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40675e7c 1/* Generate the nondeterministic finite state machine for bison,
602bbf31 2 Copyright 1984, 1986, 1989, 2000, 2001, 2002 Free Software Foundation, Inc.
40675e7c 3
2fa6973e 4 This file is part of Bison, the GNU Compiler Compiler.
40675e7c 5
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6 Bison is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2, or (at your option)
9 any later version.
40675e7c 10
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11 Bison is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
40675e7c 15
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16 You should have received a copy of the GNU General Public License
17 along with Bison; see the file COPYING. If not, write to
18 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
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20
21
22/* See comments in state.h for the data structures that represent it.
23 The entry point is generate_states. */
24
40675e7c 25#include "system.h"
602bbf31 26#include "bitset.h"
8b3df748 27#include "quotearg.h"
0e78e603 28#include "symtab.h"
5fbb0954 29#include "gram.h"
9bfe901c 30#include "getargs.h"
c87d4863 31#include "reader.h"
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32#include "gram.h"
33#include "state.h"
a0f6b076 34#include "complain.h"
2fa6973e 35#include "closure.h"
403b315b 36#include "LR0.h"
49701457 37#include "lalr.h"
630e182b 38#include "reduce.h"
40675e7c 39
643a5994 40unsigned int nstates = 0;
610ab194
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41/* Initialize the final state to -1, otherwise, it might be set to 0
42 by default, and since we don't compute the reductions of the final
43 state, we end up not computing the reductions of the initial state,
44 which is of course needed.
45
46 FINAL_STATE is properly set by new_state when it recognizes the
47 accessing symbol: EOF. */
48int final_state = -1;
6a164e0c 49static state_t *first_state = NULL;
40675e7c 50
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51static state_t *this_state = NULL;
52static state_t *last_state = NULL;
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53
54static int nshifts;
a49aecd5 55static symbol_number_t *shift_symbol = NULL;
40675e7c 56
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57static short *redset = NULL;
58static short *shiftset = NULL;
40675e7c 59
62a3e4f0 60static item_number_t **kernel_base = NULL;
6255b435 61static int *kernel_size = NULL;
62a3e4f0 62static item_number_t *kernel_items = NULL;
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63
64/* hash table for states, to recognize equivalent ones. */
65
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66#define STATE_HASH_SIZE 1009
67static state_t **state_hash = NULL;
40675e7c 68
2fa6973e 69\f
4a120d45 70static void
d2729d44 71allocate_itemsets (void)
40675e7c 72{
b4c4ccc2 73 int i, r;
62a3e4f0 74 item_number_t *rhsp;
40675e7c 75
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76 /* Count the number of occurrences of all the symbols in RITEMS.
77 Note that useless productions (hence useless nonterminals) are
78 browsed too, hence we need to allocate room for _all_ the
79 symbols. */
80 int count = 0;
81 short *symbol_count = XCALLOC (short, nsyms + nuseless_nonterminals);
40675e7c 82
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83 for (r = 1; r < nrules + 1; ++r)
84 for (rhsp = rules[r].rhs; *rhsp >= 0; ++rhsp)
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85 {
86 count++;
b4c4ccc2 87 symbol_count[*rhsp]++;
c87d4863 88 }
40675e7c 89
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90 /* See comments before new_itemsets. All the vectors of items
91 live inside KERNEL_ITEMS. The number of active items after
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92 some symbol cannot be more than the number of times that symbol
93 appears as an item, which is symbol_count[symbol].
94 We allocate that much space for each symbol. */
95
62a3e4f0 96 kernel_base = XCALLOC (item_number_t *, nsyms);
342b8b6e 97 if (count)
62a3e4f0 98 kernel_items = XCALLOC (item_number_t, count);
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99
100 count = 0;
101 for (i = 0; i < nsyms; i++)
102 {
103 kernel_base[i] = kernel_items + count;
104 count += symbol_count[i];
105 }
106
630e182b 107 free (symbol_count);
0e41b407 108 kernel_size = XCALLOC (int, nsyms);
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109}
110
111
4a120d45 112static void
d2729d44 113allocate_storage (void)
40675e7c 114{
2fa6973e 115 allocate_itemsets ();
40675e7c 116
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117 shiftset = XCALLOC (short, nsyms);
118 redset = XCALLOC (short, nrules + 1);
f693ad14 119 state_hash = XCALLOC (state_t *, STATE_HASH_SIZE);
a49aecd5 120 shift_symbol = XCALLOC (symbol_number_t, nsyms);
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121}
122
123
4a120d45 124static void
d2729d44 125free_storage (void)
40675e7c 126{
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127 free (shift_symbol);
128 free (redset);
129 free (shiftset);
130 free (kernel_base);
131 free (kernel_size);
d7913476 132 XFREE (kernel_items);
f693ad14 133 free (state_hash);
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134}
135
136
137
40675e7c 138
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139/*----------------------------------------------------------------.
140| Find which symbols can be shifted in the current state, and for |
141| each one record which items would be active after that shift. |
142| Uses the contents of itemset. |
143| |
144| shift_symbol is set to a vector of the symbols that can be |
145| shifted. For each symbol in the grammar, kernel_base[symbol] |
146| points to a vector of item numbers activated if that symbol is |
125ecb56 147| shifted, and kernel_size[symbol] is their numbers. |
2fa6973e 148`----------------------------------------------------------------*/
40675e7c 149
4a120d45 150static void
d2729d44 151new_itemsets (void)
40675e7c 152{
2fa6973e 153 int i;
2fa6973e 154
9bfe901c 155 if (trace_flag)
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156 fprintf (stderr, "Entering new_itemsets, state = %d\n",
157 this_state->number);
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158
159 for (i = 0; i < nsyms; i++)
125ecb56 160 kernel_size[i] = 0;
40675e7c 161
b2872512 162 nshifts = 0;
40675e7c 163
5123689b 164 for (i = 0; i < nritemset; ++i)
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165 if (ritem[itemset[i]] >= 0)
166 {
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167 symbol_number_t symbol
168 = item_number_as_symbol_number (ritem[itemset[i]]);
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169 if (!kernel_size[symbol])
170 {
171 shift_symbol[nshifts] = symbol;
172 nshifts++;
173 }
174
175 kernel_base[symbol][kernel_size[symbol]] = itemset[i] + 1;
176 kernel_size[symbol]++;
177 }
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178}
179
180
181
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182/*-----------------------------------------------------------------.
183| Subroutine of get_state. Create a new state for those items, if |
184| necessary. |
185`-----------------------------------------------------------------*/
40675e7c 186
f693ad14 187static state_t *
a49aecd5 188new_state (symbol_number_t symbol, size_t core_size, item_number_t *core)
40675e7c 189{
f693ad14 190 state_t *p;
40675e7c 191
9bfe901c 192 if (trace_flag)
c87d4863 193 fprintf (stderr, "Entering new_state, state = %d, symbol = %d (%s)\n",
6b98e4b5 194 nstates, symbol, symbol_tag_get (symbols[symbol]));
40675e7c 195
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196 if (nstates >= SHRT_MAX)
197 fatal (_("too many states (max %d)"), SHRT_MAX);
40675e7c 198
458be8e0 199 p = STATE_ALLOC (core_size);
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200 p->accessing_symbol = symbol;
201 p->number = nstates;
b408954b 202 p->solved_conflicts = NULL;
2fa6973e 203
b408954b 204 p->nitems = core_size;
458be8e0 205 memcpy (p->items, core, core_size * sizeof (core[0]));
2fa6973e 206
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207 /* If this is the eoftoken, and this is not the initial state, then
208 this is the final state. */
209 if (symbol == 0 && first_state)
210 final_state = p->number;
211
212 if (!first_state)
213 first_state = p;
214 if (last_state)
215 last_state->next = p;
2fa6973e 216 last_state = p;
40675e7c 217
643a5994 218 nstates++;
30171f79 219
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220 return p;
221}
40675e7c 222
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223
224/*--------------------------------------------------------------.
225| Find the state number for the state we would get to (from the |
226| current state) by shifting symbol. Create a new state if no |
97db7bd4 227| equivalent one exists already. Used by append_states. |
2fa6973e 228`--------------------------------------------------------------*/
40675e7c 229
4a120d45 230static int
a49aecd5 231get_state (symbol_number_t symbol, size_t core_size, item_number_t *core)
40675e7c 232{
2fa6973e 233 int key;
0c2d3f4c 234 size_t i;
f693ad14 235 state_t *sp;
40675e7c 236
9bfe901c 237 if (trace_flag)
c87d4863 238 fprintf (stderr, "Entering get_state, state = %d, symbol = %d (%s)\n",
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239 this_state->number, symbol,
240 symbol_tag_get (symbols[symbol]));
40675e7c 241
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242 /* Add up the target state's active item numbers to get a hash key.
243 */
40675e7c 244 key = 0;
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245 for (i = 0; i < core_size; ++i)
246 key += core[i];
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247 key = key % STATE_HASH_SIZE;
248 sp = state_hash[key];
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249
250 if (sp)
251 {
97db7bd4 252 int found = 0;
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253 while (!found)
254 {
458be8e0 255 if (sp->nitems == core_size)
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256 {
257 found = 1;
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258 for (i = 0; i < core_size; ++i)
259 if (core[i] != sp->items[i])
97db7bd4 260 found = 0;
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261 }
262
263 if (!found)
264 {
265 if (sp->link)
266 {
267 sp = sp->link;
268 }
2fa6973e 269 else /* bucket exhausted and no match */
40675e7c 270 {
458be8e0 271 sp = sp->link = new_state (symbol, core_size, core);
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272 found = 1;
273 }
274 }
275 }
276 }
2fa6973e 277 else /* bucket is empty */
40675e7c 278 {
458be8e0 279 state_hash[key] = sp = new_state (symbol, core_size, core);
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280 }
281
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282 if (trace_flag)
283 fprintf (stderr, "Exiting get_state => %d\n", sp->number);
284
36281465 285 return sp->number;
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286}
287
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288/*------------------------------------------------------------------.
289| Use the information computed by new_itemsets to find the state |
290| numbers reached by each shift transition from the current state. |
291| |
292| shiftset is set up as a vector of state numbers of those states. |
293`------------------------------------------------------------------*/
40675e7c 294
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295static void
296append_states (void)
40675e7c 297{
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298 int i;
299 int j;
a49aecd5 300 symbol_number_t symbol;
40675e7c 301
9bfe901c 302 if (trace_flag)
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303 fprintf (stderr, "Entering append_states, state = %d\n",
304 this_state->number);
40675e7c 305
2fa6973e 306 /* first sort shift_symbol into increasing order */
40675e7c 307
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308 for (i = 1; i < nshifts; i++)
309 {
310 symbol = shift_symbol[i];
311 j = i;
312 while (j > 0 && shift_symbol[j - 1] > symbol)
313 {
314 shift_symbol[j] = shift_symbol[j - 1];
315 j--;
316 }
317 shift_symbol[j] = symbol;
318 }
40675e7c 319
2fa6973e 320 for (i = 0; i < nshifts; i++)
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321 {
322 symbol = shift_symbol[i];
323 shiftset[i] = get_state (symbol,
324 kernel_size[symbol], kernel_base[symbol]);
325 }
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326}
327
328
4a120d45 329static void
2fa6973e 330new_states (void)
40675e7c 331{
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332 /* The 0 at the lhs is the index of the item of this initial rule. */
333 kernel_base[0][0] = 0;
334 kernel_size[0] = 1;
458be8e0 335 this_state = new_state (0, kernel_size[0], kernel_base[0]);
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336}
337
338
4a38e613
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339/*------------------------------------------------------------.
340| Save the NSHIFTS of SHIFTSET into the current linked list. |
341`------------------------------------------------------------*/
342
4a120d45 343static void
d2729d44 344save_shifts (void)
40675e7c 345{
4a38e613 346 shifts *p = shifts_new (nshifts);
62a3e4f0 347 memcpy (p->shifts, shiftset, nshifts * sizeof (shiftset[0]));
80e25d4d 348 this_state->shifts = p;
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349}
350
351
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352/*----------------------------------------------------------------.
353| Find which rules can be used for reduction transitions from the |
354| current state and make a reductions structure for the state to |
355| record their rule numbers. |
356`----------------------------------------------------------------*/
357
4a120d45 358static void
2fa6973e 359save_reductions (void)
40675e7c 360{
30171f79 361 int count = 0;
fb908786 362 int i;
40675e7c 363
30171f79
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364 /* If this is the final state, we want it to have no reductions at
365 all, although it has one for `START_SYMBOL EOF .'. */
366 if (this_state->number == final_state)
367 return;
40675e7c 368
30171f79 369 /* Find and count the active items that represent ends of rules. */
5123689b 370 for (i = 0; i < nritemset; ++i)
2fa6973e 371 {
fb908786 372 int item = ritem[itemset[i]];
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373 if (item < 0)
374 redset[count++] = -item;
375 }
40675e7c 376
2fa6973e 377 /* Make a reductions structure and copy the data into it. */
80dac38c 378 this_state->reductions = reductions_new (count);
62a3e4f0 379 memcpy (this_state->reductions->rules, redset, count * sizeof (redset[0]));
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380}
381
382\f
82841af7 383/*---------------.
29e88316 384| Build STATES. |
82841af7 385`---------------*/
6a164e0c
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386
387static void
29e88316 388set_states (void)
6a164e0c 389{
2cec70b9 390 state_t *sp;
29e88316 391 states = XCALLOC (state_t *, nstates);
6a164e0c 392
2cec70b9
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393 for (sp = first_state; sp; sp = sp->next)
394 {
395 /* Pessimization, but simplification of the code: make sure all
80dac38c
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396 the states have a shifts, errs, and reductions, even if
397 reduced to 0. */
2cec70b9
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398 if (!sp->shifts)
399 sp->shifts = shifts_new (0);
400 if (!sp->errs)
401 sp->errs = errs_new (0);
80dac38c
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402 if (!sp->reductions)
403 sp->reductions = reductions_new (0);
2cec70b9 404
29e88316 405 states[sp->number] = sp;
2cec70b9 406 }
6a164e0c
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407}
408
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409/*-------------------------------------------------------------------.
410| Compute the nondeterministic finite state machine (see state.h for |
411| details) from the grammar. |
412`-------------------------------------------------------------------*/
413
414void
415generate_states (void)
416{
417 allocate_storage ();
9e7f6bbd 418 new_closure (nritems);
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419 new_states ();
420
421 while (this_state)
422 {
23cbcc6c
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423 if (trace_flag)
424 fprintf (stderr, "Processing state %d (reached by %s)\n",
ad949da9 425 this_state->number,
6b98e4b5 426 symbol_tag_get (symbols[this_state->accessing_symbol]));
2fa6973e
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427 /* Set up ruleset and itemset for the transitions out of this
428 state. ruleset gets a 1 bit for each rule that could reduce
429 now. itemset gets a vector of all the items that could be
430 accepted next. */
431 closure (this_state->items, this_state->nitems);
432 /* record the reductions allowed out of this state */
433 save_reductions ();
434 /* find the itemsets of the states that shifts can reach */
435 new_itemsets ();
436 /* find or create the core structures for those states */
437 append_states ();
438
439 /* create the shifts structures for the shifts to those states,
440 now that the state numbers transitioning to are known */
d954473d 441 save_shifts ();
2fa6973e
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442
443 /* states are queued when they are created; process them all */
444 this_state = this_state->next;
445 }
446
447 /* discard various storage */
448 free_closure ();
449 free_storage ();
450
29e88316
AD
451 /* Set up STATES. */
452 set_states ();
40675e7c 453}