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1 /* Conditional Dead Call Elimination pass for the GNU compiler.
2 Copyright (C) 2008, 2009, 2010
3 Free Software Foundation, Inc.
4 Contributed by Xinliang David Li <davidxl@google.com>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it
9 under the terms of the GNU General Public License as published by the
10 Free Software Foundation; either version 3, or (at your option) any
11 later version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
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/>. */
22 #include "config.h"
23 #include "system.h"
24 #include "coretypes.h"
25 #include "tm.h"
26 #include "basic-block.h"
27 #include "tree.h"
28 #include "gimple-pretty-print.h"
29 #include "tree-flow.h"
30 #include "gimple.h"
31 #include "tree-pass.h"
32 #include "flags.h"
35 /* Conditional dead call elimination
37 Some builtin functions can set errno on error conditions, but they
38 are otherwise pure. If the result of a call to such a function is
39 not used, the compiler can still not eliminate the call without
40 powerful interprocedural analysis to prove that the errno is not
41 checked. However, if the conditions under which the error occurs
42 are known, the compiler can conditionally dead code eliminate the
43 calls by shrink-wrapping the semi-dead calls into the error condition:
45 built_in_call (args)
46 ==>
47 if (error_cond (args))
48 built_in_call (args)
50 An actual simple example is :
51 log (x); // Mostly dead call
52 ==>
53 if (x < 0)
54 log (x);
55 With this change, call to log (x) is effectively eliminated, as
56 in majority of the cases, log won't be called with x out of
57 range. The branch is totally predictable, so the branch cost
58 is low.
60 Note that library functions are not supposed to clear errno to zero without
61 error. See IEEE Std 1003.1, section 2.3 Error Numbers, and section 7.5:3 of
62 ISO/IEC 9899 (C99).
64 The condition wrapping the builtin call is conservatively set to avoid too
65 aggressive (wrong) shrink wrapping. The optimization is called conditional
66 dead call elimination because the call is eliminated under the condition
67 that the input arguments would not lead to domain or range error (for
68 instance when x <= 0 for a log (x) call), however the chances that the error
69 condition is hit is very low (those builtin calls which are conditionally
70 dead are usually part of the C++ abstraction penalty exposed after
71 inlining). */
74 /* A structure for representing input domain of
75 a function argument in integer. If the lower
76 bound is -inf, has_lb is set to false. If the
77 upper bound is +inf, has_ub is false.
78 is_lb_inclusive and is_ub_inclusive are flags
79 to indicate if lb and ub value are inclusive
80 respectively. */
82 typedef struct input_domain
84 int lb;
85 int ub;
86 bool has_lb;
87 bool has_ub;
88 bool is_lb_inclusive;
89 bool is_ub_inclusive;
90 } inp_domain;
92 /* A helper function to construct and return an input
93 domain object. LB is the lower bound, HAS_LB is
94 a boolean flag indicating if the lower bound exists,
95 and LB_INCLUSIVE is a boolean flag indicating if the
96 lower bound is inclusive or not. UB, HAS_UB, and
97 UB_INCLUSIVE have the same meaning, but for upper
98 bound of the domain. */
100 static inp_domain
101 get_domain (int lb, bool has_lb, bool lb_inclusive,
102 int ub, bool has_ub, bool ub_inclusive)
104 inp_domain domain;
105 domain.lb = lb;
106 domain.has_lb = has_lb;
107 domain.is_lb_inclusive = lb_inclusive;
108 domain.ub = ub;
109 domain.has_ub = has_ub;
110 domain.is_ub_inclusive = ub_inclusive;
111 return domain;
114 /* A helper function to check the target format for the
115 argument type. In this implementation, only IEEE formats
116 are supported. ARG is the call argument to be checked.
117 Returns true if the format is supported. To support other
118 target formats, function get_no_error_domain needs to be
119 enhanced to have range bounds properly computed. Since
120 the check is cheap (very small number of candidates
121 to be checked), the result is not cached for each float type. */
123 static bool
124 check_target_format (tree arg)
126 tree type;
127 enum machine_mode mode;
128 const struct real_format *rfmt;
130 type = TREE_TYPE (arg);
131 mode = TYPE_MODE (type);
132 rfmt = REAL_MODE_FORMAT (mode);
133 if ((mode == SFmode
134 && (rfmt == &ieee_single_format || rfmt == &mips_single_format
135 || rfmt == &motorola_single_format))
136 || (mode == DFmode
137 && (rfmt == &ieee_double_format || rfmt == &mips_double_format
138 || rfmt == &motorola_double_format))
139 /* For long double, we can not really check XFmode
140 which is only defined on intel platforms.
141 Candidate pre-selection using builtin function
142 code guarantees that we are checking formats
143 for long double modes: double, quad, and extended. */
144 || (mode != SFmode && mode != DFmode
145 && (rfmt == &ieee_quad_format
146 || rfmt == &mips_quad_format
147 || rfmt == &ieee_extended_motorola_format
148 || rfmt == &ieee_extended_intel_96_format
149 || rfmt == &ieee_extended_intel_128_format
150 || rfmt == &ieee_extended_intel_96_round_53_format)))
151 return true;
153 return false;
157 /* A helper function to help select calls to pow that are suitable for
158 conditional DCE transformation. It looks for pow calls that can be
159 guided with simple conditions. Such calls either have constant base
160 values or base values converted from integers. Returns true if
161 the pow call POW_CALL is a candidate. */
163 /* The maximum integer bit size for base argument of a pow call
164 that is suitable for shrink-wrapping transformation. */
165 #define MAX_BASE_INT_BIT_SIZE 32
167 static bool
168 check_pow (gimple pow_call)
170 tree base, expn;
171 enum tree_code bc, ec;
173 if (gimple_call_num_args (pow_call) != 2)
174 return false;
176 base = gimple_call_arg (pow_call, 0);
177 expn = gimple_call_arg (pow_call, 1);
179 if (!check_target_format (expn))
180 return false;
182 bc = TREE_CODE (base);
183 ec = TREE_CODE (expn);
185 /* Folding candidates are not interesting.
186 Can actually assert that it is already folded. */
187 if (ec == REAL_CST && bc == REAL_CST)
188 return false;
190 if (bc == REAL_CST)
192 /* Only handle a fixed range of constant. */
193 REAL_VALUE_TYPE mv;
194 REAL_VALUE_TYPE bcv = TREE_REAL_CST (base);
195 if (REAL_VALUES_EQUAL (bcv, dconst1))
196 return false;
197 if (REAL_VALUES_LESS (bcv, dconst1))
198 return false;
199 real_from_integer (&mv, TYPE_MODE (TREE_TYPE (base)), 256, 0, 1);
200 if (REAL_VALUES_LESS (mv, bcv))
201 return false;
202 return true;
204 else if (bc == SSA_NAME)
206 tree base_val0, type;
207 gimple base_def;
208 int bit_sz;
210 /* Only handles cases where base value is converted
211 from integer values. */
212 base_def = SSA_NAME_DEF_STMT (base);
213 if (gimple_code (base_def) != GIMPLE_ASSIGN)
214 return false;
216 if (gimple_assign_rhs_code (base_def) != FLOAT_EXPR)
217 return false;
218 base_val0 = gimple_assign_rhs1 (base_def);
220 type = TREE_TYPE (base_val0);
221 if (TREE_CODE (type) != INTEGER_TYPE)
222 return false;
223 bit_sz = TYPE_PRECISION (type);
224 /* If the type of the base is too wide,
225 the resulting shrink wrapping condition
226 will be too conservative. */
227 if (bit_sz > MAX_BASE_INT_BIT_SIZE)
228 return false;
230 return true;
232 else
233 return false;
236 /* A helper function to help select candidate function calls that are
237 suitable for conditional DCE. Candidate functions must have single
238 valid input domain in this implementation except for pow (see check_pow).
239 Returns true if the function call is a candidate. */
241 static bool
242 check_builtin_call (gimple bcall)
244 tree arg;
246 arg = gimple_call_arg (bcall, 0);
247 return check_target_format (arg);
250 /* A helper function to determine if a builtin function call is a
251 candidate for conditional DCE. Returns true if the builtin call
252 is a candidate. */
254 static bool
255 is_call_dce_candidate (gimple call)
257 tree fn;
258 enum built_in_function fnc;
260 /* Only potentially dead calls are considered. */
261 if (gimple_call_lhs (call))
262 return false;
264 fn = gimple_call_fndecl (call);
265 if (!fn
266 || !DECL_BUILT_IN (fn)
267 || (DECL_BUILT_IN_CLASS (fn) != BUILT_IN_NORMAL))
268 return false;
270 fnc = DECL_FUNCTION_CODE (fn);
271 switch (fnc)
273 /* Trig functions. */
274 CASE_FLT_FN (BUILT_IN_ACOS):
275 CASE_FLT_FN (BUILT_IN_ASIN):
276 /* Hyperbolic functions. */
277 CASE_FLT_FN (BUILT_IN_ACOSH):
278 CASE_FLT_FN (BUILT_IN_ATANH):
279 CASE_FLT_FN (BUILT_IN_COSH):
280 CASE_FLT_FN (BUILT_IN_SINH):
281 /* Log functions. */
282 CASE_FLT_FN (BUILT_IN_LOG):
283 CASE_FLT_FN (BUILT_IN_LOG2):
284 CASE_FLT_FN (BUILT_IN_LOG10):
285 CASE_FLT_FN (BUILT_IN_LOG1P):
286 /* Exp functions. */
287 CASE_FLT_FN (BUILT_IN_EXP):
288 CASE_FLT_FN (BUILT_IN_EXP2):
289 CASE_FLT_FN (BUILT_IN_EXP10):
290 CASE_FLT_FN (BUILT_IN_EXPM1):
291 CASE_FLT_FN (BUILT_IN_POW10):
292 /* Sqrt. */
293 CASE_FLT_FN (BUILT_IN_SQRT):
294 return check_builtin_call (call);
295 /* Special one: two argument pow. */
296 case BUILT_IN_POW:
297 return check_pow (call);
298 default:
299 break;
302 return false;
306 /* A helper function to generate gimple statements for
307 one bound comparison. ARG is the call argument to
308 be compared with the bound, LBUB is the bound value
309 in integer, TCODE is the tree_code of the comparison,
310 TEMP_NAME1/TEMP_NAME2 are names of the temporaries,
311 CONDS is a vector holding the produced GIMPLE statements,
312 and NCONDS points to the variable holding the number
313 of logical comparisons. CONDS is either empty or
314 a list ended with a null tree. */
316 static void
317 gen_one_condition (tree arg, int lbub,
318 enum tree_code tcode,
319 const char *temp_name1,
320 const char *temp_name2,
321 VEC (gimple, heap) *conds,
322 unsigned *nconds)
324 tree lbub_real_cst, lbub_cst, float_type;
325 tree temp, tempn, tempc, tempcn;
326 gimple stmt1, stmt2, stmt3;
328 float_type = TREE_TYPE (arg);
329 lbub_cst = build_int_cst (integer_type_node, lbub);
330 lbub_real_cst = build_real_from_int_cst (float_type, lbub_cst);
332 temp = create_tmp_var (float_type, temp_name1);
333 stmt1 = gimple_build_assign (temp, arg);
334 tempn = make_ssa_name (temp, stmt1);
335 gimple_assign_set_lhs (stmt1, tempn);
337 tempc = create_tmp_var (boolean_type_node, temp_name2);
338 stmt2 = gimple_build_assign (tempc,
339 fold_build2 (tcode,
340 boolean_type_node,
341 tempn, lbub_real_cst));
342 tempcn = make_ssa_name (tempc, stmt2);
343 gimple_assign_set_lhs (stmt2, tempcn);
345 stmt3 = gimple_build_cond_from_tree (tempcn, NULL_TREE, NULL_TREE);
346 VEC_quick_push (gimple, conds, stmt1);
347 VEC_quick_push (gimple, conds, stmt2);
348 VEC_quick_push (gimple, conds, stmt3);
349 (*nconds)++;
352 /* A helper function to generate GIMPLE statements for
353 out of input domain check. ARG is the call argument
354 to be runtime checked, DOMAIN holds the valid domain
355 for the given function, CONDS points to the vector
356 holding the result GIMPLE statements. *NCONDS is
357 the number of logical comparisons. This function
358 produces no more than two logical comparisons, one
359 for lower bound check, one for upper bound check. */
361 static void
362 gen_conditions_for_domain (tree arg, inp_domain domain,
363 VEC (gimple, heap) *conds,
364 unsigned *nconds)
366 if (domain.has_lb)
367 gen_one_condition (arg, domain.lb,
368 (domain.is_lb_inclusive
369 ? LT_EXPR : LE_EXPR),
370 "DCE_COND_LB", "DCE_COND_LB_TEST",
371 conds, nconds);
373 if (domain.has_ub)
375 /* Now push a separator. */
376 if (domain.has_lb)
377 VEC_quick_push (gimple, conds, NULL);
379 gen_one_condition (arg, domain.ub,
380 (domain.is_ub_inclusive
381 ? GT_EXPR : GE_EXPR),
382 "DCE_COND_UB", "DCE_COND_UB_TEST",
383 conds, nconds);
388 /* A helper function to generate condition
389 code for the y argument in call pow (some_const, y).
390 See candidate selection in check_pow. Since the
391 candidates' base values have a limited range,
392 the guarded code generated for y are simple:
393 if (y > max_y)
394 pow (const, y);
395 Note max_y can be computed separately for each
396 const base, but in this implementation, we
397 choose to compute it using the max base
398 in the allowed range for the purpose of
399 simplicity. BASE is the constant base value,
400 EXPN is the expression for the exponent argument,
401 *CONDS is the vector to hold resulting statements,
402 and *NCONDS is the number of logical conditions. */
404 static void
405 gen_conditions_for_pow_cst_base (tree base, tree expn,
406 VEC (gimple, heap) *conds,
407 unsigned *nconds)
409 inp_domain exp_domain;
410 /* Validate the range of the base constant to make
411 sure it is consistent with check_pow. */
412 REAL_VALUE_TYPE mv;
413 REAL_VALUE_TYPE bcv = TREE_REAL_CST (base);
414 gcc_assert (!REAL_VALUES_EQUAL (bcv, dconst1)
415 && !REAL_VALUES_LESS (bcv, dconst1));
416 real_from_integer (&mv, TYPE_MODE (TREE_TYPE (base)), 256, 0, 1);
417 gcc_assert (!REAL_VALUES_LESS (mv, bcv));
419 exp_domain = get_domain (0, false, false,
420 127, true, false);
422 gen_conditions_for_domain (expn, exp_domain,
423 conds, nconds);
426 /* Generate error condition code for pow calls with
427 non constant base values. The candidates selected
428 have their base argument value converted from
429 integer (see check_pow) value (1, 2, 4 bytes), and
430 the max exp value is computed based on the size
431 of the integer type (i.e. max possible base value).
432 The resulting input domain for exp argument is thus
433 conservative (smaller than the max value allowed by
434 the runtime value of the base). BASE is the integer
435 base value, EXPN is the expression for the exponent
436 argument, *CONDS is the vector to hold resulting
437 statements, and *NCONDS is the number of logical
438 conditions. */
440 static void
441 gen_conditions_for_pow_int_base (tree base, tree expn,
442 VEC (gimple, heap) *conds,
443 unsigned *nconds)
445 gimple base_def;
446 tree base_val0;
447 tree int_type;
448 tree temp, tempn;
449 tree cst0;
450 gimple stmt1, stmt2;
451 int bit_sz, max_exp;
452 inp_domain exp_domain;
454 base_def = SSA_NAME_DEF_STMT (base);
455 base_val0 = gimple_assign_rhs1 (base_def);
456 int_type = TREE_TYPE (base_val0);
457 bit_sz = TYPE_PRECISION (int_type);
458 gcc_assert (bit_sz > 0
459 && bit_sz <= MAX_BASE_INT_BIT_SIZE);
461 /* Determine the max exp argument value according to
462 the size of the base integer. The max exp value
463 is conservatively estimated assuming IEEE754 double
464 precision format. */
465 if (bit_sz == 8)
466 max_exp = 128;
467 else if (bit_sz == 16)
468 max_exp = 64;
469 else
471 gcc_assert (bit_sz == MAX_BASE_INT_BIT_SIZE);
472 max_exp = 32;
475 /* For pow ((double)x, y), generate the following conditions:
476 cond 1:
477 temp1 = x;
478 if (temp1 <= 0)
480 cond 2:
481 temp2 = y;
482 if (temp2 > max_exp_real_cst) */
484 /* Generate condition in reverse order -- first
485 the condition for the exp argument. */
487 exp_domain = get_domain (0, false, false,
488 max_exp, true, true);
490 gen_conditions_for_domain (expn, exp_domain,
491 conds, nconds);
493 /* Now generate condition for the base argument.
494 Note it does not use the helper function
495 gen_conditions_for_domain because the base
496 type is integer. */
498 /* Push a separator. */
499 VEC_quick_push (gimple, conds, NULL);
501 temp = create_tmp_var (int_type, "DCE_COND1");
502 cst0 = build_int_cst (int_type, 0);
503 stmt1 = gimple_build_assign (temp, base_val0);
504 tempn = make_ssa_name (temp, stmt1);
505 gimple_assign_set_lhs (stmt1, tempn);
506 stmt2 = gimple_build_cond (LE_EXPR, tempn, cst0, NULL_TREE, NULL_TREE);
508 VEC_quick_push (gimple, conds, stmt1);
509 VEC_quick_push (gimple, conds, stmt2);
510 (*nconds)++;
513 /* Method to generate conditional statements for guarding conditionally
514 dead calls to pow. One or more statements can be generated for
515 each logical condition. Statement groups of different conditions
516 are separated by a NULL tree and they are stored in the VEC
517 conds. The number of logical conditions are stored in *nconds.
519 See C99 standard, 7.12.7.4:2, for description of pow (x, y).
520 The precise condition for domain errors are complex. In this
521 implementation, a simplified (but conservative) valid domain
522 for x and y are used: x is positive to avoid dom errors, while
523 y is smaller than a upper bound (depending on x) to avoid range
524 errors. Runtime code is generated to check x (if not constant)
525 and y against the valid domain. If it is out, jump to the call,
526 otherwise the call is bypassed. POW_CALL is the call statement,
527 *CONDS is a vector holding the resulting condition statements,
528 and *NCONDS is the number of logical conditions. */
530 static void
531 gen_conditions_for_pow (gimple pow_call, VEC (gimple, heap) *conds,
532 unsigned *nconds)
534 tree base, expn;
535 enum tree_code bc;
537 gcc_checking_assert (check_pow (pow_call));
539 *nconds = 0;
541 base = gimple_call_arg (pow_call, 0);
542 expn = gimple_call_arg (pow_call, 1);
544 bc = TREE_CODE (base);
546 if (bc == REAL_CST)
547 gen_conditions_for_pow_cst_base (base, expn, conds, nconds);
548 else if (bc == SSA_NAME)
549 gen_conditions_for_pow_int_base (base, expn, conds, nconds);
550 else
551 gcc_unreachable ();
554 /* A helper routine to help computing the valid input domain
555 for a builtin function. See C99 7.12.7 for details. In this
556 implementation, we only handle single region domain. The
557 resulting region can be conservative (smaller) than the actual
558 one and rounded to integers. Some of the bounds are documented
559 in the standard, while other limit constants are computed
560 assuming IEEE floating point format (for SF and DF modes).
561 Since IEEE only sets minimum requirements for long double format,
562 different long double formats exist under different implementations
563 (e.g, 64 bit double precision (DF), 80 bit double-extended
564 precision (XF), and 128 bit quad precision (QF) ). For simplicity,
565 in this implementation, the computed bounds for long double assume
566 64 bit format (DF), and are therefore conservative. Another
567 assumption is that single precision float type is always SF mode,
568 and double type is DF mode. This function is quite
569 implementation specific, so it may not be suitable to be part of
570 builtins.c. This needs to be revisited later to see if it can
571 be leveraged in x87 assembly expansion. */
573 static inp_domain
574 get_no_error_domain (enum built_in_function fnc)
576 switch (fnc)
578 /* Trig functions: return [-1, +1] */
579 CASE_FLT_FN (BUILT_IN_ACOS):
580 CASE_FLT_FN (BUILT_IN_ASIN):
581 return get_domain (-1, true, true,
582 1, true, true);
583 /* Hyperbolic functions. */
584 CASE_FLT_FN (BUILT_IN_ACOSH):
585 /* acosh: [1, +inf) */
586 return get_domain (1, true, true,
587 1, false, false);
588 CASE_FLT_FN (BUILT_IN_ATANH):
589 /* atanh: (-1, +1) */
590 return get_domain (-1, true, false,
591 1, true, false);
592 case BUILT_IN_COSHF:
593 case BUILT_IN_SINHF:
594 /* coshf: (-89, +89) */
595 return get_domain (-89, true, false,
596 89, true, false);
597 case BUILT_IN_COSH:
598 case BUILT_IN_SINH:
599 case BUILT_IN_COSHL:
600 case BUILT_IN_SINHL:
601 /* cosh: (-710, +710) */
602 return get_domain (-710, true, false,
603 710, true, false);
604 /* Log functions: (0, +inf) */
605 CASE_FLT_FN (BUILT_IN_LOG):
606 CASE_FLT_FN (BUILT_IN_LOG2):
607 CASE_FLT_FN (BUILT_IN_LOG10):
608 return get_domain (0, true, false,
609 0, false, false);
610 CASE_FLT_FN (BUILT_IN_LOG1P):
611 return get_domain (-1, true, false,
612 0, false, false);
613 /* Exp functions. */
614 case BUILT_IN_EXPF:
615 case BUILT_IN_EXPM1F:
616 /* expf: (-inf, 88) */
617 return get_domain (-1, false, false,
618 88, true, false);
619 case BUILT_IN_EXP:
620 case BUILT_IN_EXPM1:
621 case BUILT_IN_EXPL:
622 case BUILT_IN_EXPM1L:
623 /* exp: (-inf, 709) */
624 return get_domain (-1, false, false,
625 709, true, false);
626 case BUILT_IN_EXP2F:
627 /* exp2f: (-inf, 128) */
628 return get_domain (-1, false, false,
629 128, true, false);
630 case BUILT_IN_EXP2:
631 case BUILT_IN_EXP2L:
632 /* exp2: (-inf, 1024) */
633 return get_domain (-1, false, false,
634 1024, true, false);
635 case BUILT_IN_EXP10F:
636 case BUILT_IN_POW10F:
637 /* exp10f: (-inf, 38) */
638 return get_domain (-1, false, false,
639 38, true, false);
640 case BUILT_IN_EXP10:
641 case BUILT_IN_POW10:
642 case BUILT_IN_EXP10L:
643 case BUILT_IN_POW10L:
644 /* exp10: (-inf, 308) */
645 return get_domain (-1, false, false,
646 308, true, false);
647 /* sqrt: [0, +inf) */
648 CASE_FLT_FN (BUILT_IN_SQRT):
649 return get_domain (0, true, true,
650 0, false, false);
651 default:
652 gcc_unreachable ();
655 gcc_unreachable ();
658 /* The function to generate shrink wrap conditions for a partially
659 dead builtin call whose return value is not used anywhere,
660 but has to be kept live due to potential error condition.
661 BI_CALL is the builtin call, CONDS is the vector of statements
662 for condition code, NCODES is the pointer to the number of
663 logical conditions. Statements belonging to different logical
664 condition are separated by NULL tree in the vector. */
666 static void
667 gen_shrink_wrap_conditions (gimple bi_call, VEC (gimple, heap) *conds,
668 unsigned int *nconds)
670 gimple call;
671 tree fn;
672 enum built_in_function fnc;
674 gcc_assert (nconds && conds);
675 gcc_assert (VEC_length (gimple, conds) == 0);
676 gcc_assert (is_gimple_call (bi_call));
678 call = bi_call;
679 fn = gimple_call_fndecl (call);
680 gcc_assert (fn && DECL_BUILT_IN (fn));
681 fnc = DECL_FUNCTION_CODE (fn);
682 *nconds = 0;
684 if (fnc == BUILT_IN_POW)
685 gen_conditions_for_pow (call, conds, nconds);
686 else
688 tree arg;
689 inp_domain domain = get_no_error_domain (fnc);
690 *nconds = 0;
691 arg = gimple_call_arg (bi_call, 0);
692 gen_conditions_for_domain (arg, domain, conds, nconds);
695 return;
699 /* Probability of the branch (to the call) is taken. */
700 #define ERR_PROB 0.01
702 /* The function to shrink wrap a partially dead builtin call
703 whose return value is not used anywhere, but has to be kept
704 live due to potential error condition. Returns true if the
705 transformation actually happens. */
707 static bool
708 shrink_wrap_one_built_in_call (gimple bi_call)
710 gimple_stmt_iterator bi_call_bsi;
711 basic_block bi_call_bb, join_tgt_bb, guard_bb, guard_bb0;
712 edge join_tgt_in_edge_from_call, join_tgt_in_edge_fall_thru;
713 edge bi_call_in_edge0, guard_bb_in_edge;
714 VEC (gimple, heap) *conds;
715 unsigned tn_cond_stmts, nconds;
716 unsigned ci;
717 gimple cond_expr = NULL;
718 gimple cond_expr_start;
719 tree bi_call_label_decl;
720 gimple bi_call_label;
722 conds = VEC_alloc (gimple, heap, 12);
723 gen_shrink_wrap_conditions (bi_call, conds, &nconds);
725 /* This can happen if the condition generator decides
726 it is not beneficial to do the transformation. Just
727 return false and do not do any transformation for
728 the call. */
729 if (nconds == 0)
730 return false;
732 bi_call_bb = gimple_bb (bi_call);
734 /* Now find the join target bb -- split
735 bi_call_bb if needed. */
736 bi_call_bsi = gsi_for_stmt (bi_call);
738 join_tgt_in_edge_from_call = split_block (bi_call_bb, bi_call);
739 bi_call_bsi = gsi_for_stmt (bi_call);
741 join_tgt_bb = join_tgt_in_edge_from_call->dest;
743 /* Now it is time to insert the first conditional expression
744 into bi_call_bb and split this bb so that bi_call is
745 shrink-wrapped. */
746 tn_cond_stmts = VEC_length (gimple, conds);
747 cond_expr = NULL;
748 cond_expr_start = VEC_index (gimple, conds, 0);
749 for (ci = 0; ci < tn_cond_stmts; ci++)
751 gimple c = VEC_index (gimple, conds, ci);
752 gcc_assert (c || ci != 0);
753 if (!c)
754 break;
755 gsi_insert_before (&bi_call_bsi, c, GSI_SAME_STMT);
756 cond_expr = c;
758 nconds--;
759 ci++;
760 gcc_assert (cond_expr && gimple_code (cond_expr) == GIMPLE_COND);
762 /* Now the label. */
763 bi_call_label_decl = create_artificial_label (gimple_location (bi_call));
764 bi_call_label = gimple_build_label (bi_call_label_decl);
765 gsi_insert_before (&bi_call_bsi, bi_call_label, GSI_SAME_STMT);
767 bi_call_in_edge0 = split_block (bi_call_bb, cond_expr);
768 bi_call_in_edge0->flags &= ~EDGE_FALLTHRU;
769 bi_call_in_edge0->flags |= EDGE_TRUE_VALUE;
770 guard_bb0 = bi_call_bb;
771 bi_call_bb = bi_call_in_edge0->dest;
772 join_tgt_in_edge_fall_thru = make_edge (guard_bb0, join_tgt_bb,
773 EDGE_FALSE_VALUE);
775 bi_call_in_edge0->probability = REG_BR_PROB_BASE * ERR_PROB;
776 bi_call_in_edge0->count =
777 apply_probability (guard_bb0->count,
778 bi_call_in_edge0->probability);
779 join_tgt_in_edge_fall_thru->probability =
780 inverse_probability (bi_call_in_edge0->probability);
781 join_tgt_in_edge_fall_thru->count =
782 guard_bb0->count - bi_call_in_edge0->count;
784 /* Code generation for the rest of the conditions */
785 guard_bb = guard_bb0;
786 while (nconds > 0)
788 unsigned ci0;
789 edge bi_call_in_edge;
790 gimple_stmt_iterator guard_bsi = gsi_for_stmt (cond_expr_start);
791 ci0 = ci;
792 cond_expr_start = VEC_index (gimple, conds, ci0);
793 for (; ci < tn_cond_stmts; ci++)
795 gimple c = VEC_index (gimple, conds, ci);
796 gcc_assert (c || ci != ci0);
797 if (!c)
798 break;
799 gsi_insert_before (&guard_bsi, c, GSI_SAME_STMT);
800 cond_expr = c;
802 nconds--;
803 ci++;
804 gcc_assert (cond_expr && gimple_code (cond_expr) == GIMPLE_COND);
805 guard_bb_in_edge = split_block (guard_bb, cond_expr);
806 guard_bb_in_edge->flags &= ~EDGE_FALLTHRU;
807 guard_bb_in_edge->flags |= EDGE_FALSE_VALUE;
809 bi_call_in_edge = make_edge (guard_bb, bi_call_bb, EDGE_TRUE_VALUE);
811 bi_call_in_edge->probability = REG_BR_PROB_BASE * ERR_PROB;
812 bi_call_in_edge->count =
813 apply_probability (guard_bb->count,
814 bi_call_in_edge->probability);
815 guard_bb_in_edge->probability =
816 inverse_probability (bi_call_in_edge->probability);
817 guard_bb_in_edge->count = guard_bb->count - bi_call_in_edge->count;
820 VEC_free (gimple, heap, conds);
821 if (dump_file && (dump_flags & TDF_DETAILS))
823 location_t loc;
824 loc = gimple_location (bi_call);
825 fprintf (dump_file,
826 "%s:%d: note: function call is shrink-wrapped"
827 " into error conditions.\n",
828 LOCATION_FILE (loc), LOCATION_LINE (loc));
831 return true;
834 /* The top level function for conditional dead code shrink
835 wrapping transformation. */
837 static bool
838 shrink_wrap_conditional_dead_built_in_calls (VEC (gimple, heap) *calls)
840 bool changed = false;
841 unsigned i = 0;
843 unsigned n = VEC_length (gimple, calls);
844 if (n == 0)
845 return false;
847 for (; i < n ; i++)
849 gimple bi_call = VEC_index (gimple, calls, i);
850 changed |= shrink_wrap_one_built_in_call (bi_call);
853 return changed;
856 /* Pass entry points. */
858 static unsigned int
859 tree_call_cdce (void)
861 basic_block bb;
862 gimple_stmt_iterator i;
863 bool something_changed = false;
864 VEC (gimple, heap) *cond_dead_built_in_calls = NULL;
865 FOR_EACH_BB (bb)
867 /* Collect dead call candidates. */
868 for (i = gsi_start_bb (bb); !gsi_end_p (i); gsi_next (&i))
870 gimple stmt = gsi_stmt (i);
871 if (is_gimple_call (stmt)
872 && is_call_dce_candidate (stmt))
874 if (dump_file && (dump_flags & TDF_DETAILS))
876 fprintf (dump_file, "Found conditional dead call: ");
877 print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM);
878 fprintf (dump_file, "\n");
880 if (cond_dead_built_in_calls == NULL)
881 cond_dead_built_in_calls = VEC_alloc (gimple, heap, 64);
882 VEC_safe_push (gimple, heap, cond_dead_built_in_calls, stmt);
887 if (cond_dead_built_in_calls == NULL)
888 return 0;
890 something_changed
891 = shrink_wrap_conditional_dead_built_in_calls (cond_dead_built_in_calls);
893 VEC_free (gimple, heap, cond_dead_built_in_calls);
895 if (something_changed)
897 free_dominance_info (CDI_DOMINATORS);
898 free_dominance_info (CDI_POST_DOMINATORS);
899 /* As we introduced new control-flow we need to insert PHI-nodes
900 for the call-clobbers of the remaining call. */
901 mark_virtual_operands_for_renaming (cfun);
902 return (TODO_update_ssa | TODO_cleanup_cfg | TODO_ggc_collect
903 | TODO_remove_unused_locals);
905 else
906 return 0;
909 static bool
910 gate_call_cdce (void)
912 /* The limit constants used in the implementation
913 assume IEEE floating point format. Other formats
914 can be supported in the future if needed. */
915 return flag_tree_builtin_call_dce != 0 && optimize_function_for_speed_p (cfun);
918 struct gimple_opt_pass pass_call_cdce =
921 GIMPLE_PASS,
922 "cdce", /* name */
923 gate_call_cdce, /* gate */
924 tree_call_cdce, /* execute */
925 NULL, /* sub */
926 NULL, /* next */
927 0, /* static_pass_number */
928 TV_TREE_CALL_CDCE, /* tv_id */
929 PROP_cfg | PROP_ssa, /* properties_required */
930 0, /* properties_provided */
931 0, /* properties_destroyed */
932 0, /* todo_flags_start */
933 TODO_verify_ssa /* todo_flags_finish */