graphite.h revision 1.3
1 1.3 mrg /* Graphite polyhedral representation. 2 1.3 mrg Copyright (C) 2009-2016 Free Software Foundation, Inc. 3 1.3 mrg Contributed by Sebastian Pop <sebastian.pop (at) amd.com> and 4 1.3 mrg Tobias Grosser <grosser (at) fim.uni-passau.de>. 5 1.1 mrg 6 1.1 mrg This file is part of GCC. 7 1.1 mrg 8 1.1 mrg GCC is free software; you can redistribute it and/or modify 9 1.1 mrg it under the terms of the GNU General Public License as published by 10 1.1 mrg the Free Software Foundation; either version 3, or (at your option) 11 1.1 mrg any later version. 12 1.1 mrg 13 1.1 mrg GCC is distributed in the hope that it will be useful, 14 1.1 mrg but WITHOUT ANY WARRANTY; without even the implied warranty of 15 1.1 mrg MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 16 1.1 mrg GNU General Public License for more details. 17 1.1 mrg 18 1.1 mrg You should have received a copy of the GNU General Public License 19 1.1 mrg along with GCC; see the file COPYING3. If not see 20 1.1 mrg <http://www.gnu.org/licenses/>. */ 21 1.1 mrg 22 1.3 mrg #ifndef GCC_GRAPHITE_POLY_H 23 1.3 mrg #define GCC_GRAPHITE_POLY_H 24 1.1 mrg 25 1.3 mrg #include "sese.h" 26 1.3 mrg #include <isl/options.h> 27 1.3 mrg #include <isl/ctx.h> 28 1.3 mrg #include <isl/val_gmp.h> 29 1.3 mrg #include <isl/set.h> 30 1.3 mrg #include <isl/union_set.h> 31 1.3 mrg #include <isl/map.h> 32 1.3 mrg #include <isl/union_map.h> 33 1.3 mrg #include <isl/aff.h> 34 1.3 mrg #include <isl/constraint.h> 35 1.3 mrg #include <isl/flow.h> 36 1.3 mrg #include <isl/ilp.h> 37 1.3 mrg #include <isl/schedule.h> 38 1.3 mrg #include <isl/ast_build.h> 39 1.3 mrg 40 1.3 mrg #ifdef HAVE_ISL_OPTIONS_SET_SCHEDULE_SERIALIZE_SCCS 41 1.3 mrg /* isl 0.15 or later. */ 42 1.3 mrg #include <isl/schedule_node.h> 43 1.3 mrg 44 1.3 mrg #else 45 1.3 mrg /* isl 0.14 or 0.13. */ 46 1.3 mrg # define isl_stat int 47 1.3 mrg # define isl_stat_ok 0 48 1.3 mrg #endif 49 1.3 mrg 50 1.3 mrg typedef struct poly_dr *poly_dr_p; 51 1.3 mrg 52 1.3 mrg typedef struct poly_bb *poly_bb_p; 53 1.3 mrg 54 1.3 mrg typedef struct scop *scop_p; 55 1.3 mrg 56 1.3 mrg typedef unsigned graphite_dim_t; 57 1.3 mrg 58 1.3 mrg static inline graphite_dim_t scop_nb_params (scop_p); 59 1.3 mrg 60 1.3 mrg /* A data reference can write or read some memory or we 61 1.3 mrg just know it may write some memory. */ 62 1.3 mrg enum poly_dr_type 63 1.3 mrg { 64 1.3 mrg PDR_READ, 65 1.3 mrg /* PDR_MAY_READs are represented using PDR_READS. This does not 66 1.3 mrg limit the expressiveness. */ 67 1.3 mrg PDR_WRITE, 68 1.3 mrg PDR_MAY_WRITE 69 1.3 mrg }; 70 1.3 mrg 71 1.3 mrg struct poly_dr 72 1.3 mrg { 73 1.3 mrg /* An identifier for this PDR. */ 74 1.3 mrg int id; 75 1.3 mrg 76 1.3 mrg /* The number of data refs identical to this one in the PBB. */ 77 1.3 mrg int nb_refs; 78 1.3 mrg 79 1.3 mrg /* A pointer to the gimple stmt containing this reference. */ 80 1.3 mrg gimple *stmt; 81 1.3 mrg 82 1.3 mrg /* A pointer to the PBB that contains this data reference. */ 83 1.3 mrg poly_bb_p pbb; 84 1.3 mrg 85 1.3 mrg enum poly_dr_type type; 86 1.3 mrg 87 1.3 mrg /* The access polyhedron contains the polyhedral space this data 88 1.3 mrg reference will access. 89 1.3 mrg 90 1.3 mrg The polyhedron contains these dimensions: 91 1.3 mrg 92 1.3 mrg - The alias set (a): 93 1.3 mrg Every memory access is classified in at least one alias set. 94 1.3 mrg 95 1.3 mrg - The subscripts (s_0, ..., s_n): 96 1.3 mrg The memory is accessed using zero or more subscript dimensions. 97 1.3 mrg 98 1.3 mrg - The iteration domain (variables and parameters) 99 1.3 mrg 100 1.3 mrg Do not hardcode the dimensions. Use the following accessor functions: 101 1.3 mrg - pdr_alias_set_dim 102 1.3 mrg - pdr_subscript_dim 103 1.3 mrg - pdr_iterator_dim 104 1.3 mrg - pdr_parameter_dim 105 1.3 mrg 106 1.3 mrg Example: 107 1.3 mrg 108 1.3 mrg | int A[1335][123]; 109 1.3 mrg | int *p = malloc (); 110 1.3 mrg | 111 1.3 mrg | k = ... 112 1.3 mrg | for i 113 1.3 mrg | { 114 1.3 mrg | if (unknown_function ()) 115 1.3 mrg | p = A; 116 1.3 mrg | ... = p[?][?]; 117 1.3 mrg | for j 118 1.3 mrg | A[i][j+k] = m; 119 1.3 mrg | } 120 1.3 mrg 121 1.3 mrg The data access A[i][j+k] in alias set "5" is described like this: 122 1.3 mrg 123 1.3 mrg | i j k a s0 s1 1 124 1.3 mrg | 0 0 0 1 0 0 -5 = 0 125 1.3 mrg |-1 0 0 0 1 0 0 = 0 126 1.3 mrg | 0 -1 -1 0 0 1 0 = 0 127 1.3 mrg | 0 0 0 0 1 0 0 >= 0 # The last four lines describe the 128 1.3 mrg | 0 0 0 0 0 1 0 >= 0 # array size. 129 1.3 mrg | 0 0 0 0 -1 0 1335 >= 0 130 1.3 mrg | 0 0 0 0 0 -1 123 >= 0 131 1.3 mrg 132 1.3 mrg The pointer "*p" in alias set "5" and "7" is described as a union of 133 1.3 mrg polyhedron: 134 1.3 mrg 135 1.3 mrg 136 1.3 mrg | i k a s0 1 137 1.3 mrg | 0 0 1 0 -5 = 0 138 1.3 mrg | 0 0 0 1 0 >= 0 139 1.3 mrg 140 1.3 mrg "or" 141 1.3 mrg 142 1.3 mrg | i k a s0 1 143 1.3 mrg | 0 0 1 0 -7 = 0 144 1.3 mrg | 0 0 0 1 0 >= 0 145 1.3 mrg 146 1.3 mrg "*p" accesses all of the object allocated with 'malloc'. 147 1.3 mrg 148 1.3 mrg The scalar data access "m" is represented as an array with zero subscript 149 1.3 mrg dimensions. 150 1.3 mrg 151 1.3 mrg | i j k a 1 152 1.3 mrg | 0 0 0 -1 15 = 0 153 1.3 mrg 154 1.3 mrg The difference between the graphite internal format for access data and 155 1.3 mrg the OpenSop format is in the order of columns. 156 1.3 mrg Instead of having: 157 1.3 mrg 158 1.3 mrg | i j k a s0 s1 1 159 1.3 mrg | 0 0 0 1 0 0 -5 = 0 160 1.3 mrg |-1 0 0 0 1 0 0 = 0 161 1.3 mrg | 0 -1 -1 0 0 1 0 = 0 162 1.3 mrg | 0 0 0 0 1 0 0 >= 0 # The last four lines describe the 163 1.3 mrg | 0 0 0 0 0 1 0 >= 0 # array size. 164 1.3 mrg | 0 0 0 0 -1 0 1335 >= 0 165 1.3 mrg | 0 0 0 0 0 -1 123 >= 0 166 1.3 mrg 167 1.3 mrg In OpenScop we have: 168 1.3 mrg 169 1.3 mrg | a s0 s1 i j k 1 170 1.3 mrg | 1 0 0 0 0 0 -5 = 0 171 1.3 mrg | 0 1 0 -1 0 0 0 = 0 172 1.3 mrg | 0 0 1 0 -1 -1 0 = 0 173 1.3 mrg | 0 1 0 0 0 0 0 >= 0 # The last four lines describe the 174 1.3 mrg | 0 0 1 0 0 0 0 >= 0 # array size. 175 1.3 mrg | 0 -1 0 0 0 0 1335 >= 0 176 1.3 mrg | 0 0 -1 0 0 0 123 >= 0 177 1.3 mrg 178 1.3 mrg The OpenScop access function is printed as follows: 179 1.3 mrg 180 1.3 mrg | 1 # The number of disjunct components in a union of access functions. 181 1.3 mrg | R C O I L P # Described bellow. 182 1.3 mrg | a s0 s1 i j k 1 183 1.3 mrg | 1 0 0 0 0 0 -5 = 0 184 1.3 mrg | 0 1 0 -1 0 0 0 = 0 185 1.3 mrg | 0 0 1 0 -1 -1 0 = 0 186 1.3 mrg | 0 1 0 0 0 0 0 >= 0 # The last four lines describe the 187 1.3 mrg | 0 0 1 0 0 0 0 >= 0 # array size. 188 1.3 mrg | 0 -1 0 0 0 0 1335 >= 0 189 1.3 mrg | 0 0 -1 0 0 0 123 >= 0 190 1.3 mrg 191 1.3 mrg Where: 192 1.3 mrg - R: Number of rows. 193 1.3 mrg - C: Number of columns. 194 1.3 mrg - O: Number of output dimensions = alias set + number of subscripts. 195 1.3 mrg - I: Number of input dimensions (iterators). 196 1.3 mrg - L: Number of local (existentially quantified) dimensions. 197 1.3 mrg - P: Number of parameters. 198 1.3 mrg 199 1.3 mrg In the example, the vector "R C O I L P" is "7 7 3 2 0 1". */ 200 1.3 mrg isl_map *accesses; 201 1.3 mrg isl_set *subscript_sizes; 202 1.3 mrg }; 203 1.3 mrg 204 1.3 mrg #define PDR_ID(PDR) (PDR->id) 205 1.3 mrg #define PDR_NB_REFS(PDR) (PDR->nb_refs) 206 1.3 mrg #define PDR_PBB(PDR) (PDR->pbb) 207 1.3 mrg #define PDR_TYPE(PDR) (PDR->type) 208 1.3 mrg #define PDR_ACCESSES(PDR) (NULL) 209 1.3 mrg 210 1.3 mrg void new_poly_dr (poly_bb_p, gimple *, enum poly_dr_type, 211 1.3 mrg isl_map *, isl_set *); 212 1.3 mrg void debug_pdr (poly_dr_p); 213 1.3 mrg void print_pdr (FILE *, poly_dr_p); 214 1.3 mrg 215 1.3 mrg static inline bool 216 1.3 mrg pdr_read_p (poly_dr_p pdr) 217 1.3 mrg { 218 1.3 mrg return PDR_TYPE (pdr) == PDR_READ; 219 1.3 mrg } 220 1.3 mrg 221 1.3 mrg /* Returns true when PDR is a "write". */ 222 1.3 mrg 223 1.3 mrg static inline bool 224 1.3 mrg pdr_write_p (poly_dr_p pdr) 225 1.3 mrg { 226 1.3 mrg return PDR_TYPE (pdr) == PDR_WRITE; 227 1.3 mrg } 228 1.3 mrg 229 1.3 mrg /* Returns true when PDR is a "may write". */ 230 1.3 mrg 231 1.3 mrg static inline bool 232 1.3 mrg pdr_may_write_p (poly_dr_p pdr) 233 1.3 mrg { 234 1.3 mrg return PDR_TYPE (pdr) == PDR_MAY_WRITE; 235 1.3 mrg } 236 1.3 mrg 237 1.3 mrg /* POLY_BB represents a blackbox in the polyhedral model. */ 238 1.3 mrg 239 1.3 mrg struct poly_bb 240 1.3 mrg { 241 1.3 mrg /* Pointer to a basic block or a statement in the compiler. */ 242 1.3 mrg gimple_poly_bb_p black_box; 243 1.3 mrg 244 1.3 mrg /* Pointer to the SCOP containing this PBB. */ 245 1.3 mrg scop_p scop; 246 1.3 mrg 247 1.3 mrg /* The iteration domain of this bb. The layout of this polyhedron 248 1.3 mrg is I|G with I the iteration domain, G the context parameters. 249 1.3 mrg 250 1.3 mrg Example: 251 1.3 mrg 252 1.3 mrg for (i = a - 7*b + 8; i <= 3*a + 13*b + 20; i++) 253 1.3 mrg for (j = 2; j <= 2*i + 5; j++) 254 1.3 mrg for (k = 0; k <= 5; k++) 255 1.3 mrg S (i,j,k) 256 1.3 mrg 257 1.3 mrg Loop iterators: i, j, k 258 1.3 mrg Parameters: a, b 259 1.3 mrg 260 1.3 mrg | i >= a - 7b + 8 261 1.3 mrg | i <= 3a + 13b + 20 262 1.3 mrg | j >= 2 263 1.3 mrg | j <= 2i + 5 264 1.3 mrg | k >= 0 265 1.3 mrg | k <= 5 266 1.3 mrg 267 1.3 mrg The number of variables in the DOMAIN may change and is not 268 1.3 mrg related to the number of loops in the original code. */ 269 1.3 mrg isl_set *domain; 270 1.3 mrg #ifdef HAVE_ISL_OPTIONS_SET_SCHEDULE_SERIALIZE_SCCS 271 1.3 mrg isl_set *iterators; 272 1.3 mrg #else 273 1.3 mrg /* The original scattering. */ 274 1.3 mrg isl_map *schedule; 275 1.3 mrg 276 1.3 mrg /* The transformed scattering. */ 277 1.3 mrg isl_map *transformed; 278 1.3 mrg 279 1.3 mrg /* A copy of the transformed scattering. */ 280 1.3 mrg isl_map *saved; 281 1.3 mrg #endif 282 1.3 mrg 283 1.3 mrg /* The data references we access. */ 284 1.3 mrg vec<poly_dr_p> drs; 285 1.3 mrg 286 1.3 mrg /* The last basic block generated for this pbb. */ 287 1.3 mrg basic_block new_bb; 288 1.3 mrg }; 289 1.3 mrg 290 1.3 mrg #define PBB_BLACK_BOX(PBB) ((gimple_poly_bb_p) PBB->black_box) 291 1.3 mrg #define PBB_SCOP(PBB) (PBB->scop) 292 1.3 mrg #define PBB_DRS(PBB) (PBB->drs) 293 1.3 mrg 294 1.3 mrg extern poly_bb_p new_poly_bb (scop_p, gimple_poly_bb_p); 295 1.3 mrg extern void print_pbb_domain (FILE *, poly_bb_p); 296 1.3 mrg extern void print_pbb (FILE *, poly_bb_p); 297 1.3 mrg extern void print_scop_context (FILE *, scop_p); 298 1.3 mrg extern void print_scop (FILE *, scop_p); 299 1.3 mrg extern void debug_pbb_domain (poly_bb_p); 300 1.3 mrg extern void debug_pbb (poly_bb_p); 301 1.3 mrg extern void print_pdrs (FILE *, poly_bb_p); 302 1.3 mrg extern void debug_pdrs (poly_bb_p); 303 1.3 mrg extern void debug_scop_context (scop_p); 304 1.3 mrg extern void debug_scop (scop_p); 305 1.3 mrg extern void print_scop_params (FILE *, scop_p); 306 1.3 mrg extern void debug_scop_params (scop_p); 307 1.3 mrg extern void print_iteration_domain (FILE *, poly_bb_p); 308 1.3 mrg extern void print_iteration_domains (FILE *, scop_p); 309 1.3 mrg extern void debug_iteration_domain (poly_bb_p); 310 1.3 mrg extern void debug_iteration_domains (scop_p); 311 1.3 mrg extern void print_isl_set (FILE *, isl_set *); 312 1.3 mrg extern void print_isl_map (FILE *, isl_map *); 313 1.3 mrg extern void print_isl_union_map (FILE *, isl_union_map *); 314 1.3 mrg extern void print_isl_aff (FILE *, isl_aff *); 315 1.3 mrg extern void print_isl_constraint (FILE *, isl_constraint *); 316 1.3 mrg extern void print_isl_schedule (FILE *, isl_schedule *); 317 1.3 mrg extern void debug_isl_schedule (isl_schedule *); 318 1.3 mrg extern void print_isl_ast (FILE *, isl_ast_node *); 319 1.3 mrg extern void debug_isl_ast (isl_ast_node *); 320 1.3 mrg extern void debug_isl_set (isl_set *); 321 1.3 mrg extern void debug_isl_map (isl_map *); 322 1.3 mrg extern void debug_isl_union_map (isl_union_map *); 323 1.3 mrg extern void debug_isl_aff (isl_aff *); 324 1.3 mrg extern void debug_isl_constraint (isl_constraint *); 325 1.3 mrg extern void debug_gmp_value (mpz_t); 326 1.3 mrg extern void debug_scop_pbb (scop_p scop, int i); 327 1.3 mrg extern void print_schedule_ast (FILE *, __isl_keep isl_schedule *, scop_p); 328 1.3 mrg extern void debug_schedule_ast (__isl_keep isl_schedule *, scop_p); 329 1.3 mrg 330 1.3 mrg /* The basic block of the PBB. */ 331 1.3 mrg 332 1.3 mrg static inline basic_block 333 1.3 mrg pbb_bb (poly_bb_p pbb) 334 1.3 mrg { 335 1.3 mrg return GBB_BB (PBB_BLACK_BOX (pbb)); 336 1.3 mrg } 337 1.3 mrg 338 1.3 mrg static inline int 339 1.3 mrg pbb_index (poly_bb_p pbb) 340 1.3 mrg { 341 1.3 mrg return pbb_bb (pbb)->index; 342 1.3 mrg } 343 1.3 mrg 344 1.3 mrg /* The loop of the PBB. */ 345 1.3 mrg 346 1.3 mrg static inline loop_p 347 1.3 mrg pbb_loop (poly_bb_p pbb) 348 1.3 mrg { 349 1.3 mrg return gbb_loop (PBB_BLACK_BOX (pbb)); 350 1.3 mrg } 351 1.3 mrg 352 1.3 mrg /* The scop that contains the PDR. */ 353 1.3 mrg 354 1.3 mrg static inline scop_p 355 1.3 mrg pdr_scop (poly_dr_p pdr) 356 1.3 mrg { 357 1.3 mrg return PBB_SCOP (PDR_PBB (pdr)); 358 1.3 mrg } 359 1.3 mrg 360 1.3 mrg /* Set black box of PBB to BLACKBOX. */ 361 1.3 mrg 362 1.3 mrg static inline void 363 1.3 mrg pbb_set_black_box (poly_bb_p pbb, gimple_poly_bb_p black_box) 364 1.3 mrg { 365 1.3 mrg pbb->black_box = black_box; 366 1.3 mrg } 367 1.3 mrg 368 1.3 mrg /* A helper structure to keep track of data references, polyhedral BBs, and 369 1.3 mrg alias sets. */ 370 1.3 mrg 371 1.3 mrg struct dr_info 372 1.3 mrg { 373 1.3 mrg enum { 374 1.3 mrg invalid_alias_set = -1 375 1.3 mrg }; 376 1.3 mrg /* The data reference. */ 377 1.3 mrg data_reference_p dr; 378 1.3 mrg 379 1.3 mrg /* The polyhedral BB containing this DR. */ 380 1.3 mrg poly_bb_p pbb; 381 1.3 mrg 382 1.3 mrg /* ALIAS_SET is the SCC number assigned by a graph_dfs of the alias graph. 383 1.3 mrg -1 is an invalid alias set. */ 384 1.3 mrg int alias_set; 385 1.3 mrg 386 1.3 mrg /* Construct a DR_INFO from a data reference DR, an ALIAS_SET, and a PBB. */ 387 1.3 mrg dr_info (data_reference_p dr, poly_bb_p pbb, 388 1.3 mrg int alias_set = invalid_alias_set) 389 1.3 mrg : dr (dr), pbb (pbb), alias_set (alias_set) {} 390 1.3 mrg }; 391 1.3 mrg 392 1.3 mrg /* A SCOP is a Static Control Part of the program, simple enough to be 393 1.3 mrg represented in polyhedral form. */ 394 1.3 mrg struct scop 395 1.3 mrg { 396 1.3 mrg /* A SCOP is defined as a SESE region. */ 397 1.3 mrg sese_info_p scop_info; 398 1.3 mrg 399 1.3 mrg /* Number of parameters in SCoP. */ 400 1.3 mrg graphite_dim_t nb_params; 401 1.3 mrg 402 1.3 mrg /* All the basic blocks in this scop that contain memory references 403 1.3 mrg and that will be represented as statements in the polyhedral 404 1.3 mrg representation. */ 405 1.3 mrg vec<poly_bb_p> pbbs; 406 1.3 mrg 407 1.3 mrg /* All the data references in this scop. */ 408 1.3 mrg vec<dr_info> drs; 409 1.3 mrg 410 1.3 mrg /* The context describes known restrictions concerning the parameters 411 1.3 mrg and relations in between the parameters. 412 1.3 mrg 413 1.3 mrg void f (int8_t a, uint_16_t b) { 414 1.3 mrg c = 2 a + b; 415 1.3 mrg ... 416 1.3 mrg } 417 1.3 mrg 418 1.3 mrg Here we can add these restrictions to the context: 419 1.3 mrg 420 1.3 mrg -128 >= a >= 127 421 1.3 mrg 0 >= b >= 65,535 422 1.3 mrg c = 2a + b */ 423 1.3 mrg isl_set *param_context; 424 1.3 mrg 425 1.3 mrg /* The context used internally by isl. */ 426 1.3 mrg isl_ctx *isl_context; 427 1.3 mrg 428 1.3 mrg #ifdef HAVE_ISL_OPTIONS_SET_SCHEDULE_SERIALIZE_SCCS 429 1.3 mrg /* SCoP original schedule. */ 430 1.3 mrg isl_schedule *original_schedule; 431 1.3 mrg 432 1.3 mrg /* SCoP transformed schedule. */ 433 1.3 mrg isl_schedule *transformed_schedule; 434 1.3 mrg #else 435 1.3 mrg /* SCoP final schedule. */ 436 1.3 mrg isl_schedule *schedule; 437 1.3 mrg #endif 438 1.3 mrg 439 1.3 mrg /* The data dependence relation among the data references in this scop. */ 440 1.3 mrg isl_union_map *dependence; 441 1.3 mrg }; 442 1.3 mrg 443 1.3 mrg extern scop_p new_scop (edge, edge); 444 1.3 mrg extern void free_scop (scop_p); 445 1.3 mrg extern gimple_poly_bb_p new_gimple_poly_bb (basic_block, vec<data_reference_p>, 446 1.3 mrg vec<scalar_use>, vec<tree>); 447 1.3 mrg extern bool apply_poly_transforms (scop_p); 448 1.3 mrg 449 1.3 mrg /* Set the region of SCOP to REGION. */ 450 1.3 mrg 451 1.3 mrg static inline void 452 1.3 mrg scop_set_region (scop_p scop, sese_info_p region) 453 1.3 mrg { 454 1.3 mrg scop->scop_info = region; 455 1.3 mrg } 456 1.3 mrg 457 1.3 mrg /* Returns the number of parameters for SCOP. */ 458 1.3 mrg 459 1.3 mrg static inline graphite_dim_t 460 1.3 mrg scop_nb_params (scop_p scop) 461 1.3 mrg { 462 1.3 mrg return scop->nb_params; 463 1.3 mrg } 464 1.3 mrg 465 1.3 mrg /* Set the number of params of SCOP to NB_PARAMS. */ 466 1.3 mrg 467 1.3 mrg static inline void 468 1.3 mrg scop_set_nb_params (scop_p scop, graphite_dim_t nb_params) 469 1.3 mrg { 470 1.3 mrg scop->nb_params = nb_params; 471 1.3 mrg } 472 1.3 mrg 473 1.3 mrg #ifdef HAVE_ISL_OPTIONS_SET_SCHEDULE_SERIALIZE_SCCS 474 1.3 mrg extern void scop_get_dependences (scop_p scop); 475 1.3 mrg #else 476 1.3 mrg extern isl_union_map *scop_get_dependences (scop_p scop); 477 1.3 mrg #endif 478 1.3 mrg 479 1.3 mrg bool 480 1.3 mrg carries_deps (__isl_keep isl_union_map *schedule, 481 1.3 mrg __isl_keep isl_union_map *deps, 482 1.3 mrg int depth); 483 1.3 mrg 484 1.3 mrg extern bool build_poly_scop (scop_p); 485 1.3 mrg extern bool graphite_regenerate_ast_isl (scop_p); 486 1.3 mrg extern void build_scops (vec<scop_p> *); 487 1.3 mrg extern void dot_all_sese (FILE *, vec<sese_l> &); 488 1.3 mrg extern void dot_sese (sese_l &); 489 1.3 mrg extern void dot_cfg (); 490 1.3 mrg 491 1.3 mrg #endif 492
Indexes created Sat Mar 21 00:23:06 UTC 2026