|
|
pshufb m1, m2
|
|
mova [r0 + 0], m0
|
|
mova [r0 + 16], m1
|
|
add r0, 32
|
|
add r1, 32
|
|
dec r2
|
|
jnz .loop8_%1
|
|
.left4_%1:
|
|
mov r2, r3
|
|
and r3, 4
|
|
jz .left2
|
|
mov%1 m0, [r1]
|
|
pshufb m0, m2
|
|
mova [r0], m0
|
|
add r1, 16
|
|
add r0, 16
|
|
%endmacro
|
|
|
|
INIT_XMM ssse3
|
|
; void bswap_buf(uint32_t *dst, const uint32_t *src, int w);
|
|
cglobal bswap32_buf, 3,4,3
|
|
mov r3, r1
|
|
mova m2, [pb_bswap32]
|
|
and r3, 15
|
|
jz .start_align
|
|
BSWAP_LOOPS_SSSE3 u
|
|
jmp .left2
|
|
.start_align:
|
|
BSWAP_LOOPS_SSSE3 a
|
|
.left2:
|
|
mov r3, r2
|
|
and r2, 2
|
|
jz .left1
|
|
movq m0, [r1]
|
|
pshufb m0, m2
|
|
movq [r0], m0
|
|
add r1, 8
|
|
add r0, 8
|
|
.left1:
|
|
and r3, 1
|
|
jz .end
|
|
mov r2d, [r1]
|
|
bswap r2d
|
|
mov [r0], r2d
|
|
.end:
|
|
RET
|