File: sad16-a.asm

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;*****************************************************************************
;* sad16-a.asm: x86 high depth sad functions
;*****************************************************************************
;* Copyright (C) 2010-2018 x264 project
;*
;* Authors: Oskar Arvidsson <oskar@irock.se>
;*          Henrik Gramner <henrik@gramner.com>
;*
;* This program is free software; you can redistribute it and/or modify
;* it under the terms of the GNU General Public License as published by
;* the Free Software Foundation; either version 2 of the License, or
;* (at your option) any later version.
;*
;* This program 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 General Public License for more details.
;*
;* You should have received a copy of the GNU General Public License
;* along with this program; if not, write to the Free Software
;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02111, USA.
;*
;* This program is also available under a commercial proprietary license.
;* For more information, contact us at licensing@x264.com.
;*****************************************************************************

%include "x86inc.asm"
%include "x86util.asm"

SECTION .text

cextern pw_1
cextern pw_4
cextern pw_8

;=============================================================================
; SAD MMX
;=============================================================================

%macro SAD_INC_1x16P_MMX 0
    movu    m1, [r0+ 0]
    movu    m2, [r0+ 8]
    movu    m3, [r0+16]
    movu    m4, [r0+24]
    psubw   m1, [r2+ 0]
    psubw   m2, [r2+ 8]
    psubw   m3, [r2+16]
    psubw   m4, [r2+24]
    ABSW2   m1, m2, m1, m2, m5, m6
    ABSW2   m3, m4, m3, m4, m7, m5
    lea     r0, [r0+2*r1]
    lea     r2, [r2+2*r3]
    paddw   m1, m2
    paddw   m3, m4
    paddw   m0, m1
    paddw   m0, m3
%endmacro

%macro SAD_INC_2x8P_MMX 0
    movu    m1, [r0+0]
    movu    m2, [r0+8]
    movu    m3, [r0+2*r1+0]
    movu    m4, [r0+2*r1+8]
    psubw   m1, [r2+0]
    psubw   m2, [r2+8]
    psubw   m3, [r2+2*r3+0]
    psubw   m4, [r2+2*r3+8]
    ABSW2   m1, m2, m1, m2, m5, m6
    ABSW2   m3, m4, m3, m4, m7, m5
    lea     r0, [r0+4*r1]
    lea     r2, [r2+4*r3]
    paddw   m1, m2
    paddw   m3, m4
    paddw   m0, m1
    paddw   m0, m3
%endmacro

%macro SAD_INC_2x4P_MMX 0
    movu    m1, [r0]
    movu    m2, [r0+2*r1]
    psubw   m1, [r2]
    psubw   m2, [r2+2*r3]
    ABSW2   m1, m2, m1, m2, m3, m4
    lea     r0, [r0+4*r1]
    lea     r2, [r2+4*r3]
    paddw   m0, m1
    paddw   m0, m2
%endmacro

;-----------------------------------------------------------------------------
; int pixel_sad_NxM( uint16_t *, intptr_t, uint16_t *, intptr_t )
;-----------------------------------------------------------------------------
%macro SAD_MMX 3
cglobal pixel_sad_%1x%2, 4,5-(%2&4/4)
    pxor    m0, m0
%if %2 == 4
    SAD_INC_%3x%1P_MMX
    SAD_INC_%3x%1P_MMX
%else
    mov    r4d, %2/%3
.loop:
    SAD_INC_%3x%1P_MMX
    dec    r4d
    jg .loop
%endif
%if %1*%2 == 256
    HADDUW  m0, m1
%else
    HADDW   m0, m1
%endif
    movd   eax, m0
    RET
%endmacro

INIT_MMX mmx2
SAD_MMX 16, 16, 1
SAD_MMX 16,  8, 1
SAD_MMX  8, 16, 2
SAD_MMX  8,  8, 2
SAD_MMX  8,  4, 2
SAD_MMX  4,  8, 2
SAD_MMX  4,  4, 2
INIT_MMX ssse3
SAD_MMX  4,  8, 2
SAD_MMX  4,  4, 2

;=============================================================================
; SAD XMM
;=============================================================================

%macro SAD_INC_2ROW 1
%if 2*%1 > mmsize
    movu    m1, [r2+ 0]
    movu    m2, [r2+16]
    movu    m3, [r2+2*r3+ 0]
    movu    m4, [r2+2*r3+16]
    psubw   m1, [r0+ 0]
    psubw   m2, [r0+16]
    psubw   m3, [r0+2*r1+ 0]
    psubw   m4, [r0+2*r1+16]
    ABSW2   m1, m2, m1, m2, m5, m6
    lea     r0, [r0+4*r1]
    lea     r2, [r2+4*r3]
    ABSW2   m3, m4, m3, m4, m7, m5
    paddw   m1, m2
    paddw   m3, m4
    paddw   m0, m1
    paddw   m0, m3
%else
    movu    m1, [r2]
    movu    m2, [r2+2*r3]
    psubw   m1, [r0]
    psubw   m2, [r0+2*r1]
    ABSW2   m1, m2, m1, m2, m3, m4
    lea     r0, [r0+4*r1]
    lea     r2, [r2+4*r3]
    paddw   m0, m1
    paddw   m0, m2
%endif
%endmacro

;-----------------------------------------------------------------------------
; int pixel_sad_NxM( uint16_t *, intptr_t, uint16_t *, intptr_t )
;-----------------------------------------------------------------------------
%macro SAD 2
cglobal pixel_sad_%1x%2, 4,5-(%2&4/4),8*(%1/mmsize)
    pxor    m0, m0
%if %2 == 4
    SAD_INC_2ROW %1
    SAD_INC_2ROW %1
%else
    mov    r4d, %2/2
.loop:
    SAD_INC_2ROW %1
    dec    r4d
    jg .loop
%endif
    HADDW   m0, m1
    movd   eax, xm0
    RET
%endmacro

INIT_XMM sse2
SAD 16, 16
SAD 16,  8
SAD  8, 16
SAD  8,  8
SAD  8,  4
INIT_XMM sse2, aligned
SAD 16, 16
SAD 16,  8
SAD  8, 16
SAD  8,  8
INIT_XMM ssse3
SAD 16, 16
SAD 16,  8
SAD  8, 16
SAD  8,  8
SAD  8,  4
INIT_XMM ssse3, aligned
SAD 16, 16
SAD 16,  8
SAD  8, 16
SAD  8,  8
INIT_YMM avx2
SAD 16, 16
SAD 16,  8

;=============================================================================
; SAD x3/x4
;=============================================================================

%macro SAD_X3_INC_P 0
    add     r0, 4*FENC_STRIDE
    lea     r1, [r1+4*r4]
    lea     r2, [r2+4*r4]
    lea     r3, [r3+4*r4]
%endmacro

%macro SAD_X3_ONE_START 0
    mova    m3, [r0]
    movu    m0, [r1]
    movu    m1, [r2]
    movu    m2, [r3]
    psubw   m0, m3
    psubw   m1, m3
    psubw   m2, m3
    ABSW2   m0, m1, m0, m1, m4, m5
    ABSW    m2, m2, m6
%endmacro

%macro SAD_X3_ONE 2
    mova    m6, [r0+%1]
    movu    m3, [r1+%2]
    movu    m4, [r2+%2]
    movu    m5, [r3+%2]
    psubw   m3, m6
    psubw   m4, m6
    psubw   m5, m6
    ABSW2   m3, m4, m3, m4, m7, m6
    ABSW    m5, m5, m6
    paddw   m0, m3
    paddw   m1, m4
    paddw   m2, m5
%endmacro

%macro SAD_X3_END 2
%if mmsize == 8 && %1*%2 == 256
    HADDUW   m0, m3
    HADDUW   m1, m4
    HADDUW   m2, m5
%else
    HADDW    m0, m3
    HADDW    m1, m4
    HADDW    m2, m5
%endif
%if UNIX64
    movd [r5+0], xm0
    movd [r5+4], xm1
    movd [r5+8], xm2
%else
    mov      r0, r5mp
    movd [r0+0], xm0
    movd [r0+4], xm1
    movd [r0+8], xm2
%endif
    RET
%endmacro

%macro SAD_X4_INC_P 0
    add     r0, 4*FENC_STRIDE
    lea     r1, [r1+4*r5]
    lea     r2, [r2+4*r5]
    lea     r3, [r3+4*r5]
    lea     r4, [r4+4*r5]
%endmacro

%macro SAD_X4_ONE_START 0
    mova    m4, [r0]
    movu    m0, [r1]
    movu    m1, [r2]
    movu    m2, [r3]
    movu    m3, [r4]
    psubw   m0, m4
    psubw   m1, m4
    psubw   m2, m4
    psubw   m3, m4
    ABSW2   m0, m1, m0, m1, m5, m6
    ABSW2   m2, m3, m2, m3, m4, m7
%endmacro

%macro SAD_X4_ONE 2
    mova    m4, [r0+%1]
    movu    m5, [r1+%2]
    movu    m6, [r2+%2]
%if num_mmregs > 8
    movu    m7, [r3+%2]
    movu    m8, [r4+%2]
    psubw   m5, m4
    psubw   m6, m4
    psubw   m7, m4
    psubw   m8, m4
    ABSW2   m5, m6, m5, m6, m9, m10
    ABSW2   m7, m8, m7, m8, m9, m10
    paddw   m0, m5
    paddw   m1, m6
    paddw   m2, m7
    paddw   m3, m8
%elif cpuflag(ssse3)
    movu    m7, [r3+%2]
    psubw   m5, m4
    psubw   m6, m4
    psubw   m7, m4
    movu    m4, [r4+%2]
    pabsw   m5, m5
    psubw   m4, [r0+%1]
    pabsw   m6, m6
    pabsw   m7, m7
    pabsw   m4, m4
    paddw   m0, m5
    paddw   m1, m6
    paddw   m2, m7
    paddw   m3, m4
%else ; num_mmregs == 8 && !ssse3
    psubw   m5, m4
    psubw   m6, m4
    ABSW    m5, m5, m7
    ABSW    m6, m6, m7
    paddw   m0, m5
    paddw   m1, m6
    movu    m5, [r3+%2]
    movu    m6, [r4+%2]
    psubw   m5, m4
    psubw   m6, m4
    ABSW2   m5, m6, m5, m6, m7, m4
    paddw   m2, m5
    paddw   m3, m6
%endif
%endmacro

%macro SAD_X4_END 2
%if mmsize == 8 && %1*%2 == 256
    HADDUW    m0, m4
    HADDUW    m1, m5
    HADDUW    m2, m6
    HADDUW    m3, m7
%else
    HADDW     m0, m4
    HADDW     m1, m5
    HADDW     m2, m6
    HADDW     m3, m7
%endif
    mov       r0, r6mp
    movd [r0+ 0], xm0
    movd [r0+ 4], xm1
    movd [r0+ 8], xm2
    movd [r0+12], xm3
    RET
%endmacro

%macro SAD_X_2xNP 4
    %assign x %3
%rep %4
    SAD_X%1_ONE x*mmsize, x*mmsize
    SAD_X%1_ONE 2*FENC_STRIDE+x*mmsize, 2*%2+x*mmsize
    %assign x x+1
%endrep
%endmacro

%macro PIXEL_VSAD 0
cglobal pixel_vsad, 3,3,8
    mova      m0, [r0]
    mova      m1, [r0+16]
    mova      m2, [r0+2*r1]
    mova      m3, [r0+2*r1+16]
    lea       r0, [r0+4*r1]
    psubw     m0, m2
    psubw     m1, m3
    ABSW2     m0, m1, m0, m1, m4, m5
    paddw     m0, m1
    sub      r2d, 2
    je .end
.loop:
    mova      m4, [r0]
    mova      m5, [r0+16]
    mova      m6, [r0+2*r1]
    mova      m7, [r0+2*r1+16]
    lea       r0, [r0+4*r1]
    psubw     m2, m4
    psubw     m3, m5
    psubw     m4, m6
    psubw     m5, m7
    ABSW      m2, m2, m1
    ABSW      m3, m3, m1
    ABSW      m4, m4, m1
    ABSW      m5, m5, m1
    paddw     m0, m2
    paddw     m0, m3
    paddw     m0, m4
    paddw     m0, m5
    mova      m2, m6
    mova      m3, m7
    sub r2d, 2
    jg .loop
.end:
%if BIT_DEPTH == 9
    HADDW     m0, m1 ; max sum: 62(pixel diffs)*511(pixel_max)=31682
%else
    HADDUW    m0, m1 ; max sum: 62(pixel diffs)*1023(pixel_max)=63426
%endif
    movd     eax, m0
    RET
%endmacro
INIT_XMM sse2
PIXEL_VSAD
INIT_XMM ssse3
PIXEL_VSAD
INIT_XMM xop
PIXEL_VSAD

INIT_YMM avx2
cglobal pixel_vsad, 3,3
    mova      m0, [r0]
    mova      m1, [r0+2*r1]
    lea       r0, [r0+4*r1]
    psubw     m0, m1
    pabsw     m0, m0
    sub      r2d, 2
    je .end
.loop:
    mova      m2, [r0]
    mova      m3, [r0+2*r1]
    lea       r0, [r0+4*r1]
    psubw     m1, m2
    psubw     m2, m3
    pabsw     m1, m1
    pabsw     m2, m2
    paddw     m0, m1
    paddw     m0, m2
    mova      m1, m3
    sub      r2d, 2
    jg .loop
.end:
%if BIT_DEPTH == 9
    HADDW     m0, m1
%else
    HADDUW    m0, m1
%endif
    movd     eax, xm0
    RET

;-----------------------------------------------------------------------------
; void pixel_sad_xN_WxH( uint16_t *fenc, uint16_t *pix0, uint16_t *pix1,
;                        uint16_t *pix2, intptr_t i_stride, int scores[3] )
;-----------------------------------------------------------------------------
%macro SAD_X 3
cglobal pixel_sad_x%1_%2x%3, 6,7,XMM_REGS
    %assign regnum %1+1
    %xdefine STRIDE r %+ regnum
    mov     r6, %3/2-1
    SAD_X%1_ONE_START
    SAD_X%1_ONE 2*FENC_STRIDE, 2*STRIDE
    SAD_X_2xNP %1, STRIDE, 1, %2/(mmsize/2)-1
.loop:
    SAD_X%1_INC_P
    SAD_X_2xNP %1, STRIDE, 0, %2/(mmsize/2)
    dec     r6
    jg .loop
%if %1 == 4
    mov     r6, r6m
%endif
    SAD_X%1_END %2, %3
%endmacro

INIT_MMX mmx2
%define XMM_REGS 0
SAD_X 3, 16, 16
SAD_X 3, 16,  8
SAD_X 3,  8, 16
SAD_X 3,  8,  8
SAD_X 3,  8,  4
SAD_X 3,  4,  8
SAD_X 3,  4,  4
SAD_X 4, 16, 16
SAD_X 4, 16,  8
SAD_X 4,  8, 16
SAD_X 4,  8,  8
SAD_X 4,  8,  4
SAD_X 4,  4,  8
SAD_X 4,  4,  4
INIT_MMX ssse3
SAD_X 3,  4,  8
SAD_X 3,  4,  4
SAD_X 4,  4,  8
SAD_X 4,  4,  4
INIT_XMM ssse3
%define XMM_REGS 7
SAD_X 3, 16, 16
SAD_X 3, 16,  8
SAD_X 3,  8, 16
SAD_X 3,  8,  8
SAD_X 3,  8,  4
%define XMM_REGS 9
SAD_X 4, 16, 16
SAD_X 4, 16,  8
SAD_X 4,  8, 16
SAD_X 4,  8,  8
SAD_X 4,  8,  4
INIT_XMM sse2
%define XMM_REGS 8
SAD_X 3, 16, 16
SAD_X 3, 16,  8
SAD_X 3,  8, 16
SAD_X 3,  8,  8
SAD_X 3,  8,  4
%define XMM_REGS 11
SAD_X 4, 16, 16
SAD_X 4, 16,  8
SAD_X 4,  8, 16
SAD_X 4,  8,  8
SAD_X 4,  8,  4
INIT_XMM xop
%define XMM_REGS 7
SAD_X 3, 16, 16
SAD_X 3, 16,  8
SAD_X 3,  8, 16
SAD_X 3,  8,  8
SAD_X 3,  8,  4
%define XMM_REGS 9
SAD_X 4, 16, 16
SAD_X 4, 16,  8
SAD_X 4,  8, 16
SAD_X 4,  8,  8
SAD_X 4,  8,  4
INIT_YMM avx2
%define XMM_REGS 7
SAD_X 3, 16, 16
SAD_X 3, 16,  8
%define XMM_REGS 9
SAD_X 4, 16, 16
SAD_X 4, 16,  8

;-----------------------------------------------------------------------------
; void intra_sad_x3_4x4( uint16_t *fenc, uint16_t *fdec, int res[3] );
;-----------------------------------------------------------------------------

%macro INTRA_SAD_X3_4x4 0
cglobal intra_sad_x3_4x4, 3,3,7
%if cpuflag(ssse3)
    movddup   m0, [r1-1*FDEC_STRIDEB]
%else
    movq      m0, [r1-1*FDEC_STRIDEB]
    punpcklqdq m0, m0
%endif
    movq      m1, [r0+0*FENC_STRIDEB]
    movq      m2, [r0+2*FENC_STRIDEB]
    pshuflw   m6, m0, q1032
    paddw     m6, m0
    pshuflw   m5, m6, q2301
    paddw     m6, m5
    punpcklqdq m6, m6       ; A+B+C+D 8 times
    movhps    m1, [r0+1*FENC_STRIDEB]
    movhps    m2, [r0+3*FENC_STRIDEB]
    psubw     m3, m1, m0
    psubw     m0, m2
    ABSW2     m3, m0, m3, m0, m4, m5
    paddw     m0, m3
    movd      m3, [r1+0*FDEC_STRIDEB-4]
    movd      m4, [r1+2*FDEC_STRIDEB-4]
    movhps    m3, [r1+1*FDEC_STRIDEB-8]
    movhps    m4, [r1+3*FDEC_STRIDEB-8]
    pshufhw   m3, m3, q3333
    pshufhw   m4, m4, q3333
    pshuflw   m3, m3, q1111 ; FF FF EE EE
    pshuflw   m4, m4, q1111 ; HH HH GG GG
    paddw     m5, m3, m4
    paddw     m6, [pw_4]
    paddw     m6, m5
    pshufd    m5, m5, q1032
    paddw     m5, m6
    psrlw     m5, 3
    psubw     m6, m5, m2
    psubw     m5, m1
    psubw     m1, m3
    psubw     m2, m4
    ABSW2     m5, m6, m5, m6, m3, m4
    ABSW2     m1, m2, m1, m2, m3, m4
    paddw     m5, m6
    paddw     m1, m2
%if cpuflag(ssse3)
    phaddw    m0, m1
    movhlps   m3, m5
    paddw     m5, m3
    phaddw    m0, m5
    pmaddwd   m0, [pw_1]
    mova    [r2], m0
%else
    HADDW     m0, m3
    HADDW     m1, m3
    HADDW     m5, m3
    movd    [r2], m0 ; V prediction cost
    movd  [r2+4], m1 ; H prediction cost
    movd  [r2+8], m5 ; DC prediction cost
%endif
    RET
%endmacro

INIT_XMM sse2
INTRA_SAD_X3_4x4
INIT_XMM ssse3
INTRA_SAD_X3_4x4
INIT_XMM avx
INTRA_SAD_X3_4x4

;-----------------------------------------------------------------------------
; void intra_sad_x3_8x8( pixel *fenc, pixel edge[36], int res[3] );
;-----------------------------------------------------------------------------

;m0 = DC
;m6 = V
;m7 = H
;m1 = DC score
;m2 = V score
;m3 = H score
;m5 = temp
;m4 = pixel row

%macro INTRA_SAD_HVDC_ITER 2
    mova        m4, [r0+(%1-4)*FENC_STRIDEB]
    psubw       m4, m0
    ABSW        m4, m4, m5
    ACCUM    paddw, 1, 4, %1
    mova        m4, [r0+(%1-4)*FENC_STRIDEB]
    psubw       m4, m6
    ABSW        m4, m4, m5
    ACCUM    paddw, 2, 4, %1
    pshufd      m5, m7, %2
    psubw       m5, [r0+(%1-4)*FENC_STRIDEB]
    ABSW        m5, m5, m4
    ACCUM    paddw, 3, 5, %1
%endmacro

%macro INTRA_SAD_X3_8x8 0
cglobal intra_sad_x3_8x8, 3,3,8
    add         r0, 4*FENC_STRIDEB
    movu        m0, [r1+7*SIZEOF_PIXEL]
    mova        m6, [r1+16*SIZEOF_PIXEL] ;V prediction
    mova        m7, m0
    paddw       m0, m6
    punpckhwd   m7, m7
    HADDW       m0, m4
    paddw       m0, [pw_8]
    psrlw       m0, 4
    SPLATW      m0, m0
    INTRA_SAD_HVDC_ITER 0, q3333
    INTRA_SAD_HVDC_ITER 1, q2222
    INTRA_SAD_HVDC_ITER 2, q1111
    INTRA_SAD_HVDC_ITER 3, q0000
    movq        m7, [r1+7*SIZEOF_PIXEL]
    punpcklwd   m7, m7
    INTRA_SAD_HVDC_ITER 4, q3333
    INTRA_SAD_HVDC_ITER 5, q2222
    INTRA_SAD_HVDC_ITER 6, q1111
    INTRA_SAD_HVDC_ITER 7, q0000
%if cpuflag(ssse3)
    phaddw      m2, m3     ; 2 2 2 2 3 3 3 3
    movhlps     m3, m1
    paddw       m1, m3     ; 1 1 1 1 _ _ _ _
    phaddw      m2, m1     ; 2 2 3 3 1 1 _ _
    pmaddwd     m2, [pw_1] ; 2 3 1 _
    mova      [r2], m2
%else
    HADDW       m2, m4
    HADDW       m3, m4
    HADDW       m1, m4
    movd    [r2+0], m2
    movd    [r2+4], m3
    movd    [r2+8], m1
%endif
    RET
%endmacro

INIT_XMM sse2
INTRA_SAD_X3_8x8
INIT_XMM ssse3
INTRA_SAD_X3_8x8

%macro INTRA_SAD_HVDC_ITER_YMM 2
    mova       xm4, [r0+(%1-4)*FENC_STRIDEB]
    vinserti128 m4, m4, [r0+%1*FENC_STRIDEB], 1
    pshufd      m5, m7, %2
    psubw       m5, m4
    pabsw       m5, m5
    ACCUM    paddw, 2, 5, %1 ; H
    psubw       m5, m4, m6
    psubw       m4, m0
    pabsw       m5, m5
    pabsw       m4, m4
    ACCUM    paddw, 1, 5, %1 ; V
    ACCUM    paddw, 3, 4, %1 ; DC
%endmacro

INIT_YMM avx2
cglobal intra_sad_x3_8x8, 3,3,8
    add            r0, 4*FENC_STRIDEB
    movu          xm0, [r1+7*SIZEOF_PIXEL]
    vbroadcasti128 m6, [r1+16*SIZEOF_PIXEL] ; V prediction
    vpermq         m7, m0, q0011
    paddw         xm0, xm6
    paddw         xm0, [pw_1] ; equal to +8 after HADDW
    HADDW         xm0, xm4
    psrld         xm0, 4
    vpbroadcastw   m0, xm0
    punpcklwd      m7, m7
    INTRA_SAD_HVDC_ITER_YMM 0, q3333
    INTRA_SAD_HVDC_ITER_YMM 1, q2222
    INTRA_SAD_HVDC_ITER_YMM 2, q1111
    INTRA_SAD_HVDC_ITER_YMM 3, q0000
    phaddw         m1, m2     ; 1 1 1 1 2 2 2 2 1 1 1 1 2 2 2 2
    punpckhqdq     m2, m3, m3
    paddw          m3, m2     ; 3 3 3 3 _ _ _ _ 3 3 3 3 _ _ _ _
    phaddw         m1, m3     ; 1 1 2 2 3 3 _ _ 1 1 2 2 3 3 _ _
    vextracti128  xm2, m1, 1
    paddw         xm1, xm2    ; 1 1 2 2 3 3 _ _
    pmaddwd       xm1, [pw_1] ; 1 2 3 _
    mova         [r2], xm1
    RET