* config/xtensa/predicates.md (call expander): Update for
[official-gcc.git] / gcc / tree-vectorizer.h
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1 /* Vectorizer
2 Copyright (C) 2003-2014 Free Software Foundation, Inc.
3 Contributed by Dorit Naishlos <dorit@il.ibm.com>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 #ifndef GCC_TREE_VECTORIZER_H
22 #define GCC_TREE_VECTORIZER_H
24 #include "tree-data-ref.h"
25 #include "target.h"
26 #include "hash-table.h"
28 /* Used for naming of new temporaries. */
29 enum vect_var_kind {
30 vect_simple_var,
31 vect_pointer_var,
32 vect_scalar_var
35 /* Defines type of operation. */
36 enum operation_type {
37 unary_op = 1,
38 binary_op,
39 ternary_op
42 /* Define type of available alignment support. */
43 enum dr_alignment_support {
44 dr_unaligned_unsupported,
45 dr_unaligned_supported,
46 dr_explicit_realign,
47 dr_explicit_realign_optimized,
48 dr_aligned
51 /* Define type of def-use cross-iteration cycle. */
52 enum vect_def_type {
53 vect_uninitialized_def = 0,
54 vect_constant_def = 1,
55 vect_external_def,
56 vect_internal_def,
57 vect_induction_def,
58 vect_reduction_def,
59 vect_double_reduction_def,
60 vect_nested_cycle,
61 vect_unknown_def_type
64 #define VECTORIZABLE_CYCLE_DEF(D) (((D) == vect_reduction_def) \
65 || ((D) == vect_double_reduction_def) \
66 || ((D) == vect_nested_cycle))
68 /* Structure to encapsulate information about a group of like
69 instructions to be presented to the target cost model. */
70 typedef struct _stmt_info_for_cost {
71 int count;
72 enum vect_cost_for_stmt kind;
73 gimple stmt;
74 int misalign;
75 } stmt_info_for_cost;
78 typedef vec<stmt_info_for_cost> stmt_vector_for_cost;
80 static inline void
81 add_stmt_info_to_vec (stmt_vector_for_cost *stmt_cost_vec, int count,
82 enum vect_cost_for_stmt kind, gimple stmt, int misalign)
84 stmt_info_for_cost si;
85 si.count = count;
86 si.kind = kind;
87 si.stmt = stmt;
88 si.misalign = misalign;
89 stmt_cost_vec->safe_push (si);
92 /************************************************************************
93 SLP
94 ************************************************************************/
95 typedef struct _slp_tree *slp_tree;
97 /* A computation tree of an SLP instance. Each node corresponds to a group of
98 stmts to be packed in a SIMD stmt. */
99 struct _slp_tree {
100 /* Nodes that contain def-stmts of this node statements operands. */
101 vec<slp_tree> children;
102 /* A group of scalar stmts to be vectorized together. */
103 vec<gimple> stmts;
104 /* Load permutation relative to the stores, NULL if there is no
105 permutation. */
106 vec<unsigned> load_permutation;
107 /* Vectorized stmt/s. */
108 vec<gimple> vec_stmts;
109 /* Number of vector stmts that are created to replace the group of scalar
110 stmts. It is calculated during the transformation phase as the number of
111 scalar elements in one scalar iteration (GROUP_SIZE) multiplied by VF
112 divided by vector size. */
113 unsigned int vec_stmts_size;
117 /* SLP instance is a sequence of stmts in a loop that can be packed into
118 SIMD stmts. */
119 typedef struct _slp_instance {
120 /* The root of SLP tree. */
121 slp_tree root;
123 /* Size of groups of scalar stmts that will be replaced by SIMD stmt/s. */
124 unsigned int group_size;
126 /* The unrolling factor required to vectorized this SLP instance. */
127 unsigned int unrolling_factor;
129 /* Vectorization costs associated with SLP instance. */
130 stmt_vector_for_cost body_cost_vec;
132 /* The group of nodes that contain loads of this SLP instance. */
133 vec<slp_tree> loads;
135 /* The first scalar load of the instance. The created vector loads will be
136 inserted before this statement. */
137 gimple first_load;
138 } *slp_instance;
141 /* Access Functions. */
142 #define SLP_INSTANCE_TREE(S) (S)->root
143 #define SLP_INSTANCE_GROUP_SIZE(S) (S)->group_size
144 #define SLP_INSTANCE_UNROLLING_FACTOR(S) (S)->unrolling_factor
145 #define SLP_INSTANCE_BODY_COST_VEC(S) (S)->body_cost_vec
146 #define SLP_INSTANCE_LOADS(S) (S)->loads
147 #define SLP_INSTANCE_FIRST_LOAD_STMT(S) (S)->first_load
149 #define SLP_TREE_CHILDREN(S) (S)->children
150 #define SLP_TREE_SCALAR_STMTS(S) (S)->stmts
151 #define SLP_TREE_VEC_STMTS(S) (S)->vec_stmts
152 #define SLP_TREE_NUMBER_OF_VEC_STMTS(S) (S)->vec_stmts_size
153 #define SLP_TREE_LOAD_PERMUTATION(S) (S)->load_permutation
155 /* This structure is used in creation of an SLP tree. Each instance
156 corresponds to the same operand in a group of scalar stmts in an SLP
157 node. */
158 typedef struct _slp_oprnd_info
160 /* Def-stmts for the operands. */
161 vec<gimple> def_stmts;
162 /* Information about the first statement, its vector def-type, type, the
163 operand itself in case it's constant, and an indication if it's a pattern
164 stmt. */
165 enum vect_def_type first_dt;
166 tree first_op_type;
167 bool first_pattern;
168 } *slp_oprnd_info;
172 /* This struct is used to store the information of a data reference,
173 including the data ref itself, the access offset (calculated by summing its
174 offset and init) and the segment length for aliasing checks.
175 This is used to merge alias checks. */
177 struct dr_with_seg_len
179 dr_with_seg_len (data_reference_p d, tree len)
180 : dr (d),
181 offset (size_binop (PLUS_EXPR, DR_OFFSET (d), DR_INIT (d))),
182 seg_len (len) {}
184 data_reference_p dr;
185 tree offset;
186 tree seg_len;
189 /* This struct contains two dr_with_seg_len objects with aliasing data
190 refs. Two comparisons are generated from them. */
192 struct dr_with_seg_len_pair_t
194 dr_with_seg_len_pair_t (const dr_with_seg_len& d1,
195 const dr_with_seg_len& d2)
196 : first (d1), second (d2) {}
198 dr_with_seg_len first;
199 dr_with_seg_len second;
203 typedef struct _vect_peel_info
205 int npeel;
206 struct data_reference *dr;
207 unsigned int count;
208 } *vect_peel_info;
210 typedef struct _vect_peel_extended_info
212 struct _vect_peel_info peel_info;
213 unsigned int inside_cost;
214 unsigned int outside_cost;
215 stmt_vector_for_cost body_cost_vec;
216 } *vect_peel_extended_info;
219 /* Peeling hashtable helpers. */
221 struct peel_info_hasher : typed_free_remove <_vect_peel_info>
223 typedef _vect_peel_info value_type;
224 typedef _vect_peel_info compare_type;
225 static inline hashval_t hash (const value_type *);
226 static inline bool equal (const value_type *, const compare_type *);
229 inline hashval_t
230 peel_info_hasher::hash (const value_type *peel_info)
232 return (hashval_t) peel_info->npeel;
235 inline bool
236 peel_info_hasher::equal (const value_type *a, const compare_type *b)
238 return (a->npeel == b->npeel);
242 /*-----------------------------------------------------------------*/
243 /* Info on vectorized loops. */
244 /*-----------------------------------------------------------------*/
245 typedef struct _loop_vec_info {
247 /* The loop to which this info struct refers to. */
248 struct loop *loop;
250 /* The loop basic blocks. */
251 basic_block *bbs;
253 /* Number of latch executions. */
254 tree num_itersm1;
255 /* Number of iterations. */
256 tree num_iters;
257 /* Number of iterations of the original loop. */
258 tree num_iters_unchanged;
260 /* Minimum number of iterations below which vectorization is expected to
261 not be profitable (as estimated by the cost model).
262 -1 indicates that vectorization will not be profitable.
263 FORNOW: This field is an int. Will be a tree in the future, to represent
264 values unknown at compile time. */
265 int min_profitable_iters;
267 /* Threshold of number of iterations below which vectorzation will not be
268 performed. It is calculated from MIN_PROFITABLE_ITERS and
269 PARAM_MIN_VECT_LOOP_BOUND. */
270 unsigned int th;
272 /* Is the loop vectorizable? */
273 bool vectorizable;
275 /* Unrolling factor */
276 int vectorization_factor;
278 /* Unknown DRs according to which loop was peeled. */
279 struct data_reference *unaligned_dr;
281 /* peeling_for_alignment indicates whether peeling for alignment will take
282 place, and what the peeling factor should be:
283 peeling_for_alignment = X means:
284 If X=0: Peeling for alignment will not be applied.
285 If X>0: Peel first X iterations.
286 If X=-1: Generate a runtime test to calculate the number of iterations
287 to be peeled, using the dataref recorded in the field
288 unaligned_dr. */
289 int peeling_for_alignment;
291 /* The mask used to check the alignment of pointers or arrays. */
292 int ptr_mask;
294 /* The loop nest in which the data dependences are computed. */
295 vec<loop_p> loop_nest;
297 /* All data references in the loop. */
298 vec<data_reference_p> datarefs;
300 /* All data dependences in the loop. */
301 vec<ddr_p> ddrs;
303 /* Data Dependence Relations defining address ranges that are candidates
304 for a run-time aliasing check. */
305 vec<ddr_p> may_alias_ddrs;
307 /* Data Dependence Relations defining address ranges together with segment
308 lengths from which the run-time aliasing check is built. */
309 vec<dr_with_seg_len_pair_t> comp_alias_ddrs;
311 /* Statements in the loop that have data references that are candidates for a
312 runtime (loop versioning) misalignment check. */
313 vec<gimple> may_misalign_stmts;
315 /* All interleaving chains of stores in the loop, represented by the first
316 stmt in the chain. */
317 vec<gimple> grouped_stores;
319 /* All SLP instances in the loop. This is a subset of the set of GROUP_STORES
320 of the loop. */
321 vec<slp_instance> slp_instances;
323 /* The unrolling factor needed to SLP the loop. In case of that pure SLP is
324 applied to the loop, i.e., no unrolling is needed, this is 1. */
325 unsigned slp_unrolling_factor;
327 /* Reduction cycles detected in the loop. Used in loop-aware SLP. */
328 vec<gimple> reductions;
330 /* All reduction chains in the loop, represented by the first
331 stmt in the chain. */
332 vec<gimple> reduction_chains;
334 /* Hash table used to choose the best peeling option. */
335 hash_table<peel_info_hasher> *peeling_htab;
337 /* Cost data used by the target cost model. */
338 void *target_cost_data;
340 /* When we have grouped data accesses with gaps, we may introduce invalid
341 memory accesses. We peel the last iteration of the loop to prevent
342 this. */
343 bool peeling_for_gaps;
345 /* When the number of iterations is not a multiple of the vector size
346 we need to peel off iterations at the end to form an epilogue loop. */
347 bool peeling_for_niter;
349 /* Reductions are canonicalized so that the last operand is the reduction
350 operand. If this places a constant into RHS1, this decanonicalizes
351 GIMPLE for other phases, so we must track when this has occurred and
352 fix it up. */
353 bool operands_swapped;
355 /* True if there are no loop carried data dependencies in the loop.
356 If loop->safelen <= 1, then this is always true, either the loop
357 didn't have any loop carried data dependencies, or the loop is being
358 vectorized guarded with some runtime alias checks, or couldn't
359 be vectorized at all, but then this field shouldn't be used.
360 For loop->safelen >= 2, the user has asserted that there are no
361 backward dependencies, but there still could be loop carried forward
362 dependencies in such loops. This flag will be false if normal
363 vectorizer data dependency analysis would fail or require versioning
364 for alias, but because of loop->safelen >= 2 it has been vectorized
365 even without versioning for alias. E.g. in:
366 #pragma omp simd
367 for (int i = 0; i < m; i++)
368 a[i] = a[i + k] * c;
369 (or #pragma simd or #pragma ivdep) we can vectorize this and it will
370 DTRT even for k > 0 && k < m, but without safelen we would not
371 vectorize this, so this field would be false. */
372 bool no_data_dependencies;
374 /* If if-conversion versioned this loop before conversion, this is the
375 loop version without if-conversion. */
376 struct loop *scalar_loop;
378 } *loop_vec_info;
380 /* Access Functions. */
381 #define LOOP_VINFO_LOOP(L) (L)->loop
382 #define LOOP_VINFO_BBS(L) (L)->bbs
383 #define LOOP_VINFO_NITERSM1(L) (L)->num_itersm1
384 #define LOOP_VINFO_NITERS(L) (L)->num_iters
385 /* Since LOOP_VINFO_NITERS and LOOP_VINFO_NITERSM1 can change after
386 prologue peeling retain total unchanged scalar loop iterations for
387 cost model. */
388 #define LOOP_VINFO_NITERS_UNCHANGED(L) (L)->num_iters_unchanged
389 #define LOOP_VINFO_COST_MODEL_MIN_ITERS(L) (L)->min_profitable_iters
390 #define LOOP_VINFO_COST_MODEL_THRESHOLD(L) (L)->th
391 #define LOOP_VINFO_VECTORIZABLE_P(L) (L)->vectorizable
392 #define LOOP_VINFO_VECT_FACTOR(L) (L)->vectorization_factor
393 #define LOOP_VINFO_PTR_MASK(L) (L)->ptr_mask
394 #define LOOP_VINFO_LOOP_NEST(L) (L)->loop_nest
395 #define LOOP_VINFO_DATAREFS(L) (L)->datarefs
396 #define LOOP_VINFO_DDRS(L) (L)->ddrs
397 #define LOOP_VINFO_INT_NITERS(L) (TREE_INT_CST_LOW ((L)->num_iters))
398 #define LOOP_VINFO_PEELING_FOR_ALIGNMENT(L) (L)->peeling_for_alignment
399 #define LOOP_VINFO_UNALIGNED_DR(L) (L)->unaligned_dr
400 #define LOOP_VINFO_MAY_MISALIGN_STMTS(L) (L)->may_misalign_stmts
401 #define LOOP_VINFO_MAY_ALIAS_DDRS(L) (L)->may_alias_ddrs
402 #define LOOP_VINFO_COMP_ALIAS_DDRS(L) (L)->comp_alias_ddrs
403 #define LOOP_VINFO_GROUPED_STORES(L) (L)->grouped_stores
404 #define LOOP_VINFO_SLP_INSTANCES(L) (L)->slp_instances
405 #define LOOP_VINFO_SLP_UNROLLING_FACTOR(L) (L)->slp_unrolling_factor
406 #define LOOP_VINFO_REDUCTIONS(L) (L)->reductions
407 #define LOOP_VINFO_REDUCTION_CHAINS(L) (L)->reduction_chains
408 #define LOOP_VINFO_PEELING_HTAB(L) (L)->peeling_htab
409 #define LOOP_VINFO_TARGET_COST_DATA(L) (L)->target_cost_data
410 #define LOOP_VINFO_PEELING_FOR_GAPS(L) (L)->peeling_for_gaps
411 #define LOOP_VINFO_OPERANDS_SWAPPED(L) (L)->operands_swapped
412 #define LOOP_VINFO_PEELING_FOR_NITER(L) (L)->peeling_for_niter
413 #define LOOP_VINFO_NO_DATA_DEPENDENCIES(L) (L)->no_data_dependencies
414 #define LOOP_VINFO_SCALAR_LOOP(L) (L)->scalar_loop
416 #define LOOP_REQUIRES_VERSIONING_FOR_ALIGNMENT(L) \
417 (L)->may_misalign_stmts.length () > 0
418 #define LOOP_REQUIRES_VERSIONING_FOR_ALIAS(L) \
419 (L)->may_alias_ddrs.length () > 0
421 #define LOOP_VINFO_NITERS_KNOWN_P(L) \
422 (tree_fits_shwi_p ((L)->num_iters) && tree_to_shwi ((L)->num_iters) > 0)
424 static inline loop_vec_info
425 loop_vec_info_for_loop (struct loop *loop)
427 return (loop_vec_info) loop->aux;
430 static inline bool
431 nested_in_vect_loop_p (struct loop *loop, gimple stmt)
433 return (loop->inner
434 && (loop->inner == (gimple_bb (stmt))->loop_father));
437 typedef struct _bb_vec_info {
439 basic_block bb;
440 /* All interleaving chains of stores in the basic block, represented by the
441 first stmt in the chain. */
442 vec<gimple> grouped_stores;
444 /* All SLP instances in the basic block. This is a subset of the set of
445 GROUP_STORES of the basic block. */
446 vec<slp_instance> slp_instances;
448 /* All data references in the basic block. */
449 vec<data_reference_p> datarefs;
451 /* All data dependences in the basic block. */
452 vec<ddr_p> ddrs;
454 /* Cost data used by the target cost model. */
455 void *target_cost_data;
457 } *bb_vec_info;
459 #define BB_VINFO_BB(B) (B)->bb
460 #define BB_VINFO_GROUPED_STORES(B) (B)->grouped_stores
461 #define BB_VINFO_SLP_INSTANCES(B) (B)->slp_instances
462 #define BB_VINFO_DATAREFS(B) (B)->datarefs
463 #define BB_VINFO_DDRS(B) (B)->ddrs
464 #define BB_VINFO_TARGET_COST_DATA(B) (B)->target_cost_data
466 static inline bb_vec_info
467 vec_info_for_bb (basic_block bb)
469 return (bb_vec_info) bb->aux;
472 /*-----------------------------------------------------------------*/
473 /* Info on vectorized defs. */
474 /*-----------------------------------------------------------------*/
475 enum stmt_vec_info_type {
476 undef_vec_info_type = 0,
477 load_vec_info_type,
478 store_vec_info_type,
479 shift_vec_info_type,
480 op_vec_info_type,
481 call_vec_info_type,
482 call_simd_clone_vec_info_type,
483 assignment_vec_info_type,
484 condition_vec_info_type,
485 reduc_vec_info_type,
486 induc_vec_info_type,
487 type_promotion_vec_info_type,
488 type_demotion_vec_info_type,
489 type_conversion_vec_info_type,
490 loop_exit_ctrl_vec_info_type
493 /* Indicates whether/how a variable is used in the scope of loop/basic
494 block. */
495 enum vect_relevant {
496 vect_unused_in_scope = 0,
497 /* The def is in the inner loop, and the use is in the outer loop, and the
498 use is a reduction stmt. */
499 vect_used_in_outer_by_reduction,
500 /* The def is in the inner loop, and the use is in the outer loop (and is
501 not part of reduction). */
502 vect_used_in_outer,
504 /* defs that feed computations that end up (only) in a reduction. These
505 defs may be used by non-reduction stmts, but eventually, any
506 computations/values that are affected by these defs are used to compute
507 a reduction (i.e. don't get stored to memory, for example). We use this
508 to identify computations that we can change the order in which they are
509 computed. */
510 vect_used_by_reduction,
512 vect_used_in_scope
515 /* The type of vectorization that can be applied to the stmt: regular loop-based
516 vectorization; pure SLP - the stmt is a part of SLP instances and does not
517 have uses outside SLP instances; or hybrid SLP and loop-based - the stmt is
518 a part of SLP instance and also must be loop-based vectorized, since it has
519 uses outside SLP sequences.
521 In the loop context the meanings of pure and hybrid SLP are slightly
522 different. By saying that pure SLP is applied to the loop, we mean that we
523 exploit only intra-iteration parallelism in the loop; i.e., the loop can be
524 vectorized without doing any conceptual unrolling, cause we don't pack
525 together stmts from different iterations, only within a single iteration.
526 Loop hybrid SLP means that we exploit both intra-iteration and
527 inter-iteration parallelism (e.g., number of elements in the vector is 4
528 and the slp-group-size is 2, in which case we don't have enough parallelism
529 within an iteration, so we obtain the rest of the parallelism from subsequent
530 iterations by unrolling the loop by 2). */
531 enum slp_vect_type {
532 loop_vect = 0,
533 pure_slp,
534 hybrid
538 typedef struct data_reference *dr_p;
540 typedef struct _stmt_vec_info {
542 enum stmt_vec_info_type type;
544 /* Indicates whether this stmts is part of a computation whose result is
545 used outside the loop. */
546 bool live;
548 /* Stmt is part of some pattern (computation idiom) */
549 bool in_pattern_p;
551 /* The stmt to which this info struct refers to. */
552 gimple stmt;
554 /* The loop_vec_info with respect to which STMT is vectorized. */
555 loop_vec_info loop_vinfo;
557 /* The vector type to be used for the LHS of this statement. */
558 tree vectype;
560 /* The vectorized version of the stmt. */
561 gimple vectorized_stmt;
564 /** The following is relevant only for stmts that contain a non-scalar
565 data-ref (array/pointer/struct access). A GIMPLE stmt is expected to have
566 at most one such data-ref. **/
568 /* Information about the data-ref (access function, etc),
569 relative to the inner-most containing loop. */
570 struct data_reference *data_ref_info;
572 /* Information about the data-ref relative to this loop
573 nest (the loop that is being considered for vectorization). */
574 tree dr_base_address;
575 tree dr_init;
576 tree dr_offset;
577 tree dr_step;
578 tree dr_aligned_to;
580 /* For loop PHI nodes, the evolution part of it. This makes sure
581 this information is still available in vect_update_ivs_after_vectorizer
582 where we may not be able to re-analyze the PHI nodes evolution as
583 peeling for the prologue loop can make it unanalyzable. The evolution
584 part is still correct though. */
585 tree loop_phi_evolution_part;
587 /* Used for various bookkeeping purposes, generally holding a pointer to
588 some other stmt S that is in some way "related" to this stmt.
589 Current use of this field is:
590 If this stmt is part of a pattern (i.e. the field 'in_pattern_p' is
591 true): S is the "pattern stmt" that represents (and replaces) the
592 sequence of stmts that constitutes the pattern. Similarly, the
593 related_stmt of the "pattern stmt" points back to this stmt (which is
594 the last stmt in the original sequence of stmts that constitutes the
595 pattern). */
596 gimple related_stmt;
598 /* Used to keep a sequence of def stmts of a pattern stmt if such exists. */
599 gimple_seq pattern_def_seq;
601 /* List of datarefs that are known to have the same alignment as the dataref
602 of this stmt. */
603 vec<dr_p> same_align_refs;
605 /* Selected SIMD clone's function decl. */
606 tree simd_clone_fndecl;
608 /* Classify the def of this stmt. */
609 enum vect_def_type def_type;
611 /* Whether the stmt is SLPed, loop-based vectorized, or both. */
612 enum slp_vect_type slp_type;
614 /* Interleaving and reduction chains info. */
615 /* First element in the group. */
616 gimple first_element;
617 /* Pointer to the next element in the group. */
618 gimple next_element;
619 /* For data-refs, in case that two or more stmts share data-ref, this is the
620 pointer to the previously detected stmt with the same dr. */
621 gimple same_dr_stmt;
622 /* The size of the group. */
623 unsigned int size;
624 /* For stores, number of stores from this group seen. We vectorize the last
625 one. */
626 unsigned int store_count;
627 /* For loads only, the gap from the previous load. For consecutive loads, GAP
628 is 1. */
629 unsigned int gap;
631 /* The minimum negative dependence distance this stmt participates in
632 or zero if none. */
633 unsigned int min_neg_dist;
635 /* Not all stmts in the loop need to be vectorized. e.g, the increment
636 of the loop induction variable and computation of array indexes. relevant
637 indicates whether the stmt needs to be vectorized. */
638 enum vect_relevant relevant;
640 /* The bb_vec_info with respect to which STMT is vectorized. */
641 bb_vec_info bb_vinfo;
643 /* Is this statement vectorizable or should it be skipped in (partial)
644 vectorization. */
645 bool vectorizable;
647 /* For loads only, true if this is a gather load. */
648 bool gather_p;
649 bool stride_load_p;
651 /* For both loads and stores. */
652 bool simd_lane_access_p;
653 } *stmt_vec_info;
655 /* Access Functions. */
656 #define STMT_VINFO_TYPE(S) (S)->type
657 #define STMT_VINFO_STMT(S) (S)->stmt
658 #define STMT_VINFO_LOOP_VINFO(S) (S)->loop_vinfo
659 #define STMT_VINFO_BB_VINFO(S) (S)->bb_vinfo
660 #define STMT_VINFO_RELEVANT(S) (S)->relevant
661 #define STMT_VINFO_LIVE_P(S) (S)->live
662 #define STMT_VINFO_VECTYPE(S) (S)->vectype
663 #define STMT_VINFO_VEC_STMT(S) (S)->vectorized_stmt
664 #define STMT_VINFO_VECTORIZABLE(S) (S)->vectorizable
665 #define STMT_VINFO_DATA_REF(S) (S)->data_ref_info
666 #define STMT_VINFO_GATHER_P(S) (S)->gather_p
667 #define STMT_VINFO_STRIDE_LOAD_P(S) (S)->stride_load_p
668 #define STMT_VINFO_SIMD_LANE_ACCESS_P(S) (S)->simd_lane_access_p
670 #define STMT_VINFO_DR_BASE_ADDRESS(S) (S)->dr_base_address
671 #define STMT_VINFO_DR_INIT(S) (S)->dr_init
672 #define STMT_VINFO_DR_OFFSET(S) (S)->dr_offset
673 #define STMT_VINFO_DR_STEP(S) (S)->dr_step
674 #define STMT_VINFO_DR_ALIGNED_TO(S) (S)->dr_aligned_to
676 #define STMT_VINFO_IN_PATTERN_P(S) (S)->in_pattern_p
677 #define STMT_VINFO_RELATED_STMT(S) (S)->related_stmt
678 #define STMT_VINFO_PATTERN_DEF_SEQ(S) (S)->pattern_def_seq
679 #define STMT_VINFO_SAME_ALIGN_REFS(S) (S)->same_align_refs
680 #define STMT_VINFO_SIMD_CLONE_FNDECL(S) (S)->simd_clone_fndecl
681 #define STMT_VINFO_DEF_TYPE(S) (S)->def_type
682 #define STMT_VINFO_GROUP_FIRST_ELEMENT(S) (S)->first_element
683 #define STMT_VINFO_GROUP_NEXT_ELEMENT(S) (S)->next_element
684 #define STMT_VINFO_GROUP_SIZE(S) (S)->size
685 #define STMT_VINFO_GROUP_STORE_COUNT(S) (S)->store_count
686 #define STMT_VINFO_GROUP_GAP(S) (S)->gap
687 #define STMT_VINFO_GROUP_SAME_DR_STMT(S) (S)->same_dr_stmt
688 #define STMT_VINFO_GROUPED_ACCESS(S) ((S)->first_element != NULL && (S)->data_ref_info)
689 #define STMT_VINFO_LOOP_PHI_EVOLUTION_PART(S) (S)->loop_phi_evolution_part
690 #define STMT_VINFO_MIN_NEG_DIST(S) (S)->min_neg_dist
692 #define GROUP_FIRST_ELEMENT(S) (S)->first_element
693 #define GROUP_NEXT_ELEMENT(S) (S)->next_element
694 #define GROUP_SIZE(S) (S)->size
695 #define GROUP_STORE_COUNT(S) (S)->store_count
696 #define GROUP_GAP(S) (S)->gap
697 #define GROUP_SAME_DR_STMT(S) (S)->same_dr_stmt
699 #define STMT_VINFO_RELEVANT_P(S) ((S)->relevant != vect_unused_in_scope)
701 #define HYBRID_SLP_STMT(S) ((S)->slp_type == hybrid)
702 #define PURE_SLP_STMT(S) ((S)->slp_type == pure_slp)
703 #define STMT_SLP_TYPE(S) (S)->slp_type
705 struct dataref_aux {
706 tree base_decl;
707 bool base_misaligned;
708 int misalignment;
711 #define VECT_MAX_COST 1000
713 /* The maximum number of intermediate steps required in multi-step type
714 conversion. */
715 #define MAX_INTERM_CVT_STEPS 3
717 /* The maximum vectorization factor supported by any target (V64QI). */
718 #define MAX_VECTORIZATION_FACTOR 64
720 /* Avoid GTY(()) on stmt_vec_info. */
721 typedef void *vec_void_p;
723 extern vec<vec_void_p> stmt_vec_info_vec;
725 void init_stmt_vec_info_vec (void);
726 void free_stmt_vec_info_vec (void);
728 /* Return a stmt_vec_info corresponding to STMT. */
730 static inline stmt_vec_info
731 vinfo_for_stmt (gimple stmt)
733 unsigned int uid = gimple_uid (stmt);
734 if (uid == 0)
735 return NULL;
737 return (stmt_vec_info) stmt_vec_info_vec[uid - 1];
740 /* Set vectorizer information INFO for STMT. */
742 static inline void
743 set_vinfo_for_stmt (gimple stmt, stmt_vec_info info)
745 unsigned int uid = gimple_uid (stmt);
746 if (uid == 0)
748 gcc_checking_assert (info);
749 uid = stmt_vec_info_vec.length () + 1;
750 gimple_set_uid (stmt, uid);
751 stmt_vec_info_vec.safe_push ((vec_void_p) info);
753 else
754 stmt_vec_info_vec[uid - 1] = (vec_void_p) info;
757 /* Return the earlier statement between STMT1 and STMT2. */
759 static inline gimple
760 get_earlier_stmt (gimple stmt1, gimple stmt2)
762 unsigned int uid1, uid2;
764 if (stmt1 == NULL)
765 return stmt2;
767 if (stmt2 == NULL)
768 return stmt1;
770 uid1 = gimple_uid (stmt1);
771 uid2 = gimple_uid (stmt2);
773 if (uid1 == 0 || uid2 == 0)
774 return NULL;
776 gcc_checking_assert (uid1 <= stmt_vec_info_vec.length ()
777 && uid2 <= stmt_vec_info_vec.length ());
779 if (uid1 < uid2)
780 return stmt1;
781 else
782 return stmt2;
785 /* Return the later statement between STMT1 and STMT2. */
787 static inline gimple
788 get_later_stmt (gimple stmt1, gimple stmt2)
790 unsigned int uid1, uid2;
792 if (stmt1 == NULL)
793 return stmt2;
795 if (stmt2 == NULL)
796 return stmt1;
798 uid1 = gimple_uid (stmt1);
799 uid2 = gimple_uid (stmt2);
801 if (uid1 == 0 || uid2 == 0)
802 return NULL;
804 gcc_assert (uid1 <= stmt_vec_info_vec.length ());
805 gcc_assert (uid2 <= stmt_vec_info_vec.length ());
807 if (uid1 > uid2)
808 return stmt1;
809 else
810 return stmt2;
813 /* Return TRUE if a statement represented by STMT_INFO is a part of a
814 pattern. */
816 static inline bool
817 is_pattern_stmt_p (stmt_vec_info stmt_info)
819 gimple related_stmt;
820 stmt_vec_info related_stmt_info;
822 related_stmt = STMT_VINFO_RELATED_STMT (stmt_info);
823 if (related_stmt
824 && (related_stmt_info = vinfo_for_stmt (related_stmt))
825 && STMT_VINFO_IN_PATTERN_P (related_stmt_info))
826 return true;
828 return false;
831 /* Return true if BB is a loop header. */
833 static inline bool
834 is_loop_header_bb_p (basic_block bb)
836 if (bb == (bb->loop_father)->header)
837 return true;
838 gcc_checking_assert (EDGE_COUNT (bb->preds) == 1);
839 return false;
842 /* Return pow2 (X). */
844 static inline int
845 vect_pow2 (int x)
847 int i, res = 1;
849 for (i = 0; i < x; i++)
850 res *= 2;
852 return res;
855 /* Alias targetm.vectorize.builtin_vectorization_cost. */
857 static inline int
858 builtin_vectorization_cost (enum vect_cost_for_stmt type_of_cost,
859 tree vectype, int misalign)
861 return targetm.vectorize.builtin_vectorization_cost (type_of_cost,
862 vectype, misalign);
865 /* Get cost by calling cost target builtin. */
867 static inline
868 int vect_get_stmt_cost (enum vect_cost_for_stmt type_of_cost)
870 return builtin_vectorization_cost (type_of_cost, NULL, 0);
873 /* Alias targetm.vectorize.init_cost. */
875 static inline void *
876 init_cost (struct loop *loop_info)
878 return targetm.vectorize.init_cost (loop_info);
881 /* Alias targetm.vectorize.add_stmt_cost. */
883 static inline unsigned
884 add_stmt_cost (void *data, int count, enum vect_cost_for_stmt kind,
885 stmt_vec_info stmt_info, int misalign,
886 enum vect_cost_model_location where)
888 return targetm.vectorize.add_stmt_cost (data, count, kind,
889 stmt_info, misalign, where);
892 /* Alias targetm.vectorize.finish_cost. */
894 static inline void
895 finish_cost (void *data, unsigned *prologue_cost,
896 unsigned *body_cost, unsigned *epilogue_cost)
898 targetm.vectorize.finish_cost (data, prologue_cost, body_cost, epilogue_cost);
901 /* Alias targetm.vectorize.destroy_cost_data. */
903 static inline void
904 destroy_cost_data (void *data)
906 targetm.vectorize.destroy_cost_data (data);
910 /*-----------------------------------------------------------------*/
911 /* Info on data references alignment. */
912 /*-----------------------------------------------------------------*/
913 inline void
914 set_dr_misalignment (struct data_reference *dr, int val)
916 dataref_aux *data_aux = (dataref_aux *) dr->aux;
918 if (!data_aux)
920 data_aux = XCNEW (dataref_aux);
921 dr->aux = data_aux;
924 data_aux->misalignment = val;
927 inline int
928 dr_misalignment (struct data_reference *dr)
930 gcc_assert (dr->aux);
931 return ((dataref_aux *) dr->aux)->misalignment;
934 /* Reflects actual alignment of first access in the vectorized loop,
935 taking into account peeling/versioning if applied. */
936 #define DR_MISALIGNMENT(DR) dr_misalignment (DR)
937 #define SET_DR_MISALIGNMENT(DR, VAL) set_dr_misalignment (DR, VAL)
939 /* Return TRUE if the data access is aligned, and FALSE otherwise. */
941 static inline bool
942 aligned_access_p (struct data_reference *data_ref_info)
944 return (DR_MISALIGNMENT (data_ref_info) == 0);
947 /* Return TRUE if the alignment of the data access is known, and FALSE
948 otherwise. */
950 static inline bool
951 known_alignment_for_access_p (struct data_reference *data_ref_info)
953 return (DR_MISALIGNMENT (data_ref_info) != -1);
957 /* Return true if the vect cost model is unlimited. */
958 static inline bool
959 unlimited_cost_model (loop_p loop)
961 if (loop != NULL && loop->force_vectorize
962 && flag_simd_cost_model != VECT_COST_MODEL_DEFAULT)
963 return flag_simd_cost_model == VECT_COST_MODEL_UNLIMITED;
964 return (flag_vect_cost_model == VECT_COST_MODEL_UNLIMITED);
967 /* Source location */
968 extern source_location vect_location;
970 /*-----------------------------------------------------------------*/
971 /* Function prototypes. */
972 /*-----------------------------------------------------------------*/
974 /* Simple loop peeling and versioning utilities for vectorizer's purposes -
975 in tree-vect-loop-manip.c. */
976 extern void slpeel_make_loop_iterate_ntimes (struct loop *, tree);
977 extern bool slpeel_can_duplicate_loop_p (const struct loop *, const_edge);
978 struct loop *slpeel_tree_duplicate_loop_to_edge_cfg (struct loop *,
979 struct loop *, edge);
980 extern void vect_loop_versioning (loop_vec_info, unsigned int, bool);
981 extern void vect_do_peeling_for_loop_bound (loop_vec_info, tree, tree,
982 unsigned int, bool);
983 extern void vect_do_peeling_for_alignment (loop_vec_info, tree,
984 unsigned int, bool);
985 extern source_location find_loop_location (struct loop *);
986 extern bool vect_can_advance_ivs_p (loop_vec_info);
988 /* In tree-vect-stmts.c. */
989 extern unsigned int current_vector_size;
990 extern tree get_vectype_for_scalar_type (tree);
991 extern tree get_same_sized_vectype (tree, tree);
992 extern bool vect_is_simple_use (tree, gimple, loop_vec_info,
993 bb_vec_info, gimple *,
994 tree *, enum vect_def_type *);
995 extern bool vect_is_simple_use_1 (tree, gimple, loop_vec_info,
996 bb_vec_info, gimple *,
997 tree *, enum vect_def_type *, tree *);
998 extern bool supportable_widening_operation (enum tree_code, gimple, tree, tree,
999 enum tree_code *, enum tree_code *,
1000 int *, vec<tree> *);
1001 extern bool supportable_narrowing_operation (enum tree_code, tree, tree,
1002 enum tree_code *,
1003 int *, vec<tree> *);
1004 extern stmt_vec_info new_stmt_vec_info (gimple stmt, loop_vec_info,
1005 bb_vec_info);
1006 extern void free_stmt_vec_info (gimple stmt);
1007 extern tree vectorizable_function (gimple, tree, tree);
1008 extern void vect_model_simple_cost (stmt_vec_info, int, enum vect_def_type *,
1009 stmt_vector_for_cost *,
1010 stmt_vector_for_cost *);
1011 extern void vect_model_store_cost (stmt_vec_info, int, bool,
1012 enum vect_def_type, slp_tree,
1013 stmt_vector_for_cost *,
1014 stmt_vector_for_cost *);
1015 extern void vect_model_load_cost (stmt_vec_info, int, bool, slp_tree,
1016 stmt_vector_for_cost *,
1017 stmt_vector_for_cost *);
1018 extern unsigned record_stmt_cost (stmt_vector_for_cost *, int,
1019 enum vect_cost_for_stmt, stmt_vec_info,
1020 int, enum vect_cost_model_location);
1021 extern void vect_finish_stmt_generation (gimple, gimple,
1022 gimple_stmt_iterator *);
1023 extern bool vect_mark_stmts_to_be_vectorized (loop_vec_info);
1024 extern tree vect_get_vec_def_for_operand (tree, gimple, tree *);
1025 extern tree vect_init_vector (gimple, tree, tree,
1026 gimple_stmt_iterator *);
1027 extern tree vect_get_vec_def_for_stmt_copy (enum vect_def_type, tree);
1028 extern bool vect_transform_stmt (gimple, gimple_stmt_iterator *,
1029 bool *, slp_tree, slp_instance);
1030 extern void vect_remove_stores (gimple);
1031 extern bool vect_analyze_stmt (gimple, bool *, slp_tree);
1032 extern bool vectorizable_condition (gimple, gimple_stmt_iterator *, gimple *,
1033 tree, int, slp_tree);
1034 extern void vect_get_load_cost (struct data_reference *, int, bool,
1035 unsigned int *, unsigned int *,
1036 stmt_vector_for_cost *,
1037 stmt_vector_for_cost *, bool);
1038 extern void vect_get_store_cost (struct data_reference *, int,
1039 unsigned int *, stmt_vector_for_cost *);
1040 extern bool vect_supportable_shift (enum tree_code, tree);
1041 extern void vect_get_vec_defs (tree, tree, gimple, vec<tree> *,
1042 vec<tree> *, slp_tree, int);
1043 extern tree vect_gen_perm_mask (tree, unsigned char *);
1045 /* In tree-vect-data-refs.c. */
1046 extern bool vect_can_force_dr_alignment_p (const_tree, unsigned int);
1047 extern enum dr_alignment_support vect_supportable_dr_alignment
1048 (struct data_reference *, bool);
1049 extern tree vect_get_smallest_scalar_type (gimple, HOST_WIDE_INT *,
1050 HOST_WIDE_INT *);
1051 extern bool vect_analyze_data_ref_dependences (loop_vec_info, int *);
1052 extern bool vect_slp_analyze_data_ref_dependences (bb_vec_info);
1053 extern bool vect_enhance_data_refs_alignment (loop_vec_info);
1054 extern bool vect_analyze_data_refs_alignment (loop_vec_info, bb_vec_info);
1055 extern bool vect_verify_datarefs_alignment (loop_vec_info, bb_vec_info);
1056 extern bool vect_analyze_data_ref_accesses (loop_vec_info, bb_vec_info);
1057 extern bool vect_prune_runtime_alias_test_list (loop_vec_info);
1058 extern tree vect_check_gather (gimple, loop_vec_info, tree *, tree *,
1059 int *);
1060 extern bool vect_analyze_data_refs (loop_vec_info, bb_vec_info, int *,
1061 unsigned *);
1062 extern tree vect_create_data_ref_ptr (gimple, tree, struct loop *, tree,
1063 tree *, gimple_stmt_iterator *,
1064 gimple *, bool, bool *);
1065 extern tree bump_vector_ptr (tree, gimple, gimple_stmt_iterator *, gimple, tree);
1066 extern tree vect_create_destination_var (tree, tree);
1067 extern bool vect_grouped_store_supported (tree, unsigned HOST_WIDE_INT);
1068 extern bool vect_store_lanes_supported (tree, unsigned HOST_WIDE_INT);
1069 extern bool vect_grouped_load_supported (tree, unsigned HOST_WIDE_INT);
1070 extern bool vect_load_lanes_supported (tree, unsigned HOST_WIDE_INT);
1071 extern void vect_permute_store_chain (vec<tree> ,unsigned int, gimple,
1072 gimple_stmt_iterator *, vec<tree> *);
1073 extern tree vect_setup_realignment (gimple, gimple_stmt_iterator *, tree *,
1074 enum dr_alignment_support, tree,
1075 struct loop **);
1076 extern void vect_transform_grouped_load (gimple, vec<tree> , int,
1077 gimple_stmt_iterator *);
1078 extern void vect_record_grouped_load_vectors (gimple, vec<tree> );
1079 extern tree vect_get_new_vect_var (tree, enum vect_var_kind, const char *);
1080 extern tree vect_create_addr_base_for_vector_ref (gimple, gimple_seq *,
1081 tree, struct loop *);
1083 /* In tree-vect-loop.c. */
1084 /* FORNOW: Used in tree-parloops.c. */
1085 extern void destroy_loop_vec_info (loop_vec_info, bool);
1086 extern gimple vect_force_simple_reduction (loop_vec_info, gimple, bool, bool *);
1087 /* Drive for loop analysis stage. */
1088 extern loop_vec_info vect_analyze_loop (struct loop *);
1089 /* Drive for loop transformation stage. */
1090 extern void vect_transform_loop (loop_vec_info);
1091 extern loop_vec_info vect_analyze_loop_form (struct loop *);
1092 extern bool vectorizable_live_operation (gimple, gimple_stmt_iterator *,
1093 gimple *);
1094 extern bool vectorizable_reduction (gimple, gimple_stmt_iterator *, gimple *,
1095 slp_tree);
1096 extern bool vectorizable_induction (gimple, gimple_stmt_iterator *, gimple *);
1097 extern tree get_initial_def_for_reduction (gimple, tree, tree *);
1098 extern int vect_min_worthwhile_factor (enum tree_code);
1099 extern int vect_get_known_peeling_cost (loop_vec_info, int, int *, int,
1100 stmt_vector_for_cost *,
1101 stmt_vector_for_cost *);
1102 extern int vect_get_single_scalar_iteration_cost (loop_vec_info);
1104 /* In tree-vect-slp.c. */
1105 extern void vect_free_slp_instance (slp_instance);
1106 extern bool vect_transform_slp_perm_load (slp_tree, vec<tree> ,
1107 gimple_stmt_iterator *, int,
1108 slp_instance, bool);
1109 extern bool vect_schedule_slp (loop_vec_info, bb_vec_info);
1110 extern void vect_update_slp_costs_according_to_vf (loop_vec_info);
1111 extern bool vect_analyze_slp (loop_vec_info, bb_vec_info, unsigned);
1112 extern bool vect_make_slp_decision (loop_vec_info);
1113 extern void vect_detect_hybrid_slp (loop_vec_info);
1114 extern void vect_get_slp_defs (vec<tree> , slp_tree,
1115 vec<vec<tree> > *, int);
1117 extern source_location find_bb_location (basic_block);
1118 extern bb_vec_info vect_slp_analyze_bb (basic_block);
1119 extern void vect_slp_transform_bb (basic_block);
1121 /* In tree-vect-patterns.c. */
1122 /* Pattern recognition functions.
1123 Additional pattern recognition functions can (and will) be added
1124 in the future. */
1125 typedef gimple (* vect_recog_func_ptr) (vec<gimple> *, tree *, tree *);
1126 #define NUM_PATTERNS 12
1127 void vect_pattern_recog (loop_vec_info, bb_vec_info);
1129 /* In tree-vectorizer.c. */
1130 unsigned vectorize_loops (void);
1131 void vect_destroy_datarefs (loop_vec_info, bb_vec_info);
1133 #endif /* GCC_TREE_VECTORIZER_H */