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[official-gcc.git] / gcc / tree-tailcall.c
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1 /* Tail call optimization on trees.
2 Copyright (C) 2003-2016 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 3, or (at your option)
9 any later version.
11 GCC is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #include "config.h"
21 #include "system.h"
22 #include "coretypes.h"
23 #include "backend.h"
24 #include "rtl.h"
25 #include "tree.h"
26 #include "gimple.h"
27 #include "cfghooks.h"
28 #include "tree-pass.h"
29 #include "ssa.h"
30 #include "cgraph.h"
31 #include "gimple-pretty-print.h"
32 #include "fold-const.h"
33 #include "stor-layout.h"
34 #include "gimple-iterator.h"
35 #include "gimplify-me.h"
36 #include "tree-cfg.h"
37 #include "tree-into-ssa.h"
38 #include "tree-dfa.h"
39 #include "except.h"
40 #include "dbgcnt.h"
41 #include "cfgloop.h"
42 #include "common/common-target.h"
43 #include "ipa-utils.h"
45 /* The file implements the tail recursion elimination. It is also used to
46 analyze the tail calls in general, passing the results to the rtl level
47 where they are used for sibcall optimization.
49 In addition to the standard tail recursion elimination, we handle the most
50 trivial cases of making the call tail recursive by creating accumulators.
51 For example the following function
53 int sum (int n)
55 if (n > 0)
56 return n + sum (n - 1);
57 else
58 return 0;
61 is transformed into
63 int sum (int n)
65 int acc = 0;
67 while (n > 0)
68 acc += n--;
70 return acc;
73 To do this, we maintain two accumulators (a_acc and m_acc) that indicate
74 when we reach the return x statement, we should return a_acc + x * m_acc
75 instead. They are initially initialized to 0 and 1, respectively,
76 so the semantics of the function is obviously preserved. If we are
77 guaranteed that the value of the accumulator never change, we
78 omit the accumulator.
80 There are three cases how the function may exit. The first one is
81 handled in adjust_return_value, the other two in adjust_accumulator_values
82 (the second case is actually a special case of the third one and we
83 present it separately just for clarity):
85 1) Just return x, where x is not in any of the remaining special shapes.
86 We rewrite this to a gimple equivalent of return m_acc * x + a_acc.
88 2) return f (...), where f is the current function, is rewritten in a
89 classical tail-recursion elimination way, into assignment of arguments
90 and jump to the start of the function. Values of the accumulators
91 are unchanged.
93 3) return a + m * f(...), where a and m do not depend on call to f.
94 To preserve the semantics described before we want this to be rewritten
95 in such a way that we finally return
97 a_acc + (a + m * f(...)) * m_acc = (a_acc + a * m_acc) + (m * m_acc) * f(...).
99 I.e. we increase a_acc by a * m_acc, multiply m_acc by m and
100 eliminate the tail call to f. Special cases when the value is just
101 added or just multiplied are obtained by setting a = 0 or m = 1.
103 TODO -- it is possible to do similar tricks for other operations. */
105 /* A structure that describes the tailcall. */
107 struct tailcall
109 /* The iterator pointing to the call statement. */
110 gimple_stmt_iterator call_gsi;
112 /* True if it is a call to the current function. */
113 bool tail_recursion;
115 /* The return value of the caller is mult * f + add, where f is the return
116 value of the call. */
117 tree mult, add;
119 /* Next tailcall in the chain. */
120 struct tailcall *next;
123 /* The variables holding the value of multiplicative and additive
124 accumulator. */
125 static tree m_acc, a_acc;
127 static bool optimize_tail_call (struct tailcall *, bool);
128 static void eliminate_tail_call (struct tailcall *);
130 /* Returns false when the function is not suitable for tail call optimization
131 from some reason (e.g. if it takes variable number of arguments). */
133 static bool
134 suitable_for_tail_opt_p (void)
136 if (cfun->stdarg)
137 return false;
139 return true;
141 /* Returns false when the function is not suitable for tail call optimization
142 for some reason (e.g. if it takes variable number of arguments).
143 This test must pass in addition to suitable_for_tail_opt_p in order to make
144 tail call discovery happen. */
146 static bool
147 suitable_for_tail_call_opt_p (void)
149 tree param;
151 /* alloca (until we have stack slot life analysis) inhibits
152 sibling call optimizations, but not tail recursion. */
153 if (cfun->calls_alloca)
154 return false;
156 /* If we are using sjlj exceptions, we may need to add a call to
157 _Unwind_SjLj_Unregister at exit of the function. Which means
158 that we cannot do any sibcall transformations. */
159 if (targetm_common.except_unwind_info (&global_options) == UI_SJLJ
160 && current_function_has_exception_handlers ())
161 return false;
163 /* Any function that calls setjmp might have longjmp called from
164 any called function. ??? We really should represent this
165 properly in the CFG so that this needn't be special cased. */
166 if (cfun->calls_setjmp)
167 return false;
169 /* ??? It is OK if the argument of a function is taken in some cases,
170 but not in all cases. See PR15387 and PR19616. Revisit for 4.1. */
171 for (param = DECL_ARGUMENTS (current_function_decl);
172 param;
173 param = DECL_CHAIN (param))
174 if (TREE_ADDRESSABLE (param))
175 return false;
177 return true;
180 /* Checks whether the expression EXPR in stmt AT is independent of the
181 statement pointed to by GSI (in a sense that we already know EXPR's value
182 at GSI). We use the fact that we are only called from the chain of
183 basic blocks that have only single successor. Returns the expression
184 containing the value of EXPR at GSI. */
186 static tree
187 independent_of_stmt_p (tree expr, gimple *at, gimple_stmt_iterator gsi)
189 basic_block bb, call_bb, at_bb;
190 edge e;
191 edge_iterator ei;
193 if (is_gimple_min_invariant (expr))
194 return expr;
196 if (TREE_CODE (expr) != SSA_NAME)
197 return NULL_TREE;
199 /* Mark the blocks in the chain leading to the end. */
200 at_bb = gimple_bb (at);
201 call_bb = gimple_bb (gsi_stmt (gsi));
202 for (bb = call_bb; bb != at_bb; bb = single_succ (bb))
203 bb->aux = &bb->aux;
204 bb->aux = &bb->aux;
206 while (1)
208 at = SSA_NAME_DEF_STMT (expr);
209 bb = gimple_bb (at);
211 /* The default definition or defined before the chain. */
212 if (!bb || !bb->aux)
213 break;
215 if (bb == call_bb)
217 for (; !gsi_end_p (gsi); gsi_next (&gsi))
218 if (gsi_stmt (gsi) == at)
219 break;
221 if (!gsi_end_p (gsi))
222 expr = NULL_TREE;
223 break;
226 if (gimple_code (at) != GIMPLE_PHI)
228 expr = NULL_TREE;
229 break;
232 FOR_EACH_EDGE (e, ei, bb->preds)
233 if (e->src->aux)
234 break;
235 gcc_assert (e);
237 expr = PHI_ARG_DEF_FROM_EDGE (at, e);
238 if (TREE_CODE (expr) != SSA_NAME)
240 /* The value is a constant. */
241 break;
245 /* Unmark the blocks. */
246 for (bb = call_bb; bb != at_bb; bb = single_succ (bb))
247 bb->aux = NULL;
248 bb->aux = NULL;
250 return expr;
253 /* Simulates the effect of an assignment STMT on the return value of the tail
254 recursive CALL passed in ASS_VAR. M and A are the multiplicative and the
255 additive factor for the real return value. */
257 static bool
258 process_assignment (gassign *stmt, gimple_stmt_iterator call, tree *m,
259 tree *a, tree *ass_var)
261 tree op0, op1 = NULL_TREE, non_ass_var = NULL_TREE;
262 tree dest = gimple_assign_lhs (stmt);
263 enum tree_code code = gimple_assign_rhs_code (stmt);
264 enum gimple_rhs_class rhs_class = get_gimple_rhs_class (code);
265 tree src_var = gimple_assign_rhs1 (stmt);
267 /* See if this is a simple copy operation of an SSA name to the function
268 result. In that case we may have a simple tail call. Ignore type
269 conversions that can never produce extra code between the function
270 call and the function return. */
271 if ((rhs_class == GIMPLE_SINGLE_RHS || gimple_assign_cast_p (stmt))
272 && (TREE_CODE (src_var) == SSA_NAME))
274 /* Reject a tailcall if the type conversion might need
275 additional code. */
276 if (gimple_assign_cast_p (stmt))
278 if (TYPE_MODE (TREE_TYPE (dest)) != TYPE_MODE (TREE_TYPE (src_var)))
279 return false;
281 /* Even if the type modes are the same, if the precision of the
282 type is smaller than mode's precision,
283 reduce_to_bit_field_precision would generate additional code. */
284 if (INTEGRAL_TYPE_P (TREE_TYPE (dest))
285 && (GET_MODE_PRECISION (TYPE_MODE (TREE_TYPE (dest)))
286 > TYPE_PRECISION (TREE_TYPE (dest))))
287 return false;
290 if (src_var != *ass_var)
291 return false;
293 *ass_var = dest;
294 return true;
297 switch (rhs_class)
299 case GIMPLE_BINARY_RHS:
300 op1 = gimple_assign_rhs2 (stmt);
302 /* Fall through. */
304 case GIMPLE_UNARY_RHS:
305 op0 = gimple_assign_rhs1 (stmt);
306 break;
308 default:
309 return false;
312 /* Accumulator optimizations will reverse the order of operations.
313 We can only do that for floating-point types if we're assuming
314 that addition and multiplication are associative. */
315 if (!flag_associative_math)
316 if (FLOAT_TYPE_P (TREE_TYPE (DECL_RESULT (current_function_decl))))
317 return false;
319 if (rhs_class == GIMPLE_UNARY_RHS)
321 else if (op0 == *ass_var
322 && (non_ass_var = independent_of_stmt_p (op1, stmt, call)))
324 else if (op1 == *ass_var
325 && (non_ass_var = independent_of_stmt_p (op0, stmt, call)))
327 else
328 return false;
330 switch (code)
332 case PLUS_EXPR:
333 *a = non_ass_var;
334 *ass_var = dest;
335 return true;
337 case POINTER_PLUS_EXPR:
338 if (op0 != *ass_var)
339 return false;
340 *a = non_ass_var;
341 *ass_var = dest;
342 return true;
344 case MULT_EXPR:
345 *m = non_ass_var;
346 *ass_var = dest;
347 return true;
349 case NEGATE_EXPR:
350 *m = build_minus_one_cst (TREE_TYPE (op0));
351 *ass_var = dest;
352 return true;
354 case MINUS_EXPR:
355 if (*ass_var == op0)
356 *a = fold_build1 (NEGATE_EXPR, TREE_TYPE (non_ass_var), non_ass_var);
357 else
359 *m = build_minus_one_cst (TREE_TYPE (non_ass_var));
360 *a = fold_build1 (NEGATE_EXPR, TREE_TYPE (non_ass_var), non_ass_var);
363 *ass_var = dest;
364 return true;
366 /* TODO -- Handle POINTER_PLUS_EXPR. */
368 default:
369 return false;
373 /* Propagate VAR through phis on edge E. */
375 static tree
376 propagate_through_phis (tree var, edge e)
378 basic_block dest = e->dest;
379 gphi_iterator gsi;
381 for (gsi = gsi_start_phis (dest); !gsi_end_p (gsi); gsi_next (&gsi))
383 gphi *phi = gsi.phi ();
384 if (PHI_ARG_DEF_FROM_EDGE (phi, e) == var)
385 return PHI_RESULT (phi);
387 return var;
390 /* Finds tailcalls falling into basic block BB. The list of found tailcalls is
391 added to the start of RET. */
393 static void
394 find_tail_calls (basic_block bb, struct tailcall **ret)
396 tree ass_var = NULL_TREE, ret_var, func, param;
397 gimple *stmt;
398 gcall *call = NULL;
399 gimple_stmt_iterator gsi, agsi;
400 bool tail_recursion;
401 struct tailcall *nw;
402 edge e;
403 tree m, a;
404 basic_block abb;
405 size_t idx;
406 tree var;
408 if (!single_succ_p (bb))
409 return;
411 for (gsi = gsi_last_bb (bb); !gsi_end_p (gsi); gsi_prev (&gsi))
413 stmt = gsi_stmt (gsi);
415 /* Ignore labels, returns, nops, clobbers and debug stmts. */
416 if (gimple_code (stmt) == GIMPLE_LABEL
417 || gimple_code (stmt) == GIMPLE_RETURN
418 || gimple_code (stmt) == GIMPLE_NOP
419 || gimple_clobber_p (stmt)
420 || is_gimple_debug (stmt))
421 continue;
423 /* Check for a call. */
424 if (is_gimple_call (stmt))
426 call = as_a <gcall *> (stmt);
427 ass_var = gimple_call_lhs (call);
428 break;
431 /* If the statement references memory or volatile operands, fail. */
432 if (gimple_references_memory_p (stmt)
433 || gimple_has_volatile_ops (stmt))
434 return;
437 if (gsi_end_p (gsi))
439 edge_iterator ei;
440 /* Recurse to the predecessors. */
441 FOR_EACH_EDGE (e, ei, bb->preds)
442 find_tail_calls (e->src, ret);
444 return;
447 /* If the LHS of our call is not just a simple register, we can't
448 transform this into a tail or sibling call. This situation happens,
449 in (e.g.) "*p = foo()" where foo returns a struct. In this case
450 we won't have a temporary here, but we need to carry out the side
451 effect anyway, so tailcall is impossible.
453 ??? In some situations (when the struct is returned in memory via
454 invisible argument) we could deal with this, e.g. by passing 'p'
455 itself as that argument to foo, but it's too early to do this here,
456 and expand_call() will not handle it anyway. If it ever can, then
457 we need to revisit this here, to allow that situation. */
458 if (ass_var && !is_gimple_reg (ass_var))
459 return;
461 /* We found the call, check whether it is suitable. */
462 tail_recursion = false;
463 func = gimple_call_fndecl (call);
464 if (func
465 && !DECL_BUILT_IN (func)
466 && recursive_call_p (current_function_decl, func))
468 tree arg;
470 for (param = DECL_ARGUMENTS (func), idx = 0;
471 param && idx < gimple_call_num_args (call);
472 param = DECL_CHAIN (param), idx ++)
474 arg = gimple_call_arg (call, idx);
475 if (param != arg)
477 /* Make sure there are no problems with copying. The parameter
478 have a copyable type and the two arguments must have reasonably
479 equivalent types. The latter requirement could be relaxed if
480 we emitted a suitable type conversion statement. */
481 if (!is_gimple_reg_type (TREE_TYPE (param))
482 || !useless_type_conversion_p (TREE_TYPE (param),
483 TREE_TYPE (arg)))
484 break;
486 /* The parameter should be a real operand, so that phi node
487 created for it at the start of the function has the meaning
488 of copying the value. This test implies is_gimple_reg_type
489 from the previous condition, however this one could be
490 relaxed by being more careful with copying the new value
491 of the parameter (emitting appropriate GIMPLE_ASSIGN and
492 updating the virtual operands). */
493 if (!is_gimple_reg (param))
494 break;
497 if (idx == gimple_call_num_args (call) && !param)
498 tail_recursion = true;
501 /* Make sure the tail invocation of this function does not refer
502 to local variables. */
503 FOR_EACH_LOCAL_DECL (cfun, idx, var)
505 if (TREE_CODE (var) != PARM_DECL
506 && auto_var_in_fn_p (var, cfun->decl)
507 && (ref_maybe_used_by_stmt_p (call, var)
508 || call_may_clobber_ref_p (call, var)))
509 return;
512 /* Now check the statements after the call. None of them has virtual
513 operands, so they may only depend on the call through its return
514 value. The return value should also be dependent on each of them,
515 since we are running after dce. */
516 m = NULL_TREE;
517 a = NULL_TREE;
519 abb = bb;
520 agsi = gsi;
521 while (1)
523 tree tmp_a = NULL_TREE;
524 tree tmp_m = NULL_TREE;
525 gsi_next (&agsi);
527 while (gsi_end_p (agsi))
529 ass_var = propagate_through_phis (ass_var, single_succ_edge (abb));
530 abb = single_succ (abb);
531 agsi = gsi_start_bb (abb);
534 stmt = gsi_stmt (agsi);
536 if (gimple_code (stmt) == GIMPLE_LABEL
537 || gimple_code (stmt) == GIMPLE_NOP)
538 continue;
540 if (gimple_code (stmt) == GIMPLE_RETURN)
541 break;
543 if (gimple_clobber_p (stmt))
544 continue;
546 if (is_gimple_debug (stmt))
547 continue;
549 if (gimple_code (stmt) != GIMPLE_ASSIGN)
550 return;
552 /* This is a gimple assign. */
553 if (! process_assignment (as_a <gassign *> (stmt), gsi, &tmp_m,
554 &tmp_a, &ass_var))
555 return;
557 if (tmp_a)
559 tree type = TREE_TYPE (tmp_a);
560 if (a)
561 a = fold_build2 (PLUS_EXPR, type, fold_convert (type, a), tmp_a);
562 else
563 a = tmp_a;
565 if (tmp_m)
567 tree type = TREE_TYPE (tmp_m);
568 if (m)
569 m = fold_build2 (MULT_EXPR, type, fold_convert (type, m), tmp_m);
570 else
571 m = tmp_m;
573 if (a)
574 a = fold_build2 (MULT_EXPR, type, fold_convert (type, a), tmp_m);
578 /* See if this is a tail call we can handle. */
579 ret_var = gimple_return_retval (as_a <greturn *> (stmt));
581 /* We may proceed if there either is no return value, or the return value
582 is identical to the call's return. */
583 if (ret_var
584 && (ret_var != ass_var))
585 return;
587 /* If this is not a tail recursive call, we cannot handle addends or
588 multiplicands. */
589 if (!tail_recursion && (m || a))
590 return;
592 /* For pointers only allow additions. */
593 if (m && POINTER_TYPE_P (TREE_TYPE (DECL_RESULT (current_function_decl))))
594 return;
596 nw = XNEW (struct tailcall);
598 nw->call_gsi = gsi;
600 nw->tail_recursion = tail_recursion;
602 nw->mult = m;
603 nw->add = a;
605 nw->next = *ret;
606 *ret = nw;
609 /* Helper to insert PHI_ARGH to the phi of VAR in the destination of edge E. */
611 static void
612 add_successor_phi_arg (edge e, tree var, tree phi_arg)
614 gphi_iterator gsi;
616 for (gsi = gsi_start_phis (e->dest); !gsi_end_p (gsi); gsi_next (&gsi))
617 if (PHI_RESULT (gsi.phi ()) == var)
618 break;
620 gcc_assert (!gsi_end_p (gsi));
621 add_phi_arg (gsi.phi (), phi_arg, e, UNKNOWN_LOCATION);
624 /* Creates a GIMPLE statement which computes the operation specified by
625 CODE, ACC and OP1 to a new variable with name LABEL and inserts the
626 statement in the position specified by GSI. Returns the
627 tree node of the statement's result. */
629 static tree
630 adjust_return_value_with_ops (enum tree_code code, const char *label,
631 tree acc, tree op1, gimple_stmt_iterator gsi)
634 tree ret_type = TREE_TYPE (DECL_RESULT (current_function_decl));
635 tree result = make_temp_ssa_name (ret_type, NULL, label);
636 gassign *stmt;
638 if (POINTER_TYPE_P (ret_type))
640 gcc_assert (code == PLUS_EXPR && TREE_TYPE (acc) == sizetype);
641 code = POINTER_PLUS_EXPR;
643 if (types_compatible_p (TREE_TYPE (acc), TREE_TYPE (op1))
644 && code != POINTER_PLUS_EXPR)
645 stmt = gimple_build_assign (result, code, acc, op1);
646 else
648 tree tem;
649 if (code == POINTER_PLUS_EXPR)
650 tem = fold_build2 (code, TREE_TYPE (op1), op1, acc);
651 else
652 tem = fold_build2 (code, TREE_TYPE (op1),
653 fold_convert (TREE_TYPE (op1), acc), op1);
654 tree rhs = fold_convert (ret_type, tem);
655 rhs = force_gimple_operand_gsi (&gsi, rhs,
656 false, NULL, true, GSI_SAME_STMT);
657 stmt = gimple_build_assign (result, rhs);
660 gsi_insert_before (&gsi, stmt, GSI_NEW_STMT);
661 return result;
664 /* Creates a new GIMPLE statement that adjusts the value of accumulator ACC by
665 the computation specified by CODE and OP1 and insert the statement
666 at the position specified by GSI as a new statement. Returns new SSA name
667 of updated accumulator. */
669 static tree
670 update_accumulator_with_ops (enum tree_code code, tree acc, tree op1,
671 gimple_stmt_iterator gsi)
673 gassign *stmt;
674 tree var = copy_ssa_name (acc);
675 if (types_compatible_p (TREE_TYPE (acc), TREE_TYPE (op1)))
676 stmt = gimple_build_assign (var, code, acc, op1);
677 else
679 tree rhs = fold_convert (TREE_TYPE (acc),
680 fold_build2 (code,
681 TREE_TYPE (op1),
682 fold_convert (TREE_TYPE (op1), acc),
683 op1));
684 rhs = force_gimple_operand_gsi (&gsi, rhs,
685 false, NULL, false, GSI_CONTINUE_LINKING);
686 stmt = gimple_build_assign (var, rhs);
688 gsi_insert_after (&gsi, stmt, GSI_NEW_STMT);
689 return var;
692 /* Adjust the accumulator values according to A and M after GSI, and update
693 the phi nodes on edge BACK. */
695 static void
696 adjust_accumulator_values (gimple_stmt_iterator gsi, tree m, tree a, edge back)
698 tree var, a_acc_arg, m_acc_arg;
700 if (m)
701 m = force_gimple_operand_gsi (&gsi, m, true, NULL, true, GSI_SAME_STMT);
702 if (a)
703 a = force_gimple_operand_gsi (&gsi, a, true, NULL, true, GSI_SAME_STMT);
705 a_acc_arg = a_acc;
706 m_acc_arg = m_acc;
707 if (a)
709 if (m_acc)
711 if (integer_onep (a))
712 var = m_acc;
713 else
714 var = adjust_return_value_with_ops (MULT_EXPR, "acc_tmp", m_acc,
715 a, gsi);
717 else
718 var = a;
720 a_acc_arg = update_accumulator_with_ops (PLUS_EXPR, a_acc, var, gsi);
723 if (m)
724 m_acc_arg = update_accumulator_with_ops (MULT_EXPR, m_acc, m, gsi);
726 if (a_acc)
727 add_successor_phi_arg (back, a_acc, a_acc_arg);
729 if (m_acc)
730 add_successor_phi_arg (back, m_acc, m_acc_arg);
733 /* Adjust value of the return at the end of BB according to M and A
734 accumulators. */
736 static void
737 adjust_return_value (basic_block bb, tree m, tree a)
739 tree retval;
740 greturn *ret_stmt = as_a <greturn *> (gimple_seq_last_stmt (bb_seq (bb)));
741 gimple_stmt_iterator gsi = gsi_last_bb (bb);
743 gcc_assert (gimple_code (ret_stmt) == GIMPLE_RETURN);
745 retval = gimple_return_retval (ret_stmt);
746 if (!retval || retval == error_mark_node)
747 return;
749 if (m)
750 retval = adjust_return_value_with_ops (MULT_EXPR, "mul_tmp", m_acc, retval,
751 gsi);
752 if (a)
753 retval = adjust_return_value_with_ops (PLUS_EXPR, "acc_tmp", a_acc, retval,
754 gsi);
755 gimple_return_set_retval (ret_stmt, retval);
756 update_stmt (ret_stmt);
759 /* Subtract COUNT and FREQUENCY from the basic block and it's
760 outgoing edge. */
761 static void
762 decrease_profile (basic_block bb, gcov_type count, int frequency)
764 edge e;
765 bb->count -= count;
766 if (bb->count < 0)
767 bb->count = 0;
768 bb->frequency -= frequency;
769 if (bb->frequency < 0)
770 bb->frequency = 0;
771 if (!single_succ_p (bb))
773 gcc_assert (!EDGE_COUNT (bb->succs));
774 return;
776 e = single_succ_edge (bb);
777 e->count -= count;
778 if (e->count < 0)
779 e->count = 0;
782 /* Returns true if argument PARAM of the tail recursive call needs to be copied
783 when the call is eliminated. */
785 static bool
786 arg_needs_copy_p (tree param)
788 tree def;
790 if (!is_gimple_reg (param))
791 return false;
793 /* Parameters that are only defined but never used need not be copied. */
794 def = ssa_default_def (cfun, param);
795 if (!def)
796 return false;
798 return true;
801 /* Eliminates tail call described by T. TMP_VARS is a list of
802 temporary variables used to copy the function arguments. */
804 static void
805 eliminate_tail_call (struct tailcall *t)
807 tree param, rslt;
808 gimple *stmt, *call;
809 tree arg;
810 size_t idx;
811 basic_block bb, first;
812 edge e;
813 gphi *phi;
814 gphi_iterator gpi;
815 gimple_stmt_iterator gsi;
816 gimple *orig_stmt;
818 stmt = orig_stmt = gsi_stmt (t->call_gsi);
819 bb = gsi_bb (t->call_gsi);
821 if (dump_file && (dump_flags & TDF_DETAILS))
823 fprintf (dump_file, "Eliminated tail recursion in bb %d : ",
824 bb->index);
825 print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM);
826 fprintf (dump_file, "\n");
829 gcc_assert (is_gimple_call (stmt));
831 first = single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun));
833 /* Remove the code after call_gsi that will become unreachable. The
834 possibly unreachable code in other blocks is removed later in
835 cfg cleanup. */
836 gsi = t->call_gsi;
837 gimple_stmt_iterator gsi2 = gsi_last_bb (gimple_bb (gsi_stmt (gsi)));
838 while (gsi_stmt (gsi2) != gsi_stmt (gsi))
840 gimple *t = gsi_stmt (gsi2);
841 /* Do not remove the return statement, so that redirect_edge_and_branch
842 sees how the block ends. */
843 if (gimple_code (t) != GIMPLE_RETURN)
845 gimple_stmt_iterator gsi3 = gsi2;
846 gsi_prev (&gsi2);
847 gsi_remove (&gsi3, true);
848 release_defs (t);
850 else
851 gsi_prev (&gsi2);
854 /* Number of executions of function has reduced by the tailcall. */
855 e = single_succ_edge (gsi_bb (t->call_gsi));
856 decrease_profile (EXIT_BLOCK_PTR_FOR_FN (cfun), e->count, EDGE_FREQUENCY (e));
857 decrease_profile (ENTRY_BLOCK_PTR_FOR_FN (cfun), e->count,
858 EDGE_FREQUENCY (e));
859 if (e->dest != EXIT_BLOCK_PTR_FOR_FN (cfun))
860 decrease_profile (e->dest, e->count, EDGE_FREQUENCY (e));
862 /* Replace the call by a jump to the start of function. */
863 e = redirect_edge_and_branch (single_succ_edge (gsi_bb (t->call_gsi)),
864 first);
865 gcc_assert (e);
866 PENDING_STMT (e) = NULL;
868 /* Add phi node entries for arguments. The ordering of the phi nodes should
869 be the same as the ordering of the arguments. */
870 for (param = DECL_ARGUMENTS (current_function_decl),
871 idx = 0, gpi = gsi_start_phis (first);
872 param;
873 param = DECL_CHAIN (param), idx++)
875 if (!arg_needs_copy_p (param))
876 continue;
878 arg = gimple_call_arg (stmt, idx);
879 phi = gpi.phi ();
880 gcc_assert (param == SSA_NAME_VAR (PHI_RESULT (phi)));
882 add_phi_arg (phi, arg, e, gimple_location (stmt));
883 gsi_next (&gpi);
886 /* Update the values of accumulators. */
887 adjust_accumulator_values (t->call_gsi, t->mult, t->add, e);
889 call = gsi_stmt (t->call_gsi);
890 rslt = gimple_call_lhs (call);
891 if (rslt != NULL_TREE)
893 /* Result of the call will no longer be defined. So adjust the
894 SSA_NAME_DEF_STMT accordingly. */
895 SSA_NAME_DEF_STMT (rslt) = gimple_build_nop ();
898 gsi_remove (&t->call_gsi, true);
899 release_defs (call);
902 /* Optimizes the tailcall described by T. If OPT_TAILCALLS is true, also
903 mark the tailcalls for the sibcall optimization. */
905 static bool
906 optimize_tail_call (struct tailcall *t, bool opt_tailcalls)
908 if (t->tail_recursion)
910 eliminate_tail_call (t);
911 return true;
914 if (opt_tailcalls)
916 gcall *stmt = as_a <gcall *> (gsi_stmt (t->call_gsi));
918 gimple_call_set_tail (stmt, true);
919 cfun->tail_call_marked = true;
920 if (dump_file && (dump_flags & TDF_DETAILS))
922 fprintf (dump_file, "Found tail call ");
923 print_gimple_stmt (dump_file, stmt, 0, dump_flags);
924 fprintf (dump_file, " in bb %i\n", (gsi_bb (t->call_gsi))->index);
928 return false;
931 /* Creates a tail-call accumulator of the same type as the return type of the
932 current function. LABEL is the name used to creating the temporary
933 variable for the accumulator. The accumulator will be inserted in the
934 phis of a basic block BB with single predecessor with an initial value
935 INIT converted to the current function return type. */
937 static tree
938 create_tailcall_accumulator (const char *label, basic_block bb, tree init)
940 tree ret_type = TREE_TYPE (DECL_RESULT (current_function_decl));
941 if (POINTER_TYPE_P (ret_type))
942 ret_type = sizetype;
944 tree tmp = make_temp_ssa_name (ret_type, NULL, label);
945 gphi *phi;
947 phi = create_phi_node (tmp, bb);
948 /* RET_TYPE can be a float when -ffast-maths is enabled. */
949 add_phi_arg (phi, fold_convert (ret_type, init), single_pred_edge (bb),
950 UNKNOWN_LOCATION);
951 return PHI_RESULT (phi);
954 /* Optimizes tail calls in the function, turning the tail recursion
955 into iteration. */
957 static unsigned int
958 tree_optimize_tail_calls_1 (bool opt_tailcalls)
960 edge e;
961 bool phis_constructed = false;
962 struct tailcall *tailcalls = NULL, *act, *next;
963 bool changed = false;
964 basic_block first = single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun));
965 tree param;
966 gimple *stmt;
967 edge_iterator ei;
969 if (!suitable_for_tail_opt_p ())
970 return 0;
971 if (opt_tailcalls)
972 opt_tailcalls = suitable_for_tail_call_opt_p ();
974 FOR_EACH_EDGE (e, ei, EXIT_BLOCK_PTR_FOR_FN (cfun)->preds)
976 /* Only traverse the normal exits, i.e. those that end with return
977 statement. */
978 stmt = last_stmt (e->src);
980 if (stmt
981 && gimple_code (stmt) == GIMPLE_RETURN)
982 find_tail_calls (e->src, &tailcalls);
985 /* Construct the phi nodes and accumulators if necessary. */
986 a_acc = m_acc = NULL_TREE;
987 for (act = tailcalls; act; act = act->next)
989 if (!act->tail_recursion)
990 continue;
992 if (!phis_constructed)
994 /* Ensure that there is only one predecessor of the block
995 or if there are existing degenerate PHI nodes. */
996 if (!single_pred_p (first)
997 || !gimple_seq_empty_p (phi_nodes (first)))
998 first =
999 split_edge (single_succ_edge (ENTRY_BLOCK_PTR_FOR_FN (cfun)));
1001 /* Copy the args if needed. */
1002 for (param = DECL_ARGUMENTS (current_function_decl);
1003 param;
1004 param = DECL_CHAIN (param))
1005 if (arg_needs_copy_p (param))
1007 tree name = ssa_default_def (cfun, param);
1008 tree new_name = make_ssa_name (param, SSA_NAME_DEF_STMT (name));
1009 gphi *phi;
1011 set_ssa_default_def (cfun, param, new_name);
1012 phi = create_phi_node (name, first);
1013 add_phi_arg (phi, new_name, single_pred_edge (first),
1014 EXPR_LOCATION (param));
1016 phis_constructed = true;
1019 if (act->add && !a_acc)
1020 a_acc = create_tailcall_accumulator ("add_acc", first,
1021 integer_zero_node);
1023 if (act->mult && !m_acc)
1024 m_acc = create_tailcall_accumulator ("mult_acc", first,
1025 integer_one_node);
1028 if (a_acc || m_acc)
1030 /* When the tail call elimination using accumulators is performed,
1031 statements adding the accumulated value are inserted at all exits.
1032 This turns all other tail calls to non-tail ones. */
1033 opt_tailcalls = false;
1036 for (; tailcalls; tailcalls = next)
1038 next = tailcalls->next;
1039 changed |= optimize_tail_call (tailcalls, opt_tailcalls);
1040 free (tailcalls);
1043 if (a_acc || m_acc)
1045 /* Modify the remaining return statements. */
1046 FOR_EACH_EDGE (e, ei, EXIT_BLOCK_PTR_FOR_FN (cfun)->preds)
1048 stmt = last_stmt (e->src);
1050 if (stmt
1051 && gimple_code (stmt) == GIMPLE_RETURN)
1052 adjust_return_value (e->src, m_acc, a_acc);
1056 if (changed)
1058 /* We may have created new loops. Make them magically appear. */
1059 loops_state_set (LOOPS_NEED_FIXUP);
1060 free_dominance_info (CDI_DOMINATORS);
1063 /* Add phi nodes for the virtual operands defined in the function to the
1064 header of the loop created by tail recursion elimination. Do so
1065 by triggering the SSA renamer. */
1066 if (phis_constructed)
1067 mark_virtual_operands_for_renaming (cfun);
1069 if (changed)
1070 return TODO_cleanup_cfg | TODO_update_ssa_only_virtuals;
1071 return 0;
1074 static bool
1075 gate_tail_calls (void)
1077 return flag_optimize_sibling_calls != 0 && dbg_cnt (tail_call);
1080 static unsigned int
1081 execute_tail_calls (void)
1083 return tree_optimize_tail_calls_1 (true);
1086 namespace {
1088 const pass_data pass_data_tail_recursion =
1090 GIMPLE_PASS, /* type */
1091 "tailr", /* name */
1092 OPTGROUP_NONE, /* optinfo_flags */
1093 TV_NONE, /* tv_id */
1094 ( PROP_cfg | PROP_ssa ), /* properties_required */
1095 0, /* properties_provided */
1096 0, /* properties_destroyed */
1097 0, /* todo_flags_start */
1098 0, /* todo_flags_finish */
1101 class pass_tail_recursion : public gimple_opt_pass
1103 public:
1104 pass_tail_recursion (gcc::context *ctxt)
1105 : gimple_opt_pass (pass_data_tail_recursion, ctxt)
1108 /* opt_pass methods: */
1109 opt_pass * clone () { return new pass_tail_recursion (m_ctxt); }
1110 virtual bool gate (function *) { return gate_tail_calls (); }
1111 virtual unsigned int execute (function *)
1113 return tree_optimize_tail_calls_1 (false);
1116 }; // class pass_tail_recursion
1118 } // anon namespace
1120 gimple_opt_pass *
1121 make_pass_tail_recursion (gcc::context *ctxt)
1123 return new pass_tail_recursion (ctxt);
1126 namespace {
1128 const pass_data pass_data_tail_calls =
1130 GIMPLE_PASS, /* type */
1131 "tailc", /* name */
1132 OPTGROUP_NONE, /* optinfo_flags */
1133 TV_NONE, /* tv_id */
1134 ( PROP_cfg | PROP_ssa ), /* properties_required */
1135 0, /* properties_provided */
1136 0, /* properties_destroyed */
1137 0, /* todo_flags_start */
1138 0, /* todo_flags_finish */
1141 class pass_tail_calls : public gimple_opt_pass
1143 public:
1144 pass_tail_calls (gcc::context *ctxt)
1145 : gimple_opt_pass (pass_data_tail_calls, ctxt)
1148 /* opt_pass methods: */
1149 virtual bool gate (function *) { return gate_tail_calls (); }
1150 virtual unsigned int execute (function *) { return execute_tail_calls (); }
1152 }; // class pass_tail_calls
1154 } // anon namespace
1156 gimple_opt_pass *
1157 make_pass_tail_calls (gcc::context *ctxt)
1159 return new pass_tail_calls (ctxt);