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[official-gcc.git] / gcc / tree-switch-conversion.c
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1 /* Switch Conversion converts variable initializations based on switch
2 statements to initializations from a static array.
3 Copyright (C) 2006, 2008, 2009, 2010 Free Software Foundation, Inc.
4 Contributed by Martin Jambor <jamborm@suse.cz>
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, write to the Free
20 Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
21 02110-1301, USA. */
24 Switch initialization conversion
26 The following pass changes simple initializations of scalars in a switch
27 statement into initializations from a static array. Obviously, the values must
28 be constant and known at compile time and a default branch must be
29 provided. For example, the following code:
31 int a,b;
33 switch (argc)
35 case 1:
36 case 2:
37 a_1 = 8;
38 b_1 = 6;
39 break;
40 case 3:
41 a_2 = 9;
42 b_2 = 5;
43 break;
44 case 12:
45 a_3 = 10;
46 b_3 = 4;
47 break;
48 default:
49 a_4 = 16;
50 b_4 = 1;
52 a_5 = PHI <a_1, a_2, a_3, a_4>
53 b_5 = PHI <b_1, b_2, b_3, b_4>
56 is changed into:
58 static const int = CSWTCH01[] = {6, 6, 5, 1, 1, 1, 1, 1, 1, 1, 1, 4};
59 static const int = CSWTCH02[] = {8, 8, 9, 16, 16, 16, 16, 16, 16, 16,
60 16, 16, 10};
62 if (((unsigned) argc) - 1 < 11)
64 a_6 = CSWTCH02[argc - 1];
65 b_6 = CSWTCH01[argc - 1];
67 else
69 a_7 = 16;
70 b_7 = 1;
72 a_5 = PHI <a_6, a_7>
73 b_b = PHI <b_6, b_7>
75 There are further constraints. Specifically, the range of values across all
76 case labels must not be bigger than SWITCH_CONVERSION_BRANCH_RATIO (default
77 eight) times the number of the actual switch branches. */
79 #include "config.h"
80 #include "system.h"
81 #include "coretypes.h"
82 #include "tm.h"
83 #include "line-map.h"
84 #include "params.h"
85 #include "flags.h"
86 #include "tree.h"
87 #include "basic-block.h"
88 #include "tree-flow.h"
89 #include "tree-flow-inline.h"
90 #include "tree-ssa-operands.h"
91 #include "output.h"
92 #include "input.h"
93 #include "tree-pass.h"
94 #include "gimple-pretty-print.h"
95 #include "tree-dump.h"
96 #include "timevar.h"
97 #include "langhooks.h"
99 /* The main structure of the pass. */
100 struct switch_conv_info
102 /* The expression used to decide the switch branch. (It is subsequently used
103 as the index to the created array.) */
104 tree index_expr;
106 /* The following integer constants store the minimum value covered by the
107 cases. */
108 tree range_min;
110 /* The difference between the above two numbers, i.e. The size of the array
111 that would have to be created by the transformation. */
112 tree range_size;
114 /* Basic block that contains the actual SWITCH_EXPR. */
115 basic_block switch_bb;
117 /* All branches of the switch statement must have a single successor stored in
118 the following variable. */
119 basic_block final_bb;
121 /* Number of phi nodes in the final bb (that we'll be replacing). */
122 int phi_count;
124 /* Array of default values, in the same order as phi nodes. */
125 tree *default_values;
127 /* Constructors of new static arrays. */
128 VEC (constructor_elt, gc) **constructors;
130 /* Array of ssa names that are initialized with a value from a new static
131 array. */
132 tree *target_inbound_names;
134 /* Array of ssa names that are initialized with the default value if the
135 switch expression is out of range. */
136 tree *target_outbound_names;
138 /* The probability of the default edge in the replaced switch. */
139 int default_prob;
141 /* The count of the default edge in the replaced switch. */
142 gcov_type default_count;
144 /* Combined count of all other (non-default) edges in the replaced switch. */
145 gcov_type other_count;
147 /* The first load statement that loads a temporary from a new static array.
149 gimple arr_ref_first;
151 /* The last load statement that loads a temporary from a new static array. */
152 gimple arr_ref_last;
154 /* String reason why the case wasn't a good candidate that is written to the
155 dump file, if there is one. */
156 const char *reason;
158 /* Parameters for expand_switch_using_bit_tests. Should be computed
159 the same way as in expand_case. */
160 unsigned int bit_test_uniq;
161 unsigned int bit_test_count;
162 basic_block bit_test_bb[2];
165 /* Global pass info. */
166 static struct switch_conv_info info;
169 /* Checks whether the range given by individual case statements of the SWTCH
170 switch statement isn't too big and whether the number of branches actually
171 satisfies the size of the new array. */
173 static bool
174 check_range (gimple swtch)
176 tree min_case, max_case;
177 unsigned int branch_num = gimple_switch_num_labels (swtch);
178 tree range_max;
180 /* The gimplifier has already sorted the cases by CASE_LOW and ensured there
181 is a default label which is the first in the vector. */
183 min_case = gimple_switch_label (swtch, 1);
184 info.range_min = CASE_LOW (min_case);
186 gcc_assert (branch_num > 1);
187 gcc_assert (CASE_LOW (gimple_switch_label (swtch, 0)) == NULL_TREE);
188 max_case = gimple_switch_label (swtch, branch_num - 1);
189 if (CASE_HIGH (max_case) != NULL_TREE)
190 range_max = CASE_HIGH (max_case);
191 else
192 range_max = CASE_LOW (max_case);
194 gcc_assert (info.range_min);
195 gcc_assert (range_max);
197 info.range_size = int_const_binop (MINUS_EXPR, range_max, info.range_min, 0);
199 gcc_assert (info.range_size);
200 if (!host_integerp (info.range_size, 1))
202 info.reason = "index range way too large or otherwise unusable.\n";
203 return false;
206 if ((unsigned HOST_WIDE_INT) tree_low_cst (info.range_size, 1)
207 > ((unsigned) branch_num * SWITCH_CONVERSION_BRANCH_RATIO))
209 info.reason = "the maximum range-branch ratio exceeded.\n";
210 return false;
213 return true;
216 /* Checks the given CS switch case whether it is suitable for conversion
217 (whether all but the default basic blocks are empty and so on). If it is,
218 adds the case to the branch list along with values for the defined variables
219 and returns true. Otherwise returns false. */
221 static bool
222 check_process_case (tree cs)
224 tree ldecl;
225 basic_block label_bb, following_bb;
226 edge e;
228 ldecl = CASE_LABEL (cs);
229 label_bb = label_to_block (ldecl);
231 e = find_edge (info.switch_bb, label_bb);
232 gcc_assert (e);
234 if (CASE_LOW (cs) == NULL_TREE)
236 /* Default branch. */
237 info.default_prob = e->probability;
238 info.default_count = e->count;
240 else
242 int i;
243 info.other_count += e->count;
244 for (i = 0; i < 2; i++)
245 if (info.bit_test_bb[i] == label_bb)
246 break;
247 else if (info.bit_test_bb[i] == NULL)
249 info.bit_test_bb[i] = label_bb;
250 info.bit_test_uniq++;
251 break;
253 if (i == 2)
254 info.bit_test_uniq = 3;
255 if (CASE_HIGH (cs) != NULL_TREE
256 && ! tree_int_cst_equal (CASE_LOW (cs), CASE_HIGH (cs)))
257 info.bit_test_count += 2;
258 else
259 info.bit_test_count++;
262 if (!label_bb)
264 info.reason = " Bad case - cs BB label is NULL\n";
265 return false;
268 if (!single_pred_p (label_bb))
270 if (info.final_bb && info.final_bb != label_bb)
272 info.reason = " Bad case - a non-final BB has two predecessors\n";
273 return false; /* sth complex going on in this branch */
276 following_bb = label_bb;
278 else
280 if (!empty_block_p (label_bb))
282 info.reason = " Bad case - a non-final BB not empty\n";
283 return false;
286 e = single_succ_edge (label_bb);
287 following_bb = single_succ (label_bb);
290 if (!info.final_bb)
291 info.final_bb = following_bb;
292 else if (info.final_bb != following_bb)
294 info.reason = " Bad case - different final BB\n";
295 return false; /* the only successor is not common for all the branches */
298 return true;
301 /* This function checks whether all required values in phi nodes in final_bb
302 are constants. Required values are those that correspond to a basic block
303 which is a part of the examined switch statement. It returns true if the
304 phi nodes are OK, otherwise false. */
306 static bool
307 check_final_bb (void)
309 gimple_stmt_iterator gsi;
311 info.phi_count = 0;
312 for (gsi = gsi_start_phis (info.final_bb); !gsi_end_p (gsi); gsi_next (&gsi))
314 gimple phi = gsi_stmt (gsi);
315 unsigned int i;
317 info.phi_count++;
319 for (i = 0; i < gimple_phi_num_args (phi); i++)
321 basic_block bb = gimple_phi_arg_edge (phi, i)->src;
323 if (bb == info.switch_bb
324 || (single_pred_p (bb) && single_pred (bb) == info.switch_bb))
326 tree reloc, val;
328 val = gimple_phi_arg_def (phi, i);
329 if (!is_gimple_ip_invariant (val))
331 info.reason = " Non-invariant value from a case\n";
332 return false; /* Non-invariant argument. */
334 reloc = initializer_constant_valid_p (val, TREE_TYPE (val));
335 if ((flag_pic && reloc != null_pointer_node)
336 || (!flag_pic && reloc == NULL_TREE))
338 if (reloc)
339 info.reason
340 = " Value from a case would need runtime relocations\n";
341 else
342 info.reason
343 = " Value from a case is not a valid initializer\n";
344 return false;
350 return true;
353 /* The following function allocates default_values, target_{in,out}_names and
354 constructors arrays. The last one is also populated with pointers to
355 vectors that will become constructors of new arrays. */
357 static void
358 create_temp_arrays (void)
360 int i;
362 info.default_values = XCNEWVEC (tree, info.phi_count * 3);
363 info.constructors = XCNEWVEC (VEC (constructor_elt, gc) *, info.phi_count);
364 info.target_inbound_names = info.default_values + info.phi_count;
365 info.target_outbound_names = info.target_inbound_names + info.phi_count;
366 for (i = 0; i < info.phi_count; i++)
367 info.constructors[i]
368 = VEC_alloc (constructor_elt, gc, tree_low_cst (info.range_size, 1) + 1);
371 /* Free the arrays created by create_temp_arrays(). The vectors that are
372 created by that function are not freed here, however, because they have
373 already become constructors and must be preserved. */
375 static void
376 free_temp_arrays (void)
378 XDELETEVEC (info.constructors);
379 XDELETEVEC (info.default_values);
382 /* Populate the array of default values in the order of phi nodes.
383 DEFAULT_CASE is the CASE_LABEL_EXPR for the default switch branch. */
385 static void
386 gather_default_values (tree default_case)
388 gimple_stmt_iterator gsi;
389 basic_block bb = label_to_block (CASE_LABEL (default_case));
390 edge e;
391 int i = 0;
393 gcc_assert (CASE_LOW (default_case) == NULL_TREE);
395 if (bb == info.final_bb)
396 e = find_edge (info.switch_bb, bb);
397 else
398 e = single_succ_edge (bb);
400 for (gsi = gsi_start_phis (info.final_bb); !gsi_end_p (gsi); gsi_next (&gsi))
402 gimple phi = gsi_stmt (gsi);
403 tree val = PHI_ARG_DEF_FROM_EDGE (phi, e);
404 gcc_assert (val);
405 info.default_values[i++] = val;
409 /* The following function populates the vectors in the constructors array with
410 future contents of the static arrays. The vectors are populated in the
411 order of phi nodes. SWTCH is the switch statement being converted. */
413 static void
414 build_constructors (gimple swtch)
416 unsigned i, branch_num = gimple_switch_num_labels (swtch);
417 tree pos = info.range_min;
419 for (i = 1; i < branch_num; i++)
421 tree cs = gimple_switch_label (swtch, i);
422 basic_block bb = label_to_block (CASE_LABEL (cs));
423 edge e;
424 tree high;
425 gimple_stmt_iterator gsi;
426 int j;
428 if (bb == info.final_bb)
429 e = find_edge (info.switch_bb, bb);
430 else
431 e = single_succ_edge (bb);
432 gcc_assert (e);
434 while (tree_int_cst_lt (pos, CASE_LOW (cs)))
436 int k;
437 for (k = 0; k < info.phi_count; k++)
439 constructor_elt *elt;
441 elt = VEC_quick_push (constructor_elt,
442 info.constructors[k], NULL);
443 elt->index = int_const_binop (MINUS_EXPR, pos,
444 info.range_min, 0);
445 elt->value = info.default_values[k];
448 pos = int_const_binop (PLUS_EXPR, pos, integer_one_node, 0);
450 gcc_assert (tree_int_cst_equal (pos, CASE_LOW (cs)));
452 j = 0;
453 if (CASE_HIGH (cs))
454 high = CASE_HIGH (cs);
455 else
456 high = CASE_LOW (cs);
457 for (gsi = gsi_start_phis (info.final_bb);
458 !gsi_end_p (gsi); gsi_next (&gsi))
460 gimple phi = gsi_stmt (gsi);
461 tree val = PHI_ARG_DEF_FROM_EDGE (phi, e);
462 tree low = CASE_LOW (cs);
463 pos = CASE_LOW (cs);
467 constructor_elt *elt;
469 elt = VEC_quick_push (constructor_elt,
470 info.constructors[j], NULL);
471 elt->index = int_const_binop (MINUS_EXPR, pos, info.range_min, 0);
472 elt->value = val;
474 pos = int_const_binop (PLUS_EXPR, pos, integer_one_node, 0);
475 } while (!tree_int_cst_lt (high, pos)
476 && tree_int_cst_lt (low, pos));
477 j++;
482 /* If all values in the constructor vector are the same, return the value.
483 Otherwise return NULL_TREE. Not supposed to be called for empty
484 vectors. */
486 static tree
487 constructor_contains_same_values_p (VEC (constructor_elt, gc) *vec)
489 unsigned int i;
490 tree prev = NULL_TREE;
491 constructor_elt *elt;
493 FOR_EACH_VEC_ELT (constructor_elt, vec, i, elt)
495 if (!prev)
496 prev = elt->value;
497 else if (!operand_equal_p (elt->value, prev, OEP_ONLY_CONST))
498 return NULL_TREE;
500 return prev;
503 /* Return type which should be used for array elements, either TYPE,
504 or for integral type some smaller integral type that can still hold
505 all the constants. */
507 static tree
508 array_value_type (gimple swtch, tree type, int num)
510 unsigned int i, len = VEC_length (constructor_elt, info.constructors[num]);
511 constructor_elt *elt;
512 enum machine_mode mode;
513 int sign = 0;
514 tree smaller_type;
516 if (!INTEGRAL_TYPE_P (type))
517 return type;
519 mode = GET_CLASS_NARROWEST_MODE (GET_MODE_CLASS (TYPE_MODE (type)));
520 if (GET_MODE_SIZE (TYPE_MODE (type)) <= GET_MODE_SIZE (mode))
521 return type;
523 if (len < (optimize_bb_for_size_p (gimple_bb (swtch)) ? 2 : 32))
524 return type;
526 FOR_EACH_VEC_ELT (constructor_elt, info.constructors[num], i, elt)
528 double_int cst;
530 if (TREE_CODE (elt->value) != INTEGER_CST)
531 return type;
533 cst = TREE_INT_CST (elt->value);
534 while (1)
536 unsigned int prec = GET_MODE_BITSIZE (mode);
537 if (prec > HOST_BITS_PER_WIDE_INT)
538 return type;
540 if (sign >= 0
541 && double_int_equal_p (cst, double_int_zext (cst, prec)))
543 if (sign == 0
544 && double_int_equal_p (cst, double_int_sext (cst, prec)))
545 break;
546 sign = 1;
547 break;
549 if (sign <= 0
550 && double_int_equal_p (cst, double_int_sext (cst, prec)))
552 sign = -1;
553 break;
556 if (sign == 1)
557 sign = 0;
559 mode = GET_MODE_WIDER_MODE (mode);
560 if (mode == VOIDmode
561 || GET_MODE_SIZE (mode) >= GET_MODE_SIZE (TYPE_MODE (type)))
562 return type;
566 if (sign == 0)
567 sign = TYPE_UNSIGNED (type) ? 1 : -1;
568 smaller_type = lang_hooks.types.type_for_mode (mode, sign >= 0);
569 if (GET_MODE_SIZE (TYPE_MODE (type))
570 <= GET_MODE_SIZE (TYPE_MODE (smaller_type)))
571 return type;
573 return smaller_type;
576 /* Create an appropriate array type and declaration and assemble a static array
577 variable. Also create a load statement that initializes the variable in
578 question with a value from the static array. SWTCH is the switch statement
579 being converted, NUM is the index to arrays of constructors, default values
580 and target SSA names for this particular array. ARR_INDEX_TYPE is the type
581 of the index of the new array, PHI is the phi node of the final BB that
582 corresponds to the value that will be loaded from the created array. TIDX
583 is an ssa name of a temporary variable holding the index for loads from the
584 new array. */
586 static void
587 build_one_array (gimple swtch, int num, tree arr_index_type, gimple phi,
588 tree tidx)
590 tree name, cst;
591 gimple load;
592 gimple_stmt_iterator gsi = gsi_for_stmt (swtch);
593 location_t loc = gimple_location (swtch);
595 gcc_assert (info.default_values[num]);
597 name = make_ssa_name (SSA_NAME_VAR (PHI_RESULT (phi)), NULL);
598 info.target_inbound_names[num] = name;
600 cst = constructor_contains_same_values_p (info.constructors[num]);
601 if (cst)
602 load = gimple_build_assign (name, cst);
603 else
605 tree array_type, ctor, decl, value_type, fetch, default_type;
607 default_type = TREE_TYPE (info.default_values[num]);
608 value_type = array_value_type (swtch, default_type, num);
609 array_type = build_array_type (value_type, arr_index_type);
610 if (default_type != value_type)
612 unsigned int i;
613 constructor_elt *elt;
615 FOR_EACH_VEC_ELT (constructor_elt, info.constructors[num], i, elt)
616 elt->value = fold_convert (value_type, elt->value);
618 ctor = build_constructor (array_type, info.constructors[num]);
619 TREE_CONSTANT (ctor) = true;
620 TREE_STATIC (ctor) = true;
622 decl = build_decl (loc, VAR_DECL, NULL_TREE, array_type);
623 TREE_STATIC (decl) = 1;
624 DECL_INITIAL (decl) = ctor;
626 DECL_NAME (decl) = create_tmp_var_name ("CSWTCH");
627 DECL_ARTIFICIAL (decl) = 1;
628 TREE_CONSTANT (decl) = 1;
629 TREE_READONLY (decl) = 1;
630 add_referenced_var (decl);
631 varpool_mark_needed_node (varpool_node (decl));
632 varpool_finalize_decl (decl);
634 fetch = build4 (ARRAY_REF, value_type, decl, tidx, NULL_TREE,
635 NULL_TREE);
636 if (default_type != value_type)
638 fetch = fold_convert (default_type, fetch);
639 fetch = force_gimple_operand_gsi (&gsi, fetch, true, NULL_TREE,
640 true, GSI_SAME_STMT);
642 load = gimple_build_assign (name, fetch);
645 SSA_NAME_DEF_STMT (name) = load;
646 gsi_insert_before (&gsi, load, GSI_SAME_STMT);
647 update_stmt (load);
648 info.arr_ref_last = load;
651 /* Builds and initializes static arrays initialized with values gathered from
652 the SWTCH switch statement. Also creates statements that load values from
653 them. */
655 static void
656 build_arrays (gimple swtch)
658 tree arr_index_type;
659 tree tidx, sub, tmp;
660 gimple stmt;
661 gimple_stmt_iterator gsi;
662 int i;
663 location_t loc = gimple_location (swtch);
665 gsi = gsi_for_stmt (swtch);
667 arr_index_type = build_index_type (info.range_size);
668 tmp = create_tmp_var (TREE_TYPE (info.index_expr), "csti");
669 add_referenced_var (tmp);
670 tidx = make_ssa_name (tmp, NULL);
671 sub = fold_build2_loc (loc, MINUS_EXPR,
672 TREE_TYPE (info.index_expr), info.index_expr,
673 fold_convert_loc (loc, TREE_TYPE (info.index_expr),
674 info.range_min));
675 sub = force_gimple_operand_gsi (&gsi, sub,
676 false, NULL, true, GSI_SAME_STMT);
677 stmt = gimple_build_assign (tidx, sub);
678 SSA_NAME_DEF_STMT (tidx) = stmt;
680 gsi_insert_before (&gsi, stmt, GSI_SAME_STMT);
681 update_stmt (stmt);
682 info.arr_ref_first = stmt;
684 for (gsi = gsi_start_phis (info.final_bb), i = 0;
685 !gsi_end_p (gsi); gsi_next (&gsi), i++)
686 build_one_array (swtch, i, arr_index_type, gsi_stmt (gsi), tidx);
689 /* Generates and appropriately inserts loads of default values at the position
690 given by BSI. Returns the last inserted statement. */
692 static gimple
693 gen_def_assigns (gimple_stmt_iterator *gsi)
695 int i;
696 gimple assign = NULL;
698 for (i = 0; i < info.phi_count; i++)
700 tree name
701 = make_ssa_name (SSA_NAME_VAR (info.target_inbound_names[i]), NULL);
703 info.target_outbound_names[i] = name;
704 assign = gimple_build_assign (name, info.default_values[i]);
705 SSA_NAME_DEF_STMT (name) = assign;
706 gsi_insert_before (gsi, assign, GSI_SAME_STMT);
707 update_stmt (assign);
709 return assign;
712 /* Deletes the unused bbs and edges that now contain the switch statement and
713 its empty branch bbs. BBD is the now dead BB containing the original switch
714 statement, FINAL is the last BB of the converted switch statement (in terms
715 of succession). */
717 static void
718 prune_bbs (basic_block bbd, basic_block final)
720 edge_iterator ei;
721 edge e;
723 for (ei = ei_start (bbd->succs); (e = ei_safe_edge (ei)); )
725 basic_block bb;
726 bb = e->dest;
727 remove_edge (e);
728 if (bb != final)
729 delete_basic_block (bb);
731 delete_basic_block (bbd);
734 /* Add values to phi nodes in final_bb for the two new edges. E1F is the edge
735 from the basic block loading values from an array and E2F from the basic
736 block loading default values. BBF is the last switch basic block (see the
737 bbf description in the comment below). */
739 static void
740 fix_phi_nodes (edge e1f, edge e2f, basic_block bbf)
742 gimple_stmt_iterator gsi;
743 int i;
745 for (gsi = gsi_start_phis (bbf), i = 0;
746 !gsi_end_p (gsi); gsi_next (&gsi), i++)
748 gimple phi = gsi_stmt (gsi);
749 add_phi_arg (phi, info.target_inbound_names[i], e1f, UNKNOWN_LOCATION);
750 add_phi_arg (phi, info.target_outbound_names[i], e2f, UNKNOWN_LOCATION);
755 /* Creates a check whether the switch expression value actually falls into the
756 range given by all the cases. If it does not, the temporaries are loaded
757 with default values instead. SWTCH is the switch statement being converted.
759 bb0 is the bb with the switch statement, however, we'll end it with a
760 condition instead.
762 bb1 is the bb to be used when the range check went ok. It is derived from
763 the switch BB
765 bb2 is the bb taken when the expression evaluated outside of the range
766 covered by the created arrays. It is populated by loads of default
767 values.
769 bbF is a fall through for both bb1 and bb2 and contains exactly what
770 originally followed the switch statement.
772 bbD contains the switch statement (in the end). It is unreachable but we
773 still need to strip off its edges.
776 static void
777 gen_inbound_check (gimple swtch)
779 tree label_decl1 = create_artificial_label (UNKNOWN_LOCATION);
780 tree label_decl2 = create_artificial_label (UNKNOWN_LOCATION);
781 tree label_decl3 = create_artificial_label (UNKNOWN_LOCATION);
782 gimple label1, label2, label3;
784 tree utype;
785 tree tmp_u_1, tmp_u_2, tmp_u_var;
786 tree cast;
787 gimple cast_assign, minus_assign;
788 tree ulb, minus;
789 tree bound;
791 gimple cond_stmt;
793 gimple last_assign;
794 gimple_stmt_iterator gsi;
795 basic_block bb0, bb1, bb2, bbf, bbd;
796 edge e01, e02, e21, e1d, e1f, e2f;
797 location_t loc = gimple_location (swtch);
799 gcc_assert (info.default_values);
800 bb0 = gimple_bb (swtch);
802 /* Make sure we do not generate arithmetics in a subrange. */
803 if (TREE_TYPE (TREE_TYPE (info.index_expr)))
804 utype = lang_hooks.types.type_for_mode
805 (TYPE_MODE (TREE_TYPE (TREE_TYPE (info.index_expr))), 1);
806 else
807 utype = lang_hooks.types.type_for_mode
808 (TYPE_MODE (TREE_TYPE (info.index_expr)), 1);
810 /* (end of) block 0 */
811 gsi = gsi_for_stmt (info.arr_ref_first);
812 tmp_u_var = create_tmp_var (utype, "csui");
813 add_referenced_var (tmp_u_var);
814 tmp_u_1 = make_ssa_name (tmp_u_var, NULL);
816 cast = fold_convert_loc (loc, utype, info.index_expr);
817 cast_assign = gimple_build_assign (tmp_u_1, cast);
818 SSA_NAME_DEF_STMT (tmp_u_1) = cast_assign;
819 gsi_insert_before (&gsi, cast_assign, GSI_SAME_STMT);
820 update_stmt (cast_assign);
822 ulb = fold_convert_loc (loc, utype, info.range_min);
823 minus = fold_build2_loc (loc, MINUS_EXPR, utype, tmp_u_1, ulb);
824 minus = force_gimple_operand_gsi (&gsi, minus, false, NULL, true,
825 GSI_SAME_STMT);
826 tmp_u_2 = make_ssa_name (tmp_u_var, NULL);
827 minus_assign = gimple_build_assign (tmp_u_2, minus);
828 SSA_NAME_DEF_STMT (tmp_u_2) = minus_assign;
829 gsi_insert_before (&gsi, minus_assign, GSI_SAME_STMT);
830 update_stmt (minus_assign);
832 bound = fold_convert_loc (loc, utype, info.range_size);
833 cond_stmt = gimple_build_cond (LE_EXPR, tmp_u_2, bound, NULL_TREE, NULL_TREE);
834 gsi_insert_before (&gsi, cond_stmt, GSI_SAME_STMT);
835 update_stmt (cond_stmt);
837 /* block 2 */
838 gsi = gsi_for_stmt (info.arr_ref_first);
839 label2 = gimple_build_label (label_decl2);
840 gsi_insert_before (&gsi, label2, GSI_SAME_STMT);
841 last_assign = gen_def_assigns (&gsi);
843 /* block 1 */
844 gsi = gsi_for_stmt (info.arr_ref_first);
845 label1 = gimple_build_label (label_decl1);
846 gsi_insert_before (&gsi, label1, GSI_SAME_STMT);
848 /* block F */
849 gsi = gsi_start_bb (info.final_bb);
850 label3 = gimple_build_label (label_decl3);
851 gsi_insert_before (&gsi, label3, GSI_SAME_STMT);
853 /* cfg fix */
854 e02 = split_block (bb0, cond_stmt);
855 bb2 = e02->dest;
857 e21 = split_block (bb2, last_assign);
858 bb1 = e21->dest;
859 remove_edge (e21);
861 e1d = split_block (bb1, info.arr_ref_last);
862 bbd = e1d->dest;
863 remove_edge (e1d);
865 /* flags and profiles of the edge for in-range values */
866 e01 = make_edge (bb0, bb1, EDGE_TRUE_VALUE);
867 e01->probability = REG_BR_PROB_BASE - info.default_prob;
868 e01->count = info.other_count;
870 /* flags and profiles of the edge taking care of out-of-range values */
871 e02->flags &= ~EDGE_FALLTHRU;
872 e02->flags |= EDGE_FALSE_VALUE;
873 e02->probability = info.default_prob;
874 e02->count = info.default_count;
876 bbf = info.final_bb;
878 e1f = make_edge (bb1, bbf, EDGE_FALLTHRU);
879 e1f->probability = REG_BR_PROB_BASE;
880 e1f->count = info.other_count;
882 e2f = make_edge (bb2, bbf, EDGE_FALLTHRU);
883 e2f->probability = REG_BR_PROB_BASE;
884 e2f->count = info.default_count;
886 /* frequencies of the new BBs */
887 bb1->frequency = EDGE_FREQUENCY (e01);
888 bb2->frequency = EDGE_FREQUENCY (e02);
889 bbf->frequency = EDGE_FREQUENCY (e1f) + EDGE_FREQUENCY (e2f);
891 prune_bbs (bbd, info.final_bb); /* To keep calc_dfs_tree() in dominance.c
892 happy. */
894 fix_phi_nodes (e1f, e2f, bbf);
896 free_dominance_info (CDI_DOMINATORS);
897 free_dominance_info (CDI_POST_DOMINATORS);
900 /* The following function is invoked on every switch statement (the current one
901 is given in SWTCH) and runs the individual phases of switch conversion on it
902 one after another until one fails or the conversion is completed. */
904 static bool
905 process_switch (gimple swtch)
907 unsigned int i, branch_num = gimple_switch_num_labels (swtch);
908 tree index_type;
910 /* Operand 2 is either NULL_TREE or a vector of cases (stmt.c). */
911 if (branch_num < 2)
913 info.reason = "switch has no labels\n";
914 return false;
917 info.final_bb = NULL;
918 info.switch_bb = gimple_bb (swtch);
919 info.index_expr = gimple_switch_index (swtch);
920 index_type = TREE_TYPE (info.index_expr);
921 info.arr_ref_first = NULL;
922 info.arr_ref_last = NULL;
923 info.default_prob = 0;
924 info.default_count = 0;
925 info.other_count = 0;
926 info.bit_test_uniq = 0;
927 info.bit_test_count = 0;
928 info.bit_test_bb[0] = NULL;
929 info.bit_test_bb[1] = NULL;
931 /* An ERROR_MARK occurs for various reasons including invalid data type.
932 (comment from stmt.c) */
933 if (index_type == error_mark_node)
935 info.reason = "index error.\n";
936 return false;
939 /* Check the case label values are within reasonable range: */
940 if (!check_range (swtch))
941 return false;
943 /* For all the cases, see whether they are empty, the assignments they
944 represent constant and so on... */
945 for (i = 0; i < branch_num; i++)
946 if (!check_process_case (gimple_switch_label (swtch, i)))
948 if (dump_file)
949 fprintf (dump_file, "Processing of case %i failed\n", i);
950 return false;
953 if (info.bit_test_uniq <= 2)
955 rtl_profile_for_bb (gimple_bb (swtch));
956 if (expand_switch_using_bit_tests_p (gimple_switch_index (swtch),
957 info.range_size, info.bit_test_uniq,
958 info.bit_test_count))
960 info.reason = " Expanding as bit test is preferable\n";
961 return false;
965 if (!check_final_bb ())
966 return false;
968 /* At this point all checks have passed and we can proceed with the
969 transformation. */
971 create_temp_arrays ();
972 gather_default_values (gimple_switch_label (swtch, 0));
973 build_constructors (swtch);
975 build_arrays (swtch); /* Build the static arrays and assignments. */
976 gen_inbound_check (swtch); /* Build the bounds check. */
978 /* Cleanup: */
979 free_temp_arrays ();
980 return true;
983 /* The main function of the pass scans statements for switches and invokes
984 process_switch on them. */
986 static unsigned int
987 do_switchconv (void)
989 basic_block bb;
991 FOR_EACH_BB (bb)
993 gimple stmt = last_stmt (bb);
994 if (stmt && gimple_code (stmt) == GIMPLE_SWITCH)
996 if (dump_file)
998 expanded_location loc = expand_location (gimple_location (stmt));
1000 fprintf (dump_file, "beginning to process the following "
1001 "SWITCH statement (%s:%d) : ------- \n",
1002 loc.file, loc.line);
1003 print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM);
1004 putc ('\n', dump_file);
1007 info.reason = NULL;
1008 if (process_switch (stmt))
1010 if (dump_file)
1012 fputs ("Switch converted\n", dump_file);
1013 fputs ("--------------------------------\n", dump_file);
1016 else
1018 if (dump_file)
1020 gcc_assert (info.reason);
1021 fputs ("Bailing out - ", dump_file);
1022 fputs (info.reason, dump_file);
1023 fputs ("--------------------------------\n", dump_file);
1029 return 0;
1032 /* The pass gate. */
1034 static bool
1035 switchconv_gate (void)
1037 return flag_tree_switch_conversion != 0;
1040 struct gimple_opt_pass pass_convert_switch =
1043 GIMPLE_PASS,
1044 "switchconv", /* name */
1045 switchconv_gate, /* gate */
1046 do_switchconv, /* execute */
1047 NULL, /* sub */
1048 NULL, /* next */
1049 0, /* static_pass_number */
1050 TV_TREE_SWITCH_CONVERSION, /* tv_id */
1051 PROP_cfg | PROP_ssa, /* properties_required */
1052 0, /* properties_provided */
1053 0, /* properties_destroyed */
1054 0, /* todo_flags_start */
1055 TODO_update_ssa | TODO_dump_func
1056 | TODO_ggc_collect | TODO_verify_ssa /* todo_flags_finish */