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annotate src/fftw-3.3.3/rdft/ct-hc2c-direct.c @ 23:619f715526df sv_v2.1

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Update Vamp plugin SDK to 2.5
author Chris Cannam
date Thu, 09 May 2013 10:52:46 +0100
parents 37bf6b4a2645
children
rev   line source
Chris@10 1 /*
Chris@10 2 * Copyright (c) 2003, 2007-11 Matteo Frigo
Chris@10 3 * Copyright (c) 2003, 2007-11 Massachusetts Institute of Technology
Chris@10 4 *
Chris@10 5 * This program is free software; you can redistribute it and/or modify
Chris@10 6 * it under the terms of the GNU General Public License as published by
Chris@10 7 * the Free Software Foundation; either version 2 of the License, or
Chris@10 8 * (at your option) any later version.
Chris@10 9 *
Chris@10 10 * This program is distributed in the hope that it will be useful,
Chris@10 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
Chris@10 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Chris@10 13 * GNU General Public License for more details.
Chris@10 14 *
Chris@10 15 * You should have received a copy of the GNU General Public License
Chris@10 16 * along with this program; if not, write to the Free Software
Chris@10 17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Chris@10 18 *
Chris@10 19 */
Chris@10 20
Chris@10 21
Chris@10 22 #include "ct-hc2c.h"
Chris@10 23
Chris@10 24 typedef struct {
Chris@10 25 hc2c_solver super;
Chris@10 26 const hc2c_desc *desc;
Chris@10 27 int bufferedp;
Chris@10 28 khc2c k;
Chris@10 29 } S;
Chris@10 30
Chris@10 31 typedef struct {
Chris@10 32 plan_hc2c super;
Chris@10 33 khc2c k;
Chris@10 34 plan *cld0, *cldm; /* children for 0th and middle butterflies */
Chris@10 35 INT r, m, v, extra_iter;
Chris@10 36 INT ms, vs;
Chris@10 37 stride rs, brs;
Chris@10 38 twid *td;
Chris@10 39 const S *slv;
Chris@10 40 } P;
Chris@10 41
Chris@10 42 /*************************************************************
Chris@10 43 Nonbuffered code
Chris@10 44 *************************************************************/
Chris@10 45 static void apply(const plan *ego_, R *cr, R *ci)
Chris@10 46 {
Chris@10 47 const P *ego = (const P *) ego_;
Chris@10 48 plan_rdft2 *cld0 = (plan_rdft2 *) ego->cld0;
Chris@10 49 plan_rdft2 *cldm = (plan_rdft2 *) ego->cldm;
Chris@10 50 INT i, m = ego->m, v = ego->v;
Chris@10 51 INT ms = ego->ms, vs = ego->vs;
Chris@10 52
Chris@10 53 for (i = 0; i < v; ++i, cr += vs, ci += vs) {
Chris@10 54 cld0->apply((plan *) cld0, cr, ci, cr, ci);
Chris@10 55 ego->k(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 56 ego->td->W, ego->rs, 1, (m+1)/2, ms);
Chris@10 57 cldm->apply((plan *) cldm, cr + (m/2)*ms, ci + (m/2)*ms,
Chris@10 58 cr + (m/2)*ms, ci + (m/2)*ms);
Chris@10 59 }
Chris@10 60 }
Chris@10 61
Chris@10 62 static void apply_extra_iter(const plan *ego_, R *cr, R *ci)
Chris@10 63 {
Chris@10 64 const P *ego = (const P *) ego_;
Chris@10 65 plan_rdft2 *cld0 = (plan_rdft2 *) ego->cld0;
Chris@10 66 plan_rdft2 *cldm = (plan_rdft2 *) ego->cldm;
Chris@10 67 INT i, m = ego->m, v = ego->v;
Chris@10 68 INT ms = ego->ms, vs = ego->vs;
Chris@10 69 INT mm = (m-1)/2;
Chris@10 70
Chris@10 71 for (i = 0; i < v; ++i, cr += vs, ci += vs) {
Chris@10 72 cld0->apply((plan *) cld0, cr, ci, cr, ci);
Chris@10 73
Chris@10 74 /* for 4-way SIMD when (m+1)/2-1 is odd: iterate over an
Chris@10 75 even vector length MM-1, and then execute the last
Chris@10 76 iteration as a 2-vector with vector stride 0. The
Chris@10 77 twiddle factors of the second half of the last iteration
Chris@10 78 are bogus, but we only store the results of the first
Chris@10 79 half. */
Chris@10 80 ego->k(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 81 ego->td->W, ego->rs, 1, mm, ms);
Chris@10 82 ego->k(cr + mm*ms, ci + mm*ms, cr + (m-mm)*ms, ci + (m-mm)*ms,
Chris@10 83 ego->td->W, ego->rs, mm, mm+2, 0);
Chris@10 84 cldm->apply((plan *) cldm, cr + (m/2)*ms, ci + (m/2)*ms,
Chris@10 85 cr + (m/2)*ms, ci + (m/2)*ms);
Chris@10 86 }
Chris@10 87
Chris@10 88 }
Chris@10 89
Chris@10 90 /*************************************************************
Chris@10 91 Buffered code
Chris@10 92 *************************************************************/
Chris@10 93
Chris@10 94 /* should not be 2^k to avoid associativity conflicts */
Chris@10 95 static INT compute_batchsize(INT radix)
Chris@10 96 {
Chris@10 97 /* round up to multiple of 4 */
Chris@10 98 radix += 3;
Chris@10 99 radix &= -4;
Chris@10 100
Chris@10 101 return (radix + 2);
Chris@10 102 }
Chris@10 103
Chris@10 104 static void dobatch(const P *ego, R *Rp, R *Ip, R *Rm, R *Im,
Chris@10 105 INT mb, INT me, INT extra_iter, R *bufp)
Chris@10 106 {
Chris@10 107 INT b = WS(ego->brs, 1);
Chris@10 108 INT rs = WS(ego->rs, 1);
Chris@10 109 INT ms = ego->ms;
Chris@10 110 R *bufm = bufp + b - 2;
Chris@10 111
Chris@10 112 X(cpy2d_pair_ci)(Rp + mb * ms, Ip + mb * ms, bufp, bufp + 1,
Chris@10 113 ego->r / 2, rs, b,
Chris@10 114 me - mb, ms, 2);
Chris@10 115 X(cpy2d_pair_ci)(Rm - mb * ms, Im - mb * ms, bufm, bufm + 1,
Chris@10 116 ego->r / 2, rs, b,
Chris@10 117 me - mb, -ms, -2);
Chris@10 118 ego->k(bufp, bufp + 1, bufm, bufm + 1, ego->td->W,
Chris@10 119 ego->brs, mb, me + extra_iter, 2);
Chris@10 120 X(cpy2d_pair_co)(bufp, bufp + 1, Rp + mb * ms, Ip + mb * ms,
Chris@10 121 ego->r / 2, b, rs,
Chris@10 122 me - mb, 2, ms);
Chris@10 123 X(cpy2d_pair_co)(bufm, bufm + 1, Rm - mb * ms, Im - mb * ms,
Chris@10 124 ego->r / 2, b, rs,
Chris@10 125 me - mb, -2, -ms);
Chris@10 126 }
Chris@10 127
Chris@10 128 static void apply_buf(const plan *ego_, R *cr, R *ci)
Chris@10 129 {
Chris@10 130 const P *ego = (const P *) ego_;
Chris@10 131 plan_rdft2 *cld0 = (plan_rdft2 *) ego->cld0;
Chris@10 132 plan_rdft2 *cldm = (plan_rdft2 *) ego->cldm;
Chris@10 133 INT i, j, ms = ego->ms, v = ego->v;
Chris@10 134 INT batchsz = compute_batchsize(ego->r);
Chris@10 135 R *buf;
Chris@10 136 INT mb = 1, me = (ego->m+1) / 2;
Chris@10 137 size_t bufsz = ego->r * batchsz * 2 * sizeof(R);
Chris@10 138
Chris@10 139 BUF_ALLOC(R *, buf, bufsz);
Chris@10 140
Chris@10 141 for (i = 0; i < v; ++i, cr += ego->vs, ci += ego->vs) {
Chris@10 142 R *Rp = cr;
Chris@10 143 R *Ip = ci;
Chris@10 144 R *Rm = cr + ego->m * ms;
Chris@10 145 R *Im = ci + ego->m * ms;
Chris@10 146
Chris@10 147 cld0->apply((plan *) cld0, Rp, Ip, Rp, Ip);
Chris@10 148
Chris@10 149 for (j = mb; j + batchsz < me; j += batchsz)
Chris@10 150 dobatch(ego, Rp, Ip, Rm, Im, j, j + batchsz, 0, buf);
Chris@10 151
Chris@10 152 dobatch(ego, Rp, Ip, Rm, Im, j, me, ego->extra_iter, buf);
Chris@10 153
Chris@10 154 cldm->apply((plan *) cldm,
Chris@10 155 Rp + me * ms, Ip + me * ms,
Chris@10 156 Rp + me * ms, Ip + me * ms);
Chris@10 157
Chris@10 158 }
Chris@10 159
Chris@10 160 BUF_FREE(buf, bufsz);
Chris@10 161 }
Chris@10 162
Chris@10 163 /*************************************************************
Chris@10 164 common code
Chris@10 165 *************************************************************/
Chris@10 166 static void awake(plan *ego_, enum wakefulness wakefulness)
Chris@10 167 {
Chris@10 168 P *ego = (P *) ego_;
Chris@10 169
Chris@10 170 X(plan_awake)(ego->cld0, wakefulness);
Chris@10 171 X(plan_awake)(ego->cldm, wakefulness);
Chris@10 172 X(twiddle_awake)(wakefulness, &ego->td, ego->slv->desc->tw,
Chris@10 173 ego->r * ego->m, ego->r,
Chris@10 174 (ego->m - 1) / 2 + ego->extra_iter);
Chris@10 175 }
Chris@10 176
Chris@10 177 static void destroy(plan *ego_)
Chris@10 178 {
Chris@10 179 P *ego = (P *) ego_;
Chris@10 180 X(plan_destroy_internal)(ego->cld0);
Chris@10 181 X(plan_destroy_internal)(ego->cldm);
Chris@10 182 X(stride_destroy)(ego->rs);
Chris@10 183 X(stride_destroy)(ego->brs);
Chris@10 184 }
Chris@10 185
Chris@10 186 static void print(const plan *ego_, printer *p)
Chris@10 187 {
Chris@10 188 const P *ego = (const P *) ego_;
Chris@10 189 const S *slv = ego->slv;
Chris@10 190 const hc2c_desc *e = slv->desc;
Chris@10 191
Chris@10 192 if (slv->bufferedp)
Chris@10 193 p->print(p, "(hc2c-directbuf/%D-%D/%D/%D%v \"%s\"%(%p%)%(%p%))",
Chris@10 194 compute_batchsize(ego->r),
Chris@10 195 ego->r, X(twiddle_length)(ego->r, e->tw),
Chris@10 196 ego->extra_iter, ego->v, e->nam,
Chris@10 197 ego->cld0, ego->cldm);
Chris@10 198 else
Chris@10 199 p->print(p, "(hc2c-direct-%D/%D/%D%v \"%s\"%(%p%)%(%p%))",
Chris@10 200 ego->r, X(twiddle_length)(ego->r, e->tw),
Chris@10 201 ego->extra_iter, ego->v, e->nam,
Chris@10 202 ego->cld0, ego->cldm);
Chris@10 203 }
Chris@10 204
Chris@10 205 static int applicable0(const S *ego, rdft_kind kind,
Chris@10 206 INT r, INT rs,
Chris@10 207 INT m, INT ms,
Chris@10 208 INT v, INT vs,
Chris@10 209 const R *cr, const R *ci,
Chris@10 210 const planner *plnr,
Chris@10 211 INT *extra_iter)
Chris@10 212 {
Chris@10 213 const hc2c_desc *e = ego->desc;
Chris@10 214 UNUSED(v);
Chris@10 215
Chris@10 216 return (
Chris@10 217 1
Chris@10 218 && r == e->radix
Chris@10 219 && kind == e->genus->kind
Chris@10 220
Chris@10 221 /* first v-loop iteration */
Chris@10 222 && ((*extra_iter = 0,
Chris@10 223 e->genus->okp(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 224 rs, 1, (m+1)/2, ms, plnr))
Chris@10 225 ||
Chris@10 226 (*extra_iter = 1,
Chris@10 227 ((e->genus->okp(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 228 rs, 1, (m-1)/2, ms, plnr))
Chris@10 229 &&
Chris@10 230 (e->genus->okp(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 231 rs, (m-1)/2, (m-1)/2 + 2, 0, plnr)))))
Chris@10 232
Chris@10 233 /* subsequent v-loop iterations */
Chris@10 234 && (cr += vs, ci += vs, 1)
Chris@10 235
Chris@10 236 && e->genus->okp(cr + ms, ci + ms, cr + (m-1)*ms, ci + (m-1)*ms,
Chris@10 237 rs, 1, (m+1)/2 - *extra_iter, ms, plnr)
Chris@10 238 );
Chris@10 239 }
Chris@10 240
Chris@10 241 static int applicable0_buf(const S *ego, rdft_kind kind,
Chris@10 242 INT r, INT rs,
Chris@10 243 INT m, INT ms,
Chris@10 244 INT v, INT vs,
Chris@10 245 const R *cr, const R *ci,
Chris@10 246 const planner *plnr, INT *extra_iter)
Chris@10 247 {
Chris@10 248 const hc2c_desc *e = ego->desc;
Chris@10 249 INT batchsz, brs;
Chris@10 250 UNUSED(v); UNUSED(rs); UNUSED(ms); UNUSED(vs);
Chris@10 251
Chris@10 252 return (
Chris@10 253 1
Chris@10 254 && r == e->radix
Chris@10 255 && kind == e->genus->kind
Chris@10 256
Chris@10 257 /* ignore cr, ci, use buffer */
Chris@10 258 && (cr = (const R *)0, ci = cr + 1,
Chris@10 259 batchsz = compute_batchsize(r),
Chris@10 260 brs = 4 * batchsz, 1)
Chris@10 261
Chris@10 262 && e->genus->okp(cr, ci, cr + brs - 2, ci + brs - 2,
Chris@10 263 brs, 1, 1+batchsz, 2, plnr)
Chris@10 264
Chris@10 265 && ((*extra_iter = 0,
Chris@10 266 e->genus->okp(cr, ci, cr + brs - 2, ci + brs - 2,
Chris@10 267 brs, 1, 1 + (((m-1)/2) % batchsz), 2, plnr))
Chris@10 268 ||
Chris@10 269 (*extra_iter = 1,
Chris@10 270 e->genus->okp(cr, ci, cr + brs - 2, ci + brs - 2,
Chris@10 271 brs, 1, 1 + 1 + (((m-1)/2) % batchsz), 2, plnr)))
Chris@10 272
Chris@10 273 );
Chris@10 274 }
Chris@10 275
Chris@10 276 static int applicable(const S *ego, rdft_kind kind,
Chris@10 277 INT r, INT rs,
Chris@10 278 INT m, INT ms,
Chris@10 279 INT v, INT vs,
Chris@10 280 R *cr, R *ci,
Chris@10 281 const planner *plnr, INT *extra_iter)
Chris@10 282 {
Chris@10 283 if (ego->bufferedp) {
Chris@10 284 if (!applicable0_buf(ego, kind, r, rs, m, ms, v, vs, cr, ci, plnr,
Chris@10 285 extra_iter))
Chris@10 286 return 0;
Chris@10 287 } else {
Chris@10 288 if (!applicable0(ego, kind, r, rs, m, ms, v, vs, cr, ci, plnr,
Chris@10 289 extra_iter))
Chris@10 290 return 0;
Chris@10 291 }
Chris@10 292
Chris@10 293 if (NO_UGLYP(plnr) && X(ct_uglyp)((ego->bufferedp? (INT)512 : (INT)16),
Chris@10 294 v, m * r, r))
Chris@10 295 return 0;
Chris@10 296
Chris@10 297 return 1;
Chris@10 298 }
Chris@10 299
Chris@10 300 static plan *mkcldw(const hc2c_solver *ego_, rdft_kind kind,
Chris@10 301 INT r, INT rs,
Chris@10 302 INT m, INT ms,
Chris@10 303 INT v, INT vs,
Chris@10 304 R *cr, R *ci,
Chris@10 305 planner *plnr)
Chris@10 306 {
Chris@10 307 const S *ego = (const S *) ego_;
Chris@10 308 P *pln;
Chris@10 309 const hc2c_desc *e = ego->desc;
Chris@10 310 plan *cld0 = 0, *cldm = 0;
Chris@10 311 INT imid = (m / 2) * ms;
Chris@10 312 INT extra_iter;
Chris@10 313
Chris@10 314 static const plan_adt padt = {
Chris@10 315 0, awake, print, destroy
Chris@10 316 };
Chris@10 317
Chris@10 318 if (!applicable(ego, kind, r, rs, m, ms, v, vs, cr, ci, plnr,
Chris@10 319 &extra_iter))
Chris@10 320 return (plan *)0;
Chris@10 321
Chris@10 322 cld0 = X(mkplan_d)(
Chris@10 323 plnr,
Chris@10 324 X(mkproblem_rdft2_d)(X(mktensor_1d)(r, rs, rs),
Chris@10 325 X(mktensor_0d)(),
Chris@10 326 TAINT(cr, vs), TAINT(ci, vs),
Chris@10 327 TAINT(cr, vs), TAINT(ci, vs),
Chris@10 328 kind));
Chris@10 329 if (!cld0) goto nada;
Chris@10 330
Chris@10 331 cldm = X(mkplan_d)(
Chris@10 332 plnr,
Chris@10 333 X(mkproblem_rdft2_d)(((m % 2) ?
Chris@10 334 X(mktensor_0d)() : X(mktensor_1d)(r, rs, rs) ),
Chris@10 335 X(mktensor_0d)(),
Chris@10 336 TAINT(cr + imid, vs), TAINT(ci + imid, vs),
Chris@10 337 TAINT(cr + imid, vs), TAINT(ci + imid, vs),
Chris@10 338 kind == R2HC ? R2HCII : HC2RIII));
Chris@10 339 if (!cldm) goto nada;
Chris@10 340
Chris@10 341 if (ego->bufferedp)
Chris@10 342 pln = MKPLAN_HC2C(P, &padt, apply_buf);
Chris@10 343 else
Chris@10 344 pln = MKPLAN_HC2C(P, &padt, extra_iter ? apply_extra_iter : apply);
Chris@10 345
Chris@10 346 pln->k = ego->k;
Chris@10 347 pln->td = 0;
Chris@10 348 pln->r = r; pln->rs = X(mkstride)(r, rs);
Chris@10 349 pln->m = m; pln->ms = ms;
Chris@10 350 pln->v = v; pln->vs = vs;
Chris@10 351 pln->slv = ego;
Chris@10 352 pln->brs = X(mkstride)(r, 4 * compute_batchsize(r));
Chris@10 353 pln->cld0 = cld0;
Chris@10 354 pln->cldm = cldm;
Chris@10 355 pln->extra_iter = extra_iter;
Chris@10 356
Chris@10 357 X(ops_zero)(&pln->super.super.ops);
Chris@10 358 X(ops_madd2)(v * (((m - 1) / 2) / e->genus->vl),
Chris@10 359 &e->ops, &pln->super.super.ops);
Chris@10 360 X(ops_madd2)(v, &cld0->ops, &pln->super.super.ops);
Chris@10 361 X(ops_madd2)(v, &cldm->ops, &pln->super.super.ops);
Chris@10 362
Chris@10 363 if (ego->bufferedp)
Chris@10 364 pln->super.super.ops.other += 4 * r * m * v;
Chris@10 365
Chris@10 366 return &(pln->super.super);
Chris@10 367
Chris@10 368 nada:
Chris@10 369 X(plan_destroy_internal)(cld0);
Chris@10 370 X(plan_destroy_internal)(cldm);
Chris@10 371 return 0;
Chris@10 372 }
Chris@10 373
Chris@10 374 static void regone(planner *plnr, khc2c codelet,
Chris@10 375 const hc2c_desc *desc,
Chris@10 376 hc2c_kind hc2ckind,
Chris@10 377 int bufferedp)
Chris@10 378 {
Chris@10 379 S *slv = (S *)X(mksolver_hc2c)(sizeof(S), desc->radix, hc2ckind, mkcldw);
Chris@10 380 slv->k = codelet;
Chris@10 381 slv->desc = desc;
Chris@10 382 slv->bufferedp = bufferedp;
Chris@10 383 REGISTER_SOLVER(plnr, &(slv->super.super));
Chris@10 384 }
Chris@10 385
Chris@10 386 void X(regsolver_hc2c_direct)(planner *plnr, khc2c codelet,
Chris@10 387 const hc2c_desc *desc,
Chris@10 388 hc2c_kind hc2ckind)
Chris@10 389 {
Chris@10 390 regone(plnr, codelet, desc, hc2ckind, /* bufferedp */0);
Chris@10 391 regone(plnr, codelet, desc, hc2ckind, /* bufferedp */1);
Chris@10 392 }