tree-optimization/112450 - avoid AVX512 style masking for BImode masks
[official-gcc.git] / gcc / gimple-range-phi.cc
blob9884a0ebbb0241c1219a1391b6a300daae3cbbf3
1 /* Gimple range phi analysis.
2 Copyright (C) 2023 Free Software Foundation, Inc.
3 Contributed by Andrew MacLeod <amacleod@redhat.com>.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
10 any later version.
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 #include "config.h"
22 #include "system.h"
23 #include "coretypes.h"
24 #include "backend.h"
25 #include "insn-codes.h"
26 #include "tree.h"
27 #include "gimple.h"
28 #include "ssa.h"
29 #include "gimple-pretty-print.h"
30 #include "gimple-range.h"
31 #include "gimple-range-cache.h"
32 #include "value-range-storage.h"
33 #include "tree-cfg.h"
34 #include "target.h"
35 #include "attribs.h"
36 #include "gimple-iterator.h"
37 #include "gimple-walk.h"
38 #include "cfganal.h"
40 // There can be only one running at a time.
41 static phi_analyzer *phi_analysis_object = NULL;
43 // Initialize a PHI analyzer with range query Q.
45 void
46 phi_analysis_initialize (range_query &q)
48 gcc_checking_assert (!phi_analysis_object);
49 phi_analysis_object = new phi_analyzer (q);
52 // Terminate the current PHI analyzer. if F is non-null, dump the tables
54 void
55 phi_analysis_finalize ()
57 gcc_checking_assert (phi_analysis_object);
58 delete phi_analysis_object;
59 phi_analysis_object = NULL;
62 // Return TRUE is there is a PHI analyzer operating.
63 bool
64 phi_analysis_available_p ()
66 return phi_analysis_object != NULL;
69 // Return the phi analyzer object.
71 phi_analyzer &phi_analysis ()
73 gcc_checking_assert (phi_analysis_object);
74 return *phi_analysis_object;
77 // Initialize a phi_group from another group G.
79 phi_group::phi_group (const phi_group &g)
81 m_group = g.m_group;
82 m_modifier = g.m_modifier;
83 m_modifier_op = g.m_modifier_op;
84 m_vr = g.m_vr;
87 // Create a new phi_group with members BM, initial range INIT_RANGE, modifier
88 // statement MOD on edge MOD_EDGE, and resolve values using query Q. Calculate
89 // the range for the group if possible, otherwise set it to VARYING.
91 phi_group::phi_group (bitmap bm, irange &init_range, gimple *mod,
92 range_query *q)
94 // we dont expect a modifer and no inital value, so trap to have a look.
95 // perhaps they are dead cycles and we can just used UNDEFINED.
96 gcc_checking_assert (!init_range.undefined_p ());
97 gcc_checking_assert (!init_range.varying_p ());
99 m_modifier_op = is_modifier_p (mod, bm);
100 m_group = bm;
101 m_vr = init_range;
102 m_modifier = mod;
103 // No modifier means the initial range is the full range.
104 // Otherwise try to calculate a range.
105 if (!m_modifier_op || calculate_using_modifier (q))
106 return;
107 // Couldn't calculate a range, set to varying.
108 m_vr.set_varying (init_range.type ());
111 // Return 0 if S is not a modifier statment for group members BM.
112 // If it could be a modifier, return which operand position (1 or 2)
113 // the phi member occurs in.
114 unsigned
115 phi_group::is_modifier_p (gimple *s, const bitmap bm)
117 if (!s)
118 return 0;
119 gimple_range_op_handler handler (s);
120 if (handler)
122 tree op1 = gimple_range_ssa_p (handler.operand1 ());
123 tree op2 = gimple_range_ssa_p (handler.operand2 ());
124 // Also disallow modifiers that have 2 ssa-names.
125 if (op1 && !op2 && bitmap_bit_p (bm, SSA_NAME_VERSION (op1)))
126 return 1;
127 else if (op2 && !op1 && bitmap_bit_p (bm, SSA_NAME_VERSION (op2)))
128 return 2;
130 return 0;
133 // Calulcate the range of the phi group using range_query Q.
135 bool
136 phi_group::calculate_using_modifier (range_query *q)
138 // Look at the modifier for any relation
139 relation_trio trio = fold_relations (m_modifier, q);
140 relation_kind k = VREL_VARYING;
141 if (m_modifier_op == 1)
142 k = trio.lhs_op1 ();
143 else if (m_modifier_op == 2)
144 k = trio.lhs_op2 ();
145 else
146 return false;
148 // Examine modifier and run 10 iterations to see if it convergences.
149 // The constructor initilaized m_vr to the initial value already.
150 const unsigned num_iter = 10;
151 int_range_max nv;
152 int_range_max iter_value = m_vr;
153 for (unsigned x = 0; x < num_iter; x++)
155 if (!fold_range (nv, m_modifier, iter_value, q))
156 break;
157 // If union does nothing, then we have convergence.
158 if (!iter_value.union_ (nv))
160 if (iter_value.varying_p ())
161 break;
162 m_vr = iter_value;
163 return true;
167 // If we can resolve the range using relations, use that range.
168 if (refine_using_relation (k))
169 return true;
171 // Never converged, so bail for now. we could examine the pattern
172 // from m_initial to m_vr as an extension Especially if we had a way
173 // to project the actual number of iterations (SCEV?)
175 // We can also try to identify "parallel" phis to get loop counts and
176 // determine the number of iterations of these parallel PHIs.
178 return false;
182 // IF the modifier statement has a relation K between the modifier and the
183 // PHI member in it, we can project a range based on that.
184 // ie, a_2 = PHI <0, a_3> and a_3 = a_2 + 1
185 // if the relation a_3 > a_2 is present, the know the range is [0, +INF]
186 // m_vr contains the initial value for the PHI range.
188 bool
189 phi_group::refine_using_relation (relation_kind k)
191 if (k == VREL_VARYING)
192 return false;
193 tree type = m_vr.type ();
194 // If the type wraps, then relations dont tell us much.
195 if (TYPE_OVERFLOW_WRAPS (type))
196 return false;
198 int_range<2> type_range;
199 type_range.set_varying (type);
200 switch (k)
202 case VREL_LT:
203 case VREL_LE:
205 // Value always decreases.
206 m_vr.set (type, type_range.lower_bound (), m_vr.upper_bound ());
207 return true;
210 case VREL_GT:
211 case VREL_GE:
213 // Value always increases.
214 m_vr.set (type, m_vr.lower_bound (), type_range.upper_bound ());
215 return true;
218 // If its always equal, then its simply the initial value.
219 // which is what m_vr has already been set to.
220 case VREL_EQ:
221 return true;
223 default:
224 break;
227 return false;
230 // Dump the information for a phi group to file F.
232 void
233 phi_group::dump (FILE *f)
235 unsigned i;
236 bitmap_iterator bi;
237 fprintf (f, "PHI GROUP < ");
239 EXECUTE_IF_SET_IN_BITMAP (m_group, 0, i, bi)
241 print_generic_expr (f, ssa_name (i), TDF_SLIM);
242 fputc (' ',f);
244 fprintf (f, "> : range : ");
245 m_vr.dump (f);
246 fprintf (f, "\n Modifier : ");
247 if (m_modifier)
248 print_gimple_stmt (f, m_modifier, 0, TDF_SLIM);
249 else
250 fprintf (f, "NONE\n");
253 // -------------------------------------------------------------------------
255 // Construct a phi analyzer which uses range_query G to pick up values.
257 phi_analyzer::phi_analyzer (range_query &g) : m_global (g)
259 m_work.create (0);
260 m_work.safe_grow (20);
262 m_tab.create (0);
263 // m_tab.safe_grow_cleared (num_ssa_names + 100);
264 bitmap_obstack_initialize (&m_bitmaps);
265 m_simple = BITMAP_ALLOC (&m_bitmaps);
266 m_current = BITMAP_ALLOC (&m_bitmaps);
269 // Destruct a PHI analyzer.
271 phi_analyzer::~phi_analyzer ()
273 bitmap_obstack_release (&m_bitmaps);
274 m_tab.release ();
275 m_work.release ();
278 // Return the group, if any, that NAME is part of. Do no analysis.
280 phi_group *
281 phi_analyzer::group (tree name) const
283 gcc_checking_assert (TREE_CODE (name) == SSA_NAME);
284 if (!is_a<gphi *> (SSA_NAME_DEF_STMT (name)))
285 return NULL;
286 unsigned v = SSA_NAME_VERSION (name);
287 if (v >= m_tab.length ())
288 return NULL;
289 return m_tab[v];
292 // Return the group NAME is associated with, if any. If name has not been
293 // procvessed yet, do the analysis to determine if it is part of a group
294 // and return that.
296 phi_group *
297 phi_analyzer::operator[] (tree name)
299 gcc_checking_assert (TREE_CODE (name) == SSA_NAME);
301 // Initial support for irange only.
302 if (!irange::supports_p (TREE_TYPE (name)))
303 return NULL;
304 if (!is_a<gphi *> (SSA_NAME_DEF_STMT (name)))
305 return NULL;
307 unsigned v = SSA_NAME_VERSION (name);
308 // Already been processed and not part of a group.
309 if (bitmap_bit_p (m_simple, v))
310 return NULL;
312 if (v >= m_tab.length () || !m_tab[v])
314 process_phi (as_a<gphi *> (SSA_NAME_DEF_STMT (name)));
315 if (bitmap_bit_p (m_simple, v))
316 return NULL;
317 // If m_simple bit isn't set, and process_phi didn't allocated the table
318 // no group was created, so return NULL.
319 if (v >= m_tab.length ())
320 return NULL;
322 return m_tab[v];
325 // Process phi node PHI to see if it it part of a group.
327 void
328 phi_analyzer::process_phi (gphi *phi)
330 gcc_checking_assert (!group (gimple_phi_result (phi)));
331 bool cycle_p = true;
333 // Start with the LHS of the PHI in the worklist.
334 unsigned x;
335 m_work.truncate (0);
336 m_work.safe_push (gimple_phi_result (phi));
337 unsigned phi_count = 1;
338 bitmap_clear (m_current);
340 // We can only have 2 externals: an initial value and a modifier.
341 // Any more than that and this fails to be a group.
342 unsigned m_num_extern = 0;
343 tree m_external[2];
344 edge m_ext_edge[2];
345 int_range_max init_range;
346 init_range.set_undefined ();
348 while (m_work.length () > 0)
350 tree phi_def = m_work.pop ();
351 gphi *phi_stmt = as_a<gphi *> (SSA_NAME_DEF_STMT (phi_def));
352 // if the phi is already in a different cycle, we don't try to merge.
353 if (group (phi_def))
355 cycle_p = false;
356 break;
358 bitmap_set_bit (m_current, SSA_NAME_VERSION (phi_def));
359 // Process the args.
360 for (x = 0; x < gimple_phi_num_args (phi_stmt); x++)
362 tree arg = gimple_phi_arg_def (phi_stmt, x);
363 if (arg == phi_def)
364 continue;
365 enum tree_code code = TREE_CODE (arg);
366 if (code == SSA_NAME)
368 unsigned v = SSA_NAME_VERSION (arg);
369 // Already a member of this potential group.
370 if (bitmap_bit_p (m_current, v))
371 continue;
372 // Part of a different group ends cycle possibility.
373 if (group (arg) || bitmap_bit_p (m_simple, v))
375 cycle_p = false;
376 break;
378 // Check if its a PHI to examine.
379 gimple *arg_stmt = SSA_NAME_DEF_STMT (arg);
380 if (arg_stmt && is_a<gphi *> (arg_stmt))
382 phi_count++;
383 m_work.safe_push (arg);
384 continue;
386 // More than 2 outside names is too complicated.
387 if (m_num_extern >= 2)
389 cycle_p = false;
390 break;
392 m_external[m_num_extern] = arg;
393 m_ext_edge[m_num_extern++] = gimple_phi_arg_edge (phi_stmt, x);
395 else if (code == INTEGER_CST)
397 // Constants are just added to the initialization value.
398 int_range<1> val (TREE_TYPE (arg), wi::to_wide (arg),
399 wi::to_wide (arg));
400 init_range.union_ (val);
402 else
404 // Everything else terminates the cycle.
405 cycle_p = false;
406 break;
411 // If there are less than 2 names, just return. This PHI may be included
412 // by another PHI, making it simple or a group of one will prevent a larger
413 // group from being formed.
414 if (phi_count < 2)
415 return;
416 gcc_checking_assert (!bitmap_empty_p (m_current));
418 phi_group *g = NULL;
419 if (cycle_p)
421 bool valid = true;
422 gimple *mod = NULL;
423 signed init_idx = -1;
424 // At this point all the PHIs have been added to the bitmap.
425 // the external list needs to be checked for initial values and modifiers.
426 for (x = 0; x < m_num_extern; x++)
428 tree name = m_external[x];
429 if (TREE_CODE (name) == SSA_NAME
430 && phi_group::is_modifier_p (SSA_NAME_DEF_STMT (name), m_current))
432 // Can't have multiple modifiers.
433 if (mod)
434 valid = false;
435 mod = SSA_NAME_DEF_STMT (name);
436 continue;
438 // Can't have 2 initializers either.
439 if (init_idx != -1)
440 valid = false;
441 init_idx = x;
443 int_range_max init_sym;
444 // If there is an symbolic initializer as well, include it here.
445 if (valid && init_idx != -1)
447 if (m_global.range_on_edge (init_sym, m_ext_edge[init_idx],
448 m_external[init_idx]))
449 init_range.union_ (init_sym);
450 else
451 valid = false;
453 if (valid && !init_range.varying_p () && !init_range.undefined_p ())
455 // Try to create a group based on m_current. If a result comes back
456 // with a range that isn't varying, create the group.
457 phi_group cyc (m_current, init_range, mod, &m_global);
458 if (!cyc.range ().varying_p ())
460 g = new phi_group (cyc);
461 if (dump_file && (dump_flags & TDF_DETAILS))
463 fprintf (dump_file, "PHI ANALYZER : New ");
464 g->dump (dump_file);
465 fprintf (dump_file," Initial range was ");
466 init_range.dump (dump_file);
467 if (init_idx != -1)
469 fprintf (dump_file, " including symbolic ");
470 print_generic_expr (dump_file, m_external[init_idx],
471 TDF_SLIM);
472 fprintf (dump_file, " on edge %d->%d with range ",
473 m_ext_edge[init_idx]->src->index,
474 m_ext_edge[init_idx]->dest->index);
475 init_sym.dump (dump_file);
477 fputc ('\n',dump_file);
482 // If this dpoesn;t form a group, all members are instead simple phis.
483 if (!g)
485 bitmap_ior_into (m_simple, m_current);
486 return;
489 if (num_ssa_names >= m_tab.length ())
490 m_tab.safe_grow_cleared (num_ssa_names + 100);
492 // Now set all entries in the group to this record.
493 unsigned i;
494 bitmap_iterator bi;
495 EXECUTE_IF_SET_IN_BITMAP (m_current, 0, i, bi)
497 // Can't be in more than one group.
498 gcc_checking_assert (m_tab[i] == NULL);
499 m_tab[i] = g;
501 // Allocate a new bitmap for the next time as the original one is now part
502 // of the new phi group.
503 m_current = BITMAP_ALLOC (&m_bitmaps);
506 void
507 phi_analyzer::dump (FILE *f)
509 bool header = false;
510 bitmap_clear (m_current);
511 for (unsigned x = 0; x < m_tab.length (); x++)
513 if (bitmap_bit_p (m_simple, x))
514 continue;
515 if (bitmap_bit_p (m_current, x))
516 continue;
517 if (m_tab[x] == NULL)
518 continue;
519 phi_group *g = m_tab[x];
520 bitmap_ior_into (m_current, g->group ());
521 if (!header)
523 header = true;
524 fprintf (f, "\nPHI GROUPS:\n");
526 g->dump (f);