| blob | 1a73a7f68bd1b17e2f974d3aa165c87fc9fe422c |
2 /**-------------------------------------------------------------------**
3 ** CLooG **
4 **-------------------------------------------------------------------**
5 ** loop.c **
6 **-------------------------------------------------------------------**
7 ** First version: october 26th 2001 **
8 **-------------------------------------------------------------------**/
11 /******************************************************************************
12 * CLooG : the Chunky Loop Generator (experimental) *
13 ******************************************************************************
14 * *
15 * Copyright (C) 2001-2005 Cedric Bastoul *
16 * *
17 * This library is free software; you can redistribute it and/or *
18 * modify it under the terms of the GNU Lesser General Public *
19 * License as published by the Free Software Foundation; either *
20 * version 2.1 of the License, or (at your option) any later version. *
21 * *
22 * This library is distributed in the hope that it will be useful, *
23 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
24 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
25 * Lesser General Public License for more details. *
26 * *
27 * You should have received a copy of the GNU Lesser General Public *
28 * License along with this library; if not, write to the Free Software *
29 * Foundation, Inc., 51 Franklin Street, Fifth Floor, *
30 * Boston, MA 02110-1301 USA *
31 * *
32 * CLooG, the Chunky Loop Generator *
33 * Written by Cedric Bastoul, Cedric.Bastoul@inria.fr *
34 * *
35 ******************************************************************************/
36 /* CAUTION: the english used for comments is probably the worst you ever read,
37 * please feel free to correct and improve it !
38 */
40 # include <stdlib.h>
41 # include <stdio.h>
44 #define ALLOC(type) (type*)malloc(sizeof(type))
47 /******************************************************************************
48 * Memory leaks hunting *
49 ******************************************************************************/
52 /**
53 * These functions and global variables are devoted to memory leaks hunting: we
54 * want to know at each moment how many CloogLoop structures had been allocated
55 * (cloog_loop_allocated) and how many had been freed (cloog_loop_freed).
56 * Each time a CloogLoog structure is allocated, a call to the function
57 * cloog_loop_leak_up() must be carried out, and respectively
58 * cloog_loop_leak_down() when a CloogLoop structure is freed. The special
59 * variable cloog_loop_max gives the maximal number of CloogLoop structures
60 * simultaneously alive (i.e. allocated and non-freed) in memory.
61 * - July 3rd->11th 2003: first version (memory leaks hunt and correction).
62 */
66 {
70 }
74 {
76 }
79 /******************************************************************************
80 * Structure display function *
81 ******************************************************************************/
84 /**
85 * cloog_loop_print_structure function:
86 * Displays a loop structure in a way that trends to be understandable without
87 * falling in a deep depression or, for the lucky ones, getting a headache...
88 * Written by Olivier Chorier, Luc Marchaud, Pierre Martin and Romain Tartiere.
89 * - April 24th 2005: Initial version.
90 * - May 21rd 2005: - New parameter `F' for destination file (ie stdout),
91 * - Minor tweaks.
92 * - May 26th 2005: Memory leak hunt.
93 * - June 2nd 2005: (Ced) Integration and minor fixes.
94 * -June 22nd 2005: (Ced) Adaptation for GMP.
95 */
105 }
107 /* For each loop. */
115 }
116 else
119 /* A blank line. */
124 /* Print the domain. */
127 /* Print the stride. */
137 }
139 /* A blank line. */
144 /* Print the block. */
147 /* A blank line. */
152 /* Print inner if any. */
156 /* And let's go for the next one. */
159 /* One more time something that is here only for a better look. */
167 }
168 }
169 else
174 }
175 }
176 }
179 /**
180 * cloog_loop_print function:
181 * This function prints the content of a CloogLoop structure (start) into a
182 * file (file, possibly stdout).
183 * - June 2nd 2005: Now this very old function (probably as old as CLooG) is
184 * only a frontend to cloog_loop_print_structure, with a quite
185 * better human-readable representation.
186 */
189 }
192 /******************************************************************************
193 * Memory deallocation function *
194 ******************************************************************************/
197 /**
198 * cloog_loop_free function:
199 * This function frees the allocated memory for a CloogLoop structure (loop),
200 * and frees its inner loops and its next loops.
201 * - June 22nd 2005: Adaptation for GMP.
202 */
219 }
220 }
223 /**
224 * cloog_loop_free_parts function:
225 * This function frees the allocated memory for some parts of a CloogLoop
226 * structure (loop), each other argument is a boolean having to be set to 1 if
227 * we want to free the corresponding part, 0 otherwise. This function applies
228 * the same freeing policy to its inner ans next loops recursively.
229 * - July 3rd 2003: first version.
230 * - June 22nd 2005: Adaptation for GMP.
231 */
254 else
256 }
257 }
260 /******************************************************************************
261 * Reading functions *
262 ******************************************************************************/
265 /**
266 * Construct a CloogLoop structure from a given iteration domain
267 * and statement number.
268 */
271 {
276 /* Memory allocation and information reading for the first domain: */
278 /* domain. */
282 else
284 /* included statement block. */
289 }
292 /**
293 * cloog_loop_read function:
294 * This function reads loop data from a file (foo, possibly stdin) and
295 * returns a pointer to a CloogLoop structure containing the read information.
296 * This function can be used only for input file reading, when one loop is
297 * associated with one statement.
298 * - number is the statement block number carried by the loop (-1 if none).
299 * - nb_parameters is the number of parameters.
300 **
301 * - September 9th 2002: first version.
302 * - April 16th 2005: adaptation to new CloogStatement struct (with number).
303 * - June 11th 2005: adaptation to new CloogBlock structure.
304 * - June 22nd 2005: Adaptation for GMP.
305 */
308 {
315 /* To read that stupid "0 0 0" line. */
321 }
324 /******************************************************************************
325 * Processing functions *
326 ******************************************************************************/
329 /**
330 * cloog_loop_malloc function:
331 * This function allocates the memory space for a CloogLoop structure and
332 * sets its fields with default values. Then it returns a pointer to the
333 * allocated space.
334 * - November 21th 2005: first version.
335 */
339 /* Memory allocation for the CloogLoop structure. */
346 /* We set the various fields with default values. */
358 }
361 /**
362 * cloog_loop_alloc function:
363 * This function allocates the memory space for a CloogLoop structure and
364 * sets its fields with those given as input. Then it returns a pointer to the
365 * allocated space.
366 * - October 27th 2001: first version.
367 * - June 22nd 2005: Adaptation for GMP.
368 * - November 21th 2005: use of cloog_loop_malloc.
369 */
385 }
388 /**
389 * cloog_loop_add function:
390 * This function adds a CloogLoop structure (loop) at a given place (now) of a
391 * NULL terminated list of CloogLoop structures. The beginning of this list
392 * is (start). This function updates (now) to (loop), and updates (start) if the
393 * added element is the first one -that is when (start) is NULL-.
394 * - October 28th 2001: first version.
395 */
400 }
401 else
404 }
405 }
408 /**
409 * cloog_loop_add function:
410 * This function adds a CloogLoop structure (loop) at a given place (now) of a
411 * NULL terminated list of CloogLoop structures. The beginning of this list
412 * is (start). This function updates (now) to the end of the loop list (loop),
413 * and updates (start) if the added element is the first one -that is when
414 * (start) is NULL-.
415 * - September 9th 2005: first version.
416 */
421 }
422 else
425 }
429 }
432 /**
433 * cloog_loop_copy function:
434 * This function returns a copy of the CloogLoop structure given as input. In
435 * fact, there is just new allocations for the CloogLoop structures, but their
436 * contents are the same.
437 * - October 28th 2001: first version.
438 * - July 3rd->11th 2003: memory leaks hunt and correction.
439 */
454 }
456 }
459 /**
460 * cloog_loop_add_disjoint function:
461 * This function adds some CloogLoop structures at a given place (now) of a
462 * NULL terminated list of CloogLoop structures. The beginning of this list
463 * is (start). (loop) can be an union of polyhedra, this function separates the
464 * union into a list of *disjoint* polyhedra then adds the list. This function
465 * updates (now) to the end of the list and updates (start) if first added
466 * element is the first of the principal list -that is when (start) is NULL-.
467 * (loop) can be freed by this function, basically when its domain is actually
468 * a union of polyhedra, but don't worry, all the useful data are now stored
469 * inside the list (start). We do not use PolyLib's Domain_Disjoint function,
470 * since the number of union components is often higher (thus code size too).
471 * - October 28th 2001: first version.
472 * - November 14th 2001: bug correction (this one was hard to find !).
473 * - July 3rd->11th 2003: memory leaks hunt and correction.
474 * - June 22nd 2005: Adaptation for GMP.
475 * - October 27th 2005: (debug) included blocks were not copied for new loops.
476 */
479 {
490 /* We separate the first element of the rest of the union. */
493 /* This first element is the first of the list of disjoint polyhedra. */
507 }
509 /* Each new loop will have its own life, for instance we can free its
510 * inner loop and included block. Then each one must have its own copy
511 * of both 'inner' and 'block'.
512 */
518 /* domain can be an union too. If so: recursion. */
521 else
527 }
530 }
534 }
535 }
538 /**
539 * cloog_loop_disjoint function:
540 * This function returns a list of loops such that each loop with non-convex
541 * domain in the input list (loop) is separated into several loops where the
542 * domains are the components of the union of *disjoint* polyhedra equivalent
543 * to the original non-convex domain. See cloog_loop_add_disjoint comments
544 * for more details.
545 * - September 16th 2005: first version.
546 */
550 /* Because this is often the case, don't waste time ! */
559 }
562 }
565 /**
566 * cloog_loop_restrict function:
567 * This function returns the (loop) in the context of (context): it makes the
568 * intersection between the (loop) domain and the (context), then it returns
569 * a pointer to a new loop, with this intersection as domain.
570 **
571 * - October 27th 2001: first version.
572 * - June 15th 2005: a memory leak fixed (domain was not freed when empty).
573 * - June 22nd 2005: Adaptation for GMP.
574 */
582 {
587 }
588 else
594 }
599 }
600 }
603 /**
604 * Call cloog_loop_restrict on each loop in the list "loop" and return
605 * the concatenated result.
606 */
608 {
623 }
624 }
627 }
630 {
637 }
639 /**
640 * cloog_loop_project function:
641 * This function returns the projection of (loop) on the (level) first
642 * dimensions (outer loops). It makes the projection of the (loop) domain,
643 * then it returns a pointer to a new loop, with this projection as domain.
644 **
645 * - October 27th 2001: first version.
646 * - July 3rd->11th 2003: memory leaks hunt and correction.
647 * - June 22nd 2005: Adaptation for GMP.
648 */
650 {
659 else
666 }
669 /**
670 * Call cloog_loop_project on each loop in the list "loop" and return
671 * the concatenated result.
672 */
674 {
685 }
688 }
691 /**
692 * cloog_loop_concat function:
693 * This function returns a pointer to the concatenation of the
694 * CloogLoop lists given as input.
695 * - October 28th 2001: first version.
696 */
706 }
707 else
711 }
714 /**
715 * cloog_loop_combine:
716 * Combine consecutive loops with identical domains into
717 * a single loop with the concatenation of their inner loops
718 * as inner loop.
719 */
721 {
732 }
733 }
736 }
738 /**
739 * Remove loops from list that have an empty domain.
740 */
742 {
754 }
755 }
759 }
764 /* For each loop with only one inner loop, replace the domain
765 * of the loop with the projection of the domain of the inner
766 * loop. To increase the number of loops with a single inner
767 * we first decompose the inner loops into strongly connected
768 * components.
769 */
772 {
793 }
794 }
797 }
799 /**
800 * cloog_loop_separate function:
801 * This function implements the Quillere algorithm for separation of multiple
802 * loops: for a given set of polyhedra (loop), it computes a set of disjoint
803 * polyhedra such that the unions of these sets are equal, and returns this set.
804 * - October 28th 2001: first version.
805 * - November 14th 2001: elimination of some unused blocks.
806 * - August 13th 2002: (debug) in the case of union of polyhedra for one
807 * loop, redundant constraints are fired.
808 * - July 3rd->11th 2003: memory leaks hunt and correction.
809 * - June 22nd 2005: Adaptation for GMP.
810 * - October 16th 2005: Removal of the non-shared constraint elimination when
811 * there is only one loop in the list (seems to work
812 * without now, DomainSimplify may have been improved).
813 * The problem was visible with test/iftest2.cloog.
814 */
838 /* For all Q, add Q-loop associated with the blocks of Q alone,
839 * and Q inter loop associated with the blocks of Q and loop.
840 */
842 /* Add (Q inter loop). */
845 else
848 else
857 }
861 }
862 }
864 /* Add (Q - loop). */
867 else
870 else
872 }
878 }
879 else
881 /* If Q->inner is no more useful, we can free it. */
885 }
886 }
888 /* Add loop-UQ associated with the blocks of loop alone.*/
891 else
894 else
896 }
902 }
903 else
905 /* If loop->inner is no more useful, we can free it. */
907 }
913 else
919 }
923 }
927 {
930 else
932 }
935 /**
936 * cloog_loop_merge function:
937 * This function is the 'soft' version of loop_separate if we are looking for
938 * a code much simpler (and less efficicient). This function returns the new
939 * CloogLoop list.
940 * - October 29th 2001: first version.
941 * - July 3rd->11th 2003: memory leaks hunt and correction.
942 * - June 22nd 2005: Adaptation for GMP.
943 */
945 {
964 }
989 }
992 }
1009 }
1015 }
1019 {
1023 nb_loops++;
1026 }
1029 /**
1030 * cloog_loop_sort function:
1031 * Adaptation from LoopGen 0.4 by F. Quillere. This function sorts a list of
1032 * parameterized disjoint polyhedra, in order to not have lexicographic order
1033 * violation (see Quillere paper).
1034 * - September 16th 2005: inclusion of cloog_loop_number (October 29th 2001).
1035 */
1037 {
1042 /* There is no need to sort the parameter domains. */
1046 /* We will need to know how many loops are in the list. */
1049 /* If there is only one loop, it's the end. */
1053 /* We have to allocate memory for some useful components:
1054 * - loop_array: the loop array,
1055 * - doms: the array of domains to sort,
1056 * - permut: will give us a possible sort (maybe not the only one).
1057 */
1062 /* We fill up the loop and domain arrays. */
1066 }
1068 /* cloog_domain_sort will fill up permut. */
1071 /* With permut and loop_array we build the sorted list. */
1077 }
1084 }
1087 /**
1088 * cloog_loop_nest function:
1089 * This function changes the loop list in such a way that we have no more than
1090 * one dimension added by level. It returns an equivalent loop list with
1091 * this property.
1092 * - October 29th 2001: first version.
1093 * - July 3rd->11th 2003: memory leaks hunt and correction.
1094 * - June 22nd 2005: Adaptation for GMP.
1095 * - November 21th 2005: (debug) now OK when cloog_loop_restrict returns NULL.
1096 */
1105 /* Each domain is changed by its intersection with the context. */
1116 /* If the intersection dimension is too big, we make projections smaller
1117 * and smaller, and each projection includes the preceding projection
1118 * (thus, in the target list, dimensions are added one by one).
1119 */
1125 }
1127 /* p is no more useful (but its content yes !). */
1131 }
1132 else
1136 }
1139 }
1142 /* Check if the domains of the inner loops impose a stride constraint
1143 * on the given level.
1144 * The core of the search is implemented in cloog_domain_list_stride.
1145 * Here, we simply construct a list of domains to pass to this function
1146 * and if a stride is found, we adjust the lower bounds by calling
1147 * cloog_domain_stride_lower_bound.
1148 */
1150 {
1160 }
1173 }
1176 /**
1177 * cloog_loop_stride function:
1178 * This function will find the stride of a loop for the iterator at the column
1179 * number 'level' in the constraint matrix. It will update the lower bound of
1180 * the iterator accordingly. Basically, the function will try to find in the
1181 * inner loops a common condition on this iterator for the inner loop iterators
1182 * to be integral. For instance, let us consider a loop with the iterator i,
1183 * the iteration domain -4<=i<=n, and its two inner loops with the iterator j.
1184 * The first inner loop has the constraint 3j=i, and the second one has the
1185 * constraint 6j=i. Then the common constraint on i for j to be integral is
1186 * i%3=0, the stride for i is 3. Lastly, we have to find the new lower bound
1187 * for i: the first value satisfying the common constraint: -3. At the end, the
1188 * iteration domain for i is -3<=i<=n and the stride for i is 3.
1189 *
1190 * The algorithm implemented in this function only allows for strides
1191 * on loops with a lower bound that has a constant remainder on division
1192 * by the stride. Before initiating this procedure, we first check
1193 * if we can find a stride with a lower bound with a variable offset in
1194 * cloog_loop_variable_offset_stride.
1195 *
1196 * - loop is the loop including the iteration domain of the considered iterator,
1197 * - level is the column number of the iterator in the matrix of contraints.
1198 **
1199 * - June 29th 2003: first version (work in progress since June 26th 2003).
1200 * - July 14th 2003: simpler version.
1201 * - June 22nd 2005: Adaptation for GMP (from S. Verdoolaege's 0.12.1 version).
1202 */
1222 /* Default stride. */
1230 {
1238 }
1241 }
1245 }
1248 }
1251 }
1256 /* Update the values if necessary. */
1264 }
1270 }
1274 {
1277 }
1280 /**
1281 * cloog_loop_stop function:
1282 * This function implements the 'stop' option : each domain of each loop
1283 * in the list 'loop' is replaced by 'context'. 'context' should be the
1284 * domain of the outer loop. By using this method, there are no more dimensions
1285 * to scan and the simplification step will automaticaly remove the domains
1286 * since they are the same as the corresponding contexts. The effect of this
1287 * function is to stop the code generation at the level this function is called,
1288 * the resulting code do not consider the next dimensions.
1289 * - January 11th 2005: first version.
1290 */
1294 else
1298 }
1301 }
1305 {
1307 }
1310 /**
1311 * Compare the constant dimensions of loops 'l1' and 'l2' starting at 'scalar'
1312 * and return -1 if the vector of constant dimensions of 'l1' is smaller
1313 * than that of 'l2', 0 if they are the same and +1 if that of 'l1' is
1314 * greater than that of 'l2'.
1315 * This function should be called on the innermost loop (the loop
1316 * containing a block).
1317 * \param l1 Loop to be compared with l2.
1318 * \param l2 Loop to be compared with l1.
1319 * \param level Current non-scalar dimension.
1320 * \param scaldims Boolean array saying whether a dimension is scalar or not.
1321 * \param nb_scattdims Size of the scaldims array.
1322 * \param scalar Current scalar dimension.
1323 * \return -1 if (l1 < l2), 0 if (l1 == l2) and +1 if (l1 > l2)
1324 */
1327 {
1335 scalar++;
1336 }
1338 }
1341 /**
1342 * cloog_loop_scalar_gt function:
1343 * This function returns 1 if loop 'l1' is greater than loop 'l2' for the
1344 * scalar dimension vector that begins at dimension 'scalar', 0 otherwise. What
1345 * we want to know is whether a loop is scheduled before another one or not.
1346 * This function solves the problem when the considered dimension for scheduling
1347 * is a scalar dimension. Since there may be a succession of scalar dimensions,
1348 * this function will reason about the vector of scalar dimension that begins
1349 * at dimension 'level+scalar' and finish to the first non-scalar dimension.
1350 * \param l1 Loop to be compared with l2.
1351 * \param l2 Loop to be compared with l1.
1352 * \param level Current non-scalar dimension.
1353 * \param scaldims Boolean array saying whether a dimension is scalar or not.
1354 * \param nb_scattdims Size of the scaldims array.
1355 * \param scalar Current scalar dimension.
1356 * \return 1 if (l1 > l2), 0 otherwise.
1357 **
1358 * - September 9th 2005: first version.
1359 * - October 15nd 2007: now "greater than" instead of "greater or equal".
1360 */
1364 {
1366 }
1369 /**
1370 * cloog_loop_scalar_eq function:
1371 * This function returns 1 if loop 'l1' is equal to loop 'l2' for the scalar
1372 * dimension vector that begins at dimension 'scalar', 0 otherwise. What we want
1373 * to know is whether two loops are scheduled for the same time or not.
1374 * This function solves the problem when the considered dimension for scheduling
1375 * is a scalar dimension. Since there may be a succession of scalar dimensions,
1376 * this function will reason about the vector of scalar dimension that begins
1377 * at dimension 'level+scalar' and finish to the first non-scalar dimension.
1378 * - l1 and l2 are the loops to compare,
1379 * - level is the current non-scalar dimension,
1380 * - scaldims is the boolean array saying whether a dimension is scalar or not,
1381 * - nb_scattdims is the size of the scaldims array,
1382 * - scalar is the current scalar dimension.
1383 **
1384 * - September 9th 2005 : first version.
1385 */
1389 {
1391 }
1394 /**
1395 * cloog_loop_scalar_sort function:
1396 * This function sorts a linked list of loops (loop) with respect to the
1397 * scalar dimension vector that begins at dimension 'scalar'. Since there may
1398 * be a succession of scalar dimensions, this function will reason about the
1399 * vector of scalar dimension that begins at dimension 'level+scalar' and
1400 * finish to the first non-scalar dimension.
1401 * \param loop Loop list to sort.
1402 * \param level Current non-scalar dimension.
1403 * \param scaldims Boolean array saying whether a dimension is scalar or not.
1404 * \param nb_scattdims Size of the scaldims array.
1405 * \param scalar Current scalar dimension.
1406 * \return A pointer to the sorted list.
1407 **
1408 * - July 2nd 2005: first developments.
1409 * - September 2nd 2005: first version.
1410 * - October 15nd 2007: complete rewrite to remove bugs, now a bubble sort.
1411 */
1427 }
1428 }
1432 }
1435 /**
1436 * cloog_loop_generate_backtrack function:
1437 * adaptation from LoopGen 0.4 by F. Quillere. This function implements the
1438 * backtrack of the Quillere et al. algorithm (see the Quillere paper).
1439 * It eliminates unused iterations of the current level for the new one. See the
1440 * example called linearity-1-1 example with and without this part for an idea.
1441 * - October 26th 2001: first version in cloog_loop_generate_general.
1442 * - July 31th 2002: (debug) no more parasite loops (REALLY hard !).
1443 * - October 30th 2005: extraction from cloog_loop_generate_general.
1444 */
1447 {
1461 /* This 'if' and its first part is the debug of july 31th 2002. */
1468 }
1469 else
1475 }
1486 }
1487 }
1491 }
1494 }
1497 /**
1498 * Return 1 if we need to continue recursing to the specified level.
1499 */
1501 {
1504 }
1506 /**
1507 * Return 1 if the domains of all loops in the given linked list
1508 * have a fixed value at the given level.
1509 * In principle, there would be no need to check that the fixed value is
1510 * the same for each of these loops because this function is only
1511 * called on a component. However, not all backends perform a proper
1512 * decomposition into components.
1513 */
1515 {
1530 }
1536 }
1538 /**
1539 * Assuming all domains in the given linked list of loop
1540 * have a fixed values at level, return a single loop with
1541 * a domain corresponding to this fixed value and with as
1542 * list of inner loops the concatenation of all inner loops
1543 * in the original list.
1544 */
1546 {
1572 }
1579 /**
1580 * cloog_loop_generate_general function:
1581 * Adaptation from LoopGen 0.4 by F. Quillere. This function implements the
1582 * Quillere algorithm for polyhedron scanning from step 3 to 5.
1583 * (see the Quillere paper).
1584 * - loop is the loop for which we have to generate a scanning code,
1585 * - level is the current non-scalar dimension,
1586 * - scalar is the current scalar dimension,
1587 * - scaldims is the boolean array saying whether a dimension is scalar or not,
1588 * - nb_scattdims is the size of the scaldims array,
1589 * - options are the general code generation options.
1590 **
1591 * - October 26th 2001: first version.
1592 * - July 3rd->11th 2003: memory leaks hunt and correction.
1593 * - June 22nd 2005: Adaptation for GMP.
1594 * - September 2nd 2005: The function have been cutted out in two pieces:
1595 * cloog_loop_generate and this one, in order to handle
1596 * the scalar dimension case more efficiently with
1597 * cloog_loop_generate_scalar.
1598 * - November 15th 2005: (debug) the result of the cloog_loop_generate call may
1599 * be a list of polyhedra (especially if stop option is
1600 * used): cloog_loop_add_list instead of cloog_loop_add.
1601 */
1605 {
1611 /* 3. Separate all projections into disjoint polyhedra. */
1619 }
1621 /* 3b. -correction- sort the loops to determine their textual order. */
1629 /* 4. Recurse for each loop with the current domain as context. */
1659 }
1660 else
1663 }
1664 }
1670 }
1671 else
1682 }
1684 /* 5. eliminate unused iterations of the current level for the new one. See
1685 * the example called linearity-1-1 example with and without this part
1686 * for an idea.
1687 */
1693 /* Pray for my new paper to be accepted somewhere since the following stuff
1694 * is really amazing :-) !
1695 * Far long later: The paper has been accepted to PACT 2004 :-))). But there
1696 * are still some bugs and I have no time to fix them. Thus now you have to
1697 * pray for me to get an academic position for that really amazing stuff :-) !
1698 * Later again: OK, I get my academic position, but still I have not enough
1699 * time to fix and clean this part... Pray again :-) !!!
1700 */
1701 /* res = cloog_loop_unisolate(res,level) ;*/
1704 }
1712 /**
1713 * cloog_loop_generate_scalar function:
1714 * This function applies the simplified code generation scheme in the trivial
1715 * case of scalar dimensions. When dealing with scalar dimensions, there is
1716 * no need of costly polyhedral operations for separation or sorting: sorting
1717 * is a question of comparing scalar vectors and separation amounts to consider
1718 * only loops with the same scalar vector for the next step of the code
1719 * generation process. This function achieves the separation/sorting process
1720 * for the vector of scalar dimension that begins at dimension 'level+scalar'
1721 * and finish to the first non-scalar dimension.
1722 * - loop is the loop for which we have to generate a scanning code,
1723 * - level is the current non-scalar dimension,
1724 * - scalar is the current scalar dimension,
1725 * - scaldims is the boolean array saying whether a dimension is scalar or not,
1726 * - nb_scattdims is the size of the scaldims array,
1727 * - options are the general code generation options.
1728 **
1729 * - September 2nd 2005: First version.
1730 */
1737 /* We sort the loop list with respect to the current scalar vector. */
1746 * of loops with the same scalar vector.
1747 */
1759 /* For the next dimension, scalar value is updated by adding the scalar
1760 * vector size, which is stored at scaldims[level+scalar-1].
1761 */
1772 }
1775 }
1778 /* Compare loop with the next loop based on their constant dimensions.
1779 * The result is < 0, == 0 or > 0 depending on whether the constant
1780 * dimensions of loop are lexicographically smaller, equal or greater
1781 * than those of loop->next.
1782 * If loop is the last in the list, then it is assumed to be smaller
1783 * than the "next" one.
1784 */
1786 {
1802 }
1804 }
1807 /* Check whether the globally constant dimensions of a and b
1808 * have the same value for all globally constant dimensions
1809 * that are situated before any (locally) non-constant dimension.
1810 */
1813 {
1820 dim++;
1822 }
1825 cst++;
1826 }
1832 /* No need to check that dim is also constant in b and that the
1833 * constant values are equal. That will happen during the check
1834 * whether the two domains are equal.
1835 */
1836 dim++;
1837 }
1839 }
1842 /* Try to block adjacent loops in the loop list "loop".
1843 * We only attempt blocking if the constant dimensions of the loops
1844 * in the least are (not necessarily strictly) increasing.
1845 * Then we look for a sublist such that the first (begin) has constant
1846 * dimensions strictly larger than the previous loop in the complete
1847 * list and such that the loop (end) after the last loop in the sublist
1848 * has constant dimensions strictly larger than the last loop in the sublist.
1849 * Furthermore, all loops in the sublist should have the same domain
1850 * (with globally constant dimensions removed) and the difference
1851 * (if any) in constant dimensions may only occur after all the
1852 * (locally) constant dimensions.
1853 * If we find such a sublist, then the blocks of all but the first
1854 * are merged into the block of the first.
1855 *
1856 * Note that this function can only be called before the global
1857 * blocklist has been created because it may otherwise modify and destroy
1858 * elements on that list.
1859 */
1861 {
1873 }
1880 }
1889 }
1895 }
1896 }
1899 }
1902 }
1905 /**
1906 * Check whether for any fixed iteration of the outer loops,
1907 * there is an iteration of loop1 that is lexicographically greater
1908 * than an iteration of loop2.
1909 * Return 1 if there exists (or may exist) such a pair.
1910 * Return 0 if all iterations of loop1 are lexicographically smaller
1911 * than the iterations of loop2.
1912 * If no iteration is lexicographically greater, but if there are
1913 * iterations that are equal to iterations of loop2, then return "def".
1914 * This is useful for ensuring that such statements are not reordered.
1915 * Some users, including the test_run target in test, expect
1916 * the statements at a given point to be run in the original order.
1917 * Passing the value "0" for "def" would allow such statements to be reordered
1918 * and would allow for the detection of more components.
1919 */
1922 {
1939 level);
1944 level++;
1945 }
1946 }
1949 }
1952 /* Structure for representing the nodes in the graph being traversed
1953 * using Tarjan's algorithm.
1954 * index represents the order in which nodes are visited.
1955 * min_index is the index of the root of a (sub)component.
1956 * on_stack indicates whether the node is currently on the stack.
1957 */
1962 };
1963 /* Structure for representing the graph being traversed
1964 * using Tarjan's algorithm.
1965 * len is the number of nodes
1966 * node is an array of nodes
1967 * stack contains the nodes on the path from the root to the current node
1968 * sp is the stack pointer
1969 * index is the index of the last node visited
1970 * order contains the elements of the components separated by -1
1971 * op represents the current position in order
1972 */
1981 };
1983 /* Allocate and initialize cloog_loop_sort structure.
1984 */
1986 {
2008 }
2010 /* Free cloog_loop_sort structure.
2011 */
2013 {
2018 }
2021 /* Check whether for any fixed iteration of the outer loops,
2022 * there is an iteration of loop1 that is lexicographically greater
2023 * than an iteration of loop2, where the iteration domains are
2024 * available in the inner loops of the arguments.
2025 *
2026 * By using this functions to detect components, we ensure that
2027 * two CloogLoops appear in the same component if some iterations of
2028 * each loop should be executed before some iterations of the other loop.
2029 * Since we also want two CloogLoops that have exactly the same
2030 * iteration domain at the current level to be placed in the same component,
2031 * we first check if these domains are indeed the same.
2032 */
2035 {
2044 }
2047 /* Perform Tarjan's algorithm for computing the strongly connected components
2048 * in the graph with the individual CloogLoops as vertices.
2049 * Two CloopLoops appear in the same component if they both (indirectly)
2050 * "follow" each other, where the following relation is determined
2051 * by the follows function.
2052 */
2058 {
2089 }
2100 }
2104 {
2106 }
2108 /* Sort the elements of the component starting at list.
2109 * The list is terminated by a -1.
2110 */
2112 {
2116 ;
2119 }
2121 /* Given an array of indices "list" into the "loop_array" array,
2122 * terminated by -1, construct a linked list of the corresponding
2123 * entries and put the result in *res.
2124 * The value returned is the number of CloogLoops in the (linked) list
2125 */
2127 {
2135 }
2139 }
2142 /**
2143 * Call cloog_loop_generate_scalar or cloog_loop_generate_general
2144 * on each of the strongly connected components in the list of CloogLoops
2145 * pointed to by "loop".
2146 *
2147 * We use Tarjan's algorithm to find the strongly connected components.
2148 * Note that this algorithm also topologically sorts the components.
2149 *
2150 * The components are treated separately to avoid spurious separations.
2151 * The concatentation of the results may contain successive loops
2152 * with the same bounds, so we try to combine such loops.
2153 */
2157 {
2182 }
2195 }
2204 }
2207 /* For each loop in the list "loop", decompose the list of
2208 * inner loops into strongly connected components and put
2209 * the components into separate loops at the top level.
2210 */
2213 {
2223 }
2246 }
2261 }
2264 }
2269 }
2275 {
2276 /* To save both time and memory, we switch here depending on whether the
2277 * current dimension is scalar (simplified processing) or not (general
2278 * processing).
2279 */
2283 /*
2284 * 2. Compute the projection of each polyhedron onto the outermost
2285 * loop variable and the parameters.
2286 */
2291 }
2298 {
2299 /* If the user asked to stop code generation at this level, let's stop. */
2305 }
2308 /**
2309 * cloog_loop_generate function:
2310 * Adaptation from LoopGen 0.4 by F. Quillere. This function implements the
2311 * Quillere algorithm for polyhedron scanning from step 1 to 2.
2312 * (see the Quillere paper).
2313 * - loop is the loop for which we have to generate a scanning code,
2314 * - context is the context of the current loop (constraints on parameter and/or
2315 * on outer loop counters),
2316 * - level is the current non-scalar dimension,
2317 * - scalar is the current scalar dimension,
2318 * - scaldims is the boolean array saying whether a dimension is scalar or not,
2319 * - nb_scattdims is the size of the scaldims array,
2320 * - options are the general code generation options.
2321 **
2322 * - October 26th 2001: first version.
2323 * - July 3rd->11th 2003: memory leaks hunt and correction.
2324 * - June 15th 2005: a memory leak fixed (loop was not entirely freed when
2325 * the result of cloog_loop_restrict was NULL).
2326 * - June 22nd 2005: Adaptation for GMP.
2327 * - September 2nd 2005: The function have been cutted out in two pieces:
2328 * cloog_loop_generate and this one, in order to handle
2329 * the scalar dimension case more efficiently with
2330 * cloog_loop_generate_scalar.
2331 * - November 15th 2005: (debug) Condition for stop option no more take care of
2332 * further scalar dimensions.
2333 */
2337 {
2338 /* 1. Replace each polyhedron by its intersection with the context.
2339 */
2346 }
2349 /*
2350 * Internal function for simplifying a single loop in a list of loops.
2351 * See cloog_loop_simplify.
2352 */
2355 {
2372 /* If the constraint system is never true, go to the next one. */
2378 }
2381 options);
2387 }
2394 /* Only save the domains, if their level is still a scattering level. */
2397 else
2401 }
2404 /**
2405 * cloog_loop_simplify function:
2406 * This function implements the part 6. of the Quillere algorithm, it
2407 * recursively simplifies each loop in the context of the preceding loop domain.
2408 * It returns a pointer to the simplified loop list.
2409 * The cloog_domain_simplify (DomainSimplify) behaviour is really bad with
2410 * polyhedra union and some really awful sidesteppings were written, I plan
2411 * to solve that...
2412 * - October 31th 2001: first version.
2413 * - July 3rd->11th 2003: memory leaks hunt and correction.
2414 * - April 16th 2005: a memory leak fixed (extended_context was not freed).
2415 * - June 15th 2005: a memory leak fixed (loop was not conveniently freed
2416 * when the constraint system is never true).
2417 * - October 27th 2005: - this function called before cloog_loop_fast_simplify
2418 * is now the official cloog_loop_simplify function in
2419 * replacement of a slower and more complex one (after
2420 * deep changes in the pretty printer).
2421 * - we use cloog_loop_disjoint to fix the problem when
2422 * simplifying gives a union of polyhedra (before, it
2423 * was under the responsibility of the pretty printer).
2424 */
2427 {
2441 }
2444 /* Examples like test/iftest2.cloog give unions of polyhedra after
2445 * simplifying, thus we have to make them disjoint. Another good reason to
2446 * put the simplifying step in the Quillere backtrack.
2447 */
2451 }
2454 /**
2455 * cloog_loop_scatter function:
2456 * This function add the scattering (scheduling) informations in a loop.
2457 */
2459 {
2461 }