ref: e308ae49b39502ee871c0df8b64fb79561ce17c5
dir: /src/x86/mc_ssse3.asm/
; Copyright © 2018, VideoLAN and dav1d authors ; Copyright © 2018, Two Orioles, LLC ; Copyright © 2018, 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 ; dav1d_obmc_masks[] with 64-x interleaved obmc_masks: db 0, 0, 0, 0 ; 2 @4 db 45, 19, 64, 0 ; 4 @8 db 39, 25, 50, 14, 59, 5, 64, 0 ; 8 @16 db 36, 28, 42, 22, 48, 16, 53, 11, 57, 7, 61, 3, 64, 0, 64, 0 ; 16 @32 db 34, 30, 37, 27, 40, 24, 43, 21, 46, 18, 49, 15, 52, 12, 54, 10 db 56, 8, 58, 6, 60, 4, 61, 3, 64, 0, 64, 0, 64, 0, 64, 0 ; 32 @64 db 33, 31, 35, 29, 36, 28, 38, 26, 40, 24, 41, 23, 43, 21, 44, 20 db 45, 19, 47, 17, 48, 16, 50, 14, 51, 13, 52, 12, 53, 11, 55, 9 db 56, 8, 57, 7, 58, 6, 59, 5, 60, 4, 60, 4, 61, 3, 62, 2 warp_8x8_shufA: db 0, 2, 4, 6, 1, 3, 5, 7, 1, 3, 5, 7, 2, 4, 6, 8 warp_8x8_shufB: db 4, 6, 8, 10, 5, 7, 9, 11, 5, 7, 9, 11, 6, 8, 10, 12 warp_8x8_shufC: db 2, 4, 6, 8, 3, 5, 7, 9, 3, 5, 7, 9, 4, 6, 8, 10 warp_8x8_shufD: db 6, 8, 10, 12, 7, 9, 11, 13, 7, 9, 11, 13, 8, 10, 12, 14 blend_shuf: db 0, 1, 0, 1, 0, 1, 0, 1, 2, 3, 2, 3, 2, 3, 2, 3 subpel_h_shuf4: db 0, 1, 2, 3, 1, 2, 3, 4, 8, 9, 10, 11, 9, 10, 11, 12 db 2, 3, 4, 5, 3, 4, 5, 6, 10, 11, 12, 13, 11, 12, 13, 14 subpel_h_shufA: db 0, 1, 2, 3, 1, 2, 3, 4, 2, 3, 4, 5, 3, 4, 5, 6 subpel_h_shufB: db 4, 5, 6, 7, 5, 6, 7, 8, 6, 7, 8, 9, 7, 8, 9, 10 subpel_h_shufC: db 8, 9, 10, 11, 9, 10, 11, 12, 10, 11, 12, 13, 11, 12, 13, 14 bilin_h_shuf4: db 1, 0, 2, 1, 3, 2, 4, 3, 9, 8, 10, 9, 11, 10, 12, 11 bilin_h_shuf8: db 1, 0, 2, 1, 3, 2, 4, 3, 5, 4, 6, 5, 7, 6, 8, 7 pb_8x0_8x8: times 8 db 0 times 8 db 8 resize_mul: dd 0, 1, 2, 3 resize_shuf: times 5 db 0 db 1, 2, 3, 4, 5, 6 times 5+16 db 7 pb_64: times 16 db 64 pw_m256: times 8 dw -256 pw_8: times 8 dw 8 pw_26: times 8 dw 26 pw_34: times 8 dw 34 pw_512: times 8 dw 512 pw_1024: times 8 dw 1024 pw_2048: times 8 dw 2048 pw_6903: times 8 dw 6903 pw_8192: times 8 dw 8192 pd_32: times 4 dd 32 pd_63: times 4 dd 63 pd_512: times 4 dd 512 pd_16384: times 4 dd 16484 pd_32768: times 4 dd 32768 pd_262144:times 4 dd 262144 pw_258: times 2 dw 258 cextern mc_subpel_filters %define subpel_filters (mangle(private_prefix %+ _mc_subpel_filters)-8) %macro BIDIR_JMP_TABLE 1-* ;evaluated at definition time (in loop below) %xdefine %1_table (%%table - 2*%2) %xdefine %%base %1_table %xdefine %%prefix mangle(private_prefix %+ _%1) ; dynamically generated label %%table: %rep %0 - 1 ; repeat for num args dd %%prefix %+ .w%2 - %%base %rotate 1 %endrep %endmacro BIDIR_JMP_TABLE avg_ssse3, 4, 8, 16, 32, 64, 128 BIDIR_JMP_TABLE w_avg_ssse3, 4, 8, 16, 32, 64, 128 BIDIR_JMP_TABLE mask_ssse3, 4, 8, 16, 32, 64, 128 BIDIR_JMP_TABLE w_mask_420_ssse3, 4, 8, 16, 16, 16, 16 BIDIR_JMP_TABLE blend_ssse3, 4, 8, 16, 32 BIDIR_JMP_TABLE blend_v_ssse3, 2, 4, 8, 16, 32 BIDIR_JMP_TABLE blend_h_ssse3, 2, 4, 8, 16, 16, 16, 16 %macro BASE_JMP_TABLE 3-* %xdefine %1_%2_table (%%table - %3) %xdefine %%base %1_%2 %%table: %rep %0 - 2 dw %%base %+ _w%3 - %%base %rotate 1 %endrep %endmacro %xdefine put_ssse3 mangle(private_prefix %+ _put_bilin_ssse3.put) %xdefine prep_ssse3 mangle(private_prefix %+ _prep_bilin_ssse3.prep) BASE_JMP_TABLE put, ssse3, 2, 4, 8, 16, 32, 64, 128 BASE_JMP_TABLE prep, ssse3, 4, 8, 16, 32, 64, 128 %macro HV_JMP_TABLE 5-* %xdefine %%prefix mangle(private_prefix %+ _%1_%2_%3) %xdefine %%base %1_%3 %assign %%types %4 %if %%types & 1 %xdefine %1_%2_h_%3_table (%%h - %5) %%h: %rep %0 - 4 dw %%prefix %+ .h_w%5 - %%base %rotate 1 %endrep %rotate 4 %endif %if %%types & 2 %xdefine %1_%2_v_%3_table (%%v - %5) %%v: %rep %0 - 4 dw %%prefix %+ .v_w%5 - %%base %rotate 1 %endrep %rotate 4 %endif %if %%types & 4 %xdefine %1_%2_hv_%3_table (%%hv - %5) %%hv: %rep %0 - 4 dw %%prefix %+ .hv_w%5 - %%base %rotate 1 %endrep %endif %endmacro HV_JMP_TABLE put, 8tap, ssse3, 3, 2, 4, 8, 16, 32, 64, 128 HV_JMP_TABLE prep, 8tap, ssse3, 1, 4, 8, 16, 32, 64, 128 HV_JMP_TABLE put, bilin, ssse3, 7, 2, 4, 8, 16, 32, 64, 128 HV_JMP_TABLE prep, bilin, ssse3, 7, 4, 8, 16, 32, 64, 128 %define table_offset(type, fn) type %+ fn %+ SUFFIX %+ _table - type %+ SUFFIX cextern mc_warp_filter SECTION .text INIT_XMM ssse3 %if ARCH_X86_32 DECLARE_REG_TMP 1 %define base t0-put_ssse3 %else DECLARE_REG_TMP 7 %define base 0 %endif ; %macro RESTORE_DSQ_32 1 %if ARCH_X86_32 mov %1, dsm ; restore dsq %endif %endmacro ; cglobal put_bilin, 4, 8, 0, dst, ds, src, ss, w, h, mxy, bak movifnidn mxyd, r6m ; mx LEA t0, put_ssse3 tzcnt wd, wm mov hd, hm test mxyd, mxyd jnz .h mov mxyd, r7m ; my test mxyd, mxyd jnz .v .put: movzx wd, word [t0+wq*2+table_offset(put,)] add wq, t0 RESTORE_DSQ_32 t0 jmp wq .put_w2: movzx r4d, word [srcq+ssq*0] movzx r6d, word [srcq+ssq*1] lea srcq, [srcq+ssq*2] mov [dstq+dsq*0], r4w mov [dstq+dsq*1], r6w lea dstq, [dstq+dsq*2] sub hd, 2 jg .put_w2 RET .put_w4: mov r4d, [srcq+ssq*0] mov r6d, [srcq+ssq*1] lea srcq, [srcq+ssq*2] mov [dstq+dsq*0], r4d mov [dstq+dsq*1], r6d lea dstq, [dstq+dsq*2] sub hd, 2 jg .put_w4 RET .put_w8: movq m0, [srcq+ssq*0] movq m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] movq [dstq+dsq*0], m0 movq [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg .put_w8 RET .put_w16: movu m0, [srcq+ssq*0] movu m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] mova [dstq+dsq*0], m0 mova [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg .put_w16 RET .put_w32: movu m0, [srcq+ssq*0+16*0] movu m1, [srcq+ssq*0+16*1] movu m2, [srcq+ssq*1+16*0] movu m3, [srcq+ssq*1+16*1] lea srcq, [srcq+ssq*2] mova [dstq+dsq*0+16*0], m0 mova [dstq+dsq*0+16*1], m1 mova [dstq+dsq*1+16*0], m2 mova [dstq+dsq*1+16*1], m3 lea dstq, [dstq+dsq*2] sub hd, 2 jg .put_w32 RET .put_w64: movu m0, [srcq+16*0] movu m1, [srcq+16*1] movu m2, [srcq+16*2] movu m3, [srcq+16*3] add srcq, ssq mova [dstq+16*0], m0 mova [dstq+16*1], m1 mova [dstq+16*2], m2 mova [dstq+16*3], m3 add dstq, dsq dec hd jg .put_w64 RET .put_w128: movu m0, [srcq+16*0] movu m1, [srcq+16*1] movu m2, [srcq+16*2] movu m3, [srcq+16*3] mova [dstq+16*0], m0 mova [dstq+16*1], m1 mova [dstq+16*2], m2 mova [dstq+16*3], m3 movu m0, [srcq+16*4] movu m1, [srcq+16*5] movu m2, [srcq+16*6] movu m3, [srcq+16*7] mova [dstq+16*4], m0 mova [dstq+16*5], m1 mova [dstq+16*6], m2 mova [dstq+16*7], m3 add srcq, ssq add dstq, dsq dec hd jg .put_w128 RET .h: ; (16 * src[x] + (mx * (src[x + 1] - src[x])) + 8) >> 4 ; = ((16 - mx) * src[x] + mx * src[x + 1] + 8) >> 4 imul mxyd, 0xff01 mova m4, [base+bilin_h_shuf8] mova m0, [base+bilin_h_shuf4] add mxyd, 16 << 8 movd m5, mxyd mov mxyd, r7m ; my pshuflw m5, m5, q0000 punpcklqdq m5, m5 test mxyd, mxyd jnz .hv movzx wd, word [t0+wq*2+table_offset(put, _bilin_h)] mova m3, [base+pw_2048] add wq, t0 RESTORE_DSQ_32 t0 jmp wq .h_w2: pshufd m4, m4, q3120 ; m4 = {1, 0, 2, 1, 5, 4, 6, 5} .h_w2_loop: movd m0, [srcq+ssq*0] movd m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpckldq m0, m1 pshufb m0, m4 pmaddubsw m0, m5 pmulhrsw m0, m3 packuswb m0, m0 movd r6d, m0 mov [dstq+dsq*0], r6w shr r6d, 16 mov [dstq+dsq*1], r6w lea dstq, [dstq+dsq*2] sub hd, 2 jg .h_w2_loop RET .h_w4: movq m4, [srcq+ssq*0] movhps m4, [srcq+ssq*1] lea srcq, [srcq+ssq*2] pshufb m4, m0 pmaddubsw m4, m5 pmulhrsw m4, m3 packuswb m4, m4 movd [dstq+dsq*0], m4 psrlq m4, 32 movd [dstq+dsq*1], m4 lea dstq, [dstq+dsq*2] sub hd, 2 jg .h_w4 RET .h_w8: movu m0, [srcq+ssq*0] movu m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmulhrsw m0, m3 pmulhrsw m1, m3 packuswb m0, m1 movq [dstq+dsq*0], m0 movhps [dstq+dsq*1], m0 lea dstq, [dstq+dsq*2] sub hd, 2 jg .h_w8 RET .h_w16: movu m0, [srcq+8*0] movu m1, [srcq+8*1] add srcq, ssq pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmulhrsw m0, m3 pmulhrsw m1, m3 packuswb m0, m1 mova [dstq], m0 add dstq, dsq dec hd jg .h_w16 RET .h_w32: movu m0, [srcq+mmsize*0+8*0] movu m1, [srcq+mmsize*0+8*1] pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmulhrsw m0, m3 pmulhrsw m1, m3 packuswb m0, m1 movu m1, [srcq+mmsize*1+8*0] movu m2, [srcq+mmsize*1+8*1] add srcq, ssq pshufb m1, m4 pshufb m2, m4 pmaddubsw m1, m5 pmaddubsw m2, m5 pmulhrsw m1, m3 pmulhrsw m2, m3 packuswb m1, m2 mova [dstq+16*0], m0 mova [dstq+16*1], m1 add dstq, dsq dec hd jg .h_w32 RET .h_w64: mov r6, -16*3 .h_w64_loop: movu m0, [srcq+r6+16*3+8*0] movu m1, [srcq+r6+16*3+8*1] pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmulhrsw m0, m3 pmulhrsw m1, m3 packuswb m0, m1 mova [dstq+r6+16*3], m0 add r6, 16 jle .h_w64_loop add srcq, ssq add dstq, dsq dec hd jg .h_w64 RET .h_w128: mov r6, -16*7 .h_w128_loop: movu m0, [srcq+r6+16*7+8*0] movu m1, [srcq+r6+16*7+8*1] pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmulhrsw m0, m3 pmulhrsw m1, m3 packuswb m0, m1 mova [dstq+r6+16*7], m0 add r6, 16 jle .h_w128_loop add srcq, ssq add dstq, dsq dec hd jg .h_w128 RET .v: movzx wd, word [t0+wq*2+table_offset(put, _bilin_v)] imul mxyd, 0xff01 mova m5, [base+pw_2048] add mxyd, 16 << 8 add wq, t0 movd m4, mxyd pshuflw m4, m4, q0000 punpcklqdq m4, m4 RESTORE_DSQ_32 t0 jmp wq .v_w2: movd m0, [srcq+ssq*0] .v_w2_loop: pinsrw m0, [srcq+ssq*1], 1 ; 0 1 lea srcq, [srcq+ssq*2] pshuflw m2, m0, q2301 pinsrw m0, [srcq+ssq*0], 0 ; 2 1 punpcklbw m1, m0, m2 pmaddubsw m1, m4 pmulhrsw m1, m5 packuswb m1, m1 movd r6d, m1 mov [dstq+dsq*1], r6w shr r6d, 16 mov [dstq+dsq*0], r6w lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w2_loop RET .v_w4: movd m0, [srcq+ssq*0] .v_w4_loop: movd m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpckldq m2, m0, m1 ; 0 1 movd m0, [srcq+ssq*0] punpckldq m1, m0 ; 1 2 punpcklbw m1, m2 pmaddubsw m1, m4 pmulhrsw m1, m5 packuswb m1, m1 movd [dstq+dsq*0], m1 psrlq m1, 32 movd [dstq+dsq*1], m1 ; lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w4_loop RET .v_w8: movq m0, [srcq+ssq*0] .v_w8_loop: movq m3, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpcklbw m1, m3, m0 movq m0, [srcq+ssq*0] punpcklbw m2, m0, m3 pmaddubsw m1, m4 pmaddubsw m2, m4 pmulhrsw m1, m5 pmulhrsw m2, m5 packuswb m1, m2 movq [dstq+dsq*0], m1 movhps [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w8_loop RET ; %macro PUT_BILIN_V_W16 0 movu m0, [srcq+ssq*0] %%loop: movu m3, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpcklbw m1, m3, m0 punpckhbw m2, m3, m0 movu m0, [srcq+ssq*0] pmaddubsw m1, m4 pmaddubsw m2, m4 pmulhrsw m1, m5 pmulhrsw m2, m5 packuswb m1, m2 mova [dstq+dsq*0], m1 punpcklbw m1, m0, m3 punpckhbw m2, m0, m3 pmaddubsw m1, m4 pmaddubsw m2, m4 pmulhrsw m1, m5 pmulhrsw m2, m5 packuswb m1, m2 mova [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg %%loop %endmacro ; .v_w16: PUT_BILIN_V_W16 RET .v_w16gt: mov r4, dstq mov r6, srcq .v_w16gt_loop: %if ARCH_X86_32 mov bakm, t0q RESTORE_DSQ_32 t0 PUT_BILIN_V_W16 mov t0q, bakm %else PUT_BILIN_V_W16 %endif mov hw, t0w add r4, mmsize add r6, mmsize mov dstq, r4 mov srcq, r6 sub t0d, 1<<16 jg .v_w16gt RET .v_w32: lea t0d, [hq+(1<<16)] jmp .v_w16gt .v_w64: lea t0d, [hq+(3<<16)] jmp .v_w16gt .v_w128: lea t0d, [hq+(7<<16)] jmp .v_w16gt .hv: ; (16 * src[x] + (my * (src[x + src_stride] - src[x])) + 128) >> 8 ; = (src[x] + ((my * (src[x + src_stride] - src[x])) >> 4) + 8) >> 4 movzx wd, word [t0+wq*2+table_offset(put, _bilin_hv)] WIN64_SPILL_XMM 8 shl mxyd, 11 ; can't shift by 12 due to signed overflow mova m7, [base+pw_2048] movd m6, mxyd add wq, t0 pshuflw m6, m6, q0000 punpcklqdq m6, m6 jmp wq .hv_w2: RESTORE_DSQ_32 t0 movd m0, [srcq+ssq*0] pshufd m0, m0, q0000 ; src[x - src_stride] pshufb m0, m4 pmaddubsw m0, m5 .hv_w2_loop: movd m1, [srcq+ssq*1] ; src[x] lea srcq, [srcq+ssq*2] movhps m1, [srcq+ssq*0] ; src[x + src_stride] pshufd m1, m1, q3120 pshufb m1, m4 pmaddubsw m1, m5 ; 1 _ 2 _ shufps m2, m0, m1, q1032 ; 0 _ 1 _ mova m0, m1 psubw m1, m2 ; src[x + src_stride] - src[x] paddw m1, m1 pmulhw m1, m6 ; (my * (src[x + src_stride] - src[x]) paddw m1, m2 ; src[x] + (my * (src[x + src_stride] - src[x]) pmulhrsw m1, m7 packuswb m1, m1 %if ARCH_X86_64 movq r6, m1 %else pshuflw m1, m1, q2020 movd r6d, m1 %endif mov [dstq+dsq*0], r6w shr r6, gprsize*4 mov [dstq+dsq*1], r6w lea dstq, [dstq+dsq*2] sub hd, 2 jg .hv_w2_loop RET .hv_w4: mova m4, [base+bilin_h_shuf4] RESTORE_DSQ_32 t0 movddup xm0, [srcq+ssq*0] pshufb m0, m4 pmaddubsw m0, m5 .hv_w4_loop: movq m1, [srcq+ssq*1] lea srcq, [srcq+ssq*2] movhps m1, [srcq+ssq*0] pshufb m1, m4 pmaddubsw m1, m5 ; 1 2 shufps m2, m0, m1, q1032 ; 0 1 mova m0, m1 psubw m1, m2 paddw m1, m1 pmulhw m1, m6 paddw m1, m2 pmulhrsw m1, m7 packuswb m1, m1 movd [dstq+dsq*0], m1 psrlq m1, 32 movd [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg .hv_w4_loop RET .hv_w8: RESTORE_DSQ_32 t0 movu m0, [srcq+ssq*0+8*0] pshufb m0, m4 pmaddubsw m0, m5 .hv_w8_loop: movu m2, [srcq+ssq*1+8*0] lea srcq, [srcq+ssq*2] pshufb m2, m4 pmaddubsw m2, m5 psubw m1, m2, m0 paddw m1, m1 pmulhw m1, m6 paddw m1, m0 movu m0, [srcq+ssq*0+8*0] pshufb m0, m4 pmaddubsw m0, m5 psubw m3, m0, m2 paddw m3, m3 pmulhw m3, m6 paddw m3, m2 pmulhrsw m1, m7 pmulhrsw m3, m7 packuswb m1, m3 movq [dstq+dsq*0], m1 movhps [dstq+dsq*1], m1 lea dstq, [dstq+dsq*2] sub hd, 2 jg .hv_w8_loop RET .hv_w16: xor t0d, t0d .hv_w16gt: mov r4, dstq mov r6, srcq %if WIN64 movaps r4m, xmm8 %endif .hv_w16_loop0: movu m0, [srcq+8*0] movu m1, [srcq+8*1] pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 .hv_w16_loop: %if ARCH_X86_32 %define m0tmp [dstq] %else %define m0tmp m8 %endif add srcq, ssq movu m2, [srcq+8*0] movu m3, [srcq+8*1] pshufb m2, m4 pshufb m3, m4 pmaddubsw m2, m5 pmaddubsw m3, m5 mova m0tmp, m2 psubw m2, m0 paddw m2, m2 pmulhw m2, m6 paddw m2, m0 mova m0, m3 psubw m3, m1 paddw m3, m3 pmulhw m3, m6 paddw m3, m1 mova m1, m0 mova m0, m0tmp pmulhrsw m2, m7 pmulhrsw m3, m7 packuswb m2, m3 mova [dstq], m2 add dstq, dsmp dec hd jg .hv_w16_loop movzx hd, t0w add r4, mmsize add r6, mmsize mov dstq, r4 mov srcq, r6 sub t0d, 1<<16 jg .hv_w16_loop0 %if WIN64 movaps xmm8, r4m %endif RET .hv_w32: lea t0d, [hq+(1<<16)] jmp .hv_w16gt .hv_w64: lea t0d, [hq+(3<<16)] jmp .hv_w16gt .hv_w128: lea t0d, [hq+(7<<16)] jmp .hv_w16gt DECLARE_REG_TMP 3, 5, 6 %if ARCH_X86_32 %define base t2-prep_ssse3 %else %define base 0 %endif cglobal prep_bilin, 3, 7, 0, tmp, src, stride, w, h, mxy, stride3 movifnidn mxyd, r5m ; mx LEA t2, prep_ssse3 tzcnt wd, wm movifnidn hd, hm test mxyd, mxyd jnz .h mov mxyd, r6m ; my test mxyd, mxyd jnz .v .prep: movzx wd, word [t2+wq*2+table_offset(prep,)] add wq, t2 lea stride3q, [strideq*3] jmp wq .prep_w4: movd m0, [srcq+strideq*0] movd m1, [srcq+strideq*1] movd m2, [srcq+strideq*2] movd m3, [srcq+stride3q ] punpckldq m0, m1 punpckldq m2, m3 lea srcq, [srcq+strideq*4] pxor m1, m1 punpcklbw m0, m1 punpcklbw m2, m1 psllw m0, 4 psllw m2, 4 mova [tmpq+mmsize*0], m0 mova [tmpq+mmsize*1], m2 add tmpq, 32 sub hd, 4 jg .prep_w4 RET .prep_w8: movq m0, [srcq+strideq*0] movq m1, [srcq+strideq*1] movq m2, [srcq+strideq*2] movq m3, [srcq+stride3q ] lea srcq, [srcq+strideq*4] pxor m4, m4 punpcklbw m0, m4 punpcklbw m1, m4 punpcklbw m2, m4 punpcklbw m3, m4 psllw m0, 4 psllw m1, 4 psllw m2, 4 psllw m3, 4 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 sub hd, 4 jg .prep_w8 RET .prep_w16: movq m0, [srcq+strideq*0+8*0] movq m1, [srcq+strideq*0+8*1] movq m2, [srcq+strideq*1+8*0] movq m3, [srcq+strideq*1+8*1] lea srcq, [srcq+strideq*2] pxor m4, m4 punpcklbw m0, m4 punpcklbw m1, m4 punpcklbw m2, m4 punpcklbw m3, m4 psllw m0, 4 psllw m1, 4 psllw m2, 4 psllw m3, 4 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 sub hd, 2 jg .prep_w16 RET .prep_w16gt: mov t1q, srcq mov r3q, t2q .prep_w16gt_hloop: movq m0, [t1q+8*0] movq m1, [t1q+8*1] movq m2, [t1q+8*2] movq m3, [t1q+8*3] pxor m4, m4 punpcklbw m0, m4 punpcklbw m1, m4 punpcklbw m2, m4 punpcklbw m3, m4 psllw m0, 4 psllw m1, 4 psllw m2, 4 psllw m3, 4 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 add t1q, 32 sub r3q, 1 jg .prep_w16gt_hloop lea srcq, [srcq+strideq] sub hd, 1 jg .prep_w16gt RET .prep_w32: mov t2q, 1 jmp .prep_w16gt .prep_w64: mov t2q, 2 jmp .prep_w16gt .prep_w128: mov t2q, 4 jmp .prep_w16gt .h: ; 16 * src[x] + (mx * (src[x + 1] - src[x])) ; = (16 - mx) * src[x] + mx * src[x + 1] imul mxyd, 0xff01 mova m4, [base+bilin_h_shuf8] add mxyd, 16 << 8 movd xm5, mxyd mov mxyd, r6m ; my pshuflw m5, m5, q0000 punpcklqdq m5, m5 test mxyd, mxyd jnz .hv %if ARCH_X86_32 mov t1, t2 ; save base reg for w4 %endif movzx wd, word [t2+wq*2+table_offset(prep, _bilin_h)] add wq, t2 lea stride3q, [strideq*3] jmp wq .h_w4: %if ARCH_X86_32 mova m4, [t1-prep_ssse3+bilin_h_shuf4] %else mova m4, [bilin_h_shuf4] %endif .h_w4_loop: movq m0, [srcq+strideq*0] movhps m0, [srcq+strideq*1] movq m1, [srcq+strideq*2] movhps m1, [srcq+stride3q ] lea srcq, [srcq+strideq*4] pshufb m0, m4 pmaddubsw m0, m5 pshufb m1, m4 pmaddubsw m1, m5 mova [tmpq+0 ], m0 mova [tmpq+16], m1 add tmpq, 32 sub hd, 4 jg .h_w4_loop RET .h_w8: movu m0, [srcq+strideq*0] movu m1, [srcq+strideq*1] movu m2, [srcq+strideq*2] movu m3, [srcq+stride3q ] lea srcq, [srcq+strideq*4] pshufb m0, m4 pshufb m1, m4 pshufb m2, m4 pshufb m3, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmaddubsw m2, m5 pmaddubsw m3, m5 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 sub hd, 4 jg .h_w8 RET .h_w16: movu m0, [srcq+strideq*0+8*0] movu m1, [srcq+strideq*0+8*1] movu m2, [srcq+strideq*1+8*0] movu m3, [srcq+strideq*1+8*1] lea srcq, [srcq+strideq*2] pshufb m0, m4 pshufb m1, m4 pshufb m2, m4 pshufb m3, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmaddubsw m2, m5 pmaddubsw m3, m5 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 sub hd, 2 jg .h_w16 RET .h_w16gt: mov t1q, srcq mov r3q, t2q .h_w16gt_hloop: movu m0, [t1q+8*0] movu m1, [t1q+8*1] movu m2, [t1q+8*2] movu m3, [t1q+8*3] pshufb m0, m4 pshufb m1, m4 pshufb m2, m4 pshufb m3, m4 pmaddubsw m0, m5 pmaddubsw m1, m5 pmaddubsw m2, m5 pmaddubsw m3, m5 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 mova [tmpq+16*2], m2 mova [tmpq+16*3], m3 add tmpq, 16*4 add t1q, 32 sub r3q, 1 jg .h_w16gt_hloop lea srcq, [srcq+strideq] sub hd, 1 jg .h_w16gt RET .h_w32: mov t2q, 1 jmp .h_w16gt .h_w64: mov t2q, 2 jmp .h_w16gt .h_w128: mov t2q, 4 jmp .h_w16gt .v: movzx wd, word [t2+wq*2+table_offset(prep, _bilin_v)] imul mxyd, 0xff01 add mxyd, 16 << 8 add wq, t2 lea stride3q, [strideq*3] movd m5, mxyd pshuflw m5, m5, q0000 punpcklqdq m5, m5 jmp wq .v_w4: movd m0, [srcq+strideq*0] .v_w4_loop: movd m1, [srcq+strideq*1] movd m2, [srcq+strideq*2] movd m3, [srcq+stride3q ] lea srcq, [srcq+strideq*4] punpcklwd m0, m1 ; 0 1 _ _ punpcklwd m1, m2 ; 1 2 _ _ punpcklbw m1, m0 pmaddubsw m1, m5 pshufd m1, m1, q3120 mova [tmpq+16*0], m1 movd m0, [srcq+strideq*0] punpcklwd m2, m3 ; 2 3 _ _ punpcklwd m3, m0 ; 3 4 _ _ punpcklbw m3, m2 pmaddubsw m3, m5 pshufd m3, m3, q3120 mova [tmpq+16*1], m3 add tmpq, 32 sub hd, 4 jg .v_w4_loop RET .v_w8: movq m0, [srcq+strideq*0] .v_w8_loop: movq m1, [srcq+strideq*2] movq m2, [srcq+strideq*1] movq m3, [srcq+stride3q ] lea srcq, [srcq+strideq*4] shufpd m4, m0, m1, 0x0c ; 0 2 movq m0, [srcq+strideq*0] shufpd m2, m3, 0x0c ; 1 3 shufpd m1, m0, 0x0c ; 2 4 punpcklbw m3, m2, m4 pmaddubsw m3, m5 mova [tmpq+16*0], m3 punpckhbw m3, m2, m4 pmaddubsw m3, m5 mova [tmpq+16*2], m3 punpcklbw m3, m1, m2 punpckhbw m1, m2 pmaddubsw m3, m5 pmaddubsw m1, m5 mova [tmpq+16*1], m3 mova [tmpq+16*3], m1 add tmpq, 16*4 sub hd, 4 jg .v_w8_loop RET .v_w16: movu m0, [srcq+strideq*0] .v_w16_loop: movu m1, [srcq+strideq*1] movu m2, [srcq+strideq*2] punpcklbw m3, m1, m0 punpckhbw m4, m1, m0 pmaddubsw m3, m5 pmaddubsw m4, m5 mova [tmpq+16*0], m3 mova [tmpq+16*1], m4 punpcklbw m3, m2, m1 punpckhbw m4, m2, m1 pmaddubsw m3, m5 pmaddubsw m4, m5 mova [tmpq+16*2], m3 mova [tmpq+16*3], m4 movu m3, [srcq+stride3q ] lea srcq, [srcq+strideq*4] movu m0, [srcq+strideq*0] add tmpq, 16*8 punpcklbw m1, m3, m2 punpckhbw m4, m3, m2 pmaddubsw m1, m5 pmaddubsw m4, m5 mova [tmpq-16*4], m1 mova [tmpq-16*3], m4 punpcklbw m1, m0, m3 punpckhbw m2, m0, m3 pmaddubsw m1, m5 pmaddubsw m2, m5 mova [tmpq-16*2], m1 mova [tmpq-16*1], m2 sub hd, 4 jg .v_w16_loop RET .v_w32: lea t2d, [hq+(0<<16)] mov t0d, 64 .v_w32_start: %if ARCH_X86_64 %if WIN64 PUSH r7 %endif mov r7, tmpq %endif mov t1, srcq .v_w32_loop_h: movu m0, [srcq+strideq*0+16*0] ; 0L movu m1, [srcq+strideq*0+16*1] ; 0U .v_w32_loop_v: movu m2, [srcq+strideq*1+16*0] ; 1L movu m3, [srcq+strideq*1+16*1] ; 1U lea srcq, [srcq+strideq*2] punpcklbw m4, m2, m0 pmaddubsw m4, m5 mova [tmpq+16*0], m4 punpckhbw m4, m2, m0 pmaddubsw m4, m5 mova [tmpq+16*1], m4 punpcklbw m4, m3, m1 pmaddubsw m4, m5 mova [tmpq+16*2], m4 punpckhbw m4, m3, m1 pmaddubsw m4, m5 mova [tmpq+16*3], m4 add tmpq, t0q movu m0, [srcq+strideq*0+16*0] ; 2L movu m1, [srcq+strideq*0+16*1] ; 2U punpcklbw m4, m0, m2 pmaddubsw m4, m5 mova [tmpq+16*0], m4 punpckhbw m4, m0, m2 pmaddubsw m4, m5 mova [tmpq+16*1], m4 punpcklbw m4, m1, m3 pmaddubsw m4, m5 mova [tmpq+16*2], m4 punpckhbw m4, m1, m3 pmaddubsw m4, m5 mova [tmpq+16*3], m4 add tmpq, t0q sub hd, 2 jg .v_w32_loop_v movzx hd, t2w add t1, 32 mov srcq, t1 %if ARCH_X86_64 add r7, 2*16*2 mov tmpq, r7 %else mov tmpq, tmpmp add tmpq, 2*16*2 mov tmpmp, tmpq %endif sub t2d, 1<<16 jg .v_w32_loop_h %if WIN64 POP r7 %endif RET .v_w64: lea t2d, [hq+(1<<16)] mov t0d, 128 jmp .v_w32_start .v_w128: lea t2d, [hq+(3<<16)] mov t0d, 256 jmp .v_w32_start .hv: ; (16 * src[x] + (my * (src[x + src_stride] - src[x])) + 8) >> 4 ; = src[x] + (((my * (src[x + src_stride] - src[x])) + 8) >> 4) %assign stack_offset stack_offset - stack_size_padded WIN64_SPILL_XMM 8 movzx wd, word [t2+wq*2+table_offset(prep, _bilin_hv)] shl mxyd, 11 movd xm6, mxyd add wq, t2 pshuflw m6, m6, q0000 punpcklqdq m6, m6 %if ARCH_X86_32 mov t1, t2 ; save base reg for w4 %endif lea stride3q, [strideq*3] jmp wq .hv_w4: %if ARCH_X86_32 mova m4, [t1-prep_ssse3+bilin_h_shuf4] %else mova m4, [bilin_h_shuf4] %endif movq m0, [srcq+strideq*0] ; 0 _ punpcklqdq m0, m0 pshufb m0, m4 pmaddubsw m0, m5 .hv_w4_loop: movq m1, [srcq+strideq*1] movhps m1, [srcq+strideq*2] ; 1 _ 2 _ movq m2, [srcq+stride3q ] lea srcq, [srcq+strideq*4] movhps m2, [srcq+strideq*0] ; 3 _ 4 _ pshufb m1, m4 pshufb m2, m4 pmaddubsw m1, m5 ; 1 + 2 + shufpd m3, m0, m1, 0x01 ; 0 + 1 + pmaddubsw m0, m2, m5 ; 3 + 4 + shufpd m2, m1, m0, 0x01 ; 2 + 3 + psubw m1, m3 pmulhrsw m1, m6 paddw m1, m3 psubw m3, m0, m2 pmulhrsw m3, m6 paddw m3, m2 mova [tmpq+16*0], m1 mova [tmpq+16*1], m3 add tmpq, 32 sub hd, 4 jg .hv_w4_loop RET .hv_w8: movu m0, [srcq+strideq*0] pshufb m0, m4 pmaddubsw m0, m5 ; 0 + .hv_w8_loop: movu m1, [srcq+strideq*1] ; 1 movu m2, [srcq+strideq*2] ; 2 pshufb m1, m4 pshufb m2, m4 pmaddubsw m1, m5 ; 1 + pmaddubsw m2, m5 ; 2 + psubw m3, m1, m0 ; 1-0 pmulhrsw m3, m6 paddw m3, m0 psubw m7, m2, m1 ; 2-1 pmulhrsw m7, m6 paddw m7, m1 mova [tmpq+16*0], m3 mova [tmpq+16*1], m7 movu m1, [srcq+stride3q ] ; 3 lea srcq, [srcq+strideq*4] movu m0, [srcq+strideq*0] ; 4 pshufb m1, m4 pshufb m0, m4 pmaddubsw m1, m5 ; 3 + pmaddubsw m0, m5 ; 4 + psubw m3, m1, m2 ; 3-2 pmulhrsw m3, m6 paddw m3, m2 psubw m7, m0, m1 ; 4-3 pmulhrsw m7, m6 paddw m7, m1 mova [tmpq+16*2], m3 mova [tmpq+16*3], m7 add tmpq, 16*4 sub hd, 4 jg .hv_w8_loop RET .hv_w16: lea t2d, [hq+(0<<16)] mov t0d, 32 .hv_w16_start: %if ARCH_X86_64 %if WIN64 PUSH r7 %endif mov r7, tmpq %endif mov t1, srcq .hv_w16_loop_h: movu m0, [srcq+strideq*0+8*0] ; 0L movu m1, [srcq+strideq*0+8*1] ; 0U pshufb m0, m4 pshufb m1, m4 pmaddubsw m0, m5 ; 0L + pmaddubsw m1, m5 ; 0U + .hv_w16_loop_v: movu m2, [srcq+strideq*1+8*0] ; 1L pshufb m2, m4 pmaddubsw m2, m5 ; 1L + psubw m3, m2, m0 ; 1L-0L pmulhrsw m3, m6 paddw m3, m0 mova [tmpq+16*0], m3 movu m3, [srcq+strideq*1+8*1] ; 1U lea srcq, [srcq+strideq*2] pshufb m3, m4 pmaddubsw m3, m5 ; 1U + psubw m0, m3, m1 ; 1U-0U pmulhrsw m0, m6 paddw m0, m1 mova [tmpq+16*1], m0 add tmpq, t0q movu m0, [srcq+strideq*0+8*0] ; 2L pshufb m0, m4 pmaddubsw m0, m5 ; 2L + psubw m1, m0, m2 ; 2L-1L pmulhrsw m1, m6 paddw m1, m2 mova [tmpq+16*0], m1 movu m1, [srcq+strideq*0+8*1] ; 2U pshufb m1, m4 pmaddubsw m1, m5 ; 2U + psubw m2, m1, m3 ; 2U-1U pmulhrsw m2, m6 paddw m2, m3 mova [tmpq+16*1], m2 add tmpq, t0q sub hd, 2 jg .hv_w16_loop_v movzx hd, t2w add t1, 16 mov srcq, t1 %if ARCH_X86_64 add r7, 2*16 mov tmpq, r7 %else mov tmpq, tmpmp add tmpq, 2*16 mov tmpmp, tmpq %endif sub t2d, 1<<16 jg .hv_w16_loop_h %if WIN64 POP r7 %endif RET .hv_w32: lea t2d, [hq+(1<<16)] mov t0d, 64 jmp .hv_w16_start .hv_w64: lea t2d, [hq+(3<<16)] mov t0d, 128 jmp .hv_w16_start .hv_w128: lea t2d, [hq+(7<<16)] mov t0d, 256 jmp .hv_w16_start ; int8_t subpel_filters[5][15][8] %assign FILTER_REGULAR (0*15 << 16) | 3*15 %assign FILTER_SMOOTH (1*15 << 16) | 4*15 %assign FILTER_SHARP (2*15 << 16) | 3*15 %if ARCH_X86_32 DECLARE_REG_TMP 1, 2 %elif WIN64 DECLARE_REG_TMP 4, 5 %else DECLARE_REG_TMP 7, 8 %endif %macro PUT_8TAP_FN 3 ; type, type_h, type_v cglobal put_8tap_%1 mov t0d, FILTER_%2 mov t1d, FILTER_%3 %ifnidn %1, sharp_smooth ; skip the jump in the last filter jmp mangle(private_prefix %+ _put_8tap %+ SUFFIX) %endif %endmacro PUT_8TAP_FN regular, REGULAR, REGULAR PUT_8TAP_FN regular_sharp, REGULAR, SHARP PUT_8TAP_FN regular_smooth, REGULAR, SMOOTH PUT_8TAP_FN smooth_regular, SMOOTH, REGULAR PUT_8TAP_FN smooth, SMOOTH, SMOOTH PUT_8TAP_FN smooth_sharp, SMOOTH, SHARP PUT_8TAP_FN sharp_regular, SHARP, REGULAR PUT_8TAP_FN sharp, SHARP, SHARP PUT_8TAP_FN sharp_smooth, SHARP, SMOOTH %if ARCH_X86_32 %define base_reg r1 %define base base_reg-put_ssse3 %define W32_RESTORE_DSQ mov dsq, dsm %define W32_RESTORE_SSQ mov ssq, ssm %else %define base_reg r8 %define base 0 %define W32_RESTORE_DSQ %define W32_RESTORE_SSQ %endif cglobal put_8tap, 1, 9, 0, dst, ds, src, ss, w, h, mx, my, ss3 %assign org_stack_offset stack_offset imul mxd, mxm, 0x010101 add mxd, t0d ; 8tap_h, mx, 4tap_h %if ARCH_X86_64 imul myd, mym, 0x010101 add myd, t1d ; 8tap_v, my, 4tap_v %else imul ssd, mym, 0x010101 add ssd, t1d ; 8tap_v, my, 4tap_v mov srcq, srcm %endif mov wd, wm movifnidn hd, hm LEA base_reg, put_ssse3 test mxd, 0xf00 jnz .h %if ARCH_X86_32 test ssd, 0xf00 %else test myd, 0xf00 %endif jnz .v tzcnt wd, wd movzx wd, word [base_reg+wq*2+table_offset(put,)] add wq, base_reg ; put_bilin mangling jump %assign stack_offset org_stack_offset %if ARCH_X86_32 mov dsq, dsm mov ssq, ssm %elif WIN64 pop r8 %endif lea r6, [ssq*3] jmp wq .h: %if ARCH_X86_32 test ssd, 0xf00 %else test myd, 0xf00 %endif jnz .hv W32_RESTORE_SSQ WIN64_SPILL_XMM 12 cmp wd, 4 jl .h_w2 je .h_w4 tzcnt wd, wd %if ARCH_X86_64 mova m10, [base+subpel_h_shufA] mova m11, [base+subpel_h_shufB] mova m9, [base+subpel_h_shufC] %endif shr mxd, 16 sub srcq, 3 movzx wd, word [base_reg+wq*2+table_offset(put, _8tap_h)] movd m5, [base_reg+mxq*8+subpel_filters-put_ssse3+0] pshufd m5, m5, q0000 movd m6, [base_reg+mxq*8+subpel_filters-put_ssse3+4] pshufd m6, m6, q0000 mova m7, [base+pw_34] ; 2 + (8 << 2) add wq, base_reg jmp wq .h_w2: %if ARCH_X86_32 and mxd, 0x7f %else movzx mxd, mxb %endif dec srcq mova m4, [base+subpel_h_shuf4] movd m3, [base_reg+mxq*8+subpel_filters-put_ssse3+2] pshufd m3, m3, q0000 mova m5, [base+pw_34] ; 2 + (8 << 2) W32_RESTORE_DSQ .h_w2_loop: movq m0, [srcq+ssq*0] movhps m0, [srcq+ssq*1] lea srcq, [srcq+ssq*2] pshufb m0, m4 pmaddubsw m0, m3 phaddw m0, m0 paddw m0, m5 ; pw34 psraw m0, 6 packuswb m0, m0 movd r4d, m0 mov [dstq+dsq*0], r4w shr r4d, 16 mov [dstq+dsq*1], r4w lea dstq, [dstq+dsq*2] sub hd, 2 jg .h_w2_loop RET .h_w4: %if ARCH_X86_32 and mxd, 0x7f %else movzx mxd, mxb %endif dec srcq movd m3, [base_reg+mxq*8+subpel_filters-put_ssse3+2] pshufd m3, m3, q0000 mova m5, [base+pw_34] ; 2 + (8 << 2) mova m6, [base+subpel_h_shufA] W32_RESTORE_DSQ .h_w4_loop: movq m0, [srcq+ssq*0] ; 1 movq m1, [srcq+ssq*1] ; 2 lea srcq, [srcq+ssq*2] pshufb m0, m6 ; subpel_h_shufA pshufb m1, m6 ; subpel_h_shufA pmaddubsw m0, m3 ; subpel_filters pmaddubsw m1, m3 ; subpel_filters phaddw m0, m1 paddw m0, m5 ; pw34 psraw m0, 6 packuswb m0, m0 movd [dstq+dsq*0], m0 psrlq m0, 32 movd [dstq+dsq*1], m0 lea dstq, [dstq+dsq*2] sub hd, 2 jg .h_w4_loop RET ; %macro PUT_8TAP_H 4 ; dst/src, tmp[1-3] %if ARCH_X86_32 pshufb %2, %1, [base+subpel_h_shufB] pshufb %3, %1, [base+subpel_h_shufC] pshufb %1, [base+subpel_h_shufA] %else pshufb %2, %1, m11; subpel_h_shufB pshufb %3, %1, m9 ; subpel_h_shufC pshufb %1, m10 ; subpel_h_shufA %endif pmaddubsw %4, %2, m5 ; subpel +0 B0 pmaddubsw %2, m6 ; subpel +4 B4 pmaddubsw %3, m6 ; C4 pmaddubsw %1, m5 ; A0 paddw %3, %4 ; C4+B0 paddw %1, %2 ; A0+B4 phaddw %1, %3 paddw %1, m7 ; pw34 psraw %1, 6 %endmacro ; .h_w8: movu m0, [srcq+ssq*0] movu m1, [srcq+ssq*1] PUT_8TAP_H m0, m2, m3, m4 lea srcq, [srcq+ssq*2] PUT_8TAP_H m1, m2, m3, m4 packuswb m0, m1 %if ARCH_X86_32 movq [dstq ], m0 add dstq, dsm movhps [dstq ], m0 add dstq, dsm %else movq [dstq+dsq*0], m0 movhps [dstq+dsq*1], m0 lea dstq, [dstq+dsq*2] %endif sub hd, 2 jg .h_w8 RET .h_w16: xor r6d, r6d jmp .h_start .h_w32: mov r6, -16*1 jmp .h_start .h_w64: mov r6, -16*3 jmp .h_start .h_w128: mov r6, -16*7 .h_start: sub srcq, r6 sub dstq, r6 mov r4, r6 .h_loop: movu m0, [srcq+r6+8*0] movu m1, [srcq+r6+8*1] PUT_8TAP_H m0, m2, m3, m4 PUT_8TAP_H m1, m2, m3, m4 packuswb m0, m1 mova [dstq+r6], m0 add r6, mmsize jle .h_loop add srcq, ssq %if ARCH_X86_32 add dstq, dsm %else add dstq, dsq %endif mov r6, r4 dec hd jg .h_loop RET .v: %if ARCH_X86_32 movzx mxd, ssb shr ssd, 16 cmp hd, 6 cmovs ssd, mxd lea ssq, [base_reg+ssq*8+subpel_filters-put_ssse3] %else %assign stack_offset org_stack_offset WIN64_SPILL_XMM 16 movzx mxd, myb shr myd, 16 cmp hd, 6 cmovs myd, mxd lea myq, [base_reg+myq*8+subpel_filters-put_ssse3] %endif tzcnt r6d, wd movzx r6d, word [base_reg+r6*2+table_offset(put, _8tap_v)] mova m7, [base+pw_512] psrlw m2, m7, 1 ; 0x0100 add r6, base_reg %if ARCH_X86_32 %define subpel0 [rsp+mmsize*0] %define subpel1 [rsp+mmsize*1] %define subpel2 [rsp+mmsize*2] %define subpel3 [rsp+mmsize*3] %assign regs_used 2 ; use r1 (ds) as tmp for stack alignment if needed ALLOC_STACK -mmsize*4 %assign regs_used 7 movd m0, [ssq+0] pshufb m0, m2 mova subpel0, m0 movd m0, [ssq+2] pshufb m0, m2 mova subpel1, m0 movd m0, [ssq+4] pshufb m0, m2 mova subpel2, m0 movd m0, [ssq+6] pshufb m0, m2 mova subpel3, m0 mov ssq, [rstk+stack_offset+gprsize*4] lea ssq, [ssq*3] sub srcq, ssq mov ssq, [rstk+stack_offset+gprsize*4] mov dsq, [rstk+stack_offset+gprsize*2] %else %define subpel0 m8 %define subpel1 m9 %define subpel2 m10 %define subpel3 m11 movd subpel0, [myq+0] pshufb subpel0, m2 movd subpel1, [myq+2] pshufb subpel1, m2 movd subpel2, [myq+4] pshufb subpel2, m2 movd subpel3, [myq+6] pshufb subpel3, m2 lea ss3q, [ssq*3] sub srcq, ss3q %endif jmp r6 .v_w2: movd m2, [srcq+ssq*0] ; 0 pinsrw m2, [srcq+ssq*1], 2 ; 0 1 pinsrw m2, [srcq+ssq*2], 4 ; 0 1 2 %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq pinsrw m2, [srcq+ssq*0], 6 ; 0 1 2 3 add srcq, ssq %else pinsrw m2, [srcq+ss3q ], 6 ; 0 1 2 3 lea srcq, [srcq+ssq*4] %endif movd m3, [srcq+ssq*0] ; 4 movd m1, [srcq+ssq*1] ; 5 movd m0, [srcq+ssq*2] ; 6 %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq %else add srcq, ss3q %endif punpckldq m3, m1 ; 4 5 _ _ punpckldq m1, m0 ; 5 6 _ _ palignr m4, m3, m2, 4 ; 1 2 3 4 punpcklbw m3, m1 ; 45 56 punpcklbw m1, m2, m4 ; 01 12 punpckhbw m2, m4 ; 23 34 .v_w2_loop: pmaddubsw m5, m1, subpel0 ; a0 b0 mova m1, m2 pmaddubsw m2, subpel1 ; a1 b1 paddw m5, m2 mova m2, m3 pmaddubsw m3, subpel2 ; a2 b2 paddw m5, m3 movd m4, [srcq+ssq*0] ; 7 punpckldq m3, m0, m4 ; 6 7 _ _ movd m0, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpckldq m4, m0 ; 7 8 _ _ punpcklbw m3, m4 ; 67 78 pmaddubsw m4, m3, subpel3 ; a3 b3 paddw m5, m4 pmulhrsw m5, m7 packuswb m5, m5 pshuflw m5, m5, q2020 movd r6d, m5 mov [dstq+dsq*0], r6w shr r6d, 16 mov [dstq+dsq*1], r6w lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w2_loop RET .v_w4: %if ARCH_X86_32 .v_w8: .v_w16: .v_w32: .v_w64: .v_w128: %endif ; ARCH_X86_32 lea r6d, [wq - 4] ; horizontal loop mov r4, dstq %if ARCH_X86_32 %if STACK_ALIGNMENT < mmsize %define srcm [rsp+mmsize*4+gprsize] %endif mov srcm, srcq %else mov r7, srcq %endif shl r6d, (16 - 2) ; (wq / 4) << 16 mov r6w, hw .v_w4_loop0: movd m2, [srcq+ssq*0] ; 0 movhps m2, [srcq+ssq*2] ; 0 _ 2 movd m3, [srcq+ssq*1] ; 1 %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq movhps m3, [srcq+ssq*0] ; 1 _ 3 lea srcq, [srcq+ssq*1] %else movhps m3, [srcq+ss3q ] ; 1 _ 3 lea srcq, [srcq+ssq*4] %endif pshufd m2, m2, q2020 ; 0 2 0 2 pshufd m3, m3, q2020 ; 1 3 1 3 punpckldq m2, m3 ; 0 1 2 3 movd m3, [srcq+ssq*0] ; 4 movd m1, [srcq+ssq*1] ; 5 movd m0, [srcq+ssq*2] ; 6 %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq %else add srcq, ss3q %endif punpckldq m3, m1 ; 4 5 _ _ punpckldq m1, m0 ; 5 6 _ _ palignr m4, m3, m2, 4 ; 1 2 3 4 punpcklbw m3, m1 ; 45 56 punpcklbw m1, m2, m4 ; 01 12 punpckhbw m2, m4 ; 23 34 .v_w4_loop: pmaddubsw m5, m1, subpel0 ; a0 b0 mova m1, m2 pmaddubsw m2, subpel1 ; a1 b1 paddw m5, m2 mova m2, m3 pmaddubsw m3, subpel2 ; a2 b2 paddw m5, m3 movd m4, [srcq+ssq*0] punpckldq m3, m0, m4 ; 6 7 _ _ movd m0, [srcq+ssq*1] lea srcq, [srcq+ssq*2] punpckldq m4, m0 ; 7 8 _ _ punpcklbw m3, m4 ; 67 78 pmaddubsw m4, m3, subpel3 ; a3 b3 paddw m5, m4 pmulhrsw m5, m7 packuswb m5, m5 movd [dstq+dsq*0], m5 pshufd m5, m5, q0101 movd [dstq+dsq*1], m5 lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w4_loop mov hw, r6w ; reset vertical loop add r4, 4 mov dstq, r4 %if ARCH_X86_32 mov srcq, srcm add srcq, 4 mov srcm, srcq %else add r7, 4 mov srcq, r7 %endif sub r6d, 1<<16 ; horizontal-- jg .v_w4_loop0 RET %if ARCH_X86_64 .v_w8: .v_w16: .v_w32: .v_w64: .v_w128: lea r6d, [wq - 8] ; horizontal loop mov r4, dstq mov r7, srcq shl r6d, 8 - 3; (wq / 8) << 8 mov r6b, hb .v_w8_loop0: movq m4, [srcq+ssq*0] ; 0 movq m5, [srcq+ssq*1] ; 1 lea srcq, [srcq+ssq*2] movq m6, [srcq+ssq*0] ; 2 movq m0, [srcq+ssq*1] ; 3 lea srcq, [srcq+ssq*2] movq m1, [srcq+ssq*0] ; 4 movq m2, [srcq+ssq*1] ; 5 lea srcq, [srcq+ssq*2] ; movq m3, [srcq+ssq*0] ; 6 shufpd m4, m0, 0x0c shufpd m5, m1, 0x0c punpcklbw m1, m4, m5 ; 01 punpckhbw m4, m5 ; 34 shufpd m6, m2, 0x0c punpcklbw m2, m5, m6 ; 12 punpckhbw m5, m6 ; 45 shufpd m0, m3, 0x0c punpcklbw m3, m6, m0 ; 23 punpckhbw m6, m0 ; 56 .v_w8_loop: movq m12, [srcq+ssq*1] ; 8 lea srcq, [srcq+ssq*2] movq m13, [srcq+ssq*0] ; 9 pmaddubsw m14, m1, subpel0 ; a0 pmaddubsw m15, m2, subpel0 ; b0 mova m1, m3 mova m2, m4 pmaddubsw m3, subpel1 ; a1 pmaddubsw m4, subpel1 ; b1 paddw m14, m3 paddw m15, m4 mova m3, m5 mova m4, m6 pmaddubsw m5, subpel2 ; a2 pmaddubsw m6, subpel2 ; b2 paddw m14, m5 paddw m15, m6 shufpd m6, m0, m12, 0x0d shufpd m0, m12, m13, 0x0c punpcklbw m5, m6, m0 ; 67 punpckhbw m6, m0 ; 78 pmaddubsw m12, m5, subpel3 ; a3 pmaddubsw m13, m6, subpel3 ; b3 paddw m14, m12 paddw m15, m13 pmulhrsw m14, m7 pmulhrsw m15, m7 packuswb m14, m15 movq [dstq+dsq*0], xm14 movhps [dstq+dsq*1], xm14 lea dstq, [dstq+dsq*2] sub hd, 2 jg .v_w8_loop movzx hd, r6b ; reset vertical loop add r4, 8 add r7, 8 mov dstq, r4 mov srcq, r7 sub r6d, 1<<8 ; horizontal-- jg .v_w8_loop0 RET %endif ;ARCH_X86_64 %undef subpel0 %undef subpel1 %undef subpel2 %undef subpel3 .hv: %assign stack_offset org_stack_offset cmp wd, 4 jg .hv_w8 %if ARCH_X86_32 and mxd, 0x7f %else movzx mxd, mxb %endif dec srcq movd m1, [base_reg+mxq*8+subpel_filters-put_ssse3+2] %if ARCH_X86_32 movzx mxd, ssb shr ssd, 16 cmp hd, 6 cmovs ssd, mxd movq m0, [base_reg+ssq*8+subpel_filters-put_ssse3] W32_RESTORE_SSQ lea r6, [ssq*3] sub srcq, r6 %define base_reg r6 mov r6, r1; use as new base %assign regs_used 2 ALLOC_STACK -mmsize*14 %assign regs_used 7 mov dsq, [rstk+stack_offset+gprsize*2] %define subpelv0 [rsp+mmsize*0] %define subpelv1 [rsp+mmsize*1] %define subpelv2 [rsp+mmsize*2] %define subpelv3 [rsp+mmsize*3] punpcklqdq m0, m0 punpcklbw m0, m0 psraw m0, 8 ; sign-extend pshufd m6, m0, q0000 mova subpelv0, m6 pshufd m6, m0, q1111 mova subpelv1, m6 pshufd m6, m0, q2222 mova subpelv2, m6 pshufd m6, m0, q3333 mova subpelv3, m6 %else movzx mxd, myb shr myd, 16 cmp hd, 6 cmovs myd, mxd movq m0, [base_reg+myq*8+subpel_filters-put_ssse3] ALLOC_STACK mmsize*14, 14 lea ss3q, [ssq*3] sub srcq, ss3q %define subpelv0 m10 %define subpelv1 m11 %define subpelv2 m12 %define subpelv3 m13 punpcklqdq m0, m0 punpcklbw m0, m0 psraw m0, 8 ; sign-extend mova m8, [base+pw_8192] mova m9, [base+pd_512] pshufd m10, m0, q0000 pshufd m11, m0, q1111 pshufd m12, m0, q2222 pshufd m13, m0, q3333 %endif pshufd m7, m1, q0000 cmp wd, 4 je .hv_w4 .hv_w2: mova m6, [base+subpel_h_shuf4] ; movq m2, [srcq+ssq*0] ; 0 movhps m2, [srcq+ssq*1] ; 0 _ 1 movq m0, [srcq+ssq*2] ; 2 %if ARCH_X86_32 %define w8192reg [base+pw_8192] %define d512reg [base+pd_512] lea srcq, [srcq+ssq*2] add srcq, ssq movhps m0, [srcq+ssq*0] ; 2 _ 3 lea srcq, [srcq+ssq*1] %else %define w8192reg m8 %define d512reg m9 movhps m0, [srcq+ss3q ] ; 2 _ 3 lea srcq, [srcq+ssq*4] %endif pshufb m2, m6 ; 0 ~ 1 ~ pshufb m0, m6 ; 2 ~ 3 ~ pmaddubsw m2, m7 ; subpel_filters pmaddubsw m0, m7 ; subpel_filters phaddw m2, m0 ; 0 1 2 3 pmulhrsw m2, w8192reg ; movq m3, [srcq+ssq*0] ; 4 movhps m3, [srcq+ssq*1] ; 4 _ 5 movq m0, [srcq+ssq*2] ; 6 %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq %else add srcq, ss3q %endif pshufb m3, m6 ; 4 ~ 5 ~ pshufb m0, m6 ; 6 ~ pmaddubsw m3, m7 ; subpel_filters pmaddubsw m0, m7 ; subpel_filters phaddw m3, m0 ; 4 5 6 _ pmulhrsw m3, w8192reg ; palignr m4, m3, m2, 4; V 1 2 3 4 punpcklwd m1, m2, m4 ; V 01 12 0 1 1 2 punpckhwd m2, m4 ; V 23 34 2 3 3 4 pshufd m0, m3, q2121; V 5 6 5 6 punpcklwd m3, m0 ; V 45 56 4 5 5 6 .hv_w2_loop: pmaddwd m5, m1, subpelv0; V a0 b0 mova m1, m2 ; V pmaddwd m2, subpelv1 ; V a1 b1 paddd m5, m2 ; V mova m2, m3 ; V pmaddwd m3, subpelv2 ; a2 b2 paddd m5, m3 ; V movq m4, [srcq+ssq*0] ; V 7 movhps m4, [srcq+ssq*1] ; V 7 8 lea srcq, [srcq+ssq*2] ; V pshufb m4, m6 pmaddubsw m4, m7 phaddw m4, m4 pmulhrsw m4, w8192reg palignr m3, m4, m0, 12 mova m0, m4 punpcklwd m3, m0 ; V 67 78 pmaddwd m4, m3, subpelv3 ; V a3 b3 paddd m5, d512reg paddd m5, m4 psrad m5, 10 packssdw m5, m5 packuswb m5, m5 movd r4d, m5 mov [dstq+dsq*0], r4w shr r4d, 16 mov [dstq+dsq*1], r4w lea dstq, [dstq+dsq*2] sub hd, 2 jg .hv_w2_loop RET %undef w8192reg %undef d512reg ; .hv_w4: %define hv4_line_0_0 4 %define hv4_line_0_1 5 %define hv4_line_0_2 6 %define hv4_line_0_3 7 %define hv4_line_0_4 8 %define hv4_line_0_5 9 %define hv4_line_1_0 10 %define hv4_line_1_1 11 %define hv4_line_1_2 12 %define hv4_line_1_3 13 ; %macro SAVELINE_W4 3 mova [rsp+mmsize*hv4_line_%3_%2], %1 %endmacro %macro RESTORELINE_W4 3 mova %1, [rsp+mmsize*hv4_line_%3_%2] %endmacro ; %if ARCH_X86_32 %define w8192reg [base+pw_8192] %define d512reg [base+pd_512] %else %define w8192reg m8 %define d512reg m9 %endif ; lower shuffle 0 1 2 3 4 mova m6, [base+subpel_h_shuf4] movq m5, [srcq+ssq*0] ; 0 _ _ _ movhps m5, [srcq+ssq*1] ; 0 _ 1 _ movq m4, [srcq+ssq*2] ; 2 _ _ _ %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq movhps m4, [srcq+ssq*0] ; 2 _ 3 _ add srcq, ssq %else movhps m4, [srcq+ss3q ] ; 2 _ 3 _ lea srcq, [srcq+ssq*4] %endif pshufb m2, m5, m6 ;H subpel_h_shuf4 0 ~ 1 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 2 ~ 3 ~ pmaddubsw m2, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m2, m0 ;H 0 1 2 3 pmulhrsw m2, w8192reg ;H pw_8192 SAVELINE_W4 m2, 2, 0 ; upper shuffle 2 3 4 5 6 mova m6, [base+subpel_h_shuf4+16] pshufb m2, m5, m6 ;H subpel_h_shuf4 0 ~ 1 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 2 ~ 3 ~ pmaddubsw m2, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m2, m0 ;H 0 1 2 3 pmulhrsw m2, w8192reg ;H pw_8192 ; ; lower shuffle mova m6, [base+subpel_h_shuf4] movq m5, [srcq+ssq*0] ; 4 _ _ _ movhps m5, [srcq+ssq*1] ; 4 _ 5 _ movq m4, [srcq+ssq*2] ; 6 _ _ _ pshufb m3, m5, m6 ;H subpel_h_shuf4 4 ~ 5 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 6 ~ 6 ~ pmaddubsw m3, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m3, m0 ;H 4 5 6 7 pmulhrsw m3, w8192reg ;H pw_8192 SAVELINE_W4 m3, 3, 0 ; upper shuffle mova m6, [base+subpel_h_shuf4+16] pshufb m3, m5, m6 ;H subpel_h_shuf4 4 ~ 5 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 6 ~ 6 ~ pmaddubsw m3, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m3, m0 ;H 4 5 6 7 pmulhrsw m3, w8192reg ;H pw_8192 ; %if ARCH_X86_32 lea srcq, [srcq+ssq*2] add srcq, ssq %else add srcq, ss3q %endif ;process high palignr m4, m3, m2, 4;V 1 2 3 4 punpcklwd m1, m2, m4 ; V 01 12 punpckhwd m2, m4 ; V 23 34 pshufd m0, m3, q2121;V 5 6 5 6 punpcklwd m3, m0 ; V 45 56 SAVELINE_W4 m0, 0, 1 SAVELINE_W4 m1, 1, 1 SAVELINE_W4 m2, 2, 1 SAVELINE_W4 m3, 3, 1 ;process low RESTORELINE_W4 m2, 2, 0 RESTORELINE_W4 m3, 3, 0 palignr m4, m3, m2, 4;V 1 2 3 4 punpcklwd m1, m2, m4 ; V 01 12 punpckhwd m2, m4 ; V 23 34 pshufd m0, m3, q2121;V 5 6 5 6 punpcklwd m3, m0 ; V 45 56 .hv_w4_loop: ;process low pmaddwd m5, m1, subpelv0 ; V a0 b0 mova m1, m2 pmaddwd m2, subpelv1; V a1 b1 paddd m5, m2 mova m2, m3 pmaddwd m3, subpelv2; V a2 b2 paddd m5, m3 ; mova m6, [base+subpel_h_shuf4] movq m4, [srcq+ssq*0] ; 7 movhps m4, [srcq+ssq*1] ; 7 _ 8 _ pshufb m4, m6 ;H subpel_h_shuf4 7 ~ 8 ~ pmaddubsw m4, m7 ;H subpel_filters phaddw m4, m4 ;H 7 8 7 8 pmulhrsw m4, w8192reg ;H pw_8192 palignr m3, m4, m0, 12 ; 6 7 8 7 mova m0, m4 punpcklwd m3, m4 ; 67 78 pmaddwd m4, m3, subpelv3; a3 b3 paddd m5, d512reg ; pd_512 paddd m5, m4 psrad m5, 10 SAVELINE_W4 m0, 0, 0 SAVELINE_W4 m1, 1, 0 SAVELINE_W4 m2, 2, 0 SAVELINE_W4 m3, 3, 0 SAVELINE_W4 m5, 5, 0 ;process high RESTORELINE_W4 m0, 0, 1 RESTORELINE_W4 m1, 1, 1 RESTORELINE_W4 m2, 2, 1 RESTORELINE_W4 m3, 3, 1 pmaddwd m5, m1, subpelv0; V a0 b0 mova m1, m2 pmaddwd m2, subpelv1; V a1 b1 paddd m5, m2 mova m2, m3 pmaddwd m3, subpelv2; V a2 b2 paddd m5, m3 ; mova m6, [base+subpel_h_shuf4+16] movq m4, [srcq+ssq*0] ; 7 movhps m4, [srcq+ssq*1] ; 7 _ 8 _ pshufb m4, m6 ;H subpel_h_shuf4 7 ~ 8 ~ pmaddubsw m4, m7 ;H subpel_filters phaddw m4, m4 ;H 7 8 7 8 pmulhrsw m4, w8192reg ;H pw_8192 palignr m3, m4, m0, 12 ; 6 7 8 7 mova m0, m4 punpcklwd m3, m4 ; 67 78 pmaddwd m4, m3, subpelv3; a3 b3 paddd m5, d512reg ; pd_512 paddd m5, m4 psrad m4, m5, 10 ; RESTORELINE_W4 m5, 5, 0 packssdw m5, m4 ; d -> w packuswb m5, m5 ; w -> b pshuflw m5, m5, q3120 lea srcq, [srcq+ssq*2] movd [dstq+dsq*0], m5 psrlq m5, 32 movd [dstq+dsq*1], m5 lea dstq, [dstq+dsq*2] sub hd, 2 SAVELINE_W4 m0, 0, 1 SAVELINE_W4 m1, 1, 1 SAVELINE_W4 m2, 2, 1 SAVELINE_W4 m3, 3, 1 RESTORELINE_W4 m0, 0, 0 RESTORELINE_W4 m1, 1, 0 RESTORELINE_W4 m2, 2, 0 RESTORELINE_W4 m3, 3, 0 jg .hv_w4_loop RET %undef subpelv0 %undef subpelv1 %undef subpelv2 %undef subpelv3 ; .hv_w8: %assign stack_offset org_stack_offset %define hv8_line_1 0 %define hv8_line_2 1 %define hv8_line_3 2 %define hv8_line_4 3 %define hv8_line_6 4 %macro SAVELINE_W8 2 mova [rsp+hv8_line_%1*mmsize], %2 %endmacro %macro RESTORELINE_W8 2 mova %2, [rsp+hv8_line_%1*mmsize] %endmacro shr mxd, 16 sub srcq, 3 %if ARCH_X86_32 %define base_reg r1 %define subpelh0 [rsp+mmsize*5] %define subpelh1 [rsp+mmsize*6] %define subpelv0 [rsp+mmsize*7] %define subpelv1 [rsp+mmsize*8] %define subpelv2 [rsp+mmsize*9] %define subpelv3 [rsp+mmsize*10] %define accuv0 [rsp+mmsize*11] %define accuv1 [rsp+mmsize*12] movq m1, [base_reg+mxq*8+subpel_filters-put_ssse3] movzx mxd, ssb shr ssd, 16 cmp hd, 6 cmovs ssd, mxd movq m5, [base_reg+ssq*8+subpel_filters-put_ssse3] mov ssq, ssmp ALLOC_STACK -mmsize*13 %if STACK_ALIGNMENT < 16 %define srcm [rsp+mmsize*13+gprsize*1] %define dsm [rsp+mmsize*13+gprsize*2] mov r6, [rstk+stack_offset+gprsize*2] mov dsm, r6 %endif pshufd m0, m1, q0000 pshufd m1, m1, q1111 punpcklbw m5, m5 psraw m5, 8 ; sign-extend pshufd m2, m5, q0000 pshufd m3, m5, q1111 pshufd m4, m5, q2222 pshufd m5, m5, q3333 mova subpelh0, m0 mova subpelh1, m1 mova subpelv0, m2 mova subpelv1, m3 mova subpelv2, m4 mova subpelv3, m5 lea r6, [ssq*3] sub srcq, r6 mov srcm, srcq %else ALLOC_STACK mmsize*5, 16 %define subpelh0 m10 %define subpelh1 m11 %define subpelv0 m12 %define subpelv1 m13 %define subpelv2 m14 %define subpelv3 m15 %define accuv0 m8 %define accuv1 m9 movq m0, [base_reg+mxq*8+subpel_filters-put_ssse3] movzx mxd, myb shr myd, 16 cmp hd, 6 cmovs myd, mxd movq m1, [base_reg+myq*8+subpel_filters-put_ssse3] pshufd subpelh0, m0, q0000 pshufd subpelh1, m0, q1111 punpcklqdq m1, m1 punpcklbw m1, m1 psraw m1, 8 ; sign-extend pshufd subpelv0, m1, q0000 pshufd subpelv1, m1, q1111 pshufd subpelv2, m1, q2222 pshufd subpelv3, m1, q3333 lea ss3q, [ssq*3] sub srcq, ss3q mov r7, srcq %endif lea r6d, [wq-4] mov r4, dstq shl r6d, (16 - 2) mov r6w, hw .hv_w8_loop0: movu m4, [srcq+ssq*0] ; 0 = _ _ movu m5, [srcq+ssq*1] ; 1 = _ _ lea srcq, [srcq+ssq*2] ; %macro HV_H_W8 4-7 ; src/dst, tmp[1-3], shuf[1-3] %if ARCH_X86_32 pshufb %3, %1, [base+subpel_h_shufB] pshufb %4, %1, [base+subpel_h_shufC] pshufb %1, [base+subpel_h_shufA] %else pshufb %3, %1, %6 ; subpel_h_shufB pshufb %4, %1, %7 ; subpel_h_shufC pshufb %1, %5 ; subpel_h_shufA %endif pmaddubsw %2, %3, subpelh0 ; subpel +0 C0 pmaddubsw %4, subpelh1; subpel +4 B4 pmaddubsw %3, subpelh1; C4 pmaddubsw %1, subpelh0; A0 paddw %2, %4 ; C0+B4 paddw %1, %3 ; A0+C4 phaddw %1, %2 %endmacro ; %if ARCH_X86_64 mova m7, [base+subpel_h_shufA] mova m8, [base+subpel_h_shufB] mova m9, [base+subpel_h_shufC] %endif HV_H_W8 m4, m1, m2, m3, m7, m8, m9 ; 0 ~ ~ ~ HV_H_W8 m5, m1, m2, m3, m7, m8, m9 ; 1 ~ ~ ~ movu m6, [srcq+ssq*0] ; 2 = _ _ movu m0, [srcq+ssq*1] ; 3 = _ _ lea srcq, [srcq+ssq*2] HV_H_W8 m6, m1, m2, m3, m7, m8, m9 ; 2 ~ ~ ~ HV_H_W8 m0, m1, m2, m3, m7, m8, m9 ; 3 ~ ~ ~ ; mova m7, [base+pw_8192] pmulhrsw m4, m7 ; H pw_8192 pmulhrsw m5, m7 ; H pw_8192 pmulhrsw m6, m7 ; H pw_8192 pmulhrsw m0, m7 ; H pw_8192 punpcklwd m1, m4, m5 ; 0 1 ~ punpcklwd m2, m5, m6 ; 1 2 ~ punpcklwd m3, m6, m0 ; 2 3 ~ SAVELINE_W8 1, m1 SAVELINE_W8 2, m2 SAVELINE_W8 3, m3 ; mova m7, [base+subpel_h_shufA] movu m4, [srcq+ssq*0] ; 4 = _ _ movu m5, [srcq+ssq*1] ; 5 = _ _ lea srcq, [srcq+ssq*2] movu m6, [srcq+ssq*0] ; 6 = _ _ HV_H_W8 m4, m1, m2, m3, m7, m8, m9 ; 4 ~ ~ ~ HV_H_W8 m5, m1, m2, m3, m7, m8, m9 ; 5 ~ ~ ~ HV_H_W8 m6, m1, m2, m3, m7, m8, m9 ; 6 ~ ~ ~ mova m7, [base+pw_8192] pmulhrsw m1, m4, m7 ; H pw_8192 4 ~ pmulhrsw m2, m5, m7 ; H pw_8192 5 ~ pmulhrsw m3, m6, m7 ; H pw_8192 6 ~ punpcklwd m4, m0, m1 ; 3 4 ~ punpcklwd m5, m1, m2 ; 4 5 ~ punpcklwd m6, m2, m3 ; 5 6 ~ ; SAVELINE_W8 6, m3 RESTORELINE_W8 1, m1 RESTORELINE_W8 2, m2 RESTORELINE_W8 3, m3 .hv_w8_loop: ; m8 accu for V a ; m9 accu for V b SAVELINE_W8 1, m3 SAVELINE_W8 2, m4 SAVELINE_W8 3, m5 SAVELINE_W8 4, m6 %if ARCH_X86_32 pmaddwd m0, m1, subpelv0 ; a0 pmaddwd m7, m2, subpelv0 ; b0 pmaddwd m3, subpelv1 ; a1 pmaddwd m4, subpelv1 ; b1 paddd m0, m3 paddd m7, m4 pmaddwd m5, subpelv2 ; a2 pmaddwd m6, subpelv2 ; b2 paddd m0, m5 paddd m7, m6 mova m5, [base+pd_512] paddd m0, m5 ; pd_512 paddd m7, m5 ; pd_512 mova accuv0, m0 mova accuv1, m7 %else pmaddwd m8, m1, subpelv0 ; a0 pmaddwd m9, m2, subpelv0 ; b0 pmaddwd m3, subpelv1 ; a1 pmaddwd m4, subpelv1 ; b1 paddd m8, m3 paddd m9, m4 pmaddwd m5, subpelv2 ; a2 pmaddwd m6, subpelv2 ; b2 paddd m8, m5 paddd m9, m6 mova m7, [base+pd_512] paddd m8, m7 ; pd_512 paddd m9, m7 ; pd_512 mova m7, [base+subpel_h_shufB] mova m6, [base+subpel_h_shufC] mova m5, [base+subpel_h_shufA] %endif movu m0, [srcq+ssq*1] ; 7 movu m4, [srcq+ssq*2] ; 8 lea srcq, [srcq+ssq*2] HV_H_W8 m0, m1, m2, m3, m5, m7, m6 HV_H_W8 m4, m1, m2, m3, m5, m7, m6 mova m5, [base+pw_8192] pmulhrsw m0, m5 ; H pw_8192 pmulhrsw m4, m5 ; H pw_8192 RESTORELINE_W8 6, m6 punpcklwd m5, m6, m0 ; 6 7 ~ punpcklwd m6, m0, m4 ; 7 8 ~ pmaddwd m1, m5, subpelv3 ; a3 paddd m2, m1, accuv0 pmaddwd m1, m6, subpelv3 ; b3 paddd m1, m1, accuv1 ; H + V psrad m2, 10 psrad m1, 10 packssdw m2, m1 ; d -> w packuswb m2, m1 ; w -> b movd [dstq+dsq*0], m2 psrlq m2, 32 %if ARCH_X86_32 add dstq, dsm movd [dstq+dsq*0], m2 add dstq, dsm %else movd [dstq+dsq*1], m2 lea dstq, [dstq+dsq*2] %endif sub hd, 2 jle .hv_w8_outer SAVELINE_W8 6, m4 RESTORELINE_W8 1, m1 RESTORELINE_W8 2, m2 RESTORELINE_W8 3, m3 RESTORELINE_W8 4, m4 jmp .hv_w8_loop .hv_w8_outer: movzx hd, r6w add r4, 4 mov dstq, r4 %if ARCH_X86_32 mov srcq, srcm add srcq, 4 mov srcm, srcq %else add r7, 4 mov srcq, r7 %endif sub r6d, 1<<16 jg .hv_w8_loop0 RET %if ARCH_X86_32 DECLARE_REG_TMP 1, 2 %elif WIN64 DECLARE_REG_TMP 6, 4 %else DECLARE_REG_TMP 6, 7 %endif %macro PREP_8TAP_FN 3 ; type, type_h, type_v cglobal prep_8tap_%1 mov t0d, FILTER_%2 mov t1d, FILTER_%3 %ifnidn %1, sharp_smooth ; skip the jump in the last filter jmp mangle(private_prefix %+ _prep_8tap %+ SUFFIX) %endif %endmacro PREP_8TAP_FN regular, REGULAR, REGULAR PREP_8TAP_FN regular_sharp, REGULAR, SHARP PREP_8TAP_FN regular_smooth, REGULAR, SMOOTH PREP_8TAP_FN smooth_regular, SMOOTH, REGULAR PREP_8TAP_FN smooth, SMOOTH, SMOOTH PREP_8TAP_FN smooth_sharp, SMOOTH, SHARP PREP_8TAP_FN sharp_regular, SHARP, REGULAR PREP_8TAP_FN sharp, SHARP, SHARP PREP_8TAP_FN sharp_smooth, SHARP, SMOOTH %if ARCH_X86_32 %define base_reg r2 %define base base_reg-prep_ssse3 %define W32_RESTORE_SSQ mov strideq, stridem %else %define base_reg r7 %define base 0 %define W32_RESTORE_SSQ %endif cglobal prep_8tap, 1, 9, 0, tmp, src, stride, w, h, mx, my, stride3 %assign org_stack_offset stack_offset imul mxd, mxm, 0x010101 add mxd, t0d ; 8tap_h, mx, 4tap_h imul myd, mym, 0x010101 add myd, t1d ; 8tap_v, my, 4tap_v movsxd wq, wm movifnidn srcd, srcm movifnidn hd, hm LEA base_reg, prep_ssse3 test mxd, 0xf00 jnz .h test myd, 0xf00 jnz .v tzcnt wd, wd movzx wd, word [base_reg+wq*2+table_offset(prep,)] add wq, base_reg movifnidn strided, stridem lea r6, [strideq*3] %assign stack_offset org_stack_offset %if WIN64 pop r8 pop r7 %endif jmp wq .h: test myd, 0xf00 jnz .hv WIN64_SPILL_XMM 12 cmp wd, 4 je .h_w4 tzcnt wd, wd %if ARCH_X86_64 mova m10, [base+subpel_h_shufA] mova m11, [base+subpel_h_shufB] mova m9, [base+subpel_h_shufC] %endif shr mxd, 16 sub srcq, 3 movzx wd, word [base_reg+wq*2+table_offset(prep, _8tap_h)] movd m5, [base_reg+mxq*8+subpel_filters-prep_ssse3+0] pshufd m5, m5, q0000 movd m6, [base_reg+mxq*8+subpel_filters-prep_ssse3+4] pshufd m6, m6, q0000 mova m7, [base+pw_8192] add wq, base_reg jmp wq .h_w4: %if ARCH_X86_32 and mxd, 0x7f %else movzx mxd, mxb %endif dec srcq movd m4, [base_reg+mxq*8+subpel_filters-prep_ssse3+2] pshufd m4, m4, q0000 mova m6, [base+pw_8192] mova m5, [base+subpel_h_shufA] W32_RESTORE_SSQ %if ARCH_X86_64 lea stride3q, [strideq*3] %endif .h_w4_loop: movq m0, [srcq+strideq*0] ; 0 movq m1, [srcq+strideq*1] ; 1 %if ARCH_X86_32 lea srcq, [srcq+strideq*2] movq m2, [srcq+strideq*0] ; 2 movq m3, [srcq+strideq*1] ; 3 lea srcq, [srcq+strideq*2] %else movq m2, [srcq+strideq*2] ; 2 movq m3, [srcq+stride3q ] ; 3 lea srcq, [srcq+strideq*4] %endif pshufb m0, m5 ; subpel_h_shufA pshufb m1, m5 pshufb m2, m5 pshufb m3, m5 pmaddubsw m0, m4 ; subpel_filters + 2 pmaddubsw m1, m4 pmaddubsw m2, m4 pmaddubsw m3, m4 phaddw m0, m1 phaddw m2, m3 pmulhrsw m0, m6 ; pw_8192 pmulhrsw m2, m6 ; pw_8192 mova [tmpq+16*0], m0 mova [tmpq+16*1], m2 add tmpq, 32 sub hd, 4 jg .h_w4_loop RET ; %macro PREP_8TAP_H 4 ; dst/src, tmp[1-3] %if ARCH_X86_32 pshufb %2, %1, [base+subpel_h_shufB] pshufb %3, %1, [base+subpel_h_shufC] pshufb %1, [base+subpel_h_shufA] %else pshufb %2, %1, m11; subpel_h_shufB pshufb %3, %1, m9 ; subpel_h_shufC pshufb %1, m10 ; subpel_h_shufA %endif pmaddubsw %4, %2, m5 ; subpel +0 B0 pmaddubsw %2, m6 ; subpel +4 B4 pmaddubsw %3, m6 ; subpel +4 C4 pmaddubsw %1, m5 ; subpel +0 A0 paddw %3, %4 paddw %1, %2 phaddw %1, %3 pmulhrsw %1, m7 ; 8192 %endmacro ; .h_w8: %if ARCH_X86_32 mov r3, r2 %define base_reg r3 W32_RESTORE_SSQ %endif .h_w8_loop: movu m0, [srcq+strideq*0] movu m1, [srcq+strideq*1] lea srcq, [srcq+strideq*2] PREP_8TAP_H m0, m2, m3, m4 PREP_8TAP_H m1, m2, m3, m4 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 add tmpq, 32 sub hd, 2 jg .h_w8_loop RET .h_w16: xor r6d, r6d jmp .h_start .h_w32: mov r6, -16*1 jmp .h_start .h_w64: mov r6, -16*3 jmp .h_start .h_w128: mov r6, -16*7 .h_start: %if ARCH_X86_32 mov r3, r2 %define base_reg r3 %endif sub srcq, r6 mov r5, r6 W32_RESTORE_SSQ .h_loop: movu m0, [srcq+r6+8*0] movu m1, [srcq+r6+8*1] PREP_8TAP_H m0, m2, m3, m4 PREP_8TAP_H m1, m2, m3, m4 mova [tmpq+16*0], m0 mova [tmpq+16*1], m1 add tmpq, 32 add r6, 16 jle .h_loop add srcq, strideq mov r6, r5 dec hd jg .h_loop RET %if ARCH_X86_32 %define base_reg r2 %endif .v: %if ARCH_X86_32 mov mxd, myd and mxd, 0x7f %else %assign stack_offset org_stack_offset WIN64_SPILL_XMM 16 movzx mxd, myb %endif shr myd, 16 cmp hd, 6 cmovs myd, mxd lea myq, [base_reg+myq*8+subpel_filters-prep_ssse3] mova m2, [base+pw_512] psrlw m2, m2, 1 ; 0x0100 mova m7, [base+pw_8192] %if ARCH_X86_32 %define subpel0 [rsp+mmsize*0] %define subpel1 [rsp+mmsize*1] %define subpel2 [rsp+mmsize*2] %define subpel3 [rsp+mmsize*3] %assign regs_used 2 ; use r1 (src) as tmp for stack alignment if needed ALLOC_STACK -mmsize*4 %assign regs_used 7 movd m0, [myq+0] pshufb m0, m2 mova subpel0, m0 movd m0, [myq+2] pshufb m0, m2 mova subpel1, m0 movd m0, [myq+4] pshufb m0, m2 mova subpel2, m0 movd m0, [myq+6] pshufb m0, m2 mova subpel3, m0 mov strideq, [rstk+stack_offset+gprsize*3] lea strideq, [strideq*3] sub [rstk+stack_offset+gprsize*2], strideq mov strideq, [rstk+stack_offset+gprsize*3] mov srcq, [rstk+stack_offset+gprsize*2] %else %define subpel0 m8 %define subpel1 m9 %define subpel2 m10 %define subpel3 m11 movd subpel0, [myq+0] pshufb subpel0, m2 movd subpel1, [myq+2] pshufb subpel1, m2 movd subpel2, [myq+4] pshufb subpel2, m2 movd subpel3, [myq+6] pshufb subpel3, m2 lea stride3q, [strideq*3] sub srcq, stride3q cmp wd, 8 jg .v_w16 je .v_w8 %endif .v_w4: %if ARCH_X86_32 %if STACK_ALIGNMENT < mmsize %define srcm [rsp+mmsize*4+gprsize*1] %define tmpm [rsp+mmsize*4+gprsize*2] %endif mov tmpm, tmpq mov srcm, srcq lea r5d, [wq - 4] ; horizontal loop shl r5d, (16 - 2) ; (wq / 4) << 16 mov r5w, hw .v_w4_loop0: %endif movd m2, [srcq+strideq*0] ; 0 movhps m2, [srcq+strideq*2] ; 0 _ 2 movd m3, [srcq+strideq*1] ; 1 %if ARCH_X86_32 lea srcq, [srcq+strideq*2] movhps m3, [srcq+strideq*1] ; 1 _ 3 lea srcq, [srcq+strideq*2] %else movhps m3, [srcq+stride3q ] ; 1 _ 3 lea srcq, [srcq+strideq*4] %endif pshufd m2, m2, q2020 ; 0 2 0 2 pshufd m3, m3, q2020 ; 1 3 1 3 punpckldq m2, m3 ; 0 1 2 3 movd m3, [srcq+strideq*0] ; 4 movd m1, [srcq+strideq*1] ; 5 movd m0, [srcq+strideq*2] ; 6 %if ARCH_X86_32 lea srcq, [srcq+strideq*2] add srcq, strideq %else add srcq, stride3q %endif punpckldq m3, m1 ; 4 5 _ _ punpckldq m1, m0 ; 5 6 _ _ palignr m4, m3, m2, 4 ; 1 2 3 4 punpcklbw m3, m1 ; 45 56 punpcklbw m1, m2, m4 ; 01 12 punpckhbw m2, m4 ; 23 34 .v_w4_loop: pmaddubsw m5, m1, subpel0 ; a0 b0 mova m1, m2 pmaddubsw m2, subpel1 ; a1 b1 paddw m5, m2 mova m2, m3 pmaddubsw m3, subpel2 ; a2 b2 paddw m5, m3 movd m4, [srcq+strideq*0] punpckldq m3, m0, m4 ; 6 7 _ _ movd m0, [srcq+strideq*1] lea srcq, [srcq+strideq*2] punpckldq m4, m0 ; 7 8 _ _ punpcklbw m3, m4 ; 67 78 pmaddubsw m4, m3, subpel3 ; a3 b3 paddw m5, m4 pmulhrsw m5, m7 movq [tmpq+wq*0], m5 movhps [tmpq+wq*2], m5 lea tmpq, [tmpq+wq*4] sub hd, 2 jg .v_w4_loop %if ARCH_X86_32 mov hw, r5w ; reset vertical loop mov tmpq, tmpm mov srcq, srcm add tmpq, 8 add srcq, 4 mov tmpm, tmpq mov srcm, srcq sub r5d, 1<<16 ; horizontal-- jg .v_w4_loop0 %endif RET %if ARCH_X86_64 .v_w8: .v_w16: lea r5d, [wq - 8] ; horizontal loop mov r8, tmpq mov r6, srcq shl r5d, 8 - 3; (wq / 8) << 8 mov r5b, hb .v_w8_loop0: movq m4, [srcq+strideq*0] ; 0 movq m5, [srcq+strideq*1] ; 1 lea srcq, [srcq+strideq*2] movq m6, [srcq+strideq*0] ; 2 movq m0, [srcq+strideq*1] ; 3 lea srcq, [srcq+strideq*2] movq m1, [srcq+strideq*0] ; 4 movq m2, [srcq+strideq*1] ; 5 lea srcq, [srcq+strideq*2] ; movq m3, [srcq+strideq*0] ; 6 shufpd m4, m0, 0x0c shufpd m5, m1, 0x0c punpcklbw m1, m4, m5 ; 01 punpckhbw m4, m5 ; 34 shufpd m6, m2, 0x0c punpcklbw m2, m5, m6 ; 12 punpckhbw m5, m6 ; 45 shufpd m0, m3, 0x0c punpcklbw m3, m6, m0 ; 23 punpckhbw m6, m0 ; 56 .v_w8_loop: movq m12, [srcq+strideq*1] ; 8 lea srcq, [srcq+strideq*2] movq m13, [srcq+strideq*0] ; 9 pmaddubsw m14, m1, subpel0 ; a0 pmaddubsw m15, m2, subpel0 ; b0 mova m1, m3 mova m2, m4 pmaddubsw m3, subpel1 ; a1 pmaddubsw m4, subpel1 ; b1 paddw m14, m3 paddw m15, m4 mova m3, m5 mova m4, m6 pmaddubsw m5, subpel2 ; a2 pmaddubsw m6, subpel2 ; b2 paddw m14, m5 paddw m15, m6 shufpd m6, m0, m12, 0x0d shufpd m0, m12, m13, 0x0c punpcklbw m5, m6, m0 ; 67 punpckhbw m6, m0 ; 78 pmaddubsw m12, m5, subpel3 ; a3 pmaddubsw m13, m6, subpel3 ; b3 paddw m14, m12 paddw m15, m13 pmulhrsw m14, m7 pmulhrsw m15, m7 movu [tmpq+wq*0], xm14 movu [tmpq+wq*2], xm15 lea tmpq, [tmpq+wq*4] sub hd, 2 jg .v_w8_loop movzx hd, r5b ; reset vertical loop add r8, 16 add r6, 8 mov tmpq, r8 mov srcq, r6 sub r5d, 1<<8 ; horizontal-- jg .v_w8_loop0 RET %endif ;ARCH_X86_64 %undef subpel0 %undef subpel1 %undef subpel2 %undef subpel3 .hv: %assign stack_offset org_stack_offset cmp wd, 4 jg .hv_w8 and mxd, 0x7f movd m1, [base_reg+mxq*8+subpel_filters-prep_ssse3+2] %if ARCH_X86_32 mov mxd, myd shr myd, 16 and mxd, 0x7f cmp hd, 6 cmovs myd, mxd movq m0, [base_reg+myq*8+subpel_filters-prep_ssse3] mov r5, r2; use as new base %define base_reg r5 %assign regs_used 2 ALLOC_STACK -mmsize*14 %assign regs_used 7 mov strideq, [rstk+stack_offset+gprsize*3] lea strideq, [strideq*3 + 1] sub [rstk+stack_offset+gprsize*2], strideq mov strideq, [rstk+stack_offset+gprsize*3] mov srcq, [rstk+stack_offset+gprsize*2] %define subpelv0 [rsp+mmsize*0] %define subpelv1 [rsp+mmsize*1] %define subpelv2 [rsp+mmsize*2] %define subpelv3 [rsp+mmsize*3] punpcklbw m0, m0 psraw m0, 8 ; sign-extend pshufd m6, m0, q0000 mova subpelv0, m6 pshufd m6, m0, q1111 mova subpelv1, m6 pshufd m6, m0, q2222 mova subpelv2, m6 pshufd m6, m0, q3333 mova subpelv3, m6 %else movzx mxd, myb shr myd, 16 cmp hd, 6 cmovs myd, mxd movq m0, [base_reg+myq*8+subpel_filters-prep_ssse3] ALLOC_STACK mmsize*14, 14 lea stride3q, [strideq*3] sub srcq, stride3q dec srcq %define subpelv0 m10 %define subpelv1 m11 %define subpelv2 m12 %define subpelv3 m13 punpcklbw m0, m0 psraw m0, 8 ; sign-extend mova m8, [base+pw_8192] mova m9, [base+pd_32] pshufd m10, m0, q0000 pshufd m11, m0, q1111 pshufd m12, m0, q2222 pshufd m13, m0, q3333 %endif pshufd m7, m1, q0000 .hv_w4: %define hv4_line_0_0 4 %define hv4_line_0_1 5 %define hv4_line_0_2 6 %define hv4_line_0_3 7 %define hv4_line_0_4 8 %define hv4_line_0_5 9 %define hv4_line_1_0 10 %define hv4_line_1_1 11 %define hv4_line_1_2 12 %define hv4_line_1_3 13 ; ; %if ARCH_X86_32 %define w8192reg [base+pw_8192] %define d32reg [base+pd_32] %else %define w8192reg m8 %define d32reg m9 %endif ; lower shuffle 0 1 2 3 4 mova m6, [base+subpel_h_shuf4] movq m5, [srcq+strideq*0] ; 0 _ _ _ movhps m5, [srcq+strideq*1] ; 0 _ 1 _ movq m4, [srcq+strideq*2] ; 2 _ _ _ %if ARCH_X86_32 lea srcq, [srcq+strideq*2] add srcq, strideq movhps m4, [srcq+strideq*0] ; 2 _ 3 _ add srcq, strideq %else movhps m4, [srcq+stride3q ] ; 2 _ 3 _ lea srcq, [srcq+strideq*4] %endif pshufb m2, m5, m6 ;H subpel_h_shuf4 0 ~ 1 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 2 ~ 3 ~ pmaddubsw m2, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m2, m0 ;H 0 1 2 3 pmulhrsw m2, w8192reg ;H pw_8192 SAVELINE_W4 m2, 2, 0 ; upper shuffle 2 3 4 5 6 mova m6, [base+subpel_h_shuf4+16] pshufb m2, m5, m6 ;H subpel_h_shuf4 0 ~ 1 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 2 ~ 3 ~ pmaddubsw m2, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m2, m0 ;H 0 1 2 3 pmulhrsw m2, w8192reg ;H pw_8192 ; ; lower shuffle mova m6, [base+subpel_h_shuf4] movq m5, [srcq+strideq*0] ; 4 _ _ _ movhps m5, [srcq+strideq*1] ; 4 _ 5 _ movq m4, [srcq+strideq*2] ; 6 _ _ _ pshufb m3, m5, m6 ;H subpel_h_shuf4 4 ~ 5 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 6 ~ 6 ~ pmaddubsw m3, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m3, m0 ;H 4 5 6 7 pmulhrsw m3, w8192reg ;H pw_8192 SAVELINE_W4 m3, 3, 0 ; upper shuffle mova m6, [base+subpel_h_shuf4+16] pshufb m3, m5, m6 ;H subpel_h_shuf4 4 ~ 5 ~ pshufb m0, m4, m6 ;H subpel_h_shuf4 6 ~ 6 ~ pmaddubsw m3, m7 ;H subpel_filters pmaddubsw m0, m7 ;H subpel_filters phaddw m3, m0 ;H 4 5 6 7 pmulhrsw m3, w8192reg ;H pw_8192 ; %if ARCH_X86_32 lea srcq, [srcq+strideq*2] add srcq, strideq %else add srcq, stride3q %endif ;process high palignr m4, m3, m2, 4;V 1 2 3 4 punpcklwd m1, m2, m4 ; V 01 12 punpckhwd m2, m4 ; V 23 34 pshufd m0, m3, q2121;V 5 6 5 6 punpcklwd m3, m0 ; V 45 56 SAVELINE_W4 m0, 0, 1 SAVELINE_W4 m1, 1, 1 SAVELINE_W4 m2, 2, 1 SAVELINE_W4 m3, 3, 1 ;process low RESTORELINE_W4 m2, 2, 0 RESTORELINE_W4 m3, 3, 0 palignr m4, m3, m2, 4;V 1 2 3 4 punpcklwd m1, m2, m4 ; V 01 12 punpckhwd m2, m4 ; V 23 34 pshufd m0, m3, q2121;V 5 6 5 6 punpcklwd m3, m0 ; V 45 56 .hv_w4_loop: ;process low pmaddwd m5, m1, subpelv0 ; V a0 b0 mova m1, m2 pmaddwd m2, subpelv1; V a1 b1 paddd m5, m2 mova m2, m3 pmaddwd m3, subpelv2; V a2 b2 paddd m5, m3 ; mova m6, [base+subpel_h_shuf4] movq m4, [srcq+strideq*0] ; 7 movhps m4, [srcq+strideq*1] ; 7 _ 8 _ pshufb m4, m6 ;H subpel_h_shuf4 7 ~ 8 ~ pmaddubsw m4, m7 ;H subpel_filters phaddw m4, m4 ;H 7 8 7 8 pmulhrsw m4, w8192reg ;H pw_8192 palignr m3, m4, m0, 12 ; 6 7 8 7 mova m0, m4 punpcklwd m3, m4 ; 67 78 pmaddwd m4, m3, subpelv3; a3 b3 paddd m5, d32reg ; pd_32 paddd m5, m4 psrad m5, 6 SAVELINE_W4 m0, 0, 0 SAVELINE_W4 m1, 1, 0 SAVELINE_W4 m2, 2, 0 SAVELINE_W4 m3, 3, 0 SAVELINE_W4 m5, 5, 0 ;process high RESTORELINE_W4 m0, 0, 1 RESTORELINE_W4 m1, 1, 1 RESTORELINE_W4 m2, 2, 1 RESTORELINE_W4 m3, 3, 1 pmaddwd m5, m1, subpelv0; V a0 b0 mova m1, m2 pmaddwd m2, subpelv1; V a1 b1 paddd m5, m2 mova m2, m3 pmaddwd m3, subpelv2; V a2 b2 paddd m5, m3 ; mova m6, [base+subpel_h_shuf4+16] movq m4, [srcq+strideq*0] ; 7 movhps m4, [srcq+strideq*1] ; 7 _ 8 _ pshufb m4, m6 ;H subpel_h_shuf4 7 ~ 8 ~ pmaddubsw m4, m7 ;H subpel_filters phaddw m4, m4 ;H 7 8 7 8 pmulhrsw m4, w8192reg ;H pw_8192 palignr m3, m4, m0, 12 ; 6 7 8 7 mova m0, m4 punpcklwd m3, m4 ; 67 78 pmaddwd m4, m3, subpelv3; a3 b3 paddd m5, d32reg ; pd_32 paddd m5, m4 psrad m4, m5, 6 ; RESTORELINE_W4 m5, 5, 0 packssdw m5, m4 pshufd m5, m5, q3120 movu [tmpq], m5 lea srcq, [srcq+strideq*2] add tmpq, 16 sub hd, 2 SAVELINE_W4 m0, 0, 1 SAVELINE_W4 m1, 1, 1 SAVELINE_W4 m2, 2, 1 SAVELINE_W4 m3, 3, 1 RESTORELINE_W4 m0, 0, 0 RESTORELINE_W4 m1, 1, 0 RESTORELINE_W4 m2, 2, 0 RESTORELINE_W4 m3, 3, 0 jg .hv_w4_loop RET %undef subpelv0 %undef subpelv1 %undef subpelv2 %undef subpelv3 ; .hv_w8: %assign stack_offset org_stack_offset %define hv8_line_1 0 %define hv8_line_2 1 %define hv8_line_3 2 %define hv8_line_4 3 %define hv8_line_6 4 shr mxd, 16 %if ARCH_X86_32 %define base_reg r2 %define subpelh0 [rsp+mmsize*5] %define subpelh1 [rsp+mmsize*6] %define subpelv0 [rsp+mmsize*7] %define subpelv1 [rsp+mmsize*8] %define subpelv2 [rsp+mmsize*9] %define subpelv3 [rsp+mmsize*10] %define accuv0 [rsp+mmsize*11] %define accuv1 [rsp+mmsize*12] movq m1, [base_reg+mxq*8+subpel_filters-prep_ssse3] mov mxd, myd shr myd, 16 and mxd, 0x7f cmp hd, 6 cmovs myd, mxd movq m5, [base_reg+myq*8+subpel_filters-prep_ssse3] ALLOC_STACK -mmsize*13 %if STACK_ALIGNMENT < mmsize mov rstk, r2m %define tmpm [rsp+mmsize*13+gprsize*1] %define srcm [rsp+mmsize*13+gprsize*2] %define stridem [rsp+mmsize*13+gprsize*3] mov stridem, rstk %endif mov r6, r2 %define base_reg r6 pshufd m0, m1, q0000 pshufd m1, m1, q1111 punpcklbw m5, m5 psraw m5, 8 ; sign-extend pshufd m2, m5, q0000 pshufd m3, m5, q1111 pshufd m4, m5, q2222 pshufd m5, m5, q3333 mova subpelh0, m0 mova subpelh1, m1 mova subpelv0, m2 mova subpelv1, m3 mova subpelv2, m4 mova subpelv3, m5 W32_RESTORE_SSQ lea strided, [strided*3] sub srcd, strided sub srcd, 3 mov srcm, srcd W32_RESTORE_SSQ %else ALLOC_STACK mmsize*5, 16 %define subpelh0 m10 %define subpelh1 m11 %define subpelv0 m12 %define subpelv1 m13 %define subpelv2 m14 %define subpelv3 m15 %define accuv0 m8 %define accuv1 m9 movq m0, [base_reg+mxq*8+subpel_filters-prep_ssse3] movzx mxd, myb shr myd, 16 cmp hd, 6 cmovs myd, mxd movq m1, [base_reg+myq*8+subpel_filters-prep_ssse3] pshufd subpelh0, m0, q0000 pshufd subpelh1, m0, q1111 punpcklbw m1, m1 psraw m1, 8 ; sign-extend pshufd subpelv0, m1, q0000 pshufd subpelv1, m1, q1111 pshufd subpelv2, m1, q2222 pshufd subpelv3, m1, q3333 lea stride3q, [strideq*3] sub srcq, 3 sub srcq, stride3q mov r6, srcq %endif lea r5d, [wq-4] %if ARCH_X86_64 mov r8, tmpq %else mov tmpm, tmpq %endif shl r5d, (16 - 2) mov r5w, hw .hv_w8_loop0: movu m4, [srcq+strideq*0] ; 0 = _ _ movu m5, [srcq+strideq*1] ; 1 = _ _ lea srcq, [srcq+strideq*2] %if ARCH_X86_64 mova m7, [base+subpel_h_shufA] mova m8, [base+subpel_h_shufB] mova m9, [base+subpel_h_shufC] %endif HV_H_W8 m4, m1, m2, m3, m7, m8, m9 ; 0 ~ ~ ~ HV_H_W8 m5, m1, m2, m3, m7, m8, m9 ; 1 ~ ~ ~ movu m6, [srcq+strideq*0] ; 2 = _ _ movu m0, [srcq+strideq*1] ; 3 = _ _ lea srcq, [srcq+strideq*2] HV_H_W8 m6, m1, m2, m3, m7, m8, m9 ; 2 ~ ~ ~ HV_H_W8 m0, m1, m2, m3, m7, m8, m9 ; 3 ~ ~ ~ ; mova m7, [base+pw_8192] pmulhrsw m4, m7 ; H pw_8192 pmulhrsw m5, m7 ; H pw_8192 pmulhrsw m6, m7 ; H pw_8192 pmulhrsw m0, m7 ; H pw_8192 punpcklwd m1, m4, m5 ; 0 1 ~ punpcklwd m2, m5, m6 ; 1 2 ~ punpcklwd m3, m6, m0 ; 2 3 ~ SAVELINE_W8 1, m1 SAVELINE_W8 2, m2 SAVELINE_W8 3, m3 ; mova m7, [base+subpel_h_shufA] movu m4, [srcq+strideq*0] ; 4 = _ _ movu m5, [srcq+strideq*1] ; 5 = _ _ lea srcq, [srcq+strideq*2] movu m6, [srcq+strideq*0] ; 6 = _ _ HV_H_W8 m4, m1, m2, m3, m7, m8, m9 ; 4 ~ ~ ~ HV_H_W8 m5, m1, m2, m3, m7, m8, m9 ; 5 ~ ~ ~ HV_H_W8 m6, m1, m2, m3, m7, m8, m9 ; 6 ~ ~ ~ mova m7, [base+pw_8192] pmulhrsw m1, m4, m7 ; H pw_8192 4 ~ pmulhrsw m2, m5, m7 ; H pw_8192 5 ~ pmulhrsw m3, m6, m7 ; H pw_8192 6 ~ punpcklwd m4, m0, m1 ; 3 4 ~ punpcklwd m5, m1, m2 ; 4 5 ~ punpcklwd m6, m2, m3 ; 5 6 ~ ; SAVELINE_W8 6, m3 RESTORELINE_W8 1, m1 RESTORELINE_W8 2, m2 RESTORELINE_W8 3, m3 .hv_w8_loop: ; m8 accu for V a ; m9 accu for V b SAVELINE_W8 1, m3 SAVELINE_W8 2, m4 SAVELINE_W8 3, m5 SAVELINE_W8 4, m6 %if ARCH_X86_32 pmaddwd m0, m1, subpelv0 ; a0 pmaddwd m7, m2, subpelv0 ; b0 pmaddwd m3, subpelv1 ; a1 pmaddwd m4, subpelv1 ; b1 paddd m0, m3 paddd m7, m4 pmaddwd m5, subpelv2 ; a2 pmaddwd m6, subpelv2 ; b2 paddd m0, m5 paddd m7, m6 mova m5, [base+pd_32] paddd m0, m5 ; pd_512 paddd m7, m5 ; pd_512 mova accuv0, m0 mova accuv1, m7 %else pmaddwd m8, m1, subpelv0 ; a0 pmaddwd m9, m2, subpelv0 ; b0 pmaddwd m3, subpelv1 ; a1 pmaddwd m4, subpelv1 ; b1 paddd m8, m3 paddd m9, m4 pmaddwd m5, subpelv2 ; a2 pmaddwd m6, subpelv2 ; b2 paddd m8, m5 paddd m9, m6 mova m7, [base+pd_32] paddd m8, m7 ; pd_512 paddd m9, m7 ; pd_512 mova m7, [base+subpel_h_shufB] mova m6, [base+subpel_h_shufC] mova m5, [base+subpel_h_shufA] %endif movu m0, [srcq+strideq*1] ; 7 movu m4, [srcq+strideq*2] ; 8 lea srcq, [srcq+strideq*2] HV_H_W8 m0, m1, m2, m3, m5, m7, m6 HV_H_W8 m4, m1, m2, m3, m5, m7, m6 mova m5, [base+pw_8192] pmulhrsw m0, m5 ; H pw_8192 pmulhrsw m4, m5 ; H pw_8192 RESTORELINE_W8 6, m6 punpcklwd m5, m6, m0 ; 6 7 ~ punpcklwd m6, m0, m4 ; 7 8 ~ pmaddwd m1, m5, subpelv3 ; a3 paddd m2, m1, accuv0 pmaddwd m1, m6, subpelv3 ; b3 paddd m1, m1, accuv1 ; H + V psrad m2, 6 psrad m1, 6 packssdw m2, m1 ; d -> w movq [tmpq+wq*0], m2 movhps [tmpq+wq*2], m2 lea tmpq, [tmpq+wq*4] sub hd, 2 jle .hv_w8_outer SAVELINE_W8 6, m4 RESTORELINE_W8 1, m1 RESTORELINE_W8 2, m2 RESTORELINE_W8 3, m3 RESTORELINE_W8 4, m4 jmp .hv_w8_loop .hv_w8_outer: movzx hd, r5w %if ARCH_X86_32 add dword tmpm, 8 mov tmpq, tmpm mov srcq, srcm add srcq, 4 mov srcm, srcq %else add r8, 8 mov tmpq, r8 add r6, 4 mov srcq, r6 %endif sub r5d, 1<<16 jg .hv_w8_loop0 RET %if ARCH_X86_32 %macro SAVE_ALPHA_BETA 0 mov alpham, alphad mov betam, betad %endmacro %macro SAVE_DELTA_GAMMA 0 mov deltam, deltad mov gammam, gammad %endmacro %macro LOAD_ALPHA_BETA_MX 0 mov mym, myd mov alphad, alpham mov betad, betam mov mxd, mxm %endmacro %macro LOAD_DELTA_GAMMA_MY 0 mov mxm, mxd mov deltad, deltam mov gammad, gammam mov myd, mym %endmacro %define PIC_reg r2 %define PIC_base_offset $$ %define PIC_sym(sym) (PIC_reg+(sym)-PIC_base_offset) %else %define SAVE_ALPHA_BETA %define SAVE_DELTA_GAMMA %define PIC_sym(sym) sym %endif %if ARCH_X86_32 %if STACK_ALIGNMENT < required_stack_alignment %assign copy_args 8*4 %else %assign copy_args 0 %endif %endif %macro RELOC_ARGS 0 %if copy_args mov r0, r0m mov r1, r1m mov r2, r2m mov r3, r3m mov r5, r5m mov dstm, r0 mov dsm, r1 mov srcm, r2 mov ssm, r3 mov mxm, r5 mov r0, r6m mov mym, r0 %endif %endmacro %macro BLENDHWDW 2 ; blend high words from dwords, src1, src2 %if cpuflag(sse4) pblendw %1, %2, 0xAA %else pand %2, m10 por %1, %2 %endif %endmacro %macro WARP_V 10 ; dst0, dst1, 0, 2, 4, 6, 1, 3, 5, 7 ; Can be done using gathers, but that's terribly slow on many CPU:s %if ARCH_X86_32 %define m8 m4 %define m9 m5 %define m14 m6 %define m15 m7 %define m11 m7 %endif %if notcpuflag(ssse3) || ARCH_X86_32 pxor m11, m11 %endif lea tmp1d, [myq+deltaq*4] lea tmp2d, [myq+deltaq*1] shr myd, 10 shr tmp1d, 10 movq m2, [filterq+myq *8] ; a movq m8, [filterq+tmp1q*8] ; e lea tmp1d, [tmp2q+deltaq*4] lea myd, [tmp2q+deltaq*1] shr tmp2d, 10 shr tmp1d, 10 movq m3, [filterq+tmp2q*8] ; b movq m0, [filterq+tmp1q*8] ; f punpcklwd m2, m3 punpcklwd m8, m0 lea tmp1d, [myq+deltaq*4] lea tmp2d, [myq+deltaq*1] shr myd, 10 shr tmp1d, 10 movq m0, [filterq+myq *8] ; c movq m9, [filterq+tmp1q*8] ; g lea tmp1d, [tmp2q+deltaq*4] lea myd, [tmp2q+gammaq] ; my += gamma shr tmp2d, 10 shr tmp1d, 10 movq m3, [filterq+tmp2q*8] ; d movq m1, [filterq+tmp1q*8] ; h punpcklwd m0, m3 punpcklwd m9, m1 punpckldq m1, m2, m0 punpckhdq m2, m0 punpcklbw m0, m11, m1 ; a0 a2 b0 b2 c0 c2 d0 d2 << 8 punpckhbw m3, m11, m1 ; a4 a6 b4 b6 c4 c6 d4 d6 << 8 punpcklbw m1, m11, m2 ; a1 a3 b1 b3 c1 c3 d1 d3 << 8 punpckhbw m14, m11, m2 ; a5 a7 b5 b7 c5 c7 d5 d7 << 8 pmaddwd m0, %3 pmaddwd m3, %5 pmaddwd m1, %7 pmaddwd m14, %9 paddd m0, m3 paddd m1, m14 paddd m0, m1 mova %1, m0 %if ARCH_X86_64 SWAP m3, m14 %endif punpckldq m0, m8, m9 punpckhdq m8, m9 punpcklbw m1, m11, m0 ; e0 e2 f0 f2 g0 g2 h0 h2 << 8 punpckhbw m14, m11, m0 ; e4 e6 f4 f6 g4 g6 h4 h6 << 8 punpcklbw m2, m11, m8 ; e1 e3 f1 f3 g1 g3 h1 h3 << 8 punpckhbw m15, m11, m8 ; e5 e7 f5 f7 g5 g7 h5 h7 << 8 pmaddwd m1, %4 pmaddwd m14, %6 pmaddwd m2, %8 pmaddwd m15, %10 paddd m1, m14 paddd m2, m15 paddd m1, m2 mova %2, m1 %if ARCH_X86_64 SWAP m14, m3 %endif %endmacro %if ARCH_X86_64 %define counterd r4d %else %if copy_args == 0 %define counterd dword r4m %else %define counterd dword [esp+stack_size-4*7] %endif %endif %macro WARP_AFFINE_8X8T 0 %if ARCH_X86_64 cglobal warp_affine_8x8t, 6, 14, 16, 0x90, tmp, ts %else cglobal warp_affine_8x8t, 0, 7, 16, -0x130-copy_args, tmp, ts %if copy_args %define tmpm [esp+stack_size-4*1] %define tsm [esp+stack_size-4*2] %endif %endif call mangle(private_prefix %+ _warp_affine_8x8_%+cpuname).main .loop: %if ARCH_X86_32 %define m12 m4 %define m13 m5 %define m14 m6 %define m15 m7 mova m12, [esp+0xC0] mova m13, [esp+0xD0] mova m14, [esp+0xE0] mova m15, [esp+0xF0] %endif %if cpuflag(ssse3) psrad m12, 13 psrad m13, 13 psrad m14, 13 psrad m15, 13 packssdw m12, m13 packssdw m14, m15 mova m13, [PIC_sym(pw_8192)] pmulhrsw m12, m13 ; (x + (1 << 6)) >> 7 pmulhrsw m14, m13 %else %if ARCH_X86_32 %define m10 m0 %endif mova m10, [PIC_sym(pd_16384)] paddd m12, m10 paddd m13, m10 paddd m14, m10 paddd m15, m10 psrad m12, 15 psrad m13, 15 psrad m14, 15 psrad m15, 15 packssdw m12, m13 packssdw m14, m15 %endif mova [tmpq+tsq*0], m12 mova [tmpq+tsq*2], m14 dec counterd jz mangle(private_prefix %+ _warp_affine_8x8_%+cpuname).end %if ARCH_X86_32 mov tmpm, tmpd mov r0, [esp+0x100] mov r1, [esp+0x104] %endif call mangle(private_prefix %+ _warp_affine_8x8_%+cpuname).main2 lea tmpq, [tmpq+tsq*4] jmp .loop %endmacro %macro WARP_AFFINE_8X8 0 %if ARCH_X86_64 cglobal warp_affine_8x8, 6, 14, 16, 0x90, \ dst, ds, src, ss, abcd, mx, tmp2, alpha, beta, \ filter, tmp1, delta, my, gamma %else cglobal warp_affine_8x8, 0, 7, 16, -0x130-copy_args, \ dst, ds, src, ss, abcd, mx, tmp2, alpha, beta, \ filter, tmp1, delta, my, gamma %define alphaq r0 %define alphad r0 %define alpham [esp+gprsize+0x100] %define betaq r1 %define betad r1 %define betam [esp+gprsize+0x104] %define deltaq r0 %define deltad r0 %define deltam [esp+gprsize+0x108] %define gammaq r1 %define gammad r1 %define gammam [esp+gprsize+0x10C] %define filterq r3 %define tmp1q r4 %define tmp1d r4 %define tmp1m [esp+gprsize+0x110] %define myq r5 %define myd r5 %define mym r6m %if copy_args %define dstm [esp+stack_size-4*1] %define dsm [esp+stack_size-4*2] %define srcm [esp+stack_size-4*3] %define ssm [esp+stack_size-4*4] %define mxm [esp+stack_size-4*5] %define mym [esp+stack_size-4*6] %endif %endif call .main jmp .start .loop: %if ARCH_X86_32 mov dstm, dstd mov alphad, [esp+0x100] mov betad, [esp+0x104] %endif call .main2 lea dstq, [dstq+dsq*2] .start: %if notcpuflag(sse4) %if cpuflag(ssse3) %define roundval pw_8192 %else %define roundval pd_262144 %endif %if ARCH_X86_64 mova m10, [PIC_sym(roundval)] %else %define m10 [PIC_sym(roundval)] %endif %endif %if ARCH_X86_32 %define m12 m5 %define m13 m6 mova m12, [esp+0xC0] mova m13, [esp+0xD0] %endif %if cpuflag(sse4) %if ARCH_X86_32 %define m11 m4 pxor m11, m11 %endif psrad m12, 18 psrad m13, 18 packusdw m12, m13 pavgw m12, m11 ; (x + (1 << 10)) >> 11 %else %if cpuflag(ssse3) psrad m12, 17 psrad m13, 17 packssdw m12, m13 pmulhrsw m12, m10 %else paddd m12, m10 paddd m13, m10 psrad m12, 19 psrad m13, 19 packssdw m12, m13 %endif %endif %if ARCH_X86_32 %define m14 m6 %define m15 m7 mova m14, [esp+0xE0] mova m15, [esp+0xF0] %endif %if cpuflag(sse4) psrad m14, 18 psrad m15, 18 packusdw m14, m15 pavgw m14, m11 ; (x + (1 << 10)) >> 11 %else %if cpuflag(ssse3) psrad m14, 17 psrad m15, 17 packssdw m14, m15 pmulhrsw m14, m10 %else paddd m14, m10 paddd m15, m10 psrad m14, 19 psrad m15, 19 packssdw m14, m15 %endif %endif packuswb m12, m14 movq [dstq+dsq*0], m12 movhps [dstq+dsq*1], m12 dec counterd jg .loop .end: RET ALIGN function_align .main: %assign stack_offset stack_offset+gprsize %if ARCH_X86_32 %assign stack_size stack_size+4 %if copy_args %assign stack_offset stack_offset-4 %endif RELOC_ARGS LEA PIC_reg, $$ %define PIC_mem [esp+gprsize+0x114] mov abcdd, abcdm %if copy_args == 0 mov ssd, ssm mov mxd, mxm %endif mov PIC_mem, PIC_reg mov srcd, srcm %endif movsx deltad, word [abcdq+2*2] movsx gammad, word [abcdq+2*3] lea tmp1d, [deltaq*3] sub gammad, tmp1d ; gamma -= delta*3 SAVE_DELTA_GAMMA %if ARCH_X86_32 mov abcdd, abcdm %endif movsx alphad, word [abcdq+2*0] movsx betad, word [abcdq+2*1] lea tmp1q, [ssq*3+3] add mxd, 512+(64<<10) lea tmp2d, [alphaq*3] sub srcq, tmp1q ; src -= src_stride*3 + 3 %if ARCH_X86_32 mov srcm, srcd mov PIC_reg, PIC_mem %endif sub betad, tmp2d ; beta -= alpha*3 lea filterq, [PIC_sym(mc_warp_filter)] %if ARCH_X86_64 mov myd, r6m %if cpuflag(ssse3) pxor m11, m11 %endif %endif call .h psrld m2, m0, 16 psrld m3, m1, 16 %if ARCH_X86_32 %if notcpuflag(ssse3) mova [esp+gprsize+0x00], m2 %endif mova [esp+gprsize+0x10], m3 %endif call .h psrld m4, m0, 16 psrld m5, m1, 16 %if ARCH_X86_32 mova [esp+gprsize+0x20], m4 mova [esp+gprsize+0x30], m5 %endif call .h %if ARCH_X86_64 %define blendmask [rsp+gprsize+0x80] %else %if notcpuflag(ssse3) mova m2, [esp+gprsize+0x00] %endif mova m3, [esp+gprsize+0x10] %define blendmask [esp+gprsize+0x120] %define m10 m7 %endif pcmpeqd m10, m10 pslld m10, 16 mova blendmask, m10 BLENDHWDW m2, m0 ; 0 BLENDHWDW m3, m1 ; 2 mova [rsp+gprsize+0x00], m2 mova [rsp+gprsize+0x10], m3 call .h %if ARCH_X86_32 mova m4, [esp+gprsize+0x20] mova m5, [esp+gprsize+0x30] %endif mova m10, blendmask BLENDHWDW m4, m0 ; 1 BLENDHWDW m5, m1 ; 3 mova [rsp+gprsize+0x20], m4 mova [rsp+gprsize+0x30], m5 call .h %if ARCH_X86_32 %if notcpuflag(ssse3) mova m2, [esp+gprsize+0x00] %endif mova m3, [esp+gprsize+0x10] %define m10 m5 %endif psrld m6, m2, 16 psrld m7, m3, 16 mova m10, blendmask BLENDHWDW m6, m0 ; 2 BLENDHWDW m7, m1 ; 4 mova [rsp+gprsize+0x40], m6 mova [rsp+gprsize+0x50], m7 call .h %if ARCH_X86_32 mova m4, [esp+gprsize+0x20] mova m5, [esp+gprsize+0x30] %endif psrld m2, m4, 16 psrld m3, m5, 16 mova m10, blendmask BLENDHWDW m2, m0 ; 3 BLENDHWDW m3, m1 ; 5 mova [rsp+gprsize+0x60], m2 mova [rsp+gprsize+0x70], m3 call .h %if ARCH_X86_32 mova m6, [esp+gprsize+0x40] mova m7, [esp+gprsize+0x50] %define m10 m7 %endif psrld m4, m6, 16 psrld m5, m7, 16 mova m10, blendmask BLENDHWDW m4, m0 ; 4 BLENDHWDW m5, m1 ; 6 %if ARCH_X86_64 add myd, 512+(64<<10) mova m6, m2 mova m7, m3 %else mova [esp+gprsize+0x80], m4 mova [esp+gprsize+0x90], m5 add dword mym, 512+(64<<10) %endif mov counterd, 4 SAVE_ALPHA_BETA .main2: call .h %if ARCH_X86_32 mova m6, [esp+gprsize+0x60] mova m7, [esp+gprsize+0x70] %define m10 m5 %endif psrld m6, 16 psrld m7, 16 mova m10, blendmask BLENDHWDW m6, m0 ; 5 BLENDHWDW m7, m1 ; 7 %if ARCH_X86_64 WARP_V m12, m13, [rsp+gprsize+0x00], [rsp+gprsize+0x10], \ m4, m5, \ [rsp+gprsize+0x20], [rsp+gprsize+0x30], \ m6, m7 %else mova [esp+gprsize+0xA0], m6 mova [esp+gprsize+0xB0], m7 LOAD_DELTA_GAMMA_MY WARP_V [esp+gprsize+0xC0], [esp+gprsize+0xD0], \ [esp+gprsize+0x00], [esp+gprsize+0x10], \ [esp+gprsize+0x80], [esp+gprsize+0x90], \ [esp+gprsize+0x20], [esp+gprsize+0x30], \ [esp+gprsize+0xA0], [esp+gprsize+0xB0] LOAD_ALPHA_BETA_MX %endif call .h mova m2, [rsp+gprsize+0x40] mova m3, [rsp+gprsize+0x50] %if ARCH_X86_32 mova m4, [rsp+gprsize+0x80] mova m5, [rsp+gprsize+0x90] %define m10 m7 %endif mova [rsp+gprsize+0x00], m2 mova [rsp+gprsize+0x10], m3 mova [rsp+gprsize+0x40], m4 mova [rsp+gprsize+0x50], m5 psrld m4, 16 psrld m5, 16 mova m10, blendmask BLENDHWDW m4, m0 ; 6 BLENDHWDW m5, m1 ; 8 %if ARCH_X86_64 WARP_V m14, m15, [rsp+gprsize+0x20], [rsp+gprsize+0x30], \ m6, m7, \ [rsp+gprsize+0x00], [rsp+gprsize+0x10], \ m4, m5 %else mova [esp+gprsize+0x80], m4 mova [esp+gprsize+0x90], m5 LOAD_DELTA_GAMMA_MY WARP_V [esp+gprsize+0xE0], [esp+gprsize+0xF0], \ [esp+gprsize+0x20], [esp+gprsize+0x30], \ [esp+gprsize+0xA0], [esp+gprsize+0xB0], \ [esp+gprsize+0x00], [esp+gprsize+0x10], \ [esp+gprsize+0x80], [esp+gprsize+0x90] mov mym, myd mov dstd, dstm mov dsd, dsm mov mxd, mxm %endif mova m2, [rsp+gprsize+0x60] mova m3, [rsp+gprsize+0x70] %if ARCH_X86_32 mova m6, [esp+gprsize+0xA0] mova m7, [esp+gprsize+0xB0] %endif mova [rsp+gprsize+0x20], m2 mova [rsp+gprsize+0x30], m3 mova [rsp+gprsize+0x60], m6 mova [rsp+gprsize+0x70], m7 ret ALIGN function_align .h: %if ARCH_X86_32 %define m8 m3 %define m9 m4 %define m10 m5 %define m14 m6 %define m15 m7 %endif lea tmp1d, [mxq+alphaq*4] lea tmp2d, [mxq+alphaq*1] %if ARCH_X86_32 %assign stack_offset stack_offset+4 %assign stack_size stack_size+4 %define PIC_mem [esp+gprsize*2+0x114] mov PIC_mem, PIC_reg mov srcd, srcm %endif movu m10, [srcq] %if ARCH_X86_32 add srcd, ssm mov srcm, srcd mov PIC_reg, PIC_mem %else add srcq, ssq %endif shr mxd, 10 shr tmp1d, 10 movq m1, [filterq+mxq *8] ; 0 X movq m8, [filterq+tmp1q*8] ; 4 X lea tmp1d, [tmp2q+alphaq*4] lea mxd, [tmp2q+alphaq*1] shr tmp2d, 10 shr tmp1d, 10 movhps m1, [filterq+tmp2q*8] ; 0 1 movhps m8, [filterq+tmp1q*8] ; 4 5 lea tmp1d, [mxq+alphaq*4] lea tmp2d, [mxq+alphaq*1] shr mxd, 10 shr tmp1d, 10 %if cpuflag(ssse3) movq m14, [filterq+mxq *8] ; 2 X movq m9, [filterq+tmp1q*8] ; 6 X lea tmp1d, [tmp2q+alphaq*4] lea mxd, [tmp2q+betaq] ; mx += beta shr tmp2d, 10 shr tmp1d, 10 movhps m14, [filterq+tmp2q*8] ; 2 3 movhps m9, [filterq+tmp1q*8] ; 6 7 pshufb m0, m10, [PIC_sym(warp_8x8_shufA)] pmaddubsw m0, m1 pshufb m1, m10, [PIC_sym(warp_8x8_shufB)] pmaddubsw m1, m8 pshufb m15, m10, [PIC_sym(warp_8x8_shufC)] pmaddubsw m15, m14 pshufb m10, m10, [PIC_sym(warp_8x8_shufD)] pmaddubsw m10, m9 phaddw m0, m15 phaddw m1, m10 %else %if ARCH_X86_32 %define m11 m2 %endif pcmpeqw m0, m0 psrlw m14, m0, 8 psrlw m15, m10, 8 ; 01 03 05 07 09 11 13 15 pand m14, m10 ; 00 02 04 06 08 10 12 14 packuswb m14, m15 ; 00 02 04 06 08 10 12 14 01 03 05 07 09 11 13 15 psrldq m9, m0, 4 pshufd m0, m14, q0220 pand m0, m9 psrldq m14, 1 ; 02 04 06 08 10 12 14 01 03 05 07 09 11 13 15 __ pslldq m15, m14, 12 por m0, m15 ; shufA psrlw m15, m0, 8 psraw m11, m1, 8 psllw m0, 8 psllw m1, 8 psrlw m0, 8 psraw m1, 8 pmullw m15, m11 pmullw m0, m1 paddw m0, m15 ; pmaddubsw m0, m1 pshufd m15, m14, q0220 pand m15, m9 psrldq m14, 1 ; 04 06 08 10 12 14 01 03 05 07 09 11 13 15 __ __ pslldq m1, m14, 12 por m15, m1 ; shufC pshufd m1, m14, q0220 pand m1, m9 psrldq m14, 1 ; 06 08 10 12 14 01 03 05 07 09 11 13 15 __ __ __ pslldq m11, m14, 12 por m1, m11 ; shufB pshufd m10, m14, q0220 pand m10, m9 psrldq m14, 1 ; 08 10 12 14 01 03 05 07 09 11 13 15 __ __ __ __ pslldq m14, m14, 12 por m10, m14 ; shufD psrlw m9, m1, 8 psraw m11, m8, 8 psllw m1, 8 psllw m8, 8 psrlw m1, 8 psraw m8, 8 pmullw m9, m11 pmullw m1, m8 paddw m1, m9 ; pmaddubsw m1, m8 movq m14, [filterq+mxq *8] ; 2 X movq m9, [filterq+tmp1q*8] ; 6 X lea tmp1d, [tmp2q+alphaq*4] lea mxd, [tmp2q+betaq] ; mx += beta shr tmp2d, 10 shr tmp1d, 10 movhps m14, [filterq+tmp2q*8] ; 2 3 movhps m9, [filterq+tmp1q*8] ; 6 7 psrlw m8, m15, 8 psraw m11, m14, 8 psllw m15, 8 psllw m14, 8 psrlw m15, 8 psraw m14, 8 pmullw m8, m11 pmullw m15, m14 paddw m15, m8 ; pmaddubsw m15, m14 psrlw m8, m10, 8 psraw m11, m9, 8 psllw m10, 8 psllw m9, 8 psrlw m10, 8 psraw m9, 8 pmullw m8, m11 pmullw m10, m9 paddw m10, m8 ; pmaddubsw m10, m9 pslld m8, m0, 16 pslld m9, m1, 16 pslld m14, m15, 16 pslld m11, m10, 16 paddw m0, m8 paddw m1, m9 paddw m15, m14 paddw m10, m11 psrad m0, 16 psrad m1, 16 psrad m15, 16 psrad m10, 16 packssdw m0, m15 ; phaddw m0, m15 packssdw m1, m10 ; phaddw m1, m10 %endif mova m14, [PIC_sym(pw_8192)] mova m9, [PIC_sym(pd_32768)] pmaddwd m0, m14 ; 17-bit intermediate, upshifted by 13 pmaddwd m1, m14 paddd m0, m9 ; rounded 14-bit result in upper 16 bits of dword paddd m1, m9 ret %endmacro INIT_XMM sse4 WARP_AFFINE_8X8 WARP_AFFINE_8X8T INIT_XMM ssse3 WARP_AFFINE_8X8 WARP_AFFINE_8X8T INIT_XMM sse2 WARP_AFFINE_8X8 WARP_AFFINE_8X8T INIT_XMM ssse3 %if WIN64 DECLARE_REG_TMP 6, 4 %else DECLARE_REG_TMP 6, 7 %endif %macro BIDIR_FN 1 ; op %1 0 lea stride3q, [strideq*3] jmp wq .w4_loop: %1_INC_PTR 2 %1 0 lea dstq, [dstq+strideq*4] .w4: ; tile 4x movd [dstq ], m0 ; copy dw[0] pshuflw m1, m0, q1032 ; swap dw[1] and dw[0] movd [dstq+strideq*1], m1 ; copy dw[1] punpckhqdq m0, m0 ; swap dw[3,2] with dw[1,0] movd [dstq+strideq*2], m0 ; dw[2] psrlq m0, 32 ; shift right in dw[3] movd [dstq+stride3q ], m0 ; copy sub hd, 4 jg .w4_loop RET .w8_loop: %1_INC_PTR 2 %1 0 lea dstq, [dstq+strideq*2] .w8: movq [dstq ], m0 movhps [dstq+strideq*1], m0 sub hd, 2 jg .w8_loop RET .w16_loop: %1_INC_PTR 2 %1 0 lea dstq, [dstq+strideq] .w16: mova [dstq ], m0 dec hd jg .w16_loop RET .w32_loop: %1_INC_PTR 4 %1 0 lea dstq, [dstq+strideq] .w32: mova [dstq ], m0 %1 2 mova [dstq + 16 ], m0 dec hd jg .w32_loop RET .w64_loop: %1_INC_PTR 8 %1 0 add dstq, strideq .w64: %assign i 0 %rep 4 mova [dstq + i*16 ], m0 %assign i i+1 %if i < 4 %1 2*i %endif %endrep dec hd jg .w64_loop RET .w128_loop: %1_INC_PTR 16 %1 0 add dstq, strideq .w128: %assign i 0 %rep 8 mova [dstq + i*16 ], m0 %assign i i+1 %if i < 8 %1 2*i %endif %endrep dec hd jg .w128_loop RET %endmacro %macro AVG 1 ; src_offset ; writes AVG of tmp1 tmp2 uint16 coeffs into uint8 pixel mova m0, [tmp1q+(%1+0)*mmsize] ; load 8 coef(2bytes) from tmp1 paddw m0, [tmp2q+(%1+0)*mmsize] ; load/add 8 coef(2bytes) tmp2 mova m1, [tmp1q+(%1+1)*mmsize] paddw m1, [tmp2q+(%1+1)*mmsize] pmulhrsw m0, m2 pmulhrsw m1, m2 packuswb m0, m1 ; pack/trunc 16 bits from m0 & m1 to 8 bit %endmacro %macro AVG_INC_PTR 1 add tmp1q, %1*mmsize add tmp2q, %1*mmsize %endmacro cglobal avg, 4, 7, 3, dst, stride, tmp1, tmp2, w, h, stride3 LEA r6, avg_ssse3_table tzcnt wd, wm ; leading zeros movifnidn hd, hm ; move h(stack) to h(register) if not already that register movsxd wq, dword [r6+wq*4] ; push table entry matching the tile width (tzcnt) in widen reg mova m2, [pw_1024+r6-avg_ssse3_table] ; fill m2 with shift/align add wq, r6 BIDIR_FN AVG %macro W_AVG 1 ; src_offset ; (a * weight + b * (16 - weight) + 128) >> 8 ; = ((a - b) * weight + (b << 4) + 128) >> 8 ; = ((((a - b) * ((weight-16) << 12)) >> 16) + a + 8) >> 4 ; = ((((b - a) * (-weight << 12)) >> 16) + b + 8) >> 4 mova m2, [tmp1q+(%1+0)*mmsize] mova m0, m2 psubw m2, [tmp2q+(%1+0)*mmsize] mova m3, [tmp1q+(%1+1)*mmsize] mova m1, m3 psubw m3, [tmp2q+(%1+1)*mmsize] pmulhw m2, m4 pmulhw m3, m4 paddw m0, m2 paddw m1, m3 pmulhrsw m0, m5 pmulhrsw m1, m5 packuswb m0, m1 %endmacro %define W_AVG_INC_PTR AVG_INC_PTR cglobal w_avg, 4, 7, 6, dst, stride, tmp1, tmp2, w, h, stride3 LEA r6, w_avg_ssse3_table tzcnt wd, wm movd m4, r6m movifnidn hd, hm pxor m0, m0 movsxd wq, dword [r6+wq*4] mova m5, [pw_2048+r6-w_avg_ssse3_table] pshufb m4, m0 psllw m4, 12 ; (weight-16) << 12 when interpreted as signed add wq, r6 cmp dword r6m, 7 jg .weight_gt7 mov r6, tmp1q psubw m0, m4 mov tmp1q, tmp2q mova m4, m0 ; -weight mov tmp2q, r6 .weight_gt7: BIDIR_FN W_AVG %macro MASK 1 ; src_offset ; (a * m + b * (64 - m) + 512) >> 10 ; = ((a - b) * m + (b << 6) + 512) >> 10 ; = ((((b - a) * (-m << 10)) >> 16) + b + 8) >> 4 mova m3, [maskq+(%1+0)*(mmsize/2)] mova m0, [tmp2q+(%1+0)*mmsize] ; b psubw m1, m0, [tmp1q+(%1+0)*mmsize] ; b - a mova m6, m3 ; m psubb m3, m4, m6 ; -m paddw m1, m1 ; (b - a) << 1 paddb m3, m3 ; -m << 1 punpcklbw m2, m4, m3 ; -m << 9 (<< 8 when ext as uint16) pmulhw m1, m2 ; (-m * (b - a)) << 10 paddw m0, m1 ; + b mova m1, [tmp2q+(%1+1)*mmsize] ; b psubw m2, m1, [tmp1q+(%1+1)*mmsize] ; b - a paddw m2, m2 ; (b - a) << 1 mova m6, m3 ; (-m << 1) punpckhbw m3, m4, m6 ; (-m << 9) pmulhw m2, m3 ; (-m << 9) paddw m1, m2 ; (-m * (b - a)) << 10 pmulhrsw m0, m5 ; round pmulhrsw m1, m5 ; round packuswb m0, m1 ; interleave 16 -> 8 %endmacro %macro MASK_INC_PTR 1 add maskq, %1*mmsize/2 add tmp1q, %1*mmsize add tmp2q, %1*mmsize %endmacro %if ARCH_X86_64 cglobal mask, 4, 8, 7, dst, stride, tmp1, tmp2, w, h, mask, stride3 movifnidn hd, hm %else cglobal mask, 4, 7, 7, dst, stride, tmp1, tmp2, w, mask, stride3 %define hd dword r5m %endif %define base r6-mask_ssse3_table LEA r6, mask_ssse3_table tzcnt wd, wm movsxd wq, dword [r6+wq*4] pxor m4, m4 mova m5, [base+pw_2048] add wq, r6 mov maskq, r6m BIDIR_FN MASK %undef hd %macro W_MASK_420_B 2 ; src_offset in bytes, mask_out ;**** do m0 = u16.dst[7..0], m%2 = u16.m[7..0] **** mova m0, [tmp1q+(%1)] mova m1, [tmp2q+(%1)] mova m2, reg_pw_6903 psubw m1, m0 pabsw m%2, m1 ; abs(tmp1 - tmp2) mova m3, m2 psubusw m2, m%2 psrlw m2, 8 ; 64 - m mova m%2, m2 psllw m2, 10 pmulhw m1, m2 ; tmp2 * () paddw m0, m1 ; tmp1 + () ;**** do m1 = u16.dst[7..0], m%2 = u16.m[7..0] **** mova m1, [tmp1q+(%1)+mmsize] mova m2, [tmp2q+(%1)+mmsize] psubw m2, m1 pabsw m7, m2 ; abs(tmp1 - tmp2) psubusw m3, m7 psrlw m3, 8 ; 64 - m phaddw m%2, m3 ; pack both u16.m[8..0]runs as u8.m [15..0] psllw m3, 10 pmulhw m2, m3 %if ARCH_X86_32 mova reg_pw_2048, [base+pw_2048] %endif paddw m1, m2 pmulhrsw m0, reg_pw_2048 ; round/scale 2048 pmulhrsw m1, reg_pw_2048 ; round/scale 2048 packuswb m0, m1 ; concat m0 = u8.dst[15..0] %endmacro %macro W_MASK_420 2 W_MASK_420_B (%1*16), %2 %endmacro %define base r6-w_mask_420_ssse3_table %if ARCH_X86_64 %define reg_pw_6903 m8 %define reg_pw_2048 m9 ; args: dst, stride, tmp1, tmp2, w, h, mask, sign cglobal w_mask_420, 4, 8, 10, dst, stride, tmp1, tmp2, w, h, mask lea r6, [w_mask_420_ssse3_table] mov wd, wm tzcnt r7d, wd movd m0, r7m ; sign movifnidn hd, hm movsxd r7, [r6+r7*4] mova reg_pw_6903, [base+pw_6903] ; ((64 - 38) << 8) + 255 - 8 mova reg_pw_2048, [base+pw_2048] movd m6, [base+pw_258] ; 64 * 4 + 2 add r7, r6 mov maskq, maskmp psubw m6, m0 pshuflw m6, m6, q0000 punpcklqdq m6, m6 W_MASK_420 0, 4 jmp r7 %define loop_w r7d %else %define reg_pw_6903 [base+pw_6903] %define reg_pw_2048 m3 cglobal w_mask_420, 4, 7, 8, dst, stride, tmp1, tmp2, w, mask tzcnt wd, wm LEA r6, w_mask_420_ssse3_table movd m0, r7m ; sign mov maskq, r6mp mov wd, [r6+wq*4] movd m6, [base+pw_258] add wq, r6 psubw m6, m0 pshuflw m6, m6, q0000 punpcklqdq m6, m6 W_MASK_420 0, 4 jmp wd %define loop_w dword r0m %define hd dword r5m %endif .w4_loop: add tmp1q, 2*16 add tmp2q, 2*16 W_MASK_420 0, 4 lea dstq, [dstq+strideq*2] add maskq, 4 .w4: movd [dstq ], m0 ; copy m0[0] pshuflw m1, m0, q1032 movd [dstq+strideq*1], m1 ; copy m0[1] lea dstq, [dstq+strideq*2] punpckhqdq m0, m0 movd [dstq+strideq*0], m0 ; copy m0[2] psrlq m0, 32 movd [dstq+strideq*1], m0 ; copy m0[3] psubw m1, m6, m4 ; a _ c _ psrlq m4, 32 ; b _ d _ psubw m1, m4 psrlw m1, 2 packuswb m1, m1 pshuflw m1, m1, q2020 movd [maskq], m1 sub hd, 4 jg .w4_loop RET .w8_loop: add tmp1q, 2*16 add tmp2q, 2*16 W_MASK_420 0, 4 lea dstq, [dstq+strideq*2] add maskq, 4 .w8: movq [dstq ], m0 movhps [dstq+strideq*1], m0 psubw m0, m6, m4 punpckhqdq m4, m4 psubw m0, m4 psrlw m0, 2 packuswb m0, m0 movd [maskq], m0 sub hd, 2 jg .w8_loop RET .w16: ; w32/64/128 %if ARCH_X86_32 mov wd, wm ; because we altered it in 32bit setup %endif mov loop_w, wd ; use width as counter jmp .w16ge_inner_loop_first .w16ge_loop: lea tmp1q, [tmp1q+wq*2] ; skip even line pixels lea tmp2q, [tmp2q+wq*2] ; skip even line pixels sub dstq, wq mov loop_w, wd lea dstq, [dstq+strideq*2] .w16ge_inner_loop: W_MASK_420_B 0, 4 .w16ge_inner_loop_first: mova [dstq ], m0 W_MASK_420_B wq*2, 5 ; load matching even line (offset = widthpx * (16+16)) mova [dstq+strideq*1], m0 psubw m1, m6, m4 ; m9 == 64 * 4 + 2 psubw m1, m5 ; - odd line mask psrlw m1, 2 ; >> 2 packuswb m1, m1 movq [maskq], m1 add tmp1q, 2*16 add tmp2q, 2*16 add maskq, 8 add dstq, 16 sub loop_w, 16 jg .w16ge_inner_loop sub hd, 2 jg .w16ge_loop RET %undef reg_pw_6903 %undef reg_pw_2048 %undef dst_bak %undef loop_w %undef orig_w %undef hd %macro BLEND_64M 4; a, b, mask1, mask2 punpcklbw m0, %1, %2; {b;a}[7..0] punpckhbw %1, %2 ; {b;a}[15..8] pmaddubsw m0, %3 ; {b*m[0] + (64-m[0])*a}[7..0] u16 pmaddubsw %1, %4 ; {b*m[1] + (64-m[1])*a}[15..8] u16 pmulhrsw m0, m5 ; {((b*m[0] + (64-m[0])*a) + 1) / 32}[7..0] u16 pmulhrsw %1, m5 ; {((b*m[1] + (64-m[0])*a) + 1) / 32}[15..8] u16 packuswb m0, %1 ; {blendpx}[15..0] u8 %endmacro %macro BLEND 2; a, b psubb m3, m4, m0 ; m3 = (64 - m) punpcklbw m2, m3, m0 ; {m;(64-m)}[7..0] punpckhbw m3, m0 ; {m;(64-m)}[15..8] BLEND_64M %1, %2, m2, m3 %endmacro cglobal blend, 3, 7, 7, dst, ds, tmp, w, h, mask %define base r6-blend_ssse3_table LEA r6, blend_ssse3_table tzcnt wd, wm movifnidn hd, hm movifnidn maskq, maskmp movsxd wq, dword [r6+wq*4] mova m4, [base+pb_64] mova m5, [base+pw_512] add wq, r6 lea r6, [dsq*3] jmp wq .w4: movq m0, [maskq]; m movd m1, [dstq+dsq*0] ; a movd m6, [dstq+dsq*1] punpckldq m1, m6 movq m6, [tmpq] ; b psubb m3, m4, m0 ; m3 = (64 - m) punpcklbw m2, m3, m0 ; {m;(64-m)}[7..0] punpcklbw m1, m6 ; {b;a}[7..0] pmaddubsw m1, m2 ; {b*m[0] + (64-m[0])*a}[7..0] u16 pmulhrsw m1, m5 ; {((b*m[0] + (64-m[0])*a) + 1) / 32}[7..0] u16 packuswb m1, m0 ; {blendpx}[15..0] u8 movd [dstq+dsq*0], m1 psrlq m1, 32 movd [dstq+dsq*1], m1 add maskq, 8 add tmpq, 8 lea dstq, [dstq+dsq*2] ; dst_stride * 2 sub hd, 2 jg .w4 RET .w8: mova m0, [maskq]; m movq m1, [dstq+dsq*0] ; a movhps m1, [dstq+dsq*1] mova m6, [tmpq] ; b BLEND m1, m6 movq [dstq+dsq*0], m0 movhps [dstq+dsq*1], m0 add maskq, 16 add tmpq, 16 lea dstq, [dstq+dsq*2] ; dst_stride * 2 sub hd, 2 jg .w8 RET .w16: mova m0, [maskq]; m mova m1, [dstq] ; a mova m6, [tmpq] ; b BLEND m1, m6 mova [dstq], m0 add maskq, 16 add tmpq, 16 add dstq, dsq ; dst_stride dec hd jg .w16 RET .w32: %assign i 0 %rep 2 mova m0, [maskq+16*i]; m mova m1, [dstq+16*i] ; a mova m6, [tmpq+16*i] ; b BLEND m1, m6 mova [dstq+i*16], m0 %assign i i+1 %endrep add maskq, 32 add tmpq, 32 add dstq, dsq ; dst_stride dec hd jg .w32 RET cglobal blend_v, 3, 6, 6, dst, ds, tmp, w, h, mask %define base r5-blend_v_ssse3_table LEA r5, blend_v_ssse3_table tzcnt wd, wm movifnidn hd, hm movsxd wq, dword [r5+wq*4] mova m5, [base+pw_512] add wq, r5 add maskq, obmc_masks-blend_v_ssse3_table jmp wq .w2: movd m3, [maskq+4] punpckldq m3, m3 ; 2 mask blend is provided for 4 pixels / 2 lines .w2_loop: movd m1, [dstq+dsq*0] ; a {..;a;a} pinsrw m1, [dstq+dsq*1], 1 movd m2, [tmpq] ; b punpcklbw m0, m1, m2; {b;a}[7..0] pmaddubsw m0, m3 ; {b*m + (64-m)*a}[7..0] u16 pmulhrsw m0, m5 ; {((b*m + (64-m)*a) + 1) / 32}[7..0] u16 packuswb m0, m1 ; {blendpx}[8..0] u8 movd r3d, m0 mov [dstq+dsq*0], r3w shr r3d, 16 mov [dstq+dsq*1], r3w add tmpq, 2*2 lea dstq, [dstq + dsq * 2] sub hd, 2 jg .w2_loop RET .w4: movddup m3, [maskq+8] ; 4 mask blend is provided for 8 pixels / 2 lines .w4_loop: movd m1, [dstq+dsq*0] ; a movd m2, [dstq+dsq*1] ; punpckldq m1, m2 movq m2, [tmpq] ; b punpcklbw m1, m2 ; {b;a}[7..0] pmaddubsw m1, m3 ; {b*m + (64-m)*a}[7..0] u16 pmulhrsw m1, m5 ; {((b*m + (64-m)*a) + 1) / 32}[7..0] u16 packuswb m1, m1 ; {blendpx}[8..0] u8 movd [dstq], m1 psrlq m1, 32 movd [dstq+dsq*1], m1 add tmpq, 2*4 lea dstq, [dstq+dsq*2] sub hd, 2 jg .w4_loop RET .w8: mova m3, [maskq+16] ; 8 mask blend is provided for 16 pixels .w8_loop: movq m1, [dstq+dsq*0] ; a movhps m1, [dstq+dsq*1] mova m2, [tmpq]; b BLEND_64M m1, m2, m3, m3 movq [dstq+dsq*0], m0 movhps [dstq+dsq*1], m0 add tmpq, 16 lea dstq, [dstq+dsq*2] sub hd, 2 jg .w8_loop RET .w16: ; 16 mask blend is provided for 32 pixels mova m3, [maskq+32] ; obmc_masks_16[0] (64-m[0]) mova m4, [maskq+48] ; obmc_masks_16[1] (64-m[1]) .w16_loop: mova m1, [dstq] ; a mova m2, [tmpq] ; b BLEND_64M m1, m2, m3, m4 mova [dstq], m0 add tmpq, 16 add dstq, dsq dec hd jg .w16_loop RET .w32: %if WIN64 mova [rsp+8], xmm6 %endif mova m3, [maskq+64] ; obmc_masks_32[0] (64-m[0]) mova m4, [maskq+80] ; obmc_masks_32[1] (64-m[1]) mova m6, [maskq+96] ; obmc_masks_32[2] (64-m[2]) ; 16 mask blend is provided for 64 pixels .w32_loop: mova m1, [dstq+16*0] ; a mova m2, [tmpq+16*0] ; b BLEND_64M m1, m2, m3, m4 movq m1, [dstq+16*1] ; a punpcklbw m1, [tmpq+16*1] ; b pmaddubsw m1, m6 pmulhrsw m1, m5 packuswb m1, m1 mova [dstq+16*0], m0 movq [dstq+16*1], m1 add tmpq, 32 add dstq, dsq dec hd jg .w32_loop %if WIN64 mova xmm6, [rsp+8] %endif RET cglobal blend_h, 3, 7, 6, dst, ds, tmp, w, h, mask %define base t0-blend_h_ssse3_table %if ARCH_X86_32 ; We need to keep the PIC pointer for w4, reload wd from stack instead DECLARE_REG_TMP 6 %else DECLARE_REG_TMP 5 mov r6d, wd %endif LEA t0, blend_h_ssse3_table tzcnt wd, wm mov hd, hm movsxd wq, dword [t0+wq*4] mova m5, [base+pw_512] add wq, t0 lea maskq, [base+obmc_masks+hq*2] lea hd, [hq*3] shr hd, 2 ; h * 3/4 lea maskq, [maskq+hq*2] neg hq jmp wq .w2: movd m0, [dstq+dsq*0] pinsrw m0, [dstq+dsq*1], 1 movd m2, [maskq+hq*2] movd m1, [tmpq] punpcklwd m2, m2 punpcklbw m0, m1 pmaddubsw m0, m2 pmulhrsw m0, m5 packuswb m0, m0 movd r3d, m0 mov [dstq+dsq*0], r3w shr r3d, 16 mov [dstq+dsq*1], r3w lea dstq, [dstq+dsq*2] add tmpq, 2*2 add hq, 2 jl .w2 RET .w4: %if ARCH_X86_32 mova m3, [base+blend_shuf] %else mova m3, [blend_shuf] %endif .w4_loop: movd m0, [dstq+dsq*0] movd m2, [dstq+dsq*1] punpckldq m0, m2 ; a movq m1, [tmpq] ; b movq m2, [maskq+hq*2] ; m pshufb m2, m3 punpcklbw m0, m1 pmaddubsw m0, m2 pmulhrsw m0, m5 packuswb m0, m0 movd [dstq+dsq*0], m0 psrlq m0, 32 movd [dstq+dsq*1], m0 lea dstq, [dstq+dsq*2] add tmpq, 4*2 add hq, 2 jl .w4_loop RET .w8: movd m4, [maskq+hq*2] punpcklwd m4, m4 pshufd m3, m4, q0000 pshufd m4, m4, q1111 movq m1, [dstq+dsq*0] ; a movhps m1, [dstq+dsq*1] mova m2, [tmpq] BLEND_64M m1, m2, m3, m4 movq [dstq+dsq*0], m0 movhps [dstq+dsq*1], m0 lea dstq, [dstq+dsq*2] add tmpq, 8*2 add hq, 2 jl .w8 RET ; w16/w32/w64/w128 .w16: %if ARCH_X86_32 mov r6d, wm %endif sub dsq, r6 .w16_loop0: movd m3, [maskq+hq*2] pshuflw m3, m3, q0000 punpcklqdq m3, m3 mov wd, r6d .w16_loop: mova m1, [dstq] ; a mova m2, [tmpq] ; b BLEND_64M m1, m2, m3, m3 mova [dstq], m0 add dstq, 16 add tmpq, 16 sub wd, 16 jg .w16_loop add dstq, dsq inc hq jl .w16_loop0 RET ; emu_edge args: ; const intptr_t bw, const intptr_t bh, const intptr_t iw, const intptr_t ih, ; const intptr_t x, const intptr_t y, pixel *dst, const ptrdiff_t dst_stride, ; const pixel *ref, const ptrdiff_t ref_stride ; ; bw, bh total filled size ; iw, ih, copied block -> fill bottom, right ; x, y, offset in bw/bh -> fill top, left cglobal emu_edge, 10, 13, 2, bw, bh, iw, ih, x, \ y, dst, dstride, src, sstride, \ bottomext, rightext, blk ; we assume that the buffer (stride) is larger than width, so we can ; safely overwrite by a few bytes pxor m1, m1 %if ARCH_X86_64 %define reg_zero r12q %define reg_tmp r10 %define reg_src srcq %define reg_bottomext bottomextq %define reg_rightext rightextq %define reg_blkm r9m %else %define reg_zero r6 %define reg_tmp r0 %define reg_src r1 %define reg_bottomext r0 %define reg_rightext r1 %define reg_blkm r2m %endif ; ; ref += iclip(y, 0, ih - 1) * PXSTRIDE(ref_stride) xor reg_zero, reg_zero lea reg_tmp, [ihq-1] cmp yq, ihq cmovs reg_tmp, yq test yq, yq cmovs reg_tmp, reg_zero %if ARCH_X86_64 imul reg_tmp, sstrideq add srcq, reg_tmp %else imul reg_tmp, sstridem mov reg_src, srcm add reg_src, reg_tmp %endif ; ; ref += iclip(x, 0, iw - 1) lea reg_tmp, [iwq-1] cmp xq, iwq cmovs reg_tmp, xq test xq, xq cmovs reg_tmp, reg_zero add reg_src, reg_tmp %if ARCH_X86_32 mov srcm, reg_src %endif ; ; bottom_ext = iclip(y + bh - ih, 0, bh - 1) %if ARCH_X86_32 mov r1, r1m ; restore bh %endif lea reg_bottomext, [yq+bhq] sub reg_bottomext, ihq lea r3, [bhq-1] cmovs reg_bottomext, reg_zero ; DEFINE_ARGS bw, bh, iw, ih, x, \ topext, dst, dstride, src, sstride, \ bottomext, rightext, blk ; top_ext = iclip(-y, 0, bh - 1) neg topextq cmovs topextq, reg_zero cmp reg_bottomext, bhq cmovns reg_bottomext, r3 cmp topextq, bhq cmovg topextq, r3 %if ARCH_X86_32 mov r4m, reg_bottomext ; ; right_ext = iclip(x + bw - iw, 0, bw - 1) mov r0, r0m ; restore bw %endif lea reg_rightext, [xq+bwq] sub reg_rightext, iwq lea r2, [bwq-1] cmovs reg_rightext, reg_zero DEFINE_ARGS bw, bh, iw, ih, leftext, \ topext, dst, dstride, src, sstride, \ bottomext, rightext, blk ; left_ext = iclip(-x, 0, bw - 1) neg leftextq cmovs leftextq, reg_zero cmp reg_rightext, bwq cmovns reg_rightext, r2 %if ARCH_X86_32 mov r3m, r1 %endif cmp leftextq, bwq cmovns leftextq, r2 %undef reg_zero %undef reg_tmp %undef reg_src %undef reg_bottomext %undef reg_rightext DEFINE_ARGS bw, centerh, centerw, dummy, leftext, \ topext, dst, dstride, src, sstride, \ bottomext, rightext, blk ; center_h = bh - top_ext - bottom_ext %if ARCH_X86_64 lea r3, [bottomextq+topextq] sub centerhq, r3 %else mov r1, centerhm ; restore r1 sub centerhq, topextq sub centerhq, r4m mov r1m, centerhq %endif ; ; blk += top_ext * PXSTRIDE(dst_stride) mov r2, topextq %if ARCH_X86_64 imul r2, dstrideq %else mov r6, r6m ; restore dstq imul r2, dstridem %endif add dstq, r2 mov reg_blkm, dstq ; save pointer for ext ; ; center_w = bw - left_ext - right_ext mov centerwq, bwq %if ARCH_X86_64 lea r3, [rightextq+leftextq] sub centerwq, r3 %else sub centerwq, r3m sub centerwq, leftextq %endif ; vloop Macro %macro v_loop 3 ; need_left_ext, need_right_ext, suffix %if ARCH_X86_64 %define reg_tmp r12 %else %define reg_tmp r0 %endif .v_loop_%3: %if ARCH_X86_32 mov r0, r0m mov r1, r1m %endif %if %1 test leftextq, leftextq jz .body_%3 ; left extension %if ARCH_X86_64 movd m0, [srcq] %else mov r3, srcm movd m0, [r3] %endif pshufb m0, m1 xor r3, r3 .left_loop_%3: mova [dstq+r3], m0 add r3, mmsize cmp r3, leftextq jl .left_loop_%3 ; body .body_%3: lea reg_tmp, [dstq+leftextq] %endif xor r3, r3 .body_loop_%3: %if ARCH_X86_64 movu m0, [srcq+r3] %else mov r1, srcm movu m0, [r1+r3] %endif %if %1 movu [reg_tmp+r3], m0 %else movu [dstq+r3], m0 %endif add r3, mmsize cmp r3, centerwq jl .body_loop_%3 %if %2 ; right extension %if ARCH_X86_64 test rightextq, rightextq %else mov r1, r3m test r1, r1 %endif jz .body_loop_end_%3 %if %1 add reg_tmp, centerwq %else lea reg_tmp, [dstq+centerwq] %endif %if ARCH_X86_64 movd m0, [srcq+centerwq-1] %else mov r3, srcm movd m0, [r3+centerwq-1] %endif pshufb m0, m1 xor r3, r3 .right_loop_%3: movu [reg_tmp+r3], m0 add r3, mmsize %if ARCH_X86_64 cmp r3, rightextq %else cmp r3, r3m %endif jl .right_loop_%3 .body_loop_end_%3: %endif %if ARCH_X86_64 add dstq, dstrideq add srcq, sstrideq dec centerhq jg .v_loop_%3 %else add dstq, dstridem mov r0, sstridem add srcm, r0 sub dword centerhm, 1 jg .v_loop_%3 mov r0, r0m ; restore r0 %endif %endmacro ; vloop MACRO test leftextq, leftextq jnz .need_left_ext %if ARCH_X86_64 test rightextq, rightextq jnz .need_right_ext %else cmp leftextq, r3m ; leftextq == 0 jne .need_right_ext %endif v_loop 0, 0, 0 jmp .body_done ;left right extensions .need_left_ext: %if ARCH_X86_64 test rightextq, rightextq %else mov r3, r3m test r3, r3 %endif jnz .need_left_right_ext v_loop 1, 0, 1 jmp .body_done .need_left_right_ext: v_loop 1, 1, 2 jmp .body_done .need_right_ext: v_loop 0, 1, 3 .body_done: ; r0 ; bw ; r1 ;; x loop ; r4 ;; y loop ; r5 ; topextq ; r6 ;dstq ; r7 ;dstrideq ; r8 ; srcq %if ARCH_X86_64 %define reg_dstride dstrideq %else %define reg_dstride r2 %endif ; ; bottom edge extension %if ARCH_X86_64 test bottomextq, bottomextq jz .top %else xor r1, r1 cmp r1, r4m je .top %endif ; %if ARCH_X86_64 mov srcq, dstq sub srcq, dstrideq xor r1, r1 %else mov r3, dstq mov reg_dstride, dstridem sub r3, reg_dstride mov srcm, r3 %endif ; .bottom_x_loop: %if ARCH_X86_64 mova m0, [srcq+r1] lea r3, [dstq+r1] mov r4, bottomextq %else mov r3, srcm mova m0, [r3+r1] lea r3, [dstq+r1] mov r4, r4m %endif ; .bottom_y_loop: mova [r3], m0 add r3, reg_dstride dec r4 jg .bottom_y_loop add r1, mmsize cmp r1, bwq jl .bottom_x_loop .top: ; top edge extension test topextq, topextq jz .end %if ARCH_X86_64 mov srcq, reg_blkm %else mov r3, reg_blkm mov reg_dstride, dstridem %endif mov dstq, dstm xor r1, r1 ; .top_x_loop: %if ARCH_X86_64 mova m0, [srcq+r1] %else mov r3, reg_blkm mova m0, [r3+r1] %endif lea r3, [dstq+r1] mov r4, topextq ; .top_y_loop: mova [r3], m0 add r3, reg_dstride dec r4 jg .top_y_loop add r1, mmsize cmp r1, bwq jl .top_x_loop .end: RET %undef reg_dstride %undef reg_blkm %undef reg_tmp cextern resize_filter %macro SCRATCH 3 %if ARCH_X86_32 mova [rsp+%3*mmsize], m%1 %define m%2 [rsp+%3*mmsize] %else SWAP %1, %2 %endif %endmacro INIT_XMM ssse3 %if ARCH_X86_64 cglobal resize, 0, 14, 16, dst, dst_stride, src, src_stride, \ dst_w, h, src_w, dx, mx0 %elif STACK_ALIGNMENT >= 16 cglobal resize, 0, 7, 8, 3 * 16, dst, dst_stride, src, src_stride, \ dst_w, h, src_w, dx, mx0 %else cglobal resize, 0, 6, 8, 3 * 16, dst, dst_stride, src, src_stride, \ dst_w, h, src_w, dx, mx0 %endif movifnidn dstq, dstmp movifnidn srcq, srcmp %if STACK_ALIGNMENT >= 16 movifnidn dst_wd, dst_wm %endif %if ARCH_X86_64 movifnidn hd, hm %endif sub dword mx0m, 4<<14 sub dword src_wm, 8 movd m7, dxm movd m6, mx0m movd m5, src_wm pshufd m7, m7, q0000 pshufd m6, m6, q0000 pshufd m5, m5, q0000 %if ARCH_X86_64 DEFINE_ARGS dst, dst_stride, src, src_stride, dst_w, h, x, picptr LEA r7, $$ %define base r7-$$ %else DEFINE_ARGS dst, dst_stride, src, src_stride, dst_w, x %if STACK_ALIGNMENT >= 16 LEA r6, $$ %define base r6-$$ %else LEA r4, $$ %define base r4-$$ %endif %endif %if ARCH_X86_64 mova m12, [base+pw_m256] mova m11, [base+pd_63] mova m10, [base+pb_8x0_8x8] %else %define m12 [base+pw_m256] %define m11 [base+pd_63] %define m10 [base+pb_8x0_8x8] %endif pmaddwd m4, m7, [base+resize_mul] ; dx*[0,1,2,3] pslld m7, 2 ; dx*4 pslld m5, 14 paddd m6, m4 ; mx+[0..3]*dx SCRATCH 7, 15, 0 SCRATCH 6, 14, 1 SCRATCH 5, 13, 2 ; m2 = 0, m3 = pmulhrsw constant for x=(x+64)>>7 ; m8 = mx+[0..3]*dx, m5 = dx*4, m6 = src_w, m7 = 0x3f, m15=0,8 .loop_y: xor xd, xd mova m0, m14 ; per-line working version of mx .loop_x: pxor m1, m1 pcmpgtd m1, m0 pandn m1, m0 psrad m2, m0, 8 ; filter offset (unmasked) pcmpgtd m3, m13, m1 pand m1, m3 pandn m3, m13 por m1, m3 psubd m3, m0, m1 ; pshufb offset psrad m1, 14 ; clipped src_x offset psrad m3, 14 ; pshufb edge_emu offset pand m2, m11 ; filter offset (masked) ; load source pixels %if ARCH_X86_64 movd r8d, xm1 pshuflw xm1, xm1, q3232 movd r9d, xm1 punpckhqdq xm1, xm1 movd r10d, xm1 psrlq xm1, 32 movd r11d, xm1 movq xm4, [srcq+r8] movq xm5, [srcq+r10] movhps xm4, [srcq+r9] movhps xm5, [srcq+r11] %else movd r3d, xm1 pshufd xm1, xm1, q3312 movd r1d, xm1 pshuflw xm1, xm1, q3232 movq xm4, [srcq+r3] movq xm5, [srcq+r1] movd r3d, xm1 punpckhqdq xm1, xm1 movd r1d, xm1 movhps xm4, [srcq+r3] movhps xm5, [srcq+r1] %endif ; if no emulation is required, we don't need to shuffle or emulate edges ; this also saves 2 quasi-vpgatherdqs vptest m3, m3 jz .filter %if ARCH_X86_64 movd r8d, xm3 pshuflw xm3, xm3, q3232 movd r9d, xm3 punpckhqdq xm3, xm3 movd r10d, xm3 psrlq xm3, 32 movd r11d, xm3 movsxd r8, r8d movsxd r9, r9d movsxd r10, r10d movsxd r11, r11d movq xm6, [base+resize_shuf+4+r8] movq xm7, [base+resize_shuf+4+r10] movhps xm6, [base+resize_shuf+4+r9] movhps xm7, [base+resize_shuf+4+r11] %else movd r3d, xm3 pshufd xm3, xm3, q3312 movd r1d, xm3 pshuflw xm3, xm3, q3232 movq xm6, [base+resize_shuf+4+r3] movq xm7, [base+resize_shuf+4+r1] movd r3d, xm3 punpckhqdq xm3, xm3 movd r1d, xm3 movhps xm6, [base+resize_shuf+4+r3] movhps xm7, [base+resize_shuf+4+r1] %endif paddb m6, m10 paddb m7, m10 pshufb m4, m6 pshufb m5, m7 .filter: %if ARCH_X86_64 movd r8d, xm2 pshuflw xm2, xm2, q3232 movd r9d, xm2 punpckhqdq xm2, xm2 movd r10d, xm2 psrlq xm2, 32 movd r11d, xm2 movq xm6, [base+resize_filter+r8*8] movq xm7, [base+resize_filter+r10*8] movhps xm6, [base+resize_filter+r9*8] movhps xm7, [base+resize_filter+r11*8] %else movd r3d, xm2 pshufd xm2, xm2, q3312 movd r1d, xm2 pshuflw xm2, xm2, q3232 movq xm6, [base+resize_filter+r3*8] movq xm7, [base+resize_filter+r1*8] movd r3d, xm2 punpckhqdq xm2, xm2 movd r1d, xm2 movhps xm6, [base+resize_filter+r3*8] movhps xm7, [base+resize_filter+r1*8] %endif pmaddubsw m4, m6 pmaddubsw m5, m7 phaddw m4, m5 phaddsw m4, m4 pmulhrsw m4, m12 ; x=(x+64)>>7 packuswb m4, m4 movd [dstq+xq], m4 paddd m0, m15 add xd, 4 %if STACK_ALIGNMENT >= 16 cmp xd, dst_wd %else cmp xd, dst_wm %endif jl .loop_x %if ARCH_X86_64 add dstq, dst_strideq add srcq, src_strideq dec hd %else add dstq, dst_stridem add srcq, src_stridem dec dword r5m %endif jg .loop_y RET