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;******************************************************************************
;* MMX optimized DSP utils
;* Copyright (c) 2008 Loren Merritt
;*
;* This file is part of FFmpeg.
;*
;* FFmpeg is free software; you can redistribute it and/or
;* modify it under the terms of the GNU Lesser General Public
;* License as published by the Free Software Foundation; either
;* version 2.1 of the License, or (at your option) any later version.
;*
;* FFmpeg is distributed in the hope that it will be useful,
;* but WITHOUT ANY WARRANTY; without even the implied warranty of
;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
;* Lesser General Public License for more details.
;*
;* You should have received a copy of the GNU Lesser General Public
;* License along with FFmpeg; if not, write to the Free Software
;* 51, Inc., Foundation Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
;******************************************************************************

%include "x86inc.asm"

SECTION_RODATA
pb_f: times 16 db 15
pb_zzzzzzzz77777777: times 8 db -1
pb_7: times 8 db 7
pb_zzzz3333zzzzbbbb: db -1,-1,-1,-1,3,3,3,3,-1,-1,-1,-1,11,11,11,11
pb_zz11zz55zz99zzdd: db -1,-1,1,1,-1,-1,5,5,-1,-1,9,9,-1,-1,13,13

section .text align=16

%macro PSWAPD_SSE 2
    pshufw %1, %2, 0x4e
%endmacro
%macro PSWAPD_3DN1 2
    movq  %1, %2
    psrlq %1, 32
    punpckldq %1, %2
%endmacro

%macro FLOAT_TO_INT16_INTERLEAVE6 1
; void ff_float_to_int16_interleave6_sse(int16_t *dst, const float **src, int len)
cglobal float_to_int16_interleave6_%1, 2,7,0, dst, src, src1, src2, src3, src4, src5
%ifdef ARCH_X86_64
    %define lend r10d
    mov     lend, r2d
%else
    %define lend dword r2m
%endif
    mov src1q, [srcq+1*gprsize]
    mov src2q, [srcq+2*gprsize]
    mov src3q, [srcq+3*gprsize]
    mov src4q, [srcq+4*gprsize]
    mov src5q, [srcq+5*gprsize]
    mov srcq,  [srcq]
    sub src1q, srcq
    sub src2q, srcq
    sub src3q, srcq
    sub src4q, srcq
    sub src5q, srcq
.loop:
    cvtps2pi   mm0, [srcq]
    cvtps2pi   mm1, [srcq+src1q]
    cvtps2pi   mm2, [srcq+src2q]
    cvtps2pi   mm3, [srcq+src3q]
    cvtps2pi   mm4, [srcq+src4q]
    cvtps2pi   mm5, [srcq+src5q]
    packssdw   mm0, mm3
    packssdw   mm1, mm4
    packssdw   mm2, mm5
    pswapd     mm3, mm0
    punpcklwd  mm0, mm1
    punpckhwd  mm1, mm2
    punpcklwd  mm2, mm3
    pswapd     mm3, mm0
    punpckldq  mm0, mm2
    punpckhdq  mm2, mm1
    punpckldq  mm1, mm3
    movq [dstq   ], mm0
    movq [dstq+16], mm2
    movq [dstq+ 8], mm1
    add srcq, 8
    add dstq, 24
    sub lend, 2
    jg .loop
    emms
    RET
%endmacro ; FLOAT_TO_INT16_INTERLEAVE6

%define pswapd PSWAPD_SSE
FLOAT_TO_INT16_INTERLEAVE6 sse
%define cvtps2pi pf2id
%define pswapd PSWAPD_3DN1
FLOAT_TO_INT16_INTERLEAVE6 3dnow
%undef pswapd
FLOAT_TO_INT16_INTERLEAVE6 3dn2
%undef cvtps2pi



%macro SCALARPRODUCT 1
; int scalarproduct_int16(int16_t *v1, int16_t *v2, int order, int shift)
cglobal scalarproduct_int16_%1, 3,3,4, v1, v2, order, shift
    shl orderq, 1
    add v1q, orderq
    add v2q, orderq
    neg orderq
    movd    m3, shiftm
    pxor    m2, m2
.loop:
    movu    m0, [v1q + orderq]
    movu    m1, [v1q + orderq + mmsize]
    pmaddwd m0, [v2q + orderq]
    pmaddwd m1, [v2q + orderq + mmsize]
    paddd   m2, m0
    paddd   m2, m1
    add     orderq, mmsize*2
    jl .loop
%if mmsize == 16
    movhlps m0, m2
    paddd   m2, m0
    psrad   m2, m3
    pshuflw m0, m2, 0x4e
%else
    psrad   m2, m3
    pshufw  m0, m2, 0x4e
%endif
    paddd   m2, m0
    movd   eax, m2
    RET

; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul)
cglobal scalarproduct_and_madd_int16_%1, 4,4,8, v1, v2, v3, order, mul
    shl orderq, 1
    movd    m7, mulm
%if mmsize == 16
    pshuflw m7, m7, 0
    punpcklqdq m7, m7
%else
    pshufw  m7, m7, 0
%endif
    pxor    m6, m6
    add v1q, orderq
    add v2q, orderq
    add v3q, orderq
    neg orderq
.loop:
    movu    m0, [v2q + orderq]
    movu    m1, [v2q + orderq + mmsize]
    mova    m4, [v1q + orderq]
    mova    m5, [v1q + orderq + mmsize]
    movu    m2, [v3q + orderq]
    movu    m3, [v3q + orderq + mmsize]
    pmaddwd m0, m4
    pmaddwd m1, m5
    pmullw  m2, m7
    pmullw  m3, m7
    paddd   m6, m0
    paddd   m6, m1
    paddw   m2, m4
    paddw   m3, m5
    mova    [v1q + orderq], m2
    mova    [v1q + orderq + mmsize], m3
    add     orderq, mmsize*2
    jl .loop
%if mmsize == 16
    movhlps m0, m6
    paddd   m6, m0
    pshuflw m0, m6, 0x4e
%else
    pshufw  m0, m6, 0x4e
%endif
    paddd   m6, m0
    movd   eax, m6
    RET
%endmacro

INIT_MMX
SCALARPRODUCT mmx2
INIT_XMM
SCALARPRODUCT sse2

%macro SCALARPRODUCT_LOOP 1
align 16
.loop%1:
    sub     orderq, mmsize*2
%if %1
    mova    m1, m4
    mova    m4, [v2q + orderq]
    mova    m0, [v2q + orderq + mmsize]
    palignr m1, m0, %1
    palignr m0, m4, %1
    mova    m3, m5
    mova    m5, [v3q + orderq]
    mova    m2, [v3q + orderq + mmsize]
    palignr m3, m2, %1
    palignr m2, m5, %1
%else
    mova    m0, [v2q + orderq]
    mova    m1, [v2q + orderq + mmsize]
    mova    m2, [v3q + orderq]
    mova    m3, [v3q + orderq + mmsize]
%endif
    %define t0  [v1q + orderq]
    %define t1  [v1q + orderq + mmsize]
%ifdef ARCH_X86_64
    mova    m8, t0
    mova    m9, t1
    %define t0  m8
    %define t1  m9
%endif
    pmaddwd m0, t0
    pmaddwd m1, t1
    pmullw  m2, m7
    pmullw  m3, m7
    paddw   m2, t0
    paddw   m3, t1
    paddd   m6, m0
    paddd   m6, m1
    mova    [v1q + orderq], m2
    mova    [v1q + orderq + mmsize], m3
    jg .loop%1
%if %1
    jmp .end
%endif
%endmacro

; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul)
cglobal scalarproduct_and_madd_int16_ssse3, 4,5,10, v1, v2, v3, order, mul
    shl orderq, 1
    movd    m7, mulm
    pshuflw m7, m7, 0
    punpcklqdq m7, m7
    pxor    m6, m6
    mov    r4d, v2d
    and    r4d, 15
    and    v2q, ~15
    and    v3q, ~15
    mova    m4, [v2q + orderq]
    mova    m5, [v3q + orderq]
    ; linear is faster than branch tree or jump table, because the branches taken are cyclic (i.e. predictable)
    cmp    r4d, 0
    je .loop0
    cmp    r4d, 2
    je .loop2
    cmp    r4d, 4
    je .loop4
    cmp    r4d, 6
    je .loop6
    cmp    r4d, 8
    je .loop8
    cmp    r4d, 10
    je .loop10
    cmp    r4d, 12
    je .loop12
SCALARPRODUCT_LOOP 14
SCALARPRODUCT_LOOP 12
SCALARPRODUCT_LOOP 10
SCALARPRODUCT_LOOP 8
SCALARPRODUCT_LOOP 6
SCALARPRODUCT_LOOP 4
SCALARPRODUCT_LOOP 2
SCALARPRODUCT_LOOP 0
.end:
    movhlps m0, m6
    paddd   m6, m0
    pshuflw m0, m6, 0x4e
    paddd   m6, m0
    movd   eax, m6
    RET



; void ff_add_hfyu_median_prediction_mmx2(uint8_t *dst, const uint8_t *top, const uint8_t *diff, int w, int *left, int *left_top)
cglobal add_hfyu_median_prediction_mmx2, 6,6,0, dst, top, diff, w, left, left_top
    movq    mm0, [topq]
    movq    mm2, mm0
    movd    mm4, [left_topq]
    psllq   mm2, 8
    movq    mm1, mm0
    por     mm4, mm2
    movd    mm3, [leftq]
    psubb   mm0, mm4 ; t-tl
    add    dstq, wq
    add    topq, wq
    add   diffq, wq
    neg      wq
    jmp .skip
.loop:
    movq    mm4, [topq+wq]
    movq    mm0, mm4
    psllq   mm4, 8
    por     mm4, mm1
    movq    mm1, mm0 ; t
    psubb   mm0, mm4 ; t-tl
.skip:
    movq    mm2, [diffq+wq]
%assign i 0
%rep 8
    movq    mm4, mm0
    paddb   mm4, mm3 ; t-tl+l
    movq    mm5, mm3
    pmaxub  mm3, mm1
    pminub  mm5, mm1
    pminub  mm3, mm4
    pmaxub  mm3, mm5 ; median
    paddb   mm3, mm2 ; +residual
%if i==0
    movq    mm7, mm3
    psllq   mm7, 56
%else
    movq    mm6, mm3
    psrlq   mm7, 8
    psllq   mm6, 56
    por     mm7, mm6
%endif
%if i<7
    psrlq   mm0, 8
    psrlq   mm1, 8
    psrlq   mm2, 8
%endif
%assign i i+1
%endrep
    movq [dstq+wq], mm7
    add      wq, 8
    jl .loop
    movzx   r2d, byte [dstq-1]
    mov [leftq], r2d
    movzx   r2d, byte [topq-1]
    mov [left_topq], r2d
    RET


%macro ADD_HFYU_LEFT_LOOP 1 ; %1 = is_aligned
    add     srcq, wq
    add     dstq, wq
    neg     wq
%%.loop:
    mova    m1, [srcq+wq]
    mova    m2, m1
    psllw   m1, 8
    paddb   m1, m2
    mova    m2, m1
    pshufb  m1, m3
    paddb   m1, m2
    pshufb  m0, m5
    mova    m2, m1
    pshufb  m1, m4
    paddb   m1, m2
%if mmsize == 16
    mova    m2, m1
    pshufb  m1, m6
    paddb   m1, m2
%endif
    paddb   m0, m1
%if %1
    mova    [dstq+wq], m0
%else
    movq    [dstq+wq], m0
    movhps  [dstq+wq+8], m0
%endif
    add     wq, mmsize
    jl %%.loop
    mov     eax, mmsize-1
    sub     eax, wd
    movd    m1, eax
    pshufb  m0, m1
    movd    eax, m0
    RET
%endmacro

; int ff_add_hfyu_left_prediction(uint8_t *dst, const uint8_t *src, int w, int left)
INIT_MMX
cglobal add_hfyu_left_prediction_ssse3, 3,3,7, dst, src, w, left
.skip_prologue:
    mova    m5, [pb_7 GLOBAL]
    mova    m4, [pb_zzzz3333zzzzbbbb GLOBAL]
    mova    m3, [pb_zz11zz55zz99zzdd GLOBAL]
    movd    m0, leftm
    psllq   m0, 56
    ADD_HFYU_LEFT_LOOP 1

INIT_XMM
cglobal add_hfyu_left_prediction_sse4, 3,3,7, dst, src, w, left
    mova    m5, [pb_f GLOBAL]
    mova    m6, [pb_zzzzzzzz77777777 GLOBAL]
    mova    m4, [pb_zzzz3333zzzzbbbb GLOBAL]
    mova    m3, [pb_zz11zz55zz99zzdd GLOBAL]
    movd    m0, leftm
    pslldq  m0, 15
    test    srcq, 15
    jnz add_hfyu_left_prediction_ssse3.skip_prologue
    test    dstq, 15
    jnz .unaligned
    ADD_HFYU_LEFT_LOOP 1
.unaligned:
    ADD_HFYU_LEFT_LOOP 0


; float ff_scalarproduct_float_sse(const float *v1, const float *v2, int len)
cglobal scalarproduct_float_sse, 3,3,2, v1, v2, offset
    neg offsetq
    shl offsetq, 2
    sub v1q, offsetq
    sub v2q, offsetq
    xorps xmm0, xmm0
    .loop:
        movaps   xmm1, [v1q+offsetq]
        mulps    xmm1, [v2q+offsetq]
        addps    xmm0, xmm1
        add      offsetq, 16
        js       .loop
    movhlps xmm1, xmm0
    addps   xmm0, xmm1
    movss   xmm1, xmm0
    shufps  xmm0, xmm0, 1
    addss   xmm0, xmm1
%ifndef ARCH_X86_64
    movd    r0m,  xmm0
    fld     dword r0m
%endif
    RET