;****************************************************************************** ;* SIMD optimized MPEG-4 Parametric Stereo decoding functions ;* ;* Copyright (C) 2015 James Almer ;* ;* 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 ps_p1m1p1m1: dd 0, 0x80000000, 0, 0x80000000 SECTION .text ;************************************************************************* ;void ff_ps_add_squares_(float *dst, const float (*src)[2], int n); ;************************************************************************* %macro PS_ADD_SQUARES 1 cglobal ps_add_squares, 3, 3, %1, dst, src, n shl nd, 3 add srcq, nq neg nq align 16 .loop: movaps m0, [srcq+nq] movaps m1, [srcq+nq+mmsize] mulps m0, m0 mulps m1, m1 HADDPS m0, m1, m2 addps m0, [dstq] movaps [dstq], m0 add dstq, mmsize add nq, mmsize*2 jl .loop REP_RET %endmacro INIT_XMM sse PS_ADD_SQUARES 2 INIT_XMM sse3 PS_ADD_SQUARES 3 ;******************************************************************* ;void ff_ps_mul_pair_single_sse(float (*dst)[2], float (*src0)[2], ; float *src1, int n); ;******************************************************************* INIT_XMM sse cglobal ps_mul_pair_single, 4, 4, 4, dst, src1, src2, n shl nd, 3 add src1q, nq add dstq, nq neg nq align 16 .loop: movu m0, [src1q+nq] movu m1, [src1q+nq+mmsize] mova m2, [src2q] mova m3, m2 unpcklps m2, m2 unpckhps m3, m3 mulps m0, m2 mulps m1, m3 mova [dstq+nq], m0 mova [dstq+nq+mmsize], m1 add src2q, mmsize add nq, mmsize*2 jl .loop REP_RET ;*********************************************************************** ;void ff_ps_stereo_interpolate_sse3(float (*l)[2], float (*r)[2], ; float h[2][4], float h_step[2][4], ; int len); ;*********************************************************************** INIT_XMM sse3 cglobal ps_stereo_interpolate, 5, 5, 6, l, r, h, h_step, n movaps m0, [hq] movaps m1, [h_stepq] unpcklps m4, m0, m0 unpckhps m0, m0 unpcklps m5, m1, m1 unpckhps m1, m1 shl nd, 3 add lq, nq add rq, nq neg nq align 16 .loop: addps m4, m5 addps m0, m1 movddup m2, [lq+nq] movddup m3, [rq+nq] mulps m2, m4 mulps m3, m0 addps m2, m3 movsd [lq+nq], m2 movhps [rq+nq], m2 add nq, 8 jl .loop REP_RET ;*************************************************************************** ;void ps_stereo_interpolate_ipdopd_sse3(float (*l)[2], float (*r)[2], ; float h[2][4], float h_step[2][4], ; int len); ;*************************************************************************** INIT_XMM sse3 cglobal ps_stereo_interpolate_ipdopd, 5, 5, 10, l, r, h, h_step, n movaps m0, [hq] movaps m1, [hq+mmsize] %if ARCH_X86_64 movaps m8, [h_stepq] movaps m9, [h_stepq+mmsize] %define H_STEP0 m8 %define H_STEP1 m9 %else %define H_STEP0 [h_stepq] %define H_STEP1 [h_stepq+mmsize] %endif shl nd, 3 add lq, nq add rq, nq neg nq align 16 .loop: addps m0, H_STEP0 addps m1, H_STEP1 movddup m2, [lq+nq] movddup m3, [rq+nq] shufps m4, m2, m2, q2301 shufps m5, m3, m3, q2301 unpcklps m6, m0, m0 unpckhps m7, m0, m0 mulps m2, m6 mulps m3, m7 unpcklps m6, m1, m1 unpckhps m7, m1, m1 mulps m4, m6 mulps m5, m7 addps m2, m3 addsubps m2, m4 addsubps m2, m5 movsd [lq+nq], m2 movhps [rq+nq], m2 add nq, 8 jl .loop REP_RET ;********************************************************** ;void ps_hybrid_analysis_ileave_sse(float out[2][38][64], ; float (*in)[32][2], ; int i, int len) ;********************************************************** INIT_XMM sse cglobal ps_hybrid_analysis_ileave, 3, 7, 5, out, in, i, len, in0, in1, tmp movsxdifnidn iq, id mov lend, 32 << 3 lea inq, [inq+iq*4] mov tmpd, id shl tmpd, 8 add outq, tmpq mov tmpd, 64 sub tmpd, id mov id, tmpd test id, 1 jne .loop4 test id, 2 jne .loop8 align 16 .loop16: mov in0q, inq mov in1q, 38*64*4 add in1q, in0q mov tmpd, lend .inner_loop16: movaps m0, [in0q] movaps m1, [in1q] movaps m2, [in0q+lenq] movaps m3, [in1q+lenq] TRANSPOSE4x4PS 0, 1, 2, 3, 4 movaps [outq], m0 movaps [outq+lenq], m1 movaps [outq+lenq*2], m2 movaps [outq+3*32*2*4], m3 lea in0q, [in0q+lenq*2] lea in1q, [in1q+lenq*2] add outq, mmsize sub tmpd, mmsize jg .inner_loop16 add inq, 16 add outq, 3*32*2*4 sub id, 4 jg .loop16 RET align 16 .loop8: mov in0q, inq mov in1q, 38*64*4 add in1q, in0q mov tmpd, lend .inner_loop8: movlps m0, [in0q] movlps m1, [in1q] movhps m0, [in0q+lenq] movhps m1, [in1q+lenq] SBUTTERFLYPS 0, 1, 2 SBUTTERFLYPD 0, 1, 2 movaps [outq], m0 movaps [outq+lenq], m1 lea in0q, [in0q+lenq*2] lea in1q, [in1q+lenq*2] add outq, mmsize sub tmpd, mmsize jg .inner_loop8 add inq, 8 add outq, lenq sub id, 2 jg .loop16 RET align 16 .loop4: mov in0q, inq mov in1q, 38*64*4 add in1q, in0q mov tmpd, lend .inner_loop4: movss m0, [in0q] movss m1, [in1q] movss m2, [in0q+lenq] movss m3, [in1q+lenq] movlhps m0, m1 movlhps m2, m3 shufps m0, m2, q2020 movaps [outq], m0 lea in0q, [in0q+lenq*2] lea in1q, [in1q+lenq*2] add outq, mmsize sub tmpd, mmsize jg .inner_loop4 add inq, 4 sub id, 1 test id, 2 jne .loop8 cmp id, 4 jge .loop16 RET ;*********************************************************** ;void ps_hybrid_synthesis_deint_sse4(float out[2][38][64], ; float (*in)[32][2], ; int i, int len) ;*********************************************************** %macro HYBRID_SYNTHESIS_DEINT 0 cglobal ps_hybrid_synthesis_deint, 3, 7, 5, out, in, i, len, out0, out1, tmp %if cpuflag(sse4) %define MOVH movsd %else %define MOVH movlps %endif movsxdifnidn iq, id mov lend, 32 << 3 lea outq, [outq+iq*4] mov tmpd, id shl tmpd, 8 add inq, tmpq mov tmpd, 64 sub tmpd, id mov id, tmpd test id, 1 jne .loop4 test id, 2 jne .loop8 align 16 .loop16: mov out0q, outq mov out1q, 38*64*4 add out1q, out0q mov tmpd, lend .inner_loop16: movaps m0, [inq] movaps m1, [inq+lenq] movaps m2, [inq+lenq*2] movaps m3, [inq+3*32*2*4] TRANSPOSE4x4PS 0, 1, 2, 3, 4 movaps [out0q], m0 movaps [out1q], m1 movaps [out0q+lenq], m2 movaps [out1q+lenq], m3 lea out0q, [out0q+lenq*2] lea out1q, [out1q+lenq*2] add inq, mmsize sub tmpd, mmsize jg .inner_loop16 add outq, 16 add inq, 3*32*2*4 sub id, 4 jg .loop16 RET align 16 .loop8: mov out0q, outq mov out1q, 38*64*4 add out1q, out0q mov tmpd, lend .inner_loop8: movaps m0, [inq] movaps m1, [inq+lenq] SBUTTERFLYPS 0, 1, 2 SBUTTERFLYPD 0, 1, 2 MOVH [out0q], m0 MOVH [out1q], m1 movhps [out0q+lenq], m0 movhps [out1q+lenq], m1 lea out0q, [out0q+lenq*2] lea out1q, [out1q+lenq*2] add inq, mmsize sub tmpd, mmsize jg .inner_loop8 add outq, 8 add inq, lenq sub id, 2 jg .loop16 RET align 16 .loop4: mov out0q, outq mov out1q, 38*64*4 add out1q, out0q mov tmpd, lend .inner_loop4: movaps m0, [inq] movss [out0q], m0 %if cpuflag(sse4) extractps [out1q], m0, 1 extractps [out0q+lenq], m0, 2 extractps [out1q+lenq], m0, 3 %else movhlps m1, m0 movss [out0q+lenq], m1 shufps m0, m0, 0xb1 movss [out1q], m0 movhlps m1, m0 movss [out1q+lenq], m1 %endif lea out0q, [out0q+lenq*2] lea out1q, [out1q+lenq*2] add inq, mmsize sub tmpd, mmsize jg .inner_loop4 add outq, 4 sub id, 1 test id, 2 jne .loop8 cmp id, 4 jge .loop16 RET %endmacro INIT_XMM sse HYBRID_SYNTHESIS_DEINT INIT_XMM sse4 HYBRID_SYNTHESIS_DEINT ;******************************************************************* ;void ff_ps_hybrid_analysis_(float (*out)[2], float (*in)[2], ; const float (*filter)[8][2], ; ptrdiff_t stride, int n); ;******************************************************************* %macro PS_HYBRID_ANALYSIS_LOOP 3 movu %1, [inq+mmsize*%3] movu m1, [inq+mmsize*(5-%3)+8] %if cpuflag(sse3) pshufd %2, %1, q2301 pshufd m4, m1, q0123 pshufd m1, m1, q1032 pshufd m2, [filterq+nq+mmsize*%3], q2301 addsubps %2, m4 addsubps %1, m1 %else mova m2, [filterq+nq+mmsize*%3] mova %2, %1 mova m4, m1 shufps %2, %2, q2301 shufps m4, m4, q0123 shufps m1, m1, q1032 shufps m2, m2, q2301 xorps m4, m7 xorps m1, m7 subps %2, m4 subps %1, m1 %endif mulps %2, m2 mulps %1, m2 %if %3 addps m3, %2 addps m0, %1 %endif %endmacro %macro PS_HYBRID_ANALYSIS 0 cglobal ps_hybrid_analysis, 5, 5, 8, out, in, filter, stride, n %if cpuflag(sse3) %define MOVH movsd %else %define MOVH movlps %endif shl strideq, 3 shl nd, 6 add filterq, nq neg nq mova m7, [ps_p1m1p1m1] align 16 .loop: PS_HYBRID_ANALYSIS_LOOP m0, m3, 0 PS_HYBRID_ANALYSIS_LOOP m5, m6, 1 PS_HYBRID_ANALYSIS_LOOP m5, m6, 2 %if cpuflag(sse3) pshufd m3, m3, q2301 xorps m0, m7 hsubps m3, m0 pshufd m1, m3, q0020 pshufd m3, m3, q0031 addps m1, m3 movsd m2, [inq+6*8] %else mova m1, m3 mova m2, m0 shufps m1, m1, q2301 shufps m2, m2, q2301 subps m1, m3 addps m2, m0 unpcklps m3, m1, m2 unpckhps m1, m2 addps m1, m3 movu m2, [inq+6*8] ; faster than movlps and no risk of overread %endif movss m3, [filterq+nq+8*6] SPLATD m3 mulps m2, m3 addps m1, m2 MOVH [outq], m1 add outq, strideq add nq, 64 jl .loop REP_RET %endmacro INIT_XMM sse PS_HYBRID_ANALYSIS INIT_XMM sse3 PS_HYBRID_ANALYSIS