ref: ea7e13e77efa4fc38597cc981cc755685143fb26
dir: /src/x86/looprestoration.asm/
; Copyright © 2018, VideoLAN and dav1d authors ; Copyright © 2018, 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" %if ARCH_X86_64 SECTION_RODATA 32 pb_right_ext_mask: times 32 db 0xff times 32 db 0 pb_14x0_1_2: times 14 db 0 db 1, 2 pb_0_to_15_min_n: db 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 13, 13 db 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 14 pb_15: times 16 db 15 pw_16: times 2 dw 16 pw_256: times 2 dw 256 pw_2048: times 2 dw 2048 pw_16380: times 2 dw 16380 pw_0_128: dw 0, 128 pw_5_6: dw 5, 6 pd_6: dd 6 pd_1024: dd 1024 pd_0xf0080029: dd 0xf0080029 pd_0xf00801c7: dd 0xf00801c7 cextern sgr_x_by_x SECTION .text INIT_YMM avx2 cglobal wiener_filter_h, 5, 12, 16, dst, left, src, stride, fh, w, h, edge mov edged, edgem vpbroadcastb m15, [fhq+0] movifnidn wd, wm vpbroadcastb m14, [fhq+2] mov hd, hm vpbroadcastb m13, [fhq+4] vpbroadcastw m12, [fhq+6] vpbroadcastd m11, [pw_2048] vpbroadcastd m10, [pw_16380] lea r11, [pb_right_ext_mask] DEFINE_ARGS dst, left, src, stride, x, w, h, edge, srcptr, dstptr, xlim ; if (edge & has_right) align_w_to_32 ; else w -= 32, and use that as limit in x loop test edgeb, 2 ; has_right jnz .align mov xlimq, -3 jmp .loop .align: add wd, 31 and wd, ~31 xor xlimd, xlimd ; main y loop for vertical filter .loop: mov srcptrq, srcq mov dstptrq, dstq lea xq, [wq+xlimq] ; load left edge pixels test edgeb, 1 ; have_left jz .emu_left test leftq, leftq ; left == NULL for the edge-extended bottom/top jz .load_left_combined movd xm0, [leftq] add leftq, 4 pinsrd xm0, [srcq], 1 pslldq xm0, 9 jmp .left_load_done .load_left_combined: movq xm0, [srcq-3] pslldq xm0, 10 jmp .left_load_done .emu_left: movd xm0, [srcq] pshufb xm0, [pb_14x0_1_2] ; load right edge pixels .left_load_done: cmp xd, 32 jg .main_load test xd, xd jg .load_and_splat je .splat_right ; for very small images (w=[1-2]), edge-extend the original cache, ; ugly, but only runs in very odd cases add wd, wd pshufb xm0, [r11-pb_right_ext_mask+pb_0_to_15_min_n+wq*8-16] shr wd, 1 ; main x loop, mostly this starts in .main_load .splat_right: ; no need to load new pixels, just extend them from the (possibly previously ; extended) previous load into m0 pshufb xm1, xm0, [pb_15] jmp .main_loop .load_and_splat: ; load new pixels and extend edge for right-most movu m1, [srcptrq+3] sub r11, xq movu m2, [r11-pb_right_ext_mask+pb_right_ext_mask+32] add r11, xq vpbroadcastb m3, [srcptrq+2+xq] pand m1, m2 pandn m3, m2, m3 por m1, m3 jmp .main_loop .main_load: ; load subsequent line movu m1, [srcptrq+3] .main_loop: vinserti128 m0, xm1, 1 palignr m2, m1, m0, 10 palignr m3, m1, m0, 11 palignr m4, m1, m0, 12 palignr m5, m1, m0, 13 palignr m6, m1, m0, 14 palignr m7, m1, m0, 15 punpcklbw m0, m2, m1 punpckhbw m2, m1 punpcklbw m8, m3, m7 punpckhbw m3, m7 punpcklbw m7, m4, m6 punpckhbw m4, m6 pxor m9, m9 punpcklbw m6, m5, m9 punpckhbw m5, m9 pmaddubsw m0, m15 pmaddubsw m2, m15 pmaddubsw m8, m14 pmaddubsw m3, m14 pmaddubsw m7, m13 pmaddubsw m4, m13 paddw m0, m8 paddw m2, m3 psllw m8, m6, 7 psllw m3, m5, 7 psubw m8, m10 psubw m3, m10 pmullw m6, m12 pmullw m5, m12 paddw m0, m7 paddw m2, m4 paddw m0, m6 paddw m2, m5 ; for a signed overflow to happen we need filter and pixels as follow: ; filter => -5,-23,-17,90,-17,-23,-5 ; pixels => 255,255,255,0,255,255,255 or 0,0,0,255,0,0,0 ; m0 would fall in the range [-59A6;+59A6] = [A65A;59A6] ; m8 would fall in the range [-3FFC;+3F84] = [C004;3F84] ; 32-bit arithmetic m0+m8 = [-99A2;+992A] = [FFFF665E;992A] ; => signed 16-bit overflow occurs paddsw m0, m8 ; paddsw clips this range to [-8000;+7FFF] paddsw m2, m3 psraw m0, 3 ; shift changes the range to [-1000;+FFF] psraw m2, 3 paddw m0, m11 ; adding back 800 (removed in m8) changes the paddw m2, m11 ; range to [-800;+17FF] as defined in the spec mova [dstptrq], xm0 ; (note that adding another 800 would give us mova [dstptrq+16], xm2; the same range as in the C code => [0;1FFF]) vextracti128 [dstptrq+32], m0, 1 vextracti128 [dstptrq+48], m2, 1 vextracti128 xm0, m1, 1 add srcptrq, 32 add dstptrq, 64 sub xq, 32 cmp xd, 32 jg .main_load test xd, xd jg .load_and_splat cmp xd, xlimd jg .splat_right add srcq, strideq add dstq, 384*2 dec hd jg .loop RET cglobal wiener_filter_v, 4, 10, 13, dst, stride, mid, w, h, fv, edge movifnidn fvq, fvmp mov edged, edgem movifnidn hd, hm vpbroadcastd m10, [fvq] vpbroadcastd m11, [fvq+4] vpbroadcastd m0, [pw_0_128] vpbroadcastd m12, [pd_1024] DEFINE_ARGS dst, stride, mid, w, h, ylim, edge, y, mptr, dstptr rorx ylimd, edged, 2 paddw m11, m0 and ylimd, 2 ; have_bottom sub ylimd, 3 ; main x loop for vertical filter, does one column of 16 pixels .loop_x: mova m3, [midq] ; middle line ; load top pixels test edgeb, 4 ; have_top jz .emu_top mova m0, [midq-384*4] mova m2, [midq-384*2] mova m1, m0 jmp .load_bottom_pixels .emu_top: mova m0, m3 mova m1, m3 mova m2, m3 ; load bottom pixels .load_bottom_pixels: mov yd, hd mov mptrq, midq mov dstptrq, dstq add yd, ylimd jg .load_threelines ; the remainder here is somewhat messy but only runs in very weird ; circumstances at the bottom of the image in very small blocks (h=[1-3]), ; so performance is not terribly important here... je .load_twolines cmp yd, -1 je .load_oneline ; h == 1 case mova m5, m3 mova m4, m3 mova m6, m3 jmp .loop .load_oneline: ; h == 2 case mova m4, [midq+384*2] mova m5, m4 mova m6, m4 jmp .loop .load_twolines: ; h == 3 case mova m4, [midq+384*2] mova m5, [midq+384*4] mova m6, m5 jmp .loop .load_threelines: ; h > 3 case mova m4, [midq+384*2] mova m5, [midq+384*4] ; third line loaded in main loop below ; main y loop for vertical filter .loop_load: ; load one line into m6. if that pixel is no longer available, do ; nothing, since m6 still has the data from the previous line in it. We ; try to structure the loop so that the common case is evaluated fastest mova m6, [mptrq+384*6] .loop: paddw m0, m6 paddw m7, m1, m5 paddw m8, m2, m4 punpcklwd m9, m0, m7 punpckhwd m0, m7 punpcklwd m7, m8, m3 punpckhwd m8, m3 pmaddwd m9, m10 pmaddwd m0, m10 pmaddwd m7, m11 pmaddwd m8, m11 add mptrq, 384*2 paddd m7, m9 paddd m0, m8 paddd m7, m12 paddd m0, m12 psrad m7, 11 psrad m0, 11 packssdw m7, m0 vextracti128 xm0, m7, 1 packuswb xm7, xm0 mova [dstptrq], xm7 ; shift pixels one position mova m0, m1 mova m1, m2 mova m2, m3 mova m3, m4 mova m4, m5 mova m5, m6 add dstptrq, strideq dec yd jg .loop_load ; for the bottom pixels, continue using m6 (as extended edge) cmp yd, ylimd jg .loop add midq, 32 add dstq, 16 sub wd, 16 jg .loop_x RET INIT_YMM avx2 cglobal sgr_box3_h, 5, 11, 7, sumsq, sum, left, src, stride, w, h, edge, x, xlim mov xlimd, edgem movifnidn wd, wm mov hd, hm mov edged, xlimd and xlimd, 2 ; have_right jz .no_right add wd, 2+15 and wd, ~15 .no_right: lea r10, [pb_right_ext_mask+32] xor xlimd, 2 ; 2*!have_right pxor m1, m1 add srcq, wq lea sumq, [sumq+wq*2-2] lea sumsqq, [sumsqq+wq*4-4] neg wq .loop_y: mov xq, wq ; load left test edgeb, 1 ; have_left jz .no_left test leftq, leftq jz .load_left_from_main vpbroadcastw xm0, [leftq+2] add leftq, 4 jmp .expand_x .no_left: vpbroadcastb xm0, [srcq+xq] jmp .expand_x .load_left_from_main: vpbroadcastw xm0, [srcq+xq-2] .expand_x: punpckhbw xm0, xm1 ; when we reach this, xm0 contains left two px in highest words cmp xd, -16 jle .loop_x .partial_load_and_extend: vpbroadcastb m3, [srcq-1] pmovzxbw m2, [srcq+xq] movu m4, [r10+xq*2] punpcklbw m3, m1 pand m2, m4 pandn m4, m3 por m2, m4 jmp .loop_x_noload .right_extend: psrldq xm2, xm0, 14 vpbroadcastw m2, xm2 jmp .loop_x_noload .loop_x: pmovzxbw m2, [srcq+xq] .loop_x_noload: vinserti128 m0, xm2, 1 palignr m3, m2, m0, 12 palignr m4, m2, m0, 14 punpcklwd m5, m3, m2 punpckhwd m6, m3, m2 paddw m3, m4 punpcklwd m0, m4, m1 punpckhwd m4, m1 pmaddwd m5, m5 pmaddwd m6, m6 pmaddwd m0, m0 pmaddwd m4, m4 paddw m3, m2 paddd m5, m0 vextracti128 xm0, m2, 1 paddd m6, m4 movu [sumq+xq*2], m3 movu [sumsqq+xq*4+ 0], xm5 movu [sumsqq+xq*4+16], xm6 vextracti128 [sumsqq+xq*4+32], m5, 1 vextracti128 [sumsqq+xq*4+48], m6, 1 add xq, 16 ; if x <= -16 we can reload more pixels ; else if x < 0 we reload and extend (this implies have_right=0) ; else if x < xlimd we extend from previous load (this implies have_right=0) ; else we are done cmp xd, -16 jle .loop_x test xd, xd jl .partial_load_and_extend cmp xd, xlimd jl .right_extend add sumsqq, (384+16)*4 add sumq, (384+16)*2 add srcq, strideq dec hd jg .loop_y RET INIT_YMM avx2 cglobal sgr_box3_v, 4, 10, 9, sumsq, sum, w, h, edge, x, y, sumsq_ptr, sum_ptr, ylim movifnidn edged, edgem mov xq, -2 rorx ylimd, edged, 2 and ylimd, 2 ; have_bottom sub ylimd, 2 ; -2 if have_bottom=0, else 0 .loop_x: lea yd, [hq+ylimq+2] lea sumsq_ptrq, [sumsqq+xq*4+4-(384+16)*4] lea sum_ptrq, [sumq+xq*2+2-(384+16)*2] test edgeb, 4 ; have_top jnz .load_top movu m0, [sumsq_ptrq+(384+16)*4*1] movu m1, [sumsq_ptrq+(384+16)*4*1+32] movu m6, [sum_ptrq+(384+16)*2*1] mova m2, m0 mova m3, m1 mova m4, m0 mova m5, m1 mova m7, m6 mova m8, m6 jmp .loop_y_noload .load_top: movu m0, [sumsq_ptrq-(384+16)*4*1] ; l2sq [left] movu m1, [sumsq_ptrq-(384+16)*4*1+32] ; l2sq [right] movu m2, [sumsq_ptrq-(384+16)*4*0] ; l1sq [left] movu m3, [sumsq_ptrq-(384+16)*4*0+32] ; l1sq [right] movu m6, [sum_ptrq-(384+16)*2*1] ; l2 movu m7, [sum_ptrq-(384+16)*2*0] ; l1 .loop_y: movu m4, [sumsq_ptrq+(384+16)*4*1] ; l0sq [left] movu m5, [sumsq_ptrq+(384+16)*4*1+32] ; l0sq [right] movu m8, [sum_ptrq+(384+16)*2*1] ; l0 .loop_y_noload: paddd m0, m2 paddd m1, m3 paddw m6, m7 paddd m0, m4 paddd m1, m5 paddw m6, m8 movu [sumsq_ptrq+ 0], m0 movu [sumsq_ptrq+32], m1 movu [sum_ptrq], m6 ; shift position down by one mova m0, m2 mova m1, m3 mova m2, m4 mova m3, m5 mova m6, m7 mova m7, m8 add sumsq_ptrq, (384+16)*4 add sum_ptrq, (384+16)*2 dec yd jg .loop_y cmp yd, ylimd jg .loop_y_noload add xd, 16 cmp xd, wd jl .loop_x RET INIT_YMM avx2 cglobal sgr_calc_ab1, 4, 6, 11, a, b, w, h, s sub aq, (384+16-1)*4 sub bq, (384+16-1)*2 add hd, 2 lea r5, [sgr_x_by_x-0xf03] %ifidn sd, sm movd xm6, sd vpbroadcastd m6, xm6 %else vpbroadcastd m6, sm %endif vpbroadcastd m8, [pd_0xf00801c7] vpbroadcastd m9, [pw_256] pcmpeqb m7, m7 psrld m10, m9, 13 ; pd_2048 DEFINE_ARGS a, b, w, h, x .loop_y: mov xq, -2 .loop_x: pmovzxwd m0, [bq+xq*2] pmovzxwd m1, [bq+xq*2+(384+16)*2] movu m2, [aq+xq*4] movu m3, [aq+xq*4+(384+16)*4] pslld m4, m2, 3 pslld m5, m3, 3 paddd m2, m4 ; aa * 9 paddd m3, m5 pmaddwd m4, m0, m0 pmaddwd m5, m1, m1 pmaddwd m0, m8 pmaddwd m1, m8 psubd m2, m4 ; p = aa * 9 - bb * bb psubd m3, m5 pmulld m2, m6 pmulld m3, m6 paddusw m2, m8 paddusw m3, m8 psrld m2, 20 ; z psrld m3, 20 mova m5, m7 vpgatherdd m4, [r5+m2], m5 ; xx mova m5, m7 vpgatherdd m2, [r5+m3], m5 psrld m4, 24 psrld m2, 24 pmulld m0, m4 pmulld m1, m2 packssdw m4, m2 psubw m4, m9, m4 vpermq m4, m4, q3120 paddd m0, m10 paddd m1, m10 psrld m0, 12 psrld m1, 12 movu [bq+xq*2], xm4 vextracti128 [bq+xq*2+(384+16)*2], m4, 1 movu [aq+xq*4], m0 movu [aq+xq*4+(384+16)*4], m1 add xd, 8 cmp xd, wd jl .loop_x add aq, (384+16)*4*2 add bq, (384+16)*2*2 sub hd, 2 jg .loop_y RET INIT_YMM avx2 cglobal sgr_finish_filter1, 5, 13, 16, t, src, stride, a, b, w, h, \ tmp_ptr, src_ptr, a_ptr, b_ptr, x, y movifnidn wd, wm mov hd, hm vpbroadcastd m15, [pw_16] xor xd, xd .loop_x: lea tmp_ptrq, [tq+xq*2] lea src_ptrq, [srcq+xq*1] lea a_ptrq, [aq+xq*4+(384+16)*4] lea b_ptrq, [bq+xq*2+(384+16)*2] movu m0, [aq+xq*4-(384+16)*4-4] movu m2, [aq+xq*4-(384+16)*4+4] mova m1, [aq+xq*4-(384+16)*4] ; a:top [first half] paddd m0, m2 ; a:tl+tr [first half] movu m2, [aq+xq*4-(384+16)*4-4+32] movu m4, [aq+xq*4-(384+16)*4+4+32] mova m3, [aq+xq*4-(384+16)*4+32] ; a:top [second half] paddd m2, m4 ; a:tl+tr [second half] movu m4, [aq+xq*4-4] movu m5, [aq+xq*4+4] paddd m1, [aq+xq*4] ; a:top+ctr [first half] paddd m4, m5 ; a:l+r [first half] movu m5, [aq+xq*4+32-4] movu m6, [aq+xq*4+32+4] paddd m3, [aq+xq*4+32] ; a:top+ctr [second half] paddd m5, m6 ; a:l+r [second half] movu m6, [bq+xq*2-(384+16)*2-2] movu m8, [bq+xq*2-(384+16)*2+2] mova m7, [bq+xq*2-(384+16)*2] ; b:top paddw m6, m8 ; b:tl+tr movu m8, [bq+xq*2-2] movu m9, [bq+xq*2+2] paddw m7, [bq+xq*2] ; b:top+ctr paddw m8, m9 ; b:l+r mov yd, hd .loop_y: movu m9, [b_ptrq-2] movu m10, [b_ptrq+2] paddw m7, [b_ptrq] ; b:top+ctr+bottom paddw m9, m10 ; b:bl+br paddw m10, m7, m8 ; b:top+ctr+bottom+l+r paddw m6, m9 ; b:tl+tr+bl+br psubw m7, [b_ptrq-(384+16)*2*2] ; b:ctr+bottom paddw m10, m6 psllw m10, 2 psubw m10, m6 ; aa pmovzxbw m12, [src_ptrq] punpcklwd m6, m10, m15 punpckhwd m10, m15 punpcklwd m13, m12, m15 punpckhwd m12, m15 pmaddwd m6, m13 ; aa*src[x]+256 [first half] pmaddwd m10, m12 ; aa*src[x]+256 [second half] movu m11, [a_ptrq-4] movu m12, [a_ptrq+4] paddd m1, [a_ptrq] ; a:top+ctr+bottom [first half] paddd m11, m12 ; a:bl+br [first half] movu m12, [a_ptrq+32-4] movu m13, [a_ptrq+32+4] paddd m3, [a_ptrq+32] ; a:top+ctr+bottom [second half] paddd m12, m13 ; a:bl+br [second half] paddd m13, m1, m4 ; a:top+ctr+bottom+l+r [first half] paddd m14, m3, m5 ; a:top+ctr+bottom+l+r [second half] paddd m0, m11 ; a:tl+tr+bl+br [first half] paddd m2, m12 ; a:tl+tr+bl+br [second half] paddd m13, m0 paddd m14, m2 pslld m13, 2 pslld m14, 2 psubd m13, m0 ; bb [first half] psubd m14, m2 ; bb [second half] vperm2i128 m0, m13, m14, 0x31 vinserti128 m13, xm14, 1 psubd m1, [a_ptrq-(384+16)*4*2] ; a:ctr+bottom [first half] psubd m3, [a_ptrq-(384+16)*4*2+32] ; a:ctr+bottom [second half] paddd m6, m13 paddd m10, m0 psrad m6, 9 psrad m10, 9 packssdw m6, m10 mova [tmp_ptrq], m6 ; shift to next row mova m0, m4 mova m2, m5 mova m4, m11 mova m5, m12 mova m6, m8 mova m8, m9 add a_ptrq, (384+16)*4 add b_ptrq, (384+16)*2 add tmp_ptrq, 384*2 add src_ptrq, strideq dec yd jg .loop_y add xd, 16 cmp xd, wd jl .loop_x RET INIT_YMM avx2 cglobal sgr_weighted1, 4, 6, 6, dst, stride, t, w, h, wt %ifidn wtd, wtm shl wtd, 4 movd xm5, wtd vpbroadcastw m5, xm5 %else vpbroadcastw m5, wtm mov hd, hm psllw m5, 4 %endif DEFINE_ARGS dst, stride, t, w, h, idx .loop_y: xor idxd, idxd .loop_x: mova m0, [tq+idxq*2+ 0] mova m1, [tq+idxq*2+32] pmovzxbw m2, [dstq+idxq+ 0] pmovzxbw m3, [dstq+idxq+16] psllw m4, m2, 4 psubw m0, m4 psllw m4, m3, 4 psubw m1, m4 pmulhrsw m0, m5 pmulhrsw m1, m5 paddw m0, m2 paddw m1, m3 packuswb m0, m1 vpermq m0, m0, q3120 mova [dstq+idxq], m0 add idxd, 32 cmp idxd, wd jl .loop_x add tq, 384*2 add dstq, strideq dec hd jg .loop_y RET INIT_YMM avx2 cglobal sgr_box5_h, 5, 11, 10, sumsq, sum, left, src, stride, w, h, edge, x, xlim mov edged, edgem movifnidn wd, wm mov hd, hm test edgeb, 2 ; have_right jz .no_right xor xlimd, xlimd add wd, 2+15 and wd, ~15 jmp .right_done .no_right: mov xlimd, 3 sub wd, 1 .right_done: lea r10, [pb_right_ext_mask+32] pxor m1, m1 lea srcq, [srcq+wq+1] lea sumq, [sumq+wq*2-2] lea sumsqq, [sumsqq+wq*4-4] neg wq .loop_y: mov xq, wq ; load left test edgeb, 1 ; have_left jz .no_left test leftq, leftq jz .load_left_from_main vpbroadcastd xm2, [leftq] movd xm0, [srcq+xq-1] add leftq, 4 palignr xm0, xm2, 1 jmp .expand_x .no_left: vpbroadcastb xm0, [srcq+xq-1] jmp .expand_x .load_left_from_main: vpbroadcastd xm0, [srcq+xq-4] .expand_x: punpckhbw xm0, xm1 ; when we reach this, xm0 contains left two px in highest words cmp xd, -16 jle .loop_x test xd, xd jge .right_extend .partial_load_and_extend: vpbroadcastb m3, [srcq-1] pmovzxbw m2, [srcq+xq] movu m4, [r10+xq*2] punpcklbw m3, m1 pand m2, m4 pandn m4, m3 por m2, m4 jmp .loop_x_noload .right_extend: psrldq xm2, xm0, 14 vpbroadcastw m2, xm2 jmp .loop_x_noload .loop_x: pmovzxbw m2, [srcq+xq] .loop_x_noload: vinserti128 m0, xm2, 1 palignr m3, m2, m0, 8 palignr m4, m2, m0, 10 palignr m5, m2, m0, 12 palignr m6, m2, m0, 14 paddw m0, m3, m2 punpcklwd m7, m3, m2 punpckhwd m3, m2 paddw m0, m4 punpcklwd m8, m4, m5 punpckhwd m4, m5 paddw m0, m5 punpcklwd m9, m6, m1 punpckhwd m5, m6, m1 paddw m0, m6 pmaddwd m7, m7 pmaddwd m3, m3 pmaddwd m8, m8 pmaddwd m4, m4 pmaddwd m9, m9 pmaddwd m5, m5 paddd m7, m8 paddd m3, m4 paddd m7, m9 paddd m3, m5 movu [sumq+xq*2], m0 movu [sumsqq+xq*4+ 0], xm7 movu [sumsqq+xq*4+16], xm3 vextracti128 [sumsqq+xq*4+32], m7, 1 vextracti128 [sumsqq+xq*4+48], m3, 1 vextracti128 xm0, m2, 1 add xq, 16 ; if x <= -16 we can reload more pixels ; else if x < 0 we reload and extend (this implies have_right=0) ; else if x < xlimd we extend from previous load (this implies have_right=0) ; else we are done cmp xd, -16 jle .loop_x test xd, xd jl .partial_load_and_extend cmp xd, xlimd jl .right_extend add srcq, strideq add sumsqq, (384+16)*4 add sumq, (384+16)*2 dec hd jg .loop_y RET INIT_YMM avx2 cglobal sgr_box5_v, 4, 10, 15, sumsq, sum, w, h, edge, x, y, sumsq_ptr, sum_ptr, ylim movifnidn edged, edgem mov xq, -2 rorx ylimd, edged, 2 and ylimd, 2 ; have_bottom sub ylimd, 3 ; -3 if have_bottom=0, else -1 .loop_x: lea yd, [hq+ylimq+2] lea sumsq_ptrq, [sumsqq+xq*4+4-(384+16)*4] lea sum_ptrq, [sumq+xq*2+2-(384+16)*2] test edgeb, 4 ; have_top jnz .load_top movu m0, [sumsq_ptrq+(384+16)*4*1] movu m1, [sumsq_ptrq+(384+16)*4*1+32] movu m10, [sum_ptrq+(384+16)*2*1] mova m2, m0 mova m3, m1 mova m4, m0 mova m5, m1 mova m6, m0 mova m7, m1 mova m11, m10 mova m12, m10 mova m13, m10 jmp .loop_y_second_load .load_top: movu m0, [sumsq_ptrq-(384+16)*4*1] ; l3/4sq [left] movu m1, [sumsq_ptrq-(384+16)*4*1+32] ; l3/4sq [right] movu m4, [sumsq_ptrq-(384+16)*4*0] ; l2sq [left] movu m5, [sumsq_ptrq-(384+16)*4*0+32] ; l2sq [right] movu m10, [sum_ptrq-(384+16)*2*1] ; l3/4 movu m12, [sum_ptrq-(384+16)*2*0] ; l2 mova m2, m0 mova m3, m1 mova m11, m10 .loop_y: movu m6, [sumsq_ptrq+(384+16)*4*1] ; l1sq [left] movu m7, [sumsq_ptrq+(384+16)*4*1+32] ; l1sq [right] movu m13, [sum_ptrq+(384+16)*2*1] ; l1 .loop_y_second_load: test yd, yd jle .emulate_second_load movu m8, [sumsq_ptrq+(384+16)*4*2] ; l0sq [left] movu m9, [sumsq_ptrq+(384+16)*4*2+32] ; l0sq [right] movu m14, [sum_ptrq+(384+16)*2*2] ; l0 .loop_y_noload: paddd m0, m2 paddd m1, m3 paddw m10, m11 paddd m0, m4 paddd m1, m5 paddw m10, m12 paddd m0, m6 paddd m1, m7 paddw m10, m13 paddd m0, m8 paddd m1, m9 paddw m10, m14 movu [sumsq_ptrq+ 0], m0 movu [sumsq_ptrq+32], m1 movu [sum_ptrq], m10 ; shift position down by one mova m0, m4 mova m1, m5 mova m2, m6 mova m3, m7 mova m4, m8 mova m5, m9 mova m10, m12 mova m11, m13 mova m12, m14 add sumsq_ptrq, (384+16)*4*2 add sum_ptrq, (384+16)*2*2 sub yd, 2 jge .loop_y ; l1 = l0 mova m6, m8 mova m7, m9 mova m13, m14 cmp yd, ylimd jg .loop_y_noload add xd, 16 cmp xd, wd jl .loop_x RET .emulate_second_load: mova m8, m6 mova m9, m7 mova m14, m13 jmp .loop_y_noload INIT_YMM avx2 cglobal sgr_calc_ab2, 4, 6, 11, a, b, w, h, s sub aq, (384+16-1)*4 sub bq, (384+16-1)*2 add hd, 2 lea r5, [sgr_x_by_x-0xf03] %ifidn sd, sm movd xm6, sd vpbroadcastd m6, xm6 %else vpbroadcastd m6, sm %endif vpbroadcastd m8, [pd_0xf0080029] vpbroadcastd m9, [pw_256] pcmpeqb m7, m7 psrld m10, m9, 15 ; pd_512 DEFINE_ARGS a, b, w, h, x .loop_y: mov xq, -2 .loop_x: pmovzxwd m0, [bq+xq*2+ 0] pmovzxwd m1, [bq+xq*2+16] movu m2, [aq+xq*4+ 0] movu m3, [aq+xq*4+32] pslld m4, m2, 3 ; aa * 8 pslld m5, m3, 3 paddd m2, m4 ; aa * 9 paddd m3, m5 paddd m4, m4 ; aa * 16 paddd m5, m5 paddd m2, m4 ; aa * 25 paddd m3, m5 pmaddwd m4, m0, m0 pmaddwd m5, m1, m1 psubd m2, m4 ; p = aa * 25 - bb * bb psubd m3, m5 pmulld m2, m6 pmulld m3, m6 paddusw m2, m8 paddusw m3, m8 psrld m2, 20 ; z psrld m3, 20 mova m5, m7 vpgatherdd m4, [r5+m2], m5 ; xx mova m5, m7 vpgatherdd m2, [r5+m3], m5 psrld m4, 24 psrld m2, 24 packssdw m3, m4, m2 pmullw m4, m8 pmullw m2, m8 psubw m3, m9, m3 vpermq m3, m3, q3120 pmaddwd m0, m4 pmaddwd m1, m2 paddd m0, m10 paddd m1, m10 psrld m0, 10 psrld m1, 10 movu [bq+xq*2], m3 movu [aq+xq*4+ 0], m0 movu [aq+xq*4+32], m1 add xd, 16 cmp xd, wd jl .loop_x add aq, (384+16)*4*2 add bq, (384+16)*2*2 sub hd, 2 jg .loop_y RET INIT_YMM avx2 cglobal sgr_finish_filter2, 5, 13, 13, t, src, stride, a, b, w, h, \ tmp_ptr, src_ptr, a_ptr, b_ptr, x, y movifnidn wd, wm mov hd, hm vpbroadcastd m9, [pw_5_6] vpbroadcastd m12, [pw_256] psrlw m11, m12, 1 ; pw_128 psrlw m10, m12, 8 ; pw_1 xor xd, xd .loop_x: lea tmp_ptrq, [tq+xq*2] lea src_ptrq, [srcq+xq*1] lea a_ptrq, [aq+xq*4+(384+16)*4] lea b_ptrq, [bq+xq*2+(384+16)*2] movu m0, [aq+xq*4-(384+16)*4-4] mova m1, [aq+xq*4-(384+16)*4] movu m2, [aq+xq*4-(384+16)*4+4] movu m3, [aq+xq*4-(384+16)*4-4+32] mova m4, [aq+xq*4-(384+16)*4+32] movu m5, [aq+xq*4-(384+16)*4+4+32] paddd m0, m2 paddd m3, m5 paddd m0, m1 paddd m3, m4 pslld m2, m0, 2 pslld m5, m3, 2 paddd m2, m0 paddd m5, m3 paddd m0, m2, m1 ; prev_odd_b [first half] paddd m1, m5, m4 ; prev_odd_b [second half] movu m3, [bq+xq*2-(384+16)*2-2] mova m4, [bq+xq*2-(384+16)*2] movu m5, [bq+xq*2-(384+16)*2+2] paddw m3, m5 punpcklwd m5, m3, m4 punpckhwd m3, m4 pmaddwd m5, m9 pmaddwd m3, m9 packssdw m2, m5, m3 ; prev_odd_a mov yd, hd .loop_y: movu m3, [a_ptrq-4] mova m4, [a_ptrq] movu m5, [a_ptrq+4] movu m6, [a_ptrq+32-4] mova m7, [a_ptrq+32] movu m8, [a_ptrq+32+4] paddd m3, m5 paddd m6, m8 paddd m3, m4 paddd m6, m7 pslld m5, m3, 2 pslld m8, m6, 2 paddd m5, m3 paddd m8, m6 paddd m3, m5, m4 ; cur_odd_b [first half] paddd m4, m8, m7 ; cur_odd_b [second half] movu m5, [b_ptrq-2] mova m6, [b_ptrq] movu m7, [b_ptrq+2] paddw m5, m7 punpcklwd m7, m5, m6 punpckhwd m5, m6 pmaddwd m7, m9 pmaddwd m5, m9 packssdw m5, m7, m5 ; cur_odd_a paddd m0, m3 ; cur_even_b [first half] paddd m1, m4 ; cur_even_b [second half] paddw m2, m5 ; cur_even_a pmovzxbw m6, [src_ptrq] vperm2i128 m8, m0, m1, 0x31 vinserti128 m0, xm1, 1 punpcklwd m7, m6, m10 punpckhwd m6, m10 punpcklwd m1, m2, m12 punpckhwd m2, m12 pmaddwd m7, m1 pmaddwd m6, m2 paddd m7, m0 paddd m6, m8 psrad m7, 9 psrad m6, 9 pmovzxbw m8, [src_ptrq+strideq] punpcklwd m0, m8, m10 punpckhwd m8, m10 punpcklwd m1, m5, m11 punpckhwd m2, m5, m11 pmaddwd m0, m1 pmaddwd m8, m2 vinserti128 m2, m3, xm4, 1 vperm2i128 m1, m3, m4, 0x31 paddd m0, m2 paddd m8, m1 psrad m0, 8 psrad m8, 8 packssdw m7, m6 packssdw m0, m8 mova [tmp_ptrq+384*2*0], m7 mova [tmp_ptrq+384*2*1], m0 mova m0, m3 mova m1, m4 mova m2, m5 add a_ptrq, (384+16)*4*2 add b_ptrq, (384+16)*2*2 add tmp_ptrq, 384*2*2 lea src_ptrq, [src_ptrq+strideq*2] sub yd, 2 jg .loop_y add xd, 16 cmp xd, wd jl .loop_x RET INIT_YMM avx2 cglobal sgr_weighted2, 4, 7, 11, dst, stride, t1, t2, w, h, wt movifnidn wd, wm movifnidn hd, hm vpbroadcastd m0, wtm vpbroadcastd m10, [pd_1024] DEFINE_ARGS dst, stride, t1, t2, w, h, idx .loop_y: xor idxd, idxd .loop_x: mova m1, [t1q+idxq*2+ 0] mova m2, [t1q+idxq*2+32] mova m3, [t2q+idxq*2+ 0] mova m4, [t2q+idxq*2+32] pmovzxbw m5, [dstq+idxq+ 0] pmovzxbw m6, [dstq+idxq+16] psllw m7, m5, 4 psllw m8, m6, 4 psubw m1, m7 psubw m2, m8 psubw m3, m7 psubw m4, m8 punpcklwd m9, m1, m3 punpckhwd m1, m3 punpcklwd m3, m2, m4 punpckhwd m2, m4 pmaddwd m9, m0 pmaddwd m1, m0 pmaddwd m3, m0 pmaddwd m2, m0 paddd m9, m10 paddd m1, m10 paddd m3, m10 paddd m2, m10 psrad m9, 11 psrad m1, 11 psrad m3, 11 psrad m2, 11 packssdw m1, m9, m1 packssdw m2, m3, m2 paddw m1, m5 paddw m2, m6 packuswb m1, m2 vpermq m1, m1, q3120 mova [dstq+idxq], m1 add idxd, 32 cmp idxd, wd jl .loop_x add dstq, strideq add t1q, 384 * 2 add t2q, 384 * 2 dec hd jg .loop_y RET %endif ; ARCH_X86_64