1 /* SLP - Basic Block Vectorization
2 Copyright (C) 2007-2017 Free Software Foundation, Inc.
3 Contributed by Dorit Naishlos <dorit@il.ibm.com>
4 and Ira Rosen <irar@il.ibm.com>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
24 #include "coretypes.h"
30 #include "tree-pass.h"
32 #include "optabs-tree.h"
33 #include "insn-config.h"
34 #include "recog.h" /* FIXME: for insn_data */
36 #include "fold-const.h"
37 #include "stor-layout.h"
38 #include "gimple-iterator.h"
40 #include "tree-vectorizer.h"
41 #include "langhooks.h"
42 #include "gimple-walk.h"
46 /* Recursively free the memory allocated for the SLP tree rooted at NODE. */
49 vect_free_slp_tree (slp_tree node
)
54 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
55 vect_free_slp_tree (child
);
58 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
59 /* After transform some stmts are removed and thus their vinfo is gone. */
60 if (vinfo_for_stmt (stmt
))
62 gcc_assert (STMT_VINFO_NUM_SLP_USES (vinfo_for_stmt (stmt
)) > 0);
63 STMT_VINFO_NUM_SLP_USES (vinfo_for_stmt (stmt
))--;
66 SLP_TREE_CHILDREN (node
).release ();
67 SLP_TREE_SCALAR_STMTS (node
).release ();
68 SLP_TREE_VEC_STMTS (node
).release ();
69 SLP_TREE_LOAD_PERMUTATION (node
).release ();
75 /* Free the memory allocated for the SLP instance. */
78 vect_free_slp_instance (slp_instance instance
)
80 vect_free_slp_tree (SLP_INSTANCE_TREE (instance
));
81 SLP_INSTANCE_LOADS (instance
).release ();
86 /* Create an SLP node for SCALAR_STMTS. */
89 vect_create_new_slp_node (vec
<gimple
*> scalar_stmts
)
92 gimple
*stmt
= scalar_stmts
[0];
95 if (is_gimple_call (stmt
))
96 nops
= gimple_call_num_args (stmt
);
97 else if (is_gimple_assign (stmt
))
99 nops
= gimple_num_ops (stmt
) - 1;
100 if (gimple_assign_rhs_code (stmt
) == COND_EXPR
)
103 else if (gimple_code (stmt
) == GIMPLE_PHI
)
108 node
= XNEW (struct _slp_tree
);
109 SLP_TREE_SCALAR_STMTS (node
) = scalar_stmts
;
110 SLP_TREE_VEC_STMTS (node
).create (0);
111 SLP_TREE_CHILDREN (node
).create (nops
);
112 SLP_TREE_LOAD_PERMUTATION (node
) = vNULL
;
113 SLP_TREE_TWO_OPERATORS (node
) = false;
114 SLP_TREE_DEF_TYPE (node
) = vect_internal_def
;
117 FOR_EACH_VEC_ELT (scalar_stmts
, i
, stmt
)
118 STMT_VINFO_NUM_SLP_USES (vinfo_for_stmt (stmt
))++;
124 /* This structure is used in creation of an SLP tree. Each instance
125 corresponds to the same operand in a group of scalar stmts in an SLP
127 typedef struct _slp_oprnd_info
129 /* Def-stmts for the operands. */
130 vec
<gimple
*> def_stmts
;
131 /* Information about the first statement, its vector def-type, type, the
132 operand itself in case it's constant, and an indication if it's a pattern
135 enum vect_def_type first_dt
;
141 /* Allocate operands info for NOPS operands, and GROUP_SIZE def-stmts for each
143 static vec
<slp_oprnd_info
>
144 vect_create_oprnd_info (int nops
, int group_size
)
147 slp_oprnd_info oprnd_info
;
148 vec
<slp_oprnd_info
> oprnds_info
;
150 oprnds_info
.create (nops
);
151 for (i
= 0; i
< nops
; i
++)
153 oprnd_info
= XNEW (struct _slp_oprnd_info
);
154 oprnd_info
->def_stmts
.create (group_size
);
155 oprnd_info
->first_dt
= vect_uninitialized_def
;
156 oprnd_info
->first_op_type
= NULL_TREE
;
157 oprnd_info
->first_pattern
= false;
158 oprnd_info
->second_pattern
= false;
159 oprnds_info
.quick_push (oprnd_info
);
166 /* Free operands info. */
169 vect_free_oprnd_info (vec
<slp_oprnd_info
> &oprnds_info
)
172 slp_oprnd_info oprnd_info
;
174 FOR_EACH_VEC_ELT (oprnds_info
, i
, oprnd_info
)
176 oprnd_info
->def_stmts
.release ();
177 XDELETE (oprnd_info
);
180 oprnds_info
.release ();
184 /* Find the place of the data-ref in STMT in the interleaving chain that starts
185 from FIRST_STMT. Return -1 if the data-ref is not a part of the chain. */
188 vect_get_place_in_interleaving_chain (gimple
*stmt
, gimple
*first_stmt
)
190 gimple
*next_stmt
= first_stmt
;
193 if (first_stmt
!= GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)))
198 if (next_stmt
== stmt
)
200 next_stmt
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (next_stmt
));
202 result
+= GROUP_GAP (vinfo_for_stmt (next_stmt
));
210 /* Get the defs for the rhs of STMT (collect them in OPRNDS_INFO), check that
211 they are of a valid type and that they match the defs of the first stmt of
212 the SLP group (stored in OPRNDS_INFO). This function tries to match stmts
213 by swapping operands of STMT when possible. Non-zero *SWAP indicates swap
214 is required for cond_expr stmts. Specifically, *SWAP is 1 if STMT is cond
215 and operands of comparison need to be swapped; *SWAP is 2 if STMT is cond
216 and code of comparison needs to be inverted. If there is any operand swap
217 in this function, *SWAP is set to non-zero value.
218 If there was a fatal error return -1; if the error could be corrected by
219 swapping operands of father node of this one, return 1; if everything is
223 vect_get_and_check_slp_defs (vec_info
*vinfo
, unsigned char *swap
,
224 gimple
*stmt
, unsigned stmt_num
,
225 vec
<slp_oprnd_info
> *oprnds_info
)
228 unsigned int i
, number_of_oprnds
;
230 enum vect_def_type dt
= vect_uninitialized_def
;
231 bool pattern
= false;
232 slp_oprnd_info oprnd_info
;
233 int first_op_idx
= 1;
234 bool commutative
= false;
235 bool first_op_cond
= false;
236 bool first
= stmt_num
== 0;
237 bool second
= stmt_num
== 1;
239 if (is_gimple_call (stmt
))
241 number_of_oprnds
= gimple_call_num_args (stmt
);
244 else if (is_gimple_assign (stmt
))
246 enum tree_code code
= gimple_assign_rhs_code (stmt
);
247 number_of_oprnds
= gimple_num_ops (stmt
) - 1;
248 /* Swap can only be done for cond_expr if asked to, otherwise we
249 could result in different comparison code to the first stmt. */
250 if (gimple_assign_rhs_code (stmt
) == COND_EXPR
251 && COMPARISON_CLASS_P (gimple_assign_rhs1 (stmt
)))
253 first_op_cond
= true;
257 commutative
= commutative_tree_code (code
);
262 bool swapped
= (*swap
!= 0);
263 gcc_assert (!swapped
|| first_op_cond
);
264 for (i
= 0; i
< number_of_oprnds
; i
++)
269 /* Map indicating how operands of cond_expr should be swapped. */
270 int maps
[3][4] = {{0, 1, 2, 3}, {1, 0, 2, 3}, {0, 1, 3, 2}};
271 int *map
= maps
[*swap
];
274 oprnd
= TREE_OPERAND (gimple_op (stmt
, first_op_idx
), map
[i
]);
276 oprnd
= gimple_op (stmt
, map
[i
]);
279 oprnd
= gimple_op (stmt
, first_op_idx
+ (swapped
? !i
: i
));
281 oprnd_info
= (*oprnds_info
)[i
];
283 if (!vect_is_simple_use (oprnd
, vinfo
, &def_stmt
, &dt
))
285 if (dump_enabled_p ())
287 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
288 "Build SLP failed: can't analyze def for ");
289 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, oprnd
);
290 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
296 /* Check if DEF_STMT is a part of a pattern in LOOP and get the def stmt
297 from the pattern. Check that all the stmts of the node are in the
299 if (def_stmt
&& gimple_bb (def_stmt
)
300 && vect_stmt_in_region_p (vinfo
, def_stmt
)
301 && vinfo_for_stmt (def_stmt
)
302 && STMT_VINFO_IN_PATTERN_P (vinfo_for_stmt (def_stmt
))
303 && !STMT_VINFO_RELEVANT (vinfo_for_stmt (def_stmt
))
304 && !STMT_VINFO_LIVE_P (vinfo_for_stmt (def_stmt
)))
307 if (!first
&& !oprnd_info
->first_pattern
308 /* Allow different pattern state for the defs of the
309 first stmt in reduction chains. */
310 && (oprnd_info
->first_dt
!= vect_reduction_def
311 || (!second
&& !oprnd_info
->second_pattern
)))
321 if (dump_enabled_p ())
323 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
324 "Build SLP failed: some of the stmts"
325 " are in a pattern, and others are not ");
326 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, oprnd
);
327 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
333 def_stmt
= STMT_VINFO_RELATED_STMT (vinfo_for_stmt (def_stmt
));
334 dt
= STMT_VINFO_DEF_TYPE (vinfo_for_stmt (def_stmt
));
336 if (dt
== vect_unknown_def_type
)
338 if (dump_enabled_p ())
339 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
340 "Unsupported pattern.\n");
344 switch (gimple_code (def_stmt
))
351 if (dump_enabled_p ())
352 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
353 "unsupported defining stmt:\n");
359 oprnd_info
->second_pattern
= pattern
;
363 oprnd_info
->first_dt
= dt
;
364 oprnd_info
->first_pattern
= pattern
;
365 oprnd_info
->first_op_type
= TREE_TYPE (oprnd
);
369 /* Not first stmt of the group, check that the def-stmt/s match
370 the def-stmt/s of the first stmt. Allow different definition
371 types for reduction chains: the first stmt must be a
372 vect_reduction_def (a phi node), and the rest
373 vect_internal_def. */
374 if (((oprnd_info
->first_dt
!= dt
375 && !(oprnd_info
->first_dt
== vect_reduction_def
376 && dt
== vect_internal_def
)
377 && !((oprnd_info
->first_dt
== vect_external_def
378 || oprnd_info
->first_dt
== vect_constant_def
)
379 && (dt
== vect_external_def
380 || dt
== vect_constant_def
)))
381 || !types_compatible_p (oprnd_info
->first_op_type
,
384 /* Try swapping operands if we got a mismatch. */
393 if (dump_enabled_p ())
394 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
395 "Build SLP failed: different types\n");
401 /* Check the types of the definitions. */
404 case vect_constant_def
:
405 case vect_external_def
:
408 case vect_reduction_def
:
409 case vect_induction_def
:
410 case vect_internal_def
:
411 oprnd_info
->def_stmts
.quick_push (def_stmt
);
415 /* FORNOW: Not supported. */
416 if (dump_enabled_p ())
418 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
419 "Build SLP failed: illegal type of def ");
420 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, oprnd
);
421 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
431 /* If there are already uses of this stmt in a SLP instance then
432 we've committed to the operand order and can't swap it. */
433 if (STMT_VINFO_NUM_SLP_USES (vinfo_for_stmt (stmt
)) != 0)
435 if (dump_enabled_p ())
437 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
438 "Build SLP failed: cannot swap operands of "
440 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
447 tree cond
= gimple_assign_rhs1 (stmt
);
448 enum tree_code code
= TREE_CODE (cond
);
453 swap_ssa_operands (stmt
, &TREE_OPERAND (cond
, 0),
454 &TREE_OPERAND (cond
, 1));
455 TREE_SET_CODE (cond
, swap_tree_comparison (code
));
460 swap_ssa_operands (stmt
, gimple_assign_rhs2_ptr (stmt
),
461 gimple_assign_rhs3_ptr (stmt
));
462 bool honor_nans
= HONOR_NANS (TREE_OPERAND (cond
, 0));
463 code
= invert_tree_comparison (TREE_CODE (cond
), honor_nans
);
464 gcc_assert (code
!= ERROR_MARK
);
465 TREE_SET_CODE (cond
, code
);
469 swap_ssa_operands (stmt
, gimple_assign_rhs1_ptr (stmt
),
470 gimple_assign_rhs2_ptr (stmt
));
471 if (dump_enabled_p ())
473 dump_printf_loc (MSG_NOTE
, vect_location
,
474 "swapped operands to match def types in ");
475 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, stmt
, 0);
484 /* Verify if the scalar stmts STMTS are isomorphic, require data
485 permutation or are of unsupported types of operation. Return
486 true if they are, otherwise return false and indicate in *MATCHES
487 which stmts are not isomorphic to the first one. If MATCHES[0]
488 is false then this indicates the comparison could not be
489 carried out or the stmts will never be vectorized by SLP.
491 Note COND_EXPR is possibly ismorphic to another one after swapping its
492 operands. Set SWAP[i] to 1 if stmt I is COND_EXPR and isomorphic to
493 the first stmt by swapping the two operands of comparison; set SWAP[i]
494 to 2 if stmt I is isormorphic to the first stmt by inverting the code
495 of comparison. Take A1 >= B1 ? X1 : Y1 as an exmple, it can be swapped
496 to (B1 <= A1 ? X1 : Y1); or be inverted to (A1 < B1) ? Y1 : X1. */
499 vect_build_slp_tree_1 (vec_info
*vinfo
, unsigned char *swap
,
500 vec
<gimple
*> stmts
, unsigned int group_size
,
501 unsigned nops
, unsigned int *max_nunits
,
502 bool *matches
, bool *two_operators
)
505 gimple
*first_stmt
= stmts
[0], *stmt
= stmts
[0];
506 enum tree_code first_stmt_code
= ERROR_MARK
;
507 enum tree_code alt_stmt_code
= ERROR_MARK
;
508 enum tree_code rhs_code
= ERROR_MARK
;
509 enum tree_code first_cond_code
= ERROR_MARK
;
511 bool need_same_oprnds
= false;
512 tree vectype
= NULL_TREE
, scalar_type
, first_op1
= NULL_TREE
;
515 machine_mode optab_op2_mode
;
516 machine_mode vec_mode
;
518 gimple
*first_load
= NULL
, *prev_first_load
= NULL
;
520 /* For every stmt in NODE find its def stmt/s. */
521 FOR_EACH_VEC_ELT (stmts
, i
, stmt
)
526 if (dump_enabled_p ())
528 dump_printf_loc (MSG_NOTE
, vect_location
, "Build SLP for ");
529 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, stmt
, 0);
532 /* Fail to vectorize statements marked as unvectorizable. */
533 if (!STMT_VINFO_VECTORIZABLE (vinfo_for_stmt (stmt
)))
535 if (dump_enabled_p ())
537 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
538 "Build SLP failed: unvectorizable statement ");
539 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
541 /* Fatal mismatch. */
546 lhs
= gimple_get_lhs (stmt
);
547 if (lhs
== NULL_TREE
)
549 if (dump_enabled_p ())
551 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
552 "Build SLP failed: not GIMPLE_ASSIGN nor "
554 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
556 /* Fatal mismatch. */
561 scalar_type
= vect_get_smallest_scalar_type (stmt
, &dummy
, &dummy
);
562 vectype
= get_vectype_for_scalar_type (scalar_type
);
565 if (dump_enabled_p ())
567 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
568 "Build SLP failed: unsupported data-type ");
569 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
571 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
573 /* Fatal mismatch. */
578 /* If populating the vector type requires unrolling then fail
579 before adjusting *max_nunits for basic-block vectorization. */
580 if (is_a
<bb_vec_info
> (vinfo
)
581 && TYPE_VECTOR_SUBPARTS (vectype
) > group_size
)
583 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
584 "Build SLP failed: unrolling required "
585 "in basic block SLP\n");
586 /* Fatal mismatch. */
591 /* In case of multiple types we need to detect the smallest type. */
592 if (*max_nunits
< TYPE_VECTOR_SUBPARTS (vectype
))
593 *max_nunits
= TYPE_VECTOR_SUBPARTS (vectype
);
595 if (gcall
*call_stmt
= dyn_cast
<gcall
*> (stmt
))
597 rhs_code
= CALL_EXPR
;
598 if (gimple_call_internal_p (call_stmt
)
599 || gimple_call_tail_p (call_stmt
)
600 || gimple_call_noreturn_p (call_stmt
)
601 || !gimple_call_nothrow_p (call_stmt
)
602 || gimple_call_chain (call_stmt
))
604 if (dump_enabled_p ())
606 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
607 "Build SLP failed: unsupported call type ");
608 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
611 /* Fatal mismatch. */
617 rhs_code
= gimple_assign_rhs_code (stmt
);
619 /* Check the operation. */
622 first_stmt_code
= rhs_code
;
624 /* Shift arguments should be equal in all the packed stmts for a
625 vector shift with scalar shift operand. */
626 if (rhs_code
== LSHIFT_EXPR
|| rhs_code
== RSHIFT_EXPR
627 || rhs_code
== LROTATE_EXPR
628 || rhs_code
== RROTATE_EXPR
)
630 vec_mode
= TYPE_MODE (vectype
);
632 /* First see if we have a vector/vector shift. */
633 optab
= optab_for_tree_code (rhs_code
, vectype
,
637 || optab_handler (optab
, vec_mode
) == CODE_FOR_nothing
)
639 /* No vector/vector shift, try for a vector/scalar shift. */
640 optab
= optab_for_tree_code (rhs_code
, vectype
,
645 if (dump_enabled_p ())
646 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
647 "Build SLP failed: no optab.\n");
648 /* Fatal mismatch. */
652 icode
= (int) optab_handler (optab
, vec_mode
);
653 if (icode
== CODE_FOR_nothing
)
655 if (dump_enabled_p ())
656 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
658 "op not supported by target.\n");
659 /* Fatal mismatch. */
663 optab_op2_mode
= insn_data
[icode
].operand
[2].mode
;
664 if (!VECTOR_MODE_P (optab_op2_mode
))
666 need_same_oprnds
= true;
667 first_op1
= gimple_assign_rhs2 (stmt
);
671 else if (rhs_code
== WIDEN_LSHIFT_EXPR
)
673 need_same_oprnds
= true;
674 first_op1
= gimple_assign_rhs2 (stmt
);
679 if (first_stmt_code
!= rhs_code
680 && alt_stmt_code
== ERROR_MARK
)
681 alt_stmt_code
= rhs_code
;
682 if (first_stmt_code
!= rhs_code
683 && (first_stmt_code
!= IMAGPART_EXPR
684 || rhs_code
!= REALPART_EXPR
)
685 && (first_stmt_code
!= REALPART_EXPR
686 || rhs_code
!= IMAGPART_EXPR
)
687 /* Handle mismatches in plus/minus by computing both
688 and merging the results. */
689 && !((first_stmt_code
== PLUS_EXPR
690 || first_stmt_code
== MINUS_EXPR
)
691 && (alt_stmt_code
== PLUS_EXPR
692 || alt_stmt_code
== MINUS_EXPR
)
693 && rhs_code
== alt_stmt_code
)
694 && !(STMT_VINFO_GROUPED_ACCESS (vinfo_for_stmt (stmt
))
695 && (first_stmt_code
== ARRAY_REF
696 || first_stmt_code
== BIT_FIELD_REF
697 || first_stmt_code
== INDIRECT_REF
698 || first_stmt_code
== COMPONENT_REF
699 || first_stmt_code
== MEM_REF
)))
701 if (dump_enabled_p ())
703 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
704 "Build SLP failed: different operation "
706 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
707 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
709 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
717 && !operand_equal_p (first_op1
, gimple_assign_rhs2 (stmt
), 0))
719 if (dump_enabled_p ())
721 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
722 "Build SLP failed: different shift "
724 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
730 if (rhs_code
== CALL_EXPR
)
732 gimple
*first_stmt
= stmts
[0];
733 if (gimple_call_num_args (stmt
) != nops
734 || !operand_equal_p (gimple_call_fn (first_stmt
),
735 gimple_call_fn (stmt
), 0)
736 || gimple_call_fntype (first_stmt
)
737 != gimple_call_fntype (stmt
))
739 if (dump_enabled_p ())
741 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
742 "Build SLP failed: different calls in ");
743 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
752 /* Grouped store or load. */
753 if (STMT_VINFO_GROUPED_ACCESS (vinfo_for_stmt (stmt
)))
755 if (REFERENCE_CLASS_P (lhs
))
763 first_load
= GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
));
766 /* Check that there are no loads from different interleaving
767 chains in the same node. */
768 if (prev_first_load
!= first_load
)
770 if (dump_enabled_p ())
772 dump_printf_loc (MSG_MISSED_OPTIMIZATION
,
774 "Build SLP failed: different "
775 "interleaving chains in one node ");
776 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
784 prev_first_load
= first_load
;
786 } /* Grouped access. */
789 if (TREE_CODE_CLASS (rhs_code
) == tcc_reference
)
791 /* Not grouped load. */
792 if (dump_enabled_p ())
794 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
795 "Build SLP failed: not grouped load ");
796 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
799 /* FORNOW: Not grouped loads are not supported. */
800 /* Fatal mismatch. */
805 /* Not memory operation. */
806 if (TREE_CODE_CLASS (rhs_code
) != tcc_binary
807 && TREE_CODE_CLASS (rhs_code
) != tcc_unary
808 && TREE_CODE_CLASS (rhs_code
) != tcc_expression
809 && TREE_CODE_CLASS (rhs_code
) != tcc_comparison
810 && rhs_code
!= CALL_EXPR
)
812 if (dump_enabled_p ())
814 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
815 "Build SLP failed: operation");
816 dump_printf (MSG_MISSED_OPTIMIZATION
, " unsupported ");
817 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, stmt
, 0);
819 /* Fatal mismatch. */
824 if (rhs_code
== COND_EXPR
)
826 tree cond_expr
= gimple_assign_rhs1 (stmt
);
827 enum tree_code cond_code
= TREE_CODE (cond_expr
);
828 enum tree_code swap_code
= ERROR_MARK
;
829 enum tree_code invert_code
= ERROR_MARK
;
832 first_cond_code
= TREE_CODE (cond_expr
);
833 else if (TREE_CODE_CLASS (cond_code
) == tcc_comparison
)
835 bool honor_nans
= HONOR_NANS (TREE_OPERAND (cond_expr
, 0));
836 swap_code
= swap_tree_comparison (cond_code
);
837 invert_code
= invert_tree_comparison (cond_code
, honor_nans
);
840 if (first_cond_code
== cond_code
)
842 /* Isomorphic can be achieved by swapping. */
843 else if (first_cond_code
== swap_code
)
845 /* Isomorphic can be achieved by inverting. */
846 else if (first_cond_code
== invert_code
)
850 if (dump_enabled_p ())
852 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
853 "Build SLP failed: different"
855 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
867 for (i
= 0; i
< group_size
; ++i
)
871 /* If we allowed a two-operation SLP node verify the target can cope
872 with the permute we are going to use. */
873 if (alt_stmt_code
!= ERROR_MARK
874 && TREE_CODE_CLASS (alt_stmt_code
) != tcc_reference
)
877 = XALLOCAVEC (unsigned char, TYPE_VECTOR_SUBPARTS (vectype
));
878 for (i
= 0; i
< TYPE_VECTOR_SUBPARTS (vectype
); ++i
)
881 if (gimple_assign_rhs_code (stmts
[i
% group_size
]) == alt_stmt_code
)
882 sel
[i
] += TYPE_VECTOR_SUBPARTS (vectype
);
884 if (!can_vec_perm_p (TYPE_MODE (vectype
), false, sel
))
886 for (i
= 0; i
< group_size
; ++i
)
887 if (gimple_assign_rhs_code (stmts
[i
]) == alt_stmt_code
)
890 if (dump_enabled_p ())
892 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
893 "Build SLP failed: different operation "
895 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
897 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
899 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
905 *two_operators
= true;
911 /* Traits for the hash_set to record failed SLP builds for a stmt set.
912 Note we never remove apart from at destruction time so we do not
913 need a special value for deleted that differs from empty. */
916 typedef vec
<gimple
*> value_type
;
917 typedef vec
<gimple
*> compare_type
;
918 static inline hashval_t
hash (value_type
);
919 static inline bool equal (value_type existing
, value_type candidate
);
920 static inline bool is_empty (value_type x
) { return !x
.exists (); }
921 static inline bool is_deleted (value_type x
) { return !x
.exists (); }
922 static inline void mark_empty (value_type
&x
) { x
.release (); }
923 static inline void mark_deleted (value_type
&x
) { x
.release (); }
924 static inline void remove (value_type
&x
) { x
.release (); }
927 bst_traits::hash (value_type x
)
930 for (unsigned i
= 0; i
< x
.length (); ++i
)
931 h
.add_int (gimple_uid (x
[i
]));
935 bst_traits::equal (value_type existing
, value_type candidate
)
937 if (existing
.length () != candidate
.length ())
939 for (unsigned i
= 0; i
< existing
.length (); ++i
)
940 if (existing
[i
] != candidate
[i
])
945 static hash_set
<vec
<gimple
*>, bst_traits
> *bst_fail
;
948 vect_build_slp_tree_2 (vec_info
*vinfo
,
949 vec
<gimple
*> stmts
, unsigned int group_size
,
950 unsigned int *max_nunits
,
951 vec
<slp_tree
> *loads
,
952 bool *matches
, unsigned *npermutes
, unsigned *tree_size
,
953 unsigned max_tree_size
);
956 vect_build_slp_tree (vec_info
*vinfo
,
957 vec
<gimple
*> stmts
, unsigned int group_size
,
958 unsigned int *max_nunits
,
959 vec
<slp_tree
> *loads
,
960 bool *matches
, unsigned *npermutes
, unsigned *tree_size
,
961 unsigned max_tree_size
)
963 if (bst_fail
->contains (stmts
))
965 slp_tree res
= vect_build_slp_tree_2 (vinfo
, stmts
, group_size
, max_nunits
,
966 loads
, matches
, npermutes
, tree_size
,
968 /* When SLP build fails for stmts record this, otherwise SLP build
969 can be exponential in time when we allow to construct parts from
970 scalars, see PR81723. */
974 x
.create (stmts
.length ());
981 /* Recursively build an SLP tree starting from NODE.
982 Fail (and return a value not equal to zero) if def-stmts are not
983 isomorphic, require data permutation or are of unsupported types of
984 operation. Otherwise, return 0.
985 The value returned is the depth in the SLP tree where a mismatch
989 vect_build_slp_tree_2 (vec_info
*vinfo
,
990 vec
<gimple
*> stmts
, unsigned int group_size
,
991 unsigned int *max_nunits
,
992 vec
<slp_tree
> *loads
,
993 bool *matches
, unsigned *npermutes
, unsigned *tree_size
,
994 unsigned max_tree_size
)
996 unsigned nops
, i
, this_tree_size
= 0, this_max_nunits
= *max_nunits
;
1003 if (is_gimple_call (stmt
))
1004 nops
= gimple_call_num_args (stmt
);
1005 else if (is_gimple_assign (stmt
))
1007 nops
= gimple_num_ops (stmt
) - 1;
1008 if (gimple_assign_rhs_code (stmt
) == COND_EXPR
)
1011 else if (gimple_code (stmt
) == GIMPLE_PHI
)
1016 /* If the SLP node is a PHI (induction or reduction), terminate
1018 if (gimple_code (stmt
) == GIMPLE_PHI
)
1020 vect_def_type def_type
= STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
));
1021 /* Induction from different IVs is not supported. */
1022 if (def_type
== vect_induction_def
)
1024 FOR_EACH_VEC_ELT (stmts
, i
, stmt
)
1025 if (stmt
!= stmts
[0])
1030 /* Else def types have to match. */
1031 FOR_EACH_VEC_ELT (stmts
, i
, stmt
)
1033 /* But for reduction chains only check on the first stmt. */
1034 if (GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
))
1035 && GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)) != stmt
)
1037 if (STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) != def_type
)
1041 node
= vect_create_new_slp_node (stmts
);
1046 bool two_operators
= false;
1047 unsigned char *swap
= XALLOCAVEC (unsigned char, group_size
);
1048 if (!vect_build_slp_tree_1 (vinfo
, swap
,
1049 stmts
, group_size
, nops
,
1050 &this_max_nunits
, matches
, &two_operators
))
1053 /* If the SLP node is a load, terminate the recursion. */
1054 if (STMT_VINFO_GROUPED_ACCESS (vinfo_for_stmt (stmt
))
1055 && DR_IS_READ (STMT_VINFO_DATA_REF (vinfo_for_stmt (stmt
))))
1057 *max_nunits
= this_max_nunits
;
1058 node
= vect_create_new_slp_node (stmts
);
1059 loads
->safe_push (node
);
1063 /* Get at the operands, verifying they are compatible. */
1064 vec
<slp_oprnd_info
> oprnds_info
= vect_create_oprnd_info (nops
, group_size
);
1065 slp_oprnd_info oprnd_info
;
1066 FOR_EACH_VEC_ELT (stmts
, i
, stmt
)
1068 int res
= vect_get_and_check_slp_defs (vinfo
, &swap
[i
],
1069 stmt
, i
, &oprnds_info
);
1071 matches
[(res
== -1) ? 0 : i
] = false;
1075 for (i
= 0; i
< group_size
; ++i
)
1078 vect_free_oprnd_info (oprnds_info
);
1082 auto_vec
<slp_tree
, 4> children
;
1083 auto_vec
<slp_tree
> this_loads
;
1088 max_tree_size
-= *tree_size
;
1090 /* Create SLP_TREE nodes for the definition node/s. */
1091 FOR_EACH_VEC_ELT (oprnds_info
, i
, oprnd_info
)
1094 unsigned old_nloads
= this_loads
.length ();
1095 unsigned old_tree_size
= this_tree_size
;
1098 if (oprnd_info
->first_dt
!= vect_internal_def
1099 && oprnd_info
->first_dt
!= vect_reduction_def
1100 && oprnd_info
->first_dt
!= vect_induction_def
)
1103 if (++this_tree_size
> max_tree_size
)
1105 FOR_EACH_VEC_ELT (children
, j
, child
)
1106 vect_free_slp_tree (child
);
1107 vect_free_oprnd_info (oprnds_info
);
1111 if ((child
= vect_build_slp_tree (vinfo
, oprnd_info
->def_stmts
,
1112 group_size
, &this_max_nunits
,
1113 &this_loads
, matches
, npermutes
,
1115 max_tree_size
)) != NULL
)
1117 /* If we have all children of child built up from scalars then just
1118 throw that away and build it up this node from scalars. */
1119 if (!SLP_TREE_CHILDREN (child
).is_empty ()
1120 /* ??? Rejecting patterns this way doesn't work. We'd have to
1121 do extra work to cancel the pattern so the uses see the
1123 && !is_pattern_stmt_p
1124 (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (child
)[0])))
1126 slp_tree grandchild
;
1128 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (child
), j
, grandchild
)
1129 if (SLP_TREE_DEF_TYPE (grandchild
) == vect_internal_def
)
1134 this_loads
.truncate (old_nloads
);
1135 this_tree_size
= old_tree_size
;
1136 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (child
), j
, grandchild
)
1137 vect_free_slp_tree (grandchild
);
1138 SLP_TREE_CHILDREN (child
).truncate (0);
1140 dump_printf_loc (MSG_NOTE
, vect_location
,
1141 "Building parent vector operands from "
1142 "scalars instead\n");
1143 oprnd_info
->def_stmts
= vNULL
;
1144 SLP_TREE_DEF_TYPE (child
) = vect_external_def
;
1145 children
.safe_push (child
);
1150 oprnd_info
->def_stmts
= vNULL
;
1151 children
.safe_push (child
);
1155 /* If the SLP build failed fatally and we analyze a basic-block
1156 simply treat nodes we fail to build as externally defined
1157 (and thus build vectors from the scalar defs).
1158 The cost model will reject outright expensive cases.
1159 ??? This doesn't treat cases where permutation ultimatively
1160 fails (or we don't try permutation below). Ideally we'd
1161 even compute a permutation that will end up with the maximum
1163 if (is_a
<bb_vec_info
> (vinfo
)
1165 /* ??? Rejecting patterns this way doesn't work. We'd have to
1166 do extra work to cancel the pattern so the uses see the
1168 && !is_pattern_stmt_p (vinfo_for_stmt (stmt
)))
1170 dump_printf_loc (MSG_NOTE
, vect_location
,
1171 "Building vector operands from scalars\n");
1172 child
= vect_create_new_slp_node (oprnd_info
->def_stmts
);
1173 SLP_TREE_DEF_TYPE (child
) = vect_external_def
;
1174 children
.safe_push (child
);
1175 oprnd_info
->def_stmts
= vNULL
;
1179 /* If the SLP build for operand zero failed and operand zero
1180 and one can be commutated try that for the scalar stmts
1181 that failed the match. */
1183 /* A first scalar stmt mismatch signals a fatal mismatch. */
1185 /* ??? For COND_EXPRs we can swap the comparison operands
1186 as well as the arms under some constraints. */
1188 && oprnds_info
[1]->first_dt
== vect_internal_def
1189 && is_gimple_assign (stmt
)
1190 && commutative_tree_code (gimple_assign_rhs_code (stmt
))
1192 /* Do so only if the number of not successful permutes was nor more
1193 than a cut-ff as re-trying the recursive match on
1194 possibly each level of the tree would expose exponential
1198 /* Verify if we can safely swap or if we committed to a specific
1199 operand order already. */
1200 for (j
= 0; j
< group_size
; ++j
)
1203 || STMT_VINFO_NUM_SLP_USES (vinfo_for_stmt (stmts
[j
]))))
1205 if (dump_enabled_p ())
1207 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
1208 "Build SLP failed: cannot swap operands "
1210 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
1216 /* Swap mismatched definition stmts. */
1217 dump_printf_loc (MSG_NOTE
, vect_location
,
1218 "Re-trying with swapped operands of stmts ");
1219 for (j
= 0; j
< group_size
; ++j
)
1222 std::swap (oprnds_info
[0]->def_stmts
[j
],
1223 oprnds_info
[1]->def_stmts
[j
]);
1224 dump_printf (MSG_NOTE
, "%d ", j
);
1226 dump_printf (MSG_NOTE
, "\n");
1227 /* And try again with scratch 'matches' ... */
1228 bool *tem
= XALLOCAVEC (bool, group_size
);
1229 if ((child
= vect_build_slp_tree (vinfo
, oprnd_info
->def_stmts
,
1230 group_size
, &this_max_nunits
,
1231 &this_loads
, tem
, npermutes
,
1233 max_tree_size
)) != NULL
)
1235 /* ... so if successful we can apply the operand swapping
1236 to the GIMPLE IL. This is necessary because for example
1237 vect_get_slp_defs uses operand indexes and thus expects
1238 canonical operand order. This is also necessary even
1239 if we end up building the operand from scalars as
1240 we'll continue to process swapped operand two. */
1241 for (j
= 0; j
< group_size
; ++j
)
1243 gimple
*stmt
= stmts
[j
];
1244 gimple_set_plf (stmt
, GF_PLF_1
, false);
1246 for (j
= 0; j
< group_size
; ++j
)
1248 gimple
*stmt
= stmts
[j
];
1251 /* Avoid swapping operands twice. */
1252 if (gimple_plf (stmt
, GF_PLF_1
))
1254 swap_ssa_operands (stmt
, gimple_assign_rhs1_ptr (stmt
),
1255 gimple_assign_rhs2_ptr (stmt
));
1256 gimple_set_plf (stmt
, GF_PLF_1
, true);
1259 /* Verify we swap all duplicates or none. */
1261 for (j
= 0; j
< group_size
; ++j
)
1263 gimple
*stmt
= stmts
[j
];
1264 gcc_assert (gimple_plf (stmt
, GF_PLF_1
) == ! matches
[j
]);
1267 /* If we have all children of child built up from scalars then
1268 just throw that away and build it up this node from scalars. */
1269 if (!SLP_TREE_CHILDREN (child
).is_empty ()
1270 /* ??? Rejecting patterns this way doesn't work. We'd have
1271 to do extra work to cancel the pattern so the uses see the
1273 && !is_pattern_stmt_p
1274 (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (child
)[0])))
1277 slp_tree grandchild
;
1279 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (child
), j
, grandchild
)
1280 if (SLP_TREE_DEF_TYPE (grandchild
) == vect_internal_def
)
1285 this_loads
.truncate (old_nloads
);
1286 this_tree_size
= old_tree_size
;
1287 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (child
), j
, grandchild
)
1288 vect_free_slp_tree (grandchild
);
1289 SLP_TREE_CHILDREN (child
).truncate (0);
1291 dump_printf_loc (MSG_NOTE
, vect_location
,
1292 "Building parent vector operands from "
1293 "scalars instead\n");
1294 oprnd_info
->def_stmts
= vNULL
;
1295 SLP_TREE_DEF_TYPE (child
) = vect_external_def
;
1296 children
.safe_push (child
);
1301 oprnd_info
->def_stmts
= vNULL
;
1302 children
.safe_push (child
);
1310 gcc_assert (child
== NULL
);
1311 FOR_EACH_VEC_ELT (children
, j
, child
)
1312 vect_free_slp_tree (child
);
1313 vect_free_oprnd_info (oprnds_info
);
1317 vect_free_oprnd_info (oprnds_info
);
1320 *tree_size
+= this_tree_size
;
1321 *max_nunits
= this_max_nunits
;
1322 loads
->safe_splice (this_loads
);
1324 node
= vect_create_new_slp_node (stmts
);
1325 SLP_TREE_TWO_OPERATORS (node
) = two_operators
;
1326 SLP_TREE_CHILDREN (node
).splice (children
);
1330 /* Dump a slp tree NODE using flags specified in DUMP_KIND. */
1333 vect_print_slp_tree (dump_flags_t dump_kind
, location_t loc
, slp_tree node
)
1339 dump_printf_loc (dump_kind
, loc
, "node%s\n",
1340 SLP_TREE_DEF_TYPE (node
) != vect_internal_def
1341 ? " (external)" : "");
1342 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
1344 dump_printf_loc (dump_kind
, loc
, "\tstmt %d ", i
);
1345 dump_gimple_stmt (dump_kind
, TDF_SLIM
, stmt
, 0);
1347 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1348 vect_print_slp_tree (dump_kind
, loc
, child
);
1352 /* Mark the tree rooted at NODE with MARK (PURE_SLP or HYBRID).
1353 If MARK is HYBRID, it refers to a specific stmt in NODE (the stmt at index
1354 J). Otherwise, MARK is PURE_SLP and J is -1, which indicates that all the
1355 stmts in NODE are to be marked. */
1358 vect_mark_slp_stmts (slp_tree node
, enum slp_vect_type mark
, int j
)
1364 if (SLP_TREE_DEF_TYPE (node
) != vect_internal_def
)
1367 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
1368 if (j
< 0 || i
== j
)
1369 STMT_SLP_TYPE (vinfo_for_stmt (stmt
)) = mark
;
1371 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1372 vect_mark_slp_stmts (child
, mark
, j
);
1376 /* Mark the statements of the tree rooted at NODE as relevant (vect_used). */
1379 vect_mark_slp_stmts_relevant (slp_tree node
)
1383 stmt_vec_info stmt_info
;
1386 if (SLP_TREE_DEF_TYPE (node
) != vect_internal_def
)
1389 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
1391 stmt_info
= vinfo_for_stmt (stmt
);
1392 gcc_assert (!STMT_VINFO_RELEVANT (stmt_info
)
1393 || STMT_VINFO_RELEVANT (stmt_info
) == vect_used_in_scope
);
1394 STMT_VINFO_RELEVANT (stmt_info
) = vect_used_in_scope
;
1397 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1398 vect_mark_slp_stmts_relevant (child
);
1402 /* Rearrange the statements of NODE according to PERMUTATION. */
1405 vect_slp_rearrange_stmts (slp_tree node
, unsigned int group_size
,
1406 vec
<unsigned> permutation
)
1409 vec
<gimple
*> tmp_stmts
;
1413 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1414 vect_slp_rearrange_stmts (child
, group_size
, permutation
);
1416 gcc_assert (group_size
== SLP_TREE_SCALAR_STMTS (node
).length ());
1417 tmp_stmts
.create (group_size
);
1418 tmp_stmts
.quick_grow_cleared (group_size
);
1420 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
1421 tmp_stmts
[permutation
[i
]] = stmt
;
1423 SLP_TREE_SCALAR_STMTS (node
).release ();
1424 SLP_TREE_SCALAR_STMTS (node
) = tmp_stmts
;
1428 /* Attempt to reorder stmts in a reduction chain so that we don't
1429 require any load permutation. Return true if that was possible,
1430 otherwise return false. */
1433 vect_attempt_slp_rearrange_stmts (slp_instance slp_instn
)
1435 unsigned int group_size
= SLP_INSTANCE_GROUP_SIZE (slp_instn
);
1438 slp_tree node
, load
;
1440 /* Compare all the permutation sequences to the first one. We know
1441 that at least one load is permuted. */
1442 node
= SLP_INSTANCE_LOADS (slp_instn
)[0];
1443 if (!node
->load_permutation
.exists ())
1445 for (i
= 1; SLP_INSTANCE_LOADS (slp_instn
).iterate (i
, &load
); ++i
)
1447 if (!load
->load_permutation
.exists ())
1449 FOR_EACH_VEC_ELT (load
->load_permutation
, j
, lidx
)
1450 if (lidx
!= node
->load_permutation
[j
])
1454 /* Check that the loads in the first sequence are different and there
1455 are no gaps between them. */
1456 auto_sbitmap
load_index (group_size
);
1457 bitmap_clear (load_index
);
1458 FOR_EACH_VEC_ELT (node
->load_permutation
, i
, lidx
)
1460 if (lidx
>= group_size
)
1462 if (bitmap_bit_p (load_index
, lidx
))
1465 bitmap_set_bit (load_index
, lidx
);
1467 for (i
= 0; i
< group_size
; i
++)
1468 if (!bitmap_bit_p (load_index
, i
))
1471 /* This permutation is valid for reduction. Since the order of the
1472 statements in the nodes is not important unless they are memory
1473 accesses, we can rearrange the statements in all the nodes
1474 according to the order of the loads. */
1475 vect_slp_rearrange_stmts (SLP_INSTANCE_TREE (slp_instn
), group_size
,
1476 node
->load_permutation
);
1478 /* We are done, no actual permutations need to be generated. */
1479 unsigned int unrolling_factor
= SLP_INSTANCE_UNROLLING_FACTOR (slp_instn
);
1480 FOR_EACH_VEC_ELT (SLP_INSTANCE_LOADS (slp_instn
), i
, node
)
1482 gimple
*first_stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
1483 first_stmt
= GROUP_FIRST_ELEMENT (vinfo_for_stmt (first_stmt
));
1484 /* But we have to keep those permutations that are required because
1485 of handling of gaps. */
1486 if (unrolling_factor
== 1
1487 || (group_size
== GROUP_SIZE (vinfo_for_stmt (first_stmt
))
1488 && GROUP_GAP (vinfo_for_stmt (first_stmt
)) == 0))
1489 SLP_TREE_LOAD_PERMUTATION (node
).release ();
1491 for (j
= 0; j
< SLP_TREE_LOAD_PERMUTATION (node
).length (); ++j
)
1492 SLP_TREE_LOAD_PERMUTATION (node
)[j
] = j
;
1498 /* Check if the required load permutations in the SLP instance
1499 SLP_INSTN are supported. */
1502 vect_supported_load_permutation_p (slp_instance slp_instn
)
1504 unsigned int group_size
= SLP_INSTANCE_GROUP_SIZE (slp_instn
);
1505 unsigned int i
, j
, k
, next
;
1507 gimple
*stmt
, *load
, *next_load
;
1509 if (dump_enabled_p ())
1511 dump_printf_loc (MSG_NOTE
, vect_location
, "Load permutation ");
1512 FOR_EACH_VEC_ELT (SLP_INSTANCE_LOADS (slp_instn
), i
, node
)
1513 if (node
->load_permutation
.exists ())
1514 FOR_EACH_VEC_ELT (node
->load_permutation
, j
, next
)
1515 dump_printf (MSG_NOTE
, "%d ", next
);
1517 for (k
= 0; k
< group_size
; ++k
)
1518 dump_printf (MSG_NOTE
, "%d ", k
);
1519 dump_printf (MSG_NOTE
, "\n");
1522 /* In case of reduction every load permutation is allowed, since the order
1523 of the reduction statements is not important (as opposed to the case of
1524 grouped stores). The only condition we need to check is that all the
1525 load nodes are of the same size and have the same permutation (and then
1526 rearrange all the nodes of the SLP instance according to this
1529 /* Check that all the load nodes are of the same size. */
1530 /* ??? Can't we assert this? */
1531 FOR_EACH_VEC_ELT (SLP_INSTANCE_LOADS (slp_instn
), i
, node
)
1532 if (SLP_TREE_SCALAR_STMTS (node
).length () != (unsigned) group_size
)
1535 node
= SLP_INSTANCE_TREE (slp_instn
);
1536 stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
1538 /* Reduction (there are no data-refs in the root).
1539 In reduction chain the order of the loads is not important. */
1540 if (!STMT_VINFO_DATA_REF (vinfo_for_stmt (stmt
))
1541 && !GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)))
1542 vect_attempt_slp_rearrange_stmts (slp_instn
);
1544 /* In basic block vectorization we allow any subchain of an interleaving
1546 FORNOW: not supported in loop SLP because of realignment compications. */
1547 if (STMT_VINFO_BB_VINFO (vinfo_for_stmt (stmt
)))
1549 /* Check whether the loads in an instance form a subchain and thus
1550 no permutation is necessary. */
1551 FOR_EACH_VEC_ELT (SLP_INSTANCE_LOADS (slp_instn
), i
, node
)
1553 if (!SLP_TREE_LOAD_PERMUTATION (node
).exists ())
1555 bool subchain_p
= true;
1557 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), j
, load
)
1560 && (next_load
!= load
1561 || GROUP_GAP (vinfo_for_stmt (load
)) != 1))
1566 next_load
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (load
));
1569 SLP_TREE_LOAD_PERMUTATION (node
).release ();
1572 stmt_vec_info group_info
1573 = vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (node
)[0]);
1574 group_info
= vinfo_for_stmt (GROUP_FIRST_ELEMENT (group_info
));
1576 = TYPE_VECTOR_SUBPARTS (STMT_VINFO_VECTYPE (group_info
));
1577 unsigned k
, maxk
= 0;
1578 FOR_EACH_VEC_ELT (SLP_TREE_LOAD_PERMUTATION (node
), j
, k
)
1581 /* In BB vectorization we may not actually use a loaded vector
1582 accessing elements in excess of GROUP_SIZE. */
1583 if (maxk
>= (GROUP_SIZE (group_info
) & ~(nunits
- 1)))
1585 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
1586 "BB vectorization with gaps at the end of "
1587 "a load is not supported\n");
1591 /* Verify the permutation can be generated. */
1594 if (!vect_transform_slp_perm_load (node
, tem
, NULL
,
1595 1, slp_instn
, true, &n_perms
))
1597 dump_printf_loc (MSG_MISSED_OPTIMIZATION
,
1599 "unsupported load permutation\n");
1607 /* For loop vectorization verify we can generate the permutation. */
1609 FOR_EACH_VEC_ELT (SLP_INSTANCE_LOADS (slp_instn
), i
, node
)
1610 if (node
->load_permutation
.exists ()
1611 && !vect_transform_slp_perm_load
1613 SLP_INSTANCE_UNROLLING_FACTOR (slp_instn
), slp_instn
, true,
1621 /* Find the last store in SLP INSTANCE. */
1624 vect_find_last_scalar_stmt_in_slp (slp_tree node
)
1626 gimple
*last
= NULL
, *stmt
;
1628 for (int i
= 0; SLP_TREE_SCALAR_STMTS (node
).iterate (i
, &stmt
); i
++)
1630 stmt_vec_info stmt_vinfo
= vinfo_for_stmt (stmt
);
1631 if (is_pattern_stmt_p (stmt_vinfo
))
1632 last
= get_later_stmt (STMT_VINFO_RELATED_STMT (stmt_vinfo
), last
);
1634 last
= get_later_stmt (stmt
, last
);
1640 /* Compute the cost for the SLP node NODE in the SLP instance INSTANCE. */
1643 vect_analyze_slp_cost_1 (slp_instance instance
, slp_tree node
,
1644 stmt_vector_for_cost
*prologue_cost_vec
,
1645 stmt_vector_for_cost
*body_cost_vec
,
1646 unsigned ncopies_for_cost
)
1651 stmt_vec_info stmt_info
;
1654 /* Recurse down the SLP tree. */
1655 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1656 if (SLP_TREE_DEF_TYPE (child
) == vect_internal_def
)
1657 vect_analyze_slp_cost_1 (instance
, child
, prologue_cost_vec
,
1658 body_cost_vec
, ncopies_for_cost
);
1660 /* Look at the first scalar stmt to determine the cost. */
1661 stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
1662 stmt_info
= vinfo_for_stmt (stmt
);
1663 if (STMT_VINFO_GROUPED_ACCESS (stmt_info
))
1665 vect_memory_access_type memory_access_type
1666 = (STMT_VINFO_STRIDED_P (stmt_info
)
1669 if (DR_IS_WRITE (STMT_VINFO_DATA_REF (stmt_info
)))
1670 vect_model_store_cost (stmt_info
, ncopies_for_cost
,
1671 memory_access_type
, vect_uninitialized_def
,
1672 node
, prologue_cost_vec
, body_cost_vec
);
1675 gcc_checking_assert (DR_IS_READ (STMT_VINFO_DATA_REF (stmt_info
)));
1676 if (SLP_TREE_LOAD_PERMUTATION (node
).exists ())
1678 /* If the load is permuted then the alignment is determined by
1679 the first group element not by the first scalar stmt DR. */
1680 stmt
= GROUP_FIRST_ELEMENT (stmt_info
);
1681 stmt_info
= vinfo_for_stmt (stmt
);
1682 /* Record the cost for the permutation. */
1684 vect_transform_slp_perm_load (node
, vNULL
, NULL
,
1685 ncopies_for_cost
, instance
, true,
1687 record_stmt_cost (body_cost_vec
, n_perms
, vec_perm
,
1688 stmt_info
, 0, vect_body
);
1690 = TYPE_VECTOR_SUBPARTS (STMT_VINFO_VECTYPE (stmt_info
));
1691 /* And adjust the number of loads performed. This handles
1692 redundancies as well as loads that are later dead. */
1693 auto_sbitmap
perm (GROUP_SIZE (stmt_info
));
1694 bitmap_clear (perm
);
1695 for (i
= 0; i
< SLP_TREE_LOAD_PERMUTATION (node
).length (); ++i
)
1696 bitmap_set_bit (perm
, SLP_TREE_LOAD_PERMUTATION (node
)[i
]);
1697 ncopies_for_cost
= 0;
1698 bool load_seen
= false;
1699 for (i
= 0; i
< GROUP_SIZE (stmt_info
); ++i
)
1701 if (i
% nunits
== 0)
1707 if (bitmap_bit_p (perm
, i
))
1712 gcc_assert (ncopies_for_cost
1713 <= (GROUP_SIZE (stmt_info
) - GROUP_GAP (stmt_info
)
1714 + nunits
- 1) / nunits
);
1715 ncopies_for_cost
*= SLP_INSTANCE_UNROLLING_FACTOR (instance
);
1717 /* Record the cost for the vector loads. */
1718 vect_model_load_cost (stmt_info
, ncopies_for_cost
,
1719 memory_access_type
, node
, prologue_cost_vec
,
1724 else if (STMT_VINFO_TYPE (stmt_info
) == induc_vec_info_type
)
1726 /* ncopies_for_cost is the number of IVs we generate. */
1727 record_stmt_cost (body_cost_vec
, ncopies_for_cost
, vector_stmt
,
1728 stmt_info
, 0, vect_body
);
1730 /* Prologue cost for the initial values and step vector. */
1731 record_stmt_cost (prologue_cost_vec
, ncopies_for_cost
,
1733 (STMT_VINFO_LOOP_PHI_EVOLUTION_BASE_UNCHANGED
1735 ? vector_load
: vec_construct
,
1736 stmt_info
, 0, vect_prologue
);
1737 record_stmt_cost (prologue_cost_vec
, 1,
1739 (STMT_VINFO_LOOP_PHI_EVOLUTION_PART (stmt_info
))
1740 ? vector_load
: vec_construct
,
1741 stmt_info
, 0, vect_prologue
);
1743 /* ??? No easy way to get at the actual number of vector stmts
1744 to be geneated and thus the derived IVs. */
1748 record_stmt_cost (body_cost_vec
, ncopies_for_cost
, vector_stmt
,
1749 stmt_info
, 0, vect_body
);
1750 if (SLP_TREE_TWO_OPERATORS (node
))
1752 record_stmt_cost (body_cost_vec
, ncopies_for_cost
, vector_stmt
,
1753 stmt_info
, 0, vect_body
);
1754 record_stmt_cost (body_cost_vec
, ncopies_for_cost
, vec_perm
,
1755 stmt_info
, 0, vect_body
);
1759 /* Push SLP node def-type to stmts. */
1760 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1761 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
1762 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (child
), j
, stmt
)
1763 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) = SLP_TREE_DEF_TYPE (child
);
1765 /* Scan operands and account for prologue cost of constants/externals.
1766 ??? This over-estimates cost for multiple uses and should be
1768 stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
1769 lhs
= gimple_get_lhs (stmt
);
1770 for (i
= 0; i
< gimple_num_ops (stmt
); ++i
)
1772 tree op
= gimple_op (stmt
, i
);
1774 enum vect_def_type dt
;
1775 if (!op
|| op
== lhs
)
1777 if (vect_is_simple_use (op
, stmt_info
->vinfo
, &def_stmt
, &dt
))
1779 /* Without looking at the actual initializer a vector of
1780 constants can be implemented as load from the constant pool.
1781 ??? We need to pass down stmt_info for a vector type
1782 even if it points to the wrong stmt. */
1783 if (dt
== vect_constant_def
)
1784 record_stmt_cost (prologue_cost_vec
, 1, vector_load
,
1785 stmt_info
, 0, vect_prologue
);
1786 else if (dt
== vect_external_def
)
1787 record_stmt_cost (prologue_cost_vec
, 1, vec_construct
,
1788 stmt_info
, 0, vect_prologue
);
1792 /* Restore stmt def-types. */
1793 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
1794 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
1795 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (child
), j
, stmt
)
1796 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) = vect_internal_def
;
1799 /* Compute the cost for the SLP instance INSTANCE. */
1802 vect_analyze_slp_cost (slp_instance instance
, void *data
)
1804 stmt_vector_for_cost body_cost_vec
, prologue_cost_vec
;
1805 unsigned ncopies_for_cost
;
1806 stmt_info_for_cost
*si
;
1809 if (dump_enabled_p ())
1810 dump_printf_loc (MSG_NOTE
, vect_location
,
1811 "=== vect_analyze_slp_cost ===\n");
1813 /* Calculate the number of vector stmts to create based on the unrolling
1814 factor (number of vectors is 1 if NUNITS >= GROUP_SIZE, and is
1815 GROUP_SIZE / NUNITS otherwise. */
1816 unsigned group_size
= SLP_INSTANCE_GROUP_SIZE (instance
);
1817 slp_tree node
= SLP_INSTANCE_TREE (instance
);
1818 stmt_vec_info stmt_info
= vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (node
)[0]);
1819 /* Adjust the group_size by the vectorization factor which is always one
1820 for basic-block vectorization. */
1821 if (STMT_VINFO_LOOP_VINFO (stmt_info
))
1822 group_size
*= LOOP_VINFO_VECT_FACTOR (STMT_VINFO_LOOP_VINFO (stmt_info
));
1823 unsigned nunits
= TYPE_VECTOR_SUBPARTS (STMT_VINFO_VECTYPE (stmt_info
));
1824 /* For reductions look at a reduction operand in case the reduction
1825 operation is widening like DOT_PROD or SAD. */
1826 if (!STMT_VINFO_GROUPED_ACCESS (stmt_info
))
1828 gimple
*stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
1829 switch (gimple_assign_rhs_code (stmt
))
1833 nunits
= TYPE_VECTOR_SUBPARTS (get_vectype_for_scalar_type
1834 (TREE_TYPE (gimple_assign_rhs1 (stmt
))));
1839 ncopies_for_cost
= least_common_multiple (nunits
, group_size
) / nunits
;
1841 prologue_cost_vec
.create (10);
1842 body_cost_vec
.create (10);
1843 vect_analyze_slp_cost_1 (instance
, SLP_INSTANCE_TREE (instance
),
1844 &prologue_cost_vec
, &body_cost_vec
,
1847 /* Record the prologue costs, which were delayed until we were
1848 sure that SLP was successful. */
1849 FOR_EACH_VEC_ELT (prologue_cost_vec
, i
, si
)
1851 struct _stmt_vec_info
*stmt_info
1852 = si
->stmt
? vinfo_for_stmt (si
->stmt
) : NULL
;
1853 (void) add_stmt_cost (data
, si
->count
, si
->kind
, stmt_info
,
1854 si
->misalign
, vect_prologue
);
1857 /* Record the instance's instructions in the target cost model. */
1858 FOR_EACH_VEC_ELT (body_cost_vec
, i
, si
)
1860 struct _stmt_vec_info
*stmt_info
1861 = si
->stmt
? vinfo_for_stmt (si
->stmt
) : NULL
;
1862 (void) add_stmt_cost (data
, si
->count
, si
->kind
, stmt_info
,
1863 si
->misalign
, vect_body
);
1866 prologue_cost_vec
.release ();
1867 body_cost_vec
.release ();
1870 /* Splits a group of stores, currently beginning at FIRST_STMT, into two groups:
1871 one (still beginning at FIRST_STMT) of size GROUP1_SIZE (also containing
1872 the first GROUP1_SIZE stmts, since stores are consecutive), the second
1873 containing the remainder.
1874 Return the first stmt in the second group. */
1877 vect_split_slp_store_group (gimple
*first_stmt
, unsigned group1_size
)
1879 stmt_vec_info first_vinfo
= vinfo_for_stmt (first_stmt
);
1880 gcc_assert (GROUP_FIRST_ELEMENT (first_vinfo
) == first_stmt
);
1881 gcc_assert (group1_size
> 0);
1882 int group2_size
= GROUP_SIZE (first_vinfo
) - group1_size
;
1883 gcc_assert (group2_size
> 0);
1884 GROUP_SIZE (first_vinfo
) = group1_size
;
1886 gimple
*stmt
= first_stmt
;
1887 for (unsigned i
= group1_size
; i
> 1; i
--)
1889 stmt
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (stmt
));
1890 gcc_assert (GROUP_GAP (vinfo_for_stmt (stmt
)) == 1);
1892 /* STMT is now the last element of the first group. */
1893 gimple
*group2
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (stmt
));
1894 GROUP_NEXT_ELEMENT (vinfo_for_stmt (stmt
)) = 0;
1896 GROUP_SIZE (vinfo_for_stmt (group2
)) = group2_size
;
1897 for (stmt
= group2
; stmt
; stmt
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (stmt
)))
1899 GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)) = group2
;
1900 gcc_assert (GROUP_GAP (vinfo_for_stmt (stmt
)) == 1);
1903 /* For the second group, the GROUP_GAP is that before the original group,
1904 plus skipping over the first vector. */
1905 GROUP_GAP (vinfo_for_stmt (group2
)) =
1906 GROUP_GAP (first_vinfo
) + group1_size
;
1908 /* GROUP_GAP of the first group now has to skip over the second group too. */
1909 GROUP_GAP (first_vinfo
) += group2_size
;
1911 if (dump_enabled_p ())
1912 dump_printf_loc (MSG_NOTE
, vect_location
, "Split group into %d and %d\n",
1913 group1_size
, group2_size
);
1918 /* Analyze an SLP instance starting from a group of grouped stores. Call
1919 vect_build_slp_tree to build a tree of packed stmts if possible.
1920 Return FALSE if it's impossible to SLP any stmt in the loop. */
1923 vect_analyze_slp_instance (vec_info
*vinfo
,
1924 gimple
*stmt
, unsigned max_tree_size
)
1926 slp_instance new_instance
;
1928 unsigned int group_size
= GROUP_SIZE (vinfo_for_stmt (stmt
));
1929 unsigned int unrolling_factor
= 1, nunits
;
1930 tree vectype
, scalar_type
= NULL_TREE
;
1933 unsigned int max_nunits
= 0;
1934 vec
<slp_tree
> loads
;
1935 struct data_reference
*dr
= STMT_VINFO_DATA_REF (vinfo_for_stmt (stmt
));
1936 vec
<gimple
*> scalar_stmts
;
1938 if (GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)))
1942 scalar_type
= TREE_TYPE (DR_REF (dr
));
1943 vectype
= get_vectype_for_scalar_type (scalar_type
);
1947 gcc_assert (is_a
<loop_vec_info
> (vinfo
));
1948 vectype
= STMT_VINFO_VECTYPE (vinfo_for_stmt (stmt
));
1951 group_size
= GROUP_SIZE (vinfo_for_stmt (stmt
));
1955 gcc_assert (is_a
<loop_vec_info
> (vinfo
));
1956 vectype
= STMT_VINFO_VECTYPE (vinfo_for_stmt (stmt
));
1957 group_size
= as_a
<loop_vec_info
> (vinfo
)->reductions
.length ();
1962 if (dump_enabled_p ())
1964 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
1965 "Build SLP failed: unsupported data-type ");
1966 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
, scalar_type
);
1967 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
1972 nunits
= TYPE_VECTOR_SUBPARTS (vectype
);
1974 /* Create a node (a root of the SLP tree) for the packed grouped stores. */
1975 scalar_stmts
.create (group_size
);
1977 if (GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
)))
1979 /* Collect the stores and store them in SLP_TREE_SCALAR_STMTS. */
1982 if (STMT_VINFO_IN_PATTERN_P (vinfo_for_stmt (next
))
1983 && STMT_VINFO_RELATED_STMT (vinfo_for_stmt (next
)))
1984 scalar_stmts
.safe_push (
1985 STMT_VINFO_RELATED_STMT (vinfo_for_stmt (next
)));
1987 scalar_stmts
.safe_push (next
);
1988 next
= GROUP_NEXT_ELEMENT (vinfo_for_stmt (next
));
1990 /* Mark the first element of the reduction chain as reduction to properly
1991 transform the node. In the reduction analysis phase only the last
1992 element of the chain is marked as reduction. */
1993 if (!STMT_VINFO_GROUPED_ACCESS (vinfo_for_stmt (stmt
)))
1994 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) = vect_reduction_def
;
1998 /* Collect reduction statements. */
1999 vec
<gimple
*> reductions
= as_a
<loop_vec_info
> (vinfo
)->reductions
;
2000 for (i
= 0; reductions
.iterate (i
, &next
); i
++)
2001 scalar_stmts
.safe_push (next
);
2004 loads
.create (group_size
);
2006 /* Build the tree for the SLP instance. */
2007 bool *matches
= XALLOCAVEC (bool, group_size
);
2008 unsigned npermutes
= 0;
2009 bst_fail
= new hash_set
<vec
<gimple
*>, bst_traits
> ();
2010 node
= vect_build_slp_tree (vinfo
, scalar_stmts
, group_size
,
2011 &max_nunits
, &loads
, matches
, &npermutes
,
2012 NULL
, max_tree_size
);
2016 /* Calculate the unrolling factor based on the smallest type. */
2018 = least_common_multiple (max_nunits
, group_size
) / group_size
;
2020 if (unrolling_factor
!= 1
2021 && is_a
<bb_vec_info
> (vinfo
))
2024 if (max_nunits
> group_size
)
2026 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2027 "Build SLP failed: store group "
2028 "size not a multiple of the vector size "
2029 "in basic block SLP\n");
2030 vect_free_slp_tree (node
);
2034 /* Fatal mismatch. */
2035 matches
[group_size
/max_nunits
* max_nunits
] = false;
2036 vect_free_slp_tree (node
);
2041 /* Create a new SLP instance. */
2042 new_instance
= XNEW (struct _slp_instance
);
2043 SLP_INSTANCE_TREE (new_instance
) = node
;
2044 SLP_INSTANCE_GROUP_SIZE (new_instance
) = group_size
;
2045 SLP_INSTANCE_UNROLLING_FACTOR (new_instance
) = unrolling_factor
;
2046 SLP_INSTANCE_LOADS (new_instance
) = loads
;
2048 /* Compute the load permutation. */
2050 bool loads_permuted
= false;
2051 FOR_EACH_VEC_ELT (loads
, i
, load_node
)
2053 vec
<unsigned> load_permutation
;
2055 gimple
*load
, *first_stmt
;
2056 bool this_load_permuted
= false;
2057 load_permutation
.create (group_size
);
2058 first_stmt
= GROUP_FIRST_ELEMENT
2059 (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (load_node
)[0]));
2060 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (load_node
), j
, load
)
2062 int load_place
= vect_get_place_in_interleaving_chain
2064 gcc_assert (load_place
!= -1);
2065 if (load_place
!= j
)
2066 this_load_permuted
= true;
2067 load_permutation
.safe_push (load_place
);
2069 if (!this_load_permuted
2070 /* The load requires permutation when unrolling exposes
2071 a gap either because the group is larger than the SLP
2072 group-size or because there is a gap between the groups. */
2073 && (unrolling_factor
== 1
2074 || (group_size
== GROUP_SIZE (vinfo_for_stmt (first_stmt
))
2075 && GROUP_GAP (vinfo_for_stmt (first_stmt
)) == 0)))
2077 load_permutation
.release ();
2080 SLP_TREE_LOAD_PERMUTATION (load_node
) = load_permutation
;
2081 loads_permuted
= true;
2086 if (!vect_supported_load_permutation_p (new_instance
))
2088 if (dump_enabled_p ())
2090 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2091 "Build SLP failed: unsupported load "
2093 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
,
2096 vect_free_slp_instance (new_instance
);
2101 /* If the loads and stores can be handled with load/store-lan
2102 instructions do not generate this SLP instance. */
2103 if (is_a
<loop_vec_info
> (vinfo
)
2105 && dr
&& vect_store_lanes_supported (vectype
, group_size
))
2108 FOR_EACH_VEC_ELT (loads
, i
, load_node
)
2110 gimple
*first_stmt
= GROUP_FIRST_ELEMENT
2111 (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (load_node
)[0]));
2112 stmt_vec_info stmt_vinfo
= vinfo_for_stmt (first_stmt
);
2113 /* Use SLP for strided accesses (or if we
2114 can't load-lanes). */
2115 if (STMT_VINFO_STRIDED_P (stmt_vinfo
)
2116 || ! vect_load_lanes_supported
2117 (STMT_VINFO_VECTYPE (stmt_vinfo
),
2118 GROUP_SIZE (stmt_vinfo
)))
2121 if (i
== loads
.length ())
2123 if (dump_enabled_p ())
2124 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2125 "Built SLP cancelled: can use "
2126 "load/store-lanes\n");
2127 vect_free_slp_instance (new_instance
);
2132 vinfo
->slp_instances
.safe_push (new_instance
);
2134 if (dump_enabled_p ())
2136 dump_printf_loc (MSG_NOTE
, vect_location
,
2137 "Final SLP tree for instance:\n");
2138 vect_print_slp_tree (MSG_NOTE
, vect_location
, node
);
2146 /* Failed to SLP. */
2147 /* Free the allocated memory. */
2148 scalar_stmts
.release ();
2152 /* For basic block SLP, try to break the group up into multiples of the
2154 if (is_a
<bb_vec_info
> (vinfo
)
2155 && GROUP_FIRST_ELEMENT (vinfo_for_stmt (stmt
))
2156 && STMT_VINFO_GROUPED_ACCESS (vinfo_for_stmt (stmt
)))
2158 /* We consider breaking the group only on VF boundaries from the existing
2160 for (i
= 0; i
< group_size
; i
++)
2161 if (!matches
[i
]) break;
2163 if (i
>= nunits
&& i
< group_size
)
2165 /* Split into two groups at the first vector boundary before i. */
2166 gcc_assert ((nunits
& (nunits
- 1)) == 0);
2167 unsigned group1_size
= i
& ~(nunits
- 1);
2169 gimple
*rest
= vect_split_slp_store_group (stmt
, group1_size
);
2170 bool res
= vect_analyze_slp_instance (vinfo
, stmt
, max_tree_size
);
2171 /* If the first non-match was in the middle of a vector,
2172 skip the rest of that vector. */
2173 if (group1_size
< i
)
2175 i
= group1_size
+ nunits
;
2177 rest
= vect_split_slp_store_group (rest
, nunits
);
2180 res
|= vect_analyze_slp_instance (vinfo
, rest
, max_tree_size
);
2183 /* Even though the first vector did not all match, we might be able to SLP
2184 (some) of the remainder. FORNOW ignore this possibility. */
2191 /* Check if there are stmts in the loop can be vectorized using SLP. Build SLP
2192 trees of packed scalar stmts if SLP is possible. */
2195 vect_analyze_slp (vec_info
*vinfo
, unsigned max_tree_size
)
2198 gimple
*first_element
;
2200 if (dump_enabled_p ())
2201 dump_printf_loc (MSG_NOTE
, vect_location
, "=== vect_analyze_slp ===\n");
2203 /* Find SLP sequences starting from groups of grouped stores. */
2204 FOR_EACH_VEC_ELT (vinfo
->grouped_stores
, i
, first_element
)
2205 vect_analyze_slp_instance (vinfo
, first_element
, max_tree_size
);
2207 if (loop_vec_info loop_vinfo
= dyn_cast
<loop_vec_info
> (vinfo
))
2209 if (loop_vinfo
->reduction_chains
.length () > 0)
2211 /* Find SLP sequences starting from reduction chains. */
2212 FOR_EACH_VEC_ELT (loop_vinfo
->reduction_chains
, i
, first_element
)
2213 if (! vect_analyze_slp_instance (vinfo
, first_element
,
2216 /* Dissolve reduction chain group. */
2217 gimple
*next
, *stmt
= first_element
;
2220 stmt_vec_info vinfo
= vinfo_for_stmt (stmt
);
2221 next
= GROUP_NEXT_ELEMENT (vinfo
);
2222 GROUP_FIRST_ELEMENT (vinfo
) = NULL
;
2223 GROUP_NEXT_ELEMENT (vinfo
) = NULL
;
2226 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (first_element
))
2227 = vect_internal_def
;
2231 /* Find SLP sequences starting from groups of reductions. */
2232 if (loop_vinfo
->reductions
.length () > 1)
2233 vect_analyze_slp_instance (vinfo
, loop_vinfo
->reductions
[0],
2241 /* For each possible SLP instance decide whether to SLP it and calculate overall
2242 unrolling factor needed to SLP the loop. Return TRUE if decided to SLP at
2243 least one instance. */
2246 vect_make_slp_decision (loop_vec_info loop_vinfo
)
2248 unsigned int i
, unrolling_factor
= 1;
2249 vec
<slp_instance
> slp_instances
= LOOP_VINFO_SLP_INSTANCES (loop_vinfo
);
2250 slp_instance instance
;
2251 int decided_to_slp
= 0;
2253 if (dump_enabled_p ())
2254 dump_printf_loc (MSG_NOTE
, vect_location
, "=== vect_make_slp_decision ==="
2257 FOR_EACH_VEC_ELT (slp_instances
, i
, instance
)
2259 /* FORNOW: SLP if you can. */
2260 if (unrolling_factor
< SLP_INSTANCE_UNROLLING_FACTOR (instance
))
2261 unrolling_factor
= SLP_INSTANCE_UNROLLING_FACTOR (instance
);
2263 /* Mark all the stmts that belong to INSTANCE as PURE_SLP stmts. Later we
2264 call vect_detect_hybrid_slp () to find stmts that need hybrid SLP and
2265 loop-based vectorization. Such stmts will be marked as HYBRID. */
2266 vect_mark_slp_stmts (SLP_INSTANCE_TREE (instance
), pure_slp
, -1);
2270 LOOP_VINFO_SLP_UNROLLING_FACTOR (loop_vinfo
) = unrolling_factor
;
2272 if (decided_to_slp
&& dump_enabled_p ())
2273 dump_printf_loc (MSG_NOTE
, vect_location
,
2274 "Decided to SLP %d instances. Unrolling factor %d\n",
2275 decided_to_slp
, unrolling_factor
);
2277 return (decided_to_slp
> 0);
2281 /* Find stmts that must be both vectorized and SLPed (since they feed stmts that
2282 can't be SLPed) in the tree rooted at NODE. Mark such stmts as HYBRID. */
2285 vect_detect_hybrid_slp_stmts (slp_tree node
, unsigned i
, slp_vect_type stype
)
2287 gimple
*stmt
= SLP_TREE_SCALAR_STMTS (node
)[i
];
2288 imm_use_iterator imm_iter
;
2290 stmt_vec_info use_vinfo
, stmt_vinfo
= vinfo_for_stmt (stmt
);
2292 loop_vec_info loop_vinfo
= STMT_VINFO_LOOP_VINFO (stmt_vinfo
);
2293 struct loop
*loop
= LOOP_VINFO_LOOP (loop_vinfo
);
2296 /* Propagate hybrid down the SLP tree. */
2297 if (stype
== hybrid
)
2299 else if (HYBRID_SLP_STMT (stmt_vinfo
))
2303 /* Check if a pure SLP stmt has uses in non-SLP stmts. */
2304 gcc_checking_assert (PURE_SLP_STMT (stmt_vinfo
));
2305 /* If we get a pattern stmt here we have to use the LHS of the
2306 original stmt for immediate uses. */
2307 if (! STMT_VINFO_IN_PATTERN_P (stmt_vinfo
)
2308 && STMT_VINFO_RELATED_STMT (stmt_vinfo
))
2309 stmt
= STMT_VINFO_RELATED_STMT (stmt_vinfo
);
2311 if (gimple_code (stmt
) == GIMPLE_PHI
)
2312 def
= gimple_phi_result (stmt
);
2314 def
= SINGLE_SSA_TREE_OPERAND (stmt
, SSA_OP_DEF
);
2316 FOR_EACH_IMM_USE_STMT (use_stmt
, imm_iter
, def
)
2318 if (!flow_bb_inside_loop_p (loop
, gimple_bb (use_stmt
)))
2320 use_vinfo
= vinfo_for_stmt (use_stmt
);
2321 if (STMT_VINFO_IN_PATTERN_P (use_vinfo
)
2322 && STMT_VINFO_RELATED_STMT (use_vinfo
))
2323 use_vinfo
= vinfo_for_stmt (STMT_VINFO_RELATED_STMT (use_vinfo
));
2324 if (!STMT_SLP_TYPE (use_vinfo
)
2325 && (STMT_VINFO_RELEVANT (use_vinfo
)
2326 || VECTORIZABLE_CYCLE_DEF (STMT_VINFO_DEF_TYPE (use_vinfo
)))
2327 && !(gimple_code (use_stmt
) == GIMPLE_PHI
2328 && STMT_VINFO_DEF_TYPE (use_vinfo
) == vect_reduction_def
))
2330 if (dump_enabled_p ())
2332 dump_printf_loc (MSG_NOTE
, vect_location
, "use of SLP "
2333 "def in non-SLP stmt: ");
2334 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, use_stmt
, 0);
2342 && !HYBRID_SLP_STMT (stmt_vinfo
))
2344 if (dump_enabled_p ())
2346 dump_printf_loc (MSG_NOTE
, vect_location
, "marking hybrid: ");
2347 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, stmt
, 0);
2349 STMT_SLP_TYPE (stmt_vinfo
) = hybrid
;
2352 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), j
, child
)
2353 if (SLP_TREE_DEF_TYPE (child
) != vect_external_def
)
2354 vect_detect_hybrid_slp_stmts (child
, i
, stype
);
2357 /* Helpers for vect_detect_hybrid_slp walking pattern stmt uses. */
2360 vect_detect_hybrid_slp_1 (tree
*tp
, int *, void *data
)
2362 walk_stmt_info
*wi
= (walk_stmt_info
*)data
;
2363 struct loop
*loopp
= (struct loop
*)wi
->info
;
2368 if (TREE_CODE (*tp
) == SSA_NAME
2369 && !SSA_NAME_IS_DEFAULT_DEF (*tp
))
2371 gimple
*def_stmt
= SSA_NAME_DEF_STMT (*tp
);
2372 if (flow_bb_inside_loop_p (loopp
, gimple_bb (def_stmt
))
2373 && PURE_SLP_STMT (vinfo_for_stmt (def_stmt
)))
2375 if (dump_enabled_p ())
2377 dump_printf_loc (MSG_NOTE
, vect_location
, "marking hybrid: ");
2378 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, def_stmt
, 0);
2380 STMT_SLP_TYPE (vinfo_for_stmt (def_stmt
)) = hybrid
;
2388 vect_detect_hybrid_slp_2 (gimple_stmt_iterator
*gsi
, bool *handled
,
2391 stmt_vec_info use_vinfo
= vinfo_for_stmt (gsi_stmt (*gsi
));
2392 /* If the stmt is in a SLP instance then this isn't a reason
2393 to mark use definitions in other SLP instances as hybrid. */
2394 if (! STMT_SLP_TYPE (use_vinfo
)
2395 && (STMT_VINFO_RELEVANT (use_vinfo
)
2396 || VECTORIZABLE_CYCLE_DEF (STMT_VINFO_DEF_TYPE (use_vinfo
)))
2397 && ! (gimple_code (gsi_stmt (*gsi
)) == GIMPLE_PHI
2398 && STMT_VINFO_DEF_TYPE (use_vinfo
) == vect_reduction_def
))
2405 /* Find stmts that must be both vectorized and SLPed. */
2408 vect_detect_hybrid_slp (loop_vec_info loop_vinfo
)
2411 vec
<slp_instance
> slp_instances
= LOOP_VINFO_SLP_INSTANCES (loop_vinfo
);
2412 slp_instance instance
;
2414 if (dump_enabled_p ())
2415 dump_printf_loc (MSG_NOTE
, vect_location
, "=== vect_detect_hybrid_slp ==="
2418 /* First walk all pattern stmt in the loop and mark defs of uses as
2419 hybrid because immediate uses in them are not recorded. */
2420 for (i
= 0; i
< LOOP_VINFO_LOOP (loop_vinfo
)->num_nodes
; ++i
)
2422 basic_block bb
= LOOP_VINFO_BBS (loop_vinfo
)[i
];
2423 for (gimple_stmt_iterator gsi
= gsi_start_bb (bb
); !gsi_end_p (gsi
);
2426 gimple
*stmt
= gsi_stmt (gsi
);
2427 stmt_vec_info stmt_info
= vinfo_for_stmt (stmt
);
2428 if (STMT_VINFO_IN_PATTERN_P (stmt_info
))
2431 memset (&wi
, 0, sizeof (wi
));
2432 wi
.info
= LOOP_VINFO_LOOP (loop_vinfo
);
2433 gimple_stmt_iterator gsi2
2434 = gsi_for_stmt (STMT_VINFO_RELATED_STMT (stmt_info
));
2435 walk_gimple_stmt (&gsi2
, vect_detect_hybrid_slp_2
,
2436 vect_detect_hybrid_slp_1
, &wi
);
2437 walk_gimple_seq (STMT_VINFO_PATTERN_DEF_SEQ (stmt_info
),
2438 vect_detect_hybrid_slp_2
,
2439 vect_detect_hybrid_slp_1
, &wi
);
2444 /* Then walk the SLP instance trees marking stmts with uses in
2445 non-SLP stmts as hybrid, also propagating hybrid down the
2446 SLP tree, collecting the above info on-the-fly. */
2447 FOR_EACH_VEC_ELT (slp_instances
, i
, instance
)
2449 for (unsigned i
= 0; i
< SLP_INSTANCE_GROUP_SIZE (instance
); ++i
)
2450 vect_detect_hybrid_slp_stmts (SLP_INSTANCE_TREE (instance
),
2456 /* Initialize a bb_vec_info struct for the statements between
2457 REGION_BEGIN_IN (inclusive) and REGION_END_IN (exclusive). */
2459 _bb_vec_info::_bb_vec_info (gimple_stmt_iterator region_begin_in
,
2460 gimple_stmt_iterator region_end_in
)
2461 : vec_info (vec_info::bb
, init_cost (NULL
)),
2462 bb (gsi_bb (region_begin_in
)),
2463 region_begin (region_begin_in
),
2464 region_end (region_end_in
)
2466 gimple_stmt_iterator gsi
;
2468 for (gsi
= region_begin
; gsi_stmt (gsi
) != gsi_stmt (region_end
);
2471 gimple
*stmt
= gsi_stmt (gsi
);
2472 gimple_set_uid (stmt
, 0);
2473 set_vinfo_for_stmt (stmt
, new_stmt_vec_info (stmt
, this));
2480 /* Free BB_VINFO struct, as well as all the stmt_vec_info structs of all the
2481 stmts in the basic block. */
2483 _bb_vec_info::~_bb_vec_info ()
2485 for (gimple_stmt_iterator si
= region_begin
;
2486 gsi_stmt (si
) != gsi_stmt (region_end
); gsi_next (&si
))
2488 gimple
*stmt
= gsi_stmt (si
);
2489 stmt_vec_info stmt_info
= vinfo_for_stmt (stmt
);
2492 /* Free stmt_vec_info. */
2493 free_stmt_vec_info (stmt
);
2495 /* Reset region marker. */
2496 gimple_set_uid (stmt
, -1);
2503 /* Analyze statements contained in SLP tree node after recursively analyzing
2504 the subtree. Return TRUE if the operations are supported. */
2507 vect_slp_analyze_node_operations (slp_tree node
, slp_instance node_instance
)
2514 if (SLP_TREE_DEF_TYPE (node
) != vect_internal_def
)
2517 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
2518 if (!vect_slp_analyze_node_operations (child
, node_instance
))
2521 stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
2522 stmt_vec_info stmt_info
= vinfo_for_stmt (stmt
);
2523 gcc_assert (stmt_info
);
2524 gcc_assert (STMT_SLP_TYPE (stmt_info
) != loop_vect
);
2526 /* For BB vectorization vector types are assigned here.
2527 Memory accesses already got their vector type assigned
2528 in vect_analyze_data_refs. */
2529 bb_vec_info bb_vinfo
= STMT_VINFO_BB_VINFO (stmt_info
);
2531 && ! STMT_VINFO_DATA_REF (stmt_info
))
2533 gcc_assert (PURE_SLP_STMT (stmt_info
));
2535 tree scalar_type
= TREE_TYPE (gimple_get_lhs (stmt
));
2536 if (dump_enabled_p ())
2538 dump_printf_loc (MSG_NOTE
, vect_location
,
2539 "get vectype for scalar type: ");
2540 dump_generic_expr (MSG_NOTE
, TDF_SLIM
, scalar_type
);
2541 dump_printf (MSG_NOTE
, "\n");
2544 tree vectype
= get_vectype_for_scalar_type (scalar_type
);
2547 if (dump_enabled_p ())
2549 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2550 "not SLPed: unsupported data-type ");
2551 dump_generic_expr (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
2553 dump_printf (MSG_MISSED_OPTIMIZATION
, "\n");
2558 if (dump_enabled_p ())
2560 dump_printf_loc (MSG_NOTE
, vect_location
, "vectype: ");
2561 dump_generic_expr (MSG_NOTE
, TDF_SLIM
, vectype
);
2562 dump_printf (MSG_NOTE
, "\n");
2566 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, sstmt
)
2567 STMT_VINFO_VECTYPE (vinfo_for_stmt (sstmt
)) = vectype
;
2570 /* Push SLP node def-type to stmt operands. */
2571 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), j
, child
)
2572 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
2573 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (child
)[0]))
2574 = SLP_TREE_DEF_TYPE (child
);
2575 bool res
= vect_analyze_stmt (stmt
, &dummy
, node
, node_instance
);
2576 /* Restore def-types. */
2577 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), j
, child
)
2578 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
2579 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (SLP_TREE_SCALAR_STMTS (child
)[0]))
2580 = vect_internal_def
;
2588 /* Analyze statements in SLP instances of the basic block. Return TRUE if the
2589 operations are supported. */
2592 vect_slp_analyze_operations (vec
<slp_instance
> slp_instances
, void *data
)
2594 slp_instance instance
;
2597 if (dump_enabled_p ())
2598 dump_printf_loc (MSG_NOTE
, vect_location
,
2599 "=== vect_slp_analyze_operations ===\n");
2601 for (i
= 0; slp_instances
.iterate (i
, &instance
); )
2603 if (!vect_slp_analyze_node_operations (SLP_INSTANCE_TREE (instance
),
2606 dump_printf_loc (MSG_NOTE
, vect_location
,
2607 "removing SLP instance operations starting from: ");
2608 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
,
2609 SLP_TREE_SCALAR_STMTS
2610 (SLP_INSTANCE_TREE (instance
))[0], 0);
2611 vect_free_slp_instance (instance
);
2612 slp_instances
.ordered_remove (i
);
2616 /* Compute the costs of the SLP instance. */
2617 vect_analyze_slp_cost (instance
, data
);
2622 if (!slp_instances
.length ())
2629 /* Compute the scalar cost of the SLP node NODE and its children
2630 and return it. Do not account defs that are marked in LIFE and
2631 update LIFE according to uses of NODE. */
2634 vect_bb_slp_scalar_cost (basic_block bb
,
2635 slp_tree node
, vec
<bool, va_heap
> *life
)
2637 unsigned scalar_cost
= 0;
2642 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
2645 ssa_op_iter op_iter
;
2646 def_operand_p def_p
;
2647 stmt_vec_info stmt_info
;
2652 /* If there is a non-vectorized use of the defs then the scalar
2653 stmt is kept live in which case we do not account it or any
2654 required defs in the SLP children in the scalar cost. This
2655 way we make the vectorization more costly when compared to
2657 FOR_EACH_SSA_DEF_OPERAND (def_p
, stmt
, op_iter
, SSA_OP_DEF
)
2659 imm_use_iterator use_iter
;
2661 FOR_EACH_IMM_USE_STMT (use_stmt
, use_iter
, DEF_FROM_PTR (def_p
))
2662 if (!is_gimple_debug (use_stmt
)
2663 && (! vect_stmt_in_region_p (vinfo_for_stmt (stmt
)->vinfo
,
2665 || ! PURE_SLP_STMT (vinfo_for_stmt (use_stmt
))))
2668 BREAK_FROM_IMM_USE_STMT (use_iter
);
2674 /* Count scalar stmts only once. */
2675 if (gimple_visited_p (stmt
))
2677 gimple_set_visited (stmt
, true);
2679 stmt_info
= vinfo_for_stmt (stmt
);
2680 if (STMT_VINFO_DATA_REF (stmt_info
))
2682 if (DR_IS_READ (STMT_VINFO_DATA_REF (stmt_info
)))
2683 stmt_cost
= vect_get_stmt_cost (scalar_load
);
2685 stmt_cost
= vect_get_stmt_cost (scalar_store
);
2688 stmt_cost
= vect_get_stmt_cost (scalar_stmt
);
2690 scalar_cost
+= stmt_cost
;
2693 auto_vec
<bool, 20> subtree_life
;
2694 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
2696 if (SLP_TREE_DEF_TYPE (child
) == vect_internal_def
)
2698 /* Do not directly pass LIFE to the recursive call, copy it to
2699 confine changes in the callee to the current child/subtree. */
2700 subtree_life
.safe_splice (*life
);
2701 scalar_cost
+= vect_bb_slp_scalar_cost (bb
, child
, &subtree_life
);
2702 subtree_life
.truncate (0);
2709 /* Check if vectorization of the basic block is profitable. */
2712 vect_bb_vectorization_profitable_p (bb_vec_info bb_vinfo
)
2714 vec
<slp_instance
> slp_instances
= BB_VINFO_SLP_INSTANCES (bb_vinfo
);
2715 slp_instance instance
;
2717 unsigned int vec_inside_cost
= 0, vec_outside_cost
= 0, scalar_cost
= 0;
2718 unsigned int vec_prologue_cost
= 0, vec_epilogue_cost
= 0;
2720 /* Calculate scalar cost. */
2721 FOR_EACH_VEC_ELT (slp_instances
, i
, instance
)
2723 auto_vec
<bool, 20> life
;
2724 life
.safe_grow_cleared (SLP_INSTANCE_GROUP_SIZE (instance
));
2725 scalar_cost
+= vect_bb_slp_scalar_cost (BB_VINFO_BB (bb_vinfo
),
2726 SLP_INSTANCE_TREE (instance
),
2730 /* Unset visited flag. */
2731 for (gimple_stmt_iterator gsi
= bb_vinfo
->region_begin
;
2732 gsi_stmt (gsi
) != gsi_stmt (bb_vinfo
->region_end
); gsi_next (&gsi
))
2733 gimple_set_visited (gsi_stmt (gsi
), false);
2735 /* Complete the target-specific cost calculation. */
2736 finish_cost (BB_VINFO_TARGET_COST_DATA (bb_vinfo
), &vec_prologue_cost
,
2737 &vec_inside_cost
, &vec_epilogue_cost
);
2739 vec_outside_cost
= vec_prologue_cost
+ vec_epilogue_cost
;
2741 if (dump_enabled_p ())
2743 dump_printf_loc (MSG_NOTE
, vect_location
, "Cost model analysis: \n");
2744 dump_printf (MSG_NOTE
, " Vector inside of basic block cost: %d\n",
2746 dump_printf (MSG_NOTE
, " Vector prologue cost: %d\n", vec_prologue_cost
);
2747 dump_printf (MSG_NOTE
, " Vector epilogue cost: %d\n", vec_epilogue_cost
);
2748 dump_printf (MSG_NOTE
, " Scalar cost of basic block: %d\n", scalar_cost
);
2751 /* Vectorization is profitable if its cost is more than the cost of scalar
2752 version. Note that we err on the vector side for equal cost because
2753 the cost estimate is otherwise quite pessimistic (constant uses are
2754 free on the scalar side but cost a load on the vector side for
2756 if (vec_outside_cost
+ vec_inside_cost
> scalar_cost
)
2762 /* Check if the basic block can be vectorized. Returns a bb_vec_info
2763 if so and sets fatal to true if failure is independent of
2764 current_vector_size. */
2767 vect_slp_analyze_bb_1 (gimple_stmt_iterator region_begin
,
2768 gimple_stmt_iterator region_end
,
2769 vec
<data_reference_p
> datarefs
, int n_stmts
,
2772 bb_vec_info bb_vinfo
;
2773 slp_instance instance
;
2777 /* The first group of checks is independent of the vector size. */
2780 if (n_stmts
> PARAM_VALUE (PARAM_SLP_MAX_INSNS_IN_BB
))
2782 if (dump_enabled_p ())
2783 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2784 "not vectorized: too many instructions in "
2786 free_data_refs (datarefs
);
2790 bb_vinfo
= new _bb_vec_info (region_begin
, region_end
);
2794 BB_VINFO_DATAREFS (bb_vinfo
) = datarefs
;
2796 /* Analyze the data references. */
2798 if (!vect_analyze_data_refs (bb_vinfo
, &min_vf
))
2800 if (dump_enabled_p ())
2801 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2802 "not vectorized: unhandled data-ref in basic "
2809 if (BB_VINFO_DATAREFS (bb_vinfo
).length () < 2)
2811 if (dump_enabled_p ())
2812 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2813 "not vectorized: not enough data-refs in "
2820 if (!vect_analyze_data_ref_accesses (bb_vinfo
))
2822 if (dump_enabled_p ())
2823 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2824 "not vectorized: unhandled data access in "
2831 /* If there are no grouped stores in the region there is no need
2832 to continue with pattern recog as vect_analyze_slp will fail
2834 if (bb_vinfo
->grouped_stores
.is_empty ())
2836 if (dump_enabled_p ())
2837 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2838 "not vectorized: no grouped stores in "
2845 /* While the rest of the analysis below depends on it in some way. */
2848 vect_pattern_recog (bb_vinfo
);
2850 /* Check the SLP opportunities in the basic block, analyze and build SLP
2852 if (!vect_analyze_slp (bb_vinfo
, n_stmts
))
2854 if (dump_enabled_p ())
2856 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2857 "Failed to SLP the basic block.\n");
2858 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2859 "not vectorized: failed to find SLP opportunities "
2860 "in basic block.\n");
2867 vect_record_base_alignments (bb_vinfo
);
2869 /* Analyze and verify the alignment of data references and the
2870 dependence in the SLP instances. */
2871 for (i
= 0; BB_VINFO_SLP_INSTANCES (bb_vinfo
).iterate (i
, &instance
); )
2873 if (! vect_slp_analyze_and_verify_instance_alignment (instance
)
2874 || ! vect_slp_analyze_instance_dependence (instance
))
2876 dump_printf_loc (MSG_NOTE
, vect_location
,
2877 "removing SLP instance operations starting from: ");
2878 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
,
2879 SLP_TREE_SCALAR_STMTS
2880 (SLP_INSTANCE_TREE (instance
))[0], 0);
2881 vect_free_slp_instance (instance
);
2882 BB_VINFO_SLP_INSTANCES (bb_vinfo
).ordered_remove (i
);
2886 /* Mark all the statements that we want to vectorize as pure SLP and
2888 vect_mark_slp_stmts (SLP_INSTANCE_TREE (instance
), pure_slp
, -1);
2889 vect_mark_slp_stmts_relevant (SLP_INSTANCE_TREE (instance
));
2893 if (! BB_VINFO_SLP_INSTANCES (bb_vinfo
).length ())
2899 if (!vect_slp_analyze_operations (BB_VINFO_SLP_INSTANCES (bb_vinfo
),
2900 BB_VINFO_TARGET_COST_DATA (bb_vinfo
)))
2902 if (dump_enabled_p ())
2903 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2904 "not vectorized: bad operation in basic block.\n");
2910 /* Cost model: check if the vectorization is worthwhile. */
2911 if (!unlimited_cost_model (NULL
)
2912 && !vect_bb_vectorization_profitable_p (bb_vinfo
))
2914 if (dump_enabled_p ())
2915 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
2916 "not vectorized: vectorization is not "
2923 if (dump_enabled_p ())
2924 dump_printf_loc (MSG_NOTE
, vect_location
,
2925 "Basic block will be vectorized using SLP\n");
2931 /* Main entry for the BB vectorizer. Analyze and transform BB, returns
2932 true if anything in the basic-block was vectorized. */
2935 vect_slp_bb (basic_block bb
)
2937 bb_vec_info bb_vinfo
;
2938 gimple_stmt_iterator gsi
;
2939 unsigned int vector_sizes
;
2940 bool any_vectorized
= false;
2942 if (dump_enabled_p ())
2943 dump_printf_loc (MSG_NOTE
, vect_location
, "===vect_slp_analyze_bb===\n");
2945 /* Autodetect first vector size we try. */
2946 current_vector_size
= 0;
2947 vector_sizes
= targetm
.vectorize
.autovectorize_vector_sizes ();
2949 gsi
= gsi_start_bb (bb
);
2953 if (gsi_end_p (gsi
))
2956 gimple_stmt_iterator region_begin
= gsi
;
2957 vec
<data_reference_p
> datarefs
= vNULL
;
2960 for (; !gsi_end_p (gsi
); gsi_next (&gsi
))
2962 gimple
*stmt
= gsi_stmt (gsi
);
2963 if (is_gimple_debug (stmt
))
2967 if (gimple_location (stmt
) != UNKNOWN_LOCATION
)
2968 vect_location
= gimple_location (stmt
);
2970 if (!find_data_references_in_stmt (NULL
, stmt
, &datarefs
))
2974 /* Skip leading unhandled stmts. */
2975 if (gsi_stmt (region_begin
) == gsi_stmt (gsi
))
2981 gimple_stmt_iterator region_end
= gsi
;
2983 bool vectorized
= false;
2985 bb_vinfo
= vect_slp_analyze_bb_1 (region_begin
, region_end
,
2986 datarefs
, insns
, fatal
);
2988 && dbg_cnt (vect_slp
))
2990 if (dump_enabled_p ())
2991 dump_printf_loc (MSG_NOTE
, vect_location
, "SLPing BB part\n");
2993 vect_schedule_slp (bb_vinfo
);
2995 if (dump_enabled_p ())
2996 dump_printf_loc (MSG_NOTE
, vect_location
,
2997 "basic block part vectorized\n");
3003 any_vectorized
|= vectorized
;
3005 vector_sizes
&= ~current_vector_size
;
3007 || vector_sizes
== 0
3008 || current_vector_size
== 0
3009 /* If vect_slp_analyze_bb_1 signaled that analysis for all
3010 vector sizes will fail do not bother iterating. */
3013 if (gsi_end_p (region_end
))
3016 /* Skip the unhandled stmt. */
3019 /* And reset vector sizes. */
3020 current_vector_size
= 0;
3021 vector_sizes
= targetm
.vectorize
.autovectorize_vector_sizes ();
3025 /* Try the next biggest vector size. */
3026 current_vector_size
= 1 << floor_log2 (vector_sizes
);
3027 if (dump_enabled_p ())
3028 dump_printf_loc (MSG_NOTE
, vect_location
,
3029 "***** Re-trying analysis with "
3030 "vector size %d\n", current_vector_size
);
3037 return any_vectorized
;
3041 /* Return 1 if vector type of boolean constant which is OPNUM
3042 operand in statement STMT is a boolean vector. */
3045 vect_mask_constant_operand_p (gimple
*stmt
, int opnum
)
3047 stmt_vec_info stmt_vinfo
= vinfo_for_stmt (stmt
);
3048 enum tree_code code
= gimple_expr_code (stmt
);
3051 enum vect_def_type dt
;
3053 /* For comparison and COND_EXPR type is chosen depending
3054 on the other comparison operand. */
3055 if (TREE_CODE_CLASS (code
) == tcc_comparison
)
3058 op
= gimple_assign_rhs1 (stmt
);
3060 op
= gimple_assign_rhs2 (stmt
);
3062 if (!vect_is_simple_use (op
, stmt_vinfo
->vinfo
, &def_stmt
,
3066 return !vectype
|| VECTOR_BOOLEAN_TYPE_P (vectype
);
3069 if (code
== COND_EXPR
)
3071 tree cond
= gimple_assign_rhs1 (stmt
);
3073 if (TREE_CODE (cond
) == SSA_NAME
)
3076 op
= TREE_OPERAND (cond
, 1);
3078 op
= TREE_OPERAND (cond
, 0);
3080 if (!vect_is_simple_use (op
, stmt_vinfo
->vinfo
, &def_stmt
,
3084 return !vectype
|| VECTOR_BOOLEAN_TYPE_P (vectype
);
3087 return VECTOR_BOOLEAN_TYPE_P (STMT_VINFO_VECTYPE (stmt_vinfo
));
3091 /* For constant and loop invariant defs of SLP_NODE this function returns
3092 (vector) defs (VEC_OPRNDS) that will be used in the vectorized stmts.
3093 OP_NUM determines if we gather defs for operand 0 or operand 1 of the RHS of
3094 scalar stmts. NUMBER_OF_VECTORS is the number of vector defs to create.
3095 REDUC_INDEX is the index of the reduction operand in the statements, unless
3099 vect_get_constant_vectors (tree op
, slp_tree slp_node
,
3100 vec
<tree
> *vec_oprnds
,
3101 unsigned int op_num
, unsigned int number_of_vectors
)
3103 vec
<gimple
*> stmts
= SLP_TREE_SCALAR_STMTS (slp_node
);
3104 gimple
*stmt
= stmts
[0];
3105 stmt_vec_info stmt_vinfo
= vinfo_for_stmt (stmt
);
3109 unsigned j
, number_of_places_left_in_vector
;
3112 int group_size
= stmts
.length ();
3113 unsigned int vec_num
, i
;
3114 unsigned number_of_copies
= 1;
3116 voprnds
.create (number_of_vectors
);
3117 bool constant_p
, is_store
;
3118 tree neutral_op
= NULL
;
3119 enum tree_code code
= gimple_expr_code (stmt
);
3120 gimple_seq ctor_seq
= NULL
;
3122 /* Check if vector type is a boolean vector. */
3123 if (VECT_SCALAR_BOOLEAN_TYPE_P (TREE_TYPE (op
))
3124 && vect_mask_constant_operand_p (stmt
, op_num
))
3126 = build_same_sized_truth_vector_type (STMT_VINFO_VECTYPE (stmt_vinfo
));
3128 vector_type
= get_vectype_for_scalar_type (TREE_TYPE (op
));
3129 nunits
= TYPE_VECTOR_SUBPARTS (vector_type
);
3131 if (STMT_VINFO_DATA_REF (stmt_vinfo
))
3134 op
= gimple_assign_rhs1 (stmt
);
3141 /* NUMBER_OF_COPIES is the number of times we need to use the same values in
3142 created vectors. It is greater than 1 if unrolling is performed.
3144 For example, we have two scalar operands, s1 and s2 (e.g., group of
3145 strided accesses of size two), while NUNITS is four (i.e., four scalars
3146 of this type can be packed in a vector). The output vector will contain
3147 two copies of each scalar operand: {s1, s2, s1, s2}. (NUMBER_OF_COPIES
3150 If GROUP_SIZE > NUNITS, the scalars will be split into several vectors
3151 containing the operands.
3153 For example, NUNITS is four as before, and the group size is 8
3154 (s1, s2, ..., s8). We will create two vectors {s1, s2, s3, s4} and
3155 {s5, s6, s7, s8}. */
3157 number_of_copies
= nunits
* number_of_vectors
/ group_size
;
3159 number_of_places_left_in_vector
= nunits
;
3161 elts
= XALLOCAVEC (tree
, nunits
);
3162 bool place_after_defs
= false;
3163 for (j
= 0; j
< number_of_copies
; j
++)
3165 for (i
= group_size
- 1; stmts
.iterate (i
, &stmt
); i
--)
3168 op
= gimple_assign_rhs1 (stmt
);
3175 tree cond
= gimple_assign_rhs1 (stmt
);
3176 if (TREE_CODE (cond
) == SSA_NAME
)
3177 op
= gimple_op (stmt
, op_num
+ 1);
3178 else if (op_num
== 0 || op_num
== 1)
3179 op
= TREE_OPERAND (cond
, op_num
);
3183 op
= gimple_assign_rhs2 (stmt
);
3185 op
= gimple_assign_rhs3 (stmt
);
3191 op
= gimple_call_arg (stmt
, op_num
);
3198 op
= gimple_op (stmt
, op_num
+ 1);
3199 /* Unlike the other binary operators, shifts/rotates have
3200 the shift count being int, instead of the same type as
3201 the lhs, so make sure the scalar is the right type if
3202 we are dealing with vectors of
3203 long long/long/short/char. */
3204 if (op_num
== 1 && TREE_CODE (op
) == INTEGER_CST
)
3205 op
= fold_convert (TREE_TYPE (vector_type
), op
);
3209 op
= gimple_op (stmt
, op_num
+ 1);
3214 /* Create 'vect_ = {op0,op1,...,opn}'. */
3215 number_of_places_left_in_vector
--;
3217 if (!types_compatible_p (TREE_TYPE (vector_type
), TREE_TYPE (op
)))
3219 if (CONSTANT_CLASS_P (op
))
3221 if (VECTOR_BOOLEAN_TYPE_P (vector_type
))
3223 /* Can't use VIEW_CONVERT_EXPR for booleans because
3224 of possibly different sizes of scalar value and
3226 if (integer_zerop (op
))
3227 op
= build_int_cst (TREE_TYPE (vector_type
), 0);
3228 else if (integer_onep (op
))
3229 op
= build_all_ones_cst (TREE_TYPE (vector_type
));
3234 op
= fold_unary (VIEW_CONVERT_EXPR
,
3235 TREE_TYPE (vector_type
), op
);
3236 gcc_assert (op
&& CONSTANT_CLASS_P (op
));
3240 tree new_temp
= make_ssa_name (TREE_TYPE (vector_type
));
3242 if (VECTOR_BOOLEAN_TYPE_P (vector_type
))
3245 = build_all_ones_cst (TREE_TYPE (vector_type
));
3247 = build_zero_cst (TREE_TYPE (vector_type
));
3248 gcc_assert (INTEGRAL_TYPE_P (TREE_TYPE (op
)));
3249 init_stmt
= gimple_build_assign (new_temp
, COND_EXPR
,
3255 op
= build1 (VIEW_CONVERT_EXPR
, TREE_TYPE (vector_type
),
3258 = gimple_build_assign (new_temp
, VIEW_CONVERT_EXPR
,
3261 gimple_seq_add_stmt (&ctor_seq
, init_stmt
);
3265 elts
[number_of_places_left_in_vector
] = op
;
3266 if (!CONSTANT_CLASS_P (op
))
3268 if (TREE_CODE (orig_op
) == SSA_NAME
3269 && !SSA_NAME_IS_DEFAULT_DEF (orig_op
)
3270 && STMT_VINFO_BB_VINFO (stmt_vinfo
)
3271 && (STMT_VINFO_BB_VINFO (stmt_vinfo
)->bb
3272 == gimple_bb (SSA_NAME_DEF_STMT (orig_op
))))
3273 place_after_defs
= true;
3275 if (number_of_places_left_in_vector
== 0)
3278 vec_cst
= build_vector (vector_type
, elts
);
3281 vec
<constructor_elt
, va_gc
> *v
;
3283 vec_alloc (v
, nunits
);
3284 for (k
= 0; k
< nunits
; ++k
)
3285 CONSTRUCTOR_APPEND_ELT (v
, NULL_TREE
, elts
[k
]);
3286 vec_cst
= build_constructor (vector_type
, v
);
3289 gimple_stmt_iterator gsi
;
3290 if (place_after_defs
)
3293 (vect_find_last_scalar_stmt_in_slp (slp_node
));
3294 init
= vect_init_vector (stmt
, vec_cst
, vector_type
, &gsi
);
3297 init
= vect_init_vector (stmt
, vec_cst
, vector_type
, NULL
);
3298 if (ctor_seq
!= NULL
)
3300 gsi
= gsi_for_stmt (SSA_NAME_DEF_STMT (init
));
3301 gsi_insert_seq_before_without_update (&gsi
, ctor_seq
,
3305 voprnds
.quick_push (init
);
3306 place_after_defs
= false;
3307 number_of_places_left_in_vector
= nunits
;
3313 /* Since the vectors are created in the reverse order, we should invert
3315 vec_num
= voprnds
.length ();
3316 for (j
= vec_num
; j
!= 0; j
--)
3318 vop
= voprnds
[j
- 1];
3319 vec_oprnds
->quick_push (vop
);
3324 /* In case that VF is greater than the unrolling factor needed for the SLP
3325 group of stmts, NUMBER_OF_VECTORS to be created is greater than
3326 NUMBER_OF_SCALARS/NUNITS or NUNITS/NUMBER_OF_SCALARS, and hence we have
3327 to replicate the vectors. */
3328 while (number_of_vectors
> vec_oprnds
->length ())
3330 tree neutral_vec
= NULL
;
3335 neutral_vec
= build_vector_from_val (vector_type
, neutral_op
);
3337 vec_oprnds
->quick_push (neutral_vec
);
3341 for (i
= 0; vec_oprnds
->iterate (i
, &vop
) && i
< vec_num
; i
++)
3342 vec_oprnds
->quick_push (vop
);
3348 /* Get vectorized definitions from SLP_NODE that contains corresponding
3349 vectorized def-stmts. */
3352 vect_get_slp_vect_defs (slp_tree slp_node
, vec
<tree
> *vec_oprnds
)
3355 gimple
*vec_def_stmt
;
3358 gcc_assert (SLP_TREE_VEC_STMTS (slp_node
).exists ());
3360 FOR_EACH_VEC_ELT (SLP_TREE_VEC_STMTS (slp_node
), i
, vec_def_stmt
)
3362 gcc_assert (vec_def_stmt
);
3363 if (gimple_code (vec_def_stmt
) == GIMPLE_PHI
)
3364 vec_oprnd
= gimple_phi_result (vec_def_stmt
);
3366 vec_oprnd
= gimple_get_lhs (vec_def_stmt
);
3367 vec_oprnds
->quick_push (vec_oprnd
);
3372 /* Get vectorized definitions for SLP_NODE.
3373 If the scalar definitions are loop invariants or constants, collect them and
3374 call vect_get_constant_vectors() to create vector stmts.
3375 Otherwise, the def-stmts must be already vectorized and the vectorized stmts
3376 must be stored in the corresponding child of SLP_NODE, and we call
3377 vect_get_slp_vect_defs () to retrieve them. */
3380 vect_get_slp_defs (vec
<tree
> ops
, slp_tree slp_node
,
3381 vec
<vec
<tree
> > *vec_oprnds
)
3384 int number_of_vects
= 0, i
;
3385 unsigned int child_index
= 0;
3386 HOST_WIDE_INT lhs_size_unit
, rhs_size_unit
;
3387 slp_tree child
= NULL
;
3390 bool vectorized_defs
;
3392 first_stmt
= SLP_TREE_SCALAR_STMTS (slp_node
)[0];
3393 FOR_EACH_VEC_ELT (ops
, i
, oprnd
)
3395 /* For each operand we check if it has vectorized definitions in a child
3396 node or we need to create them (for invariants and constants). We
3397 check if the LHS of the first stmt of the next child matches OPRND.
3398 If it does, we found the correct child. Otherwise, we call
3399 vect_get_constant_vectors (), and not advance CHILD_INDEX in order
3400 to check this child node for the next operand. */
3401 vectorized_defs
= false;
3402 if (SLP_TREE_CHILDREN (slp_node
).length () > child_index
)
3404 child
= SLP_TREE_CHILDREN (slp_node
)[child_index
];
3406 /* We have to check both pattern and original def, if available. */
3407 if (SLP_TREE_DEF_TYPE (child
) == vect_internal_def
)
3409 gimple
*first_def
= SLP_TREE_SCALAR_STMTS (child
)[0];
3411 = STMT_VINFO_RELATED_STMT (vinfo_for_stmt (first_def
));
3414 if (gimple_code (first_def
) == GIMPLE_PHI
)
3415 first_def_op
= gimple_phi_result (first_def
);
3417 first_def_op
= gimple_get_lhs (first_def
);
3418 if (operand_equal_p (oprnd
, first_def_op
, 0)
3420 && operand_equal_p (oprnd
, gimple_get_lhs (related
), 0)))
3422 /* The number of vector defs is determined by the number of
3423 vector statements in the node from which we get those
3425 number_of_vects
= SLP_TREE_NUMBER_OF_VEC_STMTS (child
);
3426 vectorized_defs
= true;
3434 if (!vectorized_defs
)
3438 number_of_vects
= SLP_TREE_NUMBER_OF_VEC_STMTS (slp_node
);
3439 /* Number of vector stmts was calculated according to LHS in
3440 vect_schedule_slp_instance (), fix it by replacing LHS with
3441 RHS, if necessary. See vect_get_smallest_scalar_type () for
3443 vect_get_smallest_scalar_type (first_stmt
, &lhs_size_unit
,
3445 if (rhs_size_unit
!= lhs_size_unit
)
3447 number_of_vects
*= rhs_size_unit
;
3448 number_of_vects
/= lhs_size_unit
;
3453 /* Allocate memory for vectorized defs. */
3455 vec_defs
.create (number_of_vects
);
3457 /* For reduction defs we call vect_get_constant_vectors (), since we are
3458 looking for initial loop invariant values. */
3459 if (vectorized_defs
)
3460 /* The defs are already vectorized. */
3461 vect_get_slp_vect_defs (child
, &vec_defs
);
3463 /* Build vectors from scalar defs. */
3464 vect_get_constant_vectors (oprnd
, slp_node
, &vec_defs
, i
,
3467 vec_oprnds
->quick_push (vec_defs
);
3471 /* Generate vector permute statements from a list of loads in DR_CHAIN.
3472 If ANALYZE_ONLY is TRUE, only check that it is possible to create valid
3473 permute statements for the SLP node NODE of the SLP instance
3474 SLP_NODE_INSTANCE. */
3477 vect_transform_slp_perm_load (slp_tree node
, vec
<tree
> dr_chain
,
3478 gimple_stmt_iterator
*gsi
, int vf
,
3479 slp_instance slp_node_instance
, bool analyze_only
,
3482 gimple
*stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
3483 stmt_vec_info stmt_info
= vinfo_for_stmt (stmt
);
3484 tree mask_element_type
= NULL_TREE
, mask_type
;
3485 int nunits
, vec_index
= 0;
3486 tree vectype
= STMT_VINFO_VECTYPE (stmt_info
);
3487 int group_size
= SLP_INSTANCE_GROUP_SIZE (slp_node_instance
);
3489 unsigned char *mask
;
3492 if (!STMT_VINFO_GROUPED_ACCESS (stmt_info
))
3495 stmt_info
= vinfo_for_stmt (GROUP_FIRST_ELEMENT (stmt_info
));
3497 mode
= TYPE_MODE (vectype
);
3499 /* The generic VEC_PERM_EXPR code always uses an integral type of the
3500 same size as the vector element being permuted. */
3501 mask_element_type
= lang_hooks
.types
.type_for_mode
3502 (int_mode_for_mode (TYPE_MODE (TREE_TYPE (vectype
))).require (), 1);
3503 mask_type
= get_vectype_for_scalar_type (mask_element_type
);
3504 nunits
= TYPE_VECTOR_SUBPARTS (vectype
);
3505 mask
= XALLOCAVEC (unsigned char, nunits
);
3507 /* Initialize the vect stmts of NODE to properly insert the generated
3510 for (unsigned i
= SLP_TREE_VEC_STMTS (node
).length ();
3511 i
< SLP_TREE_NUMBER_OF_VEC_STMTS (node
); i
++)
3512 SLP_TREE_VEC_STMTS (node
).quick_push (NULL
);
3514 /* Generate permutation masks for every NODE. Number of masks for each NODE
3515 is equal to GROUP_SIZE.
3516 E.g., we have a group of three nodes with three loads from the same
3517 location in each node, and the vector size is 4. I.e., we have a
3518 a0b0c0a1b1c1... sequence and we need to create the following vectors:
3519 for a's: a0a0a0a1 a1a1a2a2 a2a3a3a3
3520 for b's: b0b0b0b1 b1b1b2b2 b2b3b3b3
3523 The masks for a's should be: {0,0,0,3} {3,3,6,6} {6,9,9,9}.
3524 The last mask is illegal since we assume two operands for permute
3525 operation, and the mask element values can't be outside that range.
3526 Hence, the last mask must be converted into {2,5,5,5}.
3527 For the first two permutations we need the first and the second input
3528 vectors: {a0,b0,c0,a1} and {b1,c1,a2,b2}, and for the last permutation
3529 we need the second and the third vectors: {b1,c1,a2,b2} and
3532 int vect_stmts_counter
= 0;
3534 int first_vec_index
= -1;
3535 int second_vec_index
= -1;
3539 for (int j
= 0; j
< vf
; j
++)
3541 for (int k
= 0; k
< group_size
; k
++)
3543 int i
= (SLP_TREE_LOAD_PERMUTATION (node
)[k
]
3544 + j
* STMT_VINFO_GROUP_SIZE (stmt_info
));
3545 vec_index
= i
/ nunits
;
3546 mask_element
= i
% nunits
;
3547 if (vec_index
== first_vec_index
3548 || first_vec_index
== -1)
3550 first_vec_index
= vec_index
;
3552 else if (vec_index
== second_vec_index
3553 || second_vec_index
== -1)
3555 second_vec_index
= vec_index
;
3556 mask_element
+= nunits
;
3560 if (dump_enabled_p ())
3562 dump_printf_loc (MSG_MISSED_OPTIMIZATION
, vect_location
,
3563 "permutation requires at "
3564 "least three vectors ");
3565 dump_gimple_stmt (MSG_MISSED_OPTIMIZATION
, TDF_SLIM
,
3571 gcc_assert (mask_element
>= 0
3572 && mask_element
< 2 * nunits
);
3573 if (mask_element
!= index
)
3575 mask
[index
++] = mask_element
;
3577 if (index
== nunits
)
3580 && ! can_vec_perm_p (mode
, false, mask
))
3582 if (dump_enabled_p ())
3584 dump_printf_loc (MSG_MISSED_OPTIMIZATION
,
3586 "unsupported vect permute { ");
3587 for (i
= 0; i
< nunits
; ++i
)
3588 dump_printf (MSG_MISSED_OPTIMIZATION
, "%d ", mask
[i
]);
3589 dump_printf (MSG_MISSED_OPTIMIZATION
, "}\n");
3599 tree mask_vec
= NULL_TREE
;
3603 tree
*mask_elts
= XALLOCAVEC (tree
, nunits
);
3604 for (int l
= 0; l
< nunits
; ++l
)
3605 mask_elts
[l
] = build_int_cst (mask_element_type
,
3607 mask_vec
= build_vector (mask_type
, mask_elts
);
3610 if (second_vec_index
== -1)
3611 second_vec_index
= first_vec_index
;
3613 /* Generate the permute statement if necessary. */
3614 tree first_vec
= dr_chain
[first_vec_index
];
3615 tree second_vec
= dr_chain
[second_vec_index
];
3620 = vect_create_destination_var (gimple_assign_lhs (stmt
),
3622 perm_dest
= make_ssa_name (perm_dest
);
3623 perm_stmt
= gimple_build_assign (perm_dest
,
3625 first_vec
, second_vec
,
3627 vect_finish_stmt_generation (stmt
, perm_stmt
, gsi
);
3630 /* If mask was NULL_TREE generate the requested
3631 identity transform. */
3632 perm_stmt
= SSA_NAME_DEF_STMT (first_vec
);
3634 /* Store the vector statement in NODE. */
3635 SLP_TREE_VEC_STMTS (node
)[vect_stmts_counter
++] = perm_stmt
;
3639 first_vec_index
= -1;
3640 second_vec_index
= -1;
3651 /* Vectorize SLP instance tree in postorder. */
3654 vect_schedule_slp_instance (slp_tree node
, slp_instance instance
,
3655 unsigned int vectorization_factor
)
3658 bool grouped_store
, is_store
;
3659 gimple_stmt_iterator si
;
3660 stmt_vec_info stmt_info
;
3661 unsigned int vec_stmts_size
, nunits
, group_size
;
3666 if (SLP_TREE_DEF_TYPE (node
) != vect_internal_def
)
3669 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
3670 vect_schedule_slp_instance (child
, instance
, vectorization_factor
);
3672 /* Push SLP node def-type to stmts. */
3673 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
3674 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
3675 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (child
), j
, stmt
)
3676 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) = SLP_TREE_DEF_TYPE (child
);
3678 stmt
= SLP_TREE_SCALAR_STMTS (node
)[0];
3679 stmt_info
= vinfo_for_stmt (stmt
);
3681 /* VECTYPE is the type of the destination. */
3682 vectype
= STMT_VINFO_VECTYPE (stmt_info
);
3683 nunits
= (unsigned int) TYPE_VECTOR_SUBPARTS (vectype
);
3684 group_size
= SLP_INSTANCE_GROUP_SIZE (instance
);
3686 /* For each SLP instance calculate number of vector stmts to be created
3687 for the scalar stmts in each node of the SLP tree. Number of vector
3688 elements in one vector iteration is the number of scalar elements in
3689 one scalar iteration (GROUP_SIZE) multiplied by VF divided by vector
3691 Unless this is a SLP reduction in which case the number of vector
3692 stmts is equal to the number of vector stmts of the children. */
3693 if (GROUP_FIRST_ELEMENT (stmt_info
)
3694 && !STMT_VINFO_GROUPED_ACCESS (stmt_info
))
3695 vec_stmts_size
= SLP_TREE_NUMBER_OF_VEC_STMTS (SLP_TREE_CHILDREN (node
)[0]);
3697 vec_stmts_size
= (vectorization_factor
* group_size
) / nunits
;
3699 if (!SLP_TREE_VEC_STMTS (node
).exists ())
3701 SLP_TREE_VEC_STMTS (node
).create (vec_stmts_size
);
3702 SLP_TREE_NUMBER_OF_VEC_STMTS (node
) = vec_stmts_size
;
3705 if (dump_enabled_p ())
3707 dump_printf_loc (MSG_NOTE
,vect_location
,
3708 "------>vectorizing SLP node starting from: ");
3709 dump_gimple_stmt (MSG_NOTE
, TDF_SLIM
, stmt
, 0);
3712 /* Vectorized stmts go before the last scalar stmt which is where
3713 all uses are ready. */
3714 si
= gsi_for_stmt (vect_find_last_scalar_stmt_in_slp (node
));
3716 /* Mark the first element of the reduction chain as reduction to properly
3717 transform the node. In the analysis phase only the last element of the
3718 chain is marked as reduction. */
3719 if (GROUP_FIRST_ELEMENT (stmt_info
) && !STMT_VINFO_GROUPED_ACCESS (stmt_info
)
3720 && GROUP_FIRST_ELEMENT (stmt_info
) == stmt
)
3722 STMT_VINFO_DEF_TYPE (stmt_info
) = vect_reduction_def
;
3723 STMT_VINFO_TYPE (stmt_info
) = reduc_vec_info_type
;
3726 /* Handle two-operation SLP nodes by vectorizing the group with
3727 both operations and then performing a merge. */
3728 if (SLP_TREE_TWO_OPERATORS (node
))
3730 enum tree_code code0
= gimple_assign_rhs_code (stmt
);
3731 enum tree_code ocode
= ERROR_MARK
;
3733 unsigned char *mask
= XALLOCAVEC (unsigned char, group_size
);
3734 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, ostmt
)
3735 if (gimple_assign_rhs_code (ostmt
) != code0
)
3738 ocode
= gimple_assign_rhs_code (ostmt
);
3742 if (ocode
!= ERROR_MARK
)
3747 tree tmask
= NULL_TREE
;
3748 vect_transform_stmt (stmt
, &si
, &grouped_store
, node
, instance
);
3749 v0
= SLP_TREE_VEC_STMTS (node
).copy ();
3750 SLP_TREE_VEC_STMTS (node
).truncate (0);
3751 gimple_assign_set_rhs_code (stmt
, ocode
);
3752 vect_transform_stmt (stmt
, &si
, &grouped_store
, node
, instance
);
3753 gimple_assign_set_rhs_code (stmt
, code0
);
3754 v1
= SLP_TREE_VEC_STMTS (node
).copy ();
3755 SLP_TREE_VEC_STMTS (node
).truncate (0);
3756 tree meltype
= build_nonstandard_integer_type
3757 (GET_MODE_BITSIZE (TYPE_MODE (TREE_TYPE (vectype
))), 1);
3758 tree mvectype
= get_same_sized_vectype (meltype
, vectype
);
3760 for (j
= 0; j
< v0
.length (); ++j
)
3762 tree
*melts
= XALLOCAVEC (tree
, TYPE_VECTOR_SUBPARTS (vectype
));
3763 for (l
= 0; l
< TYPE_VECTOR_SUBPARTS (vectype
); ++l
)
3765 if (k
>= group_size
)
3767 melts
[l
] = build_int_cst
3768 (meltype
, mask
[k
++] * TYPE_VECTOR_SUBPARTS (vectype
) + l
);
3770 tmask
= build_vector (mvectype
, melts
);
3772 /* ??? Not all targets support a VEC_PERM_EXPR with a
3773 constant mask that would translate to a vec_merge RTX
3774 (with their vec_perm_const_ok). We can either not
3775 vectorize in that case or let veclower do its job.
3776 Unfortunately that isn't too great and at least for
3777 plus/minus we'd eventually like to match targets
3778 vector addsub instructions. */
3780 vstmt
= gimple_build_assign (make_ssa_name (vectype
),
3782 gimple_assign_lhs (v0
[j
]),
3783 gimple_assign_lhs (v1
[j
]), tmask
);
3784 vect_finish_stmt_generation (stmt
, vstmt
, &si
);
3785 SLP_TREE_VEC_STMTS (node
).quick_push (vstmt
);
3792 is_store
= vect_transform_stmt (stmt
, &si
, &grouped_store
, node
, instance
);
3794 /* Restore stmt def-types. */
3795 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
3796 if (SLP_TREE_DEF_TYPE (child
) != vect_internal_def
)
3797 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (child
), j
, stmt
)
3798 STMT_VINFO_DEF_TYPE (vinfo_for_stmt (stmt
)) = vect_internal_def
;
3803 /* Replace scalar calls from SLP node NODE with setting of their lhs to zero.
3804 For loop vectorization this is done in vectorizable_call, but for SLP
3805 it needs to be deferred until end of vect_schedule_slp, because multiple
3806 SLP instances may refer to the same scalar stmt. */
3809 vect_remove_slp_scalar_calls (slp_tree node
)
3811 gimple
*stmt
, *new_stmt
;
3812 gimple_stmt_iterator gsi
;
3816 stmt_vec_info stmt_info
;
3818 if (SLP_TREE_DEF_TYPE (node
) != vect_internal_def
)
3821 FOR_EACH_VEC_ELT (SLP_TREE_CHILDREN (node
), i
, child
)
3822 vect_remove_slp_scalar_calls (child
);
3824 FOR_EACH_VEC_ELT (SLP_TREE_SCALAR_STMTS (node
), i
, stmt
)
3826 if (!is_gimple_call (stmt
) || gimple_bb (stmt
) == NULL
)
3828 stmt_info
= vinfo_for_stmt (stmt
);
3829 if (stmt_info
== NULL
3830 || is_pattern_stmt_p (stmt_info
)
3831 || !PURE_SLP_STMT (stmt_info
))
3833 lhs
= gimple_call_lhs (stmt
);
3834 new_stmt
= gimple_build_assign (lhs
, build_zero_cst (TREE_TYPE (lhs
)));
3835 set_vinfo_for_stmt (new_stmt
, stmt_info
);
3836 set_vinfo_for_stmt (stmt
, NULL
);
3837 STMT_VINFO_STMT (stmt_info
) = new_stmt
;
3838 gsi
= gsi_for_stmt (stmt
);
3839 gsi_replace (&gsi
, new_stmt
, false);
3840 SSA_NAME_DEF_STMT (gimple_assign_lhs (new_stmt
)) = new_stmt
;
3844 /* Generate vector code for all SLP instances in the loop/basic block. */
3847 vect_schedule_slp (vec_info
*vinfo
)
3849 vec
<slp_instance
> slp_instances
;
3850 slp_instance instance
;
3852 bool is_store
= false;
3854 slp_instances
= vinfo
->slp_instances
;
3855 if (is_a
<loop_vec_info
> (vinfo
))
3856 vf
= as_a
<loop_vec_info
> (vinfo
)->vectorization_factor
;
3860 FOR_EACH_VEC_ELT (slp_instances
, i
, instance
)
3862 /* Schedule the tree of INSTANCE. */
3863 is_store
= vect_schedule_slp_instance (SLP_INSTANCE_TREE (instance
),
3865 if (dump_enabled_p ())
3866 dump_printf_loc (MSG_NOTE
, vect_location
,
3867 "vectorizing stmts using SLP.\n");
3870 FOR_EACH_VEC_ELT (slp_instances
, i
, instance
)
3872 slp_tree root
= SLP_INSTANCE_TREE (instance
);
3875 gimple_stmt_iterator gsi
;
3877 /* Remove scalar call stmts. Do not do this for basic-block
3878 vectorization as not all uses may be vectorized.
3879 ??? Why should this be necessary? DCE should be able to
3880 remove the stmts itself.
3881 ??? For BB vectorization we can as well remove scalar
3882 stmts starting from the SLP tree root if they have no
3884 if (is_a
<loop_vec_info
> (vinfo
))
3885 vect_remove_slp_scalar_calls (root
);
3887 for (j
= 0; SLP_TREE_SCALAR_STMTS (root
).iterate (j
, &store
)
3888 && j
< SLP_INSTANCE_GROUP_SIZE (instance
); j
++)
3890 if (!STMT_VINFO_DATA_REF (vinfo_for_stmt (store
)))
3893 if (is_pattern_stmt_p (vinfo_for_stmt (store
)))
3894 store
= STMT_VINFO_RELATED_STMT (vinfo_for_stmt (store
));
3895 /* Free the attached stmt_vec_info and remove the stmt. */
3896 gsi
= gsi_for_stmt (store
);
3897 unlink_stmt_vdef (store
);
3898 gsi_remove (&gsi
, true);
3899 release_defs (store
);
3900 free_stmt_vec_info (store
);