;****************************************************************************** ;* Copyright (c) 2012 Michael Niedermayer ;* ;* 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/x86inc.asm" %include "libavutil/x86/x86util.asm" SECTION_RODATA align 32 dw1: times 8 dd 1 w1 : times 16 dw 1 SECTION .text %macro MIX2_FLT 1 cglobal mix_2_1_%1_float, 7, 7, 6, out, in1, in2, coeffp, index1, index2, len %ifidn %1, a test in1q, mmsize-1 jne mix_2_1_float_u_int %+ SUFFIX test in2q, mmsize-1 jne mix_2_1_float_u_int %+ SUFFIX test outq, mmsize-1 jne mix_2_1_float_u_int %+ SUFFIX %else mix_2_1_float_u_int %+ SUFFIX %endif VBROADCASTSS m4, [coeffpq + 4*index1q] VBROADCASTSS m5, [coeffpq + 4*index2q] shl lenq , 2 add in1q , lenq add in2q , lenq add outq , lenq neg lenq .next: %ifidn %1, a mulps m0, m4, [in1q + lenq ] mulps m1, m5, [in2q + lenq ] mulps m2, m4, [in1q + lenq + mmsize] mulps m3, m5, [in2q + lenq + mmsize] %else movu m0, [in1q + lenq ] movu m1, [in2q + lenq ] movu m2, [in1q + lenq + mmsize] movu m3, [in2q + lenq + mmsize] mulps m0, m0, m4 mulps m1, m1, m5 mulps m2, m2, m4 mulps m3, m3, m5 %endif addps m0, m0, m1 addps m2, m2, m3 mov%1 [outq + lenq ], m0 mov%1 [outq + lenq + mmsize], m2 add lenq, mmsize*2 jl .next REP_RET %endmacro %macro MIX1_FLT 1 cglobal mix_1_1_%1_float, 5, 5, 3, out, in, coeffp, index, len %ifidn %1, a test inq, mmsize-1 jne mix_1_1_float_u_int %+ SUFFIX test outq, mmsize-1 jne mix_1_1_float_u_int %+ SUFFIX %else mix_1_1_float_u_int %+ SUFFIX %endif VBROADCASTSS m2, [coeffpq + 4*indexq] shl lenq , 2 add inq , lenq add outq , lenq neg lenq .next: %ifidn %1, a mulps m0, m2, [inq + lenq ] mulps m1, m2, [inq + lenq + mmsize] %else movu m0, [inq + lenq ] movu m1, [inq + lenq + mmsize] mulps m0, m0, m2 mulps m1, m1, m2 %endif mov%1 [outq + lenq ], m0 mov%1 [outq + lenq + mmsize], m1 add lenq, mmsize*2 jl .next REP_RET %endmacro %macro MIX1_INT16 1 cglobal mix_1_1_%1_int16, 5, 5, 6, out, in, coeffp, index, len %ifidn %1, a test inq, mmsize-1 jne mix_1_1_int16_u_int %+ SUFFIX test outq, mmsize-1 jne mix_1_1_int16_u_int %+ SUFFIX %else mix_1_1_int16_u_int %+ SUFFIX %endif movd m4, [coeffpq + 4*indexq] SPLATW m5, m4 psllq m4, 32 psrlq m4, 48 mova m0, [w1] psllw m0, m4 psrlw m0, 1 punpcklwd m5, m0 add lenq , lenq add inq , lenq add outq , lenq neg lenq .next: mov%1 m0, [inq + lenq ] mov%1 m2, [inq + lenq + mmsize] mova m1, m0 mova m3, m2 punpcklwd m0, [w1] punpckhwd m1, [w1] punpcklwd m2, [w1] punpckhwd m3, [w1] pmaddwd m0, m5 pmaddwd m1, m5 pmaddwd m2, m5 pmaddwd m3, m5 psrad m0, m4 psrad m1, m4 psrad m2, m4 psrad m3, m4 packssdw m0, m1 packssdw m2, m3 mov%1 [outq + lenq ], m0 mov%1 [outq + lenq + mmsize], m2 add lenq, mmsize*2 jl .next %if mmsize == 8 emms RET %else REP_RET %endif %endmacro %macro MIX2_INT16 1 cglobal mix_2_1_%1_int16, 7, 7, 8, out, in1, in2, coeffp, index1, index2, len %ifidn %1, a test in1q, mmsize-1 jne mix_2_1_int16_u_int %+ SUFFIX test in2q, mmsize-1 jne mix_2_1_int16_u_int %+ SUFFIX test outq, mmsize-1 jne mix_2_1_int16_u_int %+ SUFFIX %else mix_2_1_int16_u_int %+ SUFFIX %endif movd m4, [coeffpq + 4*index1q] movd m6, [coeffpq + 4*index2q] SPLATW m5, m4 SPLATW m6, m6 psllq m4, 32 psrlq m4, 48 mova m7, [dw1] pslld m7, m4 psrld m7, 1 punpcklwd m5, m6 add lenq , lenq add in1q , lenq add in2q , lenq add outq , lenq neg lenq .next: mov%1 m0, [in1q + lenq ] mov%1 m2, [in2q + lenq ] mova m1, m0 punpcklwd m0, m2 punpckhwd m1, m2 mov%1 m2, [in1q + lenq + mmsize] mov%1 m6, [in2q + lenq + mmsize] mova m3, m2 punpcklwd m2, m6 punpckhwd m3, m6 pmaddwd m0, m5 pmaddwd m1, m5 pmaddwd m2, m5 pmaddwd m3, m5 paddd m0, m7 paddd m1, m7 paddd m2, m7 paddd m3, m7 psrad m0, m4 psrad m1, m4 psrad m2, m4 psrad m3, m4 packssdw m0, m1 packssdw m2, m3 mov%1 [outq + lenq ], m0 mov%1 [outq + lenq + mmsize], m2 add lenq, mmsize*2 jl .next %if mmsize == 8 emms RET %else REP_RET %endif %endmacro INIT_MMX mmx MIX1_INT16 u MIX1_INT16 a MIX2_INT16 u MIX2_INT16 a INIT_XMM sse MIX2_FLT u MIX2_FLT a MIX1_FLT u MIX1_FLT a MIX1_INT16 u MIX1_INT16 a MIX2_INT16 u MIX2_INT16 a %if HAVE_AVX INIT_YMM avx MIX2_FLT u MIX2_FLT a MIX1_FLT u MIX1_FLT a %endif