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Quelle vp9itxfm_16bpp.asmSprache: Masm |
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;****************************************************************************** ;* VP9 inverse transform x86 SIMD optimizations ;* ;* Copyright (C) 2015 Ronald S. Bultje <rsbultje gmail com> ;* ;* 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" %include "vp9itxfm_template.asm" SECTION_RODATA cextern pw_8 cextern pw_1023 cextern pw_2048 cextern pw_4095 cextern pw_m1 cextern pd_1 cextern pd_16 cextern pd_32 cextern pd_8192 pd_8: times 4 dd 8 pd_3fff: times 4 dd 0x3fff cextern pw_11585x2 cextern pw_5283_13377 cextern pw_9929_13377 cextern pw_15212_m13377 cextern pw_15212_9929 cextern pw_m5283_m15212 cextern pw_13377x2 cextern pw_m13377_13377 cextern pw_13377_0 pw_9929_m5283: times 4 dw 9929, -5283 %macro COEF_PAIR 2-3 cextern pw_m%1_%2 cextern pw_%2_%1 %if %0 == 3 cextern pw_m%1_m%2 %if %1 != %2 cextern pw_m%2_%1 cextern pw_%1_%2 %endif %endif %endmacro COEF_PAIR 2404, 16207 COEF_PAIR 3196, 16069, 1 COEF_PAIR 4756, 15679 COEF_PAIR 5520, 15426 COEF_PAIR 6270, 15137, 1 COEF_PAIR 8423, 14053 COEF_PAIR 10394, 12665 COEF_PAIR 11003, 12140 COEF_PAIR 11585, 11585, 1 COEF_PAIR 13160, 9760 COEF_PAIR 13623, 9102, 1 COEF_PAIR 14449, 7723 COEF_PAIR 14811, 7005 COEF_PAIR 15893, 3981 COEF_PAIR 16305, 1606 COEF_PAIR 16364, 804 default_8x8: times 12 db 1 times 52 db 2 row_8x8: times 18 db 1 times 46 db 2 col_8x8: times 6 db 1 times 58 db 2 default_16x16: times 10 db 1 times 28 db 2 times 51 db 3 times 167 db 4 row_16x16: times 21 db 1 times 45 db 2 times 60 db 3 times 130 db 4 col_16x16: times 5 db 1 times 12 db 2 times 25 db 3 times 214 db 4 default_32x32: times 9 db 1 times 25 db 2 times 36 db 3 times 65 db 4 times 105 db 5 times 96 db 6 times 112 db 7 times 576 db 8 SECTION .text %macro VP9_STORE_2X 6-7 dstq ; reg1, reg2, tmp1, tmp2, min, max, dst mova m%3, [%7] mova m%4, [%7+strideq] paddw m%3, m%1 paddw m%4, m%2 pmaxsw m%3, m%5 pmaxsw m%4, m%5 pminsw m%3, m%6 pminsw m%4, m%6 mova [%7], m%3 mova [%7+strideq], m%4 %endmacro %macro ZERO_BLOCK 4 ; mem, stride, nnzcpl, zero_reg %assign %%y 0 %rep %3 %assign %%x 0 %rep %3*4/mmsize mova [%1+%%y+%%x], %4 %assign %%x (%%x+mmsize) %endrep %assign %%y (%%y+%2) %endrep %endmacro ; the input coefficients are scaled up by 2 bit (which we downscale immediately ; in the iwht), and is otherwise orthonormally increased by 1 bit per iwht_1d. ; therefore, a diff of 10-12+sign bit will fit in 12-14+sign bit after scaling, ; i.e. everything can be done in 15+1bpp words. Since the quant fractional bits ; add 2 bits, we need to scale before converting to word in 12bpp, since the ; input will be 16+sign bit which doesn't fit in 15+sign words, but in 10bpp ; we can scale after converting to words (which is half the instructions), ; since the input is only 14+sign bit, which fits in 15+sign words directly. %macro IWHT4_FN 2 ; bpp, max cglobal vp9_iwht_iwht_4x4_add_%1, 3, 3, 8, dst, stride, block, eob mova m7, [pw_%2] mova m0, [blockq+0*16+0] mova m1, [blockq+1*16+0] %if %1 >= 12 mova m4, [blockq+0*16+8] mova m5, [blockq+1*16+8] psrad m0, 2 psrad m1, 2 psrad m4, 2 psrad m5, 2 packssdw m0, m4 packssdw m1, m5 %else packssdw m0, [blockq+0*16+8] packssdw m1, [blockq+1*16+8] psraw m0, 2 psraw m1, 2 %endif mova m2, [blockq+2*16+0] mova m3, [blockq+3*16+0] %if %1 >= 12 mova m4, [blockq+2*16+8] mova m5, [blockq+3*16+8] psrad m2, 2 psrad m3, 2 psrad m4, 2 psrad m5, 2 packssdw m2, m4 packssdw m3, m5 %else packssdw m2, [blockq+2*16+8] packssdw m3, [blockq+3*16+8] psraw m2, 2 psraw m3, 2 %endif VP9_IWHT4_1D TRANSPOSE4x4W 0, 1, 2, 3, 4 VP9_IWHT4_1D pxor m6, m6 VP9_STORE_2X 0, 1, 4, 5, 6, 7 lea dstq, [dstq+strideq*2] VP9_STORE_2X 2, 3, 4, 5, 6, 7 ZERO_BLOCK blockq, 16, 4, m6 RET %endmacro INIT_MMX mmxext IWHT4_FN 10, 1023 INIT_MMX mmxext IWHT4_FN 12, 4095 %macro VP9_IDCT4_WRITEOUT 0 %if cpuflag(ssse3) mova m5, [pw_2048] pmulhrsw m0, m5 pmulhrsw m1, m5 pmulhrsw m2, m5 pmulhrsw m3, m5 %else mova m5, [pw_8] paddw m0, m5 paddw m1, m5 paddw m2, m5 paddw m3, m5 psraw m0, 4 psraw m1, 4 psraw m2, 4 psraw m3, 4 %endif mova m5, [pw_1023] VP9_STORE_2X 0, 1, 6, 7, 4, 5 lea dstq, [dstq+2*strideq] VP9_STORE_2X 2, 3, 6, 7, 4, 5 %endmacro %macro DC_ONLY 2 ; shift, zero mov coefd, dword [blockq] movd [blockq], %2 imul coefd, 11585 add coefd, 8192 sar coefd, 14 imul coefd, 11585 add coefd, ((1 << (%1 - 1)) << 14) + 8192 sar coefd, 14 + %1 %endmacro ; 4x4 coefficients are 5+depth+sign bits, so for 10bpp, everything still fits ; in 15+1 words without additional effort, since the coefficients are 15bpp. %macro IDCT4_10_FN 0 cglobal vp9_idct_idct_4x4_add_10, 4, 4, 8, dst, stride, block, eob cmp eobd, 1 jg .idctfull ; dc-only pxor m4, m4 %if cpuflag(ssse3) movd m0, [blockq] movd [blockq], m4 mova m5, [pw_11585x2] pmulhrsw m0, m5 pmulhrsw m0, m5 %else DEFINE_ARGS dst, stride, block, coef DC_ONLY 4, m4 movd m0, coefd %endif pshufw m0, m0, 0 mova m5, [pw_1023] %if cpuflag(ssse3) pmulhrsw m0, [pw_2048] ; (x*2048 + (1<<14))>>15 <=> (x+8)>>4 %endif VP9_STORE_2X 0, 0, 6, 7, 4, 5 lea dstq, [dstq+2*strideq] VP9_STORE_2X 0, 0, 6, 7, 4, 5 RET .idctfull: mova m0, [blockq+0*16+0] mova m1, [blockq+1*16+0] packssdw m0, [blockq+0*16+8] packssdw m1, [blockq+1*16+8] mova m2, [blockq+2*16+0] mova m3, [blockq+3*16+0] packssdw m2, [blockq+2*16+8] packssdw m3, [blockq+3*16+8] %if cpuflag(ssse3) mova m6, [pw_11585x2] %endif mova m7, [pd_8192] ; rounding VP9_IDCT4_1D TRANSPOSE4x4W 0, 1, 2, 3, 4 VP9_IDCT4_1D pxor m4, m4 ZERO_BLOCK blockq, 16, 4, m4 VP9_IDCT4_WRITEOUT RET %endmacro INIT_MMX mmxext IDCT4_10_FN INIT_MMX ssse3 IDCT4_10_FN %macro IADST4_FN 4 cglobal vp9_%1_%3_4x4_add_10, 3, 3, 0, dst, stride, block, eob %if WIN64 && notcpuflag(ssse3) INIT_XMM cpuname WIN64_SPILL_XMM 8 INIT_MMX cpuname %endif movdqa xmm5, [pd_8192] mova m0, [blockq+0*16+0] mova m1, [blockq+1*16+0] packssdw m0, [blockq+0*16+8] packssdw m1, [blockq+1*16+8] mova m2, [blockq+2*16+0] mova m3, [blockq+3*16+0] packssdw m2, [blockq+2*16+8] packssdw m3, [blockq+3*16+8] %if cpuflag(ssse3) mova m6, [pw_11585x2] %endif %ifnidn %1%3, iadstiadst movdq2q m7, xmm5 %endif VP9_%2_1D TRANSPOSE4x4W 0, 1, 2, 3, 4 VP9_%4_1D pxor m4, m4 ZERO_BLOCK blockq, 16, 4, m4 VP9_IDCT4_WRITEOUT RET %endmacro INIT_MMX sse2 IADST4_FN idct, IDCT4, iadst, IADST4 IADST4_FN iadst, IADST4, idct, IDCT4 IADST4_FN iadst, IADST4, iadst, IADST4 INIT_MMX ssse3 IADST4_FN idct, IDCT4, iadst, IADST4 IADST4_FN iadst, IADST4, idct, IDCT4 IADST4_FN iadst, IADST4, iadst, IADST4 ; inputs and outputs are dwords, coefficients are words ; ; dst1 = src1 * coef1 + src2 * coef2 + rnd >> 14 ; dst2 = src1 * coef2 - src2 * coef1 + rnd >> 14 %macro SUMSUB_MUL 6-8 [pd_8192], [pd_3fff] ; src/dst 1-2, tmp1-2, coef1-2, rnd, mask pand m%3, m%1, %8 pand m%4, m%2, %8 psrad m%1, 14 psrad m%2, 14 packssdw m%4, m%2 packssdw m%3, m%1 punpckhwd m%2, m%4, m%3 punpcklwd m%4, m%3 pmaddwd m%3, m%4, [pw_%6_%5] pmaddwd m%1, m%2, [pw_%6_%5] pmaddwd m%4, [pw_m%5_%6] pmaddwd m%2, [pw_m%5_%6] paddd m%3, %7 paddd m%4, %7 psrad m%3, 14 psrad m%4, 14 paddd m%1, m%3 paddd m%2, m%4 %endmacro %macro IDCT4_12BPP_1D 0-8 [pd_8192], [pd_3fff], 0, 1, 2, 3, 4, 5 ; rnd, mask, in/out0-3, tmp0-1 SUMSUB_MUL %3, %5, %7, %8, 11585, 11585, %1, %2 SUMSUB_MUL %4, %6, %7, %8, 15137, 6270, %1, %2 SUMSUB_BA d, %4, %3, %7 SUMSUB_BA d, %6, %5, %7 SWAP %4, %6, %3 %endmacro %macro STORE_4x4 6 ; tmp1-2, reg1-2, min, max movh m%1, [dstq+strideq*0] movh m%2, [dstq+strideq*2] movhps m%1, [dstq+strideq*1] movhps m%2, [dstq+stride3q ] paddw m%1, m%3 paddw m%2, m%4 pmaxsw m%1, %5 pmaxsw m%2, %5 pminsw m%1, %6 pminsw m%2, %6 movh [dstq+strideq*0], m%1 movhps [dstq+strideq*1], m%1 movh [dstq+strideq*2], m%2 movhps [dstq+stride3q ], m%2 %endmacro %macro ROUND_AND_STORE_4x4 8 ; reg1-4, min, max, rnd, shift paddd m%1, %7 paddd m%2, %7 paddd m%3, %7 paddd m%4, %7 psrad m%1, %8 psrad m%2, %8 psrad m%3, %8 psrad m%4, %8 packssdw m%1, m%2 packssdw m%3, m%4 STORE_4x4 %2, %4, %1, %3, %5, %6 %endmacro INIT_XMM sse2 cglobal vp9_idct_idct_4x4_add_12, 4, 4, 8, dst, stride, block, eob cmp eobd, 1 jg .idctfull ; dc-only - this is special, since for 4x4 12bpp, the max coef size is ; 17+sign bpp. Since the multiply is with 11585, which is 14bpp, the ; result of each multiply is 31+sign bit, i.e. it _exactly_ fits in a ; dword. After the final shift (4), the result is 13+sign bits, so we ; don't need any additional processing to fit it in a word DEFINE_ARGS dst, stride, block, coef pxor m4, m4 DC_ONLY 4, m4 movd m0, coefd pshuflw m0, m0, q0000 punpcklqdq m0, m0 mova m5, [pw_4095] DEFINE_ARGS dst, stride, stride3 lea stride3q, [strideq*3] STORE_4x4 1, 3, 0, 0, m4, m5 RET .idctfull: DEFINE_ARGS dst, stride, block, eob mova m0, [blockq+0*16] mova m1, [blockq+1*16] mova m2, [blockq+2*16] mova m3, [blockq+3*16] mova m6, [pd_8192] mova m7, [pd_3fff] IDCT4_12BPP_1D m6, m7 TRANSPOSE4x4D 0, 1, 2, 3, 4 IDCT4_12BPP_1D m6, m7 pxor m4, m4 ZERO_BLOCK blockq, 16, 4, m4 ; writeout DEFINE_ARGS dst, stride, stride3 lea stride3q, [strideq*3] mova m5, [pw_4095] mova m6, [pd_8] ROUND_AND_STORE_4x4 0, 1, 2, 3, m4, m5, m6, 4 RET %macro SCRATCH 3-4 %if ARCH_X86_64 SWAP %1, %2 %if %0 == 4 %define reg_%4 m%2 %endif %else mova [%3], m%1 %if %0 == 4 %define reg_%4 [%3] %endif %endif %endmacro %macro UNSCRATCH 3-4 %if ARCH_X86_64 SWAP %1, %2 %else mova m%1, [%3] %endif %if %0 == 4 %undef reg_%4 %endif %endmacro %macro PRELOAD 2-3 %if ARCH_X86_64 mova m%1, [%2] %if %0 == 3 %define reg_%3 m%1 %endif %elif %0 == 3 %define reg_%3 [%2] %endif %endmacro ; out0 = 5283 * in0 + 13377 + in1 + 15212 * in2 + 9929 * in3 + rnd >> 14 ; out1 = 9929 * in0 + 13377 * in1 - 5283 * in2 - 15282 * in3 + rnd >> 14 ; out2 = 13377 * in0 - 13377 * in2 + 13377 * in3 + rnd >> 14 ; out3 = 15212 * in0 - 13377 * in1 + 9929 * in2 - 5283 * in3 + rnd >> 14 %macro IADST4_12BPP_1D 0-2 [pd_8192], [pd_3fff] ; rnd, mask pand m4, m0, %2 pand m5, m1, %2 psrad m0, 14 psrad m1, 14 packssdw m5, m1 packssdw m4, m0 punpckhwd m1, m4, m5 punpcklwd m4, m5 pand m5, m2, %2 pand m6, m3, %2 psrad m2, 14 psrad m3, 14 packssdw m6, m3 packssdw m5, m2 punpckhwd m3, m5, m6 punpcklwd m5, m6 SCRATCH 1, 8, rsp+0*mmsize, a SCRATCH 5, 9, rsp+1*mmsize, b ; m1/3 have the high bits of 0,1,2,3 ; m4/5 have the low bits of 0,1,2,3 ; m0/2/6/7 are free mova m2, [pw_15212_9929] mova m0, [pw_5283_13377] pmaddwd m7, m2, reg_b pmaddwd m6, m4, m0 pmaddwd m2, m3 pmaddwd m0, reg_a paddd m6, m7 paddd m0, m2 mova m1, [pw_m13377_13377] mova m5, [pw_13377_0] pmaddwd m7, m1, reg_b pmaddwd m2, m4, m5 pmaddwd m1, m3 pmaddwd m5, reg_a paddd m2, m7 paddd m1, m5 paddd m6, %1 paddd m2, %1 psrad m6, 14 psrad m2, 14 paddd m0, m6 ; t0 paddd m2, m1 ; t2 mova m7, [pw_m5283_m15212] mova m5, [pw_9929_13377] pmaddwd m1, m7, reg_b pmaddwd m6, m4, m5 pmaddwd m7, m3 pmaddwd m5, reg_a paddd m6, m1 paddd m7, m5 UNSCRATCH 5, 9, rsp+1*mmsize, b pmaddwd m5, [pw_9929_m5283] pmaddwd m4, [pw_15212_m13377] pmaddwd m3, [pw_9929_m5283] UNSCRATCH 1, 8, rsp+0*mmsize, a pmaddwd m1, [pw_15212_m13377] paddd m4, m5 paddd m3, m1 paddd m6, %1 paddd m4, %1 psrad m6, 14 psrad m4, 14 paddd m7, m6 ; t1 paddd m3, m4 ; t3 SWAP 1, 7 %endmacro %macro IADST4_12BPP_FN 4 cglobal vp9_%1_%3_4x4_add_12, 3, 3, 12, 2 * ARCH_X86_32 * mmsize, dst, stride, block, eob mova m0, [blockq+0*16] mova m1, [blockq+1*16] mova m2, [blockq+2*16] mova m3, [blockq+3*16] PRELOAD 10, pd_8192, rnd PRELOAD 11, pd_3fff, mask %2_12BPP_1D reg_rnd, reg_mask TRANSPOSE4x4D 0, 1, 2, 3, 4 %4_12BPP_1D reg_rnd, reg_mask pxor m4, m4 ZERO_BLOCK blockq, 16, 4, m4 ; writeout DEFINE_ARGS dst, stride, stride3 lea stride3q, [strideq*3] mova m5, [pw_4095] mova m6, [pd_8] ROUND_AND_STORE_4x4 0, 1, 2, 3, m4, m5, m6, 4 RET %endmacro INIT_XMM sse2 IADST4_12BPP_FN idct, IDCT4, iadst, IADST4 IADST4_12BPP_FN iadst, IADST4, idct, IDCT4 IADST4_12BPP_FN iadst, IADST4, iadst, IADST4 ; the following line has not been executed at the end of this macro: ; UNSCRATCH 6, 8, rsp+%3*mmsize %macro IDCT8_1D 1-5 [pd_8192], [pd_3fff], 2 * mmsize, 17 ; src, rnd, mask, src_stride, stack_o mova m0, [%1+0*%4] mova m2, [%1+2*%4] mova m4, [%1+4*%4] mova m6, [%1+6*%4] IDCT4_12BPP_1D %2, %3, 0, 2, 4, 6, 1, 3 ; m0/2/4/6 have t0/1/2/3 SCRATCH 4, 8, rsp+(%5+0)*mmsize SCRATCH 6, 9, rsp+(%5+1)*mmsize mova m1, [%1+1*%4] mova m3, [%1+3*%4] mova m5, [%1+5*%4] mova m7, [%1+7*%4] SUMSUB_MUL 1, 7, 4, 6, 16069, 3196, %2, %3 ; m1=t7a, m7=t4a SUMSUB_MUL 5, 3, 4, 6, 9102, 13623, %2, %3 ; m5=t6a, m3=t5a SUMSUB_BA d, 3, 7, 4 ; m3=t4, m7=t5a SUMSUB_BA d, 5, 1, 4 ; m5=t7, m1=t6a SUMSUB_MUL 1, 7, 4, 6, 11585, 11585, %2, %3 ; m1=t6, m7=t5 SUMSUB_BA d, 5, 0, 4 ; m5=out0, m0=out7 SUMSUB_BA d, 1, 2, 4 ; m1=out1, m2=out6 UNSCRATCH 4, 8, rsp+(%5+0)*mmsize UNSCRATCH 6, 9, rsp+(%5+1)*mmsize SCRATCH 2, 8, rsp+(%5+0)*mmsize SUMSUB_BA d, 7, 4, 2 ; m7=out2, m4=out5 SUMSUB_BA d, 3, 6, 2 ; m3=out3, m6=out4 SWAP 0, 5, 4, 6, 2, 7 %endmacro %macro STORE_2x8 5-7 dstq, strideq ; tmp1-2, reg, min, max mova m%1, [%6+%7*0] mova m%2, [%6+%7*1] paddw m%1, m%3 paddw m%2, m%3 pmaxsw m%1, %4 pmaxsw m%2, %4 pminsw m%1, %5 pminsw m%2, %5 mova [%6+%7*0], m%1 mova [%6+%7*1], m%2 %endmacro ; FIXME we can use the intermediate storage (rsp[0-15]) on x86-32 for temp ; storage also instead of allocating two more stack spaces. This doesn't ; matter much but it's something... INIT_XMM sse2 cglobal vp9_idct_idct_8x8_add_10, 4, 6 + ARCH_X86_64, 14, \ 16 * mmsize + 3 * ARCH_X86_32 * mmsize, \ dst, stride, block, eob mova m0, [pw_1023] cmp eobd, 1 jg .idctfull ; dc-only - the 10bit version can be done entirely in 32bit, since the max ; coef values are 16+sign bit, and the coef is 14bit, so 30+sign easily ; fits in 32bit DEFINE_ARGS dst, stride, block, coef pxor m2, m2 DC_ONLY 5, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 4 .loop_dc: STORE_2x8 3, 4, 1, m2, m0 lea dstq, [dstq+strideq*2] dec cntd jg .loop_dc RET .idctfull: SCRATCH 0, 12, rsp+16*mmsize, max DEFINE_ARGS dst, stride, block, cnt, ptr, skip, dstbak %if ARCH_X86_64 mov dstbakq, dstq movsxd cntq, cntd %endif %if PIC lea ptrq, [default_8x8] movzx cntd, byte [ptrq+cntq-1] %else movzx cntd, byte [default_8x8+cntq-1] %endif mov skipd, 2 sub skipd, cntd mov ptrq, rsp PRELOAD 10, pd_8192, rnd PRELOAD 11, pd_3fff, mask PRELOAD 13, pd_16, srnd .loop_1: IDCT8_1D blockq, reg_rnd, reg_mask TRANSPOSE4x4D 0, 1, 2, 3, 6 mova [ptrq+ 0*mmsize], m0 mova [ptrq+ 2*mmsize], m1 mova [ptrq+ 4*mmsize], m2 mova [ptrq+ 6*mmsize], m3 UNSCRATCH 6, 8, rsp+17*mmsize TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 1*mmsize], m4 mova [ptrq+ 3*mmsize], m5 mova [ptrq+ 5*mmsize], m6 mova [ptrq+ 7*mmsize], m7 add ptrq, 8 * mmsize add blockq, mmsize dec cntd jg .loop_1 ; zero-pad the remainder (skipped cols) test skipd, skipd jz .end add skipd, skipd lea blockq, [blockq+skipq*(mmsize/2)] pxor m0, m0 .loop_z: mova [ptrq+mmsize*0], m0 mova [ptrq+mmsize*1], m0 mova [ptrq+mmsize*2], m0 mova [ptrq+mmsize*3], m0 add ptrq, 4 * mmsize dec skipd jg .loop_z .end: DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea stride3q, [strideq*3] mov cntd, 2 mov ptrq, rsp .loop_2: IDCT8_1D ptrq, reg_rnd, reg_mask pxor m6, m6 ROUND_AND_STORE_4x4 0, 1, 2, 3, m6, reg_max, reg_srnd, 5 lea dstq, [dstq+strideq*4] UNSCRATCH 0, 8, rsp+17*mmsize UNSCRATCH 1, 12, rsp+16*mmsize, max UNSCRATCH 2, 13, pd_16, srnd ROUND_AND_STORE_4x4 4, 5, 0, 7, m6, m1, m2, 5 add ptrq, 16 %if ARCH_X86_64 lea dstq, [dstbakq+8] %else mov dstq, dstm add dstq, 8 %endif dec cntd jg .loop_2 ; m6 is still zero ZERO_BLOCK blockq-2*mmsize, 32, 8, m6 RET %macro DC_ONLY_64BIT 2 ; shift, zero %if ARCH_X86_64 movsxd coefq, dword [blockq] movd [blockq], %2 imul coefq, 11585 add coefq, 8192 sar coefq, 14 imul coefq, 11585 add coefq, ((1 << (%1 - 1)) << 14) + 8192 sar coefq, 14 + %1 %else mov coefd, dword [blockq] movd [blockq], %2 DEFINE_ARGS dst, stride, cnt, coef, coefl mov cntd, 2 .loop_dc_calc: mov coefld, coefd sar coefd, 14 and coefld, 0x3fff imul coefd, 11585 imul coefld, 11585 add coefld, 8192 sar coefld, 14 add coefd, coefld dec cntd jg .loop_dc_calc add coefd, 1 << (%1 - 1) sar coefd, %1 %endif %endmacro INIT_XMM sse2 cglobal vp9_idct_idct_8x8_add_12, 4, 6 + ARCH_X86_64, 14, \ 16 * mmsize + 3 * ARCH_X86_32 * mmsize, \ dst, stride, block, eob mova m0, [pw_4095] cmp eobd, 1 jg mangle(private_prefix %+ _ %+ vp9_idct_idct_8x8_add_10 %+ SUFFIX).idctfull ; dc-only - unfortunately, this one can overflow, since coefs are 18+sign ; bpp, and 18+14+sign does not fit in 32bit, so we do 2-stage multiplies DEFINE_ARGS dst, stride, block, coef, coefl pxor m2, m2 DC_ONLY_64BIT 5, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 4 .loop_dc: STORE_2x8 3, 4, 1, m2, m0 lea dstq, [dstq+strideq*2] dec cntd jg .loop_dc RET ; inputs and outputs are dwords, coefficients are words ; ; dst1[hi]:dst3[lo] = src1 * coef1 + src2 * coef2 ; dst2[hi]:dst4[lo] = src1 * coef2 - src2 * coef1 %macro SUMSUB_MUL_D 6-7 [pd_3fff] ; src/dst 1-2, dst3-4, coef1-2, mask pand m%3, m%1, %7 pand m%4, m%2, %7 psrad m%1, 14 psrad m%2, 14 packssdw m%4, m%2 packssdw m%3, m%1 punpckhwd m%2, m%4, m%3 punpcklwd m%4, m%3 pmaddwd m%3, m%4, [pw_%6_%5] pmaddwd m%1, m%2, [pw_%6_%5] pmaddwd m%4, [pw_m%5_%6] pmaddwd m%2, [pw_m%5_%6] %endmacro ; dst1 = src2[hi]:src4[lo] + src1[hi]:src3[lo] + rnd >> 14 ; dst2 = src2[hi]:src4[lo] - src1[hi]:src3[lo] + rnd >> 14 %macro SUMSUB_PACK_D 5-6 [pd_8192] ; src/dst 1-2, src3-4, tmp, rnd SUMSUB_BA d, %1, %2, %5 SUMSUB_BA d, %3, %4, %5 paddd m%3, %6 paddd m%4, %6 psrad m%3, 14 psrad m%4, 14 paddd m%1, m%3 paddd m%2, m%4 %endmacro %macro NEGD 1 %if cpuflag(ssse3) psignd %1, [pw_m1] %else pxor %1, [pw_m1] paddd %1, [pd_1] %endif %endmacro ; the following line has not been executed at the end of this macro: ; UNSCRATCH 6, 8, rsp+17*mmsize %macro IADST8_1D 1-3 [pd_8192], [pd_3fff] ; src, rnd, mask mova m0, [%1+ 0*mmsize] mova m3, [%1+ 6*mmsize] mova m4, [%1+ 8*mmsize] mova m7, [%1+14*mmsize] SUMSUB_MUL_D 7, 0, 1, 2, 16305, 1606, %3 ; m7/1=t0a, m0/2=t1a SUMSUB_MUL_D 3, 4, 5, 6, 10394, 12665, %3 ; m3/5=t4a, m4/6=t5a SCRATCH 0, 8, rsp+17*mmsize SUMSUB_PACK_D 3, 7, 5, 1, 0, %2 ; m3=t0, m7=t4 UNSCRATCH 0, 8, rsp+17*mmsize SUMSUB_PACK_D 4, 0, 6, 2, 1, %2 ; m4=t1, m0=t5 SCRATCH 3, 8, rsp+17*mmsize SCRATCH 4, 9, rsp+18*mmsize SCRATCH 7, 10, rsp+19*mmsize SCRATCH 0, 11, rsp+20*mmsize mova m1, [%1+ 2*mmsize] mova m2, [%1+ 4*mmsize] mova m5, [%1+10*mmsize] mova m6, [%1+12*mmsize] SUMSUB_MUL_D 5, 2, 3, 4, 14449, 7723, %3 ; m5/8=t2a, m2/9=t3a SUMSUB_MUL_D 1, 6, 7, 0, 4756, 15679, %3 ; m1/10=t6a, m6/11=t7a SCRATCH 2, 12, rsp+21*mmsize SUMSUB_PACK_D 1, 5, 7, 3, 2, %2 ; m1=t2, m5=t6 UNSCRATCH 2, 12, rsp+21*mmsize SUMSUB_PACK_D 6, 2, 0, 4, 3, %2 ; m6=t3, m2=t7 UNSCRATCH 7, 10, rsp+19*mmsize UNSCRATCH 0, 11, rsp+20*mmsize SCRATCH 1, 10, rsp+19*mmsize SCRATCH 6, 11, rsp+20*mmsize SUMSUB_MUL_D 7, 0, 3, 4, 15137, 6270, %3 ; m7/8=t4a, m0/9=t5a SUMSUB_MUL_D 2, 5, 1, 6, 6270, 15137, %3 ; m2/10=t7a, m5/11=t6a SCRATCH 2, 12, rsp+21*mmsize SUMSUB_PACK_D 5, 7, 6, 3, 2, %2 ; m5=-out1, m7=t6 UNSCRATCH 2, 12, rsp+21*mmsize NEGD m5 ; m5=out1 SUMSUB_PACK_D 2, 0, 1, 4, 3, %2 ; m2=out6, m0=t7 SUMSUB_MUL 7, 0, 3, 4, 11585, 11585, %2, %3 ; m7=out2, m0=-out5 NEGD m0 ; m0=out5 UNSCRATCH 3, 8, rsp+17*mmsize UNSCRATCH 4, 9, rsp+18*mmsize UNSCRATCH 1, 10, rsp+19*mmsize UNSCRATCH 6, 11, rsp+20*mmsize SCRATCH 2, 8, rsp+17*mmsize SCRATCH 0, 9, rsp+18*mmsize SUMSUB_BA d, 1, 3, 2 ; m1=out0, m3=t2 SUMSUB_BA d, 6, 4, 2 ; m6=-out7, m4=t3 NEGD m6 ; m6=out7 SUMSUB_MUL 3, 4, 2, 0, 11585, 11585, %2, %3 ; m3=-out3, m4=out4 NEGD m3 ; m3=out3 UNSCRATCH 0, 9, rsp+18*mmsize SWAP 0, 1, 5 SWAP 2, 7, 6 %endmacro %macro IADST8_FN 5 cglobal vp9_%1_%3_8x8_add_10, 4, 6 + ARCH_X86_64, 16, \ 16 * mmsize + ARCH_X86_32 * 6 * mmsize, \ dst, stride, block, eob mova m0, [pw_1023] .body: SCRATCH 0, 13, rsp+16*mmsize, max DEFINE_ARGS dst, stride, block, cnt, ptr, skip, dstbak %if ARCH_X86_64 mov dstbakq, dstq movsxd cntq, cntd %endif %if PIC lea ptrq, [%5_8x8] movzx cntd, byte [ptrq+cntq-1] %else movzx cntd, byte [%5_8x8+cntq-1] %endif mov skipd, 2 sub skipd, cntd mov ptrq, rsp PRELOAD 14, pd_8192, rnd PRELOAD 15, pd_3fff, mask .loop_1: %2_1D blockq, reg_rnd, reg_mask TRANSPOSE4x4D 0, 1, 2, 3, 6 mova [ptrq+ 0*mmsize], m0 mova [ptrq+ 2*mmsize], m1 mova [ptrq+ 4*mmsize], m2 mova [ptrq+ 6*mmsize], m3 UNSCRATCH 6, 8, rsp+17*mmsize TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 1*mmsize], m4 mova [ptrq+ 3*mmsize], m5 mova [ptrq+ 5*mmsize], m6 mova [ptrq+ 7*mmsize], m7 add ptrq, 8 * mmsize add blockq, mmsize dec cntd jg .loop_1 ; zero-pad the remainder (skipped cols) test skipd, skipd jz .end add skipd, skipd lea blockq, [blockq+skipq*(mmsize/2)] pxor m0, m0 .loop_z: mova [ptrq+mmsize*0], m0 mova [ptrq+mmsize*1], m0 mova [ptrq+mmsize*2], m0 mova [ptrq+mmsize*3], m0 add ptrq, 4 * mmsize dec skipd jg .loop_z .end: DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea stride3q, [strideq*3] mov cntd, 2 mov ptrq, rsp .loop_2: %4_1D ptrq, reg_rnd, reg_mask pxor m6, m6 PRELOAD 9, pd_16, srnd ROUND_AND_STORE_4x4 0, 1, 2, 3, m6, reg_max, reg_srnd, 5 lea dstq, [dstq+strideq*4] UNSCRATCH 0, 8, rsp+17*mmsize UNSCRATCH 1, 13, rsp+16*mmsize, max UNSCRATCH 2, 9, pd_16, srnd ROUND_AND_STORE_4x4 4, 5, 0, 7, m6, m1, m2, 5 add ptrq, 16 %if ARCH_X86_64 lea dstq, [dstbakq+8] %else mov dstq, dstm add dstq, 8 %endif dec cntd jg .loop_2 ; m6 is still zero ZERO_BLOCK blockq-2*mmsize, 32, 8, m6 RET cglobal vp9_%1_%3_8x8_add_12, 4, 6 + ARCH_X86_64, 16, \ 16 * mmsize + ARCH_X86_32 * 6 * mmsize, \ dst, stride, block, eob mova m0, [pw_4095] jmp mangle(private_prefix %+ _ %+ vp9_%1_%3_8x8_add_10 %+ SUFFIX).body %endmacro INIT_XMM sse2 IADST8_FN idct, IDCT8, iadst, IADST8, row IADST8_FN iadst, IADST8, idct, IDCT8, col IADST8_FN iadst, IADST8, iadst, IADST8, default %macro IDCT16_1D 1-4 4 * mmsize, 65, 67 ; src, src_stride, stack_offset, mm32bit_stack_offse IDCT8_1D %1, [pd_8192], [pd_3fff], %2 * 2, %4 ; m0-3=t0-3a, m4-5/m8|r67/m7=t4-7 ; SCRATCH 6, 8, rsp+(%4+0)*mmsize ; t6 SCRATCH 0, 15, rsp+(%4+7)*mmsize ; t0a SCRATCH 1, 14, rsp+(%4+6)*mmsize ; t1a SCRATCH 2, 13, rsp+(%4+5)*mmsize ; t2a SCRATCH 3, 12, rsp+(%4+4)*mmsize ; t3a SCRATCH 4, 11, rsp+(%4+3)*mmsize ; t4 mova [rsp+(%3+0)*mmsize], m5 ; t5 mova [rsp+(%3+1)*mmsize], m7 ; t7 mova m0, [%1+ 1*%2] ; in1 mova m3, [%1+ 7*%2] ; in7 mova m4, [%1+ 9*%2] ; in9 mova m7, [%1+15*%2] ; in15 SUMSUB_MUL 0, 7, 1, 2, 16305, 1606 ; m0=t15a, m7=t8a SUMSUB_MUL 4, 3, 1, 2, 10394, 12665 ; m4=t14a, m3=t9a SUMSUB_BA d, 3, 7, 1 ; m3=t8, m7=t9 SUMSUB_BA d, 4, 0, 1 ; m4=t15,m0=t14 SUMSUB_MUL 0, 7, 1, 2, 15137, 6270 ; m0=t14a, m7=t9a mova m1, [%1+ 3*%2] ; in3 mova m2, [%1+ 5*%2] ; in5 mova m5, [%1+11*%2] ; in11 mova m6, [%1+13*%2] ; in13 SCRATCH 0, 9, rsp+(%4+1)*mmsize SCRATCH 7, 10, rsp+(%4+2)*mmsize SUMSUB_MUL 2, 5, 0, 7, 14449, 7723 ; m2=t13a, m5=t10a SUMSUB_MUL 6, 1, 0, 7, 4756, 15679 ; m6=t12a, m1=t11a SUMSUB_BA d, 5, 1, 0 ; m5=t11,m1=t10 SUMSUB_BA d, 2, 6, 0 ; m2=t12,m6=t13 NEGD m1 ; m1=-t10 SUMSUB_MUL 1, 6, 0, 7, 15137, 6270 ; m1=t13a, m6=t10a UNSCRATCH 7, 10, rsp+(%4+2)*mmsize SUMSUB_BA d, 5, 3, 0 ; m5=t8a, m3=t11a SUMSUB_BA d, 6, 7, 0 ; m6=t9, m7=t10 SUMSUB_BA d, 2, 4, 0 ; m2=t15a,m4=t12a SCRATCH 5, 10, rsp+(%4+2)*mmsize SUMSUB_MUL 4, 3, 0, 5, 11585, 11585 ; m4=t12, m3=t11 UNSCRATCH 0, 9, rsp+(%4+1)*mmsize SUMSUB_BA d, 1, 0, 5 ; m1=t14, m0=t13 SCRATCH 6, 9, rsp+(%4+1)*mmsize SUMSUB_MUL 0, 7, 6, 5, 11585, 11585 ; m0=t13a,m7=t10a ; order: 15|r74,14|r73,13|r72,12|r71,11|r70,r65,8|r67,r66,10|r69,9|r68,7,3,4,0,1,2 ; free: 6,5 UNSCRATCH 5, 15, rsp+(%4+7)*mmsize SUMSUB_BA d, 2, 5, 6 ; m2=out0, m5=out15 SCRATCH 5, 15, rsp+(%4+7)*mmsize UNSCRATCH 5, 14, rsp+(%4+6)*mmsize SUMSUB_BA d, 1, 5, 6 ; m1=out1, m5=out14 SCRATCH 5, 14, rsp+(%4+6)*mmsize UNSCRATCH 5, 13, rsp+(%4+5)*mmsize SUMSUB_BA d, 0, 5, 6 ; m0=out2, m5=out13 SCRATCH 5, 13, rsp+(%4+5)*mmsize UNSCRATCH 5, 12, rsp+(%4+4)*mmsize SUMSUB_BA d, 4, 5, 6 ; m4=out3, m5=out12 SCRATCH 5, 12, rsp+(%4+4)*mmsize UNSCRATCH 5, 11, rsp+(%4+3)*mmsize SUMSUB_BA d, 3, 5, 6 ; m3=out4, m5=out11 SCRATCH 4, 11, rsp+(%4+3)*mmsize mova m4, [rsp+(%3+0)*mmsize] SUMSUB_BA d, 7, 4, 6 ; m7=out5, m4=out10 mova [rsp+(%3+0)*mmsize], m5 UNSCRATCH 5, 8, rsp+(%4+0)*mmsize UNSCRATCH 6, 9, rsp+(%4+1)*mmsize SCRATCH 2, 8, rsp+(%4+0)*mmsize SCRATCH 1, 9, rsp+(%4+1)*mmsize UNSCRATCH 1, 10, rsp+(%4+2)*mmsize SCRATCH 0, 10, rsp+(%4+2)*mmsize mova m0, [rsp+(%3+1)*mmsize] SUMSUB_BA d, 6, 5, 2 ; m6=out6, m5=out9 SUMSUB_BA d, 1, 0, 2 ; m1=out7, m0=out8 SWAP 0, 3, 1, 7, 2, 6, 4 ; output order: 8-11|r67-70=out0-3 ; 0-6,r65=out4-11 ; 12-15|r71-74=out12-15 %endmacro INIT_XMM sse2 cglobal vp9_idct_idct_16x16_add_10, 4, 6 + ARCH_X86_64, 16, \ 67 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_1023] cmp eobd, 1 jg .idctfull ; dc-only - the 10bit version can be done entirely in 32bit, since the max ; coef values are 17+sign bit, and the coef is 14bit, so 31+sign easily ; fits in 32bit DEFINE_ARGS dst, stride, block, coef pxor m2, m2 DC_ONLY 6, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 8 .loop_dc: STORE_2x8 3, 4, 1, m2, m0, dstq, mmsize STORE_2x8 3, 4, 1, m2, m0, dstq+strideq, mmsize lea dstq, [dstq+strideq*2] dec cntd jg .loop_dc RET .idctfull: mova [rsp+64*mmsize], m0 DEFINE_ARGS dst, stride, block, cnt, ptr, skip, dstbak %if ARCH_X86_64 mov dstbakq, dstq movsxd cntq, cntd %endif %if PIC lea ptrq, [default_16x16] movzx cntd, byte [ptrq+cntq-1] %else movzx cntd, byte [default_16x16+cntq-1] %endif mov skipd, 4 sub skipd, cntd mov ptrq, rsp .loop_1: IDCT16_1D blockq TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 1*mmsize], m0 mova [ptrq+ 5*mmsize], m1 mova [ptrq+ 9*mmsize], m2 mova [ptrq+13*mmsize], m3 mova m7, [rsp+65*mmsize] TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 2*mmsize], m4 mova [ptrq+ 6*mmsize], m5 mova [ptrq+10*mmsize], m6 mova [ptrq+14*mmsize], m7 UNSCRATCH 0, 8, rsp+67*mmsize UNSCRATCH 1, 9, rsp+68*mmsize UNSCRATCH 2, 10, rsp+69*mmsize UNSCRATCH 3, 11, rsp+70*mmsize TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 0*mmsize], m0 mova [ptrq+ 4*mmsize], m1 mova [ptrq+ 8*mmsize], m2 mova [ptrq+12*mmsize], m3 UNSCRATCH 4, 12, rsp+71*mmsize UNSCRATCH 5, 13, rsp+72*mmsize UNSCRATCH 6, 14, rsp+73*mmsize UNSCRATCH 7, 15, rsp+74*mmsize TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 3*mmsize], m4 mova [ptrq+ 7*mmsize], m5 mova [ptrq+11*mmsize], m6 mova [ptrq+15*mmsize], m7 add ptrq, 16 * mmsize add blockq, mmsize dec cntd jg .loop_1 ; zero-pad the remainder (skipped cols) test skipd, skipd jz .end add skipd, skipd lea blockq, [blockq+skipq*(mmsize/2)] pxor m0, m0 .loop_z: mova [ptrq+mmsize*0], m0 mova [ptrq+mmsize*1], m0 mova [ptrq+mmsize*2], m0 mova [ptrq+mmsize*3], m0 mova [ptrq+mmsize*4], m0 mova [ptrq+mmsize*5], m0 mova [ptrq+mmsize*6], m0 mova [ptrq+mmsize*7], m0 add ptrq, 8 * mmsize dec skipd jg .loop_z .end: DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea stride3q, [strideq*3] mov cntd, 4 mov ptrq, rsp .loop_2: IDCT16_1D ptrq pxor m7, m7 lea dstq, [dstq+strideq*4] ROUND_AND_STORE_4x4 0, 1, 2, 3, m7, [rsp+64*mmsize], [pd_32], 6 lea dstq, [dstq+strideq*4] mova m0, [rsp+65*mmsize] mova m1, [rsp+64*mmsize] mova m2, [pd_32] ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, m1, m2, 6 %if ARCH_X86_64 DEFINE_ARGS dstbak, stride, block, cnt, ptr, stride3, dst %else mov dstq, dstm %endif UNSCRATCH 0, 8, rsp+67*mmsize UNSCRATCH 4, 9, rsp+68*mmsize UNSCRATCH 5, 10, rsp+69*mmsize UNSCRATCH 3, 11, rsp+70*mmsize ROUND_AND_STORE_4x4 0, 4, 5, 3, m7, m1, m2, 6 %if ARCH_X86_64 DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea dstq, [dstbakq+stride3q*4] %else lea dstq, [dstq+stride3q*4] %endif UNSCRATCH 4, 12, rsp+71*mmsize UNSCRATCH 5, 13, rsp+72*mmsize UNSCRATCH 6, 14, rsp+73*mmsize UNSCRATCH 0, 15, rsp+74*mmsize ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, m1, m2, 6 add ptrq, mmsize %if ARCH_X86_64 add dstbakq, 8 mov dstq, dstbakq %else add dword dstm, 8 mov dstq, dstm %endif dec cntd jg .loop_2 ; m7 is still zero ZERO_BLOCK blockq-4*mmsize, 64, 16, m7 RET INIT_XMM sse2 cglobal vp9_idct_idct_16x16_add_12, 4, 6 + ARCH_X86_64, 16, \ 67 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_4095] cmp eobd, 1 jg mangle(private_prefix %+ _ %+ vp9_idct_idct_16x16_add_10 %+ SUFFIX).idctfull ; dc-only - unfortunately, this one can overflow, since coefs are 19+sign ; bpp, and 19+14+sign does not fit in 32bit, so we do 2-stage multiplies DEFINE_ARGS dst, stride, block, coef, coefl pxor m2, m2 DC_ONLY_64BIT 6, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 8 .loop_dc: STORE_2x8 3, 4, 1, m2, m0, dstq, mmsize STORE_2x8 3, 4, 1, m2, m0, dstq+strideq, mmsize lea dstq, [dstq+strideq*2] dec cntd jg .loop_dc RET ; r65-69 are available for spills ; r70-77 are available on x86-32 only (x86-64 should use m8-15) ; output should be in m8-11|r70-73, m0-6,r65 and m12-15|r74-77 %macro IADST16_1D 1 ; src mova m0, [%1+ 0*4*mmsize] ; in0 mova m1, [%1+ 7*4*mmsize] ; in7 mova m2, [%1+ 8*4*mmsize] ; in8 mova m3, [%1+15*4*mmsize] ; in15 SUMSUB_MUL_D 3, 0, 4, 5, 16364, 804 ; m3/4=t0, m0/5=t1 SUMSUB_MUL_D 1, 2, 6, 7, 11003, 12140 ; m1/6=t8, m2/7=t9 SCRATCH 0, 8, rsp+70*mmsize SUMSUB_PACK_D 1, 3, 6, 4, 0 ; m1=t0a, m3=t8a UNSCRATCH 0, 8, rsp+70*mmsize SUMSUB_PACK_D 2, 0, 7, 5, 4 ; m2=t1a, m0=t9a mova [rsp+67*mmsize], m1 SCRATCH 2, 9, rsp+71*mmsize SCRATCH 3, 12, rsp+74*mmsize SCRATCH 0, 13, rsp+75*mmsize mova m0, [%1+ 3*4*mmsize] ; in3 mova m1, [%1+ 4*4*mmsize] ; in4 mova m2, [%1+11*4*mmsize] ; in11 mova m3, [%1+12*4*mmsize] ; in12 SUMSUB_MUL_D 2, 1, 4, 5, 14811, 7005 ; m2/4=t4, m1/5=t5 SUMSUB_MUL_D 0, 3, 6, 7, 5520, 15426 ; m0/6=t12, m3/7=t13 SCRATCH 1, 10, rsp+72*mmsize SUMSUB_PACK_D 0, 2, 6, 4, 1 ; m0=t4a, m2=t12a UNSCRATCH 1, 10, rsp+72*mmsize SUMSUB_PACK_D 3, 1, 7, 5, 4 ; m3=t5a, m1=t13a SCRATCH 0, 15, rsp+77*mmsize SCRATCH 3, 11, rsp+73*mmsize UNSCRATCH 0, 12, rsp+74*mmsize ; t8a UNSCRATCH 3, 13, rsp+75*mmsize ; t9a SUMSUB_MUL_D 0, 3, 4, 5, 16069, 3196 ; m0/4=t8, m3/5=t9 SUMSUB_MUL_D 1, 2, 6, 7, 3196, 16069 ; m1/6=t13, m2/7=t12 SCRATCH 1, 12, rsp+74*mmsize SUMSUB_PACK_D 2, 0, 7, 4, 1 ; m2=t8a, m0=t12a UNSCRATCH 1, 12, rsp+74*mmsize SUMSUB_PACK_D 1, 3, 6, 5, 4 ; m1=t9a, m3=t13a mova [rsp+65*mmsize], m2 mova [rsp+66*mmsize], m1 SCRATCH 0, 8, rsp+70*mmsize SCRATCH 3, 12, rsp+74*mmsize mova m0, [%1+ 2*4*mmsize] ; in2 mova m1, [%1+ 5*4*mmsize] ; in5 mova m2, [%1+10*4*mmsize] ; in10 mova m3, [%1+13*4*mmsize] ; in13 SUMSUB_MUL_D 3, 0, 4, 5, 15893, 3981 ; m3/4=t2, m0/5=t3 SUMSUB_MUL_D 1, 2, 6, 7, 8423, 14053 ; m1/6=t10, m2/7=t11 SCRATCH 0, 10, rsp+72*mmsize SUMSUB_PACK_D 1, 3, 6, 4, 0 ; m1=t2a, m3=t10a UNSCRATCH 0, 10, rsp+72*mmsize SUMSUB_PACK_D 2, 0, 7, 5, 4 ; m2=t3a, m0=t11a mova [rsp+68*mmsize], m1 mova [rsp+69*mmsize], m2 SCRATCH 3, 13, rsp+75*mmsize SCRATCH 0, 14, rsp+76*mmsize mova m0, [%1+ 1*4*mmsize] ; in1 mova m1, [%1+ 6*4*mmsize] ; in6 mova m2, [%1+ 9*4*mmsize] ; in9 mova m3, [%1+14*4*mmsize] ; in14 SUMSUB_MUL_D 2, 1, 4, 5, 13160, 9760 ; m2/4=t6, m1/5=t7 SUMSUB_MUL_D 0, 3, 6, 7, 2404, 16207 ; m0/6=t14, m3/7=t15 SCRATCH 1, 10, rsp+72*mmsize SUMSUB_PACK_D 0, 2, 6, 4, 1 ; m0=t6a, m2=t14a UNSCRATCH 1, 10, rsp+72*mmsize SUMSUB_PACK_D 3, 1, 7, 5, 4 ; m3=t7a, m1=t15a UNSCRATCH 4, 13, rsp+75*mmsize ; t10a UNSCRATCH 5, 14, rsp+76*mmsize ; t11a SCRATCH 0, 13, rsp+75*mmsize SCRATCH 3, 14, rsp+76*mmsize SUMSUB_MUL_D 4, 5, 6, 7, 9102, 13623 ; m4/6=t10, m5/7=t11 SUMSUB_MUL_D 1, 2, 0, 3, 13623, 9102 ; m1/0=t15, m2/3=t14 SCRATCH 0, 10, rsp+72*mmsize SUMSUB_PACK_D 2, 4, 3, 6, 0 ; m2=t10a, m4=t14a UNSCRATCH 0, 10, rsp+72*mmsize SUMSUB_PACK_D 1, 5, 0, 7, 6 ; m1=t11a, m5=t15a UNSCRATCH 0, 8, rsp+70*mmsize ; t12a UNSCRATCH 3, 12, rsp+74*mmsize ; t13a SCRATCH 2, 8, rsp+70*mmsize SCRATCH 1, 12, rsp+74*mmsize SUMSUB_MUL_D 0, 3, 1, 2, 15137, 6270 ; m0/1=t12, m3/2=t13 SUMSUB_MUL_D 5, 4, 7, 6, 6270, 15137 ; m5/7=t15, m4/6=t14 SCRATCH 2, 10, rsp+72*mmsize SUMSUB_PACK_D 4, 0, 6, 1, 2 ; m4=out2, m0=t14a UNSCRATCH 2, 10, rsp+72*mmsize SUMSUB_PACK_D 5, 3, 7, 2, 1 ; m5=-out13, m3=t15a NEGD m5 ; m5=out13 UNSCRATCH 1, 9, rsp+71*mmsize ; t1a mova m2, [rsp+68*mmsize] ; t2a UNSCRATCH 6, 13, rsp+75*mmsize ; t6a UNSCRATCH 7, 14, rsp+76*mmsize ; t7a SCRATCH 4, 10, rsp+72*mmsize SCRATCH 5, 13, rsp+75*mmsize UNSCRATCH 4, 15, rsp+77*mmsize ; t4a UNSCRATCH 5, 11, rsp+73*mmsize ; t5a SCRATCH 0, 14, rsp+76*mmsize SCRATCH 3, 15, rsp+77*mmsize mova m0, [rsp+67*mmsize] ; t0a SUMSUB_BA d, 4, 0, 3 ; m4=t0, m0=t4 SUMSUB_BA d, 5, 1, 3 ; m5=t1, m1=t5 SUMSUB_BA d, 6, 2, 3 ; m6=t2, m2=t6 SCRATCH 4, 9, rsp+71*mmsize mova m3, [rsp+69*mmsize] ; t3a SUMSUB_BA d, 7, 3, 4 ; m7=t3, m3=t7 mova [rsp+67*mmsize], m5 mova [rsp+68*mmsize], m6 mova [rsp+69*mmsize], m7 SUMSUB_MUL_D 0, 1, 4, 5, 15137, 6270 ; m0/4=t4a, m1/5=t5a SUMSUB_MUL_D 3, 2, 7, 6, 6270, 15137 ; m3/7=t7a, m2/6=t6a SCRATCH 1, 11, rsp+73*mmsize SUMSUB_PACK_D 2, 0, 6, 4, 1 ; m2=-out3, m0=t6 NEGD m2 ; m2=out3 UNSCRATCH 1, 11, rsp+73*mmsize SUMSUB_PACK_D 3, 1, 7, 5, 4 ; m3=out12, m1=t7 SCRATCH 2, 11, rsp+73*mmsize UNSCRATCH 2, 12, rsp+74*mmsize ; t11a SCRATCH 3, 12, rsp+74*mmsize UNSCRATCH 3, 8, rsp+70*mmsize ; t10a mova m4, [rsp+65*mmsize] ; t8a mova m5, [rsp+66*mmsize] ; t9a SUMSUB_BA d, 3, 4, 6 ; m3=-out1, m4=t10 NEGD m3 ; m3=out1 SUMSUB_BA d, 2, 5, 6 ; m2=out14, m5=t11 UNSCRATCH 6, 9, rsp+71*mmsize ; t0 UNSCRATCH 7, 14, rsp+76*mmsize ; t14a SCRATCH 3, 9, rsp+71*mmsize SCRATCH 2, 14, rsp+76*mmsize SUMSUB_MUL 1, 0, 2, 3, 11585, 11585 ; m1=out4, m0=out11 mova [rsp+65*mmsize], m0 SUMSUB_MUL 5, 4, 2, 3, 11585, 11585 ; m5=out6, m4=out9 UNSCRATCH 0, 15, rsp+77*mmsize ; t15a SUMSUB_MUL 7, 0, 2, 3, 11585, m11585 ; m7=out10, m0=out5 mova m2, [rsp+68*mmsize] ; t2 SUMSUB_BA d, 2, 6, 3 ; m2=out0, m6=t2a SCRATCH 2, 8, rsp+70*mmsize mova m2, [rsp+67*mmsize] ; t1 mova m3, [rsp+69*mmsize] ; t3 mova [rsp+67*mmsize], m7 SUMSUB_BA d, 3, 2, 7 ; m3=-out15, m2=t3a NEGD m3 ; m3=out15 SCRATCH 3, 15, rsp+77*mmsize SUMSUB_MUL 6, 2, 7, 3, 11585, m11585 ; m6=out8, m2=out7 mova m7, [rsp+67*mmsize] SWAP 0, 1 SWAP 2, 5, 4, 6, 7, 3 %endmacro %macro IADST16_FN 7 cglobal vp9_%1_%4_16x16_add_10, 4, 6 + ARCH_X86_64, 16, \ 70 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_1023] .body: mova [rsp+64*mmsize], m0 DEFINE_ARGS dst, stride, block, cnt, ptr, skip, dstbak %if ARCH_X86_64 mov dstbakq, dstq movsxd cntq, cntd %endif %if PIC lea ptrq, [%7_16x16] movzx cntd, byte [ptrq+cntq-1] %else movzx cntd, byte [%7_16x16+cntq-1] %endif mov skipd, 4 sub skipd, cntd mov ptrq, rsp .loop_1: %2_1D blockq TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 1*mmsize], m0 mova [ptrq+ 5*mmsize], m1 mova [ptrq+ 9*mmsize], m2 mova [ptrq+13*mmsize], m3 mova m7, [rsp+65*mmsize] TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 2*mmsize], m4 mova [ptrq+ 6*mmsize], m5 mova [ptrq+10*mmsize], m6 mova [ptrq+14*mmsize], m7 UNSCRATCH 0, 8, rsp+(%3+0)*mmsize UNSCRATCH 1, 9, rsp+(%3+1)*mmsize UNSCRATCH 2, 10, rsp+(%3+2)*mmsize UNSCRATCH 3, 11, rsp+(%3+3)*mmsize TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 0*mmsize], m0 mova [ptrq+ 4*mmsize], m1 mova [ptrq+ 8*mmsize], m2 mova [ptrq+12*mmsize], m3 UNSCRATCH 4, 12, rsp+(%3+4)*mmsize UNSCRATCH 5, 13, rsp+(%3+5)*mmsize UNSCRATCH 6, 14, rsp+(%3+6)*mmsize UNSCRATCH 7, 15, rsp+(%3+7)*mmsize TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 3*mmsize], m4 mova [ptrq+ 7*mmsize], m5 mova [ptrq+11*mmsize], m6 mova [ptrq+15*mmsize], m7 add ptrq, 16 * mmsize add blockq, mmsize dec cntd jg .loop_1 ; zero-pad the remainder (skipped cols) test skipd, skipd jz .end add skipd, skipd lea blockq, [blockq+skipq*(mmsize/2)] pxor m0, m0 .loop_z: mova [ptrq+mmsize*0], m0 mova [ptrq+mmsize*1], m0 mova [ptrq+mmsize*2], m0 mova [ptrq+mmsize*3], m0 mova [ptrq+mmsize*4], m0 mova [ptrq+mmsize*5], m0 mova [ptrq+mmsize*6], m0 mova [ptrq+mmsize*7], m0 add ptrq, 8 * mmsize dec skipd jg .loop_z .end: DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea stride3q, [strideq*3] mov cntd, 4 mov ptrq, rsp .loop_2: %5_1D ptrq pxor m7, m7 lea dstq, [dstq+strideq*4] ROUND_AND_STORE_4x4 0, 1, 2, 3, m7, [rsp+64*mmsize], [pd_32], 6 lea dstq, [dstq+strideq*4] mova m0, [rsp+65*mmsize] mova m1, [rsp+64*mmsize] mova m2, [pd_32] ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, m1, m2, 6 %if ARCH_X86_64 DEFINE_ARGS dstbak, stride, block, cnt, ptr, stride3, dst %else mov dstq, dstm %endif UNSCRATCH 0, 8, rsp+(%6+0)*mmsize UNSCRATCH 4, 9, rsp+(%6+1)*mmsize UNSCRATCH 5, 10, rsp+(%6+2)*mmsize UNSCRATCH 3, 11, rsp+(%6+3)*mmsize ROUND_AND_STORE_4x4 0, 4, 5, 3, m7, m1, m2, 6 %if ARCH_X86_64 DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea dstq, [dstbakq+stride3q*4] %else lea dstq, [dstq+stride3q*4] %endif UNSCRATCH 4, 12, rsp+(%6+4)*mmsize UNSCRATCH 5, 13, rsp+(%6+5)*mmsize UNSCRATCH 6, 14, rsp+(%6+6)*mmsize UNSCRATCH 0, 15, rsp+(%6+7)*mmsize ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, m1, m2, 6 add ptrq, mmsize %if ARCH_X86_64 add dstbakq, 8 mov dstq, dstbakq %else add dword dstm, 8 mov dstq, dstm %endif dec cntd jg .loop_2 ; m7 is still zero ZERO_BLOCK blockq-4*mmsize, 64, 16, m7 RET cglobal vp9_%1_%4_16x16_add_12, 4, 6 + ARCH_X86_64, 16, \ 70 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_4095] jmp mangle(private_prefix %+ _ %+ vp9_%1_%4_16x16_add_10 %+ SUFFIX).body %endmacro INIT_XMM sse2 IADST16_FN idct, IDCT16, 67, iadst, IADST16, 70, row IADST16_FN iadst, IADST16, 70, idct, IDCT16, 67, col IADST16_FN iadst, IADST16, 70, iadst, IADST16, 70, default %macro IDCT32_1D 2-3 8 * mmsize; pass[1/2], src, src_stride IDCT16_1D %2, 2 * %3, 272, 257 %if ARCH_X86_64 mova [rsp+257*mmsize], m8 mova [rsp+258*mmsize], m9 mova [rsp+259*mmsize], m10 mova [rsp+260*mmsize], m11 mova [rsp+261*mmsize], m12 mova [rsp+262*mmsize], m13 mova [rsp+263*mmsize], m14 mova [rsp+264*mmsize], m15 %endif mova [rsp+265*mmsize], m0 mova [rsp+266*mmsize], m1 mova [rsp+267*mmsize], m2 mova [rsp+268*mmsize], m3 mova [rsp+269*mmsize], m4 mova [rsp+270*mmsize], m5 mova [rsp+271*mmsize], m6 ; r257-260: t0-3 ; r265-272: t4/5a/6a/7/8/9a/10/11a ; r261-264: t12a/13/14a/15 ; r273-274 is free as scratch space, and 275-282 mirrors m8-15 on 32bit mova m0, [%2+ 1*%3] ; in1 mova m1, [%2+15*%3] ; in15 mova m2, [%2+17*%3] ; in17 mova m3, [%2+31*%3] ; in31 SUMSUB_MUL 0, 3, 4, 5, 16364, 804 ; m0=t31a, m3=t16a SUMSUB_MUL 2, 1, 4, 5, 11003, 12140 ; m2=t30a, m1=t17a SUMSUB_BA d, 1, 3, 4 ; m1=t16, m3=t17 SUMSUB_BA d, 2, 0, 4 ; m2=t31, m0=t30 SUMSUB_MUL 0, 3, 4, 5, 16069, 3196 ; m0=t30a, m3=t17a SCRATCH 0, 8, rsp+275*mmsize SCRATCH 2, 9, rsp+276*mmsize ; end of stage 1-3 first quart mova m0, [%2+ 7*%3] ; in7 mova m2, [%2+ 9*%3] ; in9 mova m4, [%2+23*%3] ; in23 mova m5, [%2+25*%3] ; in25 SUMSUB_MUL 2, 4, 6, 7, 14811, 7005 ; m2=t29a, m4=t18a SUMSUB_MUL 5, 0, 6, 7, 5520, 15426 ; m5=t28a, m0=t19a SUMSUB_BA d, 4, 0, 6 ; m4=t19, m0=t18 SUMSUB_BA d, 2, 5, 6 ; m2=t28, m5=t29 SUMSUB_MUL 5, 0, 6, 7, 3196, m16069 ; m5=t29a, m0=t18a ; end of stage 1-3 second quart SUMSUB_BA d, 4, 1, 6 ; m4=t16a, m1=t19a SUMSUB_BA d, 0, 3, 6 ; m0=t17, m3=t18 UNSCRATCH 6, 8, rsp+275*mmsize ; t30a UNSCRATCH 7, 9, rsp+276*mmsize ; t31 mova [rsp+273*mmsize], m4 mova [rsp+274*mmsize], m0 SUMSUB_BA d, 2, 7, 0 ; m2=t31a, m7=t28a SUMSUB_BA d, 5, 6, 0 ; m5=t30, m6=t29 SUMSUB_MUL 6, 3, 0, 4, 15137, 6270 ; m6=t29a, m3=t18a SUMSUB_MUL 7, 1, 0, 4, 15137, 6270 ; m7=t28, m1=t19 SCRATCH 3, 10, rsp+277*mmsize SCRATCH 1, 11, rsp+278*mmsize SCRATCH 7, 12, rsp+279*mmsize SCRATCH 6, 13, rsp+280*mmsize SCRATCH 5, 14, rsp+281*mmsize SCRATCH 2, 15, rsp+282*mmsize ; end of stage 4-5 first half mova m0, [%2+ 5*%3] ; in5 mova m1, [%2+11*%3] ; in11 mova m2, [%2+21*%3] ; in21 mova m3, [%2+27*%3] ; in27 SUMSUB_MUL 0, 3, 4, 5, 15893, 3981 ; m0=t27a, m3=t20a SUMSUB_MUL 2, 1, 4, 5, 8423, 14053 ; m2=t26a, m1=t21a SUMSUB_BA d, 1, 3, 4 ; m1=t20, m3=t21 SUMSUB_BA d, 2, 0, 4 ; m2=t27, m0=t26 SUMSUB_MUL 0, 3, 4, 5, 9102, 13623 ; m0=t26a, m3=t21a SCRATCH 0, 8, rsp+275*mmsize SCRATCH 2, 9, rsp+276*mmsize ; end of stage 1-3 third quart mova m0, [%2+ 3*%3] ; in3 mova m2, [%2+13*%3] ; in13 mova m4, [%2+19*%3] ; in19 mova m5, [%2+29*%3] ; in29 SUMSUB_MUL 2, 4, 6, 7, 13160, 9760 ; m2=t25a, m4=t22a SUMSUB_MUL 5, 0, 6, 7, 2404, 16207 ; m5=t24a, m0=t23a SUMSUB_BA d, 4, 0, 6 ; m4=t23, m0=t22 SUMSUB_BA d, 2, 5, 6 ; m2=t24, m5=t25 SUMSUB_MUL 5, 0, 6, 7, 13623, m9102 ; m5=t25a, m0=t22a ; end of stage 1-3 fourth quart SUMSUB_BA d, 1, 4, 6 ; m1=t23a, m4=t20a SUMSUB_BA d, 3, 0, 6 ; m3=t22, m0=t21 UNSCRATCH 6, 8, rsp+275*mmsize ; t26a UNSCRATCH 7, 9, rsp+276*mmsize ; t27 SCRATCH 3, 8, rsp+275*mmsize SCRATCH 1, 9, rsp+276*mmsize SUMSUB_BA d, 7, 2, 1 ; m7=t24a, m2=t27a SUMSUB_BA d, 6, 5, 1 ; m6=t25, m5=t26 SUMSUB_MUL 2, 4, 1, 3, 6270, m15137 ; m2=t27, m4=t20 SUMSUB_MUL 5, 0, 1, 3, 6270, m15137 ; m5=t26a, m0=t21a ; end of stage 4-5 second half UNSCRATCH 1, 12, rsp+279*mmsize ; t28 UNSCRATCH 3, 13, rsp+280*mmsize ; t29a SCRATCH 4, 12, rsp+279*mmsize SCRATCH 0, 13, rsp+280*mmsize SUMSUB_BA d, 5, 3, 0 ; m5=t29, m3=t26 SUMSUB_BA d, 2, 1, 0 ; m2=t28a, m1=t27a UNSCRATCH 0, 14, rsp+281*mmsize ; t30 UNSCRATCH 4, 15, rsp+282*mmsize ; t31a SCRATCH 2, 14, rsp+281*mmsize SCRATCH 5, 15, rsp+282*mmsize SUMSUB_BA d, 6, 0, 2 ; m6=t30a, m0=t25a SUMSUB_BA d, 7, 4, 2 ; m7=t31, m4=t24 mova m2, [rsp+273*mmsize] ; t16a mova m5, [rsp+274*mmsize] ; t17 mova [rsp+273*mmsize], m6 mova [rsp+274*mmsize], m7 UNSCRATCH 6, 10, rsp+277*mmsize ; t18a UNSCRATCH 7, 11, rsp+278*mmsize ; t19 SCRATCH 4, 10, rsp+277*mmsize SCRATCH 0, 11, rsp+278*mmsize UNSCRATCH 4, 12, rsp+279*mmsize ; t20 UNSCRATCH 0, 13, rsp+280*mmsize ; t21a SCRATCH 3, 12, rsp+279*mmsize SCRATCH 1, 13, rsp+280*mmsize SUMSUB_BA d, 0, 6, 1 ; m0=t18, m6=t21 SUMSUB_BA d, 4, 7, 1 ; m4=t19a, m7=t20a UNSCRATCH 3, 8, rsp+275*mmsize ; t22 UNSCRATCH 1, 9, rsp+276*mmsize ; t23a SCRATCH 0, 8, rsp+275*mmsize SCRATCH 4, 9, rsp+276*mmsize SUMSUB_BA d, 3, 5, 0 ; m3=t17a, m5=t22a SUMSUB_BA d, 1, 2, 0 ; m1=t16, m2=t23 ; end of stage 6 UNSCRATCH 0, 10, rsp+277*mmsize ; t24 UNSCRATCH 4, 11, rsp+278*mmsize ; t25a SCRATCH 1, 10, rsp+277*mmsize SCRATCH 3, 11, rsp+278*mmsize SUMSUB_MUL 0, 2, 1, 3, 11585, 11585 ; m0=t24a, m2=t23a SUMSUB_MUL 4, 5, 1, 3, 11585, 11585 ; m4=t25, m5=t22 UNSCRATCH 1, 12, rsp+279*mmsize ; t26 UNSCRATCH 3, 13, rsp+280*mmsize ; t27a SCRATCH 0, 12, rsp+279*mmsize SCRATCH 4, 13, rsp+280*mmsize SUMSUB_MUL 3, 7, 0, 4, 11585, 11585 ; m3=t27, m7=t20 SUMSUB_MUL 1, 6, 0, 4, 11585, 11585 ; m1=t26a, m6=t21a ; end of stage 7 mova m0, [rsp+269*mmsize] ; t8 mova m4, [rsp+270*mmsize] ; t9a mova [rsp+269*mmsize], m1 ; t26a mova [rsp+270*mmsize], m3 ; t27 mova m3, [rsp+271*mmsize] ; t10 SUMSUB_BA d, 2, 0, 1 ; m2=out8, m0=out23 SUMSUB_BA d, 5, 4, 1 ; m5=out9, m4=out22 SUMSUB_BA d, 6, 3, 1 ; m6=out10, m3=out21 mova m1, [rsp+272*mmsize] ; t11a mova [rsp+271*mmsize], m0 SUMSUB_BA d, 7, 1, 0 ; m7=out11, m1=out20 %if %1 == 1 TRANSPOSE4x4D 2, 5, 6, 7, 0 mova [ptrq+ 2*mmsize], m2 mova [ptrq+10*mmsize], m5 mova [ptrq+18*mmsize], m6 mova [ptrq+26*mmsize], m7 %else ; %1 == 2 pxor m0, m0 lea dstq, [dstq+strideq*8] ROUND_AND_STORE_4x4 2, 5, 6, 7, m0, [rsp+256*mmsize], [pd_32], 6 %endif mova m2, [rsp+271*mmsize] %if %1 == 1 TRANSPOSE4x4D 1, 3, 4, 2, 0 mova [ptrq+ 5*mmsize], m1 mova [ptrq+13*mmsize], m3 mova [ptrq+21*mmsize], m4 mova [ptrq+29*mmsize], m2 %else ; %1 == 2 lea dstq, [dstq+stride3q*4] ROUND_AND_STORE_4x4 1, 3, 4, 2, m0, [rsp+256*mmsize], [pd_32], 6 %endif ; end of last stage + store for out8-11 and out20-23 UNSCRATCH 0, 9, rsp+276*mmsize ; t19a UNSCRATCH 1, 8, rsp+275*mmsize ; t18 UNSCRATCH 2, 11, rsp+278*mmsize ; t17a UNSCRATCH 3, 10, rsp+277*mmsize ; t16 mova m7, [rsp+261*mmsize] ; t12a mova m6, [rsp+262*mmsize] ; t13 mova m5, [rsp+263*mmsize] ; t14a SUMSUB_BA d, 0, 7, 4 ; m0=out12, m7=out19 SUMSUB_BA d, 1, 6, 4 ; m1=out13, m6=out18 SUMSUB_BA d, 2, 5, 4 ; m2=out14, m5=out17 mova m4, [rsp+264*mmsize] ; t15 SCRATCH 7, 8, rsp+275*mmsize SUMSUB_BA d, 3, 4, 7 ; m3=out15, m4=out16 %if %1 == 1 TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 3*mmsize], m0 mova [ptrq+11*mmsize], m1 mova [ptrq+19*mmsize], m2 mova [ptrq+27*mmsize], m3 %else ; %1 == 2 %if ARCH_X86_64 SWAP 7, 9 lea dstq, [dstbakq+stride3q*4] %else ; x86-32 pxor m7, m7 mov dstq, dstm lea dstq, [dstq+stride3q*4] %endif ROUND_AND_STORE_4x4 0, 1, 2, 3, m7, [rsp+256*mmsize], [pd_32], 6 %endif UNSCRATCH 0, 8, rsp+275*mmsize ; out19 %if %1 == 1 TRANSPOSE4x4D 4, 5, 6, 0, 7 mova [ptrq+ 4*mmsize], m4 mova [ptrq+12*mmsize], m5 mova [ptrq+20*mmsize], m6 mova [ptrq+28*mmsize], m0 %else ; %1 == 2 lea dstq, [dstq+strideq*4] ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, [rsp+256*mmsize], [pd_32], 6 %endif ; end of last stage + store for out12-19 %if ARCH_X86_64 SWAP 7, 8 %endif mova m7, [rsp+257*mmsize] ; t0 mova m6, [rsp+258*mmsize] ; t1 mova m5, [rsp+259*mmsize] ; t2 mova m4, [rsp+260*mmsize] ; t3 mova m0, [rsp+274*mmsize] ; t31 mova m1, [rsp+273*mmsize] ; t30a UNSCRATCH 2, 15, rsp+282*mmsize ; t29 SUMSUB_BA d, 0, 7, 3 ; m0=out0, m7=out31 SUMSUB_BA d, 1, 6, 3 ; m1=out1, m6=out30 SUMSUB_BA d, 2, 5, 3 ; m2=out2, m5=out29 SCRATCH 0, 9, rsp+276*mmsize UNSCRATCH 3, 14, rsp+281*mmsize ; t28a SUMSUB_BA d, 3, 4, 0 ; m3=out3, m4=out28 %if %1 == 1 TRANSPOSE4x4D 4, 5, 6, 7, 0 mova [ptrq+ 7*mmsize], m4 mova [ptrq+15*mmsize], m5 mova [ptrq+23*mmsize], m6 mova [ptrq+31*mmsize], m7 %else ; %1 == 2 %if ARCH_X86_64 SWAP 0, 8 %else ; x86-32 pxor m0, m0 %endif lea dstq, [dstq+stride3q*4] ROUND_AND_STORE_4x4 4, 5, 6, 7, m0, [rsp+256*mmsize], [pd_32], 6 %endif UNSCRATCH 7, 9, rsp+276*mmsize ; out0 %if %1 == 1 TRANSPOSE4x4D 7, 1, 2, 3, 0 mova [ptrq+ 0*mmsize], m7 mova [ptrq+ 8*mmsize], m1 mova [ptrq+16*mmsize], m2 mova [ptrq+24*mmsize], m3 %else ; %1 == 2 %if ARCH_X86_64 DEFINE_ARGS dstbak, stride, block, cnt, ptr, stride3, dst %else ; x86-32 mov dstq, dstm %endif ROUND_AND_STORE_4x4 7, 1, 2, 3, m0, [rsp+256*mmsize], [pd_32], 6 %if ARCH_X86_64 DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak %endif %endif ; end of last stage + store for out0-3 and out28-31 %if ARCH_X86_64 SWAP 0, 8 %endif mova m7, [rsp+265*mmsize] ; t4 mova m6, [rsp+266*mmsize] ; t5a mova m5, [rsp+267*mmsize] ; t6a mova m4, [rsp+268*mmsize] ; t7 mova m0, [rsp+270*mmsize] ; t27 mova m1, [rsp+269*mmsize] ; t26a UNSCRATCH 2, 13, rsp+280*mmsize ; t25 SUMSUB_BA d, 0, 7, 3 ; m0=out4, m7=out27 SUMSUB_BA d, 1, 6, 3 ; m1=out5, m6=out26 SUMSUB_BA d, 2, 5, 3 ; m2=out6, m5=out25 UNSCRATCH 3, 12, rsp+279*mmsize ; t24a SCRATCH 7, 9, rsp+276*mmsize SUMSUB_BA d, 3, 4, 7 ; m3=out7, m4=out24 %if %1 == 1 TRANSPOSE4x4D 0, 1, 2, 3, 7 mova [ptrq+ 1*mmsize], m0 mova [ptrq+ 9*mmsize], m1 mova [ptrq+17*mmsize], m2 mova [ptrq+25*mmsize], m3 %else ; %1 == 2 %if ARCH_X86_64 SWAP 7, 8 lea dstq, [dstbakq+strideq*4] %else ; x86-32 pxor m7, m7 lea dstq, [dstq+strideq*4] %endif ROUND_AND_STORE_4x4 0, 1, 2, 3, m7, [rsp+256*mmsize], [pd_32], 6 %endif UNSCRATCH 0, 9, rsp+276*mmsize ; out27 %if %1 == 1 TRANSPOSE4x4D 4, 5, 6, 0, 7 mova [ptrq+ 6*mmsize], m4 mova [ptrq+14*mmsize], m5 mova [ptrq+22*mmsize], m6 mova [ptrq+30*mmsize], m0 %else ; %1 == 2 %if ARCH_X86_64 lea dstq, [dstbakq+stride3q*8] %else mov dstq, dstm lea dstq, [dstq+stride3q*8] %endif ROUND_AND_STORE_4x4 4, 5, 6, 0, m7, [rsp+256*mmsize], [pd_32], 6 %endif ; end of last stage + store for out4-7 and out24-27 %endmacro INIT_XMM sse2 cglobal vp9_idct_idct_32x32_add_10, 4, 6 + ARCH_X86_64, 16, \ 275 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_1023] cmp eobd, 1 jg .idctfull ; dc-only - the 10bit version can be done entirely in 32bit, since the max ; coef values are 17+sign bit, and the coef is 14bit, so 31+sign easily ; fits in 32bit DEFINE_ARGS dst, stride, block, coef pxor m2, m2 DC_ONLY 6, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 32 .loop_dc: STORE_2x8 3, 4, 1, m2, m0, dstq, mmsize STORE_2x8 3, 4, 1, m2, m0, dstq+mmsize*2, mmsize add dstq, strideq dec cntd jg .loop_dc RET .idctfull: mova [rsp+256*mmsize], m0 DEFINE_ARGS dst, stride, block, cnt, ptr, skip, dstbak %if ARCH_X86_64 mov dstbakq, dstq movsxd cntq, cntd %endif %if PIC lea ptrq, [default_32x32] movzx cntd, byte [ptrq+cntq-1] %else movzx cntd, byte [default_32x32+cntq-1] %endif mov skipd, 8 sub skipd, cntd mov ptrq, rsp .loop_1: IDCT32_1D 1, blockq add ptrq, 32 * mmsize add blockq, mmsize dec cntd jg .loop_1 ; zero-pad the remainder (skipped cols) test skipd, skipd jz .end shl skipd, 2 lea blockq, [blockq+skipq*(mmsize/4)] pxor m0, m0 .loop_z: mova [ptrq+mmsize*0], m0 mova [ptrq+mmsize*1], m0 mova [ptrq+mmsize*2], m0 mova [ptrq+mmsize*3], m0 mova [ptrq+mmsize*4], m0 mova [ptrq+mmsize*5], m0 mova [ptrq+mmsize*6], m0 mova [ptrq+mmsize*7], m0 add ptrq, 8 * mmsize dec skipd jg .loop_z .end: DEFINE_ARGS dst, stride, block, cnt, ptr, stride3, dstbak lea stride3q, [strideq*3] mov cntd, 8 mov ptrq, rsp .loop_2: IDCT32_1D 2, ptrq add ptrq, mmsize %if ARCH_X86_64 add dstbakq, 8 mov dstq, dstbakq %else add dword dstm, 8 mov dstq, dstm %endif dec cntd jg .loop_2 ; m7 is still zero ZERO_BLOCK blockq-8*mmsize, 128, 32, m7 RET INIT_XMM sse2 cglobal vp9_idct_idct_32x32_add_12, 4, 6 + ARCH_X86_64, 16, \ 275 * mmsize + ARCH_X86_32 * 8 * mmsize, \ dst, stride, block, eob mova m0, [pw_4095] cmp eobd, 1 jg mangle(private_prefix %+ _ %+ vp9_idct_idct_32x32_add_10 %+ SUFFIX).idctfull ; dc-only - unfortunately, this one can overflow, since coefs are 19+sign ; bpp, and 19+14+sign does not fit in 32bit, so we do 2-stage multiplies DEFINE_ARGS dst, stride, block, coef, coefl pxor m2, m2 DC_ONLY_64BIT 6, m2 movd m1, coefd pshuflw m1, m1, q0000 punpcklqdq m1, m1 DEFINE_ARGS dst, stride, cnt mov cntd, 32 .loop_dc: STORE_2x8 3, 4, 1, m2, m0, dstq, mmsize STORE_2x8 3, 4, 1, m2, m0, dstq+mmsize*2, mmsize add dstq, strideq dec cntd jg .loop_dc RET
¤ Dauer der Verarbeitung: 0.17 Sekunden (vorverarbeitet am 2026-06-05) ¤*© Formatika GbR, Deutschland |
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2026-06-09