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6e4a35ced9
On 32-bit ppc, the GOT pointer must be loaded manually. This adds a "get_got" assembler macro to compute the GOT address. The "movrel" macro is updated to take an additional parameter containing the GOT address since no register is reserved for this purpose on ppc32. These changes have no effect on ppc64 builds. Signed-off-by: Mans Rullgard <mans@mansr.com>
450 lines
12 KiB
ArmAsm
450 lines
12 KiB
ArmAsm
/*
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* FFT transform with Altivec optimizations
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* Copyright (c) 2009 Loren Merritt
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*
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* This algorithm (though not any of the implementation details) is
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* based on libdjbfft by D. J. Bernstein.
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*
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* This file is part of Libav.
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*
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* Libav 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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* Libav 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 Libav; 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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/*
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* These functions are not individually interchangeable with the C versions.
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* While C takes arrays of FFTComplex, Altivec leaves intermediate results
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* in blocks as convenient to the vector size.
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* i.e. {4x real, 4x imaginary, 4x real, ...}
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*
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* I ignore standard calling convention.
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* Instead, the following registers are treated as global constants:
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* v14: zero
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* v15..v18: cosines
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* v19..v29: permutations
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* r9: 16
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* r12: ff_cos_tabs
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* and the rest are free for local use.
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*/
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#include "config.h"
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#include "asm.S"
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.text
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.macro addi2 ra, imm // add 32-bit immediate
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.if \imm & 0xffff
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addi \ra, \ra, \imm@l
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.endif
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.if (\imm+0x8000)>>16
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addis \ra, \ra, \imm@ha
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.endif
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.endm
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.macro FFT4 a0, a1, a2, a3 // in:0-1 out:2-3
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vperm \a2,\a0,\a1,v20 // vcprm(0,1,s2,s1) // {r0,i0,r3,i2}
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vperm \a3,\a0,\a1,v21 // vcprm(2,3,s0,s3) // {r1,i1,r2,i3}
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vaddfp \a0,\a2,\a3 // {t1,t2,t6,t5}
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vsubfp \a1,\a2,\a3 // {t3,t4,t8,t7}
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vmrghw \a2,\a0,\a1 // vcprm(0,s0,1,s1) // {t1,t3,t2,t4}
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vperm \a3,\a0,\a1,v22 // vcprm(2,s3,3,s2) // {t6,t7,t5,t8}
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vaddfp \a0,\a2,\a3 // {r0,r1,i0,i1}
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vsubfp \a1,\a2,\a3 // {r2,r3,i2,i3}
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vperm \a2,\a0,\a1,v23 // vcprm(0,1,s0,s1) // {r0,r1,r2,r3}
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vperm \a3,\a0,\a1,v24 // vcprm(2,3,s2,s3) // {i0,i1,i2,i3}
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.endm
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.macro FFT4x2 a0, a1, b0, b1, a2, a3, b2, b3
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vperm \a2,\a0,\a1,v20 // vcprm(0,1,s2,s1) // {r0,i0,r3,i2}
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vperm \a3,\a0,\a1,v21 // vcprm(2,3,s0,s3) // {r1,i1,r2,i3}
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vperm \b2,\b0,\b1,v20
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vperm \b3,\b0,\b1,v21
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vaddfp \a0,\a2,\a3 // {t1,t2,t6,t5}
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vsubfp \a1,\a2,\a3 // {t3,t4,t8,t7}
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vaddfp \b0,\b2,\b3
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vsubfp \b1,\b2,\b3
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vmrghw \a2,\a0,\a1 // vcprm(0,s0,1,s1) // {t1,t3,t2,t4}
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vperm \a3,\a0,\a1,v22 // vcprm(2,s3,3,s2) // {t6,t7,t5,t8}
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vmrghw \b2,\b0,\b1
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vperm \b3,\b0,\b1,v22
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vaddfp \a0,\a2,\a3 // {r0,r1,i0,i1}
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vsubfp \a1,\a2,\a3 // {r2,r3,i2,i3}
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vaddfp \b0,\b2,\b3
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vsubfp \b1,\b2,\b3
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vperm \a2,\a0,\a1,v23 // vcprm(0,1,s0,s1) // {r0,r1,r2,r3}
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vperm \a3,\a0,\a1,v24 // vcprm(2,3,s2,s3) // {i0,i1,i2,i3}
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vperm \b2,\b0,\b1,v23
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vperm \b3,\b0,\b1,v24
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.endm
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.macro FFT8 a0, a1, b0, b1, a2, a3, b2, b3, b4 // in,out:a0-b1
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vmrghw \b2,\b0,\b1 // vcprm(0,s0,1,s1) // {r4,r6,i4,i6}
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vmrglw \b3,\b0,\b1 // vcprm(2,s2,3,s3) // {r5,r7,i5,i7}
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vperm \a2,\a0,\a1,v20 // FFT4 ...
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vperm \a3,\a0,\a1,v21
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vaddfp \b0,\b2,\b3 // {t1,t3,t2,t4}
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vsubfp \b1,\b2,\b3 // {r5,r7,i5,i7}
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vperm \b4,\b1,\b1,v25 // vcprm(2,3,0,1) // {i5,i7,r5,r7}
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vaddfp \a0,\a2,\a3
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vsubfp \a1,\a2,\a3
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vmaddfp \b1,\b1,v17,v14 // * {-1,1,1,-1}/sqrt(2)
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vmaddfp \b1,\b4,v18,\b1 // * { 1,1,1,1 }/sqrt(2) // {t8,ta,t7,t9}
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vmrghw \a2,\a0,\a1
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vperm \a3,\a0,\a1,v22
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vperm \b2,\b0,\b1,v26 // vcprm(1,2,s3,s0) // {t3,t2,t9,t8}
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vperm \b3,\b0,\b1,v27 // vcprm(0,3,s2,s1) // {t1,t4,t7,ta}
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vaddfp \a0,\a2,\a3
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vsubfp \a1,\a2,\a3
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vaddfp \b0,\b2,\b3 // {t1,t2,t9,ta}
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vsubfp \b1,\b2,\b3 // {t6,t5,tc,tb}
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vperm \a2,\a0,\a1,v23
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vperm \a3,\a0,\a1,v24
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vperm \b2,\b0,\b1,v28 // vcprm(0,2,s1,s3) // {t1,t9,t5,tb}
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vperm \b3,\b0,\b1,v29 // vcprm(1,3,s0,s2) // {t2,ta,t6,tc}
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vsubfp \b0,\a2,\b2 // {r4,r5,r6,r7}
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vsubfp \b1,\a3,\b3 // {i4,i5,i6,i7}
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vaddfp \a0,\a2,\b2 // {r0,r1,r2,r3}
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vaddfp \a1,\a3,\b3 // {i0,i1,i2,i3}
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.endm
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.macro BF d0,d1,s0,s1
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vsubfp \d1,\s0,\s1
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vaddfp \d0,\s0,\s1
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.endm
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.macro zip d0,d1,s0,s1
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vmrghw \d0,\s0,\s1
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vmrglw \d1,\s0,\s1
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.endm
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.macro def_fft4 interleave
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fft4\interleave\()_altivec:
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lvx v0, 0,r3
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lvx v1,r9,r3
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FFT4 v0,v1,v2,v3
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.ifnb \interleave
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zip v0,v1,v2,v3
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stvx v0, 0,r3
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stvx v1,r9,r3
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.else
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stvx v2, 0,r3
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stvx v3,r9,r3
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.endif
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blr
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.endm
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.macro def_fft8 interleave
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fft8\interleave\()_altivec:
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addi r4,r3,32
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lvx v0, 0,r3
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lvx v1,r9,r3
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lvx v2, 0,r4
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lvx v3,r9,r4
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FFT8 v0,v1,v2,v3,v4,v5,v6,v7,v8
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.ifnb \interleave
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zip v4,v5,v0,v1
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zip v6,v7,v2,v3
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stvx v4, 0,r3
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stvx v5,r9,r3
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stvx v6, 0,r4
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stvx v7,r9,r4
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.else
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stvx v0, 0,r3
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stvx v1,r9,r3
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stvx v2, 0,r4
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stvx v3,r9,r4
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.endif
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blr
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.endm
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.macro def_fft16 interleave
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fft16\interleave\()_altivec:
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addi r5,r3,64
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addi r6,r3,96
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addi r4,r3,32
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lvx v0, 0,r5
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lvx v1,r9,r5
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lvx v2, 0,r6
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lvx v3,r9,r6
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FFT4x2 v0,v1,v2,v3,v4,v5,v6,v7
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lvx v0, 0,r3
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lvx v1,r9,r3
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lvx v2, 0,r4
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lvx v3,r9,r4
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FFT8 v0,v1,v2,v3,v8,v9,v10,v11,v12
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vmaddfp v8,v4,v15,v14 // r2*wre
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vmaddfp v9,v5,v15,v14 // i2*wre
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vmaddfp v10,v6,v15,v14 // r3*wre
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vmaddfp v11,v7,v15,v14 // i3*wre
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vmaddfp v8,v5,v16,v8 // i2*wim
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vnmsubfp v9,v4,v16,v9 // r2*wim
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vnmsubfp v10,v7,v16,v10 // i3*wim
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vmaddfp v11,v6,v16,v11 // r3*wim
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BF v10,v12,v10,v8
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BF v11,v13,v9,v11
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BF v0,v4,v0,v10
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BF v3,v7,v3,v12
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BF v1,v5,v1,v11
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BF v2,v6,v2,v13
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.ifnb \interleave
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zip v8, v9,v0,v1
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zip v10,v11,v2,v3
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zip v12,v13,v4,v5
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zip v14,v15,v6,v7
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stvx v8, 0,r3
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stvx v9,r9,r3
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stvx v10, 0,r4
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stvx v11,r9,r4
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stvx v12, 0,r5
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stvx v13,r9,r5
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stvx v14, 0,r6
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stvx v15,r9,r6
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.else
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stvx v0, 0,r3
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stvx v4, 0,r5
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stvx v3,r9,r4
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stvx v7,r9,r6
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stvx v1,r9,r3
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stvx v5,r9,r5
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stvx v2, 0,r4
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stvx v6, 0,r6
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.endif
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blr
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.endm
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// void pass(float *z, float *wre, int n)
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.macro PASS interleave, suffix
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fft_pass\suffix\()_altivec:
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mtctr r5
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slwi r0,r5,4
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slwi r7,r5,6 // o2
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slwi r5,r5,5 // o1
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add r10,r5,r7 // o3
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add r0,r4,r0 // wim
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addi r6,r5,16 // o1+16
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addi r8,r7,16 // o2+16
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addi r11,r10,16 // o3+16
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1:
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lvx v8, 0,r4 // wre
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lvx v10, 0,r0 // wim
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sub r0,r0,r9
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lvx v9, 0,r0
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vperm v9,v9,v10,v19 // vcprm(s0,3,2,1) => wim[0 .. -3]
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lvx v4,r3,r7 // r2 = z[o2]
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lvx v5,r3,r8 // i2 = z[o2+16]
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lvx v6,r3,r10 // r3 = z[o3]
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lvx v7,r3,r11 // i3 = z[o3+16]
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vmaddfp v10,v4,v8,v14 // r2*wre
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vmaddfp v11,v5,v8,v14 // i2*wre
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vmaddfp v12,v6,v8,v14 // r3*wre
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vmaddfp v13,v7,v8,v14 // i3*wre
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lvx v0, 0,r3 // r0 = z[0]
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lvx v3,r3,r6 // i1 = z[o1+16]
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vmaddfp v10,v5,v9,v10 // i2*wim
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vnmsubfp v11,v4,v9,v11 // r2*wim
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vnmsubfp v12,v7,v9,v12 // i3*wim
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vmaddfp v13,v6,v9,v13 // r3*wim
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lvx v1,r3,r9 // i0 = z[16]
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lvx v2,r3,r5 // r1 = z[o1]
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BF v12,v8,v12,v10
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BF v13,v9,v11,v13
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BF v0,v4,v0,v12
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BF v3,v7,v3,v8
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.if !\interleave
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stvx v0, 0,r3
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stvx v4,r3,r7
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stvx v3,r3,r6
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stvx v7,r3,r11
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.endif
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BF v1,v5,v1,v13
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BF v2,v6,v2,v9
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.if !\interleave
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stvx v1,r3,r9
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stvx v2,r3,r5
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stvx v5,r3,r8
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stvx v6,r3,r10
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.else
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vmrghw v8,v0,v1
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vmrglw v9,v0,v1
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stvx v8, 0,r3
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stvx v9,r3,r9
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vmrghw v8,v2,v3
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vmrglw v9,v2,v3
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stvx v8,r3,r5
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stvx v9,r3,r6
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vmrghw v8,v4,v5
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vmrglw v9,v4,v5
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stvx v8,r3,r7
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stvx v9,r3,r8
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vmrghw v8,v6,v7
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vmrglw v9,v6,v7
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stvx v8,r3,r10
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stvx v9,r3,r11
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.endif
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addi r3,r3,32
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addi r4,r4,16
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bdnz 1b
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sub r3,r3,r5
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blr
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.endm
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#define M_SQRT1_2 0.70710678118654752440 /* 1/sqrt(2) */
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#define WORD_0 0x00,0x01,0x02,0x03
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#define WORD_1 0x04,0x05,0x06,0x07
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#define WORD_2 0x08,0x09,0x0a,0x0b
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#define WORD_3 0x0c,0x0d,0x0e,0x0f
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#define WORD_s0 0x10,0x11,0x12,0x13
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#define WORD_s1 0x14,0x15,0x16,0x17
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#define WORD_s2 0x18,0x19,0x1a,0x1b
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#define WORD_s3 0x1c,0x1d,0x1e,0x1f
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#define vcprm(a, b, c, d) .byte WORD_##a, WORD_##b, WORD_##c, WORD_##d
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.rodata
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.align 4
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fft_data:
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.float 0, 0, 0, 0
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.float 1, 0.92387953, M_SQRT1_2, 0.38268343
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.float 0, 0.38268343, M_SQRT1_2, 0.92387953
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.float -M_SQRT1_2, M_SQRT1_2, M_SQRT1_2,-M_SQRT1_2
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.float M_SQRT1_2, M_SQRT1_2, M_SQRT1_2, M_SQRT1_2
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vcprm(s0,3,2,1)
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vcprm(0,1,s2,s1)
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vcprm(2,3,s0,s3)
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vcprm(2,s3,3,s2)
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vcprm(0,1,s0,s1)
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vcprm(2,3,s2,s3)
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vcprm(2,3,0,1)
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vcprm(1,2,s3,s0)
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vcprm(0,3,s2,s1)
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vcprm(0,2,s1,s3)
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vcprm(1,3,s0,s2)
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.macro lvm b, r, regs:vararg
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lvx \r, 0, \b
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addi \b, \b, 16
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.ifnb \regs
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lvm \b, \regs
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.endif
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.endm
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.macro stvm b, r, regs:vararg
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stvx \r, 0, \b
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addi \b, \b, 16
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.ifnb \regs
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stvm \b, \regs
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.endif
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.endm
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.macro fft_calc interleave
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extfunc ff_fft_calc\interleave\()_altivec
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mflr r0
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stp r0, 2*PS(r1)
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stpu r1, -(160+16*PS)(r1)
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get_got r11
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addi r6, r1, 16*PS
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stvm r6, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29
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mfvrsave r0
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stw r0, 15*PS(r1)
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li r6, 0xfffffffc
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mtvrsave r6
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movrel r6, fft_data, r11
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lvm r6, v14, v15, v16, v17, v18, v19, v20, v21
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lvm r6, v22, v23, v24, v25, v26, v27, v28, v29
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li r9, 16
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movrel r12, X(ff_cos_tabs), r11
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movrel r6, fft_dispatch_tab\interleave\()_altivec, r11
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lwz r3, 0(r3)
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subi r3, r3, 2
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slwi r3, r3, 2+ARCH_PPC64
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lpx r3, r3, r6
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mtctr r3
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mr r3, r4
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bctrl
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addi r6, r1, 16*PS
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lvm r6, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29
|
|
lwz r6, 15*PS(r1)
|
|
mtvrsave r6
|
|
lp r1, 0(r1)
|
|
lp r0, 2*PS(r1)
|
|
mtlr r0
|
|
blr
|
|
.endm
|
|
|
|
.macro DECL_FFT suffix, bits, n, n2, n4
|
|
fft\n\suffix\()_altivec:
|
|
mflr r0
|
|
stp r0,PS*(\bits-3)(r1)
|
|
bl fft\n2\()_altivec
|
|
addi2 r3,\n*4
|
|
bl fft\n4\()_altivec
|
|
addi2 r3,\n*2
|
|
bl fft\n4\()_altivec
|
|
addi2 r3,\n*-6
|
|
lp r0,PS*(\bits-3)(r1)
|
|
lp r4,\bits*PS(r12)
|
|
mtlr r0
|
|
li r5,\n/16
|
|
b fft_pass\suffix\()_altivec
|
|
.endm
|
|
|
|
.macro DECL_FFTS interleave, suffix
|
|
.text
|
|
def_fft4 \suffix
|
|
def_fft8 \suffix
|
|
def_fft16 \suffix
|
|
PASS \interleave, \suffix
|
|
DECL_FFT \suffix, 5, 32, 16, 8
|
|
DECL_FFT \suffix, 6, 64, 32, 16
|
|
DECL_FFT \suffix, 7, 128, 64, 32
|
|
DECL_FFT \suffix, 8, 256, 128, 64
|
|
DECL_FFT \suffix, 9, 512, 256, 128
|
|
DECL_FFT \suffix,10, 1024, 512, 256
|
|
DECL_FFT \suffix,11, 2048, 1024, 512
|
|
DECL_FFT \suffix,12, 4096, 2048, 1024
|
|
DECL_FFT \suffix,13, 8192, 4096, 2048
|
|
DECL_FFT \suffix,14,16384, 8192, 4096
|
|
DECL_FFT \suffix,15,32768,16384, 8192
|
|
DECL_FFT \suffix,16,65536,32768,16384
|
|
|
|
fft_calc \suffix
|
|
|
|
.rodata
|
|
.align 3
|
|
fft_dispatch_tab\suffix\()_altivec:
|
|
PTR fft4\suffix\()_altivec
|
|
PTR fft8\suffix\()_altivec
|
|
PTR fft16\suffix\()_altivec
|
|
PTR fft32\suffix\()_altivec
|
|
PTR fft64\suffix\()_altivec
|
|
PTR fft128\suffix\()_altivec
|
|
PTR fft256\suffix\()_altivec
|
|
PTR fft512\suffix\()_altivec
|
|
PTR fft1024\suffix\()_altivec
|
|
PTR fft2048\suffix\()_altivec
|
|
PTR fft4096\suffix\()_altivec
|
|
PTR fft8192\suffix\()_altivec
|
|
PTR fft16384\suffix\()_altivec
|
|
PTR fft32768\suffix\()_altivec
|
|
PTR fft65536\suffix\()_altivec
|
|
.endm
|
|
|
|
DECL_FFTS 0
|
|
DECL_FFTS 1, _interleave
|