shithub: dav1d

ref: b9a43c60954a5ca338febf252a1abbed2cd9e4d0
dir: /src/x86/cdef_sse.asm/

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; Copyright © 2018, VideoLAN and dav1d authors
; Copyright © 2018, Two Orioles, LLC
; Copyright © 2019, VideoLabs
; All rights reserved.
;
; Redistribution and use in source and binary forms, with or without
; modification, are permitted provided that the following conditions are met:
;
; 1. Redistributions of source code must retain the above copyright notice, this
;    list of conditions and the following disclaimer.
;
; 2. Redistributions in binary form must reproduce the above copyright notice,
;    this list of conditions and the following disclaimer in the documentation
;    and/or other materials provided with the distribution.
;
; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
; ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
; WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
; DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
; ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
; (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
; ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

%include "ext/x86/x86inc.asm"

SECTION_RODATA 16

%if ARCH_X86_32
pb_0: times 16 db 0
pb_0xFF: times 16 db 0xFF
%endif
pw_8: times 8 dw 8
pw_128: times 8 dw 128
pw_256: times 8 dw 256
pw_2048: times 8 dw 2048
%if ARCH_X86_32
pw_0x7FFF: times 8 dw 0x7FFF
pw_0x8000: times 8 dw 0x8000
%endif
div_table_sse4: dd 840, 420, 280, 210, 168, 140, 120, 105
                dd 420, 210, 140, 105, 105, 105, 105, 105
div_table_ssse3: dw 840, 840, 420, 420, 280, 280, 210, 210, 168, 168, 140, 140, 120, 120, 105, 105
                 dw 420, 420, 210, 210, 140, 140, 105, 105, 105, 105, 105, 105, 105, 105, 105, 105
shufb_lohi: db 0, 8, 1, 9, 2, 10, 3, 11, 4, 12, 5, 13, 6, 14, 7, 15
shufw_6543210x: db 12, 13, 10, 11, 8, 9, 6, 7, 4, 5, 2, 3, 0, 1, 14, 15
tap_table: ; masks for 8-bit shift emulation
           db 0xFF, 0x7F, 0x3F, 0x1F, 0x0F, 0x07, 0x03, 0x01
           ; weights
           db 4, 2, 3, 3, 2, 1
           ; taps indices
           db -1 * 16 + 1, -2 * 16 + 2
           db  0 * 16 + 1, -1 * 16 + 2
           db  0 * 16 + 1,  0 * 16 + 2
           db  0 * 16 + 1,  1 * 16 + 2
           db  1 * 16 + 1,  2 * 16 + 2
           db  1 * 16 + 0,  2 * 16 + 1
           db  1 * 16 + 0,  2 * 16 + 0
           db  1 * 16 + 0,  2 * 16 - 1
           ; the last 6 are repeats of the first 6 so we don't need to & 7
           db -1 * 16 + 1, -2 * 16 + 2
           db  0 * 16 + 1, -1 * 16 + 2
           db  0 * 16 + 1,  0 * 16 + 2
           db  0 * 16 + 1,  1 * 16 + 2
           db  1 * 16 + 1,  2 * 16 + 2
           db  1 * 16 + 0,  2 * 16 + 1

SECTION .text

%macro movif32 2
 %if ARCH_X86_32
    mov     %1, %2
 %endif
%endmacro

%macro SAVE_ARG 2   ; varname, argnum
 %define %1_stkloc  [rsp+%2*gprsize]
 %define %1_argnum  %2
    mov             r2, r%2m
    mov      %1_stkloc, r2
%endmacro

%macro LOAD_ARG 1-2 0 ; varname, load_to_varname_register
 %if %2 == 0
    mov r %+ %{1}_argnum, %1_stkloc
 %else
    mov            %1q, %1_stkloc
 %endif
%endmacro

%macro LOAD_ARG32 1-2 ; varname, load_to_varname_register
 %if ARCH_X86_32
  %if %0 == 1
    LOAD_ARG %1
  %else
    LOAD_ARG %1, %2
  %endif
 %endif
%endmacro

%if ARCH_X86_32
 %define PIC_base_offset $$
 %define PIC_sym(sym) (PIC_reg+(sym)-PIC_base_offset)
%else
 %define PIC_sym(sym) sym
%endif

%macro SAVE_PIC_REG 1
 %if ARCH_X86_32
    mov       [esp+%1], PIC_reg
 %endif
%endmacro

%macro LOAD_PIC_REG 1
 %if ARCH_X86_32
    mov        PIC_reg, [esp+%1]
 %endif
%endmacro

%macro PMOVZXBW 2-3 0 ; %3 = half
 %if %3 == 1
    movd            %1, %2
 %else
    movq            %1, %2
 %endif
    punpcklbw       %1, m15
%endmacro

%macro PSHUFB_0 2
 %if cpuflag(ssse3)
    pshufb          %1, %2
 %else
    punpcklbw       %1, %1
    pshuflw         %1, %1, q0000
    punpcklqdq      %1, %1
 %endif
%endmacro

%macro LOAD_SEC_TAP 0
 %if ARCH_X86_64
    movd            m3, [secq+kq]
    PSHUFB_0        m3, m15
 %else
    movd            m2, [secq+kq]             ; sec_taps
    pxor            m3, m3
    PSHUFB_0        m2, m3
 %endif
%endmacro

%macro ACCUMULATE_TAP 7 ; tap_offset, shift, shift_mask, strength, mul_tap, w, stride
    ; load p0/p1
    movsx         offq, byte [dirq+kq+%1]       ; off1
 %if %6 == 4
    movq            m5, [stkq+offq*2+%7*0]      ; p0
    movhps          m5, [stkq+offq*2+%7*1]
 %else
    movu            m5, [stkq+offq*2+%7*0]      ; p0
 %endif
    neg           offq                          ; -off1
 %if %6 == 4
    movq            m6, [stkq+offq*2+%7*0]      ; p1
    movhps          m6, [stkq+offq*2+%7*1]
 %else
    movu            m6, [stkq+offq*2+%7*0]      ; p1
 %endif
 %if cpuflag(sse4)
    ; out of bounds values are set to a value that is a both a large unsigned
    ; value and a negative signed value.
    ; use signed max and unsigned min to remove them
    pmaxsw          m7, m5
    pminuw          m8, m5
    pmaxsw          m7, m6
    pminuw          m8, m6
 %else
  %if ARCH_X86_64
    pcmpeqw         m9, m14, m5
    pcmpeqw        m10, m14, m6
    pandn           m9, m5
    pandn          m10, m6
    pmaxsw          m7, m9                      ; max after p0
    pminsw          m8, m5                      ; min after p0
    pmaxsw          m7, m10                     ; max after p1
    pminsw          m8, m6                      ; min after p1
  %else
    pcmpeqw         m9, m5, OUT_OF_BOUNDS_MEM
    pandn           m9, m5
    pmaxsw          m7, m9                      ; max after p0
    pminsw          m8, m5                      ; min after p0
    pcmpeqw         m9, m6, OUT_OF_BOUNDS_MEM
    pandn           m9, m6
    pmaxsw          m7, m9                      ; max after p1
    pminsw          m8, m6                      ; min after p1
  %endif
 %endif

    ; accumulate sum[m13] over p0/p1
    psubw           m5, m4          ; diff_p0(p0 - px)
    psubw           m6, m4          ; diff_p1(p1 - px)
    packsswb        m5, m6          ; convert pixel diff to 8-bit
 %if cpuflag(ssse3)
  %if ARCH_X86_64 && cpuflag(sse4)
    pshufb          m5, m14         ; group diffs p0 and p1 into pairs
  %else
    pshufb          m5, [PIC_sym(shufb_lohi)]
  %endif
    pabsb           m6, m5
    psignb          m9, %5, m5
 %else
    movlhps         m6, m5
    punpckhbw       m6, m5
    pxor            m5, m5
    pcmpgtb         m5, m6
    paddb           m6, m5
    pxor            m6, m5
    paddb           m9, %5, m5
    pxor            m9, m5
 %endif
 %if ARCH_X86_64
    psrlw          m10, m6, %2      ; emulate 8-bit shift
    pand           m10, %3
    psubusb         m5, %4, m10
 %else
    psrlw           m5, m6, %2      ; emulate 8-bit shift
    pand            m5, %3
    paddusb         m5, %4
    pxor            m5, [PIC_sym(pb_0xFF)]
 %endif
    pminub          m5, m6          ; constrain(diff_p)
 %if cpuflag(ssse3)
    pmaddubsw       m5, m9          ; constrain(diff_p) * taps
 %else
    psrlw           m2, m5, 8
    psraw           m6, m9, 8
    psllw           m5, 8
    psllw           m9, 8
    pmullw          m2, m6
    pmulhw          m5, m9
    paddw           m5, m2
 %endif
    paddw          m13, m5
%endmacro

%macro LOAD_BODY 4  ; dst, src, block_width, tmp_stride
 %if %3 == 4
    PMOVZXBW        m0, [%2+strideq*0]
    PMOVZXBW        m1, [%2+strideq*1]
    PMOVZXBW        m2, [%2+strideq*2]
    PMOVZXBW        m3, [%2+stride3q]
 %else
    movu            m0, [%2+strideq*0]
    movu            m1, [%2+strideq*1]
    movu            m2, [%2+strideq*2]
    movu            m3, [%2+stride3q]
    punpckhbw       m4, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m5, m1, m15
    punpcklbw       m1, m15
    punpckhbw       m6, m2, m15
    punpcklbw       m2, m15
    punpckhbw       m7, m3, m15
    punpcklbw       m3, m15
 %endif
    mova     [%1+0*%4], m0
    mova     [%1+1*%4], m1
    mova     [%1+2*%4], m2
    mova     [%1+3*%4], m3
 %if %3 == 8
    mova [%1+0*%4+2*8], m4
    mova [%1+1*%4+2*8], m5
    mova [%1+2*%4+2*8], m6
    mova [%1+3*%4+2*8], m7
 %endif
%endmacro

%macro CDEF_FILTER 3 ; w, h, stride

 %if cpuflag(sse4)
  %define OUT_OF_BOUNDS 0x80008000
 %else
  %define OUT_OF_BOUNDS 0x7FFF7FFF
 %endif

 %if ARCH_X86_64
cglobal cdef_filter_%1x%2, 4, 9, 16, 3 * 16 + (%2+4)*%3, \
                           dst, stride, left, top, pri, sec, stride3, dst4, edge
    pcmpeqw        m14, m14
  %if cpuflag(sse4)
    psllw          m14, 15                  ; 0x8000
  %else
    psrlw          m14, 1                   ; 0x7FFF
  %endif
    pxor           m15, m15

  %define px rsp+3*16+2*%3
 %else
cglobal cdef_filter_%1x%2, 2, 7, 8, - 7 * 16 - (%2+4)*%3, \
                           dst, stride, left, top, stride3, dst4, edge
    SAVE_ARG      left, 2
    SAVE_ARG       top, 3
    SAVE_ARG       pri, 4
    SAVE_ARG       sec, 5
    SAVE_ARG       dir, 6
    SAVE_ARG   damping, 7

  %define PIC_reg r2
    LEA        PIC_reg, PIC_base_offset

  %if cpuflag(sse4)
   %define OUT_OF_BOUNDS_MEM [PIC_sym(pw_0x8000)]
  %else
   %define OUT_OF_BOUNDS_MEM [PIC_sym(pw_0x7FFF)]
  %endif

  %define m15 [PIC_sym(pb_0)]

  %define px esp+7*16+2*%3
 %endif

    mov          edged, r8m

    ; prepare pixel buffers - body/right
 %if %2 == 8
    lea          dst4q, [dstq+strideq*4]
 %endif
    lea       stride3q, [strideq*3]
    test         edged, 2                   ; have_right
    jz .no_right
    LOAD_BODY       px, dstq, %1, %3
 %if %2 == 8
    LOAD_BODY  px+4*%3, dst4q, %1, %3
 %endif
    jmp .body_done
.no_right:
    PMOVZXBW        m0, [dstq+strideq*0], %1 == 4
    PMOVZXBW        m1, [dstq+strideq*1], %1 == 4
    PMOVZXBW        m2, [dstq+strideq*2], %1 == 4
    PMOVZXBW        m3, [dstq+stride3q ], %1 == 4
 %if %2 == 8
    PMOVZXBW        m4, [dst4q+strideq*0], %1 == 4
    PMOVZXBW        m5, [dst4q+strideq*1], %1 == 4
    PMOVZXBW        m6, [dst4q+strideq*2], %1 == 4
    PMOVZXBW        m7, [dst4q+stride3q ], %1 == 4
 %endif
    mova     [px+0*%3], m0
    mova     [px+1*%3], m1
    mova     [px+2*%3], m2
    mova     [px+3*%3], m3
 %if %2 == 8
    mova     [px+4*%3], m4
    mova     [px+5*%3], m5
    mova     [px+6*%3], m6
    mova     [px+7*%3], m7
    mov dword [px+4*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+5*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+6*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+7*%3+%1*2], OUT_OF_BOUNDS
 %endif
    mov dword [px+0*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+1*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+2*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+3*%3+%1*2], OUT_OF_BOUNDS
.body_done:

    ; top
 %if ARCH_X86_64
    DEFINE_ARGS dst, stride, left, top2, pri, sec, stride3, top1, edge
 %else
    DEFINE_ARGS dst, stride, left, top2, stride3, top1, edge
 %endif
    LOAD_ARG32     top
    test         edged, 4                    ; have_top
    jz .no_top
    mov          top1q, [top2q+0*gprsize]
    mov          top2q, [top2q+1*gprsize]
    test         edged, 1                    ; have_left
    jz .top_no_left
    test         edged, 2                    ; have_right
    jz .top_no_right
 %if %1 == 4
    PMOVZXBW        m0, [top1q-2]
    PMOVZXBW        m1, [top2q-2]
 %else
    movu            m0, [top1q-4]
    movu            m1, [top2q-4]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    movu  [px-2*%3+8], m2
    movu  [px-1*%3+8], m3
 %endif
    movu  [px-2*%3-%1], m0
    movu  [px-1*%3-%1], m1
    jmp .top_done
.top_no_right:
 %if %1 == 4
    PMOVZXBW        m0, [top1q-%1]
    PMOVZXBW        m1, [top2q-%1]
    movu [px-2*%3-4*2], m0
    movu [px-1*%3-4*2], m1
 %else
    movu            m0, [top1q-%1]
    movu            m1, [top2q-%2]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    mova [px-2*%3-8*2], m0
    mova [px-2*%3-0*2], m2
    mova [px-1*%3-8*2], m1
    mova [px-1*%3-0*2], m3
 %endif
    mov dword [px-2*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px-1*%3+%1*2], OUT_OF_BOUNDS
    jmp .top_done
.top_no_left:
    test         edged, 2                   ; have_right
    jz .top_no_left_right
 %if %1 == 4
    PMOVZXBW        m0, [top1q]
    PMOVZXBW        m1, [top2q]
 %else
    movu            m0, [top1q]
    movu            m1, [top2q]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    movd [px-2*%3+8*2], m2
    movd [px-1*%3+8*2], m3
 %endif
    mova     [px-2*%3], m0
    mova     [px-1*%3], m1
    mov dword [px-2*%3-4], OUT_OF_BOUNDS
    mov dword [px-1*%3-4], OUT_OF_BOUNDS
    jmp .top_done
.top_no_left_right:
    PMOVZXBW        m0, [top1q], %1 == 4
    PMOVZXBW        m1, [top2q], %1 == 4
    mova     [px-2*%3], m0
    mova     [px-1*%3], m1
    mov dword [px-2*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px-1*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px-2*%3-4], OUT_OF_BOUNDS
    mov dword [px-1*%3-4], OUT_OF_BOUNDS
    jmp .top_done
.no_top:
 %if ARCH_X86_64
    SWAP            m0, m14
 %else
    mova            m0, OUT_OF_BOUNDS_MEM
 %endif
    movu   [px-2*%3-4], m0
    movu   [px-1*%3-4], m0
 %if %1 == 8
    movq   [px-2*%3+12], m0
    movq   [px-1*%3+12], m0
 %endif
 %if ARCH_X86_64
    SWAP            m0, m14
 %endif
.top_done:

    ; left
    test         edged, 1                   ; have_left
    jz .no_left
    SAVE_PIC_REG     0
    LOAD_ARG32    left
 %if %2 == 4
    movq            m0, [leftq]
 %else
    movu            m0, [leftq]
 %endif
    LOAD_PIC_REG     0
 %if %2 == 4
    punpcklbw       m0, m15
 %else
    punpckhbw       m1, m0, m15
    punpcklbw       m0, m15
    movhlps         m3, m1
    movd   [px+4*%3-4], m1
    movd   [px+6*%3-4], m3
    psrlq           m1, 32
    psrlq           m3, 32
    movd   [px+5*%3-4], m1
    movd   [px+7*%3-4], m3
 %endif
    movhlps         m2, m0
    movd   [px+0*%3-4], m0
    movd   [px+2*%3-4], m2
    psrlq           m0, 32
    psrlq           m2, 32
    movd   [px+1*%3-4], m0
    movd   [px+3*%3-4], m2
    jmp .left_done
.no_left:
    mov dword [px+0*%3-4], OUT_OF_BOUNDS
    mov dword [px+1*%3-4], OUT_OF_BOUNDS
    mov dword [px+2*%3-4], OUT_OF_BOUNDS
    mov dword [px+3*%3-4], OUT_OF_BOUNDS
 %if %2 == 8
    mov dword [px+4*%3-4], OUT_OF_BOUNDS
    mov dword [px+5*%3-4], OUT_OF_BOUNDS
    mov dword [px+6*%3-4], OUT_OF_BOUNDS
    mov dword [px+7*%3-4], OUT_OF_BOUNDS
 %endif
.left_done:

    ; bottom
 %if ARCH_X86_64
    DEFINE_ARGS dst, stride, dummy1, dst8, pri, sec, stride3, dummy2, edge
 %else
    DEFINE_ARGS dst, stride, dummy1, dst8, stride3, dummy2, edge
 %endif
    test         edged, 8                   ; have_bottom
    jz .no_bottom
    lea          dst8q, [dstq+%2*strideq]
    test         edged, 1                   ; have_left
    jz .bottom_no_left
    test         edged, 2                   ; have_right
    jz .bottom_no_right
 %if %1 == 4
    PMOVZXBW        m0, [dst8q-(%1/2)]
    PMOVZXBW        m1, [dst8q+strideq-(%1/2)]
 %else
    movu            m0, [dst8q-4]
    movu            m1, [dst8q+strideq-4]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    movu [px+(%2+0)*%3+8], m2
    movu [px+(%2+1)*%3+8], m3
 %endif
    movu [px+(%2+0)*%3-%1], m0
    movu [px+(%2+1)*%3-%1], m1
    jmp .bottom_done
.bottom_no_right:
 %if %1 == 4
    PMOVZXBW        m0, [dst8q-4]
    PMOVZXBW        m1, [dst8q+strideq-4]
    movu [px+(%2+0)*%3-4*2], m0
    movu [px+(%2+1)*%3-4*2], m1
 %else
    movu            m0, [dst8q-8]
    movu            m1, [dst8q+strideq-8]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    mova [px+(%2+0)*%3-8*2], m0
    mova [px+(%2+0)*%3-0*2], m2
    mova [px+(%2+1)*%3-8*2], m1
    mova [px+(%2+1)*%3-0*2], m3
    mov dword [px+(%2-1)*%3+8*2], OUT_OF_BOUNDS     ; overwritten by first mova
 %endif
    mov dword [px+(%2+0)*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+(%2+1)*%3+%1*2], OUT_OF_BOUNDS
    jmp .bottom_done
.bottom_no_left:
    test          edged, 2                  ; have_right
    jz .bottom_no_left_right
 %if %1 == 4
    PMOVZXBW        m0, [dst8q]
    PMOVZXBW        m1, [dst8q+strideq]
 %else
    movu            m0, [dst8q]
    movu            m1, [dst8q+strideq]
    punpckhbw       m2, m0, m15
    punpcklbw       m0, m15
    punpckhbw       m3, m1, m15
    punpcklbw       m1, m15
    mova [px+(%2+0)*%3+8*2], m2
    mova [px+(%2+1)*%3+8*2], m3
 %endif
    mova [px+(%2+0)*%3], m0
    mova [px+(%2+1)*%3], m1
    mov dword [px+(%2+0)*%3-4], OUT_OF_BOUNDS
    mov dword [px+(%2+1)*%3-4], OUT_OF_BOUNDS
    jmp .bottom_done
.bottom_no_left_right:
    PMOVZXBW        m0, [dst8q+strideq*0], %1 == 4
    PMOVZXBW        m1, [dst8q+strideq*1], %1 == 4
    mova [px+(%2+0)*%3], m0
    mova [px+(%2+1)*%3], m1
    mov dword [px+(%2+0)*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+(%2+1)*%3+%1*2], OUT_OF_BOUNDS
    mov dword [px+(%2+0)*%3-4], OUT_OF_BOUNDS
    mov dword [px+(%2+1)*%3-4], OUT_OF_BOUNDS
    jmp .bottom_done
.no_bottom:
 %if ARCH_X86_64
    SWAP            m0, m14
 %else
    mova            m0, OUT_OF_BOUNDS_MEM
 %endif
    movu [px+(%2+0)*%3-4], m0
    movu [px+(%2+1)*%3-4], m0
 %if %1 == 8
    movq [px+(%2+0)*%3+12], m0
    movq [px+(%2+1)*%3+12], m0
 %endif
 %if ARCH_X86_64
    SWAP            m0, m14
 %endif
.bottom_done:

    ; actual filter
    DEFINE_ARGS dst, stride, pridmp, damping, pri, sec, secdmp
 %if ARCH_X86_64
    movifnidn     prid, prim
    movifnidn     secd, secm
    mov       dampingd, r7m
 %else
    LOAD_ARG       pri
    LOAD_ARG       sec
    LOAD_ARG   damping, 1
 %endif

    SAVE_PIC_REG     8
    mov        pridmpd, prid
    mov        secdmpd, secd
    or         pridmpd, 1
    or         secdmpd, 1
    bsr        pridmpd, pridmpd
    bsr        secdmpd, secdmpd
    sub        pridmpd, dampingd
    sub        secdmpd, dampingd
    xor       dampingd, dampingd
    neg        pridmpd
    cmovl      pridmpd, dampingd
    neg        secdmpd
    cmovl      secdmpd, dampingd
 %if ARCH_X86_64
    mov       [rsp+ 0], pridmpq                 ; pri_shift
    mov       [rsp+16], secdmpq                 ; sec_shift
 %else
    mov     [esp+0x00], pridmpd
    mov     [esp+0x30], secdmpd
    mov dword [esp+0x04], 0                     ; zero upper 32 bits of psrlw
    mov dword [esp+0x34], 0                     ; source operand in ACCUMULATE_TAP
  %define PIC_reg r4
    LOAD_PIC_REG     8
 %endif

    DEFINE_ARGS dst, stride, pridmp, table, pri, sec, secdmp
    lea         tableq, [PIC_sym(tap_table)]
 %if ARCH_X86_64
    SWAP            m2, m11
    SWAP            m3, m12
 %endif
    movd            m2, [tableq+pridmpq]
    movd            m3, [tableq+secdmpq]
    PSHUFB_0        m2, m15                     ; pri_shift_mask
    PSHUFB_0        m3, m15                     ; sec_shift_mask
 %if ARCH_X86_64
    SWAP            m2, m11
    SWAP            m3, m12
 %else
  %define PIC_reg r6
    mov        PIC_reg, r4
    DEFINE_ARGS dst, stride, dir, table, pri, sec, secdmp
    LOAD_ARG       pri
    LOAD_ARG       dir, 1
    mova    [esp+0x10], m2
    mova    [esp+0x40], m3
 %endif

    ; pri/sec_taps[k] [4 total]
    DEFINE_ARGS dst, stride, dummy, tap, pri, sec
    movd            m0, prid
    movd            m1, secd
 %if ARCH_X86_64
    PSHUFB_0        m0, m15
    PSHUFB_0        m1, m15
 %else
  %if cpuflag(ssse3)
    pxor            m2, m2
  %endif
    mova            m3, [PIC_sym(pb_0xFF)]
    PSHUFB_0        m0, m2
    PSHUFB_0        m1, m2
    pxor            m0, m3
    pxor            m1, m3
    mova    [esp+0x20], m0
    mova    [esp+0x50], m1
 %endif
    and           prid, 1
    lea           priq, [tapq+8+priq*2]         ; pri_taps
    lea           secq, [tapq+12]               ; sec_taps

 %if ARCH_X86_64 && cpuflag(sse4)
    mova           m14, [shufb_lohi]
 %endif

    ; off1/2/3[k] [6 total] from [tapq+12+(dir+0/2/6)*2+k]
    DEFINE_ARGS dst, stride, dir, tap, pri, sec
 %if ARCH_X86_64
    mov           dird, r6m
    lea           dirq, [tapq+14+dirq*2]
    DEFINE_ARGS dst, stride, dir, stk, pri, sec, h, off, k
 %else
    lea           dird, [tapd+14+dird*2]
    DEFINE_ARGS dst, stride, dir, stk, pri, sec
  %define hd    dword [esp+8]
  %define offq  dstq
  %define kq    strideq
 %endif
    mov             hd, %1*%2*2/mmsize
    lea           stkq, [px]
    movif32 [esp+0x3C], strided
.v_loop:
    movif32 [esp+0x38], dstd
    mov             kq, 1
 %if %1 == 4
    movq            m4, [stkq+%3*0]
    movhps          m4, [stkq+%3*1]
 %else
    mova            m4, [stkq+%3*0]             ; px
 %endif

 %if ARCH_X86_32
  %xdefine m9   m3
  %xdefine m13  m7
  %xdefine  m7  m0
  %xdefine  m8  m1
 %endif

    pxor           m13, m13                     ; sum
    mova            m7, m4                      ; max
    mova            m8, m4                      ; min
.k_loop:
    movd            m2, [priq+kq]               ; pri_taps
 %if ARCH_X86_64
    PSHUFB_0        m2, m15
  %if cpuflag(ssse3)
    LOAD_SEC_TAP                                ; sec_taps
  %endif
    ACCUMULATE_TAP 0*2, [rsp+ 0], m11, m0, m2, %1, %3
  %if notcpuflag(ssse3)
    LOAD_SEC_TAP                                ; sec_taps
  %endif
    ACCUMULATE_TAP 2*2, [rsp+16], m12, m1, m3, %1, %3
    ACCUMULATE_TAP 6*2, [rsp+16], m12, m1, m3, %1, %3
 %else
  %if cpuflag(ssse3)
    pxor            m3, m3
  %endif
    PSHUFB_0        m2, m3
    ACCUMULATE_TAP 0*2, [esp+0x00], [esp+0x10], [esp+0x20], m2, %1, %3
    LOAD_SEC_TAP                                ; sec_taps
    ACCUMULATE_TAP 2*2, [esp+0x30], [esp+0x40], [esp+0x50], m2, %1, %3
  %if notcpuflag(ssse3)
    LOAD_SEC_TAP                                ; sec_taps
  %endif
    ACCUMULATE_TAP 6*2, [esp+0x30], [esp+0x40], [esp+0x50], m2, %1, %3
 %endif

    dec             kq
    jge .k_loop

    pxor            m6, m6
    pcmpgtw         m6, m13
    paddw          m13, m6
 %if cpuflag(ssse3)
    pmulhrsw       m13, [PIC_sym(pw_2048)]
 %else
    paddw          m13, [PIC_sym(pw_8)]
    psraw          m13, 4
 %endif
    paddw           m4, m13
    pminsw          m4, m7
    pmaxsw          m4, m8
    packuswb        m4, m4
    movif32       dstd, [esp+0x38]
    movif32    strided, [esp+0x3C]
 %if %1 == 4
    movd [dstq+strideq*0], m4
    psrlq           m4, 32
    movd [dstq+strideq*1], m4
 %else
    movq [dstq], m4
 %endif

 %if %1 == 4
 %define vloop_lines (mmsize/(%1*2))
    lea           dstq, [dstq+strideq*vloop_lines]
    add           stkq, %3*vloop_lines
 %else
    lea           dstq, [dstq+strideq]
    add           stkq, %3
 %endif
    dec             hd
    jg .v_loop

    RET
%endmacro

%macro MULLD 2
 %if cpuflag(sse4)
    pmulld          %1, %2
 %else
  %if ARCH_X86_32
   %define m15 m1
  %endif
    pmulhuw        m15, %1, %2
    pmullw          %1, %2
    pslld          m15, 16
    paddd           %1, m15
 %endif
%endmacro

%macro CDEF_DIR 0
 %if ARCH_X86_64
cglobal cdef_dir, 3, 5, 16, 32, src, stride, var, stride3
    lea       stride3q, [strideq*3]
    movq            m1, [srcq+strideq*0]
    movhps          m1, [srcq+strideq*1]
    movq            m3, [srcq+strideq*2]
    movhps          m3, [srcq+stride3q]
    lea           srcq, [srcq+strideq*4]
    movq            m5, [srcq+strideq*0]
    movhps          m5, [srcq+strideq*1]
    movq            m7, [srcq+strideq*2]
    movhps          m7, [srcq+stride3q]

    pxor            m8, m8
    psadbw          m0, m1, m8
    psadbw          m2, m3, m8
    psadbw          m4, m5, m8
    psadbw          m6, m7, m8
    packssdw        m0, m2
    packssdw        m4, m6
    packssdw        m0, m4
    SWAP            m0, m9

    punpcklbw       m0, m1, m8
    punpckhbw       m1, m8
    punpcklbw       m2, m3, m8
    punpckhbw       m3, m8
    punpcklbw       m4, m5, m8
    punpckhbw       m5, m8
    punpcklbw       m6, m7, m8
    punpckhbw       m7, m8

    mova            m8, [pw_128]
    psubw           m0, m8
    psubw           m1, m8
    psubw           m2, m8
    psubw           m3, m8
    psubw           m4, m8
    psubw           m5, m8
    psubw           m6, m8
    psubw           m7, m8
    psllw           m8, 3
    psubw           m9, m8                  ; partial_sum_hv[0]

    paddw           m8, m0, m1
    paddw          m10, m2, m3
    paddw           m8, m4
    paddw          m10, m5
    paddw           m8, m6
    paddw          m10, m7
    paddw           m8, m10                 ; partial_sum_hv[1]

    pmaddwd         m8, m8
    pmaddwd         m9, m9
    phaddd          m9, m8
    SWAP            m8, m9
    MULLD           m8, [div_table%+SUFFIX+48]

    pslldq          m9, m1, 2
    psrldq         m10, m1, 14
    pslldq         m11, m2, 4
    psrldq         m12, m2, 12
    pslldq         m13, m3, 6
    psrldq         m14, m3, 10
    paddw           m9, m0
    paddw          m10, m12
    paddw          m11, m13
    paddw          m10, m14                 ; partial_sum_diag[0] top/right half
    paddw           m9, m11                 ; partial_sum_diag[0] top/left half
    pslldq         m11, m4, 8
    psrldq         m12, m4, 8
    pslldq         m13, m5, 10
    psrldq         m14, m5, 6
    paddw           m9, m11
    paddw          m10, m12
    paddw           m9, m13
    paddw          m10, m14
    pslldq         m11, m6, 12
    psrldq         m12, m6, 4
    pslldq         m13, m7, 14
    psrldq         m14, m7, 2
    paddw           m9, m11
    paddw          m10, m12
    paddw           m9, m13                 ; partial_sum_diag[0][0-7]
    paddw          m10, m14                 ; partial_sum_diag[0][8-14,zero]
    pshufb         m10, [shufw_6543210x]
    punpckhwd      m11, m9, m10
    punpcklwd       m9, m10
    pmaddwd        m11, m11
    pmaddwd         m9, m9
    MULLD          m11, [div_table%+SUFFIX+16]
    MULLD           m9, [div_table%+SUFFIX+0]
    paddd           m9, m11                 ; cost[0a-d]

    pslldq         m10, m0, 14
    psrldq         m11, m0, 2
    pslldq         m12, m1, 12
    psrldq         m13, m1, 4
    pslldq         m14, m2, 10
    psrldq         m15, m2, 6
    paddw          m10, m12
    paddw          m11, m13
    paddw          m10, m14
    paddw          m11, m15
    pslldq         m12, m3, 8
    psrldq         m13, m3, 8
    pslldq         m14, m4, 6
    psrldq         m15, m4, 10
    paddw          m10, m12
    paddw          m11, m13
    paddw          m10, m14
    paddw          m11, m15
    pslldq         m12, m5, 4
    psrldq         m13, m5, 12
    pslldq         m14, m6, 2
    psrldq         m15, m6, 14
    paddw          m10, m12
    paddw          m11, m13
    paddw          m10, m14
    paddw          m11, m15                 ; partial_sum_diag[1][8-14,zero]
    paddw          m10, m7                  ; partial_sum_diag[1][0-7]
    pshufb         m11, [shufw_6543210x]
    punpckhwd      m12, m10, m11
    punpcklwd      m10, m11
    pmaddwd        m12, m12
    pmaddwd        m10, m10
    MULLD          m12, [div_table%+SUFFIX+16]
    MULLD          m10, [div_table%+SUFFIX+0]
    paddd          m10, m12                 ; cost[4a-d]
    phaddd          m9, m10                 ; cost[0a/b,4a/b]

    paddw          m10, m0, m1
    paddw          m11, m2, m3
    paddw          m12, m4, m5
    paddw          m13, m6, m7
    phaddw          m0, m4
    phaddw          m1, m5
    phaddw          m2, m6
    phaddw          m3, m7

    ; m0-3 are horizontal sums (x >> 1), m10-13 are vertical sums (y >> 1)
    pslldq          m4, m11, 2
    psrldq          m5, m11, 14
    pslldq          m6, m12, 4
    psrldq          m7, m12, 12
    pslldq         m14, m13, 6
    psrldq         m15, m13, 10
    paddw           m4, m10
    paddw           m5, m7
    paddw           m4, m6
    paddw           m5, m15                 ; partial_sum_alt[3] right
    paddw           m4, m14                 ; partial_sum_alt[3] left
    pshuflw         m6, m5, q3012
    punpckhwd       m5, m4
    punpcklwd       m4, m6
    pmaddwd         m5, m5
    pmaddwd         m4, m4
    MULLD           m5, [div_table%+SUFFIX+48]
    MULLD           m4, [div_table%+SUFFIX+32]
    paddd           m4, m5                  ; cost[7a-d]

    pslldq          m5, m10, 6
    psrldq          m6, m10, 10
    pslldq          m7, m11, 4
    psrldq         m10, m11, 12
    pslldq         m11, m12, 2
    psrldq         m12, 14
    paddw           m5, m7
    paddw           m6, m10
    paddw           m5, m11
    paddw           m6, m12
    paddw           m5, m13
    pshuflw         m7, m6, q3012
    punpckhwd       m6, m5
    punpcklwd       m5, m7
    pmaddwd         m6, m6
    pmaddwd         m5, m5
    MULLD           m6, [div_table%+SUFFIX+48]
    MULLD           m5, [div_table%+SUFFIX+32]
    paddd           m5, m6                  ; cost[5a-d]

    pslldq          m6, m1, 2
    psrldq          m7, m1, 14
    pslldq         m10, m2, 4
    psrldq         m11, m2, 12
    pslldq         m12, m3, 6
    psrldq         m13, m3, 10
    paddw           m6, m0
    paddw           m7, m11
    paddw           m6, m10
    paddw           m7, m13                 ; partial_sum_alt[3] right
    paddw           m6, m12                 ; partial_sum_alt[3] left
    pshuflw        m10, m7, q3012
    punpckhwd       m7, m6
    punpcklwd       m6, m10
    pmaddwd         m7, m7
    pmaddwd         m6, m6
    MULLD           m7, [div_table%+SUFFIX+48]
    MULLD           m6, [div_table%+SUFFIX+32]
    paddd           m6, m7                  ; cost[1a-d]

    pshufd          m0, m0, q1032
    pshufd          m1, m1, q1032
    pshufd          m2, m2, q1032
    pshufd          m3, m3, q1032

    pslldq         m10, m0, 6
    psrldq         m11, m0, 10
    pslldq         m12, m1, 4
    psrldq         m13, m1, 12
    pslldq         m14, m2, 2
    psrldq          m2, 14
    paddw          m10, m12
    paddw          m11, m13
    paddw          m10, m14
    paddw          m11, m2
    paddw          m10, m3
    pshuflw        m12, m11, q3012
    punpckhwd      m11, m10
    punpcklwd      m10, m12
    pmaddwd        m11, m11
    pmaddwd        m10, m10
    MULLD          m11, [div_table%+SUFFIX+48]
    MULLD          m10, [div_table%+SUFFIX+32]
    paddd          m10, m11                 ; cost[3a-d]

    phaddd          m9, m8                  ; cost[0,4,2,6]
    phaddd          m6, m10
    phaddd          m5, m4
    phaddd          m6, m5                  ; cost[1,3,5,7]
    pshufd          m4, m9, q3120

    ; now find the best cost
  %if cpuflag(sse4)
    pmaxsd          m9, m6
    pshufd          m0, m9, q1032
    pmaxsd          m0, m9
    pshufd          m1, m0, q2301
    pmaxsd          m0, m1                  ; best cost
  %else
    pcmpgtd         m0, m9, m6
    pand            m9, m0
    pandn           m0, m6
    por             m9, m0
    pshufd          m1, m9, q1032
    pcmpgtd         m0, m9, m1
    pand            m9, m0
    pandn           m0, m1
    por             m9, m0
    pshufd          m1, m9, q2301
    pcmpgtd         m0, m9, m1
    pand            m9, m0
    pandn           m0, m1
    por             m0, m9
  %endif

    ; get direction and variance
    punpckhdq       m1, m4, m6
    punpckldq       m4, m6
    psubd           m2, m0, m1
    psubd           m3, m0, m4
    mova    [rsp+0x00], m2                  ; emulate ymm in stack
    mova    [rsp+0x10], m3
    pcmpeqd         m1, m0                  ; compute best cost mask
    pcmpeqd         m4, m0
    packssdw        m4, m1
    pmovmskb       eax, m4                  ; get byte-idx from mask
    tzcnt          eax, eax
    mov            r1d, [rsp+rax*2]         ; get idx^4 complement from emulated ymm
    shr            eax, 1                   ; get direction by converting byte-idx to word-idx
    shr            r1d, 10
    mov         [varq], r1d
 %else
cglobal cdef_dir, 3, 5, 16, 96, src, stride, var, stride3
  %define PIC_reg r4
    LEA        PIC_reg, PIC_base_offset

    pxor            m0, m0
    mova            m1, [PIC_sym(pw_128)]

    lea       stride3q, [strideq*3]
    movq            m5, [srcq+strideq*0]
    movhps          m5, [srcq+strideq*1]
    movq            m7, [srcq+strideq*2]
    movhps          m7, [srcq+stride3q]
    psadbw          m2, m5, m0
    psadbw          m3, m7, m0
    packssdw        m2, m3
    punpcklbw       m4, m5, m0
    punpckhbw       m5, m0
    punpcklbw       m6, m7, m0
    punpckhbw       m7, m0
    psubw           m4, m1
    psubw           m5, m1
    psubw           m6, m1
    psubw           m7, m1

    mova    [esp+0x00], m4
    mova    [esp+0x10], m5
    mova    [esp+0x20], m6
    mova    [esp+0x50], m7

    lea           srcq, [srcq+strideq*4]
    movq            m5, [srcq+strideq*0]
    movhps          m5, [srcq+strideq*1]
    movq            m7, [srcq+strideq*2]
    movhps          m7, [srcq+stride3q]
    psadbw          m3, m5, m0
    psadbw          m0, m7, m0
    packssdw        m3, m0
    pxor            m0, m0
    packssdw        m2, m3
    punpcklbw       m4, m5, m0
    punpckhbw       m5, m0
    punpcklbw       m6, m7, m0
    punpckhbw       m7, m0
    psubw           m4, m1
    psubw           m5, m1
    psubw           m6, m1
    psubw           m7, m1

    psllw           m1, 3
    psubw           m2, m1                  ; partial_sum_hv[0]
    pmaddwd         m2, m2

    mova            m3, [esp+0x50]
    mova            m0, [esp+0x00]
    paddw           m0, [esp+0x10]
    paddw           m1, m3, [esp+0x20]
    paddw           m0, m4
    paddw           m1, m5
    paddw           m0, m6
    paddw           m1, m7
    paddw           m0, m1                  ; partial_sum_hv[1]
    pmaddwd         m0, m0

    phaddd          m2, m0
    MULLD           m2, [PIC_sym(div_table%+SUFFIX)+48]
    mova    [esp+0x30], m2

    mova            m1, [esp+0x10]
    pslldq          m0, m1, 2
    psrldq          m1, 14
    paddw           m0, [esp+0x00]
    pslldq          m2, m3, 6
    psrldq          m3, 10
    paddw           m0, m2
    paddw           m1, m3
    mova            m3, [esp+0x20]
    pslldq          m2, m3, 4
    psrldq          m3, 12
    paddw           m0, m2                  ; partial_sum_diag[0] top/left half
    paddw           m1, m3                  ; partial_sum_diag[0] top/right half
    pslldq          m2, m4, 8
    psrldq          m3, m4, 8
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m5, 10
    psrldq          m3, m5, 6
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m6, 12
    psrldq          m3, m6, 4
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m7, 14
    psrldq          m3, m7, 2
    paddw           m0, m2                  ; partial_sum_diag[0][0-7]
    paddw           m1, m3                  ; partial_sum_diag[0][8-14,zero]
    mova            m3, [esp+0x50]
    pshufb          m1, [PIC_sym(shufw_6543210x)]
    punpckhwd       m2, m0, m1
    punpcklwd       m0, m1
    pmaddwd         m2, m2
    pmaddwd         m0, m0
    MULLD           m2, [PIC_sym(div_table%+SUFFIX)+16]
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+0]
    paddd           m0, m2                  ; cost[0a-d]
    mova    [esp+0x40], m0

    mova            m1, [esp+0x00]
    pslldq          m0, m1, 14
    psrldq          m1, 2
    paddw           m0, m7
    pslldq          m2, m3, 8
    psrldq          m3, 8
    paddw           m0, m2
    paddw           m1, m3
    mova            m3, [esp+0x20]
    pslldq          m2, m3, 10
    psrldq          m3, 6
    paddw           m0, m2
    paddw           m1, m3
    mova            m3, [esp+0x10]
    pslldq          m2, m3, 12
    psrldq          m3, 4
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m4, 6
    psrldq          m3, m4, 10
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m5, 4
    psrldq          m3, m5, 12
    paddw           m0, m2
    paddw           m1, m3
    pslldq          m2, m6, 2
    psrldq          m3, m6, 14
    paddw           m0, m2                  ; partial_sum_diag[1][0-7]
    paddw           m1, m3                  ; partial_sum_diag[1][8-14,zero]
    mova            m3, [esp+0x50]
    pshufb          m1, [PIC_sym(shufw_6543210x)]
    punpckhwd       m2, m0, m1
    punpcklwd       m0, m1
    pmaddwd         m2, m2
    pmaddwd         m0, m0
    MULLD           m2, [PIC_sym(div_table%+SUFFIX)+16]
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+0]
    paddd           m0, m2                  ; cost[4a-d]
    phaddd          m1, [esp+0x40], m0      ; cost[0a/b,4a/b]
    phaddd          m1, [esp+0x30]          ; cost[0,4,2,6]
    mova    [esp+0x30], m1

    phaddw          m0, [esp+0x00], m4
    phaddw          m1, [esp+0x10], m5
    paddw           m4, m5
    mova            m2, [esp+0x20]
    paddw           m5, m2, m3
    phaddw          m2, m6
    paddw           m6, m7
    phaddw          m3, m7
    mova            m7, [esp+0x00]
    paddw           m7, [esp+0x10]
    mova    [esp+0x00], m0
    mova    [esp+0x10], m1
    mova    [esp+0x20], m2

    pslldq          m1, m4, 4
    pslldq          m2, m6, 6
    pslldq          m0, m5, 2
    paddw           m1, m2
    paddw           m0, m7
    psrldq          m2, m5, 14
    paddw           m0, m1                  ; partial_sum_alt[3] left
    psrldq          m1, m4, 12
    paddw           m1, m2
    psrldq          m2, m6, 10
    paddw           m1, m2                  ; partial_sum_alt[3] right
    pshuflw         m1, m1, q3012
    punpckhwd       m2, m0, m1
    punpcklwd       m0, m1
    pmaddwd         m2, m2
    pmaddwd         m0, m0
    MULLD           m2, [PIC_sym(div_table%+SUFFIX)+48]
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+32]
    paddd           m0, m2                  ; cost[7a-d]
    mova    [esp+0x40], m0

    pslldq          m0, m7, 6
    psrldq          m7, 10
    pslldq          m1, m5, 4
    psrldq          m5, 12
    pslldq          m2, m4, 2
    psrldq          m4, 14
    paddw           m0, m6
    paddw           m7, m5
    paddw           m0, m1
    paddw           m7, m4
    paddw           m0, m2
    pshuflw         m2, m7, q3012
    punpckhwd       m7, m0
    punpcklwd       m0, m2
    pmaddwd         m7, m7
    pmaddwd         m0, m0
    MULLD           m7, [PIC_sym(div_table%+SUFFIX)+48]
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+32]
    paddd           m0, m7                  ; cost[5a-d]
    mova    [esp+0x50], m0

    mova            m7, [esp+0x10]
    mova            m2, [esp+0x20]
    pslldq          m0, m7, 2
    psrldq          m7, 14
    pslldq          m4, m2, 4
    psrldq          m2, 12
    pslldq          m5, m3, 6
    psrldq          m6, m3, 10
    paddw           m0, [esp+0x00]
    paddw           m7, m2
    paddw           m4, m5
    paddw           m7, m6                  ; partial_sum_alt[3] right
    paddw           m0, m4                  ; partial_sum_alt[3] left
    pshuflw         m2, m7, q3012
    punpckhwd       m7, m0
    punpcklwd       m0, m2
    pmaddwd         m7, m7
    pmaddwd         m0, m0
    MULLD           m7, [PIC_sym(div_table%+SUFFIX)+48]
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+32]
    paddd           m0, m7                  ; cost[1a-d]
    SWAP            m0, m4

    pshufd          m0, [esp+0x00], q1032
    pshufd          m1, [esp+0x10], q1032
    pshufd          m2, [esp+0x20], q1032
    pshufd          m3, m3, q1032
    mova    [esp+0x00], m4

    pslldq          m4, m0, 6
    psrldq          m0, 10
    pslldq          m5, m1, 4
    psrldq          m1, 12
    pslldq          m6, m2, 2
    psrldq          m2, 14
    paddw           m4, m3
    paddw           m0, m1
    paddw           m5, m6
    paddw           m0, m2
    paddw           m4, m5
    pshuflw         m2, m0, q3012
    punpckhwd       m0, m4
    punpcklwd       m4, m2
    pmaddwd         m0, m0
    pmaddwd         m4, m4
    MULLD           m0, [PIC_sym(div_table%+SUFFIX)+48]
    MULLD           m4, [PIC_sym(div_table%+SUFFIX)+32]
    paddd           m4, m0                   ; cost[3a-d]

    mova            m1, [esp+0x00]
    mova            m2, [esp+0x50]
    mova            m0, [esp+0x30]          ; cost[0,4,2,6]
    phaddd          m1, m4
    phaddd          m2, [esp+0x40]          ; cost[1,3,5,7]
    phaddd          m1, m2
    pshufd          m2, m0, q3120

    ; now find the best cost
  %if cpuflag(sse4)
    pmaxsd          m0, m1
    pshufd          m3, m0, q1032
    pmaxsd          m3, m0
    pshufd          m0, m3, q2301
    pmaxsd          m0, m3
  %else
    pcmpgtd         m3, m0, m1
    pand            m0, m3
    pandn           m3, m1
    por             m0, m3
    pshufd          m4, m0, q1032
    pcmpgtd         m3, m0, m4
    pand            m0, m3
    pandn           m3, m4
    por             m0, m3
    pshufd          m4, m0, q2301
    pcmpgtd         m3, m0, m4
    pand            m0, m3
    pandn           m3, m4
    por             m0, m3
  %endif

    ; get direction and variance
    punpckhdq       m3, m2, m1
    punpckldq       m2, m1
    psubd           m1, m0, m3
    psubd           m4, m0, m2
    mova    [esp+0x00], m1                  ; emulate ymm in stack
    mova    [esp+0x10], m4
    pcmpeqd         m3, m0                  ; compute best cost mask
    pcmpeqd         m2, m0
    packssdw        m2, m3
    pmovmskb       eax, m2                  ; get byte-idx from mask
    tzcnt          eax, eax
    mov            r1d, [esp+eax*2]         ; get idx^4 complement from emulated ymm
    shr            eax, 1                   ; get direction by converting byte-idx to word-idx
    shr            r1d, 10
    mov         [vard], r1d
 %endif

    RET
%endmacro

INIT_XMM sse4
CDEF_FILTER 8, 8, 32
CDEF_FILTER 4, 8, 32
CDEF_FILTER 4, 4, 32
CDEF_DIR

INIT_XMM ssse3
CDEF_FILTER 8, 8, 32
CDEF_FILTER 4, 8, 32
CDEF_FILTER 4, 4, 32
CDEF_DIR

INIT_XMM sse2
CDEF_FILTER 8, 8, 32
CDEF_FILTER 4, 8, 32
CDEF_FILTER 4, 4, 32