Replace strdup function by osl_util_strdup function or OSL_strdup macro
[openscop.git] / source / extensions / irregular.c
blobced680a6a5a9f73caef65e0e3a4fd6aefbef2fbd
2 /*+-----------------------------------------------------------------**
3 ** OpenScop Library **
4 **-----------------------------------------------------------------**
5 ** extensions/irregular.c **
6 **-----------------------------------------------------------------**
7 ** First version: 07/12/2010 **
8 **-----------------------------------------------------------------**
11 *****************************************************************************
12 * OpenScop: Structures and formats for polyhedral tools to talk together *
13 *****************************************************************************
14 * ,___,,_,__,,__,,__,,__,,_,__,,_,__,,__,,___,_,__,,_,__, *
15 * / / / // // // // / / / // // / / // / /|,_, *
16 * / / / // // // // / / / // // / / // / / / /\ *
17 * |~~~|~|~~~|~~~|~~~|~~~|~|~~~|~|~~~|~~~|~~~|~|~~~|~|~~~|/_/ \ *
18 * | G |C| P | = | L | P |=| = |C| = | = | = |=| = |=| C |\ \ /\ *
19 * | R |l| o | = | e | l |=| = |a| = | = | = |=| = |=| L | \# \ /\ *
20 * | A |a| l | = | t | u |=| = |n| = | = | = |=| = |=| o | |\# \ \ *
21 * | P |n| l | = | s | t |=| = |d| = | = | = | | |=| o | | \# \ \ *
22 * | H | | y | | e | o | | = |l| | | = | | | | G | | \ \ \ *
23 * | I | | | | e | | | | | | | | | | | | | \ \ \ *
24 * | T | | | | | | | | | | | | | | | | | \ \ \ *
25 * | E | | | | | | | | | | | | | | | | | \ \ \ *
26 * | * |*| * | * | * | * |*| * |*| * | * | * |*| * |*| * | / \* \ \ *
27 * | O |p| e | n | S | c |o| p |-| L | i | b |r| a |r| y |/ \ \ / *
28 * '---'-'---'---'---'---'-'---'-'---'---'---'-'---'-'---' '--' *
29 * *
30 * Copyright (C) 2008 University Paris-Sud 11 and INRIA *
31 * *
32 * (3-clause BSD license) *
33 * Redistribution and use in source and binary forms, with or without *
34 * modification, are permitted provided that the following conditions *
35 * are met: *
36 * *
37 * 1. Redistributions of source code must retain the above copyright notice, *
38 * this list of conditions and the following disclaimer. *
39 * 2. Redistributions in binary form must reproduce the above copyright *
40 * notice, this list of conditions and the following disclaimer in the *
41 * documentation and/or other materials provided with the distribution. *
42 * 3. The name of the author may not be used to endorse or promote products *
43 * derived from this software without specific prior written permission. *
44 * *
45 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR *
46 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES *
47 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. *
48 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, *
49 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT *
50 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, *
51 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY *
52 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT *
53 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF *
54 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *
55 * *
56 * OpenScop Library, a library to manipulate OpenScop formats and data *
57 * structures. Written by: *
58 * Cedric Bastoul <Cedric.Bastoul@u-psud.fr> and *
59 * Louis-Noel Pouchet <Louis-Noel.pouchet@inria.fr> *
60 * *
61 *****************************************************************************/
63 #include <stdlib.h>
64 #include <stdio.h>
65 #include <string.h>
67 #include <osl/macros.h>
68 #include <osl/util.h>
69 #include <osl/strings.h>
70 #include <osl/interface.h>
71 #include <osl/extensions/irregular.h>
74 /*+***************************************************************************
75 * Structure display function *
76 *****************************************************************************/
79 /**
80 * osl_irregular_idump function:
81 * this function displays an osl_irregular_t structure (*irregular) into a
82 * file (file, possibly stdout) in a way that trends to be understandable. It
83 * includes an indentation level (level) in order to work with others
84 * idump functions.
85 * \param file The file where the information has to be printed.
86 * \param irregular The irregular structure whose information has to be printed.
87 * \param level Number of spaces before printing, for each line.
89 void osl_irregular_idump(FILE * file, osl_irregular_p irregular, int level) {
90 int i,j;
92 // Go to the right level.
93 for (j = 0; j < level; j++)
94 fprintf(file, "|\t");
96 if (irregular != NULL)
97 fprintf(file, "+-- osl_irregular_t\n");
98 else
99 fprintf(file, "+-- NULL irregular\n");
101 if (irregular != NULL) {
102 // Go to the right level.
103 for(j = 0; j <= level; j++)
104 fprintf(file, "|\t");
106 // Display the irregular contents.
108 // Print statements
109 for (i = 0; i < irregular->nb_statements; i++) {
110 fprintf(file, "statement%d's predicats : ", i);
111 for(j = 0; j < irregular->nb_predicates[i]; j++)
112 fprintf(file, "%d ", irregular->predicates[i][j]);
113 fprintf(file, "\n");
115 // Print predicats
116 // controls :
117 for (i = 0; i < irregular->nb_control; i++) {
118 fprintf(file, "predicat%d's\niterators : ", i);
119 for(j = 0; j < irregular->nb_iterators[i]; j++)
120 fprintf(file, "%s ", irregular->iterators[i][j]);
121 fprintf(file, "\ncontrol body: %s\n", irregular->body[i]);
123 // exits :
124 for(i = irregular->nb_control;
125 i < irregular->nb_control + irregular->nb_exit; i++) {
126 fprintf(file, "predicat%d's\niterators : ", i);
127 for(j = 0; j < irregular->nb_iterators[i]; j++)
128 fprintf(file, "%s ", irregular->iterators[i][j]);
129 fprintf(file, "\nexit body: %s\n", irregular->body[i]);
133 // The last line.
134 for (j = 0; j <= level; j++)
135 fprintf(file, "|\t");
136 fprintf(file, "\n");
141 * osl_irregular_dump function:
142 * this function prints the content of an osl_irregular_t structure
143 * (*irregular) into a file (file, possibly stdout).
144 * \param file The file where the information has to be printed.
145 * \param irregular The irregular structure whose information has to be printed.
147 void osl_irregular_dump(FILE * file, osl_irregular_p irregular) {
148 osl_irregular_idump(file, irregular, 0);
153 * osl_irregular_sprint function:
154 * this function prints the content of an osl_irregular_t structure
155 * (*irregular) into a string (returned) in the OpenScop textual format.
156 * \param irregular The irregular structure whose information has to be printed.
157 * \return A string containing the OpenScop dump of the irregular structure.
159 char * osl_irregular_sprint(osl_irregular_p irregular) {
160 int high_water_mark = OSL_MAX_STRING,i,j;
161 char * string = NULL;
162 char * buffer;
164 if (irregular != NULL) {
165 OSL_malloc(string, char *, high_water_mark * sizeof(char));
166 OSL_malloc(buffer, char *, OSL_MAX_STRING * sizeof(char));
167 string[0] = '\0';
169 // Print the begin tag.
170 sprintf(buffer, OSL_TAG_IRREGULAR_START);
171 osl_util_safe_strcat(&string, buffer, &high_water_mark);
173 // Print the content.
174 sprintf(buffer, "\n%d\n", irregular->nb_statements);
175 for(i=0; i<irregular->nb_statements; i++) {
176 sprintf(buffer, "%s%d ", buffer, irregular->nb_predicates[i]);
177 for(j=0; j<irregular->nb_predicates[i]; j++) {
178 sprintf(buffer, "%s%d ", buffer, irregular->predicates[i][j]);
180 sprintf(buffer, "%s\n", buffer);
182 // Print the predicates.
183 // controls:
184 sprintf(buffer, "%s%d\n", buffer, irregular->nb_control);
185 sprintf(buffer, "%s%d\n", buffer, irregular->nb_exit);
186 for(i=0; i<irregular->nb_control; i++) {
187 sprintf(buffer, "%s%d ", buffer, irregular->nb_iterators[i]);
188 for(j=0; j<irregular->nb_iterators[i];j++)
189 sprintf(buffer, "%s%s ", buffer, irregular->iterators[i][j]);
190 sprintf(buffer, "%s\n%s\n", buffer, irregular->body[i]);
192 // exits:
193 for(i=0; i<irregular->nb_exit; i++) {
194 sprintf(buffer, "%s%d ", buffer, irregular->nb_iterators[
195 irregular->nb_control + i]);
196 for(j=0; j<irregular->nb_iterators[irregular->nb_control + i];j++)
197 sprintf(buffer, "%s%s ", buffer, irregular->iterators[
198 irregular->nb_control+i][j]);
199 sprintf(buffer, "%s\n%s\n", buffer, irregular->body[
200 irregular->nb_control + i]);
203 osl_util_safe_strcat(&string, buffer, &high_water_mark);
205 // Print the end tag.
206 sprintf(buffer, OSL_TAG_IRREGULAR_STOP"\n");
207 osl_util_safe_strcat(&string, buffer, &high_water_mark);
209 // Keep only the memory space we need.
210 OSL_realloc(string, char *, (strlen(string) + 1) * sizeof(char));
211 free(buffer);
214 return string;
218 /*****************************************************************************
219 * Reading function *
220 *****************************************************************************/
223 * osl_irregular_sread function:
224 * this function reads a irregular structure from a string complying to the
225 * OpenScop textual format and returns a pointer to this irregular structure.
226 * The string should contain only one textual format of a irregular structure.
227 * \param extensions The input string where to find a irregular structure.
228 * \return A pointer to the irregular structure that has been read.
230 osl_irregular_p osl_irregular_sread(char ** extensions_fixme) {
231 char * content,*tok;
232 int i,j;
233 osl_irregular_p irregular;
235 // FIXME: this is a quick and dirty thing to accept char ** instead
236 // of char * in the parameter: really do it and update the
237 // pointer to after what has been read.
238 content = *extensions_fixme;
240 if (content == NULL) {
241 OSL_debug("no irregular optional tag");
242 return NULL;
245 if (strlen(content) > OSL_MAX_STRING)
246 OSL_error("irregular too long");
248 irregular = osl_irregular_malloc();
250 // nb statements
251 tok = strtok(content," \n");
252 irregular->nb_statements = atoi(tok);
253 OSL_malloc(irregular->predicates, int **,
254 sizeof(int*) * irregular->nb_statements);
255 OSL_malloc(irregular->nb_predicates, int *,
256 sizeof(int) * irregular->nb_statements);
258 // get predicats
259 for(i = 0; i < irregular->nb_statements; i++) {
260 // nb conditions
261 tok = strtok(NULL," \n");
262 irregular->nb_predicates[i] = atoi(tok);
263 OSL_malloc(irregular->predicates[i], int *,
264 sizeof(int) * irregular->nb_predicates[i]);
265 for(j = 0; j < irregular->nb_predicates[i]; j++){
266 tok = strtok(NULL, " \n");
267 irregular->predicates[i][j] = atoi(tok);
270 // Get nb predicat
271 // control and exits :
272 tok = strtok(NULL, " \n");
273 irregular->nb_control=atoi(tok);
274 tok = strtok(NULL, " \n");
275 irregular->nb_exit = atoi(tok);
277 int nb_predicates = irregular->nb_control + irregular->nb_exit;
279 OSL_malloc(irregular->iterators, char ***,
280 sizeof(char **) * nb_predicates);
281 OSL_malloc(irregular->nb_iterators, int *, sizeof(int) * nb_predicates);
282 OSL_malloc(irregular->body, char **, sizeof(char *) * nb_predicates);
284 for(i = 0; i < nb_predicates; i++) {
285 // Get number of iterators
286 tok = strtok(NULL, " \n");
287 irregular->nb_iterators[i] = atoi(tok);
288 OSL_malloc(irregular->iterators[i], char **,
289 sizeof(char *) * irregular->nb_iterators[i]);
291 // Get iterators
292 for(j = 0; j < irregular->nb_iterators[i]; j++)
293 OSL_strdup(irregular->iterators[i][j], strtok(NULL, " \n"));
294 // Get predicat string
295 OSL_strdup(irregular->body[i], strtok(NULL, "\n"));
298 return irregular;
302 /*+***************************************************************************
303 * Memory allocation/deallocation function *
304 *****************************************************************************/
308 * osl_irregular_malloc function:
309 * This function allocates the memory space for an osl_irregular_t
310 * structure and sets its fields with default values. Then it returns a
311 * pointer to the allocated space.
312 * \return A pointer to an empty irregular structure with fields set to
313 * default values.
315 osl_irregular_p osl_irregular_malloc() {
316 osl_irregular_p irregular;
318 OSL_malloc(irregular, osl_irregular_p,
319 sizeof(osl_irregular_t));
320 irregular->nb_statements = 0;
321 irregular->predicates = NULL;
322 irregular->nb_predicates = NULL;
323 irregular->nb_control = 0;
324 irregular->nb_exit = 0;
325 irregular->nb_iterators = NULL;
326 irregular->iterators = NULL;
327 irregular->body = NULL;
329 return irregular;
334 * osl_irregular_free function:
335 * This function frees the allocated memory for an osl_irregular_t
336 * structure.
337 * \param irregular The pointer to the irregular structure we want to free.
339 void osl_irregular_free(osl_irregular_p irregular) {
340 int i, j, nb_predicates;
342 if (irregular != NULL) {
343 for(i = 0; i < irregular->nb_statements; i++)
344 free(irregular->predicates[i]);
346 if(irregular->predicates != NULL)
347 free(irregular->predicates);
349 nb_predicates = irregular->nb_control + irregular->nb_exit;
350 for(i = 0; i < nb_predicates; i++) {
351 for(j = 0; j < irregular->nb_iterators[i]; j++)
352 free(irregular->iterators[i][j]);
353 free(irregular->iterators[i]);
354 free(irregular->body[i]);
356 if(irregular->iterators != NULL)
357 free(irregular->iterators);
358 if(irregular->nb_iterators != NULL)
359 free(irregular->nb_iterators);
360 if(irregular->body != NULL)
361 free(irregular->body);
362 if(irregular->nb_predicates != NULL)
363 free(irregular->nb_predicates);
364 free(irregular);
369 /*+***************************************************************************
370 * Processing functions *
371 *****************************************************************************/
375 * osl_irregular_clone function:
376 * This function builds and returns a "hard copy" (not a pointer copy) of an
377 * osl_irregular_t data structure.
378 * \param irregular The pointer to the irregular structure we want to copy.
379 * \return A pointer to the copy of the irregular structure.
381 osl_irregular_p osl_irregular_clone(osl_irregular_p irregular) {
382 int i,j;
383 osl_irregular_p copy;
385 if (irregular == NULL)
386 return NULL;
388 copy = osl_irregular_malloc();
389 copy->nb_statements = irregular->nb_statements;
390 copy->nb_predicates = (int *)malloc(sizeof(int)*copy->nb_statements);
391 if (copy->nb_predicates == NULL)
393 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
394 exit(1);
396 copy->predicates = (int **)malloc(sizeof(int*)*copy->nb_statements);
397 if (copy->predicates == NULL)
399 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
400 exit(1);
402 for(i=0; i<copy->nb_statements; i++)
404 copy->nb_predicates[i]=irregular->nb_predicates[i];
405 copy->predicates[i] = (int *)malloc(sizeof(int)*copy->nb_predicates[i]);
406 if (copy->predicates[i] == NULL)
408 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
409 exit(1);
411 for(j=0; j<copy->nb_predicates[i]; j++)
412 copy->predicates[i][j] = irregular->predicates[i][j];
415 copy->nb_control = irregular->nb_control;
416 copy->nb_exit = irregular->nb_exit;
417 int nb_predicates = irregular->nb_control + irregular->nb_exit;
418 copy->nb_iterators = (int *)malloc(sizeof(int)*nb_predicates);
419 if (copy->nb_iterators == NULL)
421 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
422 exit(1);
424 copy->iterators = (char ***)malloc(sizeof(char**)*nb_predicates);
425 if (copy->iterators == NULL)
427 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
428 exit(1);
430 copy->body = (char **)malloc(sizeof(char*)*nb_predicates);
431 if (copy->body == NULL)
433 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
434 exit(1);
436 for(i=0; i<nb_predicates; i++)
438 copy->nb_iterators[i] = irregular->nb_iterators[i];
439 copy->iterators[i] = (char**)malloc(sizeof(char*)*copy->nb_iterators[i]);
440 if (copy->iterators[i] == NULL)
442 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
443 exit(1);
445 for(j=0;j<copy->nb_iterators[i];j++)
446 OSL_strdup(copy->iterators[i][j], irregular->iterators[i][j]);
447 OSL_strdup(copy->iterators[i][j], irregular->body[i]);
450 return copy;
455 * osl_irregular_equal function:
456 * this function returns true if the two irregular structures are the same
457 * (content-wise), false otherwise. This functions considers two irregular
458 * \param c1 The first irregular structure.
459 * \param c2 The second irregular structure.
460 * \return 1 if c1 and c2 are the same (content-wise), 0 otherwise.
463 osl_irregular_equal(osl_irregular_p c1, osl_irregular_p c2)
465 int i,j,bool = 0;
466 if (c1 == c2)
467 return 1;
469 if (((c1 == NULL) && (c2 != NULL)) || ((c1 != NULL) && (c2 == NULL)))
470 return 0;
472 if(c1->nb_statements != c2->nb_statements ||
473 c1->nb_control != c2->nb_control ||
474 c1->nb_exit != c2->nb_exit)
475 return 0;
476 i=0;
477 while(bool == 0 && i < c1->nb_statements)
479 bool = c1->nb_predicates[i] != c2->nb_predicates[i] ? 1 : 0;
480 i++;
482 if(bool != 0)
483 return 0;
485 i = 0;
486 while(bool == 0 && i < c1->nb_control + c1->nb_exit)
488 bool += c1->nb_iterators[i] != c2->nb_iterators[i] ? 1 : 0;
489 bool += strcmp(c1->body[i],c2->body[i]);
490 j = 0;
491 while(bool == 0 && j < c1->nb_iterators[i])
493 bool += strcmp(c1->iterators[i][j],c2->iterators[i][j]);
494 j++;
496 i++;
498 if(bool != 0)
499 return 0;
500 return 1;
503 osl_irregular_p osl_irregular_add_control(
504 osl_irregular_p irregular,
505 char** iterators,
506 int nb_iterators,
507 char* body)
509 int i,j;
510 osl_irregular_p result=osl_irregular_malloc();
512 result->nb_control = irregular->nb_control + 1;
513 result->nb_exit = irregular->nb_exit;
514 result->nb_statements = irregular->nb_statements;
515 int nb_predicates = result->nb_control + result->nb_exit;
517 result->iterators = (char***)malloc(sizeof(char**)*nb_predicates);
518 result->nb_iterators = (int*)malloc(sizeof(int)*nb_predicates);
519 result->body = (char**)malloc(sizeof(char*)*nb_predicates);
520 if (result->iterators == NULL ||
521 result->nb_iterators == NULL ||
522 result->body == NULL)
524 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
525 exit(1);
527 //copy controls
528 for(i=0; i<irregular->nb_control; i++)
530 result->nb_iterators[i] = irregular->nb_iterators[i];
531 OSL_strdup(result->body[i], irregular->body[i]);
532 result->iterators[i] = (char**)malloc(sizeof(char*) *
533 irregular->nb_iterators[i]);
534 if (result->iterators[i] == NULL)
536 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
537 exit(1);
539 for(j=0; j<irregular->nb_iterators[i];j++)
540 OSL_strdup(result->iterators[i][j], irregular->iterators[i][j]);
542 //add controls
543 result->iterators[irregular->nb_control] = (char**)malloc(sizeof(char*)*nb_iterators);
544 if (result->iterators[irregular->nb_control] == NULL)
546 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
547 exit(1);
549 for(i=0; i<nb_iterators; i++)
550 OSL_strdup(result->iterators[irregular->nb_control][i], iterators[i]);
551 result->nb_iterators[irregular->nb_control] = nb_iterators;
552 OSL_strdup(result->body[irregular->nb_control], body);
553 //copy exits
554 for(i=result->nb_control; i<nb_predicates; i++)
556 result->nb_iterators[i] = irregular->nb_iterators[i-1];
557 OSL_strdup(result->body[i], irregular->body[i-1]);
558 result->iterators[i] = (char**)malloc(sizeof(char*) *
559 irregular->nb_iterators[i-1]);
560 if (result->iterators[i] == NULL)
562 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
563 exit(1);
565 for(j=0; j<irregular->nb_iterators[i-1];j++)
566 OSL_strdup(result->iterators[i][j], irregular->iterators[i-1][j]);
568 // copy statements
569 result->nb_predicates = (int*)malloc(sizeof(int)*irregular->nb_statements);
570 result->predicates = (int**)malloc(sizeof(int*)*irregular->nb_statements);
571 if (result->nb_predicates == NULL || result->predicates == NULL)
573 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
574 exit(1);
576 for(i=0; i<irregular->nb_statements; i++)
578 result->predicates[i] = (int*)malloc(sizeof(int)*irregular->nb_predicates[i]);
579 if (result->predicates[i] == NULL)
581 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
582 exit(1);
584 result->nb_predicates[i] = irregular->nb_predicates[i];
585 for(j=0; j<irregular->nb_predicates[i]; j++)
586 result->predicates[i][j]=irregular->predicates[i][j];
588 return result;
592 osl_irregular_p osl_irregular_add_exit(
593 osl_irregular_p irregular,
594 char** iterators,
595 int nb_iterators,
596 char* body)
598 int i,j;
599 osl_irregular_p result=osl_irregular_malloc();
601 result->nb_control = irregular->nb_control;
602 result->nb_exit = irregular->nb_exit + 1;
603 result->nb_statements = irregular->nb_statements;
604 int nb_predicates = result->nb_control + result->nb_exit;
606 result->iterators = (char***)malloc(sizeof(char**)*nb_predicates);
607 result->nb_iterators = (int*)malloc(sizeof(int)*nb_predicates);
608 result->body = (char**)malloc(sizeof(char*)*nb_predicates);
609 if (result->iterators == NULL ||
610 result->nb_iterators == NULL ||
611 result->body == NULL)
613 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
614 exit(1);
616 //copy controls and exits
617 for(i=0; i<nb_predicates - 1; i++)
619 result->nb_iterators[i] = irregular->nb_iterators[i];
620 OSL_strdup(result->body[i], irregular->body[i]);
621 result->iterators[i] = (char**)malloc(sizeof(char*) *
622 irregular->nb_iterators[i]);
623 if (result->iterators[i] == NULL)
625 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
626 exit(1);
628 for(j=0; j<irregular->nb_iterators[i];j++)
629 OSL_strdup(result->iterators[i][j], irregular->iterators[i][j]);
631 //add exit
632 result->iterators[nb_predicates-1] = (char**)malloc(sizeof(char*)*nb_iterators);
633 if (result->iterators[nb_predicates-1] == NULL)
635 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
636 exit(1);
639 for(i=0; i<nb_iterators; i++)
640 OSL_strdup(result->iterators[nb_predicates-1][i], iterators[i]);
641 result->nb_iterators[nb_predicates-1] = nb_iterators;
642 OSL_strdup(result->body[nb_predicates-1], body);
643 // copy statements
644 result->nb_predicates = (int*)malloc(sizeof(int)*irregular->nb_statements);
645 result->predicates = (int**)malloc(sizeof(int*)*irregular->nb_statements);
646 if (result->nb_predicates == NULL || result->predicates == NULL)
648 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
649 exit(1);
651 for(i=0; i<irregular->nb_statements; i++)
653 result->predicates[i] = (int*)malloc(sizeof(int)*irregular->nb_predicates[i]);
654 if (result->predicates[i] == NULL)
656 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
657 exit(1);
659 result->nb_predicates[i] = irregular->nb_predicates[i];
660 for(j=0; j<irregular->nb_predicates[i]; j++)
661 result->predicates[i][j]=irregular->predicates[i][j];
663 return result;
667 osl_irregular_p osl_irregular_add_predicates(
668 osl_irregular_p irregular,
669 int* predicates,
670 int nb_add_predicates)
672 int i,j;
673 osl_irregular_p result=osl_irregular_malloc();
675 result->nb_control = irregular->nb_control;
676 result->nb_exit = irregular->nb_exit;
677 result->nb_statements = irregular->nb_statements+1;
678 int nb_predicates = result->nb_control + result->nb_exit;
680 result->iterators = (char***)malloc(sizeof(char**)*nb_predicates);
681 result->nb_iterators = (int*)malloc(sizeof(int)*nb_predicates);
682 result->body = (char**)malloc(sizeof(char*)*nb_predicates);
683 if (result->iterators == NULL ||
684 result->nb_iterators == NULL ||
685 result->body == NULL)
687 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
688 exit(1);
690 //copy controls and exits
691 for(i=0; i<nb_predicates; i++)
693 result->nb_iterators[i] = irregular->nb_iterators[i];
694 OSL_strdup(result->body[i], irregular->body[i]);
695 result->iterators[i] = (char**)malloc(sizeof(char*) *
696 irregular->nb_iterators[i]);
697 if (result->iterators[i] == NULL)
699 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
700 exit(1);
702 for(j=0; j<irregular->nb_iterators[i];j++)
703 OSL_strdup(result->iterators[i][j], irregular->iterators[i][j]);
705 //copy statements
706 result->nb_predicates = (int*)malloc(sizeof(int)*result->nb_statements);
707 result->predicates = (int**)malloc(sizeof(int*)*result->nb_statements);
708 if (result->nb_predicates == NULL ||
709 result->predicates == NULL)
711 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
712 exit(1);
714 for(i=0; i<irregular->nb_statements; i++)
716 result->predicates[i] = (int*)malloc(sizeof(int)*irregular->nb_predicates[i]);
717 if (result->predicates[i] == NULL)
719 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
720 exit(1);
722 result->nb_predicates[i] = irregular->nb_predicates[i];
723 for(j=0; j<irregular->nb_predicates[i]; j++)
724 result->predicates[i][j]=irregular->predicates[i][j];
726 //add statement
727 result->predicates[irregular->nb_statements] = (int*)malloc(sizeof(int)*nb_add_predicates);
728 if (result->predicates[irregular->nb_statements] == NULL)
730 fprintf(stderr, "[OpenScop] Error: memory overflow.\n");
731 exit(1);
733 for(i=0; i<nb_add_predicates; i++)
734 result->predicates[irregular->nb_statements][i] = predicates[i];
735 result->nb_predicates[irregular->nb_statements] = nb_add_predicates;
737 return result;
744 * osl_irregular_interface function:
745 * this function creates an interface structure corresponding to the irregular
746 * extension and returns it).
747 * \return An interface structure for the irregular extension.
749 osl_interface_p osl_irregular_interface() {
750 osl_interface_p interface = osl_interface_malloc();
752 OSL_strdup(interface->URI, OSL_URI_IRREGULAR);
753 interface->idump = (osl_idump_f)osl_irregular_idump;
754 interface->sprint = (osl_sprint_f)osl_irregular_sprint;
755 interface->sread = (osl_sread_f)osl_irregular_sread;
756 interface->malloc = (osl_malloc_f)osl_irregular_malloc;
757 interface->free = (osl_free_f)osl_irregular_free;
758 interface->clone = (osl_clone_f)osl_irregular_clone;
759 interface->equal = (osl_equal_f)osl_irregular_equal;
761 return interface;