2 Copyright (C) 2005, 2006 Free Software Foundation, Inc.
3 Contributed by Jeff Law <law@redhat.com>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2, or (at your option)
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to
19 the Free Software Foundation, 51 Franklin Street, Fifth Floor,
20 Boston, MA 02110-1301, USA. */
24 #include "coretypes.h"
31 #include "basic-block.h"
36 #include "diagnostic.h"
38 #include "tree-dump.h"
39 #include "tree-flow.h"
42 #include "tree-pass.h"
43 #include "tree-ssa-propagate.h"
44 #include "langhooks.h"
47 /* To avoid code explosion due to jump threading, we limit the
48 number of statements we are going to copy. This variable
49 holds the number of statements currently seen that we'll have
50 to copy as part of the jump threading process. */
51 static int stmt_count
;
53 /* Return TRUE if we may be able to thread an incoming edge into
54 BB to an outgoing edge from BB. Return FALSE otherwise. */
57 potentially_threadable_block (basic_block bb
)
59 block_stmt_iterator bsi
;
61 /* If BB has a single successor or a single predecessor, then
62 there is no threading opportunity. */
63 if (single_succ_p (bb
) || single_pred_p (bb
))
66 /* If BB does not end with a conditional, switch or computed goto,
67 then there is no threading opportunity. */
71 || (TREE_CODE (bsi_stmt (bsi
)) != COND_EXPR
72 && TREE_CODE (bsi_stmt (bsi
)) != GOTO_EXPR
73 && TREE_CODE (bsi_stmt (bsi
)) != SWITCH_EXPR
))
79 /* Return the LHS of any ASSERT_EXPR where OP appears as the first
80 argument to the ASSERT_EXPR and in which the ASSERT_EXPR dominates
81 BB. If no such ASSERT_EXPR is found, return OP. */
84 lhs_of_dominating_assert (tree op
, basic_block bb
, tree stmt
)
86 imm_use_iterator imm_iter
;
87 use_operand_p imm_use
;
89 FOR_EACH_IMM_USE_SAFE (imm_use
, imm_iter
, op
)
91 tree use_stmt
= USE_STMT (imm_use
);
94 && TREE_CODE (use_stmt
) == MODIFY_EXPR
95 && TREE_CODE (TREE_OPERAND (use_stmt
, 1)) == ASSERT_EXPR
96 && TREE_OPERAND (TREE_OPERAND (use_stmt
, 1), 0) == op
97 && dominated_by_p (CDI_DOMINATORS
, bb
, bb_for_stmt (use_stmt
)))
98 op
= TREE_OPERAND (use_stmt
, 0);
104 /* We record temporary equivalences created by PHI nodes or
105 statements within the target block. Doing so allows us to
106 identify more jump threading opportunities, even in blocks
109 We keep track of those temporary equivalences in a stack
110 structure so that we can unwind them when we're done processing
111 a particular edge. This routine handles unwinding the data
115 remove_temporary_equivalences (VEC(tree
, heap
) **stack
)
117 while (VEC_length (tree
, *stack
) > 0)
119 tree prev_value
, dest
;
121 dest
= VEC_pop (tree
, *stack
);
123 /* A NULL value indicates we should stop unwinding, oherwise
124 pop off the next entry as they're recorded in pairs. */
128 prev_value
= VEC_pop (tree
, *stack
);
129 SSA_NAME_VALUE (dest
) = prev_value
;
133 /* Record a temporary equivalence, saving enough information so that
134 we can restore the state of recorded equivalences when we're
135 done processing the current edge. */
138 record_temporary_equivalence (tree x
, tree y
, VEC(tree
, heap
) **stack
)
140 tree prev_x
= SSA_NAME_VALUE (x
);
142 if (TREE_CODE (y
) == SSA_NAME
)
144 tree tmp
= SSA_NAME_VALUE (y
);
148 SSA_NAME_VALUE (x
) = y
;
149 VEC_reserve (tree
, heap
, *stack
, 2);
150 VEC_quick_push (tree
, *stack
, prev_x
);
151 VEC_quick_push (tree
, *stack
, x
);
154 /* Record temporary equivalences created by PHIs at the target of the
155 edge E. Record unwind information for the equivalences onto STACK.
157 If a PHI which prevents threading is encountered, then return FALSE
158 indicating we should not thread this edge, else return TRUE. */
161 record_temporary_equivalences_from_phis (edge e
, VEC(tree
, heap
) **stack
)
165 /* Each PHI creates a temporary equivalence, record them.
166 These are context sensitive equivalences and will be removed
168 for (phi
= phi_nodes (e
->dest
); phi
; phi
= PHI_CHAIN (phi
))
170 tree src
= PHI_ARG_DEF_FROM_EDGE (phi
, e
);
171 tree dst
= PHI_RESULT (phi
);
173 /* If the desired argument is not the same as this PHI's result
174 and it is set by a PHI in E->dest, then we can not thread
177 && TREE_CODE (src
) == SSA_NAME
178 && TREE_CODE (SSA_NAME_DEF_STMT (src
)) == PHI_NODE
179 && bb_for_stmt (SSA_NAME_DEF_STMT (src
)) == e
->dest
)
182 /* We consider any non-virtual PHI as a statement since it
183 count result in a constant assignment or copy operation. */
184 if (is_gimple_reg (dst
))
187 record_temporary_equivalence (dst
, src
, stack
);
192 /* Try to simplify each statement in E->dest, ultimately leading to
193 a simplification of the COND_EXPR at the end of E->dest.
195 Record unwind information for temporary equivalences onto STACK.
197 Use SIMPLIFY (a pointer to a callback function) to further simplify
198 statements using pass specific information.
200 We might consider marking just those statements which ultimately
201 feed the COND_EXPR. It's not clear if the overhead of bookkeeping
202 would be recovered by trying to simplify fewer statements.
204 If we are able to simplify a statement into the form
205 SSA_NAME = (SSA_NAME | gimple invariant), then we can record
206 a context sensitive equivalency which may help us simplify
207 later statements in E->dest. */
210 record_temporary_equivalences_from_stmts_at_dest (edge e
,
211 VEC(tree
, heap
) **stack
,
212 tree (*simplify
) (tree
))
214 block_stmt_iterator bsi
;
218 max_stmt_count
= PARAM_VALUE (PARAM_MAX_JUMP_THREAD_DUPLICATION_STMTS
);
220 /* Walk through each statement in the block recording equivalences
221 we discover. Note any equivalences we discover are context
222 sensitive (ie, are dependent on traversing E) and must be unwound
223 when we're finished processing E. */
224 for (bsi
= bsi_start (e
->dest
); ! bsi_end_p (bsi
); bsi_next (&bsi
))
226 tree cached_lhs
= NULL
;
228 stmt
= bsi_stmt (bsi
);
230 /* Ignore empty statements and labels. */
231 if (IS_EMPTY_STMT (stmt
) || TREE_CODE (stmt
) == LABEL_EXPR
)
234 /* If the statement has volatile operands, then we assume we
235 can not thread through this block. This is overly
236 conservative in some ways. */
237 if (TREE_CODE (stmt
) == ASM_EXPR
&& ASM_VOLATILE_P (stmt
))
240 /* If duplicating this block is going to cause too much code
241 expansion, then do not thread through this block. */
243 if (stmt_count
> max_stmt_count
)
246 /* If this is not a MODIFY_EXPR which sets an SSA_NAME to a new
247 value, then do not try to simplify this statement as it will
248 not simplify in any way that is helpful for jump threading. */
249 if (TREE_CODE (stmt
) != MODIFY_EXPR
250 || TREE_CODE (TREE_OPERAND (stmt
, 0)) != SSA_NAME
)
253 /* At this point we have a statement which assigns an RHS to an
254 SSA_VAR on the LHS. We want to try and simplify this statement
255 to expose more context sensitive equivalences which in turn may
256 allow us to simplify the condition at the end of the loop.
258 Handle simple copy operations as well as implied copies from
260 if (TREE_CODE (TREE_OPERAND (stmt
, 1)) == SSA_NAME
)
261 cached_lhs
= TREE_OPERAND (stmt
, 1);
262 else if (TREE_CODE (TREE_OPERAND (stmt
, 1)) == ASSERT_EXPR
)
263 cached_lhs
= TREE_OPERAND (TREE_OPERAND (stmt
, 1), 0);
266 /* A statement that is not a trivial copy or ASSERT_EXPR.
267 We're going to temporarily copy propagate the operands
268 and see if that allows us to simplify this statement. */
269 tree
*copy
, pre_fold_expr
;
272 unsigned int num
, i
= 0;
274 num
= NUM_SSA_OPERANDS (stmt
, (SSA_OP_USE
| SSA_OP_VUSE
));
275 copy
= XCNEWVEC (tree
, num
);
277 /* Make a copy of the uses & vuses into USES_COPY, then cprop into
279 FOR_EACH_SSA_USE_OPERAND (use_p
, stmt
, iter
, SSA_OP_USE
| SSA_OP_VUSE
)
282 tree use
= USE_FROM_PTR (use_p
);
285 if (TREE_CODE (use
) == SSA_NAME
)
286 tmp
= SSA_NAME_VALUE (use
);
287 if (tmp
&& TREE_CODE (tmp
) != VALUE_HANDLE
)
288 SET_USE (use_p
, tmp
);
291 /* Try to fold/lookup the new expression. Inserting the
292 expression into the hash table is unlikely to help
293 Sadly, we have to handle conditional assignments specially
294 here, because fold expects all the operands of an expression
295 to be folded before the expression itself is folded, but we
296 can't just substitute the folded condition here. */
297 if (TREE_CODE (TREE_OPERAND (stmt
, 1)) == COND_EXPR
)
299 tree cond
= COND_EXPR_COND (TREE_OPERAND (stmt
, 1));
301 if (cond
== boolean_true_node
)
302 pre_fold_expr
= COND_EXPR_THEN (TREE_OPERAND (stmt
, 1));
303 else if (cond
== boolean_false_node
)
304 pre_fold_expr
= COND_EXPR_ELSE (TREE_OPERAND (stmt
, 1));
306 pre_fold_expr
= TREE_OPERAND (stmt
, 1);
309 pre_fold_expr
= TREE_OPERAND (stmt
, 1);
313 cached_lhs
= fold (pre_fold_expr
);
314 if (TREE_CODE (cached_lhs
) != SSA_NAME
315 && !is_gimple_min_invariant (cached_lhs
))
316 cached_lhs
= (*simplify
) (stmt
);
319 /* Restore the statement's original uses/defs. */
321 FOR_EACH_SSA_USE_OPERAND (use_p
, stmt
, iter
, SSA_OP_USE
| SSA_OP_VUSE
)
322 SET_USE (use_p
, copy
[i
++]);
327 /* Record the context sensitive equivalence if we were able
328 to simplify this statement. */
330 && (TREE_CODE (cached_lhs
) == SSA_NAME
331 || is_gimple_min_invariant (cached_lhs
)))
332 record_temporary_equivalence (TREE_OPERAND (stmt
, 0),
339 /* Simplify the control statement at the end of the block E->dest.
341 To avoid allocating memory unnecessarily, a scratch COND_EXPR
342 is available to use/clobber in DUMMY_COND.
344 Use SIMPLIFY (a pointer to a callback function) to further simplify
345 a condition using pass specific information.
347 Return the simplified condition or NULL if simplification could
351 simplify_control_stmt_condition (edge e
,
354 tree (*simplify
) (tree
),
355 bool handle_dominating_asserts
)
357 tree cond
, cached_lhs
;
359 if (TREE_CODE (stmt
) == COND_EXPR
)
360 cond
= COND_EXPR_COND (stmt
);
361 else if (TREE_CODE (stmt
) == GOTO_EXPR
)
362 cond
= GOTO_DESTINATION (stmt
);
364 cond
= SWITCH_COND (stmt
);
366 /* For comparisons, we have to update both operands, then try
367 to simplify the comparison. */
368 if (COMPARISON_CLASS_P (cond
))
371 enum tree_code cond_code
;
373 op0
= TREE_OPERAND (cond
, 0);
374 op1
= TREE_OPERAND (cond
, 1);
375 cond_code
= TREE_CODE (cond
);
377 /* Get the current value of both operands. */
378 if (TREE_CODE (op0
) == SSA_NAME
)
380 tree tmp
= SSA_NAME_VALUE (op0
);
381 if (tmp
&& TREE_CODE (tmp
) != VALUE_HANDLE
)
385 if (TREE_CODE (op1
) == SSA_NAME
)
387 tree tmp
= SSA_NAME_VALUE (op1
);
388 if (tmp
&& TREE_CODE (tmp
) != VALUE_HANDLE
)
392 if (handle_dominating_asserts
)
394 /* Now see if the operand was consumed by an ASSERT_EXPR
395 which dominates E->src. If so, we want to replace the
396 operand with the LHS of the ASSERT_EXPR. */
397 if (TREE_CODE (op0
) == SSA_NAME
)
398 op0
= lhs_of_dominating_assert (op0
, e
->src
, stmt
);
400 if (TREE_CODE (op1
) == SSA_NAME
)
401 op1
= lhs_of_dominating_assert (op1
, e
->src
, stmt
);
404 /* We may need to canonicalize the comparison. For
405 example, op0 might be a constant while op1 is an
406 SSA_NAME. Failure to canonicalize will cause us to
407 miss threading opportunities. */
408 if (cond_code
!= SSA_NAME
409 && tree_swap_operands_p (op0
, op1
, false))
412 cond_code
= swap_tree_comparison (TREE_CODE (cond
));
418 /* Stuff the operator and operands into our dummy conditional
420 TREE_SET_CODE (COND_EXPR_COND (dummy_cond
), cond_code
);
421 TREE_OPERAND (COND_EXPR_COND (dummy_cond
), 0) = op0
;
422 TREE_OPERAND (COND_EXPR_COND (dummy_cond
), 1) = op1
;
424 /* We absolutely do not care about any type conversions
425 we only care about a zero/nonzero value. */
426 cached_lhs
= fold (COND_EXPR_COND (dummy_cond
));
427 while (TREE_CODE (cached_lhs
) == NOP_EXPR
428 || TREE_CODE (cached_lhs
) == CONVERT_EXPR
429 || TREE_CODE (cached_lhs
) == NON_LVALUE_EXPR
)
430 cached_lhs
= TREE_OPERAND (cached_lhs
, 0);
432 /* If we have not simplified the condition down to an invariant,
433 then use the pass specific callback to simplify the condition. */
434 if (! is_gimple_min_invariant (cached_lhs
))
435 cached_lhs
= (*simplify
) (dummy_cond
);
438 /* We can have conditionals which just test the state of a variable
439 rather than use a relational operator. These are simpler to handle. */
440 else if (TREE_CODE (cond
) == SSA_NAME
)
444 /* Get the variable's current value from the equivalency chains.
446 It is possible to get loops in the SSA_NAME_VALUE chains
447 (consider threading the backedge of a loop where we have
448 a loop invariant SSA_NAME used in the condition. */
450 && TREE_CODE (cached_lhs
) == SSA_NAME
451 && SSA_NAME_VALUE (cached_lhs
))
452 cached_lhs
= SSA_NAME_VALUE (cached_lhs
);
454 /* If we're dominated by a suitable ASSERT_EXPR, then
455 update CACHED_LHS appropriately. */
456 if (handle_dominating_asserts
&& TREE_CODE (cached_lhs
) == SSA_NAME
)
457 cached_lhs
= lhs_of_dominating_assert (cached_lhs
, e
->src
, stmt
);
459 /* If we haven't simplified to an invariant yet, then use the
460 pass specific callback to try and simplify it further. */
461 if (cached_lhs
&& ! is_gimple_min_invariant (cached_lhs
))
462 cached_lhs
= (*simplify
) (stmt
);
470 /* We are exiting E->src, see if E->dest ends with a conditional
471 jump which has a known value when reached via E.
473 Special care is necessary if E is a back edge in the CFG as we
474 may have already recorded equivalences for E->dest into our
475 various tables, including the result of the conditional at
476 the end of E->dest. Threading opportunities are severely
477 limited in that case to avoid short-circuiting the loop
480 Note it is quite common for the first block inside a loop to
481 end with a conditional which is either always true or always
482 false when reached via the loop backedge. Thus we do not want
483 to blindly disable threading across a loop backedge. */
486 thread_across_edge (tree dummy_cond
,
488 bool handle_dominating_asserts
,
489 VEC(tree
, heap
) **stack
,
490 tree (*simplify
) (tree
))
494 /* If E is a backedge, then we want to verify that the COND_EXPR,
495 SWITCH_EXPR or GOTO_EXPR at the end of e->dest is not affected
496 by any statements in e->dest. If it is affected, then it is not
497 safe to thread this edge. */
498 if (e
->flags
& EDGE_DFS_BACK
)
502 tree last
= bsi_stmt (bsi_last (e
->dest
));
504 FOR_EACH_SSA_USE_OPERAND (use_p
, last
, iter
, SSA_OP_USE
| SSA_OP_VUSE
)
506 tree use
= USE_FROM_PTR (use_p
);
508 if (TREE_CODE (use
) == SSA_NAME
509 && TREE_CODE (SSA_NAME_DEF_STMT (use
)) != PHI_NODE
510 && bb_for_stmt (SSA_NAME_DEF_STMT (use
)) == e
->dest
)
517 /* PHIs create temporary equivalences. */
518 if (!record_temporary_equivalences_from_phis (e
, stack
))
521 /* Now walk each statement recording any context sensitive
522 temporary equivalences we can detect. */
523 stmt
= record_temporary_equivalences_from_stmts_at_dest (e
, stack
, simplify
);
527 /* If we stopped at a COND_EXPR or SWITCH_EXPR, see if we know which arm
529 if (TREE_CODE (stmt
) == COND_EXPR
530 || TREE_CODE (stmt
) == GOTO_EXPR
531 || TREE_CODE (stmt
) == SWITCH_EXPR
)
535 /* Extract and simplify the condition. */
536 cond
= simplify_control_stmt_condition (e
, stmt
, dummy_cond
, simplify
, handle_dominating_asserts
);
538 if (cond
&& is_gimple_min_invariant (cond
))
540 edge taken_edge
= find_taken_edge (e
->dest
, cond
);
541 basic_block dest
= (taken_edge
? taken_edge
->dest
: NULL
);
546 remove_temporary_equivalences (stack
);
547 register_jump_thread (e
, taken_edge
);
552 remove_temporary_equivalences (stack
);