extract out pet_clang_find_function_decl_with_body
[pet.git] / include / pet.h
blob7aaa91753e6a62e139cada3a90cc90572ce0e9bb
1 #ifndef PET_H
2 #define PET_H
4 #include <isl/aff.h>
5 #include <isl/arg.h>
6 #include <isl/ast_build.h>
7 #include <isl/set.h>
8 #include <isl/map.h>
9 #include <isl/union_map.h>
10 #include <isl/printer.h>
11 #include <isl/id_to_ast_expr.h>
12 #include <isl/id_to_pw_aff.h>
13 #include <isl/schedule.h>
15 #if defined(__cplusplus)
16 extern "C" {
17 #endif
19 struct pet_options;
20 ISL_ARG_DECL(pet_options, struct pet_options, pet_options_args)
22 /* If autodetect is set, any valid scop is extracted.
23 * Otherwise, the scop needs to be delimited by pragmas.
25 int pet_options_set_autodetect(isl_ctx *ctx, int val);
26 int pet_options_get_autodetect(isl_ctx *ctx);
28 int pet_options_set_detect_conditional_assignment(isl_ctx *ctx, int val);
29 int pet_options_get_detect_conditional_assignment(isl_ctx *ctx);
31 /* If encapsulate-dynamic-control is set, then any dynamic control
32 * in the input program will be encapsulated in macro statements.
33 * This means in particular that no statements with arguments
34 * will be created.
36 int pet_options_set_encapsulate_dynamic_control(isl_ctx *ctx, int val);
37 int pet_options_get_encapsulate_dynamic_control(isl_ctx *ctx);
39 #define PET_OVERFLOW_AVOID 0
40 #define PET_OVERFLOW_IGNORE 1
41 int pet_options_set_signed_overflow(isl_ctx *ctx, int val);
42 int pet_options_get_signed_overflow(isl_ctx *ctx);
44 struct pet_loc;
45 typedef struct pet_loc pet_loc;
47 /* Return an additional reference to "loc". */
48 __isl_give pet_loc *pet_loc_copy(__isl_keep pet_loc *loc);
49 /* Free a reference to "loc". */
50 pet_loc *pet_loc_free(__isl_take pet_loc *loc);
52 /* Return the offset in the input file of the start of "loc". */
53 unsigned pet_loc_get_start(__isl_keep pet_loc *loc);
54 /* Return the offset in the input file of the character after "loc". */
55 unsigned pet_loc_get_end(__isl_keep pet_loc *loc);
56 /* Return the line number of a line within the "loc" region. */
57 int pet_loc_get_line(__isl_keep pet_loc *loc);
58 /* Return the indentation of the "loc" region. */
59 __isl_keep const char *pet_loc_get_indent(__isl_keep pet_loc *loc);
61 enum pet_expr_type {
62 pet_expr_error = -1,
63 pet_expr_access,
64 pet_expr_call,
65 pet_expr_cast,
66 pet_expr_int,
67 pet_expr_double,
68 pet_expr_op
71 enum pet_op_type {
72 /* only compound assignments operators before assignment */
73 pet_op_add_assign,
74 pet_op_sub_assign,
75 pet_op_mul_assign,
76 pet_op_div_assign,
77 pet_op_assign,
78 pet_op_add,
79 pet_op_sub,
80 pet_op_mul,
81 pet_op_div,
82 pet_op_mod,
83 pet_op_shl,
84 pet_op_shr,
85 pet_op_eq,
86 pet_op_ne,
87 pet_op_le,
88 pet_op_ge,
89 pet_op_lt,
90 pet_op_gt,
91 pet_op_minus,
92 pet_op_post_inc,
93 pet_op_post_dec,
94 pet_op_pre_inc,
95 pet_op_pre_dec,
96 pet_op_address_of,
97 pet_op_assume,
98 pet_op_kill,
99 pet_op_and,
100 pet_op_xor,
101 pet_op_or,
102 pet_op_not,
103 pet_op_land,
104 pet_op_lor,
105 pet_op_lnot,
106 pet_op_cond,
107 pet_op_last
110 /* Index into the pet_expr->args array when pet_expr->type == pet_expr_unary
112 enum pet_un_arg_type {
113 pet_un_arg
116 /* Indices into the pet_expr->args array when
117 * pet_expr->type == pet_expr_binary
119 enum pet_bin_arg_type {
120 pet_bin_lhs,
121 pet_bin_rhs
124 /* Indices into the pet_expr->args array when
125 * pet_expr->type == pet_expr_ternary
127 enum pet_ter_arg_type {
128 pet_ter_cond,
129 pet_ter_true,
130 pet_ter_false
133 struct pet_expr;
134 typedef struct pet_expr pet_expr;
136 /* Return an additional reference to "expr". */
137 __isl_give pet_expr *pet_expr_copy(__isl_keep pet_expr *expr);
138 /* Free a reference to "expr". */
139 __isl_null pet_expr *pet_expr_free(__isl_take pet_expr *expr);
141 /* Return the isl_ctx in which "expr" was created. */
142 isl_ctx *pet_expr_get_ctx(__isl_keep pet_expr *expr);
144 /* Return the type of "expr". */
145 enum pet_expr_type pet_expr_get_type(__isl_keep pet_expr *expr);
146 /* Return the number of arguments of "expr". */
147 int pet_expr_get_n_arg(__isl_keep pet_expr *expr);
148 /* Set the number of arguments of "expr" to "n". */
149 __isl_give pet_expr *pet_expr_set_n_arg(__isl_take pet_expr *expr, int n);
150 /* Return the argument of "expr" at position "pos". */
151 __isl_give pet_expr *pet_expr_get_arg(__isl_keep pet_expr *expr, int pos);
152 /* Replace the argument of "expr" at position "pos" by "arg". */
153 __isl_give pet_expr *pet_expr_set_arg(__isl_take pet_expr *expr, int pos,
154 __isl_take pet_expr *arg);
156 /* Return the operation type of operation expression "expr". */
157 enum pet_op_type pet_expr_op_get_type(__isl_keep pet_expr *expr);
158 /* Replace the operation type of operation expression "expr" by "type". */
159 __isl_give pet_expr *pet_expr_op_set_type(__isl_take pet_expr *expr,
160 enum pet_op_type type);
162 /* Construct a (read) access pet_expr from an index expression. */
163 __isl_give pet_expr *pet_expr_from_index(__isl_take isl_multi_pw_aff *index);
165 /* Does "expr" represent an affine expression? */
166 int pet_expr_is_affine(__isl_keep pet_expr *expr);
167 /* Does the access expression "expr" read the accessed elements? */
168 int pet_expr_access_is_read(__isl_keep pet_expr *expr);
169 /* Does the access expression "expr" write to the accessed elements? */
170 int pet_expr_access_is_write(__isl_keep pet_expr *expr);
171 /* Mark "expr" as a read dependening on "read". */
172 __isl_give pet_expr *pet_expr_access_set_read(__isl_take pet_expr *expr,
173 int read);
174 /* Mark "expr" as a write dependening on "write". */
175 __isl_give pet_expr *pet_expr_access_set_write(__isl_take pet_expr *expr,
176 int write);
177 /* Mark "expr" as a kill dependening on "kill". */
178 __isl_give pet_expr *pet_expr_access_set_kill(__isl_take pet_expr *expr,
179 int kill);
180 /* Return the reference identifier of access expression "expr". */
181 __isl_give isl_id *pet_expr_access_get_ref_id(__isl_keep pet_expr *expr);
182 /* Replace the reference identifier of access expression "expr" by "ref_id". */
183 __isl_give pet_expr *pet_expr_access_set_ref_id(__isl_take pet_expr *expr,
184 __isl_take isl_id *ref_id);
185 /* Return the identifier of the outer array accessed by "expr". */
186 __isl_give isl_id *pet_expr_access_get_id(__isl_keep pet_expr *expr);
187 /* Return the index expression of access expression "expr". */
188 __isl_give isl_multi_pw_aff *pet_expr_access_get_index(
189 __isl_keep pet_expr *expr);
191 /* Return the potential read access relation of access expression "expr". */
192 __isl_give isl_union_map *pet_expr_access_get_may_read(
193 __isl_keep pet_expr *expr);
194 /* Return the potential write access relation of access expression "expr". */
195 __isl_give isl_union_map *pet_expr_access_get_may_write(
196 __isl_keep pet_expr *expr);
197 /* Return the definite write access relation of access expression "expr". */
198 __isl_give isl_union_map *pet_expr_access_get_must_write(
199 __isl_keep pet_expr *expr);
200 /* Return the argument dependent potential read access relation of "expr". */
201 __isl_give isl_union_map *pet_expr_access_get_dependent_may_read(
202 __isl_keep pet_expr *expr);
203 /* Return the argument dependent potential write access relation of "expr". */
204 __isl_give isl_union_map *pet_expr_access_get_dependent_may_write(
205 __isl_keep pet_expr *expr);
206 /* Return the argument dependent definite write access relation of "expr". */
207 __isl_give isl_union_map *pet_expr_access_get_dependent_must_write(
208 __isl_keep pet_expr *expr);
209 /* Return the tagged potential read access relation of access "expr". */
210 __isl_give isl_union_map *pet_expr_access_get_tagged_may_read(
211 __isl_keep pet_expr *expr);
212 /* Return the tagged potential write access relation of access "expr". */
213 __isl_give isl_union_map *pet_expr_access_get_tagged_may_write(
214 __isl_keep pet_expr *expr);
216 /* Return the name of the function called by "expr". */
217 __isl_keep const char *pet_expr_call_get_name(__isl_keep pet_expr *expr);
218 /* Replace the name of the function called by "expr" by "name". */
219 __isl_give pet_expr *pet_expr_call_set_name(__isl_take pet_expr *expr,
220 __isl_keep const char *name);
222 /* Create a pet_expr representing a cast of "arg" to "type_name". */
223 __isl_give pet_expr *pet_expr_new_cast(const char *type_name,
224 __isl_take pet_expr *arg);
225 /* Replace the type of the cast performed by "expr" by "name". */
226 __isl_give pet_expr *pet_expr_cast_set_type_name(__isl_take pet_expr *expr,
227 __isl_keep const char *name);
229 /* Return the value of the integer represented by "expr". */
230 __isl_give isl_val *pet_expr_int_get_val(__isl_keep pet_expr *expr);
231 /* Replace the value of the integer represented by "expr" by "v". */
232 __isl_give pet_expr *pet_expr_int_set_val(__isl_take pet_expr *expr,
233 __isl_take isl_val *v);
235 /* Return a string representation of the double expression "expr". */
236 __isl_give char *pet_expr_double_get_str(__isl_keep pet_expr *expr);
237 /* Replace value and string representation of the double expression "expr" */
238 __isl_give pet_expr *pet_expr_double_set(__isl_take pet_expr *expr,
239 double d, __isl_keep const char *s);
241 /* Call "fn" on each of the subexpressions of "expr" of type pet_expr_access. */
242 int pet_expr_foreach_access_expr(__isl_keep pet_expr *expr,
243 int (*fn)(__isl_keep pet_expr *expr, void *user), void *user);
244 /* Call "fn" on each of the subexpressions of "expr" of type pet_expr_call. */
245 int pet_expr_foreach_call_expr(__isl_keep pet_expr *expr,
246 int (*fn)(__isl_keep pet_expr *expr, void *user), void *user);
248 struct pet_context;
249 typedef struct pet_context pet_context;
251 /* Create a context with the given domain. */
252 __isl_give pet_context *pet_context_alloc(__isl_take isl_set *domain);
253 /* Return an additional reference to "pc". */
254 __isl_give pet_context *pet_context_copy(__isl_keep pet_context *pc);
255 /* Free a reference to "pc". */
256 __isl_null pet_context *pet_context_free(__isl_take pet_context *pc);
258 /* Return the isl_ctx in which "pc" was created. */
259 isl_ctx *pet_context_get_ctx(__isl_keep pet_context *pc);
261 /* Extract an affine expression defined over the domain of "pc" from "expr"
262 * or return NaN.
264 __isl_give isl_pw_aff *pet_expr_extract_affine(__isl_keep pet_expr *expr,
265 __isl_keep pet_context *pc);
267 void pet_expr_dump(__isl_keep pet_expr *expr);
269 enum pet_tree_type {
270 pet_tree_error = -1,
271 pet_tree_expr,
272 pet_tree_block,
273 pet_tree_break,
274 pet_tree_continue,
275 pet_tree_decl, /* A declaration without initialization */
276 pet_tree_decl_init, /* A declaration with initialization */
277 pet_tree_if, /* An if without an else branch */
278 pet_tree_if_else, /* An if with an else branch */
279 pet_tree_for,
280 pet_tree_infinite_loop,
281 pet_tree_while
284 struct pet_tree;
285 typedef struct pet_tree pet_tree;
287 /* Return the isl_ctx in which "tree" was created. */
288 isl_ctx *pet_tree_get_ctx(__isl_keep pet_tree *tree);
290 /* Return an additional reference to "tree". */
291 __isl_give pet_tree *pet_tree_copy(__isl_keep pet_tree *tree);
292 /* Free a reference to "tree". */
293 __isl_null pet_tree *pet_tree_free(__isl_take pet_tree *tree);
295 /* Return the location of "tree". */
296 __isl_give pet_loc *pet_tree_get_loc(__isl_keep pet_tree *tree);
298 /* Return the type of "tree". */
299 enum pet_tree_type pet_tree_get_type(__isl_keep pet_tree *tree);
301 /* Return the expression of the expression tree "tree". */
302 __isl_give pet_expr *pet_tree_expr_get_expr(__isl_keep pet_tree *tree);
304 /* Return the number of children of the block tree "tree". */
305 int pet_tree_block_n_child(__isl_keep pet_tree *tree);
306 /* Return child "pos" of the block tree "tree". */
307 __isl_give pet_tree *pet_tree_block_get_child(__isl_keep pet_tree *tree,
308 int pos);
310 /* Is "tree" a declaration (with or without initialization)? */
311 int pet_tree_is_decl(__isl_keep pet_tree *tree);
312 /* Return the variable declared by the declaration tree "tree". */
313 __isl_give pet_expr *pet_tree_decl_get_var(__isl_keep pet_tree *tree);
314 /* Return the initial value of the pet_tree_decl_init tree "tree". */
315 __isl_give pet_expr *pet_tree_decl_get_init(__isl_keep pet_tree *tree);
317 /* Return the condition of the if tree "tree". */
318 __isl_give pet_expr *pet_tree_if_get_cond(__isl_keep pet_tree *tree);
319 /* Return the then branch of the if tree "tree". */
320 __isl_give pet_tree *pet_tree_if_get_then(__isl_keep pet_tree *tree);
321 /* Return the else branch of the if tree with else branch "tree". */
322 __isl_give pet_tree *pet_tree_if_get_else(__isl_keep pet_tree *tree);
324 /* Is "tree" a for loop, a while loop or an infinite loop? */
325 int pet_tree_is_loop(__isl_keep pet_tree *tree);
326 /* Return the induction variable of the for loop "tree" */
327 __isl_give pet_expr *pet_tree_loop_get_var(__isl_keep pet_tree *tree);
328 /* Return the initial value of the induction variable of the for loop "tree" */
329 __isl_give pet_expr *pet_tree_loop_get_init(__isl_keep pet_tree *tree);
330 /* Return the condition of the loop tree "tree" */
331 __isl_give pet_expr *pet_tree_loop_get_cond(__isl_keep pet_tree *tree);
332 /* Return the induction variable of the for loop "tree" */
333 __isl_give pet_expr *pet_tree_loop_get_inc(__isl_keep pet_tree *tree);
334 /* Return the body of the loop tree "tree" */
335 __isl_give pet_tree *pet_tree_loop_get_body(__isl_keep pet_tree *tree);
337 /* Call "fn" on each top-level expression in the nodes of "tree" */
338 int pet_tree_foreach_expr(__isl_keep pet_tree *tree,
339 int (*fn)(__isl_keep pet_expr *expr, void *user), void *user);
340 /* Call "fn" on each access subexpression in the nodes of "tree" */
341 int pet_tree_foreach_access_expr(__isl_keep pet_tree *tree,
342 int (*fn)(__isl_keep pet_expr *expr, void *user), void *user);
343 /* Modify all call subexpressions in the nodes of "tree" through "fn". */
344 __isl_give pet_tree *pet_tree_map_call_expr(__isl_take pet_tree *tree,
345 __isl_give pet_expr *(*fn)(__isl_take pet_expr *expr, void *user),
346 void *user);
348 void pet_tree_dump(__isl_keep pet_tree *tree);
350 /* "loc" represents the region of the source code that is represented
351 * by this statement.
353 * If the statement has arguments, i.e., n_arg != 0, then
354 * "domain" is a wrapped map, mapping the iteration domain
355 * to the values of the arguments for which this statement
356 * is executed.
357 * Otherwise, it is simply the iteration domain.
359 * If one of the arguments is an access expression that accesses
360 * more than one element for a given iteration, then the constraints
361 * on the value of this argument (encoded in "domain") should be satisfied
362 * for all of those accessed elements.
364 struct pet_stmt {
365 pet_loc *loc;
366 isl_set *domain;
367 pet_tree *body;
369 unsigned n_arg;
370 pet_expr **args;
373 /* Return the iteration space of "stmt". */
374 __isl_give isl_space *pet_stmt_get_space(struct pet_stmt *stmt);
376 /* Is "stmt" an assignment statement? */
377 int pet_stmt_is_assign(struct pet_stmt *stmt);
378 /* Is "stmt" a kill statement? */
379 int pet_stmt_is_kill(struct pet_stmt *stmt);
381 /* pet_stmt_build_ast_exprs is currently limited to only handle
382 * some forms of data dependent accesses.
383 * If pet_stmt_can_build_ast_exprs returns 1, then pet_stmt_build_ast_exprs
384 * can safely be called on "stmt".
386 int pet_stmt_can_build_ast_exprs(struct pet_stmt *stmt);
387 /* Construct an associative array from reference identifiers of
388 * access expressions in "stmt" to the corresponding isl_ast_expr.
389 * Each index expression is first transformed through "fn_index"
390 * (if not NULL). Then an AST expression is generated using "build".
391 * Finally, the AST expression is transformed using "fn_expr"
392 * (if not NULL).
394 __isl_give isl_id_to_ast_expr *pet_stmt_build_ast_exprs(struct pet_stmt *stmt,
395 __isl_keep isl_ast_build *build,
396 __isl_give isl_multi_pw_aff *(*fn_index)(
397 __isl_take isl_multi_pw_aff *mpa, __isl_keep isl_id *id,
398 void *user), void *user_index,
399 __isl_give isl_ast_expr *(*fn_expr)(__isl_take isl_ast_expr *expr,
400 __isl_keep isl_id *id, void *user), void *user_expr);
402 /* Print "stmt" to "p".
404 * The access expressions in "stmt" are replaced by the isl_ast_expr
405 * associated to its reference identifier in "ref2expr".
407 __isl_give isl_printer *pet_stmt_print_body(struct pet_stmt *stmt,
408 __isl_take isl_printer *p, __isl_keep isl_id_to_ast_expr *ref2expr);
410 /* This structure represents a defined type.
411 * "name" is the name of the type, while "definition" is a string
412 * representation of its definition.
414 struct pet_type {
415 char *name;
416 char *definition;
419 /* context holds constraints on the parameter that ensure that
420 * this array has a valid (i.e., non-negative) size
422 * extent holds constraints on the indices
424 * value_bounds holds constraints on the elements of the array
425 * and may be NULL if no such constraints were specified by the user
427 * element_size is the size in bytes of each array element
428 * element_type is the type of the array elements.
429 * element_is_record is set if this type is a record type.
431 * live_out is set if the array appears in a live-out pragma
433 * if uniquely_defined is set then the array is written by a single access
434 * such that any element that is ever read
435 * is known to be assigned exactly once before the read
437 * declared is set if the array was declared somewhere inside the scop.
438 * exposed is set if the declared array is visible outside the scop.
440 struct pet_array {
441 isl_set *context;
442 isl_set *extent;
443 isl_set *value_bounds;
444 char *element_type;
445 int element_is_record;
446 int element_size;
447 int live_out;
448 int uniquely_defined;
449 int declared;
450 int exposed;
453 /* This structure represents an implication on a boolean filter.
454 * In particular, if the filter value of an element in the domain
455 * of "extension" is equal to "satisfied", then the filter values
456 * of the corresponding images in "extension" are also equal
457 * to "satisfied".
459 struct pet_implication {
460 int satisfied;
461 isl_map *extension;
464 /* This structure represents an independence implied by a for loop
465 * that is marked as independent in the source code.
466 * "filter" contains pairs of statement instances that are guaranteed
467 * not to be dependent on each other based on the independent for loop,
468 * assuming that no dependences carried by this loop are implied
469 * by the variables in "local".
470 * "local" contains the variables that are local to the loop that was
471 * marked independent.
473 struct pet_independence {
474 isl_union_map *filter;
475 isl_union_set *local;
478 /* "loc" represents the region of the source code that is represented
479 * by this scop.
480 * If the scop was detected based on scop and endscop pragmas, then
481 * the lines containing these pragmas are included in this region.
482 * In the final result, the context describes the set of parameter values
483 * for which the scop can be executed.
484 * During the construction of the pet_scop, the context lives in a set space
485 * where each dimension refers to an outer loop.
486 * context_value describes assignments to the parameters (if any)
487 * outside of the scop.
489 * "schedule" is the schedule of the statements in the scop.
491 * The n_type types define types that may be referenced from by the arrays.
493 * The n_implication implications describe implications on boolean filters.
495 * The n_independence independences describe independences implied
496 * by for loops that are marked independent in the source code.
498 struct pet_scop {
499 pet_loc *loc;
501 isl_set *context;
502 isl_set *context_value;
503 isl_schedule *schedule;
505 int n_type;
506 struct pet_type **types;
508 int n_array;
509 struct pet_array **arrays;
511 int n_stmt;
512 struct pet_stmt **stmts;
514 int n_implication;
515 struct pet_implication **implications;
517 int n_independence;
518 struct pet_independence **independences;
521 /* Return a textual representation of the operator. */
522 const char *pet_op_str(enum pet_op_type op);
523 int pet_op_is_inc_dec(enum pet_op_type op);
525 /* Extract a pet_scop from a C source file.
526 * If function is not NULL, then the pet_scop is extracted from
527 * a function with that name.
529 struct pet_scop *pet_scop_extract_from_C_source(isl_ctx *ctx,
530 const char *filename, const char *function);
532 /* Transform the C source file "input" by rewriting each scop
533 * When autodetecting scops, at most one scop per function is rewritten.
534 * The transformed C code is written to "output".
536 int pet_transform_C_source(isl_ctx *ctx, const char *input, FILE *output,
537 __isl_give isl_printer *(*transform)(__isl_take isl_printer *p,
538 struct pet_scop *scop, void *user), void *user);
539 /* Given a scop and a printer passed to a pet_transform_C_source callback,
540 * print the original corresponding code to the printer.
542 __isl_give isl_printer *pet_scop_print_original(struct pet_scop *scop,
543 __isl_take isl_printer *p);
545 /* Update all isl_sets and isl_maps such that they all have the same
546 * parameters in the same order.
548 struct pet_scop *pet_scop_align_params(struct pet_scop *scop);
550 /* Does "scop" contain any data dependent accesses? */
551 int pet_scop_has_data_dependent_accesses(struct pet_scop *scop);
552 /* Does "scop" contain any data dependent conditions? */
553 int pet_scop_has_data_dependent_conditions(struct pet_scop *scop);
554 /* pet_stmt_build_ast_exprs is currently limited to only handle
555 * some forms of data dependent accesses.
556 * If pet_scop_can_build_ast_exprs returns 1, then pet_stmt_build_ast_exprs
557 * can safely be called on all statements in the scop.
559 int pet_scop_can_build_ast_exprs(struct pet_scop *scop);
561 void pet_scop_dump(struct pet_scop *scop);
562 struct pet_scop *pet_scop_free(struct pet_scop *scop);
564 __isl_give isl_union_set *pet_scop_collect_domains(struct pet_scop *scop);
565 /* Collect all potential read access relations. */
566 __isl_give isl_union_map *pet_scop_collect_may_reads(struct pet_scop *scop);
567 /* Collect all tagged potential read access relations. */
568 __isl_give isl_union_map *pet_scop_collect_tagged_may_reads(
569 struct pet_scop *scop);
570 /* Collect all potential write access relations. */
571 __isl_give isl_union_map *pet_scop_collect_may_writes(struct pet_scop *scop);
572 /* Collect all definite write access relations. */
573 __isl_give isl_union_map *pet_scop_collect_must_writes(struct pet_scop *scop);
574 /* Collect all tagged potential write access relations. */
575 __isl_give isl_union_map *pet_scop_collect_tagged_may_writes(
576 struct pet_scop *scop);
577 /* Collect all tagged definite write access relations. */
578 __isl_give isl_union_map *pet_scop_collect_tagged_must_writes(
579 struct pet_scop *scop);
580 /* Collect all definite kill access relations. */
581 __isl_give isl_union_map *pet_scop_collect_must_kills(struct pet_scop *scop);
582 /* Collect all tagged definite kill access relations. */
583 __isl_give isl_union_map *pet_scop_collect_tagged_must_kills(
584 struct pet_scop *scop);
586 /* Compute a mapping from all outermost arrays (of structs) in scop
587 * to their innermost members.
589 __isl_give isl_union_map *pet_scop_compute_outer_to_inner(
590 struct pet_scop *scop);
591 /* Compute a mapping from all outermost arrays (of structs) in scop
592 * to their members, including the outermost arrays themselves.
594 __isl_give isl_union_map *pet_scop_compute_outer_to_any(struct pet_scop *scop);
596 #if defined(__cplusplus)
598 #endif
600 #endif