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1294 lines
40 KiB
1294 lines
40 KiB
;****************************************************************************** |
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;* Copyright (c) Lynne |
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;* |
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;* This file is part of FFmpeg. |
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;* |
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;* FFmpeg is free software; you can redistribute it and/or |
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;* modify it under the terms of the GNU Lesser General Public |
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;* License as published by the Free Software Foundation; either |
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;* version 2.1 of the License, or (at your option) any later version. |
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;* |
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;* FFmpeg is distributed in the hope that it will be useful, |
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;* but WITHOUT ANY WARRANTY; without even the implied warranty of |
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;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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;* Lesser General Public License for more details. |
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;* |
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;* You should have received a copy of the GNU Lesser General Public |
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;* License along with FFmpeg; if not, write to the Free Software |
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;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA |
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;****************************************************************************** |
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; Open `doc/transforms.md` to see the code upon which the transforms here were |
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; based upon and compare. |
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; TODO: |
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; carry over registers from smaller transforms to save on ~8 loads/stores |
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; check if vinsertf could be faster than verpm2f128 for duplication |
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; even faster FFT8 (current one is very #instructions optimized) |
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; replace some xors with blends + addsubs? |
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; replace some shuffles with vblends? |
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; avx512 split-radix |
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%include "libavutil/x86/x86util.asm" |
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%define private_prefix ff_tx |
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%if ARCH_X86_64 |
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%define ptr resq |
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%else |
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%define ptr resd |
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%endif |
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%assign i 16 |
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%rep 14 |
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cextern tab_ %+ i %+ _float ; ff_tab_i_float... |
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%assign i (i << 1) |
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%endrep |
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struc AVTXContext |
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.len: resd 1 ; Length |
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.inv resd 1 ; Inverse flag |
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.map: ptr 1 ; Lookup table(s) |
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.exp: ptr 1 ; Exponentiation factors |
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.tmp: ptr 1 ; Temporary data |
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.sub: ptr 1 ; Subcontexts |
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.fn: ptr 4 ; Subcontext functions |
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.nb_sub: resd 1 ; Subcontext count |
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; Everything else is inaccessible |
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endstruc |
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SECTION_RODATA 32 |
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%define POS 0x00000000 |
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%define NEG 0x80000000 |
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%define M_SQRT1_2 0.707106781186547524401 |
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%define COS16_1 0.92387950420379638671875 |
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%define COS16_3 0.3826834261417388916015625 |
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d8_mult_odd: dd M_SQRT1_2, -M_SQRT1_2, -M_SQRT1_2, M_SQRT1_2, \ |
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M_SQRT1_2, -M_SQRT1_2, -M_SQRT1_2, M_SQRT1_2 |
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s8_mult_odd: dd 1.0, 1.0, -1.0, 1.0, -M_SQRT1_2, -M_SQRT1_2, M_SQRT1_2, M_SQRT1_2 |
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s8_perm_even: dd 1, 3, 0, 2, 1, 3, 2, 0 |
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s8_perm_odd1: dd 3, 3, 1, 1, 1, 1, 3, 3 |
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s8_perm_odd2: dd 1, 2, 0, 3, 1, 0, 0, 1 |
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s16_mult_even: dd 1.0, 1.0, M_SQRT1_2, M_SQRT1_2, 1.0, -1.0, M_SQRT1_2, -M_SQRT1_2 |
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s16_mult_odd1: dd COS16_1, COS16_1, COS16_3, COS16_3, COS16_1, -COS16_1, COS16_3, -COS16_3 |
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s16_mult_odd2: dd COS16_3, -COS16_3, COS16_1, -COS16_1, -COS16_3, -COS16_3, -COS16_1, -COS16_1 |
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s16_perm: dd 0, 1, 2, 3, 1, 0, 3, 2 |
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mask_mmmmpppm: dd NEG, NEG, NEG, NEG, POS, POS, POS, NEG |
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mask_ppmpmmpm: dd POS, POS, NEG, POS, NEG, NEG, POS, NEG |
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mask_mppmmpmp: dd NEG, POS, POS, NEG, NEG, POS, NEG, POS |
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mask_mpmppmpm: dd NEG, POS, NEG, POS, POS, NEG, POS, NEG |
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mask_pmmppmmp: dd POS, NEG, NEG, POS, POS, NEG, NEG, POS |
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mask_pmpmpmpm: times 4 dd POS, NEG |
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SECTION .text |
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; Load complex values (64 bits) via a lookup table |
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; %1 - output register |
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; %2 - GRP of base input memory address |
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; %3 - GPR of LUT (int32_t indices) address |
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; %4 - LUT offset |
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; %5 - temporary GPR (only used if vgather is not used) |
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; %6 - temporary register (for avx only) |
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; %7 - temporary register (for avx only, enables vgatherdpd (AVX2) if FMA3 is set) |
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%macro LOAD64_LUT 5-7 |
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%if %0 > 6 && cpuflag(avx2) |
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pcmpeqd %6, %6 ; pcmpeqq has a 0.5 throughput on Zen 3, this has 0.25 |
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movapd xmm%7, [%3 + %4] ; float mov since vgatherdpd is a float instruction |
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vgatherdpd %1, [%2 + xmm%7*8], %6 ; must use separate registers for args |
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%else |
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mov %5d, [%3 + %4 + 0] |
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movsd xmm%1, [%2 + %5q*8] |
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%if mmsize == 32 |
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mov %5d, [%3 + %4 + 8] |
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movsd xmm%6, [%2 + %5q*8] |
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%endif |
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mov %5d, [%3 + %4 + 4] |
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movhps xmm%1, [%2 + %5q*8] |
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%if mmsize == 32 |
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mov %5d, [%3 + %4 + 12] |
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movhps xmm%6, [%2 + %5q*8] |
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vinsertf128 %1, %1, xmm%6, 1 |
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%endif |
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%endif |
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%endmacro |
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; Single 2-point in-place complex FFT (will do 2 transforms at once in AVX mode) |
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; %1 - coefficients (r0.reim, r1.reim) |
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; %2 - temporary |
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%macro FFT2 2 |
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shufps %2, %1, %1, q3322 |
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shufps %1, %1, %1, q1100 |
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addsubps %1, %1, %2 |
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shufps %1, %1, %1, q2031 |
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%endmacro |
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; Single 4-point in-place complex FFT (will do 2 transforms at once in [AVX] mode) |
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; %1 - even coefficients (r0.reim, r2.reim, r4.reim, r6.reim) |
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; %2 - odd coefficients (r1.reim, r3.reim, r5.reim, r7.reim) |
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; %3 - temporary |
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%macro FFT4 3 |
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subps %3, %1, %2 ; r1234, [r5678] |
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addps %1, %1, %2 ; t1234, [t5678] |
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shufps %2, %1, %3, q1010 ; t12, r12 |
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shufps %1, %1, %3, q2332 ; t34, r43 |
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subps %3, %2, %1 ; a34, b32 |
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addps %2, %2, %1 ; a12, b14 |
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shufps %1, %2, %3, q1010 ; a1234 even |
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shufps %2, %2, %3, q2332 ; b1423 |
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shufps %2, %2, %2, q1320 ; b1234 odd |
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%endmacro |
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; Single/Dual 8-point in-place complex FFT (will do 2 transforms in [AVX] mode) |
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; %1 - even coefficients (a0.reim, a2.reim, [b0.reim, b2.reim]) |
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; %2 - even coefficients (a4.reim, a6.reim, [b4.reim, b6.reim]) |
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; %3 - odd coefficients (a1.reim, a3.reim, [b1.reim, b3.reim]) |
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; %4 - odd coefficients (a5.reim, a7.reim, [b5.reim, b7.reim]) |
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; %5 - temporary |
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; %6 - temporary |
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%macro FFT8 6 |
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addps %5, %1, %3 ; q1-8 |
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addps %6, %2, %4 ; k1-8 |
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subps %1, %1, %3 ; r1-8 |
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subps %2, %2, %4 ; j1-8 |
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shufps %4, %1, %1, q2323 ; r4343 |
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shufps %3, %5, %6, q3032 ; q34, k14 |
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shufps %1, %1, %1, q1010 ; r1212 |
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shufps %5, %5, %6, q1210 ; q12, k32 |
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xorps %4, %4, [mask_pmmppmmp] ; r4343 * pmmp |
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addps %6, %5, %3 ; s12, g12 |
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mulps %2, %2, [d8_mult_odd] ; r8 * d8_mult_odd |
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subps %5, %5, %3 ; s34, g43 |
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addps %3, %1, %4 ; z1234 |
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unpcklpd %1, %6, %5 ; s1234 |
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shufps %4, %2, %2, q2301 ; j2143 |
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shufps %6, %6, %5, q2332 ; g1234 |
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addsubps %2, %2, %4 ; l2143 |
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shufps %5, %2, %2, q0123 ; l3412 |
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addsubps %5, %5, %2 ; t1234 |
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subps %2, %1, %6 ; h1234 even |
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subps %4, %3, %5 ; u1234 odd |
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addps %1, %1, %6 ; w1234 even |
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addps %3, %3, %5 ; o1234 odd |
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%endmacro |
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; Single 8-point in-place complex FFT in 20 instructions |
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; %1 - even coefficients (r0.reim, r2.reim, r4.reim, r6.reim) |
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; %2 - odd coefficients (r1.reim, r3.reim, r5.reim, r7.reim) |
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; %3 - temporary |
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; %4 - temporary |
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%macro FFT8_AVX 4 |
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subps %3, %1, %2 ; r1234, r5678 |
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addps %1, %1, %2 ; q1234, q5678 |
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vpermilps %2, %3, [s8_perm_odd1] ; r4422, r6688 |
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shufps %4, %1, %1, q3322 ; q1122, q5566 |
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movsldup %3, %3 ; r1133, r5577 |
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shufps %1, %1, %1, q1100 ; q3344, q7788 |
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addsubps %3, %3, %2 ; z1234, z5678 |
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addsubps %1, %1, %4 ; s3142, s7586 |
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mulps %3, %3, [s8_mult_odd] ; z * s8_mult_odd |
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vpermilps %1, %1, [s8_perm_even] ; s1234, s5687 ! |
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shufps %2, %3, %3, q2332 ; junk, z7887 |
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xorps %4, %1, [mask_mmmmpppm] ; e1234, e5687 ! |
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vpermilps %3, %3, [s8_perm_odd2] ; z2314, z6556 |
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vperm2f128 %1, %1, %4, 0x03 ; e5687, s1234 |
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addsubps %2, %2, %3 ; junk, t5678 |
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subps %1, %1, %4 ; w1234, w5678 even |
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vperm2f128 %2, %2, %2, 0x11 ; t5678, t5678 |
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vperm2f128 %3, %3, %3, 0x00 ; z2314, z2314 |
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xorps %2, %2, [mask_ppmpmmpm] ; t * ppmpmmpm |
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addps %2, %3, %2 ; u1234, u5678 odd |
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%endmacro |
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; Single 16-point in-place complex FFT |
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; %1 - even coefficients (r0.reim, r2.reim, r4.reim, r6.reim) |
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; %2 - even coefficients (r8.reim, r10.reim, r12.reim, r14.reim) |
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; %3 - odd coefficients (r1.reim, r3.reim, r5.reim, r7.reim) |
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; %4 - odd coefficients (r9.reim, r11.reim, r13.reim, r15.reim) |
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; %5, %6 - temporary |
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; %7, %8 - temporary (optional) |
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%macro FFT16 6-8 |
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FFT4 %3, %4, %5 |
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%if %0 > 7 |
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FFT8_AVX %1, %2, %6, %7 |
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movaps %8, [mask_mpmppmpm] |
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movaps %7, [s16_perm] |
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%define mask %8 |
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%define perm %7 |
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%elif %0 > 6 |
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FFT8_AVX %1, %2, %6, %7 |
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movaps %7, [s16_perm] |
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%define mask [mask_mpmppmpm] |
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%define perm %7 |
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%else |
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FFT8_AVX %1, %2, %6, %5 |
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%define mask [mask_mpmppmpm] |
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%define perm [s16_perm] |
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%endif |
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xorps %5, %5, %5 ; 0 |
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shufps %6, %4, %4, q2301 ; z12.imre, z13.imre... |
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shufps %5, %5, %3, q2301 ; 0, 0, z8.imre... |
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mulps %4, %4, [s16_mult_odd1] ; z.reim * costab |
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xorps %5, %5, [mask_mppmmpmp] |
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%if cpuflag(fma3) |
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fmaddps %6, %6, [s16_mult_odd2], %4 ; s[8..15] |
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addps %5, %3, %5 ; s[0...7] |
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%else |
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mulps %6, %6, [s16_mult_odd2] ; z.imre * costab |
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addps %5, %3, %5 ; s[0...7] |
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addps %6, %4, %6 ; s[8..15] |
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%endif |
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mulps %5, %5, [s16_mult_even] ; s[0...7]*costab |
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xorps %4, %6, mask ; s[8..15]*mpmppmpm |
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xorps %3, %5, mask ; s[0...7]*mpmppmpm |
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vperm2f128 %4, %4, %4, 0x01 ; s[12..15, 8..11] |
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vperm2f128 %3, %3, %3, 0x01 ; s[4..7, 0..3] |
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addps %6, %6, %4 ; y56, u56, y34, u34 |
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addps %5, %5, %3 ; w56, x56, w34, x34 |
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vpermilps %6, %6, perm ; y56, u56, y43, u43 |
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vpermilps %5, %5, perm ; w56, x56, w43, x43 |
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subps %4, %2, %6 ; odd part 2 |
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addps %3, %2, %6 ; odd part 1 |
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subps %2, %1, %5 ; even part 2 |
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addps %1, %1, %5 ; even part 1 |
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%undef mask |
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%undef perm |
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%endmacro |
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; Cobmines m0...m8 (tx1[even, even, odd, odd], tx2,3[even], tx2,3[odd]) coeffs |
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; Uses all 16 of registers. |
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; Output is slightly permuted such that tx2,3's coefficients are interleaved |
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; on a 2-point basis (look at `doc/transforms.md`) |
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%macro SPLIT_RADIX_COMBINE 17 |
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%if %1 && mmsize == 32 |
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vperm2f128 %14, %6, %7, 0x20 ; m2[0], m2[1], m3[0], m3[1] even |
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vperm2f128 %16, %9, %8, 0x20 ; m2[0], m2[1], m3[0], m3[1] odd |
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vperm2f128 %15, %6, %7, 0x31 ; m2[2], m2[3], m3[2], m3[3] even |
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vperm2f128 %17, %9, %8, 0x31 ; m2[2], m2[3], m3[2], m3[3] odd |
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%endif |
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shufps %12, %10, %10, q2200 ; cos00224466 |
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shufps %13, %11, %11, q1133 ; wim77553311 |
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movshdup %10, %10 ; cos11335577 |
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shufps %11, %11, %11, q0022 ; wim66442200 |
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%if %1 && mmsize == 32 |
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shufps %6, %14, %14, q2301 ; m2[0].imre, m2[1].imre, m2[2].imre, m2[3].imre even |
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shufps %8, %16, %16, q2301 ; m2[0].imre, m2[1].imre, m2[2].imre, m2[3].imre odd |
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shufps %7, %15, %15, q2301 ; m3[0].imre, m3[1].imre, m3[2].imre, m3[3].imre even |
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shufps %9, %17, %17, q2301 ; m3[0].imre, m3[1].imre, m3[2].imre, m3[3].imre odd |
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mulps %14, %14, %13 ; m2[0123]reim * wim7531 even |
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mulps %16, %16, %11 ; m2[0123]reim * wim7531 odd |
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mulps %15, %15, %13 ; m3[0123]reim * wim7531 even |
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mulps %17, %17, %11 ; m3[0123]reim * wim7531 odd |
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%else |
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mulps %14, %6, %13 ; m2,3[01]reim * wim7531 even |
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mulps %16, %8, %11 ; m2,3[01]reim * wim7531 odd |
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mulps %15, %7, %13 ; m2,3[23]reim * wim7531 even |
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mulps %17, %9, %11 ; m2,3[23]reim * wim7531 odd |
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; reorder the multiplies to save movs reg, reg in the %if above |
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shufps %6, %6, %6, q2301 ; m2[0].imre, m2[1].imre, m3[0].imre, m3[1].imre even |
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shufps %8, %8, %8, q2301 ; m2[0].imre, m2[1].imre, m3[0].imre, m3[1].imre odd |
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shufps %7, %7, %7, q2301 ; m2[2].imre, m2[3].imre, m3[2].imre, m3[3].imre even |
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shufps %9, %9, %9, q2301 ; m2[2].imre, m2[3].imre, m3[2].imre, m3[3].imre odd |
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%endif |
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%if cpuflag(fma3) ; 11 - 5 = 6 instructions saved through FMA! |
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fmaddsubps %6, %6, %12, %14 ; w[0..8] even |
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fmaddsubps %8, %8, %10, %16 ; w[0..8] odd |
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fmsubaddps %7, %7, %12, %15 ; j[0..8] even |
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fmsubaddps %9, %9, %10, %17 ; j[0..8] odd |
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movaps %13, [mask_pmpmpmpm] ; "subaddps? pfft, who needs that!" |
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%else |
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mulps %6, %6, %12 ; m2,3[01]imre * cos0246 |
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mulps %8, %8, %10 ; m2,3[01]imre * cos0246 |
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movaps %13, [mask_pmpmpmpm] ; "subaddps? pfft, who needs that!" |
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mulps %7, %7, %12 ; m2,3[23]reim * cos0246 |
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mulps %9, %9, %10 ; m2,3[23]reim * cos0246 |
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addsubps %6, %6, %14 ; w[0..8] |
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addsubps %8, %8, %16 ; w[0..8] |
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xorps %15, %15, %13 ; +-m2,3[23]imre * wim7531 |
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xorps %17, %17, %13 ; +-m2,3[23]imre * wim7531 |
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addps %7, %7, %15 ; j[0..8] |
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addps %9, %9, %17 ; j[0..8] |
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%endif |
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addps %14, %6, %7 ; t10235476 even |
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addps %16, %8, %9 ; t10235476 odd |
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subps %15, %6, %7 ; +-r[0..7] even |
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subps %17, %8, %9 ; +-r[0..7] odd |
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shufps %14, %14, %14, q2301 ; t[0..7] even |
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shufps %16, %16, %16, q2301 ; t[0..7] odd |
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xorps %15, %15, %13 ; r[0..7] even |
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xorps %17, %17, %13 ; r[0..7] odd |
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subps %6, %2, %14 ; m2,3[01] even |
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subps %8, %4, %16 ; m2,3[01] odd |
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subps %7, %3, %15 ; m2,3[23] even |
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subps %9, %5, %17 ; m2,3[23] odd |
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addps %2, %2, %14 ; m0 even |
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addps %4, %4, %16 ; m0 odd |
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addps %3, %3, %15 ; m1 even |
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addps %5, %5, %17 ; m1 odd |
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%endmacro |
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; Same as above, only does one parity at a time, takes 3 temporary registers, |
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; however, if the twiddles aren't needed after this, the registers they use |
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; can be used as any of the temporary registers. |
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%macro SPLIT_RADIX_COMBINE_HALF 10 |
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%if %1 |
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shufps %8, %6, %6, q2200 ; cos00224466 |
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shufps %9, %7, %7, q1133 ; wim77553311 |
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%else |
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shufps %8, %6, %6, q3311 ; cos11335577 |
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shufps %9, %7, %7, q0022 ; wim66442200 |
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%endif |
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mulps %10, %4, %9 ; m2,3[01]reim * wim7531 even |
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mulps %9, %9, %5 ; m2,3[23]reim * wim7531 even |
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shufps %4, %4, %4, q2301 ; m2[0].imre, m2[1].imre, m3[0].imre, m3[1].imre even |
|
shufps %5, %5, %5, q2301 ; m2[2].imre, m2[3].imre, m3[2].imre, m3[3].imre even |
|
|
|
%if cpuflag(fma3) |
|
fmaddsubps %4, %4, %8, %10 ; w[0..8] even |
|
fmsubaddps %5, %5, %8, %9 ; j[0..8] even |
|
movaps %10, [mask_pmpmpmpm] |
|
%else |
|
mulps %4, %4, %8 ; m2,3[01]imre * cos0246 |
|
mulps %5, %5, %8 ; m2,3[23]reim * cos0246 |
|
addsubps %4, %4, %10 ; w[0..8] |
|
movaps %10, [mask_pmpmpmpm] |
|
xorps %9, %9, %10 ; +-m2,3[23]imre * wim7531 |
|
addps %5, %5, %9 ; j[0..8] |
|
%endif |
|
|
|
addps %8, %4, %5 ; t10235476 |
|
subps %9, %4, %5 ; +-r[0..7] |
|
|
|
shufps %8, %8, %8, q2301 ; t[0..7] |
|
xorps %9, %9, %10 ; r[0..7] |
|
|
|
subps %4, %2, %8 ; %3,3[01] |
|
subps %5, %3, %9 ; %3,3[23] |
|
|
|
addps %2, %2, %8 ; m0 |
|
addps %3, %3, %9 ; m1 |
|
%endmacro |
|
|
|
; Same as above, tries REALLY hard to use 2 temporary registers. |
|
%macro SPLIT_RADIX_COMBINE_LITE 9 |
|
%if %1 |
|
shufps %8, %6, %6, q2200 ; cos00224466 |
|
shufps %9, %7, %7, q1133 ; wim77553311 |
|
%else |
|
shufps %8, %6, %6, q3311 ; cos11335577 |
|
shufps %9, %7, %7, q0022 ; wim66442200 |
|
%endif |
|
|
|
mulps %9, %9, %4 ; m2,3[01]reim * wim7531 even |
|
shufps %4, %4, %4, q2301 ; m2[0].imre, m2[1].imre, m3[0].imre, m3[1].imre even |
|
|
|
%if cpuflag(fma3) |
|
fmaddsubps %4, %4, %8, %9 ; w[0..8] even |
|
%else |
|
mulps %4, %4, %8 ; m2,3[01]imre * cos0246 |
|
addsubps %4, %4, %9 ; w[0..8] |
|
%endif |
|
|
|
%if %1 |
|
shufps %9, %7, %7, q1133 ; wim77553311 |
|
%else |
|
shufps %9, %7, %7, q0022 ; wim66442200 |
|
%endif |
|
|
|
mulps %9, %9, %5 ; m2,3[23]reim * wim7531 even |
|
shufps %5, %5, %5, q2301 ; m2[2].imre, m2[3].imre, m3[2].imre, m3[3].imre even |
|
%if cpuflag (fma3) |
|
fmsubaddps %5, %5, %8, %9 ; j[0..8] even |
|
%else |
|
mulps %5, %5, %8 ; m2,3[23]reim * cos0246 |
|
xorps %9, %9, [mask_pmpmpmpm] ; +-m2,3[23]imre * wim7531 |
|
addps %5, %5, %9 ; j[0..8] |
|
%endif |
|
|
|
addps %8, %4, %5 ; t10235476 |
|
subps %9, %4, %5 ; +-r[0..7] |
|
|
|
shufps %8, %8, %8, q2301 ; t[0..7] |
|
xorps %9, %9, [mask_pmpmpmpm] ; r[0..7] |
|
|
|
subps %4, %2, %8 ; %3,3[01] |
|
subps %5, %3, %9 ; %3,3[23] |
|
|
|
addps %2, %2, %8 ; m0 |
|
addps %3, %3, %9 ; m1 |
|
%endmacro |
|
|
|
%macro SPLIT_RADIX_COMBINE_64 0 |
|
SPLIT_RADIX_COMBINE_LITE 1, m0, m1, tx1_e0, tx2_e0, tw_e, tw_o, tmp1, tmp2 |
|
|
|
movaps [outq + 0*mmsize], m0 |
|
movaps [outq + 4*mmsize], m1 |
|
movaps [outq + 8*mmsize], tx1_e0 |
|
movaps [outq + 12*mmsize], tx2_e0 |
|
|
|
SPLIT_RADIX_COMBINE_HALF 0, m2, m3, tx1_o0, tx2_o0, tw_e, tw_o, tmp1, tmp2, m0 |
|
|
|
movaps [outq + 2*mmsize], m2 |
|
movaps [outq + 6*mmsize], m3 |
|
movaps [outq + 10*mmsize], tx1_o0 |
|
movaps [outq + 14*mmsize], tx2_o0 |
|
|
|
movaps tw_e, [tab_64_float + mmsize] |
|
vperm2f128 tw_o, tw_o, [tab_64_float + 64 - 4*7 - mmsize], 0x23 |
|
|
|
movaps m0, [outq + 1*mmsize] |
|
movaps m1, [outq + 3*mmsize] |
|
movaps m2, [outq + 5*mmsize] |
|
movaps m3, [outq + 7*mmsize] |
|
|
|
SPLIT_RADIX_COMBINE 0, m0, m2, m1, m3, tx1_e1, tx2_e1, tx1_o1, tx2_o1, tw_e, tw_o, \ |
|
tmp1, tmp2, tx2_o0, tx1_o0, tx2_e0, tx1_e0 ; temporary registers |
|
|
|
movaps [outq + 1*mmsize], m0 |
|
movaps [outq + 3*mmsize], m1 |
|
movaps [outq + 5*mmsize], m2 |
|
movaps [outq + 7*mmsize], m3 |
|
|
|
movaps [outq + 9*mmsize], tx1_e1 |
|
movaps [outq + 11*mmsize], tx1_o1 |
|
movaps [outq + 13*mmsize], tx2_e1 |
|
movaps [outq + 15*mmsize], tx2_o1 |
|
%endmacro |
|
|
|
; Perform a single even/odd split radix combination with loads and stores |
|
; The _4 indicates this is a quarter of the iterations required to complete a full |
|
; combine loop |
|
; %1 must contain len*2, %2 must contain len*4, %3 must contain len*6 |
|
%macro SPLIT_RADIX_LOAD_COMBINE_4 8 |
|
movaps m8, [rtabq + (%5)*mmsize + %7] |
|
vperm2f128 m9, m9, [itabq - (%5)*mmsize + %8], 0x23 |
|
|
|
movaps m0, [outq + (0 + %4)*mmsize + %6] |
|
movaps m2, [outq + (2 + %4)*mmsize + %6] |
|
movaps m1, [outq + %1 + (0 + %4)*mmsize + %6] |
|
movaps m3, [outq + %1 + (2 + %4)*mmsize + %6] |
|
|
|
movaps m4, [outq + %2 + (0 + %4)*mmsize + %6] |
|
movaps m6, [outq + %2 + (2 + %4)*mmsize + %6] |
|
movaps m5, [outq + %3 + (0 + %4)*mmsize + %6] |
|
movaps m7, [outq + %3 + (2 + %4)*mmsize + %6] |
|
|
|
SPLIT_RADIX_COMBINE 0, m0, m1, m2, m3, \ |
|
m4, m5, m6, m7, \ |
|
m8, m9, \ |
|
m10, m11, m12, m13, m14, m15 |
|
|
|
movaps [outq + (0 + %4)*mmsize + %6], m0 |
|
movaps [outq + (2 + %4)*mmsize + %6], m2 |
|
movaps [outq + %1 + (0 + %4)*mmsize + %6], m1 |
|
movaps [outq + %1 + (2 + %4)*mmsize + %6], m3 |
|
|
|
movaps [outq + %2 + (0 + %4)*mmsize + %6], m4 |
|
movaps [outq + %2 + (2 + %4)*mmsize + %6], m6 |
|
movaps [outq + %3 + (0 + %4)*mmsize + %6], m5 |
|
movaps [outq + %3 + (2 + %4)*mmsize + %6], m7 |
|
%endmacro |
|
|
|
%macro SPLIT_RADIX_LOAD_COMBINE_FULL 2-5 |
|
%if %0 > 2 |
|
%define offset_c %3 |
|
%else |
|
%define offset_c 0 |
|
%endif |
|
%if %0 > 3 |
|
%define offset_r %4 |
|
%else |
|
%define offset_r 0 |
|
%endif |
|
%if %0 > 4 |
|
%define offset_i %5 |
|
%else |
|
%define offset_i 0 |
|
%endif |
|
|
|
SPLIT_RADIX_LOAD_COMBINE_4 %1, 2*%1, %2, 0, 0, offset_c, offset_r, offset_i |
|
SPLIT_RADIX_LOAD_COMBINE_4 %1, 2*%1, %2, 1, 1, offset_c, offset_r, offset_i |
|
SPLIT_RADIX_LOAD_COMBINE_4 %1, 2*%1, %2, 4, 2, offset_c, offset_r, offset_i |
|
SPLIT_RADIX_LOAD_COMBINE_4 %1, 2*%1, %2, 5, 3, offset_c, offset_r, offset_i |
|
%endmacro |
|
|
|
; Perform a single even/odd split radix combination with loads, deinterleaves and |
|
; stores. The _2 indicates this is a half of the iterations required to complete |
|
; a full combine+deinterleave loop |
|
; %3 must contain len*2, %4 must contain len*4, %5 must contain len*6 |
|
%macro SPLIT_RADIX_COMBINE_DEINTERLEAVE_2 6 |
|
movaps m8, [rtabq + (0 + %2)*mmsize] |
|
vperm2f128 m9, m9, [itabq - (0 + %2)*mmsize], 0x23 |
|
|
|
movaps m0, [outq + (0 + 0 + %1)*mmsize + %6] |
|
movaps m2, [outq + (2 + 0 + %1)*mmsize + %6] |
|
movaps m1, [outq + %3 + (0 + 0 + %1)*mmsize + %6] |
|
movaps m3, [outq + %3 + (2 + 0 + %1)*mmsize + %6] |
|
|
|
movaps m4, [outq + %4 + (0 + 0 + %1)*mmsize + %6] |
|
movaps m6, [outq + %4 + (2 + 0 + %1)*mmsize + %6] |
|
movaps m5, [outq + %5 + (0 + 0 + %1)*mmsize + %6] |
|
movaps m7, [outq + %5 + (2 + 0 + %1)*mmsize + %6] |
|
|
|
SPLIT_RADIX_COMBINE 0, m0, m1, m2, m3, \ |
|
m4, m5, m6, m7, \ |
|
m8, m9, \ |
|
m10, m11, m12, m13, m14, m15 |
|
|
|
unpckhpd m10, m0, m2 |
|
unpckhpd m11, m1, m3 |
|
unpckhpd m12, m4, m6 |
|
unpckhpd m13, m5, m7 |
|
unpcklpd m0, m0, m2 |
|
unpcklpd m1, m1, m3 |
|
unpcklpd m4, m4, m6 |
|
unpcklpd m5, m5, m7 |
|
|
|
vextractf128 [outq + (0 + 0 + %1)*mmsize + %6 + 0], m0, 0 |
|
vextractf128 [outq + (0 + 0 + %1)*mmsize + %6 + 16], m10, 0 |
|
vextractf128 [outq + %3 + (0 + 0 + %1)*mmsize + %6 + 0], m1, 0 |
|
vextractf128 [outq + %3 + (0 + 0 + %1)*mmsize + %6 + 16], m11, 0 |
|
|
|
vextractf128 [outq + %4 + (0 + 0 + %1)*mmsize + %6 + 0], m4, 0 |
|
vextractf128 [outq + %4 + (0 + 0 + %1)*mmsize + %6 + 16], m12, 0 |
|
vextractf128 [outq + %5 + (0 + 0 + %1)*mmsize + %6 + 0], m5, 0 |
|
vextractf128 [outq + %5 + (0 + 0 + %1)*mmsize + %6 + 16], m13, 0 |
|
|
|
vperm2f128 m10, m10, m0, 0x13 |
|
vperm2f128 m11, m11, m1, 0x13 |
|
vperm2f128 m12, m12, m4, 0x13 |
|
vperm2f128 m13, m13, m5, 0x13 |
|
|
|
movaps m8, [rtabq + (1 + %2)*mmsize] |
|
vperm2f128 m9, m9, [itabq - (1 + %2)*mmsize], 0x23 |
|
|
|
movaps m0, [outq + (0 + 1 + %1)*mmsize + %6] |
|
movaps m2, [outq + (2 + 1 + %1)*mmsize + %6] |
|
movaps m1, [outq + %3 + (0 + 1 + %1)*mmsize + %6] |
|
movaps m3, [outq + %3 + (2 + 1 + %1)*mmsize + %6] |
|
|
|
movaps [outq + (0 + 1 + %1)*mmsize + %6], m10 ; m0 conflict |
|
movaps [outq + %3 + (0 + 1 + %1)*mmsize + %6], m11 ; m1 conflict |
|
|
|
movaps m4, [outq + %4 + (0 + 1 + %1)*mmsize + %6] |
|
movaps m6, [outq + %4 + (2 + 1 + %1)*mmsize + %6] |
|
movaps m5, [outq + %5 + (0 + 1 + %1)*mmsize + %6] |
|
movaps m7, [outq + %5 + (2 + 1 + %1)*mmsize + %6] |
|
|
|
movaps [outq + %4 + (0 + 1 + %1)*mmsize + %6], m12 ; m4 conflict |
|
movaps [outq + %5 + (0 + 1 + %1)*mmsize + %6], m13 ; m5 conflict |
|
|
|
SPLIT_RADIX_COMBINE 0, m0, m1, m2, m3, \ |
|
m4, m5, m6, m7, \ |
|
m8, m9, \ |
|
m10, m11, m12, m13, m14, m15 ; temporary registers |
|
|
|
unpcklpd m8, m0, m2 |
|
unpcklpd m9, m1, m3 |
|
unpcklpd m10, m4, m6 |
|
unpcklpd m11, m5, m7 |
|
unpckhpd m0, m0, m2 |
|
unpckhpd m1, m1, m3 |
|
unpckhpd m4, m4, m6 |
|
unpckhpd m5, m5, m7 |
|
|
|
vextractf128 [outq + (2 + 0 + %1)*mmsize + %6 + 0], m8, 0 |
|
vextractf128 [outq + (2 + 0 + %1)*mmsize + %6 + 16], m0, 0 |
|
vextractf128 [outq + (2 + 1 + %1)*mmsize + %6 + 0], m8, 1 |
|
vextractf128 [outq + (2 + 1 + %1)*mmsize + %6 + 16], m0, 1 |
|
|
|
vextractf128 [outq + %3 + (2 + 0 + %1)*mmsize + %6 + 0], m9, 0 |
|
vextractf128 [outq + %3 + (2 + 0 + %1)*mmsize + %6 + 16], m1, 0 |
|
vextractf128 [outq + %3 + (2 + 1 + %1)*mmsize + %6 + 0], m9, 1 |
|
vextractf128 [outq + %3 + (2 + 1 + %1)*mmsize + %6 + 16], m1, 1 |
|
|
|
vextractf128 [outq + %4 + (2 + 0 + %1)*mmsize + %6 + 0], m10, 0 |
|
vextractf128 [outq + %4 + (2 + 0 + %1)*mmsize + %6 + 16], m4, 0 |
|
vextractf128 [outq + %4 + (2 + 1 + %1)*mmsize + %6 + 0], m10, 1 |
|
vextractf128 [outq + %4 + (2 + 1 + %1)*mmsize + %6 + 16], m4, 1 |
|
|
|
vextractf128 [outq + %5 + (2 + 0 + %1)*mmsize + %6 + 0], m11, 0 |
|
vextractf128 [outq + %5 + (2 + 0 + %1)*mmsize + %6 + 16], m5, 0 |
|
vextractf128 [outq + %5 + (2 + 1 + %1)*mmsize + %6 + 0], m11, 1 |
|
vextractf128 [outq + %5 + (2 + 1 + %1)*mmsize + %6 + 16], m5, 1 |
|
%endmacro |
|
|
|
%macro SPLIT_RADIX_COMBINE_DEINTERLEAVE_FULL 2-3 |
|
%if %0 > 2 |
|
%define offset %3 |
|
%else |
|
%define offset 0 |
|
%endif |
|
SPLIT_RADIX_COMBINE_DEINTERLEAVE_2 0, 0, %1, %1*2, %2, offset |
|
SPLIT_RADIX_COMBINE_DEINTERLEAVE_2 4, 2, %1, %1*2, %2, offset |
|
%endmacro |
|
|
|
INIT_XMM sse3 |
|
cglobal fft2_float, 4, 4, 2, ctx, out, in, stride |
|
movaps m0, [inq] |
|
FFT2 m0, m1 |
|
movaps [outq], m0 |
|
RET |
|
|
|
%macro FFT4 2 |
|
INIT_XMM sse2 |
|
cglobal fft4_ %+ %1 %+ _float, 4, 4, 3, ctx, out, in, stride |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
|
|
%if %2 |
|
shufps m2, m1, m0, q3210 |
|
shufps m0, m0, m1, q3210 |
|
movaps m1, m2 |
|
%endif |
|
|
|
FFT4 m0, m1, m2 |
|
|
|
unpcklpd m2, m0, m1 |
|
unpckhpd m0, m0, m1 |
|
|
|
movaps [outq + 0*mmsize], m2 |
|
movaps [outq + 1*mmsize], m0 |
|
|
|
RET |
|
%endmacro |
|
|
|
FFT4 fwd, 0 |
|
FFT4 inv, 1 |
|
|
|
%macro FFT8_SSE_FN 2 |
|
INIT_XMM sse3 |
|
cglobal fft8_ %+ %1, 4, 4, 6, ctx, out, in, tmp |
|
%if %2 |
|
mov ctxq, [ctxq + AVTXContext.map] |
|
LOAD64_LUT m0, inq, ctxq, (mmsize/2)*0, tmpq |
|
LOAD64_LUT m1, inq, ctxq, (mmsize/2)*1, tmpq |
|
LOAD64_LUT m2, inq, ctxq, (mmsize/2)*2, tmpq |
|
LOAD64_LUT m3, inq, ctxq, (mmsize/2)*3, tmpq |
|
%else |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
movaps m2, [inq + 2*mmsize] |
|
movaps m3, [inq + 3*mmsize] |
|
%endif |
|
|
|
FFT8 m0, m1, m2, m3, m4, m5 |
|
|
|
unpcklpd m4, m0, m3 |
|
unpcklpd m5, m1, m2 |
|
unpckhpd m0, m0, m3 |
|
unpckhpd m1, m1, m2 |
|
|
|
movups [outq + 0*mmsize], m4 |
|
movups [outq + 1*mmsize], m0 |
|
movups [outq + 2*mmsize], m5 |
|
movups [outq + 3*mmsize], m1 |
|
|
|
RET |
|
%endmacro |
|
|
|
FFT8_SSE_FN float, 1 |
|
FFT8_SSE_FN ns_float, 0 |
|
|
|
%macro FFT8_AVX_FN 2 |
|
INIT_YMM avx |
|
cglobal fft8_ %+ %1, 4, 4, 4, ctx, out, in, tmp |
|
%if %2 |
|
mov ctxq, [ctxq + AVTXContext.map] |
|
LOAD64_LUT m0, inq, ctxq, (mmsize/2)*0, tmpq, m2 |
|
LOAD64_LUT m1, inq, ctxq, (mmsize/2)*1, tmpq, m3 |
|
%else |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
%endif |
|
|
|
FFT8_AVX m0, m1, m2, m3 |
|
|
|
unpcklpd m2, m0, m1 |
|
unpckhpd m0, m0, m1 |
|
|
|
; Around 2% faster than 2x vperm2f128 + 2x movapd |
|
vextractf128 [outq + 16*0], m2, 0 |
|
vextractf128 [outq + 16*1], m0, 0 |
|
vextractf128 [outq + 16*2], m2, 1 |
|
vextractf128 [outq + 16*3], m0, 1 |
|
|
|
RET |
|
%endmacro |
|
|
|
FFT8_AVX_FN float, 1 |
|
FFT8_AVX_FN ns_float, 0 |
|
|
|
%macro FFT16_FN 3 |
|
INIT_YMM %1 |
|
cglobal fft16_ %+ %2, 4, 4, 8, ctx, out, in, tmp |
|
%if %3 |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
movaps m2, [inq + 2*mmsize] |
|
movaps m3, [inq + 3*mmsize] |
|
%else |
|
mov ctxq, [ctxq + AVTXContext.map] |
|
LOAD64_LUT m0, inq, ctxq, (mmsize/2)*0, tmpq, m4 |
|
LOAD64_LUT m1, inq, ctxq, (mmsize/2)*1, tmpq, m5 |
|
LOAD64_LUT m2, inq, ctxq, (mmsize/2)*2, tmpq, m6 |
|
LOAD64_LUT m3, inq, ctxq, (mmsize/2)*3, tmpq, m7 |
|
%endif |
|
|
|
FFT16 m0, m1, m2, m3, m4, m5, m6, m7 |
|
|
|
unpcklpd m5, m1, m3 |
|
unpcklpd m4, m0, m2 |
|
unpckhpd m1, m1, m3 |
|
unpckhpd m0, m0, m2 |
|
|
|
vextractf128 [outq + 16*0], m4, 0 |
|
vextractf128 [outq + 16*1], m0, 0 |
|
vextractf128 [outq + 16*2], m4, 1 |
|
vextractf128 [outq + 16*3], m0, 1 |
|
vextractf128 [outq + 16*4], m5, 0 |
|
vextractf128 [outq + 16*5], m1, 0 |
|
vextractf128 [outq + 16*6], m5, 1 |
|
vextractf128 [outq + 16*7], m1, 1 |
|
|
|
RET |
|
%endmacro |
|
|
|
FFT16_FN avx, float, 0 |
|
FFT16_FN avx, ns_float, 1 |
|
FFT16_FN fma3, float, 0 |
|
FFT16_FN fma3, ns_float, 1 |
|
|
|
%macro FFT32_FN 3 |
|
INIT_YMM %1 |
|
cglobal fft32_ %+ %2, 4, 4, 16, ctx, out, in, tmp |
|
%if %3 |
|
movaps m4, [inq + 4*mmsize] |
|
movaps m5, [inq + 5*mmsize] |
|
movaps m6, [inq + 6*mmsize] |
|
movaps m7, [inq + 7*mmsize] |
|
%else |
|
mov ctxq, [ctxq + AVTXContext.map] |
|
LOAD64_LUT m4, inq, ctxq, (mmsize/2)*4, tmpq, m8, m12 |
|
LOAD64_LUT m5, inq, ctxq, (mmsize/2)*5, tmpq, m9, m13 |
|
LOAD64_LUT m6, inq, ctxq, (mmsize/2)*6, tmpq, m10, m14 |
|
LOAD64_LUT m7, inq, ctxq, (mmsize/2)*7, tmpq, m11, m15 |
|
%endif |
|
|
|
FFT8 m4, m5, m6, m7, m8, m9 |
|
|
|
%if %3 |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
movaps m2, [inq + 2*mmsize] |
|
movaps m3, [inq + 3*mmsize] |
|
%else |
|
LOAD64_LUT m0, inq, ctxq, (mmsize/2)*0, tmpq, m8, m12 |
|
LOAD64_LUT m1, inq, ctxq, (mmsize/2)*1, tmpq, m9, m13 |
|
LOAD64_LUT m2, inq, ctxq, (mmsize/2)*2, tmpq, m10, m14 |
|
LOAD64_LUT m3, inq, ctxq, (mmsize/2)*3, tmpq, m11, m15 |
|
%endif |
|
|
|
movaps m8, [tab_32_float] |
|
vperm2f128 m9, m9, [tab_32_float + 4*8 - 4*7], 0x23 |
|
|
|
FFT16 m0, m1, m2, m3, m10, m11, m12, m13 |
|
|
|
SPLIT_RADIX_COMBINE 1, m0, m1, m2, m3, m4, m5, m6, m7, m8, m9, \ |
|
m10, m11, m12, m13, m14, m15 ; temporary registers |
|
|
|
unpcklpd m9, m1, m3 |
|
unpcklpd m10, m5, m7 |
|
unpcklpd m8, m0, m2 |
|
unpcklpd m11, m4, m6 |
|
unpckhpd m1, m1, m3 |
|
unpckhpd m5, m5, m7 |
|
unpckhpd m0, m0, m2 |
|
unpckhpd m4, m4, m6 |
|
|
|
vextractf128 [outq + 16* 0], m8, 0 |
|
vextractf128 [outq + 16* 1], m0, 0 |
|
vextractf128 [outq + 16* 2], m8, 1 |
|
vextractf128 [outq + 16* 3], m0, 1 |
|
vextractf128 [outq + 16* 4], m9, 0 |
|
vextractf128 [outq + 16* 5], m1, 0 |
|
vextractf128 [outq + 16* 6], m9, 1 |
|
vextractf128 [outq + 16* 7], m1, 1 |
|
|
|
vextractf128 [outq + 16* 8], m11, 0 |
|
vextractf128 [outq + 16* 9], m4, 0 |
|
vextractf128 [outq + 16*10], m11, 1 |
|
vextractf128 [outq + 16*11], m4, 1 |
|
vextractf128 [outq + 16*12], m10, 0 |
|
vextractf128 [outq + 16*13], m5, 0 |
|
vextractf128 [outq + 16*14], m10, 1 |
|
vextractf128 [outq + 16*15], m5, 1 |
|
|
|
RET |
|
%endmacro |
|
|
|
%if ARCH_X86_64 |
|
FFT32_FN avx, float, 0 |
|
FFT32_FN avx, ns_float, 1 |
|
FFT32_FN fma3, float, 0 |
|
FFT32_FN fma3, ns_float, 1 |
|
%endif |
|
|
|
%macro FFT_SPLIT_RADIX_DEF 1-2 |
|
ALIGN 16 |
|
.%1 %+ pt: |
|
PUSH lenq |
|
mov lenq, (%1/4) |
|
|
|
add outq, (%1*4) - (%1/1) |
|
call .32pt |
|
|
|
add outq, (%1*2) - (%1/2) ; the synth loops also increment outq |
|
call .32pt |
|
|
|
POP lenq |
|
sub outq, (%1*4) + (%1*2) + (%1/2) |
|
|
|
lea rtabq, [tab_ %+ %1 %+ _float] |
|
lea itabq, [tab_ %+ %1 %+ _float + %1 - 4*7] |
|
|
|
%if %0 > 1 |
|
cmp tgtq, %1 |
|
je .deinterleave |
|
|
|
mov tmpq, %1 |
|
|
|
.synth_ %+ %1: |
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*%1, 6*%1, 0, 0, 0 |
|
add outq, 8*mmsize |
|
add rtabq, 4*mmsize |
|
sub itabq, 4*mmsize |
|
sub tmpq, 4*mmsize |
|
jg .synth_ %+ %1 |
|
|
|
cmp lenq, %1 |
|
jg %2 ; can't do math here, nasm doesn't get it |
|
ret |
|
%endif |
|
%endmacro |
|
|
|
%macro FFT_SPLIT_RADIX_FN 3 |
|
INIT_YMM %1 |
|
cglobal fft_sr_ %+ %2, 4, 8, 16, 272, lut, out, in, len, tmp, itab, rtab, tgt |
|
movsxd lenq, dword [lutq + AVTXContext.len] |
|
mov lutq, [lutq + AVTXContext.map] |
|
mov tgtq, lenq |
|
|
|
; Bottom-most/32-point transform =============================================== |
|
ALIGN 16 |
|
.32pt: |
|
%if %3 |
|
movaps m4, [inq + 4*mmsize] |
|
movaps m5, [inq + 5*mmsize] |
|
movaps m6, [inq + 6*mmsize] |
|
movaps m7, [inq + 7*mmsize] |
|
%else |
|
LOAD64_LUT m4, inq, lutq, (mmsize/2)*4, tmpq, m8, m12 |
|
LOAD64_LUT m5, inq, lutq, (mmsize/2)*5, tmpq, m9, m13 |
|
LOAD64_LUT m6, inq, lutq, (mmsize/2)*6, tmpq, m10, m14 |
|
LOAD64_LUT m7, inq, lutq, (mmsize/2)*7, tmpq, m11, m15 |
|
%endif |
|
|
|
FFT8 m4, m5, m6, m7, m8, m9 |
|
|
|
%if %3 |
|
movaps m0, [inq + 0*mmsize] |
|
movaps m1, [inq + 1*mmsize] |
|
movaps m2, [inq + 2*mmsize] |
|
movaps m3, [inq + 3*mmsize] |
|
%else |
|
LOAD64_LUT m0, inq, lutq, (mmsize/2)*0, tmpq, m8, m12 |
|
LOAD64_LUT m1, inq, lutq, (mmsize/2)*1, tmpq, m9, m13 |
|
LOAD64_LUT m2, inq, lutq, (mmsize/2)*2, tmpq, m10, m14 |
|
LOAD64_LUT m3, inq, lutq, (mmsize/2)*3, tmpq, m11, m15 |
|
%endif |
|
|
|
movaps m8, [tab_32_float] |
|
vperm2f128 m9, m9, [tab_32_float + 32 - 4*7], 0x23 |
|
|
|
FFT16 m0, m1, m2, m3, m10, m11, m12, m13 |
|
|
|
SPLIT_RADIX_COMBINE 1, m0, m1, m2, m3, m4, m5, m6, m7, m8, m9, \ |
|
m10, m11, m12, m13, m14, m15 ; temporary registers |
|
|
|
movaps [outq + 1*mmsize], m1 |
|
movaps [outq + 3*mmsize], m3 |
|
movaps [outq + 5*mmsize], m5 |
|
movaps [outq + 7*mmsize], m7 |
|
|
|
%if %3 |
|
add inq, 8*mmsize |
|
%else |
|
add lutq, (mmsize/2)*8 |
|
%endif |
|
cmp lenq, 32 |
|
jg .64pt |
|
|
|
movaps [outq + 0*mmsize], m0 |
|
movaps [outq + 2*mmsize], m2 |
|
movaps [outq + 4*mmsize], m4 |
|
movaps [outq + 6*mmsize], m6 |
|
|
|
ret |
|
|
|
; 64-point transform =========================================================== |
|
ALIGN 16 |
|
.64pt: |
|
; Helper defines, these make it easier to track what's happening |
|
%define tx1_e0 m4 |
|
%define tx1_e1 m5 |
|
%define tx1_o0 m6 |
|
%define tx1_o1 m7 |
|
%define tx2_e0 m8 |
|
%define tx2_e1 m9 |
|
%define tx2_o0 m10 |
|
%define tx2_o1 m11 |
|
%define tw_e m12 |
|
%define tw_o m13 |
|
%define tmp1 m14 |
|
%define tmp2 m15 |
|
|
|
SWAP m4, m1 |
|
SWAP m6, m3 |
|
|
|
%if %3 |
|
movaps tx1_e0, [inq + 0*mmsize] |
|
movaps tx1_e1, [inq + 1*mmsize] |
|
movaps tx1_o0, [inq + 2*mmsize] |
|
movaps tx1_o1, [inq + 3*mmsize] |
|
%else |
|
LOAD64_LUT tx1_e0, inq, lutq, (mmsize/2)*0, tmpq, tw_e, tmp1 |
|
LOAD64_LUT tx1_e1, inq, lutq, (mmsize/2)*1, tmpq, tw_o, tmp2 |
|
LOAD64_LUT tx1_o0, inq, lutq, (mmsize/2)*2, tmpq, tw_e, tmp1 |
|
LOAD64_LUT tx1_o1, inq, lutq, (mmsize/2)*3, tmpq, tw_o, tmp2 |
|
%endif |
|
|
|
FFT16 tx1_e0, tx1_e1, tx1_o0, tx1_o1, tw_e, tw_o, tx2_o0, tx2_o1 |
|
|
|
%if %3 |
|
movaps tx2_e0, [inq + 4*mmsize] |
|
movaps tx2_e1, [inq + 5*mmsize] |
|
movaps tx2_o0, [inq + 6*mmsize] |
|
movaps tx2_o1, [inq + 7*mmsize] |
|
%else |
|
LOAD64_LUT tx2_e0, inq, lutq, (mmsize/2)*4, tmpq, tw_e, tmp1 |
|
LOAD64_LUT tx2_e1, inq, lutq, (mmsize/2)*5, tmpq, tw_o, tmp2 |
|
LOAD64_LUT tx2_o0, inq, lutq, (mmsize/2)*6, tmpq, tw_e, tmp1 |
|
LOAD64_LUT tx2_o1, inq, lutq, (mmsize/2)*7, tmpq, tw_o, tmp2 |
|
%endif |
|
|
|
FFT16 tx2_e0, tx2_e1, tx2_o0, tx2_o1, tmp1, tmp2, tw_e, tw_o |
|
|
|
movaps tw_e, [tab_64_float] |
|
vperm2f128 tw_o, tw_o, [tab_64_float + 64 - 4*7], 0x23 |
|
|
|
%if %3 |
|
add inq, 8*mmsize |
|
%else |
|
add lutq, (mmsize/2)*8 |
|
%endif |
|
cmp tgtq, 64 |
|
je .deinterleave |
|
|
|
SPLIT_RADIX_COMBINE_64 |
|
|
|
cmp lenq, 64 |
|
jg .128pt |
|
ret |
|
|
|
; 128-point transform ========================================================== |
|
ALIGN 16 |
|
.128pt: |
|
PUSH lenq |
|
mov lenq, 32 |
|
|
|
add outq, 16*mmsize |
|
call .32pt |
|
|
|
add outq, 8*mmsize |
|
call .32pt |
|
|
|
POP lenq |
|
sub outq, 24*mmsize |
|
|
|
lea rtabq, [tab_128_float] |
|
lea itabq, [tab_128_float + 128 - 4*7] |
|
|
|
cmp tgtq, 128 |
|
je .deinterleave |
|
|
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*128, 6*128 |
|
|
|
cmp lenq, 128 |
|
jg .256pt |
|
ret |
|
|
|
; 256-point transform ========================================================== |
|
ALIGN 16 |
|
.256pt: |
|
PUSH lenq |
|
mov lenq, 64 |
|
|
|
add outq, 32*mmsize |
|
call .32pt |
|
|
|
add outq, 16*mmsize |
|
call .32pt |
|
|
|
POP lenq |
|
sub outq, 48*mmsize |
|
|
|
lea rtabq, [tab_256_float] |
|
lea itabq, [tab_256_float + 256 - 4*7] |
|
|
|
cmp tgtq, 256 |
|
je .deinterleave |
|
|
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*256, 6*256 |
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*256, 6*256, 8*mmsize, 4*mmsize, -4*mmsize |
|
|
|
cmp lenq, 256 |
|
jg .512pt |
|
ret |
|
|
|
; 512-point transform ========================================================== |
|
ALIGN 16 |
|
.512pt: |
|
PUSH lenq |
|
mov lenq, 128 |
|
|
|
add outq, 64*mmsize |
|
call .32pt |
|
|
|
add outq, 32*mmsize |
|
call .32pt |
|
|
|
POP lenq |
|
sub outq, 96*mmsize |
|
|
|
lea rtabq, [tab_512_float] |
|
lea itabq, [tab_512_float + 512 - 4*7] |
|
|
|
cmp tgtq, 512 |
|
je .deinterleave |
|
|
|
mov tmpq, 4 |
|
|
|
.synth_512: |
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*512, 6*512 |
|
add outq, 8*mmsize |
|
add rtabq, 4*mmsize |
|
sub itabq, 4*mmsize |
|
sub tmpq, 1 |
|
jg .synth_512 |
|
|
|
cmp lenq, 512 |
|
jg .1024pt |
|
ret |
|
|
|
; 1024-point transform ========================================================== |
|
ALIGN 16 |
|
.1024pt: |
|
PUSH lenq |
|
mov lenq, 256 |
|
|
|
add outq, 96*mmsize |
|
call .32pt |
|
|
|
add outq, 64*mmsize |
|
call .32pt |
|
|
|
POP lenq |
|
sub outq, 192*mmsize |
|
|
|
lea rtabq, [tab_1024_float] |
|
lea itabq, [tab_1024_float + 1024 - 4*7] |
|
|
|
cmp tgtq, 1024 |
|
je .deinterleave |
|
|
|
mov tmpq, 8 |
|
|
|
.synth_1024: |
|
SPLIT_RADIX_LOAD_COMBINE_FULL 2*1024, 6*1024 |
|
add outq, 8*mmsize |
|
add rtabq, 4*mmsize |
|
sub itabq, 4*mmsize |
|
sub tmpq, 1 |
|
jg .synth_1024 |
|
|
|
cmp lenq, 1024 |
|
jg .2048pt |
|
ret |
|
|
|
; 2048 to 131072-point transforms ============================================== |
|
FFT_SPLIT_RADIX_DEF 2048, .4096pt |
|
FFT_SPLIT_RADIX_DEF 4096, .8192pt |
|
FFT_SPLIT_RADIX_DEF 8192, .16384pt |
|
FFT_SPLIT_RADIX_DEF 16384, .32768pt |
|
FFT_SPLIT_RADIX_DEF 32768, .65536pt |
|
FFT_SPLIT_RADIX_DEF 65536, .131072pt |
|
FFT_SPLIT_RADIX_DEF 131072 |
|
|
|
;=============================================================================== |
|
; Final synthesis + deinterleaving code |
|
;=============================================================================== |
|
.deinterleave: |
|
cmp lenq, 64 |
|
je .64pt_deint |
|
|
|
imul tmpq, lenq, 2 |
|
lea lutq, [4*lenq + tmpq] |
|
|
|
.synth_deinterleave: |
|
SPLIT_RADIX_COMBINE_DEINTERLEAVE_FULL tmpq, lutq |
|
add outq, 8*mmsize |
|
add rtabq, 4*mmsize |
|
sub itabq, 4*mmsize |
|
sub lenq, 4*mmsize |
|
jg .synth_deinterleave |
|
|
|
RET |
|
|
|
; 64-point deinterleave which only has to load 4 registers ===================== |
|
.64pt_deint: |
|
SPLIT_RADIX_COMBINE_LITE 1, m0, m1, tx1_e0, tx2_e0, tw_e, tw_o, tmp1, tmp2 |
|
SPLIT_RADIX_COMBINE_HALF 0, m2, m3, tx1_o0, tx2_o0, tw_e, tw_o, tmp1, tmp2, tw_e |
|
|
|
unpcklpd tmp1, m0, m2 |
|
unpcklpd tmp2, m1, m3 |
|
unpcklpd tw_o, tx1_e0, tx1_o0 |
|
unpcklpd tw_e, tx2_e0, tx2_o0 |
|
unpckhpd m0, m0, m2 |
|
unpckhpd m1, m1, m3 |
|
unpckhpd tx1_e0, tx1_e0, tx1_o0 |
|
unpckhpd tx2_e0, tx2_e0, tx2_o0 |
|
|
|
vextractf128 [outq + 0*mmsize + 0], tmp1, 0 |
|
vextractf128 [outq + 0*mmsize + 16], m0, 0 |
|
vextractf128 [outq + 4*mmsize + 0], tmp2, 0 |
|
vextractf128 [outq + 4*mmsize + 16], m1, 0 |
|
|
|
vextractf128 [outq + 8*mmsize + 0], tw_o, 0 |
|
vextractf128 [outq + 8*mmsize + 16], tx1_e0, 0 |
|
vextractf128 [outq + 9*mmsize + 0], tw_o, 1 |
|
vextractf128 [outq + 9*mmsize + 16], tx1_e0, 1 |
|
|
|
vperm2f128 tmp1, tmp1, m0, 0x31 |
|
vperm2f128 tmp2, tmp2, m1, 0x31 |
|
|
|
vextractf128 [outq + 12*mmsize + 0], tw_e, 0 |
|
vextractf128 [outq + 12*mmsize + 16], tx2_e0, 0 |
|
vextractf128 [outq + 13*mmsize + 0], tw_e, 1 |
|
vextractf128 [outq + 13*mmsize + 16], tx2_e0, 1 |
|
|
|
movaps tw_e, [tab_64_float + mmsize] |
|
vperm2f128 tw_o, tw_o, [tab_64_float + 64 - 4*7 - mmsize], 0x23 |
|
|
|
movaps m0, [outq + 1*mmsize] |
|
movaps m1, [outq + 3*mmsize] |
|
movaps m2, [outq + 5*mmsize] |
|
movaps m3, [outq + 7*mmsize] |
|
|
|
movaps [outq + 1*mmsize], tmp1 |
|
movaps [outq + 5*mmsize], tmp2 |
|
|
|
SPLIT_RADIX_COMBINE 0, m0, m2, m1, m3, tx1_e1, tx2_e1, tx1_o1, tx2_o1, tw_e, tw_o, \ |
|
tmp1, tmp2, tx2_o0, tx1_o0, tx2_e0, tx1_e0 ; temporary registers |
|
|
|
unpcklpd tmp1, m0, m1 |
|
unpcklpd tmp2, m2, m3 |
|
unpcklpd tw_e, tx1_e1, tx1_o1 |
|
unpcklpd tw_o, tx2_e1, tx2_o1 |
|
unpckhpd m0, m0, m1 |
|
unpckhpd m2, m2, m3 |
|
unpckhpd tx1_e1, tx1_e1, tx1_o1 |
|
unpckhpd tx2_e1, tx2_e1, tx2_o1 |
|
|
|
vextractf128 [outq + 2*mmsize + 0], tmp1, 0 |
|
vextractf128 [outq + 2*mmsize + 16], m0, 0 |
|
vextractf128 [outq + 3*mmsize + 0], tmp1, 1 |
|
vextractf128 [outq + 3*mmsize + 16], m0, 1 |
|
|
|
vextractf128 [outq + 6*mmsize + 0], tmp2, 0 |
|
vextractf128 [outq + 6*mmsize + 16], m2, 0 |
|
vextractf128 [outq + 7*mmsize + 0], tmp2, 1 |
|
vextractf128 [outq + 7*mmsize + 16], m2, 1 |
|
|
|
vextractf128 [outq + 10*mmsize + 0], tw_e, 0 |
|
vextractf128 [outq + 10*mmsize + 16], tx1_e1, 0 |
|
vextractf128 [outq + 11*mmsize + 0], tw_e, 1 |
|
vextractf128 [outq + 11*mmsize + 16], tx1_e1, 1 |
|
|
|
vextractf128 [outq + 14*mmsize + 0], tw_o, 0 |
|
vextractf128 [outq + 14*mmsize + 16], tx2_e1, 0 |
|
vextractf128 [outq + 15*mmsize + 0], tw_o, 1 |
|
vextractf128 [outq + 15*mmsize + 16], tx2_e1, 1 |
|
|
|
RET |
|
%endmacro |
|
|
|
%if ARCH_X86_64 |
|
FFT_SPLIT_RADIX_FN fma3, float, 0 |
|
FFT_SPLIT_RADIX_FN fma3, ns_float, 1 |
|
%if HAVE_AVX2_EXTERNAL |
|
FFT_SPLIT_RADIX_FN avx2, float, 0 |
|
FFT_SPLIT_RADIX_FN avx2, ns_float, 1 |
|
%endif |
|
%endif
|
|
|