;****************************************************************************** ;* MMX/SSE2-optimized functions for the RV40 decoder ;* Copyright (c) 2010 Ronald S. Bultje ;* Copyright (c) 2010 Fiona Glaser ;* Copyright (C) 2012 Christophe Gisquet ;* ;* 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 pw_1024: times 8 dw 1 << (16 - 6) ; pw_1024 sixtap_filter_hb_m: times 8 db 1, -5 times 8 db 52, 20 ; multiplied by 2 to have the same shift times 8 db 2, -10 times 8 db 40, 40 ; back to normal times 8 db 1, -5 times 8 db 20, 52 sixtap_filter_v_m: times 8 dw 1 times 8 dw -5 times 8 dw 52 times 8 dw 20 ; multiplied by 2 to have the same shift times 8 dw 2 times 8 dw -10 times 8 dw 40 times 8 dw 40 ; back to normal times 8 dw 1 times 8 dw -5 times 8 dw 20 times 8 dw 52 %ifdef PIC %define sixtap_filter_hw picregq %define sixtap_filter_hb picregq %define sixtap_filter_v picregq %define npicregs 1 %else %define sixtap_filter_hw sixtap_filter_hw_m %define sixtap_filter_hb sixtap_filter_hb_m %define sixtap_filter_v sixtap_filter_v_m %define npicregs 0 %endif filter_h6_shuf1: db 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8 filter_h6_shuf2: db 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10 filter_h6_shuf3: db 5, 4, 6, 5, 7, 6, 8, 7, 9, 8, 10, 9, 11, 10, 12, 11 cextern pw_32 cextern pw_16 cextern pw_512 SECTION .text ;----------------------------------------------------------------------------- ; subpel MC functions: ; ; void ff_[put|rv40]_rv40_qpel_[h|v]_(uint8_t *dst, int deststride, ; uint8_t *src, int srcstride, ; int len, int m); ;---------------------------------------------------------------------- %macro LOAD 2 %if WIN64 movsxd %1q, %1d %endif %ifdef PIC add %1q, picregq %else add %1q, %2 %endif %endmacro %macro STORE 3 %ifidn %3, avg movh %2, [dstq] %endif packuswb %1, %1 %ifidn %3, avg PAVGB %1, %2 %endif movh [dstq], %1 %endmacro %macro FILTER_V 1 cglobal %1_rv40_qpel_v, 6,6+npicregs,12, dst, dststride, src, srcstride, height, my, picreg %ifdef PIC lea picregq, [sixtap_filter_v_m] %endif pxor m7, m7 LOAD my, sixtap_filter_v ; read 5 lines sub srcq, srcstrideq sub srcq, srcstrideq movh m0, [srcq] movh m1, [srcq+srcstrideq] movh m2, [srcq+srcstrideq*2] lea srcq, [srcq+srcstrideq*2] add srcq, srcstrideq movh m3, [srcq] movh m4, [srcq+srcstrideq] punpcklbw m0, m7 punpcklbw m1, m7 punpcklbw m2, m7 punpcklbw m3, m7 punpcklbw m4, m7 %ifdef m8 mova m8, [myq+ 0] mova m9, [myq+16] mova m10, [myq+32] mova m11, [myq+48] %define COEFF05 m8 %define COEFF14 m9 %define COEFF2 m10 %define COEFF3 m11 %else %define COEFF05 [myq+ 0] %define COEFF14 [myq+16] %define COEFF2 [myq+32] %define COEFF3 [myq+48] %endif .nextrow: mova m6, m1 movh m5, [srcq+2*srcstrideq] ; read new row paddw m6, m4 punpcklbw m5, m7 pmullw m6, COEFF14 paddw m0, m5 pmullw m0, COEFF05 paddw m6, m0 mova m0, m1 paddw m6, [pw_32] mova m1, m2 pmullw m2, COEFF2 paddw m6, m2 mova m2, m3 pmullw m3, COEFF3 paddw m6, m3 ; round/clip/store mova m3, m4 psraw m6, 6 mova m4, m5 STORE m6, m5, %1 ; go to next line add dstq, dststrideq add srcq, srcstrideq dec heightd ; next row jg .nextrow REP_RET %endmacro %macro FILTER_H 1 cglobal %1_rv40_qpel_h, 6, 6+npicregs, 12, dst, dststride, src, srcstride, height, mx, picreg %ifdef PIC lea picregq, [sixtap_filter_v_m] %endif pxor m7, m7 LOAD mx, sixtap_filter_v mova m6, [pw_32] %ifdef m8 mova m8, [mxq+ 0] mova m9, [mxq+16] mova m10, [mxq+32] mova m11, [mxq+48] %define COEFF05 m8 %define COEFF14 m9 %define COEFF2 m10 %define COEFF3 m11 %else %define COEFF05 [mxq+ 0] %define COEFF14 [mxq+16] %define COEFF2 [mxq+32] %define COEFF3 [mxq+48] %endif .nextrow: movq m0, [srcq-2] movq m5, [srcq+3] movq m1, [srcq-1] movq m4, [srcq+2] punpcklbw m0, m7 punpcklbw m5, m7 punpcklbw m1, m7 punpcklbw m4, m7 movq m2, [srcq-0] movq m3, [srcq+1] paddw m0, m5 paddw m1, m4 punpcklbw m2, m7 punpcklbw m3, m7 pmullw m0, COEFF05 pmullw m1, COEFF14 pmullw m2, COEFF2 pmullw m3, COEFF3 paddw m0, m6 paddw m1, m2 paddw m0, m3 paddw m0, m1 psraw m0, 6 STORE m0, m1, %1 ; go to next line add dstq, dststrideq add srcq, srcstrideq dec heightd ; next row jg .nextrow REP_RET %endmacro %if ARCH_X86_32 INIT_MMX mmx FILTER_V put FILTER_H put INIT_MMX mmxext FILTER_V avg FILTER_H avg INIT_MMX 3dnow FILTER_V avg FILTER_H avg %endif INIT_XMM sse2 FILTER_H put FILTER_H avg FILTER_V put FILTER_V avg %macro FILTER_SSSE3 1 cglobal %1_rv40_qpel_v, 6,6+npicregs,8, dst, dststride, src, srcstride, height, my, picreg %ifdef PIC lea picregq, [sixtap_filter_hb_m] %endif ; read 5 lines sub srcq, srcstrideq LOAD my, sixtap_filter_hb sub srcq, srcstrideq movh m0, [srcq] movh m1, [srcq+srcstrideq] movh m2, [srcq+srcstrideq*2] lea srcq, [srcq+srcstrideq*2] add srcq, srcstrideq mova m5, [myq] movh m3, [srcq] movh m4, [srcq+srcstrideq] lea srcq, [srcq+2*srcstrideq] .nextrow: mova m6, m2 punpcklbw m0, m1 punpcklbw m6, m3 pmaddubsw m0, m5 pmaddubsw m6, [myq+16] movh m7, [srcq] ; read new row paddw m6, m0 mova m0, m1 mova m1, m2 mova m2, m3 mova m3, m4 mova m4, m7 punpcklbw m7, m3 pmaddubsw m7, m5 paddw m6, m7 pmulhrsw m6, [pw_512] STORE m6, m7, %1 ; go to next line add dstq, dststrideq add srcq, srcstrideq dec heightd ; next row jg .nextrow REP_RET cglobal %1_rv40_qpel_h, 6,6+npicregs,8, dst, dststride, src, srcstride, height, mx, picreg %ifdef PIC lea picregq, [sixtap_filter_hb_m] %endif mova m3, [filter_h6_shuf2] mova m4, [filter_h6_shuf3] LOAD mx, sixtap_filter_hb mova m5, [mxq] ; set up 6tap filter in bytes mova m6, [mxq+16] mova m7, [filter_h6_shuf1] .nextrow: movu m0, [srcq-2] mova m1, m0 mova m2, m0 pshufb m0, m7 pshufb m1, m3 pshufb m2, m4 pmaddubsw m0, m5 pmaddubsw m1, m6 pmaddubsw m2, m5 paddw m0, m1 paddw m0, m2 pmulhrsw m0, [pw_512] STORE m0, m1, %1 ; go to next line add dstq, dststrideq add srcq, srcstrideq dec heightd ; next row jg .nextrow REP_RET %endmacro INIT_XMM ssse3 FILTER_SSSE3 put FILTER_SSSE3 avg ; %1=5-bit weights?, %2=dst %3=src1 %4=src3 %5=stride if SSE2 %macro RV40_WCORE 4-5 movh m4, [%3 + r6 + 0] movh m5, [%4 + r6 + 0] %if %0 == 4 %define OFFSET r6 + mmsize / 2 %else ; 8x8 block and SSE2, stride was provided %define OFFSET r6 add r6, r5 %endif movh m6, [%3 + OFFSET] movh m7, [%4 + OFFSET] %if %1 == 0 ; 14-bit weights punpcklbw m4, m0 punpcklbw m5, m0 punpcklbw m6, m0 punpcklbw m7, m0 psllw m4, 7 psllw m5, 7 psllw m6, 7 psllw m7, 7 pmulhw m4, m3 pmulhw m5, m2 pmulhw m6, m3 pmulhw m7, m2 paddw m4, m5 paddw m6, m7 %else ; 5-bit weights %if cpuflag(ssse3) punpcklbw m4, m5 punpcklbw m6, m7 pmaddubsw m4, m3 pmaddubsw m6, m3 %else punpcklbw m4, m0 punpcklbw m5, m0 punpcklbw m6, m0 punpcklbw m7, m0 pmullw m4, m3 pmullw m5, m2 pmullw m6, m3 pmullw m7, m2 paddw m4, m5 paddw m6, m7 %endif %endif ; bias and shift down %if cpuflag(ssse3) pmulhrsw m4, m1 pmulhrsw m6, m1 %else paddw m4, m1 paddw m6, m1 psrlw m4, 5 psrlw m6, 5 %endif packuswb m4, m6 %if %0 == 5 ; Only called for 8x8 blocks and SSE2 sub r6, r5 movh [%2 + r6], m4 add r6, r5 movhps [%2 + r6], m4 %else mova [%2 + r6], m4 %endif %endmacro %macro MAIN_LOOP 2 %if mmsize == 8 RV40_WCORE %2, r0, r1, r2 %if %1 == 16 RV40_WCORE %2, r0 + 8, r1 + 8, r2 + 8 %endif ; Prepare for next loop add r6, r5 %else %ifidn %1, 8 RV40_WCORE %2, r0, r1, r2, r5 ; Prepare 2 next lines add r6, r5 %else RV40_WCORE %2, r0, r1, r2 ; Prepare single next line add r6, r5 %endif %endif %endmacro ; void ff_rv40_weight_func_%1(uint8_t *dst, uint8_t *src1, uint8_t *src2, int w1, int w2, int stride) ; %1=size %2=num of xmm regs ; The weights are FP0.14 notation of fractions depending on pts. ; For timebases without rounding error (i.e. PAL), the fractions ; can be simplified, and several operations can be avoided. ; Therefore, we check here whether they are multiples of 2^9 for ; those simplifications to occur. %macro RV40_WEIGHT 3 cglobal rv40_weight_func_%1_%2, 6, 7, 8 %if cpuflag(ssse3) mova m1, [pw_1024] %else mova m1, [pw_16] %endif pxor m0, m0 ; Set loop counter and increments mov r6, r5 shl r6, %3 add r0, r6 add r1, r6 add r2, r6 neg r6 movd m2, r3d movd m3, r4d %ifidn %1,rnd %define RND 0 SPLATW m2, m2 %else %define RND 1 %if cpuflag(ssse3) punpcklbw m3, m2 %else SPLATW m2, m2 %endif %endif SPLATW m3, m3 .loop: MAIN_LOOP %2, RND jnz .loop REP_RET %endmacro INIT_MMX mmxext RV40_WEIGHT rnd, 8, 3 RV40_WEIGHT rnd, 16, 4 RV40_WEIGHT nornd, 8, 3 RV40_WEIGHT nornd, 16, 4 INIT_XMM sse2 RV40_WEIGHT rnd, 8, 3 RV40_WEIGHT rnd, 16, 4 RV40_WEIGHT nornd, 8, 3 RV40_WEIGHT nornd, 16, 4 INIT_XMM ssse3 RV40_WEIGHT rnd, 8, 3 RV40_WEIGHT rnd, 16, 4 RV40_WEIGHT nornd, 8, 3 RV40_WEIGHT nornd, 16, 4