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1 /* Type definitions for nondeterministic finite state machine for bison,
2 Copyright (C) 2001, 2002 Free Software Foundation, Inc.
3
4 This file is part of Bison, the GNU Compiler Compiler.
5
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.
10
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.
15
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. */
20
21
22 #include "system.h"
23 #include "hash.h"
24 #include "complain.h"
25 #include "gram.h"
26 #include "state.h"
27
28
29 /*-------------------.
30 | Shifts and Gotos. |
31 `-------------------*/
32
33
34 /*---------------------------------------.
35 | Create a new array of N shifts/gotos. |
36 `---------------------------------------*/
37
38 #define TRANSITIONS_ALLOC(Num) \
39 (transitions_t *) xcalloc ((sizeof (transitions_t) \
40 + (Num - 1) * sizeof (state_t *)), 1)
41
42 static transitions_t *
43 transitions_new (int num, state_t **the_states)
44 {
45 transitions_t *res = TRANSITIONS_ALLOC (num);
46 res->num = num;
47 memcpy (res->states, the_states, num * sizeof (the_states[0]));
48 return res;
49 }
50
51
52 /*-------------------------------------------------------------------.
53 | Return the state such these TRANSITIONS contain a shift/goto to it |
54 | on SYMBOL. Aborts if none found. |
55 `-------------------------------------------------------------------*/
56
57 state_t *
58 transitions_to (transitions_t *shifts, symbol_number_t s)
59 {
60 int j;
61 for (j = 0; j < shifts->num; j++)
62 if (TRANSITION_SYMBOL (shifts, j) == s)
63 return shifts->states[j];
64 abort ();
65 }
66
67
68 /*--------------------.
69 | Error transitions. |
70 `--------------------*/
71
72
73 /*-------------------------------.
74 | Create a new array of N errs. |
75 `-------------------------------*/
76
77 #define ERRS_ALLOC(Nerrs) \
78 (errs_t *) xcalloc ((sizeof (errs_t) \
79 + (Nerrs - 1) * sizeof (symbol_t *)), 1)
80
81
82 errs_t *
83 errs_new (int num, symbol_t **tokens)
84 {
85 errs_t *res = ERRS_ALLOC (num);
86 res->num = num;
87 memcpy (res->symbols, tokens, num * sizeof (tokens[0]));
88 return res;
89 }
90
91
92
93
94 /*-------------.
95 | Reductions. |
96 `-------------*/
97
98
99 /*-------------------------------------.
100 | Create a new array of N reductions. |
101 `-------------------------------------*/
102
103 #define REDUCTIONS_ALLOC(Nreductions) \
104 (reductions_t *) xcalloc ((sizeof (reductions_t) \
105 + (Nreductions - 1) * sizeof (rule_t *)), 1)
106
107 static reductions_t *
108 reductions_new (int num, rule_t **reductions)
109 {
110 reductions_t *res = REDUCTIONS_ALLOC (num);
111 res->num = num;
112 memcpy (res->rules, reductions, num * sizeof (reductions[0]));
113 res->lookaheads = NULL;
114 return res;
115 }
116
117
118
119 /*---------.
120 | States. |
121 `---------*/
122
123
124 state_number_t nstates = 0;
125 /* FINAL_STATE is properly set by new_state when it recognizes its
126 accessing symbol: $end. */
127 state_t *final_state = NULL;
128
129 #define STATE_ALLOC(Nitems) \
130 (state_t *) xcalloc ((sizeof (state_t) \
131 + (Nitems - 1) * sizeof (item_number_t)), 1)
132
133 /*------------------------------------------------------------------.
134 | Create a new state with ACCESSING_SYMBOL, for those items. Store |
135 | it in the state hash table. |
136 `------------------------------------------------------------------*/
137
138 state_t *
139 state_new (symbol_number_t accessing_symbol,
140 size_t core_size, item_number_t *core)
141 {
142 state_t *res;
143
144 if (nstates >= STATE_NUMBER_MAX)
145 fatal (_("too many states (max %d)"), STATE_NUMBER_MAX);
146
147 res = STATE_ALLOC (core_size);
148 res->accessing_symbol = accessing_symbol;
149 res->number = nstates;
150 ++nstates;
151 res->solved_conflicts = NULL;
152
153 res->nitems = core_size;
154 memcpy (res->items, core, core_size * sizeof (core[0]));
155
156 state_hash_insert (res);
157
158 return res;
159 }
160
161
162 /*-------------.
163 | Free STATE. |
164 `-------------*/
165
166 static void
167 state_free (state_t *state)
168 {
169 free (state->transitions);
170 free (state->reductions);
171 free (state->errs);
172 free (state);
173 }
174
175
176 /*-------------------------------.
177 | Set the transitions of STATE. |
178 `-------------------------------*/
179
180 void
181 state_transitions_set (state_t *state, int num, state_t **transitions)
182 {
183 assert (!state->transitions);
184 state->transitions = transitions_new (num, transitions);
185 }
186
187
188 /*------------------------------.
189 | Set the reductions of STATE. |
190 `------------------------------*/
191
192 void
193 state_reductions_set (state_t *state, int num, rule_t **reductions)
194 {
195 assert (!state->reductions);
196 state->reductions = reductions_new (num, reductions);
197 }
198
199
200 int
201 state_reduction_find (state_t *state, rule_t *rule)
202 {
203 int i;
204 reductions_t *reds = state->reductions;
205 for (i = 0; i < reds->num; ++i)
206 if (reds->rules[i] == rule)
207 return i;
208 return -1;
209 }
210
211
212 /*------------------------.
213 | Set the errs of STATE. |
214 `------------------------*/
215
216 void
217 state_errs_set (state_t *state, int num, symbol_t **tokens)
218 {
219 assert (!state->errs);
220 state->errs = errs_new (num, tokens);
221 }
222
223
224
225 /*--------------------------------------------------------------.
226 | Print on OUT all the lookaheads such that this STATE wants to |
227 | reduce this RULE. |
228 `--------------------------------------------------------------*/
229
230 void
231 state_rule_lookaheads_print (state_t *state, rule_t *rule, FILE *out)
232 {
233 /* Find the reduction we are handling. */
234 reductions_t *reds = state->reductions;
235 int red = state_reduction_find (state, rule);
236
237 /* Print them if there are. */
238 if (reds->lookaheads && red != -1)
239 {
240 bitset_iterator biter;
241 int k;
242 int not_first = 0;
243 fprintf (out, " [");
244 BITSET_FOR_EACH (biter, reds->lookaheads[red], k, 0)
245 fprintf (out, "%s%s",
246 not_first++ ? ", " : "",
247 symbols[k]->tag);
248 fprintf (out, "]");
249 }
250 }
251
252
253 /*----------------------.
254 | A state hash table. |
255 `----------------------*/
256
257 /* Initial capacity of states hash table. */
258 #define HT_INITIAL_CAPACITY 257
259
260 static struct hash_table *state_table = NULL;
261
262 /* Two states are equal if they have the same core items. */
263 static bool
264 state_compare (const state_t *s1, const state_t *s2)
265 {
266 int i;
267
268 if (s1->nitems != s2->nitems)
269 return false;
270
271 for (i = 0; i < s1->nitems; ++i)
272 if (s1->items[i] != s2->items[i])
273 return false;
274
275 return true;
276 }
277
278 static unsigned int
279 state_hash (const state_t *state, unsigned int tablesize)
280 {
281 /* Add up the state's item numbers to get a hash key. */
282 int key = 0;
283 int i;
284 for (i = 0; i < state->nitems; ++i)
285 key += state->items[i];
286 return key % tablesize;
287 }
288
289
290 /*-------------------------------.
291 | Create the states hash table. |
292 `-------------------------------*/
293
294 void
295 state_hash_new (void)
296 {
297 state_table = hash_initialize (HT_INITIAL_CAPACITY,
298 NULL,
299 (Hash_hasher) state_hash,
300 (Hash_comparator) state_compare,
301 (Hash_data_freer) NULL);
302 }
303
304
305 /*---------------------------------------------.
306 | Free the states hash table, not the states. |
307 `---------------------------------------------*/
308
309 void
310 state_hash_free (void)
311 {
312 hash_free (state_table);
313 }
314
315
316 /*---------------------------------------.
317 | Insert STATE in the state hash table. |
318 `---------------------------------------*/
319
320 void
321 state_hash_insert (state_t *state)
322 {
323 hash_insert (state_table, state);
324 }
325
326
327 /*------------------------------------------------------------------.
328 | Find the state associated to the CORE, and return it. If it does |
329 | not exist yet, return NULL. |
330 `------------------------------------------------------------------*/
331
332 state_t *
333 state_hash_lookup (size_t core_size, item_number_t *core)
334 {
335 state_t *probe = STATE_ALLOC (core_size);
336 state_t *entry;
337
338 probe->nitems = core_size;
339 memcpy (probe->items, core, core_size * sizeof (core[0]));
340 entry = hash_lookup (state_table, probe);
341 free (probe);
342 return entry;
343 }
344
345 /* All the decorated states, indexed by the state number. */
346 state_t **states = NULL;
347
348
349 /*----------------------.
350 | Free all the states. |
351 `----------------------*/
352
353 void
354 states_free (void)
355 {
356 state_number_t i;
357 for (i = 0; i < nstates; ++i)
358 state_free (states[i]);
359 free (states);
360 }