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d0fb370f 1/* Type definitions for nondeterministic finite state machine for bison,
d954473d 2 Copyright 1984, 1989, 2000, 2001 Free Software Foundation, Inc.
d0fb370f 3
a70083a3 4 This file is part of Bison, the GNU Compiler Compiler.
d0fb370f 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.
d0fb370f 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.
d0fb370f 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/* These type definitions are used to represent a nondeterministic
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23 finite state machine that parses the specified grammar. This
24 information is generated by the function generate_states in the
25 file LR0.
26
27 Each state of the machine is described by a set of items --
28 particular positions in particular rules -- that are the possible
29 places where parsing could continue when the machine is in this
30 state. These symbols at these items are the allowable inputs that
31 can follow now.
32
9801d40c 33 A core represents one state. States are numbered in the NUMBER
a70083a3 34 field. When generate_states is finished, the starting state is
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35 state 0 and NSTATES is the number of states. (FIXME: This sentence
36 is no longer true: A transition to a state whose state number is
37 NSTATES indicates termination.) All the cores are chained together
38 and FIRST_STATE points to the first one (state 0).
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39
40 For each state there is a particular symbol which must have been
41 the last thing accepted to reach that state. It is the
9801d40c 42 ACCESSING_SYMBOL of the core.
a70083a3 43
5123689b 44 Each core contains a vector of NITEMS items which are the indices
9801d40c 45 in the RITEMS vector of the items that are selected in this state.
a70083a3 46
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47 The two types of transitions are shifts (push the lookahead token
48 and read another) and reductions (combine the last n things on the
49 stack via a rule, replace them with the symbol that the rule
50 derives, and leave the lookahead token alone). When the states are
51 generated, these transitions are represented in two other lists.
52
53 Each shifts structure describes the possible shift transitions out
54 of one state, the state whose number is in the number field. The
55 shifts structures are linked through next and first_shift points to
56 them. Each contains a vector of numbers of the states that shift
57 transitions can go to. The accessing_symbol fields of those
58 states' cores say what kind of input leads to them.
59
60 A shift to state zero should be ignored. Conflict resolution
61 deletes shifts by changing them to zero.
62
63 Each reductions structure describes the possible reductions at the
64 state whose number is in the number field. The data is a list of
65 nreds rules, represented by their rule numbers. first_reduction
66 points to the list of these structures.
67
68 Conflict resolution can decide that certain tokens in certain
69 states should explicitly be errors (for implementing %nonassoc).
70 For each state, the tokens that are errors for this reason are
71 recorded in an errs structure, which has the state number in its
72 number field. The rest of the errs structure is full of token
73 numbers.
74
75 There is at least one shift transition present in state zero. It
76 leads to a next-to-final state whose accessing_symbol is the
77 grammar's start symbol. The next-to-final state has one shift to
78 the final state, whose accessing_symbol is zero (end of input).
79 The final state has one shift, which goes to the termination state
80 (whose number is nstates-1). The reason for the extra state at the
81 end is to placate the parser's strategy of making all decisions one
82 token ahead of its actions. */
83
84#ifndef STATE_H_
85# define STATE_H_
86
c0263492 87# include "bitsetv.h"
aa2aab3c 88
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89
90/*-------------------.
91| Numbering states. |
92`-------------------*/
93
94typedef short state_number_t;
95# define STATE_NUMBER_MAX ((state_number_t) SHRT_MAX)
96
97/* Be ready to map a state_number_t to an int. */
98# define state_number_as_int(Tok) ((int) (Tok))
99
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100/*---------.
101| Shifts. |
102`---------*/
103
32e1e0a4 104typedef struct shifts_s
a70083a3 105{
a70083a3 106 short nshifts;
d57650a5 107 state_number_t shifts[1];
32e1e0a4 108} shifts_t;
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109
110
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111/* What is the symbol which is shifted by SHIFTS->shifts[Shift]? Can
112 be a token (amongst which the error token), or non terminals in
113 case of gotos. */
114
115#define SHIFT_SYMBOL(Shifts, Shift) \
29e88316 116 (states[Shifts->shifts[Shift]]->accessing_symbol)
b608206e 117
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118/* Is the SHIFTS->shifts[Shift] a real shift? (as opposed to gotos.) */
119
120#define SHIFT_IS_SHIFT(Shifts, Shift) \
b608206e 121 (ISTOKEN (SHIFT_SYMBOL (Shifts, Shift)))
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122
123/* Is the SHIFTS->shifts[Shift] a goto?. */
124
125#define SHIFT_IS_GOTO(Shifts, Shift) \
126 (!SHIFT_IS_SHIFT (Shifts, Shift))
127
128/* Is the SHIFTS->shifts[Shift] then handling of the error token?. */
129
130#define SHIFT_IS_ERROR(Shifts, Shift) \
007a50a4 131 (SHIFT_SYMBOL (Shifts, Shift) == errtoken->number)
aa2aab3c 132
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133/* When resolving a SR conflicts, if the reduction wins, the shift is
134 disabled. */
135
136#define SHIFT_DISABLE(Shifts, Shift) \
137 (Shifts->shifts[Shift] = 0)
138
139#define SHIFT_IS_DISABLED(Shifts, Shift) \
140 (Shifts->shifts[Shift] == 0)
141
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142/* Return the state such these SHIFTS contain a shift/goto to it on
143 SYMBOL. Aborts if none found. */
144struct state_s;
145struct state_s *shifts_to PARAMS ((shifts_t *shifts, symbol_number_t s));
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146
147/*-------.
148| Errs. |
149`-------*/
a70083a3 150
8a731ca8 151typedef struct errs_s
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152{
153 short nerrs;
154 short errs[1];
8a731ca8 155} errs_t;
a70083a3 156
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157errs_t *errs_new PARAMS ((int n));
158errs_t *errs_dup PARAMS ((errs_t *src));
f59c437a 159
a70083a3 160
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161/*-------------.
162| Reductions. |
163`-------------*/
a70083a3 164
8a731ca8 165typedef struct reductions_s
a70083a3 166{
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167 short nreds;
168 short rules[1];
8a731ca8 169} reductions_t;
d0fb370f 170
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171
172
173/*----------.
174| State_t. |
175`----------*/
176
177typedef struct state_s
178{
d57650a5 179 state_number_t number;
a49aecd5 180 symbol_number_t accessing_symbol;
32e1e0a4 181 shifts_t *shifts;
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182 reductions_t *reductions;
183 errs_t *errs;
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184
185 /* Nonzero if no lookahead is needed to decide what to do in state S. */
186 char consistent;
187
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188 /* Used in LALR, not LR(0).
189
190 When a state is not consistent (there is an S/R or R/R conflict),
191 lookaheads are needed to enable the reductions. NLOOKAHEADS is
192 the number of lookahead guarded reductions of the
193 LOOKAHEADS_RULE. For each rule LOOKAHEADS_RULE[R], LOOKAHEADS[R]
194 is the bitset of the lookaheads enabling this reduction. */
3877f72b 195 int nlookaheads;
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196 bitsetv lookaheads;
197 rule_t **lookaheads_rule;
f693ad14 198
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199 /* If some conflicts were solved thanks to precedence/associativity,
200 a human readable description of the resolution. */
201 const char *solved_conflicts;
202
203 /* Its items. Must be last, since ITEMS can be arbitrarily large.
204 */
0c2d3f4c 205 unsigned short nitems;
62a3e4f0 206 item_number_t items[1];
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207} state_t;
208
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209extern state_number_t nstates;
210extern state_t *final_state;
211
212/* Create a new state with ACCESSING_SYMBOL for those items. */
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213state_t *state_new PARAMS ((symbol_number_t accessing_symbol,
214 size_t core_size, item_number_t *core));
f693ad14 215
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216/* Set the shifts of STATE. */
217void state_shifts_set PARAMS ((state_t *state,
218 int nshifts, state_number_t *shifts));
219
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220/* Set the reductions of STATE. */
221void state_reductions_set PARAMS ((state_t *state,
222 int nreductions, short *reductions));
223
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224/* Print on OUT all the lookaheads such that this STATE wants to
225 reduce this RULE. */
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226void state_rule_lookaheads_print PARAMS ((state_t *state, rule_t *rule,
227 FILE *out));
228
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229/* Create/destroy the states hash table. */
230void state_hash_new PARAMS ((void));
231void state_hash_free PARAMS ((void));
232
233/* Find the state associated to the CORE, and return it. If it does
234 not exist yet, return NULL. */
235state_t *state_hash_lookup PARAMS ((size_t core_size, item_number_t *core));
236
237/* Insert STATE in the state hash table. */
238void state_hash_insert PARAMS ((state_t *state));
239
240/* All the states, indexed by the state number. */
241extern state_t **states;
242
243/* Free all the states. */
244void states_free PARAMS ((void));
a70083a3 245#endif /* !STATE_H_ */