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283 lines
8.9 KiB
283 lines
8.9 KiB
10 years ago
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/*
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This file is part of FFTS -- The Fastest Fourier Transform in the South
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Copyright (c) 2012, Anthony M. Blake <amb@anthonix.com>
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Copyright (c) 2012, The University of Waikato
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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* Neither the name of the organization nor the
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names of its contributors may be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL ANTHONY M. BLAKE BE LIABLE FOR ANY
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DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "ffts_nd.h"
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#ifdef HAVE_NEON
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#include "neon.h"
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#endif
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void ffts_free_nd(ffts_plan_t *p) {
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int i;
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for(i=0;i<p->rank;i++) {
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ffts_plan_t *x = p->plans[i];
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int k;
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for(k=0;k<i;k++) {
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if(p->Ms[i] == p->Ms[k]) x = NULL;
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}
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if(x) ffts_free(x);
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}
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free(p->Ns);
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free(p->Ms);
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free(p->plans);
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free(p->buf);
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free(p->transpose_buf);
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free(p);
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}
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#define TSIZE 8
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#include <string.h>
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void ffts_transpose(uint64_t *in, uint64_t *out, int w, int h, uint64_t *buf) {
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#ifdef HAVE_NEON
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size_t i,j,k;
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int linebytes = w*8;
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for(j=0;j<h;j+=8) {
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for(i=0;i<w;i+=8) {
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neon_transpose_to_buf(in + j*w + i, buf, w);
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uint64_t *p = out + i*h + j;
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uint64_t *pbuf = buf;
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uint64_t *ptemp;
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__asm__ __volatile__(
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vld1.32 {q8,q9}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q10,q11}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q12,q13}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q14,q15}, [%[pbuf], :128]!\n\t"
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"vst1.32 {q8,q9}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q10,q11}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vst1.32 {q12,q13}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q14,q15}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vld1.32 {q8,q9}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q10,q11}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q12,q13}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q14,q15}, [%[pbuf], :128]!\n\t"
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"vst1.32 {q8,q9}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q10,q11}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vst1.32 {q12,q13}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q14,q15}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vld1.32 {q8,q9}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q10,q11}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q12,q13}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q14,q15}, [%[pbuf], :128]!\n\t"
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"vst1.32 {q8,q9}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q10,q11}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vst1.32 {q12,q13}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q14,q15}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"add %[p], %[p], %[w], lsl #3\n\t"
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"vld1.32 {q8,q9}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q10,q11}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q12,q13}, [%[pbuf], :128]!\n\t"
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"vld1.32 {q14,q15}, [%[pbuf], :128]!\n\t"
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"vst1.32 {q8,q9}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q10,q11}, [%[ptemp], :128]!\n\t"
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"mov %[ptemp], %[p]\n\t"
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"vst1.32 {q12,q13}, [%[ptemp], :128]!\n\t"
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"vst1.32 {q14,q15}, [%[ptemp], :128]!\n\t"
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: [p] "+r" (p), [pbuf] "+r" (pbuf), [ptemp] "+r" (ptemp)
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: [w] "r" (w)
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: "memory", "q8", "q9", "q10", "q11"
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);
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// out[i*h + j] = in[j*w + i];
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}
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}
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#else
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#ifdef HAVE_SSE
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uint64_t tmp[TSIZE*TSIZE] __attribute__((aligned(64)));
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int tx, ty;
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int x, y;
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int tw = w / TSIZE;
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int th = h / TSIZE;
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for (ty=0;ty<th;ty++) {
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for (tx=0;tx<tw;tx++) {
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uint64_t *ip0 = in + w*TSIZE*ty + tx * TSIZE;
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uint64_t *op0 = tmp;//out + h*TSIZE*tx + ty*TSIZE;
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// Copy/transpose to tmp
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for (y=0;y<TSIZE;y+=2) {
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//for (x=0;x<TSIZE;x+=2) {
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//op[x*TSIZE] = ip[x];
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__m128d q0 = _mm_load_pd((double *)(ip0 + 0*w));
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__m128d q1 = _mm_load_pd((double *)(ip0 + 1*w));
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__m128d q2 = _mm_load_pd((double *)(ip0 + 2*w));
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__m128d q3 = _mm_load_pd((double *)(ip0 + 3*w));
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__m128d q4 = _mm_load_pd((double *)(ip0 + 4*w));
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__m128d q5 = _mm_load_pd((double *)(ip0 + 5*w));
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__m128d q6 = _mm_load_pd((double *)(ip0 + 6*w));
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__m128d q7 = _mm_load_pd((double *)(ip0 + 7*w));
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ip0 += 2;
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__m128d t0 = _mm_shuffle_pd(q0, q1, _MM_SHUFFLE2(0, 0));
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__m128d t1 = _mm_shuffle_pd(q0, q1, _MM_SHUFFLE2(1, 1));
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__m128d t2 = _mm_shuffle_pd(q2, q3, _MM_SHUFFLE2(0, 0));
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__m128d t3 = _mm_shuffle_pd(q2, q3, _MM_SHUFFLE2(1, 1));
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__m128d t4 = _mm_shuffle_pd(q4, q5, _MM_SHUFFLE2(0, 0));
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__m128d t5 = _mm_shuffle_pd(q4, q5, _MM_SHUFFLE2(1, 1));
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__m128d t6 = _mm_shuffle_pd(q6, q7, _MM_SHUFFLE2(0, 0));
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__m128d t7 = _mm_shuffle_pd(q6, q7, _MM_SHUFFLE2(1, 1));
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//_mm_store_pd((double *)(op0 + y*h + x), t0);
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//_mm_store_pd((double *)(op0 + y*h + x + h), t1);
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_mm_store_pd((double *)(op0 + 0), t0);
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_mm_store_pd((double *)(op0 + 0 + TSIZE), t1);
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_mm_store_pd((double *)(op0 + 2 ), t2);
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_mm_store_pd((double *)(op0 + 2 + TSIZE), t3);
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_mm_store_pd((double *)(op0 + 4 ), t4);
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_mm_store_pd((double *)(op0 + 4 + TSIZE), t5);
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_mm_store_pd((double *)(op0 + 6 ), t6);
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_mm_store_pd((double *)(op0 + 6 + TSIZE), t7);
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//}
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op0 += 2*TSIZE;
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}
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op0 = out + h*tx*TSIZE + ty*TSIZE;
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ip0 = tmp;
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for (y=0;y<TSIZE;y+=1) {
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// memcpy(op0, ip0, TSIZE * sizeof(*ip0));
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__m128d q0 = _mm_load_pd((double *)(ip0 + 0));
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__m128d q1 = _mm_load_pd((double *)(ip0 + 2));
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__m128d q2 = _mm_load_pd((double *)(ip0 + 4));
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__m128d q3 = _mm_load_pd((double *)(ip0 + 6));
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_mm_store_pd((double *)(op0 + 0), q0);
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_mm_store_pd((double *)(op0 + 2), q1);
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_mm_store_pd((double *)(op0 + 4), q2);
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_mm_store_pd((double *)(op0 + 6), q3);
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op0 += h;
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ip0 += TSIZE;
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}
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}
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}
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/*
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size_t i,j;
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for(i=0;i<w;i+=2) {
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for(j=0;j<h;j+=2) {
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// out[i*h + j] = in[j*w + i];
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__m128d q0 = _mm_load_pd((double *)(in + j*w + i));
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__m128d q1 = _mm_load_pd((double *)(in + j*w + i + w));
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__m128d t0 = _mm_shuffle_pd(q0, q1, _MM_SHUFFLE2(0, 0));
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__m128d t1 = _mm_shuffle_pd(q0, q1, _MM_SHUFFLE2(1, 1));
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_mm_store_pd((double *)(out + i*h + j), t0);
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_mm_store_pd((double *)(out + i*h + j + h), t1);
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}
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}
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*/
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#endif
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#endif
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}
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void ffts_execute_nd(ffts_plan_t *p, const void * in, void * out) {
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uint64_t *din = (uint64_t *)in;
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uint64_t *buf = p->buf;
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uint64_t *dout = (uint64_t *)out;
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size_t i,j;
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for(i=0;i<p->Ns[0];i++) {
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p->plans[0]->transform(p->plans[0], din + (i * p->Ms[0]), buf + (i * p->Ms[0]));
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}
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ffts_transpose(buf, dout, p->Ms[0], p->Ns[0], p->transpose_buf);
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for(i=1;i<p->rank;i++) {
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for(j=0;j<p->Ns[i];j++) {
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p->plans[i]->transform(p->plans[i], dout + (j * p->Ms[i]), buf + (j * p->Ms[i]));
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}
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ffts_transpose(buf, dout, p->Ms[i], p->Ns[i], p->transpose_buf);
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}
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}
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ffts_plan_t *ffts_init_nd(int rank, size_t *Ns, int sign) {
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size_t vol = 1;
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ffts_plan_t *p = malloc(sizeof(ffts_plan_t));
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p->transform = &ffts_execute_nd;
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p->destroy = &ffts_free_nd;
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p->rank = rank;
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p->Ns = malloc(sizeof(size_t) * rank);
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p->Ms = malloc(sizeof(size_t) * rank);
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p->plans = malloc(sizeof(ffts_plan_t **) * rank);
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int i;
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for(i=0;i<rank;i++) {
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p->Ns[i] = Ns[i];
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vol *= Ns[i];
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}
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p->buf = valloc(sizeof(float) * 2 * vol);
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for(i=0;i<rank;i++) {
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p->Ms[i] = vol / p->Ns[i];
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p->plans[i] = NULL;
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int k;
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for(k=0;k<i;k++) {
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if(p->Ms[k] == p->Ms[i])
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p->plans[i] = p->plans[k];
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}
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if(!p->plans[i]) p->plans[i] = ffts_init_1d(p->Ms[i], sign);
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}
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p->transpose_buf = valloc(sizeof(float) * 2 * 8 * 8);
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return p;
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}
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ffts_plan_t *ffts_init_2d(size_t N1, size_t N2, int sign) {
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size_t Ns[2];
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Ns[0] = N1;
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Ns[1] = N2;
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return ffts_init_nd(2, Ns, sign);
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}
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