; /* ; * Provide SSE luma and chroma mc functions for HEVC decoding ; * Copyright (c) 2013 Pierre-Edouard LEPERE ; * ; * This file is part of FFmpeg. ; * ; * FFmpeg is free software; you can redistribute it and/or ; * modify it under the terms of the GNU Lesser General Public ; * License as published by the Free Software Foundation; either ; * version 2.1 of the License, or (at your option) any later version. ; * ; * FFmpeg is distributed in the hope that it will be useful, ; * but WITHOUT ANY WARRANTY; without even the implied warranty of ; * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ; * Lesser General Public License for more details. ; * ; * You should have received a copy of the GNU Lesser General Public ; * License along with FFmpeg; if not, write to the Free Software ; * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ; */ %include "libavutil/x86/x86util.asm" SECTION_RODATA 32 cextern pw_255 cextern pw_512 cextern pw_2048 cextern pw_8192 cextern pw_1023 cextern pw_1024 cextern pw_4096 %define pw_8 pw_512 %define pw_10 pw_2048 %define pw_12 pw_8192 %define pw_bi_10 pw_1024 %define pw_bi_12 pw_4096 %define max_pixels_8 pw_255 %define max_pixels_10 pw_1023 pw_bi_8: times 16 dw (1 << 8) max_pixels_12: times 16 dw ((1 << 12)-1) cextern pd_1 cextern pb_0 %macro EPEL_TABLE 4 hevc_epel_filters_%4_%1 times %2 d%3 -2, 58 times %2 d%3 10, -2 times %2 d%3 -4, 54 times %2 d%3 16, -2 times %2 d%3 -6, 46 times %2 d%3 28, -4 times %2 d%3 -4, 36 times %2 d%3 36, -4 times %2 d%3 -4, 28 times %2 d%3 46, -6 times %2 d%3 -2, 16 times %2 d%3 54, -4 times %2 d%3 -2, 10 times %2 d%3 58, -2 %endmacro EPEL_TABLE 8,16, b, avx2 EPEL_TABLE 10, 8, w, avx2 EPEL_TABLE 8, 8, b, sse4 EPEL_TABLE 10, 4, w, sse4 EPEL_TABLE 12, 4, w, sse4 %macro QPEL_TABLE 4 hevc_qpel_filters_%4_%1 times %2 d%3 -1, 4 times %2 d%3 -10, 58 times %2 d%3 17, -5 times %2 d%3 1, 0 times %2 d%3 -1, 4 times %2 d%3 -11, 40 times %2 d%3 40,-11 times %2 d%3 4, -1 times %2 d%3 0, 1 times %2 d%3 -5, 17 times %2 d%3 58,-10 times %2 d%3 4, -1 %endmacro QPEL_TABLE 8, 8, b, sse4 QPEL_TABLE 10, 4, w, sse4 QPEL_TABLE 12, 4, w, sse4 QPEL_TABLE 8,16, b, avx2 QPEL_TABLE 10, 8, w, avx2 QPEL_TABLE 4, 1, b, avx512icl_h QPEL_TABLE 8, 1, b, avx512icl_h QPEL_TABLE 8, 1, d, avx512icl_v QPEL_TABLE 16, 1, b, avx512icl_h QPEL_TABLE 32, 1, b, avx512icl_h QPEL_TABLE 64, 1, b, avx512icl_h pb_qpel_shuffle_index: db 0, 1, 2, 3 db 1, 2, 3, 4 db 2, 3, 4, 5 db 3, 4, 5, 6 db 4, 5, 6, 7 db 5, 6, 7, 8 db 6, 7, 8, 9 db 7, 8, 9, 10 db 8, 9, 10, 11 db 9, 10, 11, 12 db 10, 11, 12, 13 db 11, 12, 13, 14 db 12, 13, 14, 15 db 13, 14, 15, 16 db 14, 15, 16, 17 db 15, 16, 17, 18 db 4, 5, 6, 7 db 5, 6, 7, 8 db 6, 7, 8, 9 db 7, 8, 9, 10 db 8, 9, 10, 11 db 9, 10, 11, 12 db 10, 11, 12, 13 db 11, 12, 13, 14 db 12, 13, 14, 15 db 13, 14, 15, 16 db 14, 15, 16, 17 db 15, 16, 17, 18 db 16, 17, 18, 19 db 17, 18, 19, 20 db 18, 19, 20, 21 db 19, 20, 21, 22 SECTION .text %define MAX_PB_SIZE 64 %define hevc_qpel_filters_sse4_14 hevc_qpel_filters_sse4_10 %define hevc_qpel_filters_avx2_14 hevc_qpel_filters_avx2_10 %if ARCH_X86_64 %macro SIMPLE_BILOAD 4 ;width, tab, r1, r2 %if %1 <= 4 movq %3, [%2] ; load data from source2 %elif %1 <= 8 movdqa %3, [%2] ; load data from source2 %elif %1 <= 12 %if cpuflag(avx2) mova %3, [%2] %else movdqa %3, [%2] ; load data from source2 movq %4, [%2+16] ; load data from source2 %endif ;avx %elif %1 <= 16 %if cpuflag(avx2) mova %3, [%2] %else movdqa %3, [%2] ; load data from source2 movdqa %4, [%2+16] ; load data from source2 %endif ; avx %else ; %1 = 32 mova %3, [%2] mova %4, [%2+32] %endif %endmacro %macro SIMPLE_LOAD 4 ;width, bitd, tab, r1 %if %1 == 2 || (%2 == 8 && %1 <= 4) movd %4, [%3] ; load data from source %elif %1 == 4 || (%2 == 8 && %1 <= 8) movq %4, [%3] ; load data from source %elif notcpuflag(avx) movu %4, [%3] ; load data from source %elif %1 <= 8 || (%2 == 8 && %1 <= 16) movdqu %4, [%3] %else movu %4, [%3] %endif %endmacro %macro EPEL_FILTER 5 ; bit depth, filter index, xmma, xmmb, gprtmp %if cpuflag(avx2) %assign %%offset 32 %ifdef PIC lea %5q, [hevc_epel_filters_avx2_%1] %define FILTER %5q %else %define FILTER hevc_epel_filters_avx2_%1 %endif %else %assign %%offset 16 %ifdef PIC lea %5q, [hevc_epel_filters_sse4_%1] %define FILTER %5q %else %define FILTER hevc_epel_filters_sse4_%1 %endif %endif ;cpuflag(avx2) sub %2q, 1 %if cpuflag(avx2) shl %2q, 6 ; multiply by 64 %else shl %2q, 5 ; multiply by 32 %endif mova %3, [FILTER + %2q] ; get 2 first values of filters mova %4, [FILTER + %2q+%%offset] ; get 2 last values of filters %endmacro %macro EPEL_HV_FILTER 1 %if cpuflag(avx2) %assign %%offset 32 %assign %%shift 6 %define %%table hevc_epel_filters_avx2_%1 %else %assign %%offset 16 %assign %%shift 5 %define %%table hevc_epel_filters_sse4_%1 %endif %ifdef PIC lea r3srcq, [%%table] %define FILTER r3srcq %else %define FILTER %%table %endif sub mxq, 1 sub myq, 1 shl mxq, %%shift ; multiply by 32 shl myq, %%shift ; multiply by 32 mova m14, [FILTER + mxq] ; get 2 first values of filters mova m15, [FILTER + mxq+%%offset] ; get 2 last values of filters %if cpuflag(avx2) %define %%table hevc_epel_filters_avx2_10 %else %define %%table hevc_epel_filters_sse4_10 %endif %ifdef PIC lea r3srcq, [%%table] %define FILTER r3srcq %else %define FILTER %%table %endif mova m12, [FILTER + myq] ; get 2 first values of filters mova m13, [FILTER + myq+%%offset] ; get 2 last values of filters lea r3srcq, [srcstrideq*3] %endmacro %macro QPEL_FILTER 2 %if cpuflag(avx2) %assign %%offset 32 %assign %%shift 7 %define %%table hevc_qpel_filters_avx2_%1 %else %assign %%offset 16 %assign %%shift 6 %define %%table hevc_qpel_filters_sse4_%1 %endif %ifdef PIC lea rfilterq, [%%table] %else %define rfilterq %%table %endif sub %2q, 1 shl %2q, %%shift ; multiply by 32 mova m12, [rfilterq + %2q] ; get 4 first values of filters mova m13, [rfilterq + %2q + %%offset] ; get 4 first values of filters mova m14, [rfilterq + %2q + 2*%%offset] ; get 4 first values of filters mova m15, [rfilterq + %2q + 3*%%offset] ; get 4 first values of filters %endmacro %macro EPEL_LOAD 4 %if (%1 == 8 && %4 <= 4) %define %%load movd %elif (%1 == 8 && %4 <= 8) || (%1 > 8 && %4 <= 4) %define %%load movq %else %define %%load movdqu %endif %%load m0, [%2q ] %ifnum %3 %%load m1, [%2q+ %3] %%load m2, [%2q+2*%3] %%load m3, [%2q+3*%3] %else %%load m1, [%2q+ %3q] %%load m2, [%2q+2*%3q] %%load m3, [%2q+r3srcq] %endif %if %1 == 8 %if %4 > 8 SBUTTERFLY bw, 0, 1, 7 SBUTTERFLY bw, 2, 3, 7 %else punpcklbw m0, m1 punpcklbw m2, m3 %endif %else %if %4 > 4 SBUTTERFLY wd, 0, 1, 7 SBUTTERFLY wd, 2, 3, 7 %else punpcklwd m0, m1 punpcklwd m2, m3 %endif %endif %endmacro %macro QPEL_H_LOAD 4 %assign %%stride (%1+7)/8 %if %1 == 8 %if %3 <= 4 %define %%load movd %elif %3 == 8 %define %%load movq %else %define %%load movu %endif %else %if %3 == 2 %define %%load movd %elif %3 == 4 %define %%load movq %else %define %%load movu %endif %endif %%load m0, [%2-3*%%stride] ;load data from source %%load m1, [%2-2*%%stride] %%load m2, [%2-%%stride ] %%load m3, [%2 ] %%load m4, [%2+%%stride ] %%load m5, [%2+2*%%stride] %%load m6, [%2+3*%%stride] %%load m7, [%2+4*%%stride] %if %1 == 8 %if %3 > 8 SBUTTERFLY wd, 0, 1, %4 SBUTTERFLY wd, 2, 3, %4 SBUTTERFLY wd, 4, 5, %4 SBUTTERFLY wd, 6, 7, %4 %else punpcklbw m0, m1 punpcklbw m2, m3 punpcklbw m4, m5 punpcklbw m6, m7 %endif %else %if %3 > 4 SBUTTERFLY dq, 0, 1, %4 SBUTTERFLY dq, 2, 3, %4 SBUTTERFLY dq, 4, 5, %4 SBUTTERFLY dq, 6, 7, %4 %else punpcklwd m0, m1 punpcklwd m2, m3 punpcklwd m4, m5 punpcklwd m6, m7 %endif %endif %endmacro %macro QPEL_V_LOAD 5 lea %5q, [%2] sub %5q, r3srcq movu m0, [%5q ] ;load x- 3*srcstride movu m1, [%5q+ %3q ] ;load x- 2*srcstride movu m2, [%5q+ 2*%3q ] ;load x-srcstride movu m3, [%2 ] ;load x movu m4, [%2+ %3q] ;load x+stride movu m5, [%2+ 2*%3q] ;load x+2*stride movu m6, [%2+r3srcq] ;load x+3*stride movu m7, [%2+ 4*%3q] ;load x+4*stride %if %1 == 8 %if %4 > 8 SBUTTERFLY bw, 0, 1, 8 SBUTTERFLY bw, 2, 3, 8 SBUTTERFLY bw, 4, 5, 8 SBUTTERFLY bw, 6, 7, 8 %else punpcklbw m0, m1 punpcklbw m2, m3 punpcklbw m4, m5 punpcklbw m6, m7 %endif %else %if %4 > 4 SBUTTERFLY wd, 0, 1, 8 SBUTTERFLY wd, 2, 3, 8 SBUTTERFLY wd, 4, 5, 8 SBUTTERFLY wd, 6, 7, 8 %else punpcklwd m0, m1 punpcklwd m2, m3 punpcklwd m4, m5 punpcklwd m6, m7 %endif %endif %endmacro %macro PEL_12STORE2 3 movd [%1], %2 %endmacro %macro PEL_12STORE4 3 movq [%1], %2 %endmacro %macro PEL_12STORE6 3 movq [%1], %2 psrldq %2, 8 movd [%1+8], %2 %endmacro %macro PEL_12STORE8 3 movdqa [%1], %2 %endmacro %macro PEL_12STORE12 3 movdqa [%1], %2 movq [%1+16], %3 %endmacro %macro PEL_12STORE16 3 PEL_12STORE8 %1, %2, %3 movdqa [%1+16], %3 %endmacro %macro PEL_10STORE2 3 movd [%1], %2 %endmacro %macro PEL_10STORE4 3 movq [%1], %2 %endmacro %macro PEL_10STORE6 3 movq [%1], %2 psrldq %2, 8 movd [%1+8], %2 %endmacro %macro PEL_10STORE8 3 movdqa [%1], %2 %endmacro %macro PEL_10STORE12 3 movdqa [%1], %2 movq [%1+16], %3 %endmacro %macro PEL_10STORE16 3 %if cpuflag(avx2) movu [%1], %2 %else PEL_10STORE8 %1, %2, %3 movdqa [%1+16], %3 %endif %endmacro %macro PEL_10STORE32 3 PEL_10STORE16 %1, %2, %3 movu [%1+32], %3 %endmacro %macro PEL_8STORE2 3 pextrw [%1], %2, 0 %endmacro %macro PEL_8STORE4 3 movd [%1], %2 %endmacro %macro PEL_8STORE6 3 movd [%1], %2 pextrw [%1+4], %2, 2 %endmacro %macro PEL_8STORE8 3 movq [%1], %2 %endmacro %macro PEL_8STORE12 3 movq [%1], %2 psrldq %2, 8 movd [%1+8], %2 %endmacro %macro PEL_8STORE16 3 %if cpuflag(avx2) movdqu [%1], %2 %else mova [%1], %2 %endif ; avx %endmacro %macro PEL_8STORE32 3 movu [%1], %2 %endmacro %macro LOOP_END 3 add %1q, 2*MAX_PB_SIZE ; dst += dststride add %2q, %3q ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop %endmacro %macro MC_PIXEL_COMPUTE 2-3 ;width, bitdepth %if %2 == 8 %if cpuflag(avx2) && %0 ==3 %if %1 > 16 vextracti128 xm1, m0, 1 pmovzxbw m1, xm1 psllw m1, 14-%2 %endif pmovzxbw m0, xm0 %else ; not avx %if %1 > 8 punpckhbw m1, m0, m2 psllw m1, 14-%2 %endif punpcklbw m0, m2 %endif %endif ;avx psllw m0, 14-%2 %endmacro %macro EPEL_COMPUTE 4-8 ; bitdepth, width, filter1, filter2, HV/m0, m2, m1, m3 %if %0 == 8 %define %%reg0 %5 %define %%reg2 %6 %define %%reg1 %7 %define %%reg3 %8 %else %define %%reg0 m0 %define %%reg2 m2 %define %%reg1 m1 %define %%reg3 m3 %endif %if %1 == 8 %if cpuflag(avx2) && (%0 == 5) %if %2 > 16 vperm2i128 m10, m0, m1, q0301 %endif vinserti128 m0, m0, xm1, 1 mova m1, m10 %if %2 > 16 vperm2i128 m10, m2, m3, q0301 %endif vinserti128 m2, m2, xm3, 1 mova m3, m10 %endif pmaddubsw %%reg0, %3 ;x1*c1+x2*c2 pmaddubsw %%reg2, %4 ;x3*c3+x4*c4 paddw %%reg0, %%reg2 %if %2 > 8 pmaddubsw %%reg1, %3 pmaddubsw %%reg3, %4 paddw %%reg1, %%reg3 %endif %else pmaddwd %%reg0, %3 pmaddwd %%reg2, %4 paddd %%reg0, %%reg2 %if %2 > 4 pmaddwd %%reg1, %3 pmaddwd %%reg3, %4 paddd %%reg1, %%reg3 %if %1 != 8 psrad %%reg1, %1-8 %endif %endif %if %1 != 8 psrad %%reg0, %1-8 %endif packssdw %%reg0, %%reg1 %endif %endmacro %macro QPEL_HV_COMPUTE 4 ; width, bitdepth, filter idx %if cpuflag(avx2) %assign %%offset 32 %define %%table hevc_qpel_filters_avx2_%2 %else %assign %%offset 16 %define %%table hevc_qpel_filters_sse4_%2 %endif %ifdef PIC lea rfilterq, [%%table] %else %define rfilterq %%table %endif %if %2 == 8 pmaddubsw m0, [rfilterq + %3q*8 ] ;x1*c1+x2*c2 pmaddubsw m2, [rfilterq + %3q*8+%%offset] ;x3*c3+x4*c4 pmaddubsw m4, [rfilterq + %3q*8+2*%%offset] ;x5*c5+x6*c6 pmaddubsw m6, [rfilterq + %3q*8+3*%%offset] ;x7*c7+x8*c8 paddw m0, m2 paddw m4, m6 paddw m0, m4 %else pmaddwd m0, [rfilterq + %3q*8 ] pmaddwd m2, [rfilterq + %3q*8+%%offset] pmaddwd m4, [rfilterq + %3q*8+2*%%offset] pmaddwd m6, [rfilterq + %3q*8+3*%%offset] paddd m0, m2 paddd m4, m6 paddd m0, m4 %if %2 != 8 psrad m0, %2-8 %endif %if %1 > 4 pmaddwd m1, [rfilterq + %3q*8 ] pmaddwd m3, [rfilterq + %3q*8+%%offset] pmaddwd m5, [rfilterq + %3q*8+2*%%offset] pmaddwd m7, [rfilterq + %3q*8+3*%%offset] paddd m1, m3 paddd m5, m7 paddd m1, m5 %if %2 != 8 psrad m1, %2-8 %endif %endif p%4 m0, m1 %endif %endmacro %macro QPEL_COMPUTE 2-3 ; width, bitdepth %if %2 == 8 %if cpuflag(avx2) && (%0 == 3) vperm2i128 m10, m0, m1, q0301 vinserti128 m0, m0, xm1, 1 SWAP 1, 10 vperm2i128 m10, m2, m3, q0301 vinserti128 m2, m2, xm3, 1 SWAP 3, 10 vperm2i128 m10, m4, m5, q0301 vinserti128 m4, m4, xm5, 1 SWAP 5, 10 vperm2i128 m10, m6, m7, q0301 vinserti128 m6, m6, xm7, 1 SWAP 7, 10 %endif pmaddubsw m0, m12 ;x1*c1+x2*c2 pmaddubsw m2, m13 ;x3*c3+x4*c4 pmaddubsw m4, m14 ;x5*c5+x6*c6 pmaddubsw m6, m15 ;x7*c7+x8*c8 paddw m0, m2 paddw m4, m6 paddw m0, m4 %if %1 > 8 pmaddubsw m1, m12 pmaddubsw m3, m13 pmaddubsw m5, m14 pmaddubsw m7, m15 paddw m1, m3 paddw m5, m7 paddw m1, m5 %endif %else pmaddwd m0, m12 pmaddwd m2, m13 pmaddwd m4, m14 pmaddwd m6, m15 paddd m0, m2 paddd m4, m6 paddd m0, m4 %if %2 != 8 psrad m0, %2-8 %endif %if %1 > 4 pmaddwd m1, m12 pmaddwd m3, m13 pmaddwd m5, m14 pmaddwd m7, m15 paddd m1, m3 paddd m5, m7 paddd m1, m5 %if %2 != 8 psrad m1, %2-8 %endif %endif %endif %endmacro %macro BI_COMPUTE 7-8 ; width, bitd, src1l, src1h, scr2l, scr2h, pw paddsw %3, %5 %if %1 > 8 paddsw %4, %6 %endif UNI_COMPUTE %1, %2, %3, %4, %7 %if %0 == 8 && cpuflag(avx2) && (%2 == 8) vpermq %3, %3, 216 vpermq %4, %4, 216 %endif %endmacro %macro UNI_COMPUTE 5 pmulhrsw %3, %5 %if %1 > 8 || (%2 > 8 && %1 > 4) pmulhrsw %4, %5 %endif %if %2 == 8 packuswb %3, %4 %else CLIPW %3, [pb_0], [max_pixels_%2] %if (%1 > 8 && notcpuflag(avx)) || %1 > 16 CLIPW %4, [pb_0], [max_pixels_%2] %endif %endif %endmacro ; ****************************** ; void put_hevc_mc_pixels(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my) ; ****************************** %macro HEVC_PUT_HEVC_PEL_PIXELS 2 HEVC_PEL_PIXELS %1, %2 HEVC_UNI_PEL_PIXELS %1, %2 HEVC_BI_PEL_PIXELS %1, %2 %endmacro %macro HEVC_PEL_PIXELS 2 cglobal hevc_put_hevc_pel_pixels%1_%2, 4, 4, 3, dst, src, srcstride,height pxor m2, m2 .loop: SIMPLE_LOAD %1, %2, srcq, m0 MC_PIXEL_COMPUTE %1, %2, 1 PEL_10STORE%1 dstq, m0, m1 LOOP_END dst, src, srcstride RET %endmacro %macro HEVC_UNI_PEL_PIXELS 2 cglobal hevc_put_hevc_uni_pel_pixels%1_%2, 5, 5, 2, dst, dststride, src, srcstride,height .loop: SIMPLE_LOAD %1, %2, srcq, m0 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro %macro HEVC_BI_PEL_PIXELS 2 cglobal hevc_put_hevc_bi_pel_pixels%1_%2, 6, 6, 6, dst, dststride, src, srcstride, src2, height pxor m2, m2 movdqa m5, [pw_bi_%2] .loop: SIMPLE_LOAD %1, %2, srcq, m0 SIMPLE_BILOAD %1, src2q, m3, m4 MC_PIXEL_COMPUTE %1, %2, 1 BI_COMPUTE %1, %2, m0, m1, m3, m4, m5, 1 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro ; ****************************** ; void put_hevc_epel_hX(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my, int width); ; ****************************** %macro HEVC_PUT_HEVC_EPEL 2 %if cpuflag(avx2) %define XMM_REGS 11 %else %define XMM_REGS 8 %endif cglobal hevc_put_hevc_epel_h%1_%2, 5, 6, XMM_REGS, dst, src, srcstride, height, mx, rfilter %assign %%stride ((%2 + 7)/8) EPEL_FILTER %2, mx, m4, m5, rfilter .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m4, m5, 1 PEL_10STORE%1 dstq, m0, m1 LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_epel_h%1_%2, 6, 7, XMM_REGS, dst, dststride, src, srcstride, height, mx, rfilter %assign %%stride ((%2 + 7)/8) movdqa m6, [pw_%2] EPEL_FILTER %2, mx, m4, m5, rfilter .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m4, m5 UNI_COMPUTE %1, %2, m0, m1, m6 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_epel_h%1_%2, 7, 8, XMM_REGS, dst, dststride, src, srcstride, src2, height, mx, rfilter movdqa m6, [pw_bi_%2] EPEL_FILTER %2, mx, m4, m5, rfilter .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m4, m5, 1 SIMPLE_BILOAD %1, src2q, m2, m3 BI_COMPUTE %1, %2, m0, m1, m2, m3, m6, 1 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET ; ****************************** ; void put_hevc_epel_v(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my, int width) ; ****************************** cglobal hevc_put_hevc_epel_v%1_%2, 4, 6, XMM_REGS, dst, src, srcstride, height, r3src, my movifnidn myd, mym sub srcq, srcstrideq EPEL_FILTER %2, my, m4, m5, r3src lea r3srcq, [srcstrideq*3] .loop: EPEL_LOAD %2, srcq, srcstride, %1 EPEL_COMPUTE %2, %1, m4, m5, 1 PEL_10STORE%1 dstq, m0, m1 LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_epel_v%1_%2, 5, 7, XMM_REGS, dst, dststride, src, srcstride, height, r3src, my movifnidn myd, mym movdqa m6, [pw_%2] sub srcq, srcstrideq EPEL_FILTER %2, my, m4, m5, r3src lea r3srcq, [srcstrideq*3] .loop: EPEL_LOAD %2, srcq, srcstride, %1 EPEL_COMPUTE %2, %1, m4, m5 UNI_COMPUTE %1, %2, m0, m1, m6 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_epel_v%1_%2, 6, 8, XMM_REGS, dst, dststride, src, srcstride, src2, height, r3src, my movifnidn myd, mym movdqa m6, [pw_bi_%2] sub srcq, srcstrideq EPEL_FILTER %2, my, m4, m5, r3src lea r3srcq, [srcstrideq*3] .loop: EPEL_LOAD %2, srcq, srcstride, %1 EPEL_COMPUTE %2, %1, m4, m5, 1 SIMPLE_BILOAD %1, src2q, m2, m3 BI_COMPUTE %1, %2, m0, m1, m2, m3, m6, 1 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro ; ****************************** ; void put_hevc_epel_hv(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my, int width) ; ****************************** %macro HEVC_PUT_HEVC_EPEL_HV 2 cglobal hevc_put_hevc_epel_hv%1_%2, 6, 7, 16 , dst, src, srcstride, height, mx, my, r3src %assign %%stride ((%2 + 7)/8) sub srcq, srcstrideq EPEL_HV_FILTER %2 EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m8, m1 %endif SWAP m4, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m9, m1 %endif SWAP m5, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m10, m1 %endif SWAP m6, m0 add srcq, srcstrideq .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m11, m1 %endif SWAP m7, m0 punpcklwd m0, m4, m5 punpcklwd m2, m6, m7 %if %1 > 4 punpckhwd m1, m4, m5 punpckhwd m3, m6, m7 %endif EPEL_COMPUTE 14, %1, m12, m13 %if (%1 > 8 && (%2 == 8)) punpcklwd m4, m8, m9 punpcklwd m2, m10, m11 punpckhwd m8, m8, m9 punpckhwd m3, m10, m11 EPEL_COMPUTE 14, %1, m12, m13, m4, m2, m8, m3 %if cpuflag(avx2) vinserti128 m2, m0, xm4, 1 vperm2i128 m3, m0, m4, q0301 PEL_10STORE%1 dstq, m2, m3 %else PEL_10STORE%1 dstq, m0, m4 %endif %else PEL_10STORE%1 dstq, m0, m1 %endif movdqa m4, m5 movdqa m5, m6 movdqa m6, m7 %if (%1 > 8 && (%2 == 8)) mova m8, m9 mova m9, m10 mova m10, m11 %endif LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_epel_hv%1_%2, 7, 8, 16 , dst, dststride, src, srcstride, height, mx, my, r3src %assign %%stride ((%2 + 7)/8) sub srcq, srcstrideq EPEL_HV_FILTER %2 EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m8, m1 %endif SWAP m4, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m9, m1 %endif SWAP m5, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m10, m1 %endif SWAP m6, m0 add srcq, srcstrideq .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m11, m1 %endif mova m7, m0 punpcklwd m0, m4, m5 punpcklwd m2, m6, m7 %if %1 > 4 punpckhwd m1, m4, m5 punpckhwd m3, m6, m7 %endif EPEL_COMPUTE 14, %1, m12, m13 %if (%1 > 8 && (%2 == 8)) punpcklwd m4, m8, m9 punpcklwd m2, m10, m11 punpckhwd m8, m8, m9 punpckhwd m3, m10, m11 EPEL_COMPUTE 14, %1, m12, m13, m4, m2, m8, m3 UNI_COMPUTE %1, %2, m0, m4, [pw_%2] %else UNI_COMPUTE %1, %2, m0, m1, [pw_%2] %endif PEL_%2STORE%1 dstq, m0, m1 mova m4, m5 mova m5, m6 mova m6, m7 %if (%1 > 8 && (%2 == 8)) mova m8, m9 mova m9, m10 mova m10, m11 %endif add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_epel_hv%1_%2, 8, 9, 16, dst, dststride, src, srcstride, src2, height, mx, my, r3src %assign %%stride ((%2 + 7)/8) sub srcq, srcstrideq EPEL_HV_FILTER %2 EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m8, m1 %endif SWAP m4, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m9, m1 %endif SWAP m5, m0 add srcq, srcstrideq EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m10, m1 %endif SWAP m6, m0 add srcq, srcstrideq .loop: EPEL_LOAD %2, srcq-%%stride, %%stride, %1 EPEL_COMPUTE %2, %1, m14, m15 %if (%1 > 8 && (%2 == 8)) SWAP m11, m1 %endif SWAP m7, m0 punpcklwd m0, m4, m5 punpcklwd m2, m6, m7 %if %1 > 4 punpckhwd m1, m4, m5 punpckhwd m3, m6, m7 %endif EPEL_COMPUTE 14, %1, m12, m13 %if (%1 > 8 && (%2 == 8)) punpcklwd m4, m8, m9 punpcklwd m2, m10, m11 punpckhwd m8, m8, m9 punpckhwd m3, m10, m11 EPEL_COMPUTE 14, %1, m12, m13, m4, m2, m8, m3 SIMPLE_BILOAD %1, src2q, m8, m3 %if cpuflag(avx2) vinserti128 m1, m8, xm3, 1 vperm2i128 m2, m8, m3, q0301 BI_COMPUTE %1, %2, m0, m4, m1, m2, [pw_bi_%2] %else BI_COMPUTE %1, %2, m0, m4, m8, m3, [pw_bi_%2] %endif %else SIMPLE_BILOAD %1, src2q, m8, m9 BI_COMPUTE %1, %2, m0, m1, m8, m9, [pw_bi_%2] %endif PEL_%2STORE%1 dstq, m0, m4 mova m4, m5 mova m5, m6 mova m6, m7 %if (%1 > 8 && (%2 == 8)) mova m8, m9 mova m9, m10 mova m10, m11 %endif add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro ; ****************************** ; void put_hevc_qpel_hX_X_X(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my, int width) ; ****************************** %macro HEVC_PUT_HEVC_QPEL 2 cglobal hevc_put_hevc_qpel_h%1_%2, 5, 6, 16, dst, src, srcstride, height, mx, rfilter QPEL_FILTER %2, mx .loop: QPEL_H_LOAD %2, srcq, %1, 10 QPEL_COMPUTE %1, %2, 1 %if %2 > 8 packssdw m0, m1 %endif PEL_10STORE%1 dstq, m0, m1 LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_qpel_h%1_%2, 6, 7, 16 , dst, dststride, src, srcstride, height, mx, rfilter mova m9, [pw_%2] QPEL_FILTER %2, mx .loop: QPEL_H_LOAD %2, srcq, %1, 10 QPEL_COMPUTE %1, %2 %if %2 > 8 packssdw m0, m1 %endif UNI_COMPUTE %1, %2, m0, m1, m9 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_qpel_h%1_%2, 7, 8, 16 , dst, dststride, src, srcstride, src2, height, mx, rfilter movdqa m9, [pw_bi_%2] QPEL_FILTER %2, mx .loop: QPEL_H_LOAD %2, srcq, %1, 10 QPEL_COMPUTE %1, %2, 1 %if %2 > 8 packssdw m0, m1 %endif SIMPLE_BILOAD %1, src2q, m10, m11 BI_COMPUTE %1, %2, m0, m1, m10, m11, m9, 1 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET ; ****************************** ; void put_hevc_qpel_vX_X_X(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my, int width) ; ****************************** cglobal hevc_put_hevc_qpel_v%1_%2, 4, 8, 16, dst, src, srcstride, height, r3src, my, rfilter movifnidn myd, mym lea r3srcq, [srcstrideq*3] QPEL_FILTER %2, my .loop: QPEL_V_LOAD %2, srcq, srcstride, %1, r7 QPEL_COMPUTE %1, %2, 1 %if %2 > 8 packssdw m0, m1 %endif PEL_10STORE%1 dstq, m0, m1 LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_qpel_v%1_%2, 5, 9, 16, dst, dststride, src, srcstride, height, r3src, my, rfilter movifnidn myd, mym movdqa m9, [pw_%2] lea r3srcq, [srcstrideq*3] QPEL_FILTER %2, my .loop: QPEL_V_LOAD %2, srcq, srcstride, %1, r8 QPEL_COMPUTE %1, %2 %if %2 > 8 packssdw m0, m1 %endif UNI_COMPUTE %1, %2, m0, m1, m9 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_qpel_v%1_%2, 6, 10, 16, dst, dststride, src, srcstride, src2, height, r3src, my, rfilter movifnidn myd, mym movdqa m9, [pw_bi_%2] lea r3srcq, [srcstrideq*3] QPEL_FILTER %2, my .loop: QPEL_V_LOAD %2, srcq, srcstride, %1, r9 QPEL_COMPUTE %1, %2, 1 %if %2 > 8 packssdw m0, m1 %endif SIMPLE_BILOAD %1, src2q, m10, m11 BI_COMPUTE %1, %2, m0, m1, m10, m11, m9, 1 PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro ; ****************************** ; void put_hevc_qpel_hvX_X(int16_t *dst, ptrdiff_t dststride, ; const uint8_t *_src, ptrdiff_t _srcstride, ; int height, int mx, int my) ; ****************************** %macro HEVC_PUT_HEVC_QPEL_HV 2 cglobal hevc_put_hevc_qpel_hv%1_%2, 6, 8, 16, dst, src, srcstride, height, mx, my, r3src, rfilter %if cpuflag(avx2) %assign %%shift 4 %else %assign %%shift 3 %endif sub mxq, 1 sub myq, 1 shl mxq, %%shift ; multiply by 32 shl myq, %%shift ; multiply by 32 lea r3srcq, [srcstrideq*3] sub srcq, r3srcq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m8, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m9, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m10, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m11, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m12, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m13, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m14, m0 add srcq, srcstrideq .loop: QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m15, m0 punpcklwd m0, m8, m9 punpcklwd m2, m10, m11 punpcklwd m4, m12, m13 punpcklwd m6, m14, m15 %if %1 > 4 punpckhwd m1, m8, m9 punpckhwd m3, m10, m11 punpckhwd m5, m12, m13 punpckhwd m7, m14, m15 %endif QPEL_HV_COMPUTE %1, 14, my, ackssdw PEL_10STORE%1 dstq, m0, m1 %if %1 <= 4 movq m8, m9 movq m9, m10 movq m10, m11 movq m11, m12 movq m12, m13 movq m13, m14 movq m14, m15 %else movdqa m8, m9 movdqa m9, m10 movdqa m10, m11 movdqa m11, m12 movdqa m12, m13 movdqa m13, m14 movdqa m14, m15 %endif LOOP_END dst, src, srcstride RET cglobal hevc_put_hevc_uni_qpel_hv%1_%2, 7, 9, 16 , dst, dststride, src, srcstride, height, mx, my, r3src, rfilter %if cpuflag(avx2) %assign %%shift 4 %else %assign %%shift 3 %endif sub mxq, 1 sub myq, 1 shl mxq, %%shift ; multiply by 32 shl myq, %%shift ; multiply by 32 lea r3srcq, [srcstrideq*3] sub srcq, r3srcq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m8, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m9, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m10, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m11, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m12, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m13, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m14, m0 add srcq, srcstrideq .loop: QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m15, m0 punpcklwd m0, m8, m9 punpcklwd m2, m10, m11 punpcklwd m4, m12, m13 punpcklwd m6, m14, m15 %if %1 > 4 punpckhwd m1, m8, m9 punpckhwd m3, m10, m11 punpckhwd m5, m12, m13 punpckhwd m7, m14, m15 %endif QPEL_HV_COMPUTE %1, 14, my, ackusdw UNI_COMPUTE %1, %2, m0, m1, [pw_%2] PEL_%2STORE%1 dstq, m0, m1 %if %1 <= 4 movq m8, m9 movq m9, m10 movq m10, m11 movq m11, m12 movq m12, m13 movq m13, m14 movq m14, m15 %else mova m8, m9 mova m9, m10 mova m10, m11 mova m11, m12 mova m12, m13 mova m13, m14 mova m14, m15 %endif add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_qpel_hv%1_%2, 8, 10, 16, dst, dststride, src, srcstride, src2, height, mx, my, r3src, rfilter %if cpuflag(avx2) %assign %%shift 4 %else %assign %%shift 3 %endif sub mxq, 1 sub myq, 1 shl mxq, %%shift ; multiply by 32 shl myq, %%shift ; multiply by 32 lea r3srcq, [srcstrideq*3] sub srcq, r3srcq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m8, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m9, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m10, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m11, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m12, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m13, m0 add srcq, srcstrideq QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m14, m0 add srcq, srcstrideq .loop: QPEL_H_LOAD %2, srcq, %1, 15 QPEL_HV_COMPUTE %1, %2, mx, ackssdw SWAP m15, m0 punpcklwd m0, m8, m9 punpcklwd m2, m10, m11 punpcklwd m4, m12, m13 punpcklwd m6, m14, m15 %if %1 > 4 punpckhwd m1, m8, m9 punpckhwd m3, m10, m11 punpckhwd m5, m12, m13 punpckhwd m7, m14, m15 %endif QPEL_HV_COMPUTE %1, 14, my, ackssdw SIMPLE_BILOAD %1, src2q, m8, m9 ;m9 not used in this case BI_COMPUTE %1, %2, m0, m1, m8, m9, [pw_bi_%2] PEL_%2STORE%1 dstq, m0, m1 %if %1 <= 4 movq m8, m9 movq m9, m10 movq m10, m11 movq m11, m12 movq m12, m13 movq m13, m14 movq m14, m15 %else movdqa m8, m9 movdqa m9, m10 movdqa m10, m11 movdqa m11, m12 movdqa m12, m13 movdqa m13, m14 movdqa m14, m15 %endif add dstq, dststrideq ; dst += dststride add srcq, srcstrideq ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET %endmacro %macro WEIGHTING_FUNCS 2 %if WIN64 || ARCH_X86_32 cglobal hevc_put_hevc_uni_w%1_%2, 4, 5, 7, dst, dststride, src, height, denom, wx, ox mov r4d, denomm %define SHIFT r4d %else cglobal hevc_put_hevc_uni_w%1_%2, 6, 6, 7, dst, dststride, src, height, denom, wx, ox %define SHIFT denomd %endif lea SHIFT, [SHIFT+14-%2] ; shift = 14 - bitd + denom %if %1 <= 4 pxor m1, m1 %endif movd m2, wxm ; WX movd m4, SHIFT ; shift %if %1 <= 4 punpcklwd m2, m1 %else punpcklwd m2, m2 %endif dec SHIFT movdqu m5, [pd_1] movd m6, SHIFT pshufd m2, m2, 0 mov SHIFT, oxm pslld m5, m6 %if %2 != 8 shl SHIFT, %2-8 ; ox << (bitd - 8) %endif movd m3, SHIFT ; OX pshufd m3, m3, 0 %if WIN64 || ARCH_X86_32 mov SHIFT, heightm %endif .loop: SIMPLE_LOAD %1, 10, srcq, m0 %if %1 <= 4 punpcklwd m0, m1 pmaddwd m0, m2 paddd m0, m5 psrad m0, m4 paddd m0, m3 %else pmulhw m6, m0, m2 pmullw m0, m2 punpckhwd m1, m0, m6 punpcklwd m0, m6 paddd m0, m5 paddd m1, m5 psrad m0, m4 psrad m1, m4 paddd m0, m3 paddd m1, m3 %endif packssdw m0, m1 %if %2 == 8 packuswb m0, m0 %else CLIPW m0, [pb_0], [max_pixels_%2] %endif PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, 2*MAX_PB_SIZE ; src += srcstride dec heightd ; cmp height jnz .loop ; height loop RET cglobal hevc_put_hevc_bi_w%1_%2, 4, 6, 10, dst, dststride, src, src2, height, denom, wx0, wx1, ox0, ox1 movifnidn r5d, denomm %if %1 <= 4 pxor m1, m1 %endif movd m2, wx0m ; WX0 lea r5d, [r5d+14-%2] ; shift = 14 - bitd + denom movd m3, wx1m ; WX1 movd m0, r5d ; shift %if %1 <= 4 punpcklwd m2, m1 punpcklwd m3, m1 %else punpcklwd m2, m2 punpcklwd m3, m3 %endif inc r5d movd m5, r5d ; shift+1 pshufd m2, m2, 0 mov r5d, ox0m pshufd m3, m3, 0 add r5d, ox1m %if %2 != 8 shl r5d, %2-8 ; ox << (bitd - 8) %endif inc r5d movd m4, r5d ; offset pshufd m4, m4, 0 %if UNIX64 %define h heightd %else mov r5d, heightm %define h r5d %endif pslld m4, m0 .loop: SIMPLE_LOAD %1, 10, srcq, m0 SIMPLE_LOAD %1, 10, src2q, m8 %if %1 <= 4 punpcklwd m0, m1 punpcklwd m8, m1 pmaddwd m0, m3 pmaddwd m8, m2 paddd m0, m4 paddd m0, m8 psrad m0, m5 %else pmulhw m6, m0, m3 pmullw m0, m3 pmulhw m7, m8, m2 pmullw m8, m2 punpckhwd m1, m0, m6 punpcklwd m0, m6 punpckhwd m9, m8, m7 punpcklwd m8, m7 paddd m0, m8 paddd m1, m9 paddd m0, m4 paddd m1, m4 psrad m0, m5 psrad m1, m5 %endif packssdw m0, m1 %if %2 == 8 packuswb m0, m0 %else CLIPW m0, [pb_0], [max_pixels_%2] %endif PEL_%2STORE%1 dstq, m0, m1 add dstq, dststrideq ; dst += dststride add srcq, 2*MAX_PB_SIZE ; src += srcstride add src2q, 2*MAX_PB_SIZE ; src2 += srcstride dec h ; cmp height jnz .loop ; height loop RET %endmacro INIT_XMM sse4 ; adds ff_ and _sse4 to function name WEIGHTING_FUNCS 2, 8 WEIGHTING_FUNCS 4, 8 WEIGHTING_FUNCS 6, 8 WEIGHTING_FUNCS 8, 8 WEIGHTING_FUNCS 2, 10 WEIGHTING_FUNCS 4, 10 WEIGHTING_FUNCS 6, 10 WEIGHTING_FUNCS 8, 10 WEIGHTING_FUNCS 2, 12 WEIGHTING_FUNCS 4, 12 WEIGHTING_FUNCS 6, 12 WEIGHTING_FUNCS 8, 12 HEVC_PUT_HEVC_PEL_PIXELS 2, 8 HEVC_PUT_HEVC_PEL_PIXELS 4, 8 HEVC_PUT_HEVC_PEL_PIXELS 6, 8 HEVC_PUT_HEVC_PEL_PIXELS 8, 8 HEVC_PUT_HEVC_PEL_PIXELS 12, 8 HEVC_PUT_HEVC_PEL_PIXELS 16, 8 HEVC_PUT_HEVC_PEL_PIXELS 2, 10 HEVC_PUT_HEVC_PEL_PIXELS 4, 10 HEVC_PUT_HEVC_PEL_PIXELS 6, 10 HEVC_PUT_HEVC_PEL_PIXELS 8, 10 HEVC_PUT_HEVC_PEL_PIXELS 2, 12 HEVC_PUT_HEVC_PEL_PIXELS 4, 12 HEVC_PUT_HEVC_PEL_PIXELS 6, 12 HEVC_PUT_HEVC_PEL_PIXELS 8, 12 HEVC_PUT_HEVC_EPEL 2, 8 HEVC_PUT_HEVC_EPEL 4, 8 HEVC_PUT_HEVC_EPEL 6, 8 HEVC_PUT_HEVC_EPEL 8, 8 HEVC_PUT_HEVC_EPEL 12, 8 HEVC_PUT_HEVC_EPEL 16, 8 HEVC_PUT_HEVC_EPEL 2, 10 HEVC_PUT_HEVC_EPEL 4, 10 HEVC_PUT_HEVC_EPEL 6, 10 HEVC_PUT_HEVC_EPEL 8, 10 HEVC_PUT_HEVC_EPEL 2, 12 HEVC_PUT_HEVC_EPEL 4, 12 HEVC_PUT_HEVC_EPEL 6, 12 HEVC_PUT_HEVC_EPEL 8, 12 HEVC_PUT_HEVC_EPEL_HV 2, 8 HEVC_PUT_HEVC_EPEL_HV 4, 8 HEVC_PUT_HEVC_EPEL_HV 6, 8 HEVC_PUT_HEVC_EPEL_HV 8, 8 HEVC_PUT_HEVC_EPEL_HV 16, 8 HEVC_PUT_HEVC_EPEL_HV 2, 10 HEVC_PUT_HEVC_EPEL_HV 4, 10 HEVC_PUT_HEVC_EPEL_HV 6, 10 HEVC_PUT_HEVC_EPEL_HV 8, 10 HEVC_PUT_HEVC_EPEL_HV 2, 12 HEVC_PUT_HEVC_EPEL_HV 4, 12 HEVC_PUT_HEVC_EPEL_HV 6, 12 HEVC_PUT_HEVC_EPEL_HV 8, 12 HEVC_PUT_HEVC_QPEL 4, 8 HEVC_PUT_HEVC_QPEL 8, 8 HEVC_PUT_HEVC_QPEL 12, 8 HEVC_PUT_HEVC_QPEL 16, 8 HEVC_PUT_HEVC_QPEL 4, 10 HEVC_PUT_HEVC_QPEL 8, 10 HEVC_PUT_HEVC_QPEL 4, 12 HEVC_PUT_HEVC_QPEL 8, 12 HEVC_PUT_HEVC_QPEL_HV 2, 8 HEVC_PUT_HEVC_QPEL_HV 4, 8 HEVC_PUT_HEVC_QPEL_HV 6, 8 HEVC_PUT_HEVC_QPEL_HV 8, 8 HEVC_PUT_HEVC_QPEL_HV 2, 10 HEVC_PUT_HEVC_QPEL_HV 4, 10 HEVC_PUT_HEVC_QPEL_HV 6, 10 HEVC_PUT_HEVC_QPEL_HV 8, 10 HEVC_PUT_HEVC_QPEL_HV 2, 12 HEVC_PUT_HEVC_QPEL_HV 4, 12 HEVC_PUT_HEVC_QPEL_HV 6, 12 HEVC_PUT_HEVC_QPEL_HV 8, 12 %if HAVE_AVX2_EXTERNAL INIT_YMM avx2 ; adds ff_ and _avx2 to function name & enables 256b registers : m0 for 256b, xm0 for 128b. cpuflag(avx2) = 1 / notcpuflag(avx) = 0 HEVC_PUT_HEVC_PEL_PIXELS 32, 8 HEVC_PUT_HEVC_PEL_PIXELS 16, 10 HEVC_PUT_HEVC_EPEL 32, 8 HEVC_PUT_HEVC_EPEL 16, 10 HEVC_PUT_HEVC_EPEL_HV 16, 10 HEVC_PUT_HEVC_EPEL_HV 32, 8 HEVC_PUT_HEVC_QPEL 32, 8 HEVC_PUT_HEVC_QPEL 16, 10 HEVC_PUT_HEVC_QPEL_HV 16, 10 %endif ;AVX2 %endif ; ARCH_X86_64 %macro QPEL_FILTER_H 5 %define %%table hevc_qpel_filters_avx512icl_h_%1 %assign %%offset 4 dec %2q shl %2q, 3 %ifdef PIC lea %5q, [%%table] %define FILTER %5q %else %define FILTER %%table %endif vpbroadcastd m%3, [FILTER + %2q + 0*%%offset] vpbroadcastd m%4, [FILTER + %2q + 1*%%offset] %endmacro %macro QPEL_FILTER_V 5 vpbroadcastd m%3, [%5 + %2q + 4*%4] %endmacro %macro QPEL_LOAD_SHUF 2 movu m%1, [pb_qpel_shuffle_index + 0] movu m%2, [pb_qpel_shuffle_index + 64] %endmacro ; required: m0-m5 ; %1: dst register index ; %2: name for src ; %3: optional offset %macro QPEL_H_LOAD_COMPUTE 2-3 %assign %%offset 0 %if %0 == 3 %assign %%offset %3 %endif pxor m%1, m%1 %if mmsize == 64 movu ym4, [%2q + %%offset - 3] %else movu xm4, [%2q + %%offset - 3] %endif vpermb m5, m2, m4 vpermb m4, m3, m4 vpdpbusd m%1, m5, m0 vpdpbusd m%1, m4, m1 %endmacro %macro HEVC_PUT_HEVC_QPEL_AVX512ICL 2 cglobal hevc_put_hevc_qpel_h%1_%2, 5, 6, 8, dst, src, srcstride, height, mx, tmp QPEL_FILTER_H %1, mx, 0, 1, tmp QPEL_LOAD_SHUF 2, 3 .loop: QPEL_H_LOAD_COMPUTE 6, src %if %1 == 4 vpmovdw xm6, m6 movq [dstq], xm6 %else vpmovdw [dstq], m6 %endif %if %1 > 16 QPEL_H_LOAD_COMPUTE 7, src, 16 vpmovdw [dstq + 32], m7 %endif %if %1 > 32 QPEL_H_LOAD_COMPUTE 6, src, 32 QPEL_H_LOAD_COMPUTE 7, src, 48 vpmovdw [dstq + 64], m6 vpmovdw [dstq + 96], m7 %endif LOOP_END dst, src, srcstride RET %endmacro %macro HEVC_PUT_HEVC_QPEL_HV_AVX512ICL 2 cglobal hevc_put_hevc_qpel_hv%1_%2, 6, 7, 27, dst, src, srcstride, height, mx, my, tmp %assign %%shift 6 %assign %%extra 7 QPEL_FILTER_H %1, mx, 0, 1, tmp QPEL_LOAD_SHUF 2, 3 lea tmpq, [srcstrideq*3] sub srcq, tmpq sub myq, 1 shl myq, 5 %define %%table hevc_qpel_filters_avx512icl_v_%1 %ifdef PIC lea tmpq, [%%table] %define FILTER tmpq %else %define FILTER %%table %endif %assign %%i 6 %assign %%j 0 %rep %1 QPEL_FILTER_V %1, my, %%i, %%j, FILTER %assign %%i %%i+1 %assign %%j %%j+1 %endrep %rep %%extra QPEL_H_LOAD_COMPUTE %%i, src add srcq, srcstrideq %assign %%i %%i+1 %endrep .loop: QPEL_H_LOAD_COMPUTE %%i, src vpmulld m22, m14, m6 vpmulld m23, m15, m7 vpmulld m24, m16, m8 vpmulld m25, m17, m9 vpaddd m26, m22, m23 vpaddd m24, m25 vpaddd m26, m24 vpmulld m22, m18, m10 vpmulld m23, m19, m11 vpmulld m24, m20, m12 vpmulld m25, m21, m13 vpaddd m22, m22, m23 vpaddd m24, m25 vpaddd m26, m24 vpaddd m22, m26 mova m14, m15 mova m15, m16 mova m16, m17 mova m17, m18 mova m18, m19 mova m19, m20 mova m20, m21 vpsrad m22, %%shift vpmovdw [dstq], m22 LOOP_END dst, src, srcstride RET %endmacro %if ARCH_X86_64 %if HAVE_AVX512ICL_EXTERNAL INIT_XMM avx512icl HEVC_PUT_HEVC_QPEL_AVX512ICL 4, 8 INIT_YMM avx512icl HEVC_PUT_HEVC_QPEL_AVX512ICL 8, 8 HEVC_PUT_HEVC_QPEL_HV_AVX512ICL 8, 8 INIT_ZMM avx512icl HEVC_PUT_HEVC_QPEL_AVX512ICL 16, 8 HEVC_PUT_HEVC_QPEL_AVX512ICL 32, 8 HEVC_PUT_HEVC_QPEL_AVX512ICL 64, 8 %endif %endif