; Copyright © 2021, VideoLAN and dav1d authors ; Copyright © 2021, Two Orioles, LLC ; 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 "config.asm" %include "ext/x86/x86inc.asm" SECTION_RODATA 16 %if ARCH_X86_64 %define PIC_sym(a) a %else %define PIC_base $$ %define PIC_sym(a) pic_regq+a-PIC_base %endif pb_4x1_4x5_4x9_4x13: times 4 db 0, 1 times 4 db 8, 9 pw_1: times 8 dw 1 pw_2: times 8 dw 2 pw_3: times 8 dw 3 ; 4 and 16 need to be next to each other since they are used as alternates ; depending on whether bitdepth is 10 or 12 pw_4: times 8 dw 4 pw_16: times 8 dw 16 pw_8: times 8 dw 8 pw_4096: times 8 dw 4096 pb_mask: dd 1, 1, 2, 2 SECTION .text %if ARCH_X86_32 %if STACK_ALIGNMENT < 16 %define extra_stack 2 %else %define extra_stack 0 %endif %endif %macro RELOC_ARGS 2 ; h/v, off ASSERT ARCH_X86_32 %if STACK_ALIGNMENT < 16 mov r5d, [rstk + stack_offset + 4*4 + 4] %define lstridem [esp+%2+0*gprsize] mov lstridem, r5d mov r5d, [rstk + stack_offset + 4*5 + 4] %define lutm [esp+%2+1*gprsize] mov lutm, r5d mov r5d, [rstk + stack_offset + 4*6 + 4] %ifidn %1, v %define wm [esp+%2+2*gprsize] mov wm, r5d mov r5d, [rstk + stack_offset + 4*3 + 4] %define lm [esp+%2+3*gprsize] mov lm, r5d %else ; %1 == h %define hm [esp+%2+2*gprsize] mov hm, r5d %endif ; %1==v mov r5d, r7m %define bdmulm [esp+%2+4*gprsize] mov bdmulm, r5d %else %define lstridem r4m %define lutm r5m %ifidn %1, v %define wm r6m %define lm r3m %else %define hm r6m %endif %define bdmulm r7m %endif ; STACK_ALIGNMENT %endmacro %macro UNRELOC_ARGS 0 %if ARCH_X86_32 %undef lm %undef lstridem %undef wm %undef hm %undef lutm %endif %endmacro %macro SPLATD 2 movd %1, %2 pshufd %1, %1, q0000 %endmacro %macro SPLATW 2 movd %1, %2 pshuflw %1, %1, q0000 punpcklqdq %1, %1 %endmacro ; in: out: ; mm%1 a b c d a e i m ; mm%2 e f g h b f j n ; mm%3 i j k l -> c g k o ; mm%4 m n o p d h l p %macro TRANSPOSE4X4W 5 punpcklwd m%5, m%1, m%2 punpckhwd m%1, m%2 punpcklwd m%2, m%3, m%4 punpckhwd m%3, m%4 punpckldq m%4, m%5, m%2 punpckhdq m%5, m%2 punpckldq m%2, m%1, m%3 punpckhdq m%1, m%3 SWAP %1, %4 SWAP %2, %5, %3 %endmacro ; in: out: ; m%1 a b c d e f g h a i q y 6 E M U ; m%2 i j k l m n o p b j r z 7 F N V ; m%3 q r s t u v w x c k s 0 8 G O W ; m%4 y z 0 1 2 3 4 5 d l t 1 9 H P X ; m%5 6 7 8 9 A B C D -> e m u 2 A I Q Y ; m%6 E F G H I J K L f n v 3 B J R Z ; m%7 M N O P Q R S T g o w 4 C K S + ; m%8 U V W X Y Z + = h p x 5 D L T = %if ARCH_X86_64 %macro TRANSPOSE8X8W 9 ; m%1 a b c d e f g h a i q y b j r z ; m%2 i j k l m n o p c k s 0 d l t 1 ; m%3 q r s t u v w x -> e m u 2 f n v 3 ; m%4 y z 0 1 2 3 4 5 g o w 4 h p x 5 TRANSPOSE4X4W %1, %2, %3, %4, %9 ; m%5 6 7 8 9 A B C D 6 E M U 7 F N V ; m%6 E F G H I J K L 8 G O W 9 H P X ; m%7 M N O P Q R S T -> A I Q Y B J R Z ; m%8 U V W X Y Z + = C K S + D L T = TRANSPOSE4X4W %5, %6, %7, %8, %9 ; m%1 a i q y b j r z a i q y 6 E M U ; m%2 c k s 0 d l t 1 b j r z 7 F N V ; m%3 e m u 2 f n v 3 c k s 0 8 G O W ; m%4 g o w 4 h p x 5 d l t 1 9 H P X ; m%5 6 E M U 7 F N V -> e m u 2 A I Q Y ; m%6 8 G O W 9 H P X f n v 3 B J R Z ; m%7 A I Q Y B J R Z g o w 4 C K S + ; m%8 C K S + D L T = h p x 5 D L T = punpckhqdq m%9, m%1, m%5 punpcklqdq m%1, m%5 punpckhqdq m%5, m%2, m%6 punpcklqdq m%2, m%6 punpckhqdq m%6, m%3, m%7 punpcklqdq m%3, m%7 punpckhqdq m%7, m%4, m%8 punpcklqdq m%4, m%8 SWAP %8, %7, %4, %5, %3, %2, %9 %endmacro %else ; x86-32 ; input: 1-7 in registers, 8 in first memory [read-only] ; second memory is scratch, and may overlap with first or third memory ; output: 1-5,7-8 in registers, 6 in third memory [write-only] %macro TRANSPOSE8X8W 13 ; regs [8x], mem [3x], a/u [in/out alignment [2x] TRANSPOSE4X4W %1, %2, %3, %4, %8 %ifnidn %9, "" mov%12 m%8, %9 %else mova m%8, %10 %endif mova %10, m%4 TRANSPOSE4X4W %5, %6, %7, %8, %4 punpckhqdq m%4, m%1, m%5 punpcklqdq m%1, m%5 punpckhqdq m%5, m%2, m%6 punpcklqdq m%2, m%6 punpckhqdq m%6, m%3, m%7 punpcklqdq m%3, m%7 mova m%7, %10 %ifnidn %11, "" mov%13 %11, m%6 %else mova %10, m%6 %endif punpckhqdq m%6, m%7, m%8 punpcklqdq m%7, m%8 ; 1,4,2,5,3,8,7,6 -> 1,2,3,4,5,6,7,8 SWAP %2, %4, %5, %3 SWAP %6, %8 %endmacro %endif ; x86-32/64 ; transpose and write m8-11, everything else is scratch %macro TRANSPOSE_8x4_AND_WRITE_4x8 5 ; p1, p0, q0, q1, tmp ; transpose 8x4 punpcklwd %5, %1, %2 punpckhwd %1, %2 punpcklwd %2, %3, %4 punpckhwd %3, %4 punpckldq %4, %5, %2 punpckhdq %5, %2 punpckldq %2, %1, %3 punpckhdq %1, %3 ; write out movq [dstq+strideq*0-4], %4 movhps [dstq+strideq*1-4], %4 movq [dstq+strideq*2-4], %5 movhps [dstq+stride3q -4], %5 lea dstq, [dstq+strideq*4] movq [dstq+strideq*0-4], %2 movhps [dstq+strideq*1-4], %2 movq [dstq+strideq*2-4], %1 movhps [dstq+stride3q -4], %1 lea dstq, [dstq+strideq*4] %endmacro %macro FILTER 2 ; width [4/6/8/16], dir [h/v] ; load data %ifidn %2, v %if %1 == 4 %if ARCH_X86_64 %define P1 m8 %define P0 m9 %define Q0 m10 %define Q1 m11 mova P1, [dstq+mstrideq*2] ; p1 mova P0, [dstq+mstrideq*1] ; p0 mova Q0, [dstq+strideq*0] ; q0 mova Q1, [dstq+strideq*1] ; q1 %else ; x86-32 %define P1 [dstq+mstrideq*2] %define P0 [dstq+mstrideq*1] %define Q0 [dstq+strideq*0] %define Q1 [dstq+strideq*1] %endif ; x86-32/64 %else ; %1 != 4 ; load 6-8 pixels, remainder (for wd=16) will be read inline lea tmpq, [dstq+mstrideq*4] %if ARCH_X86_64 ; we load p3 later %define P2 m13 %define P1 m8 %define P0 m9 %define Q0 m10 %define Q1 m11 %define Q2 m14 mova P2, [tmpq+strideq*1] mova P1, [tmpq+strideq*2] mova P0, [tmpq+stride3q] mova Q0, [dstq+strideq*0] mova Q1, [dstq+strideq*1] mova Q2, [dstq+strideq*2] %if %1 != 6 %define P3 [tmpq+strideq*0] %define Q3 m15 mova Q3, [dstq+stride3q] %endif ; %1 != 6 %else ; x86-32 %define P2 [tmpq+strideq*1] %define P1 [dstq+mstrideq*2] %define P0 [dstq+mstrideq*1] %define Q0 [dstq+strideq*0] %define Q1 [dstq+strideq*1] %define Q2 [dstq+strideq*2] %if %1 != 6 %define P3 [dstq+mstrideq*4] %define Q3 [dstq+stride3q] %endif ; %1 != 6 %endif ; x86-32/64 %endif ; %1 ==/!= 4 %else ; %2 != v ; load lines %if %1 == 4 movq m0, [dstq+strideq*0-4] movq m2, [dstq+strideq*1-4] movq m4, [dstq+strideq*2-4] movq m5, [dstq+stride3q -4] lea tmpq, [dstq+strideq*4] movq m3, [tmpq+strideq*0-4] movq m6, [tmpq+strideq*1-4] movq m1, [tmpq+strideq*2-4] movq m7, [tmpq+stride3q -4] ; transpose 4x8 ; m0: A-D0 ; m2: A-D1 ; m4: A-D2 ; m5: A-D3 ; m3: A-D4 ; m6: A-D5 ; m1: A-D6 ; m7: A-D7 punpcklwd m0, m2 punpcklwd m4, m5 punpcklwd m3, m6 punpcklwd m1, m7 ; m0: A0-1,B0-1,C0-1,D0-1 ; m4: A2-3,B2-3,C2-3,D2-3 ; m3: A4-5,B4-5,C4-5,D4-5 ; m1: A6-7,B6-7,C6-7,D6-7 punpckhdq m2, m0, m4 punpckldq m0, m4 punpckhdq m4, m3, m1 punpckldq m3, m1 ; m0: A0-3,B0-3 ; m2: C0-3,D0-3 ; m3: A4-7,B4-7 ; m4: C4-7,D4-7 punpckhqdq m1, m0, m3 punpcklqdq m0, m3 punpckhqdq m3, m2, m4 punpcklqdq m2, m4 ; m0: A0-7 ; m1: B0-7 ; m2: C0-7 ; m3: D0-7 %if ARCH_X86_64 SWAP 0, 8 SWAP 1, 9 SWAP 2, 10 SWAP 3, 11 %define P1 m8 %define P0 m9 %define Q0 m10 %define Q1 m11 %else %define P1 [esp+3*mmsize] %define P0 [esp+4*mmsize] %define Q0 [esp+5*mmsize] %define Q1 [esp+6*mmsize] mova P1, m0 mova P0, m1 mova Q0, m2 mova Q1, m3 %endif %elif %1 == 6 || %1 == 8 movu m0, [dstq+strideq*0-8] movu m1, [dstq+strideq*1-8] movu m2, [dstq+strideq*2-8] movu m3, [dstq+stride3q -8] lea tmpq, [dstq+strideq*4] movu m4, [tmpq+strideq*0-8] movu m5, [tmpq+strideq*1-8] movu m6, [tmpq+strideq*2-8] %if ARCH_X86_64 movu m7, [tmpq+stride3q -8] %endif ; transpose 8x16 ; m0: A-H0,A-H8 ; m1: A-H1,A-H9 ; m2: A-H2,A-H10 ; m3: A-H3,A-H11 ; m4: A-H4,A-H12 ; m5: A-H5,A-H13 ; m6: A-H6,A-H14 ; m7: A-H7,A-H15 %if ARCH_X86_64 punpcklwd m8, m0, m1 %else punpcklwd m7, m0, m1 %endif punpckhwd m0, m1 punpcklwd m1, m2, m3 punpckhwd m2, m3 punpcklwd m3, m4, m5 punpckhwd m4, m5 %if ARCH_X86_64 punpcklwd m5, m6, m7 punpckhwd m6, m7 %else mova [rsp+3*16], m4 movu m4, [tmpq+stride3q -8] punpcklwd m5, m6, m4 punpckhwd m6, m4 %endif ; m8: A0-1,B0-1,C0-1,D0-1 [m7 on x86-32] ; m0: E0-1,F0-1,G0-1,H0-1 ; m1: A2-3,B2-3,C2-3,D2-3 ; m2: E2-3,F2-3,G2-3,H2-3 ; m3: A4-5,B4-5,C4-5,D4-5 ; m4: E4-5,F4-5,G4-5,H4-5 [r3 on x86-32] ; m5: A6-7,B6-7,C6-7,D6-7 ; m6: E6-7,F6-7,G6-7,H6-7 %if ARCH_X86_64 punpckldq m7, m8, m1 punpckhdq m8, m1 %else punpckldq m4, m7, m1 punpckhdq m7, m1 %endif punpckldq m1, m0, m2 punpckhdq m0, m2 punpckldq m2, m3, m5 punpckhdq m3, m5 %if ARCH_X86_64 punpckldq m5, m4, m6 punpckhdq m4, m6 %else mova [rsp+4*16], m3 mova m3, [rsp+3*16] punpckldq m5, m3, m6 punpckhdq m3, m6 %endif ; m7: A0-3,B0-3 [m4 on x86-32] ; m8: C0-3,D0-3 [m7 on x86-32] ; m1: E0-3,F0-3 ; m0: G0-3,H0-3 ; m2: A4-7,B4-7 ; m3: C4-7,D4-7 [r4 on x86-32] ; m5: E4-7,F4-7 ; m4: G4-7,H4-7 [m3 on x86-32] %if ARCH_X86_64 %if %1 != 6 punpcklqdq m6, m7, m2 %endif punpckhqdq m7, m2 punpcklqdq m2, m8, m3 punpckhqdq m8, m3 punpcklqdq m3, m1, m5 punpckhqdq m1, m5 %if %1 != 6 punpckhqdq m5, m0, m4 %endif punpcklqdq m0, m4 %if %1 == 8 mova [rsp+1*16], m6 %define P3 [rsp+1*16] %endif ; 7,2,8,3,1,0,5 -> 13,8,9,10,11,14,15 SWAP 7, 13 SWAP 8, 2, 9 SWAP 3, 10 SWAP 1, 11 SWAP 0, 14 SWAP 5, 15 %define P2 m13 %define P1 m8 %define P0 m9 %define Q0 m10 %define Q1 m11 %define Q2 m14 %if %1 == 8 %define Q3 m15 %endif %else ; x86-32 %if %1 == 8 %define P3 [rsp+ 6*16] punpcklqdq m6, m4, m2 mova P3, m6 %endif mova m6, [rsp+4*16] punpckhqdq m4, m2 punpcklqdq m2, m7, m6 punpckhqdq m7, m6 punpcklqdq m6, m1, m5 punpckhqdq m1, m5 %if %1 == 8 %define Q3 [rsp+24*16] punpckhqdq m5, m0, m3 mova Q3, m5 %endif punpcklqdq m0, m3 %if %1 == 8 %define P2 [rsp+18*16] %define P1 [rsp+19*16] %define P0 [rsp+20*16] %define Q0 [rsp+21*16] %define Q1 [rsp+22*16] %define Q2 [rsp+23*16] %else %define P2 [rsp+3*16] %define P1 [rsp+4*16] %define P0 [rsp+5*16] %define Q0 [rsp+6*16] %define Q1 [rsp+7*16] %define Q2 [rsp+8*16] %endif mova P2, m4 mova P1, m2 mova P0, m7 mova Q0, m6 mova Q1, m1 mova Q2, m0 %endif ; x86-32/64 %else ; %1 == 16 ; We only use 14 pixels but we'll need the remainder at the end for ; the second transpose mova m0, [dstq+strideq*0-16] mova m1, [dstq+strideq*1-16] mova m2, [dstq+strideq*2-16] mova m3, [dstq+stride3q -16] lea tmpq, [dstq+strideq*4] mova m4, [tmpq+strideq*0-16] mova m5, [tmpq+strideq*1-16] mova m6, [tmpq+strideq*2-16] %if ARCH_X86_64 mova m7, [tmpq+stride3q -16] TRANSPOSE8X8W 0, 1, 2, 3, 4, 5, 6, 7, 8 SWAP 5, 13 SWAP 6, 8 SWAP 7, 9 %define P2 m13 %define P1 m8 %define P0 m9 %else ; x86-32 %define P2 [esp+18*16] %define P1 [esp+19*16] %define P0 [esp+20*16] TRANSPOSE8X8W 0, 1, 2, 3, 4, 5, 6, 7, \ [tmpq+stride3q -16], P2, "", a, a mova P1, m6 mova P0, m7 %endif ; x86-32/64 mova [rsp+ 7*16], m0 mova [rsp+ 8*16], m1 mova [rsp+ 9*16], m2 mova [rsp+10*16], m3 %define P3 [rsp+6*16] mova P3, m4 mova m0, [dstq+strideq*0] mova m1, [dstq+strideq*1] mova m2, [dstq+strideq*2] mova m3, [dstq+stride3q ] lea tmpq, [dstq+strideq*4] mova m4, [tmpq+strideq*0] mova m5, [tmpq+strideq*1] mova m6, [tmpq+strideq*2] %if ARCH_X86_64 mova m7, [tmpq+stride3q ] TRANSPOSE8X8W 0, 1, 2, 3, 4, 5, 6, 7, 10 SWAP 0, 10 SWAP 1, 11 SWAP 2, 14 SWAP 3, 15 %define Q0 m10 %define Q1 m11 %define Q2 m14 %define Q3 m15 %else ; x86-32 TRANSPOSE8X8W 0, 1, 2, 3, 4, 5, 6, 7, \ [tmpq+stride3q ], [rsp+12*16], "", a, a %define Q0 [esp+21*16] %define Q1 [esp+22*16] %define Q2 [esp+23*16] %define Q3 [esp+24*16] mova Q0, m0 mova Q1, m1 mova Q2, m2 mova Q3, m3 %endif ; x86-32/64 mova [rsp+11*16], m4 %if ARCH_X86_64 mova [rsp+12*16], m5 %endif mova [rsp+13*16], m6 mova [rsp+14*16], m7 %endif ; %1 == 4/6/8/16 %endif ; %2 ==/!= v ; load L/E/I/H %if ARCH_X86_32 %define l_strideq r5 mov l_strideq, dword lstridem %ifidn %2, v %define lq r3 mov lq, dword lm %endif %endif %ifidn %2, v %if cpuflag(sse4) pmovzxbw m1, [lq] pmovzxbw m0, [lq+l_strideq] pxor m2, m2 %else ; ssse3 movq m1, [lq] movq m0, [lq+l_strideq] pxor m2, m2 REPX {punpcklbw x, m2}, m1, m0 %endif ; ssse3/sse4 %else ; %2 != v movq m0, [lq] ; l0, l1 movq m1, [lq+l_strideq] ; l2, l3 punpckldq m0, m1 ; l0, l2, l1, l3 pxor m2, m2 punpcklbw m1, m0, m2 ; l0, l2 punpckhbw m0, m2 ; l1, l3 %endif ; %2==/!=v %if ARCH_X86_32 %ifidn %2, v %undef lq mov mstrideq, mstridem %endif %endif pcmpeqw m5, m2, m0 pand m1, m5 por m0, m1 ; l[x][] ? l[x][] : l[x-stride][] pshufb m0, [PIC_sym(pb_4x1_4x5_4x9_4x13)] ; l[x][1] pcmpeqw m5, m2, m0 ; !L psrlw m5, 1 %if ARCH_X86_64 psrlw m2, m0, [lutq+128] SPLATW m1, [lutq+136] %else ; x86-32 mov r5, lutm psrlw m2, m0, [r5+128] SPLATW m1, [r5+136] %endif ; x86-32/64 pminsw m2, m1 pmaxsw m2, [PIC_sym(pw_1)] ; I psrlw m1, m0, 4 ; H paddw m0, [PIC_sym(pw_2)] paddw m0, m0 paddw m0, m2 ; E REPX {pmullw x, [bdmulq]}, m0, m1, m2 %if ARCH_X86_32 %undef l_strideq lea stride3q, [strideq*3] %endif psubw m3, P1, P0 ; p1-p0 psubw m4, Q0, Q1 ; q0-q1 REPX {pabsw x, x}, m3, m4 pmaxsw m3, m5 pmaxsw m3, m4 pcmpgtw m7, m3, m1 ; hev %if %1 != 4 psubw m4, P2, P0 ; p2-p0 pabsw m4, m4 pmaxsw m4, m3 %if %1 != 6 mova m6, P3 ; p3 psubw m5, m6, P0 ; p3-p0 pabsw m5, m5 pmaxsw m4, m5 %endif ; %1 != 6 psubw m5, Q0, Q2 ; q0-q2 pabsw m5, m5 pmaxsw m4, m5 %if %1 != 6 psubw m5, Q0, Q3 ; q0-q3 pabsw m5, m5 pmaxsw m4, m5 %endif ; %1 != 6 pcmpgtw m4, [bdmulq] ; !flat8in psubw m5, P2, P1 ; p2-p1 pabsw m5, m5 %if %1 != 6 psubw m6, P2 ; p3-p2 pabsw m6, m6 pmaxsw m5, m6 psubw m6, Q2, Q3 ; q2-q3 pabsw m6, m6 pmaxsw m5, m6 %endif ; %1 != 6 psubw m6, Q2, Q1 ; q2-q1 pabsw m6, m6 pmaxsw m5, m6 %if %1 == 16 SPLATD m6, [maskq+8] SPLATD m1, [maskq+4] por m6, m1 pand m6, m12 pcmpeqd m6, m12 pand m5, m6 %else ; %1 != 16 SPLATD m6, [maskq+4] pand m6, m12 pcmpeqd m6, m12 pand m5, m6 ; only apply fm-wide to wd>4 blocks %endif ; %1==/!=16 pmaxsw m3, m5 %endif ; %1 != 4 pcmpgtw m3, m2 psubw m5, P1, Q1 ; p1-q1 psubw m6, P0, Q0 ; p0-q0 REPX {pabsw x, x}, m5, m6 paddw m6, m6 psrlw m5, 1 paddw m5, m6 ; abs(p0-q0)*2+(abs(p1-q1)>>1) pcmpgtw m5, m0 ; abs(p0-q0)*2+(abs(p1-q1)>>1) > E por m3, m5 %if %1 == 16 %ifidn %2, v lea tmpq, [dstq+mstrideq*8] mova m0, [tmpq+strideq*1] mova m1, [tmpq+strideq*2] mova m2, [tmpq+stride3q] %else ; %2 != v mova m0, [rsp+ 8*16] mova m1, [rsp+ 9*16] mova m2, [rsp+10*16] %endif ; %2==/!=v REPX {psubw x, P0}, m0, m1, m2 REPX {pabsw x, x}, m0, m1, m2 pmaxsw m1, m0 pmaxsw m1, m2 %ifidn %2, v lea tmpq, [dstq+strideq*4] mova m0, [tmpq+strideq*0] mova m2, [tmpq+strideq*1] mova m5, [tmpq+strideq*2] %else ; %2 != v mova m0, [rsp+11*16] mova m2, [rsp+12*16] mova m5, [rsp+13*16] %endif ; %2==/!=v REPX {psubw x, Q0}, m0, m2, m5 REPX {pabsw x, x}, m0, m2, m5 pmaxsw m0, m2 pmaxsw m1, m5 pmaxsw m1, m0 pcmpgtw m1, [bdmulq] ; !flat8out por m1, m4 ; !flat8in | !flat8out SPLATD m2, [maskq+8] pand m5, m2, m12 pcmpeqd m5, m12 pandn m1, m5 ; flat16 pandn m5, m3, m1 ; flat16 & fm SWAP 1, 5 SPLATD m5, [maskq+4] por m5, m2 pand m2, m5, m12 pcmpeqd m2, m12 pandn m4, m2 ; flat8in pandn m2, m3, m4 SWAP 2, 4 SPLATD m2, [maskq+0] por m2, m5 pand m2, m12 pcmpeqd m2, m12 pandn m3, m2 pandn m0, m4, m3 ; fm & !flat8 & !flat16 SWAP 0, 3 pandn m0, m1, m4 ; flat8 & !flat16 SWAP 0, 4 %elif %1 != 4 SPLATD m0, [maskq+4] pand m2, m0, m12 pcmpeqd m2, m12 pandn m4, m2 pandn m2, m3, m4 ; flat8 & fm SWAP 2, 4 SPLATD m2, [maskq+0] por m0, m2 pand m0, m12 pcmpeqd m0, m12 pandn m3, m0 pandn m0, m4, m3 ; fm & !flat8 SWAP 0, 3 %else ; %1 == 4 SPLATD m0, [maskq+0] pand m0, m12 pcmpeqd m0, m12 pandn m3, m0 ; fm %endif ; %1==/!=4 ; short filter %if ARCH_X86_64 SPLATW m0, r7m %else SPLATW m0, bdmulm %endif pcmpeqw m2, m2 psrlw m0, 1 ; 511 or 2047 pxor m2, m0 ; -512 or -2048 psubw m5, Q0, P0 ; q0-p0 paddw m6, m5, m5 paddw m6, m5 ; 3*(q0-p0) psubw m5, P1, Q1 ; iclip_diff(p1-q1) pminsw m5, m0 pmaxsw m5, m2 pand m5, m7 ; f=iclip_diff(p1-q1)&hev paddw m5, m6 ; f=iclip_diff(3*(q0-p0)+f) pminsw m5, m0 pmaxsw m5, m2 pand m3, m5 ; f&=fm paddw m5, m3, [PIC_sym(pw_3)] paddw m3, [PIC_sym(pw_4)] REPX {pminsw x, m0}, m5, m3 psraw m5, 3 ; f2 psraw m3, 3 ; f1 psubw m0, m2 ; 1023 or 4095 pxor m2, m2 %if ARCH_X86_64 paddw P0, m5 psubw Q0, m3 %else paddw m5, P0 psubw m6, Q0, m3 REPX {pminsw x, m0}, m5, m6 REPX {pmaxsw x, m2}, m5, m6 %endif paddw m3, [PIC_sym(pw_1)] psraw m3, 1 ; f=(f1+1)>>1 pandn m7, m3 ; f&=!hev SWAP 7, 3 %if ARCH_X86_64 paddw P1, m3 psubw Q1, m3 REPX {pminsw x, m0}, P1, P0, Q0, Q1 REPX {pmaxsw x, m2}, P1, P0, Q0, Q1 %else psubw m7, Q1, m3 paddw m3, P1 REPX {pminsw x, m0}, m7, m3 REPX {pmaxsw x, m2}, m7, m3 %if %1 > 4 mova P1, m3 mova P0, m5 mova Q0, m6 mova Q1, m7 %endif %endif %if %1 == 16 ; m8-11 = p1/p0/q0/q1, m4=flat8, m1=flat16 ; m12=filter bits mask ; m13-15=p2/q2/q3 ; m0,2-3,5-7 = free ; flat16 filter %ifidn %2, v lea tmpq, [dstq+mstrideq*8] mova m0, [tmpq+strideq*1] ; p6 mova m2, [tmpq+strideq*2] ; p5 mova m7, [tmpq+stride3q] ; p4 mova m6, [tmpq+strideq*4] ; p3 lea tmpq, [dstq+mstrideq*4] %else ; %2 != v mova m0, [rsp+ 8*16] mova m2, [rsp+ 9*16] mova m7, [rsp+10*16] mova m6, [rsp+ 6*16] %endif ; %2==/!=v mova [rsp+ 0*16], m4 ; p6*7+p5*2+p4*2+p3+p2+p1+p0+q0 psllw m3, m0, 3 ; p6*8 paddw m3, [PIC_sym(pw_8)] paddw m5, m2, m7 ; p5+p4 psubw m3, m0 paddw m5, m5 ; (p5+p4)*2 paddw m3, m6 ; p6*7+p3 paddw m5, P2 ; (p5+p4)*2+p2 paddw m3, P1 ; p6*7+p3+p1 paddw m5, P0 ; (p5+p4)*2+p2+p0 paddw m3, Q0 ; p6*7+p3+p1+q0 paddw m3, m5 ; p6*7+p5*2+p4*2+p3+p2+p1+p0+q0 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, m2 por m5, m4 %ifidn %2, v mova [tmpq+mstrideq*2], m5 ; p5 %else ; %2 != v mova [rsp+9*16], m5 %endif ; %2==/!=v ; sub p6*2, add p3/q1 paddw m3, m6 paddw m5, m0, m0 paddw m3, Q1 psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, m7 por m5, m4 %ifidn %2, v mova [tmpq+mstrideq*1], m5 ; p4 %else ; %2 != v mova [rsp+10*16], m5 %endif ; %2==/!=v ; sub p6/p5, add p2/q2 psubw m3, m0 paddw m5, P2, Q2 psubw m3, m2 paddw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, m6 por m5, m4 %ifidn %2, v mova [tmpq+strideq*0], m5 ; p3 %else ; %2 != v mova [rsp+6*16], m5 %endif ; %2==/!=v %define WRITE_IN_PLACE 0 %ifidn %2, v %if ARCH_X86_64 %define WRITE_IN_PLACE 1 %endif %endif ; sub p6/p4, add p1/q3 paddw m3, P1 paddw m5, m0, m7 paddw m3, Q3 psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, P2 por m5, m4 %if WRITE_IN_PLACE mova [tmpq+strideq*1], m5 %else mova [rsp+1*16], m5 ; don't clobber p2/m13 %endif ; sub p6/p3, add p0/q4 paddw m3, P0 paddw m5, m0, m6 %ifidn %2, v paddw m3, [dstq+strideq*4] %else ; %2 != v paddw m3, [rsp+11*16] %endif ; %2==/!=v psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, P1 por m5, m4 %if WRITE_IN_PLACE mova [dstq+mstrideq*2], m5 %else mova [rsp+2*16], m5 ; don't clobber p1/m3 %endif ; sub p6/p2, add q0/q5 paddw m3, Q0 paddw m5, m0, P2 %ifidn %2, v %if ARCH_X86_32 lea r4, P2 %endif lea tmpq, [dstq+strideq*4] paddw m3, [tmpq+strideq*1] %else ; %2 != v paddw m3, [rsp+12*16] %endif ; %2==/!=v psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, P0 por m5, m4 %if WRITE_IN_PLACE mova [dstq+mstrideq*1], m5 %else mova [rsp+3*16], m5 ; don't clobber p0/m4 %endif ; sub p6/p1, add q1/q6 paddw m3, Q1 paddw m5, m0, P1 %ifidn %2, v mova m0, [tmpq+strideq*2] ; q6 %else ; %2 != v mova m0, [rsp+13*16] ; q6 %endif ; %2==/!=v paddw m3, m0 psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, Q0 por m5, m4 %if WRITE_IN_PLACE mova [dstq], m5 %else mova [rsp+4*16], m5 ; don't clobber q0/m5 %endif ; sub p5/p0, add q2/q6 paddw m3, Q2 paddw m5, m2, P0 paddw m3, m0 psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 pandn m4, m1, Q1 por m2, m5, m4 ; don't clobber q1/m6 ; sub p4/q0, add q3/q6 paddw m3, Q3 paddw m7, Q0 paddw m3, m0 psubw m3, m7 psrlw m7, m3, 4 pand m7, m1 pandn m4, m1, Q2 por m7, m4 ; don't clobber q2/m14 ; sub p3/q1, add q4/q6 %ifidn %2, v paddw m3, [tmpq+strideq*0] %else ; %2 != v paddw m3, [rsp+11*16] %endif ; %2==/!=v paddw m6, Q1 paddw m3, m0 psubw m3, m6 psrlw m6, m3, 4 pand m6, m1 pandn m4, m1, Q3 por m6, m4 %if WRITE_IN_PLACE mova [tmpq+mstrideq], m6 ; q3 %else ; %2 != v mova [rsp+5*16], m6 %endif ; %2==/!=v ; sub p2/q2, add q5/q6 %ifidn %2, v paddw m3, [tmpq+strideq*1] %if ARCH_X86_64 paddw m5, P2, Q2 %else ; because tmpq is clobbered, so we use a backup pointer for P2 instead paddw m5, [r4], Q2 mov pic_regq, pic_regm %endif %else ; %2 != v paddw m3, [rsp+12*16] paddw m5, P2, Q2 %endif ; %2==/!=v paddw m3, m0 psubw m3, m5 psrlw m5, m3, 4 pand m5, m1 %ifidn %2, v pandn m4, m1, [tmpq+strideq*0] %else ; %2 != v pandn m4, m1, [rsp+11*16] %endif ; %2==/!=v por m5, m4 %ifidn %2, v mova [tmpq+strideq*0], m5 ; q4 %else ; %2 != v mova [rsp+11*16], m5 %endif ; %2==/!=v ; sub p1/q3, add q6*2 psubw m3, P1 paddw m0, m0 psubw m3, Q3 paddw m3, m0 psrlw m5, m3, 4 pand m5, m1 %ifidn %2, v pandn m4, m1, [tmpq+strideq*1] %else ; %2 != v pandn m4, m1, [rsp+12*16] %endif ; %2==/!=v por m5, m4 %ifidn %2, v mova [tmpq+strideq*1], m5 ; q5 %else ; %2 != v mova [rsp+12*16], m5 %endif ; %2==/!=v mova m4, [rsp+0*16] %ifidn %2, v lea tmpq, [dstq+mstrideq*4] %endif %if ARCH_X86_64 SWAP 2, 11 SWAP 7, 14 SWAP 6, 15 %else ; x86-32 mova Q1, m2 mova Q2, m7 %endif ; x86-32/64 %if WRITE_IN_PLACE mova P2, [tmpq+strideq*1] mova P1, [tmpq+strideq*2] mova P0, [tmpq+stride3q] mova Q0, [dstq] %elif ARCH_X86_64 mova P2, [rsp+1*16] mova P1, [rsp+2*16] mova P0, [rsp+3*16] mova Q0, [rsp+4*16] %else ; !WRITE_IN_PLACE & x86-32 mova m0, [rsp+1*16] mova m1, [rsp+2*16] mova m2, [rsp+3*16] mova m3, [rsp+4*16] mova m7, [rsp+5*16] mova P2, m0 mova P1, m1 mova P0, m2 mova Q0, m3 mova Q3, m7 %endif ; WRITE_IN_PLACE / x86-32/64 %undef WRITE_IN_PLACE %endif ; %1 == 16 %if %1 >= 8 ; flat8 filter mova m0, P3 ; p3 paddw m1, m0, P2 ; p3+p2 paddw m2, P1, P0 ; p1+p0 paddw m3, m1, m1 ; 2*(p3+p2) paddw m2, m0 ; p1+p0+p3 paddw m3, Q0 ; 2*(p3+p2)+q0 paddw m2, m3 ; 3*p3+2*p2+p1+p0+q0 pmulhrsw m7, m2, [PIC_sym(pw_4096)] psubw m7, P2 pand m7, m4 paddw m3, P1, Q1 ; p1+q1 psubw m2, m1 ; 2*p3+p2+p1+p0+q0 paddw m2, m3 ; 2*p3+p2+2*p1+p0+q0+q1 pmulhrsw m3, m2, [PIC_sym(pw_4096)] psubw m3, P1 pand m3, m4 paddw m5, m0, P1 ; p3+p1 paddw m6, P0, Q2 ; p0+q2 psubw m2, m5 ; p3+p2+p1+p0+q0+q1 paddw m2, m6 ; p3+p2+p1+2*p0+q0+q1+q2 pmulhrsw m5, m2, [PIC_sym(pw_4096)] psubw m5, P0 pand m5, m4 paddw m6, m0, P0 ; p3+p0 paddw m1, Q0, Q3 ; q0+q3 psubw m2, m6 ; p2+p1+p0+q0+q1+q2 paddw m2, m1 ; p2+p1+p0+2*q0+q1+q2+q3 pmulhrsw m6, m2, [PIC_sym(pw_4096)] psubw m6, Q0 pand m6, m4 paddw m2, Q1 ; p2+p1+p0+2*q0+2*q1+q2+q3 paddw m2, Q3 ; p2+p1+p0+2*q0+2*q1+q2+2*q3 paddw m1, P2, Q0 ; p2+q0 psubw m2, m1 ; p1+p0+q0+2*q1+q2+2*q3 pmulhrsw m1, m2, [PIC_sym(pw_4096)] psubw m1, Q1 pand m1, m4 psubw m2, P1 ; p0+q0+2*q1+q2+2*q3 psubw m2, Q1 ; p0+q0+q1+q2+2*q3 paddw m0, Q3, Q2 ; q3+q2 paddw m2, m0 ; p0+q0+q1+2*q2+3*q3 pmulhrsw m2, [PIC_sym(pw_4096)] psubw m2, Q2 pand m2, m4 paddw m7, P2 paddw m3, P1 paddw m5, P0 paddw m6, Q0 paddw m1, Q1 paddw m2, Q2 %ifidn %2, v mova [tmpq+strideq*1], m7 ; p2 mova [tmpq+strideq*2], m3 ; p1 mova [tmpq+stride3q ], m5 ; p0 mova [dstq+strideq*0], m6 ; q0 mova [dstq+strideq*1], m1 ; q1 mova [dstq+strideq*2], m2 ; q2 %else ; %2 != v mova m0, P3 %if %1 == 8 lea tmpq, [dstq+strideq*4] %if ARCH_X86_64 SWAP 4, 15 TRANSPOSE8X8W 0, 7, 3, 5, 6, 1, 2, 4, 8 %else TRANSPOSE8X8W 0, 7, 3, 5, 6, 1, 2, 4, "", \ Q3, [tmpq+strideq*1-8], a, u %endif ; write 8x8 movu [dstq+strideq*0-8], m0 movu [dstq+strideq*1-8], m7 movu [dstq+strideq*2-8], m3 movu [dstq+stride3q -8], m5 movu [tmpq+strideq*0-8], m6 %if ARCH_X86_64 movu [tmpq+strideq*1-8], m1 %endif movu [tmpq+strideq*2-8], m2 movu [tmpq+stride3q -8], m4 lea dstq, [dstq+strideq*8] %else ; %1 != 8 %if ARCH_X86_64 SWAP 6, 8 SWAP 1, 9 SWAP 2, 10 %else mova [rsp+1*16], m6 mova [rsp+2*16], m1 mova [rsp+3*16], m2 %endif mova m1, [rsp+ 7*16] mova m2, [rsp+ 8*16] mova m4, [rsp+ 9*16] mova m6, [rsp+10*16] lea tmpq, [dstq+strideq*4] %if ARCH_X86_64 TRANSPOSE8X8W 1, 2, 4, 6, 0, 7, 3, 5, 11 %else mova [rsp+7*16], m5 TRANSPOSE8X8W 1, 2, 4, 6, 0, 7, 3, 5, "", \ [rsp+7*16], [tmpq+strideq*1-16], a, a %endif mova [dstq+strideq*0-16], m1 mova [dstq+strideq*1-16], m2 mova [dstq+strideq*2-16], m4 mova [dstq+stride3q -16], m6 mova [tmpq+strideq*0-16], m0 %if ARCH_X86_64 mova [tmpq+strideq*1-16], m7 %endif mova [tmpq+strideq*2-16], m3 mova [tmpq+stride3q -16], m5 %if ARCH_X86_64 SWAP 6, 8 SWAP 1, 9 SWAP 2, 10 SWAP 4, 15 %else mova m6, [rsp+1*16] mova m1, [rsp+2*16] mova m2, [rsp+3*16] mova m4, Q3 %endif mova m0, [rsp+11*16] mova m3, [rsp+12*16] mova m5, [rsp+13*16] %if ARCH_X86_64 mova m7, [rsp+14*16] TRANSPOSE8X8W 6, 1, 2, 4, 0, 3, 5, 7, 8 %else TRANSPOSE8X8W 6, 1, 2, 4, 0, 3, 5, 7, "", \ [rsp+14*16], [tmpq+strideq*1], a, a %endif mova [dstq+strideq*0], m6 mova [dstq+strideq*1], m1 mova [dstq+strideq*2], m2 mova [dstq+stride3q ], m4 mova [tmpq+strideq*0], m0 %if ARCH_X86_64 mova [tmpq+strideq*1], m3 %endif mova [tmpq+strideq*2], m5 mova [tmpq+stride3q ], m7 lea dstq, [dstq+strideq*8] %endif ; %1==/!=8 %endif ; %2==/!=v %elif %1 == 6 ; flat6 filter paddw m3, P1, P0 ; p1+p0 paddw m3, P2 ; p2+p1+p0 paddw m6, P2, Q0 ; p2+q0 paddw m3, m3 ; 2*(p2+p1+p0) paddw m3, m6 ; p2+2*(p2+p1+p0)+q0 pmulhrsw m2, m3, [PIC_sym(pw_4096)] psubw m2, P1 pand m2, m4 paddw m3, Q0 ; p2+2*(p2+p1+p0+q0) paddw m6, P2, P2 ; 2*p2 paddw m3, Q1 ; p2+2*(p2+p1+p0+q0)+q1 psubw m3, m6 ; p2+2*(p1+p0+q0)+q1 pmulhrsw m5, m3, [PIC_sym(pw_4096)] psubw m5, P0 pand m5, m4 paddw m3, Q1 ; p2+2*(p1+p0+q0+q1) paddw m6, P2, P1 ; p2+p1 paddw m3, Q2 ; p2+2*(p1+p0+q0+q1)+q2 psubw m3, m6 ; p1+2*(p0+q0+q1)+q2 pmulhrsw m6, m3, [PIC_sym(pw_4096)] psubw m6, Q0 pand m6, m4 psubw m3, P1 ; 2*(p0+q0+q1)+q2 %if ARCH_X86_64 paddw Q2, Q2 ; q2*2 %else mova m0, Q2 paddw m0, m0 %endif psubw m3, P0 ; p0+2*(q0+q1)+q2 %if ARCH_X86_64 paddw m3, Q2 ; p0+q*(q0+q1+q2)+q2 %else paddw m3, m0 %endif pmulhrsw m3, [PIC_sym(pw_4096)] psubw m3, Q1 pand m3, m4 paddw m2, P1 paddw m5, P0 paddw m6, Q0 paddw m3, Q1 %ifidn %2, v mova [dstq+mstrideq*2], m2 ; p1 mova [dstq+mstrideq*1], m5 ; p0 mova [dstq+strideq*0], m6 ; q0 mova [dstq+strideq*1], m3 ; q1 %else ; %2 != v TRANSPOSE_8x4_AND_WRITE_4x8 m2, m5, m6, m3, m0 %endif ; %2==/!=v %else ; %1 == 4 %if ARCH_X86_64 %ifidn %2, v mova [dstq+mstrideq*2], P1 ; p1 mova [dstq+mstrideq*1], P0 ; p0 mova [dstq+strideq*0], Q0 ; q0 mova [dstq+strideq*1], Q1 ; q1 %else ; %2 != v TRANSPOSE_8x4_AND_WRITE_4x8 P1, P0, Q0, Q1, m0 %endif ; %2==/!=v %else ; x86-32 %ifidn %2, v mova [dstq+mstrideq*2], m3 mova [dstq+mstrideq*1], m5 mova [dstq+strideq*0], m6 mova [dstq+strideq*1], m7 %else ; %2 != v TRANSPOSE_8x4_AND_WRITE_4x8 m3, m5, m6, m7, m0 %endif ; %2==/!=v %endif ; x86-32/64 %endif ; %1 %undef P3 %undef P2 %undef P1 %undef P0 %undef Q0 %undef Q1 %undef Q2 %undef Q3 %endmacro INIT_XMM ssse3 ; stack layout: ; r0 - flat8 backup inside flat16 code %if ARCH_X86_64 cglobal lpf_v_sb_y_16bpc, 6, 12, 16, -16 * 1, \ dst, stride, mask, l, l_stride, lut, \ w, stride3, mstride, tmp, mask_bits, bdmul mov r6d, r7m sar r6d, 7 and r6d, 16 ; 0 for 10bpc, 16 for 12bpc lea bdmulq, [pw_4] add bdmulq, r6 mov wd, wm shl l_strideq, 2 sub lq, l_strideq %else ; stack layout [32bit only]: ; r1-4 - p2-q0 post-filter16 ; r5 - p3 ; r6 - q3 post-filter16 ; r7 - GPRs [mask_bitsm, mstridem] ; r8 - m12/pb_mask ; r9 - bdmulq cglobal lpf_v_sb_y_16bpc, 4, 7, 8, -16 * (10 + extra_stack), \ dst, stride, mask, mstride, pic_reg, stride3, tmp RELOC_ARGS v, 10*16 %if STACK_ALIGNMENT >= 16 mov r5d, r7m %endif sar r5d, 7 and r5d, 16 ; 0 for 10bpc, 16 for 12bpc LEA pic_regq, PIC_base %define pic_regm dword [esp+7*16+2*gprsize] mov pic_regm, pic_regq mova m0, [PIC_sym(pw_4)+r5] %define bdmulq esp+9*16 mova [bdmulq], m0 shl dword lstridem, 2 sub r3, dword lstridem mov dword lm, r3 %endif mov mstrideq, strideq neg mstrideq lea stride3q, [strideq*3] %if ARCH_X86_64 mov mask_bitsd, 0x3 mova m12, [pb_mask] %else %define mstridem dword [esp+7*16+1*gprsize] mov mstridem, mstrideq %define mask_bitsm dword [esp+7*16+0*gprsize] mov mask_bitsm, 0x3 mova m0, [PIC_sym(pb_mask)] %define m12 [esp+8*16] mova m12, m0 %endif .loop: %if ARCH_X86_64 test [maskq+8], mask_bitsd ; vmask[2] %else mov r6d, mask_bitsm test [maskq+8], r6d %endif jz .no_flat16 FILTER 16, v jmp .end .no_flat16: %if ARCH_X86_64 test [maskq+4], mask_bitsd ; vmask[1] %else test [maskq+4], r6d %endif jz .no_flat FILTER 8, v jmp .end .no_flat: %if ARCH_X86_64 test [maskq+0], mask_bitsd ; vmask[0] %else test [maskq+0], r6d %endif jz .end FILTER 4, v .end: %if ARCH_X86_64 pslld m12, 2 add lq, 8 %else mova m0, m12 pslld m0, 2 mova m12, m0 add dword lm, 8 %endif add dstq, 16 %if ARCH_X86_64 shl mask_bitsd, 2 sub wd, 2 %else shl mask_bitsm, 2 sub dword wm, 2 %endif jg .loop %undef mask_bitsm %undef bdmulq UNRELOC_ARGS RET INIT_XMM ssse3 ; stack layout: ; r0 - flat8 backup inside flat16 ; r1-4 - p2-q0 post-filter16 backup ; r5 - q3 post-filter16 backup ; r6 - p3 ; r7-10 - p7-4 ; r11-14 - q4-7 %if ARCH_X86_64 cglobal lpf_h_sb_y_16bpc, 6, 11, 16, -16 * 15, \ dst, stride, mask, l, l_stride, lut, \ h, stride3, tmp, mask_bits, bdmul mov r6d, r7m sar r6d, 7 and r6d, 16 ; 0 for 10bpc, 16 for 12bpc lea bdmulq, [pw_4] add bdmulq, r6 mov hd, hm shl l_strideq, 2 %else ; stack layout [32bit only]: ; r15 - GPRs [mask_bitsm] ; r16 - m12/pb_mask ; r17 - bdmulq ; r18-24 - p2-q3 cglobal lpf_h_sb_y_16bpc, 4, 7, 8, -16 * (25 + extra_stack), \ dst, stride, mask, l, pic_reg, stride3, tmp RELOC_ARGS h, 25*16 %if STACK_ALIGNMENT >= 16 mov r5d, r7m %endif sar r5d, 7 and r5d, 16 ; 0 for 10bpc, 16 for 12bpc LEA pic_regq, PIC_base mova m0, [PIC_sym(pw_4)+r5] %define bdmulq esp+17*16 mova [bdmulq], m0 shl dword lstridem, 2 %endif sub lq, 4 lea stride3q, [strideq*3] %if ARCH_X86_64 mov mask_bitsd, 0x3 mova m12, [pb_mask] %else %define mask_bitsm dword [esp+15*16+0*gprsize] mov mask_bitsm, 0x3 mova m0, [PIC_sym(pb_mask)] %define m12 [esp+16*16] mova m12, m0 %endif .loop: %if ARCH_X86_64 test [maskq+8], mask_bitsd ; vmask[2] %else mov r6d, mask_bitsm test [maskq+8], r6d %endif jz .no_flat16 FILTER 16, h jmp .end .no_flat16: %if ARCH_X86_64 test [maskq+4], mask_bitsd ; vmask[1] %else test [maskq+4], r6d %endif jz .no_flat FILTER 8, h jmp .end .no_flat: %if ARCH_X86_64 test [maskq+0], mask_bitsd ; vmask[0] %else test [maskq+0], r6d %endif jz .no_filter FILTER 4, h jmp .end .no_filter: lea dstq, [dstq+strideq*8] .end: %if ARCH_X86_64 pslld m12, 2 lea lq, [lq+l_strideq*2] shl mask_bitsd, 2 sub hd, 2 %else mova m0, m12 pslld m0, 2 mova m12, m0 add lq, dword lstridem add lq, dword lstridem shl mask_bitsm, 2 sub dword hm, 2 %endif jg .loop %undef mask_bitsm %undef bdmulq UNRELOC_ARGS RET INIT_XMM ssse3 %if ARCH_X86_64 cglobal lpf_v_sb_uv_16bpc, 6, 12, 16, \ dst, stride, mask, l, l_stride, lut, \ w, stride3, mstride, tmp, mask_bits, bdmul mov r6d, r7m sar r6d, 7 and r6d, 16 ; 0 for 10bpc, 16 for 12bpc lea bdmulq, [pw_4] add bdmulq, r6 mov wd, wm shl l_strideq, 2 sub lq, l_strideq %else ; stack layout [32bit only]: ; r0 - GPRs [mask_bitsm, mstridem] ; r1 - m12/pb_mask ; r2 - bdmulq cglobal lpf_v_sb_uv_16bpc, 4, 7, 8, -16 * (3 + extra_stack), \ dst, stride, mask, mstride, pic_reg, stride3, tmp RELOC_ARGS v, 3*16 %if STACK_ALIGNMENT >= 16 mov r5d, r7m %endif sar r5d, 7 and r5d, 16 ; 0 for 10bpc, 16 for 12bpc LEA pic_regq, PIC_base mova m0, [PIC_sym(pw_4)+r5] %define bdmulq esp+2*16 mova [bdmulq], m0 shl dword lstridem, 2 sub r3, dword lstridem mov dword lm, r3 %endif mov mstrideq, strideq neg mstrideq lea stride3q, [strideq*3] %if ARCH_X86_64 mov mask_bitsd, 0x3 mova m12, [pb_mask] %else %define mask_bitsm dword [esp+0*gprsize] %define mstridem dword [esp+1*gprsize] mov mask_bitsm, 0x3 mov mstridem, mstrideq mova m0, [PIC_sym(pb_mask)] %define m12 [esp+1*16] mova m12, m0 %endif .loop: %if ARCH_X86_64 test [maskq+4], mask_bitsd ; vmask[1] %else mov r6d, mask_bitsm test [maskq+4], r6d %endif jz .no_flat FILTER 6, v jmp .end .no_flat: %if ARCH_X86_64 test [maskq+0], mask_bitsd ; vmask[0] %else test [maskq+0], r6d %endif jz .end FILTER 4, v .end: %if ARCH_X86_64 pslld m12, 2 add lq, 8 %else mova m0, m12 pslld m0, 2 mova m12, m0 add dword lm, 8 %endif add dstq, 16 %if ARCH_X86_64 shl mask_bitsd, 2 sub wd, 2 %else shl mask_bitsm, 2 sub dword wm, 2 %endif jg .loop %undef mask_bitsm %undef bdmulq UNRELOC_ARGS RET INIT_XMM ssse3 %if ARCH_X86_64 cglobal lpf_h_sb_uv_16bpc, 6, 11, 16, \ dst, stride, mask, l, l_stride, lut, \ h, stride3, tmp, mask_bits, bdmul mov r6d, r7m sar r6d, 7 and r6d, 16 ; 0 for 10bpc, 16 for 12bpc lea bdmulq, [pw_4] add bdmulq, r6 mov hd, hm shl l_strideq, 2 %else ; stack layout [32bit only]: ; r0 - GPRs [mask_bitsm] ; r1 - m12/pb_mask ; r2 - bdmulq ; r3-8 - p2-q2 cglobal lpf_h_sb_uv_16bpc, 4, 7, 8, -16 * (9 + extra_stack), \ dst, stride, mask, l, pic_reg, stride3, tmp RELOC_ARGS h, 9*16 %if STACK_ALIGNMENT >= 16 mov r5d, r7m %endif sar r5d, 7 and r5d, 16 ; 0 for 10bpc, 16 for 12bpc LEA pic_regq, PIC_base mova m0, [PIC_sym(pw_4)+r5] %define bdmulq esp+2*16 mova [bdmulq], m0 shl dword lstridem, 2 %endif sub lq, 4 lea stride3q, [strideq*3] %if ARCH_X86_64 mov mask_bitsd, 0x3 mova m12, [pb_mask] %else %define mask_bitsm dword [esp+0*gprsize] mov mask_bitsm, 0x3 mova m0, [PIC_sym(pb_mask)] %define m12 [esp+1*16] mova m12, m0 %endif .loop: %if ARCH_X86_64 test [maskq+4], mask_bitsd ; vmask[1] %else mov r6d, mask_bitsm test [maskq+4], r6d %endif jz .no_flat FILTER 6, h jmp .end .no_flat: %if ARCH_X86_64 test [maskq+0], mask_bitsd ; vmask[0] %else test [maskq+0], r6d %endif jz .no_filter FILTER 4, h jmp .end .no_filter: lea dstq, [dstq+strideq*8] .end: %if ARCH_X86_64 pslld m12, 2 lea lq, [lq+l_strideq*2] shl mask_bitsd, 2 sub hd, 2 %else mova m0, m12 pslld m0, 2 mova m12, m0 add lq, dword lstridem add lq, dword lstridem shl mask_bitsm, 2 sub dword hm, 2 %endif jg .loop %undef mask_bitsm %undef bdmulq UNRELOC_ARGS RET