| blob | 7473054757f2ee1d9e40509c3e4054b087bcd0d3 |
1 /* If-conversion support.
2 Copyright (C) 2000, 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it
7 under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2, or (at your option)
9 any later version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT
12 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
13 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
14 License for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING. If not, write to the Free
18 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
19 02111-1307, USA. */
45 #ifndef HAVE_conditional_execution
46 #define HAVE_conditional_execution 0
47 #endif
48 #ifndef HAVE_conditional_move
49 #define HAVE_conditional_move 0
50 #endif
51 #ifndef HAVE_incscc
52 #define HAVE_incscc 0
53 #endif
54 #ifndef HAVE_decscc
55 #define HAVE_decscc 0
56 #endif
57 #ifndef HAVE_trap
58 #define HAVE_trap 0
59 #endif
60 #ifndef HAVE_conditional_trap
61 #define HAVE_conditional_trap 0
62 #endif
64 #ifndef MAX_CONDITIONAL_EXECUTE
65 #define MAX_CONDITIONAL_EXECUTE (BRANCH_COST + 1)
66 #endif
68 #define NULL_EDGE ((struct edge_def *)NULL)
69 #define NULL_BLOCK ((struct basic_block_def *)NULL)
71 /* # of IF-THEN or IF-THEN-ELSE blocks we looked at */
74 /* # of IF-THEN or IF-THEN-ELSE blocks were converted to conditional
75 execution. */
78 /* # of changes made which require life information to be updated. */
81 /* Whether conditional execution changes were made. */
84 /* True if life data ok at present. */
87 /* Forward references. */
113 \f
114 /* Sets EDGE_LOOP_EXIT flag for all loop exits. */
115 static void
117 {
119 basic_block bb;
120 edge e;
126 {
128 {
130 {
134 else
136 }
137 }
138 }
141 }
143 /* Count the number of non-jump active insns in BB. */
145 static int
147 {
152 {
154 count++;
159 }
162 }
164 /* Count the total insn_rtx_cost of non-jump active insns in BB.
165 This function returns -1, if the cost of any instruction could
166 not be estimated. */
168 static int
170 {
175 {
177 {
182 }
189 }
192 }
194 /* Return the first non-jump active insn in the basic block. */
196 static rtx
198 {
202 {
206 }
209 {
213 }
219 }
221 /* Return the last non-jump active (non-jump) insn in the basic block. */
223 static rtx
225 {
231 || (skip_use_p
234 {
238 }
244 }
246 /* Return the basic block reached by falling though the basic block BB. */
248 static basic_block
250 {
251 edge e;
256 ;
259 }
260 \f
261 /* Go through a bunch of insns, converting them to conditional
262 execution format if possible. Return TRUE if all of the non-note
263 insns were processed. */
265 static int
272 {
274 rtx insn;
275 rtx xtest;
276 rtx pattern;
282 {
289 /* Remove USE insns that get in the way. */
291 {
292 /* ??? Ug. Actually unlinking the thing is problematic,
293 given what we'd have to coordinate with our callers. */
296 }
298 /* Last insn wasn't last? */
303 {
307 }
309 /* Now build the conditional form of the instruction. */
313 /* If this is already a COND_EXEC, rewrite the test to be an AND of the
314 two conditions. */
316 {
323 }
327 /* If the machine needs to modify the insn being conditionally executed,
328 say for example to force a constant integer operand into a temp
329 register, do so here. */
330 #ifdef IFCVT_MODIFY_INSN
334 #endif
343 insn_done:
346 }
349 }
351 /* Return the condition for a jump. Do not do any special processing. */
353 static rtx
355 {
360 else
364 /* If this branches to JUMP_LABEL when the condition is false,
365 reverse the condition. */
368 {
375 }
378 }
380 /* Given a simple IF-THEN or IF-THEN-ELSE block, attempt to convert it
381 to conditional execution. Return TRUE if we were successful at
382 converting the block. */
384 static int
387 {
405 /* If test is comprised of && or || elements, and we've failed at handling
406 all of them together, just use the last test if it is the special case of
407 && elements without an ELSE block. */
409 {
417 }
419 /* Find the conditional jump to the ELSE or JOIN part, and isolate
420 the test. */
425 /* If the conditional jump is more than just a conditional jump,
426 then we can not do conditional execution conversion on this block. */
430 /* Collect the bounds of where we're to search, skipping any labels, jumps
431 and notes at the beginning and end of the block. Then count the total
432 number of insns and see if it is small enough to convert. */
439 {
444 }
449 /* Map test_expr/test_jump into the appropriate MD tests to use on
450 the conditionally executed code. */
458 else
461 #ifdef IFCVT_MODIFY_TESTS
462 /* If the machine description needs to modify the tests, such as setting a
463 conditional execution register from a comparison, it can do so here. */
466 /* See if the conversion failed. */
469 #endif
473 {
476 }
477 else
480 /* If we have && or || tests, do them here. These tests are in the adjacent
481 blocks after the first block containing the test. */
483 {
490 do
491 {
503 /* If the conditional jump is more than just a conditional jump, then
504 we can not do conditional execution conversion on this block. */
508 /* Find the conditional jump and isolate the test. */
519 {
522 }
523 else
524 {
527 }
529 /* If the machine description needs to modify the tests, such as
530 setting a conditional execution register from a comparison, it can
531 do so here. */
532 #ifdef IFCVT_MODIFY_MULTIPLE_TESTS
535 /* See if the conversion failed. */
538 #endif
542 }
544 }
546 /* For IF-THEN-ELSE blocks, we don't allow modifications of the test
547 on then THEN block. */
550 /* Go through the THEN and ELSE blocks converting the insns if possible
551 to conditional execution. */
554 && (! false_expr
557 then_mod_ok)))
565 /* If we cannot apply the changes, fail. Do not go through the normal fail
566 processing, since apply_change_group will call cancel_changes. */
568 {
569 #ifdef IFCVT_MODIFY_CANCEL
570 /* Cancel any machine dependent changes. */
572 #endif
574 }
576 #ifdef IFCVT_MODIFY_FINAL
577 /* Do any machine dependent final modifications. */
579 #endif
581 /* Conversion succeeded. */
586 /* Merge the blocks! */
591 fail:
592 #ifdef IFCVT_MODIFY_CANCEL
593 /* Cancel any machine dependent changes. */
595 #endif
599 }
600 \f
601 /* Used by noce_process_if_block to communicate with its subroutines.
603 The subroutines know that A and B may be evaluated freely. They
604 know that X is a register. They should insert new instructions
605 before cond_earliest. */
607 struct noce_if_info
608 {
609 basic_block test_bb;
613 /* True if "b" was originally evaluated unconditionally. */
615 };
632 /* Helper function for noce_try_store_flag*. */
634 static rtx
637 {
645 /* If earliest == jump, or when the condition is complex, try to
646 build the store_flag insn directly. */
653 else
658 {
659 rtx tmp;
669 {
677 }
680 }
682 /* Don't even try if the comparison operands or the mode of X are weird. */
690 }
692 /* Emit instruction to move an rtx, possibly into STRICT_LOW_PART.
693 X is the destination/target and Y is the value to copy. */
695 static void
697 {
703 {
706 }
714 }
716 /* Return sequence of instructions generated by if conversion. This
717 function calls end_sequence() to end the current stream, ensures
718 that are instructions are unshared, recognizable non-jump insns.
719 On failure, this function returns a NULL_RTX. */
721 static rtx
723 {
724 rtx insn;
732 /* Make sure that all of the instructions emitted are recognizable,
733 and that we haven't introduced a new jump instruction.
734 As an exercise for the reader, build a general mechanism that
735 allows proper placement of required clobbers. */
742 }
744 /* Convert "if (a != b) x = a; else x = b" into "x = a" and
745 "if (a == b) x = a; else x = b" into "x = b". */
747 static int
749 {
757 /* This optimization isn't valid if either A or B could be a NaN
758 or a signed zero. */
763 /* Check whether the operands of the comparison are A and in
764 either order. */
769 {
772 /* Avoid generating the move if the source is the destination. */
774 {
783 }
785 }
787 }
789 /* Convert "if (test) x = 1; else x = 0".
791 Only try 0 and STORE_FLAG_VALUE here. Other combinations will be
792 tried in noce_try_store_flag_constants after noce_try_cmove has had
793 a go at the conversion. */
795 static int
797 {
811 else
818 {
829 }
830 else
831 {
834 }
835 }
837 /* Convert "if (test) x = a; else x = b", for A and B constant. */
839 static int
841 {
851 {
856 /* Make sure we can represent the difference between the two values. */
886 else
890 {
893 }
898 {
901 }
903 /* if (test) x = 3; else x = 4;
904 => x = 3 + (test == 0); */
906 {
911 OPTAB_WIDEN);
912 }
914 /* if (test) x = 8; else x = 0;
915 => x = (test != 0) << 3; */
917 {
920 OPTAB_WIDEN);
921 }
923 /* if (test) x = -1; else x = b;
924 => x = -(test != 0) | b; */
926 {
929 OPTAB_WIDEN);
930 }
932 /* if (test) x = a; else x = b;
933 => x = (-(test != 0) & (b - a)) + a; */
934 else
935 {
938 OPTAB_WIDEN);
943 }
946 {
949 }
961 }
964 }
966 /* Convert "if (test) foo++" into "foo += (test != 0)", and
967 similarly for "foo--". */
969 static int
971 {
980 {
984 /* First try to use addcc pattern. */
987 {
992 VOIDmode,
999 {
1010 }
1012 }
1014 /* If that fails, construct conditional increment or decrement using
1015 setcc. */
1019 {
1025 else
1039 {
1050 }
1052 }
1053 }
1056 }
1058 /* Convert "if (test) x = 0;" to "x &= -(test == 0);" */
1060 static int
1062 {
1077 {
1086 OPTAB_WIDEN);
1089 {
1100 }
1103 }
1106 }
1108 /* Helper function for noce_try_cmove and noce_try_cmove_arith. */
1110 static rtx
1113 {
1114 /* If earliest == jump, try to build the cmove insn directly.
1115 This is helpful when combine has created some complex condition
1116 (like for alpha's cmovlbs) that we can't hope to regenerate
1117 through the normal interface. */
1120 {
1121 rtx tmp;
1131 {
1137 }
1140 }
1142 /* Don't even try if the comparison operands are weird. */
1147 #if HAVE_conditional_move
1152 #else
1153 /* We'll never get here, as noce_process_if_block doesn't call the
1154 functions involved. Ifdef code, however, should be discouraged
1155 because it leads to typos in the code not selected. However,
1156 emit_conditional_move won't exist either. */
1158 #endif
1159 }
1161 /* Try only simple constants and registers here. More complex cases
1162 are handled in noce_try_cmove_arith after noce_try_store_flag_arith
1163 has had a go at it. */
1165 static int
1167 {
1173 {
1183 {
1194 }
1195 else
1196 {
1199 }
1200 }
1203 }
1205 /* Try more complex cases involving conditional_move. */
1207 static int
1209 {
1218 /* A conditional move from two memory sources is equivalent to a
1219 conditional on their addresses followed by a load. Don't do this
1220 early because it'll screw alias analysis. Note that we've
1221 already checked for no side effects. */
1225 {
1230 }
1232 /* ??? We could handle this if we knew that a load from A or B could
1233 not fault. This is also true if we've already loaded
1234 from the address along the path from ENTRY. */
1238 /* if (test) x = a + b; else x = c - d;
1239 => y = a + b;
1240 x = c - d;
1241 if (test)
1242 x = y;
1243 */
1249 /* Possibly rearrange operands to make things come out more natural. */
1251 {
1259 {
1263 }
1264 }
1268 /* If either operand is complex, load it into a register first.
1269 The best way to do this is to copy the original insn. In this
1270 way we preserve any clobbers etc that the insn may have had.
1271 This is of course not possible in the IS_MEM case. */
1273 {
1274 rtx set;
1280 {
1283 }
1286 else
1287 {
1293 }
1296 }
1298 {
1299 rtx set;
1305 {
1308 tmp,
1309 b));
1310 }
1313 else
1314 {
1320 }
1323 }
1331 /* If we're handling a memory for above, emit the load now. */
1333 {
1336 /* Copy over flags as appropriate. */
1349 }
1360 end_seq_and_fail:
1363 }
1365 /* For most cases, the simplified condition we found is the best
1366 choice, but this is not the case for the min/max/abs transforms.
1367 For these we wish to know that it is A or B in the condition. */
1369 static rtx
1372 {
1376 /* If target is already mentioned in the known condition, return it. */
1378 {
1381 }
1385 reverse
1389 /* If we're looking for a constant, try to make the conditional
1390 have that constant in it. There are two reasons why it may
1391 not have the constant we want:
1393 1. GCC may have needed to put the constant in a register, because
1394 the target can't compare directly against that constant. For
1395 this case, we look for a SET immediately before the comparison
1396 that puts a constant in that register.
1398 2. GCC may have canonicalized the conditional, for example
1399 replacing "if x < 4" with "if x <= 3". We can undo that (or
1400 make equivalent types of changes) to get the constants we need
1401 if they're off by one in the right direction. */
1404 {
1408 rtx prev_insn;
1410 /* First, look to see if we put a constant in a register. */
1415 {
1420 {
1427 {
1432 }
1433 }
1434 }
1436 /* Now, look to see if we can get the right constant by
1437 adjusting the conditional. */
1439 {
1444 {
1447 {
1450 }
1454 {
1457 }
1461 {
1464 }
1468 {
1471 }
1475 }
1476 }
1478 /* If we made any changes, generate a new conditional that is
1479 equivalent to what we started with, but has the right
1480 constants in it. */
1484 {
1488 }
1489 }
1496 /* We almost certainly searched back to a different place.
1497 Need to re-verify correct lifetimes. */
1499 /* X may not be mentioned in the range (cond_earliest, jump]. */
1504 /* A and B may not be modified in the range [cond_earliest, jump). */
1512 }
1514 /* Convert "if (a < b) x = a; else x = b;" to "x = min(a, b);", etc. */
1516 static int
1518 {
1523 /* ??? Can't guarantee that expand_binop won't create pseudos. */
1527 /* ??? Reject modes with NaNs or signed zeros since we don't know how
1528 they will be resolved with an SMIN/SMAX. It wouldn't be too hard
1529 to get the target to tell us... */
1538 /* Verify the condition is of the form we expect, and canonicalize
1539 the comparison code. */
1542 {
1545 }
1547 {
1551 }
1552 else
1555 /* Determine what sort of operation this is. Note that the code is for
1556 a taken branch, so the code->operation mapping appears backwards. */
1558 {
1585 }
1593 {
1596 }
1609 }
1611 /* Convert "if (a < 0) x = -a; else x = a;" to "x = abs(a);", etc. */
1613 static int
1615 {
1619 /* ??? Can't guarantee that expand_binop won't create pseudos. */
1623 /* Recognize A and B as constituting an ABS or NABS. */
1629 {
1632 }
1633 else
1640 /* Verify the condition is of the form we expect. */
1645 else
1648 /* Verify that C is zero. Search backward through the block for
1649 a REG_EQUAL note if necessary. */
1651 {
1663 }
1669 /* Work around funny ideas get_condition has wrt canonicalization.
1670 Note that these rtx constants are known to be CONST_INT, and
1671 therefore imply integer comparisons. */
1673 ;
1675 ;
1679 /* Determine what sort of operation this is. */
1681 {
1695 }
1701 /* ??? It's a quandary whether cmove would be better here, especially
1702 for integers. Perhaps combine will clean things up. */
1707 {
1710 }
1724 }
1726 /* Convert "if (m < 0) x = b; else x = 0;" to "x = (m >> C) & b;". */
1728 static int
1730 {
1745 {
1749 }
1751 {
1755 }
1760 /* We currently don't handle different modes. */
1765 /* This is only profitable if T is cheap, or T is unconditionally
1766 executed/evaluated in the original insn sequence. */
1773 /* Use emit_store_flag to generate "m < 0 ? -1 : 0" instead of expanding
1774 "(signed) m >> 31" directly. This benefits targets with specialized
1775 insns to obtain the signmask, but still uses ashr_optab otherwise. */
1781 {
1784 }
1794 }
1797 /* Similar to get_condition, only the resulting condition must be
1798 valid at JUMP, instead of at EARLIEST. */
1800 static rtx
1802 {
1811 /* If this branches to JUMP_LABEL when the condition is false,
1812 reverse the condition. */
1816 /* If the condition variable is a register and is MODE_INT, accept it. */
1821 {
1828 }
1830 /* Otherwise, fall back on canonicalize_condition to do the dirty
1831 work of manipulating MODE_CC values and COMPARE rtx codes. */
1834 }
1836 /* Return true if OP is ok for if-then-else processing. */
1838 static int
1840 {
1841 /* We special-case memories, so handle any of them with
1842 no address side effects. */
1850 }
1852 /* Given a simple IF-THEN or IF-THEN-ELSE block, attempt to convert it
1853 without using conditional execution. Return TRUE if we were
1854 successful at converting the block. */
1856 static int
1858 {
1868 /* We're looking for patterns of the form
1870 (1) if (...) x = a; else x = b;
1871 (2) x = b; if (...) x = a;
1872 (3) if (...) x = a; // as if with an initial x = x.
1874 The later patterns require jumps to be more expensive.
1876 ??? For future expansion, look for multiple X in such patterns. */
1878 /* If test is comprised of && or || elements, don't handle it unless it is
1879 the special case of && elements without an ELSE block. */
1881 {
1889 }
1891 /* If this is not a standard conditional jump, we can't parse it. */
1897 /* If the conditional jump is more than just a conditional
1898 jump, then we can not do if-conversion on this block. */
1902 /* We must be comparing objects whose modes imply the size. */
1906 /* Look for one of the potential sets. */
1916 /* Look for the other potential set. Make sure we've got equivalent
1917 destinations. */
1918 /* ??? This is overconservative. Storing to two different mems is
1919 as easy as conditionally computing the address. Storing to a
1920 single mem merely requires a scratch memory to use as one of the
1921 destination addresses; often the memory immediately below the
1922 stack pointer is available for this. */
1925 {
1932 }
1933 else
1934 {
1936 /* We're going to be moving the evaluation of B down from above
1937 COND_EARLIEST to JUMP. Make sure the relevant data is still
1938 intact. */
1946 /* Likewise with X. In particular this can happen when
1947 noce_get_condition looks farther back in the instruction
1948 stream than one might expect. */
1953 }
1955 /* If x has side effects then only the if-then-else form is safe to
1956 convert. But even in that case we would need to restore any notes
1957 (such as REG_INC) at then end. That can be tricky if
1958 noce_emit_move_insn expands to more than one insn, so disable the
1959 optimization entirely for now if there are side effects. */
1965 /* Only operate on register destinations, and even then avoid extending
1966 the lifetime of hard registers on small register class machines. */
1969 || (SMALL_REGISTER_CLASSES
1971 {
1976 }
1978 /* Don't operate on sources that may trap or are volatile. */
1982 /* Set up the info block for our subroutines. */
1993 /* Try optimizations in some approximation of a useful order. */
1994 /* ??? Should first look to see if X is live incoming at all. If it
1995 isn't, we don't need anything but an unconditional set. */
1997 /* Look and see if A and B are really the same. Avoid creating silly
1998 cmove constructs that no one will fix up later. */
2000 {
2001 /* If we have an INSN_B, we don't have to create any new rtl. Just
2002 move the instruction that we already have. If we don't have an
2003 INSN_B, that means that A == X, and we've got a noop move. In
2004 that case don't do anything and let the code below delete INSN_A. */
2006 {
2007 rtx note;
2013 /* If there was a REG_EQUAL note, delete it since it may have been
2014 true due to this insn being after a jump. */
2019 }
2020 /* If we have "x = b; if (...) x = a;", and x has side-effects, then
2021 x must be executed twice. */
2027 }
2029 /* Disallow the "if (...) x = a;" form (with an implicit "else x = x;")
2030 for most optimizations if writing to x may trap, i.e. it's a memory
2031 other than a static var or a stack slot. */
2036 {
2038 {
2044 }
2046 }
2060 {
2072 }
2076 success:
2077 /* The original sets may now be killed. */
2080 /* Several special cases here: First, we may have reused insn_b above,
2081 in which case insn_b is now NULL. Second, we want to delete insn_b
2082 if it came from the ELSE block, because follows the now correct
2083 write that appears in the TEST block. However, if we got insn_b from
2084 the TEST block, it may in fact be loading data needed for the comparison.
2085 We'll let life_analysis remove the insn if it's really dead. */
2089 /* The new insns will have been inserted immediately before the jump. We
2090 should be able to remove the jump with impunity, but the condition itself
2091 may have been modified by gcse to be shared across basic blocks. */
2094 /* If we used a temporary, fix it up now. */
2096 {
2105 }
2107 /* Merge the blocks! */
2111 }
2112 \f
2113 /* Attempt to convert an IF-THEN or IF-THEN-ELSE block into
2114 straight line code. Return true if successful. */
2116 static int
2118 {
2124 {
2125 /* If we have && and || tests, try to first handle combining the && and
2126 || tests into the conditional code, and if that fails, go back and
2127 handle it without the && and ||, which at present handles the && case
2128 if there was no ELSE block. */
2133 {
2138 }
2139 }
2142 }
2144 /* Merge the blocks and mark for local life update. */
2146 static void
2148 {
2153 basic_block combo_bb;
2155 /* All block merging is done into the lower block numbers. */
2159 /* Merge any basic blocks to handle && and || subtests. Each of
2160 the blocks are on the fallthru path from the predecessor block. */
2162 {
2167 do
2168 {
2172 num_true_changes++;
2173 }
2175 }
2177 /* Merge TEST block into THEN block. Normally the THEN block won't have a
2178 label, but it might if there were || tests. That label's count should be
2179 zero, and it normally should be removed. */
2182 {
2187 num_true_changes++;
2188 }
2190 /* The ELSE block, if it existed, had a label. That label count
2191 will almost always be zero, but odd things can happen when labels
2192 get their addresses taken. */
2194 {
2196 num_true_changes++;
2197 }
2199 /* If there was no join block reported, that means it was not adjacent
2200 to the others, and so we cannot merge them. */
2203 {
2206 /* The outgoing edge for the current COMBO block should already
2207 be correct. Verify this. */
2209 {
2211 ;
2215 ;
2216 else
2218 }
2220 /* There should still be something at the end of the THEN or ELSE
2221 blocks taking us to our final destination. */
2223 ;
2227 ;
2230 ;
2231 else
2233 }
2235 /* The JOIN block may have had quite a number of other predecessors too.
2236 Since we've already merged the TEST, THEN and ELSE blocks, we should
2237 have only one remaining edge from our if-then-else diamond. If there
2238 is more than one remaining edge, it must come from elsewhere. There
2239 may be zero incoming edges if the THEN block didn't actually join
2240 back up (as with a call to abort). */
2244 {
2245 /* We can merge the JOIN. */
2251 num_true_changes++;
2252 }
2253 else
2254 {
2255 /* We cannot merge the JOIN. */
2257 /* The outgoing edge for the current COMBO block should already
2258 be correct. Verify this. */
2263 /* Remove the jump and cruft from the end of the COMBO block. */
2266 }
2268 num_updated_if_blocks++;
2269 }
2270 \f
2271 /* Find a block ending in a simple IF condition and try to transform it
2272 in some way. When converting a multi-block condition, put the new code
2273 in the first such block and delete the rest. Return a pointer to this
2274 first block if some transformation was done. Return NULL otherwise. */
2276 static basic_block
2278 {
2279 ce_if_block_t ce_info;
2280 edge then_edge;
2281 edge else_edge;
2283 /* The kind of block we're looking for has exactly two successors. */
2289 /* Neither edge should be abnormal. */
2294 /* Nor exit the loop. */
2299 /* The THEN edge is canonically the one that falls through. */
2301 ;
2303 {
2307 }
2308 else
2309 /* Otherwise this must be a multiway branch of some sort. */
2318 #ifdef IFCVT_INIT_EXTRA_FIELDS
2320 #endif
2331 {
2336 }
2340 success:
2344 }
2346 /* Return true if a block has two edges, one of which falls through to the next
2347 block, and the other jumps to a specific block, so that we can tell if the
2348 block is part of an && test or an || test. Returns either -1 or the number
2349 of non-note, non-jump, non-USE/CLOBBER insns in the block. */
2351 static int
2353 {
2354 edge cur_edge;
2357 rtx insn;
2358 rtx end;
2364 /* If no edges, obviously it doesn't jump or fallthru. */
2371 {
2373 /* Anything complex isn't what we want. */
2382 else
2384 }
2389 /* Don't allow calls in the block, since this is used to group && and ||
2390 together for conditional execution support. ??? we should support
2391 conditional execution support across calls for IA-64 some day, but
2392 for now it makes the code simpler. */
2397 {
2405 n_insns++;
2411 }
2414 }
2416 /* Determine if a given basic block heads a simple IF-THEN or IF-THEN-ELSE
2417 block. If so, we'll try to convert the insns to not require the branch.
2418 Return TRUE if we were successful at converting the block. */
2420 static int
2422 {
2431 edge cur_edge;
2432 basic_block next;
2436 /* Discover if any fall through predecessors of the current test basic block
2437 were && tests (which jump to the else block) or || tests (which jump to
2438 the then block). */
2443 {
2445 basic_block target_bb;
2449 /* Determine if the preceding block is an && or || block. */
2451 {
2454 }
2456 {
2459 }
2460 else
2464 {
2470 /* Found at least one && or || block, look for more. */
2471 do
2472 {
2475 blocks++;
2482 }
2490 else
2492 }
2493 }
2495 /* Count the number of edges the THEN and ELSE blocks have. */
2500 {
2501 then_predecessors++;
2504 }
2510 {
2511 else_predecessors++;
2514 }
2516 /* The THEN block of an IF-THEN combo must have exactly one predecessor,
2517 other than any || blocks which jump to the THEN block. */
2521 /* The THEN block of an IF-THEN combo must have zero or one successors. */
2528 /* If the THEN block has no successors, conditional execution can still
2529 make a conditional call. Don't do this unless the ELSE block has
2530 only one incoming edge -- the CFG manipulation is too ugly otherwise.
2531 Check for the last insn of the THEN block being an indirect jump, which
2532 is listed as not having any successors, but confuses the rest of the CE
2533 code processing. ??? we should fix this in the future. */
2535 {
2537 {
2552 }
2553 else
2555 }
2557 /* If the THEN block's successor is the other edge out of the TEST block,
2558 then we have an IF-THEN combo without an ELSE. */
2560 {
2563 }
2565 /* If the THEN and ELSE block meet in a subsequent block, and the ELSE
2566 has exactly one predecessor and one successor, and the outgoing edge
2567 is not complex, then we have an IF-THEN-ELSE combo. */
2576 /* Otherwise it is not an IF-THEN or IF-THEN-ELSE combination. */
2577 else
2580 num_possible_if_blocks++;
2583 {
2614 }
2616 /* Make sure IF, THEN, and ELSE, blocks are adjacent. Actually, we get the
2617 first condition for free, since we've already asserted that there's a
2618 fallthru edge from IF to THEN. Likewise for the && and || blocks, since
2619 we checked the FALLTHRU flag, those are already adjacent to the last IF
2620 block. */
2621 /* ??? As an enhancement, move the ELSE block. Have to deal with
2622 BLOCK notes, if by no other means than aborting the merge if they
2623 exist. Sticky enough I don't want to think about it now. */
2628 {
2631 else
2633 }
2635 /* Do the real work. */
2640 }
2642 /* Convert a branch over a trap, or a branch
2643 to a trap, into a conditional trap. */
2645 static int
2647 {
2654 /* Locate the block with the trap instruction. */
2655 /* ??? While we look for no successors, we really ought to allow
2656 EH successors. Need to fix merge_if_block for that to work. */
2661 else
2665 {
2668 }
2670 /* If this is not a standard conditional jump, we can't parse it. */
2676 /* If the conditional jump is more than just a conditional jump, then
2677 we can not do if-conversion on this block. */
2681 /* We must be comparing objects whose modes imply the size. */
2685 /* Reverse the comparison code, if necessary. */
2688 {
2692 }
2694 /* Attempt to generate the conditional trap. */
2701 num_true_changes++;
2703 /* Emit the new insns before cond_earliest. */
2706 /* Delete the trap block if possible. */
2711 /* If the non-trap block and the test are now adjacent, merge them.
2712 Otherwise we must insert a direct branch. */
2714 {
2723 }
2724 else
2725 {
2735 }
2738 }
2740 /* Subroutine of find_cond_trap: if BB contains only a trap insn,
2741 return it. */
2743 static rtx
2745 {
2746 rtx trap;
2748 /* We're not the exit block. */
2752 /* The block must have no successors. */
2756 /* The only instruction in the THEN block must be the trap. */
2764 }
2766 /* Look for IF-THEN-ELSE cases in which one of THEN or ELSE is
2767 transformable, but not necessarily the other. There need be no
2768 JOIN block.
2770 Return TRUE if we were successful at converting the block.
2772 Cases we'd like to look at:
2774 (1)
2775 if (test) goto over; // x not live
2776 x = a;
2777 goto label;
2778 over:
2780 becomes
2782 x = a;
2783 if (! test) goto label;
2785 (2)
2786 if (test) goto E; // x not live
2787 x = big();
2788 goto L;
2789 E:
2790 x = b;
2791 goto M;
2793 becomes
2795 x = b;
2796 if (test) goto M;
2797 x = big();
2798 goto L;
2800 (3) // This one's really only interesting for targets that can do
2801 // multiway branching, e.g. IA-64 BBB bundles. For other targets
2802 // it results in multiple branches on a cache line, which often
2803 // does not sit well with predictors.
2805 if (test1) goto E; // predicted not taken
2806 x = a;
2807 if (test2) goto F;
2808 ...
2809 E:
2810 x = b;
2811 J:
2813 becomes
2815 x = a;
2816 if (test1) goto E;
2817 if (test2) goto F;
2819 Notes:
2821 (A) Don't do (2) if the branch is predicted against the block we're
2822 eliminating. Do it anyway if we can eliminate a branch; this requires
2823 that the sole successor of the eliminated block postdominate the other
2824 side of the if.
2826 (B) With CE, on (3) we can steal from both sides of the if, creating
2828 if (test1) x = a;
2829 if (!test1) x = b;
2830 if (test1) goto J;
2831 if (test2) goto F;
2832 ...
2833 J:
2835 Again, this is most useful if J postdominates.
2837 (C) CE substitutes for helpful life information.
2839 (D) These heuristics need a lot of work. */
2841 /* Tests for case 1 above. */
2843 static int
2845 {
2851 /* If we are partitioning hot/cold basic blocks, we don't want to
2852 mess up unconditional or indirect jumps that cross between hot
2853 and cold sections.
2855 Basic block partitioning may result in some jumps that appear to
2856 be optimizable (or blocks that appear to be mergeable), but which really
2857 must be left untouched (they are required to make it safely across
2858 partition boundaries). See the comments at the top of
2859 bb-reorder.c:partition_hot_cold_basic_blocks for complete details. */
2866 NULL_RTX))))
2869 /* THEN has one successor. */
2873 /* THEN does not fall through, but is not strange either. */
2877 /* THEN has one predecessor. */
2881 /* THEN must do something. */
2885 num_possible_if_blocks++;
2891 /* THEN is small. */
2896 /* Registers set are dead, or are predicable. */
2901 /* Conversion went ok, including moving the insns and fixing up the
2902 jump. Adjust the CFG to match. */
2912 /* Make rest of code believe that the newly created block is the THEN_BB
2913 block we removed. */
2915 {
2918 /* Since the fallthru edge was redirected from test_bb to new_bb,
2919 we need to ensure that new_bb is in the same partition as
2920 test bb (you can not fall through across section boundaries). */
2922 }
2923 /* We've possibly created jump to next insn, cleanup_cfg will solve that
2924 later. */
2926 num_true_changes++;
2927 num_updated_if_blocks++;
2930 }
2932 /* Test for case 2 above. */
2934 static int
2936 {
2941 rtx note;
2943 /* If we are partitioning hot/cold basic blocks, we don't want to
2944 mess up unconditional or indirect jumps that cross between hot
2945 and cold sections.
2947 Basic block partitioning may result in some jumps that appear to
2948 be optimizable (or blocks that appear to be mergeable), but which really
2949 must be left untouched (they are required to make it safely across
2950 partition boundaries). See the comments at the top of
2951 bb-reorder.c:partition_hot_cold_basic_blocks for complete details. */
2958 NULL_RTX))))
2961 /* ELSE has one successor. */
2965 /* ELSE outgoing edge is not complex. */
2969 /* ELSE has one predecessor. */
2973 /* THEN is not EXIT. */
2977 /* ELSE is predicted or SUCC(ELSE) postdominates THEN. */
2980 ;
2984 ;
2985 else
2988 num_possible_if_blocks++;
2994 /* ELSE is small. */
2999 /* Registers set are dead, or are predicable. */
3003 /* Conversion went ok, including moving the insns and fixing up the
3004 jump. Adjust the CFG to match. */
3012 num_true_changes++;
3013 num_updated_if_blocks++;
3015 /* ??? We may now fallthru from one of THEN's successors into a join
3016 block. Rerun cleanup_cfg? Examine things manually? Wait? */
3019 }
3021 /* A subroutine of dead_or_predicable called through for_each_rtx.
3022 Return 1 if a memory is found. */
3024 static int
3026 {
3028 }
3030 /* Used by the code above to perform the actual rtl transformations.
3031 Return TRUE if successful.
3033 TEST_BB is the block containing the conditional branch. MERGE_BB
3034 is the block containing the code to manipulate. NEW_DEST is the
3035 label TEST_BB should be branching to after the conversion.
3036 REVERSEP is true if the sense of the branch should be reversed. */
3038 static int
3041 {
3046 /* Find the extent of the real code in the merge block. */
3053 {
3055 {
3058 }
3060 }
3063 {
3065 {
3068 }
3070 }
3072 /* Disable handling dead code by conditional execution if the machine needs
3073 to do anything funny with the tests, etc. */
3074 #ifndef IFCVT_MODIFY_TESTS
3076 {
3077 /* In the conditional execution case, we have things easy. We know
3078 the condition is reversible. We don't have to check life info
3079 because we're going to conditionally execute the code anyway.
3080 All that's left is making sure the insns involved can actually
3081 be predicated. */
3094 {
3102 }
3109 }
3110 else
3111 #endif
3112 {
3113 /* In the non-conditional execution case, we have to verify that there
3114 are no trapping operations, no calls, no references to memory, and
3115 that any registers modified are dead at the branch site. */
3123 /* Check for no calls or trapping operations. */
3125 {
3129 {
3133 /* ??? Even non-trapping memories such as stack frame
3134 references must be avoided. For stores, we collect
3135 no lifetime info; for reads, we'd have to assert
3136 true_dependence false against every store in the
3137 TEST range. */
3140 }
3143 }
3148 /* Find the extent of the conditional. */
3153 /* Collect:
3154 MERGE_SET = set of registers set in MERGE_BB
3155 TEST_LIVE = set of registers live at EARLIEST
3156 TEST_SET = set of registers set between EARLIEST and the
3157 end of the block. */
3164 /* ??? bb->local_set is only valid during calculate_global_regs_live,
3165 so we must recompute usage for MERGE_BB. Not so bad, I suppose,
3166 since we've already asserted that MERGE_BB is small. */
3169 /* For small register class machines, don't lengthen lifetimes of
3170 hard registers before reload. */
3172 {
3173 EXECUTE_IF_SET_IN_BITMAP
3175 {
3180 });
3181 }
3183 /* For TEST, we're interested in a range of insns, not a whole block.
3184 Moreover, we're interested in the insns live from OTHER_BB. */
3191 {
3195 }
3199 /* We can perform the transformation if
3200 MERGE_SET & (TEST_SET | TEST_LIVE)
3201 and
3202 TEST_SET & merge_bb->global_live_at_start
3203 are empty. */
3210 BITMAP_AND);
3220 }
3222 no_body:
3223 /* We don't want to use normal invert_jump or redirect_jump because
3224 we don't want to delete_insn called. Also, we want to do our own
3225 change group management. */
3229 {
3235 }
3241 {
3252 {
3262 }
3263 }
3265 /* Move the insns out of MERGE_BB to before the branch. */
3267 {
3275 }
3277 /* Remove the jump and edge if we can. */
3279 {
3282 /* ??? Can't merge blocks here, as then_bb is still in use.
3283 At minimum, the merge will get done just before bb-reorder. */
3284 }
3288 cancel:
3291 }
3292 \f
3293 /* Main entry point for all if-conversion. */
3295 void
3297 {
3298 basic_block bb;
3311 /* Compute postdominators if we think we'll use them. */
3318 /* Go through each of the basic blocks looking for things to convert. If we
3319 have conditional execution, we make multiple passes to allow us to handle
3320 IF-THEN{-ELSE} blocks within other IF-THEN{-ELSE} blocks. */
3322 do
3323 {
3325 pass++;
3327 #ifdef IFCVT_MULTIPLE_DUMPS
3330 #endif
3333 {
3334 basic_block new_bb;
3337 }
3339 #ifdef IFCVT_MULTIPLE_DUMPS
3342 #endif
3343 }
3346 #ifdef IFCVT_MULTIPLE_DUMPS
3349 #endif
3358 /* Rebuild life info for basic blocks that require it. */
3360 {
3361 /* If we allocated new pseudos, we must resize the array for sched1. */
3363 {
3366 }
3368 PROP_DEATH_NOTES | PROP_SCAN_DEAD_CODE
3370 }
3372 /* Write the final stats. */
3374 {
3377 num_possible_if_blocks);
3380 num_updated_if_blocks);
3383 num_true_changes);
3384 }
3386 #ifdef ENABLE_CHECKING
3388 #endif
3389 }