fix variable name.
[ruby-svn.git] / regparse.h
blobcd653f5a8e011547736aa244d9b2a708fbc6a657
1 #ifndef ONIGURUMA_REGPARSE_H
2 #define ONIGURUMA_REGPARSE_H
3 /**********************************************************************
4 regparse.h - Oniguruma (regular expression library)
5 **********************************************************************/
6 /*-
7 * Copyright (c) 2002-2007 K.Kosako <sndgk393 AT ybb DOT ne DOT jp>
8 * All rights reserved.
10 * Redistribution and use in source and binary forms, with or without
11 * modification, are permitted provided that the following conditions
12 * are met:
13 * 1. Redistributions of source code must retain the above copyright
14 * notice, this list of conditions and the following disclaimer.
15 * 2. Redistributions in binary form must reproduce the above copyright
16 * notice, this list of conditions and the following disclaimer in the
17 * documentation and/or other materials provided with the distribution.
19 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
20 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
23 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
24 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
25 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
28 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
29 * SUCH DAMAGE.
32 #include "regint.h"
34 /* node type */
35 #define NT_STR 0
36 #define NT_CCLASS 1
37 #define NT_CTYPE 2
38 #define NT_CANY 3
39 #define NT_BREF 4
40 #define NT_QTFR 5
41 #define NT_ENCLOSE 6
42 #define NT_ANCHOR 7
43 #define NT_LIST 8
44 #define NT_ALT 9
45 #define NT_CALL 10
47 /* node type bit */
48 #define NTYPE2BIT(type) (1<<(type))
50 #define BIT_NT_STR NTYPE2BIT(NT_STR)
51 #define BIT_NT_CCLASS NTYPE2BIT(NT_CCLASS)
52 #define BIT_NT_CTYPE NTYPE2BIT(NT_CTYPE)
53 #define BIT_NT_CANY NTYPE2BIT(NT_CANY)
54 #define BIT_NT_BREF NTYPE2BIT(NT_BREF)
55 #define BIT_NT_QTFR NTYPE2BIT(NT_QTFR)
56 #define BIT_NT_ENCLOSE NTYPE2BIT(NT_ENCLOSE)
57 #define BIT_NT_ANCHOR NTYPE2BIT(NT_ANCHOR)
58 #define BIT_NT_LIST NTYPE2BIT(NT_LIST)
59 #define BIT_NT_ALT NTYPE2BIT(NT_ALT)
60 #define BIT_NT_CALL NTYPE2BIT(NT_CALL)
62 #define IS_NODE_TYPE_SIMPLE(type) \
63 ((NTYPE2BIT(type) & (BIT_NT_STR | BIT_NT_CCLASS | BIT_NT_CTYPE |\
64 BIT_NT_CANY | BIT_NT_BREF)) != 0)
66 #define NTYPE(node) ((node)->u.base.type)
67 #define SET_NTYPE(node, ntype) (node)->u.base.type = (ntype)
69 #define NSTR(node) (&((node)->u.str))
70 #define NCCLASS(node) (&((node)->u.cclass))
71 #define NCTYPE(node) (&((node)->u.ctype))
72 #define NBREF(node) (&((node)->u.bref))
73 #define NQTFR(node) (&((node)->u.qtfr))
74 #define NENCLOSE(node) (&((node)->u.enclose))
75 #define NANCHOR(node) (&((node)->u.anchor))
76 #define NCONS(node) (&((node)->u.cons))
77 #define NCALL(node) (&((node)->u.call))
79 #define NCAR(node) (NCONS(node)->car)
80 #define NCDR(node) (NCONS(node)->cdr)
84 #define ANCHOR_ANYCHAR_STAR_MASK (ANCHOR_ANYCHAR_STAR | ANCHOR_ANYCHAR_STAR_ML)
85 #define ANCHOR_END_BUF_MASK (ANCHOR_END_BUF | ANCHOR_SEMI_END_BUF)
87 #define ENCLOSE_MEMORY (1<<0)
88 #define ENCLOSE_OPTION (1<<1)
89 #define ENCLOSE_STOP_BACKTRACK (1<<2)
91 #define NODE_STR_MARGIN 16
92 #define NODE_STR_BUF_SIZE 24 /* sizeof(CClassNode) - sizeof(int)*4 */
93 #define NODE_BACKREFS_SIZE 6
95 #define NSTR_RAW (1<<0) /* by backslashed number */
96 #define NSTR_AMBIG (1<<1)
97 #define NSTR_DONT_GET_OPT_INFO (1<<2)
99 #define NSTRING_LEN(node) ((node)->u.str.end - (node)->u.str.s)
100 #define NSTRING_SET_RAW(node) (node)->u.str.flag |= NSTR_RAW
101 #define NSTRING_CLEAR_RAW(node) (node)->u.str.flag &= ~NSTR_RAW
102 #define NSTRING_SET_AMBIG(node) (node)->u.str.flag |= NSTR_AMBIG
103 #define NSTRING_SET_DONT_GET_OPT_INFO(node) \
104 (node)->u.str.flag |= NSTR_DONT_GET_OPT_INFO
105 #define NSTRING_IS_RAW(node) (((node)->u.str.flag & NSTR_RAW) != 0)
106 #define NSTRING_IS_AMBIG(node) (((node)->u.str.flag & NSTR_AMBIG) != 0)
107 #define NSTRING_IS_DONT_GET_OPT_INFO(node) \
108 (((node)->u.str.flag & NSTR_DONT_GET_OPT_INFO) != 0)
110 #define BACKREFS_P(br) \
111 (IS_NOT_NULL((br)->back_dynamic) ? (br)->back_dynamic : (br)->back_static);
113 #define NQ_TARGET_ISNOT_EMPTY 0
114 #define NQ_TARGET_IS_EMPTY 1
115 #define NQ_TARGET_IS_EMPTY_MEM 2
116 #define NQ_TARGET_IS_EMPTY_REC 3
118 /* status bits */
119 #define NST_MIN_FIXED (1<<0)
120 #define NST_MAX_FIXED (1<<1)
121 #define NST_CLEN_FIXED (1<<2)
122 #define NST_MARK1 (1<<3)
123 #define NST_MARK2 (1<<4)
124 #define NST_MEM_BACKREFED (1<<5)
125 #define NST_STOP_BT_SIMPLE_REPEAT (1<<6)
126 #define NST_RECURSION (1<<7)
127 #define NST_CALLED (1<<8)
128 #define NST_ADDR_FIXED (1<<9)
129 #define NST_NAMED_GROUP (1<<10)
130 #define NST_NAME_REF (1<<11)
131 #define NST_IN_REPEAT (1<<12) /* STK_REPEAT is nested in stack. */
132 #define NST_NEST_LEVEL (1<<13)
133 #define NST_BY_NUMBER (1<<14) /* {n,m} */
135 #define SET_ENCLOSE_STATUS(node,f) (node)->u.enclose.state |= (f)
136 #define CLEAR_ENCLOSE_STATUS(node,f) (node)->u.enclose.state &= ~(f)
138 #define IS_ENCLOSE_CALLED(en) (((en)->state & NST_CALLED) != 0)
139 #define IS_ENCLOSE_ADDR_FIXED(en) (((en)->state & NST_ADDR_FIXED) != 0)
140 #define IS_ENCLOSE_RECURSION(en) (((en)->state & NST_RECURSION) != 0)
141 #define IS_ENCLOSE_MARK1(en) (((en)->state & NST_MARK1) != 0)
142 #define IS_ENCLOSE_MARK2(en) (((en)->state & NST_MARK2) != 0)
143 #define IS_ENCLOSE_MIN_FIXED(en) (((en)->state & NST_MIN_FIXED) != 0)
144 #define IS_ENCLOSE_MAX_FIXED(en) (((en)->state & NST_MAX_FIXED) != 0)
145 #define IS_ENCLOSE_CLEN_FIXED(en) (((en)->state & NST_CLEN_FIXED) != 0)
146 #define IS_ENCLOSE_STOP_BT_SIMPLE_REPEAT(en) \
147 (((en)->state & NST_STOP_BT_SIMPLE_REPEAT) != 0)
148 #define IS_ENCLOSE_NAMED_GROUP(en) (((en)->state & NST_NAMED_GROUP) != 0)
150 #define SET_CALL_RECURSION(node) (node)->u.call.state |= NST_RECURSION
151 #define IS_CALL_RECURSION(cn) (((cn)->state & NST_RECURSION) != 0)
152 #define IS_CALL_NAME_REF(cn) (((cn)->state & NST_NAME_REF) != 0)
153 #define IS_BACKREF_NAME_REF(bn) (((bn)->state & NST_NAME_REF) != 0)
154 #define IS_BACKREF_NEST_LEVEL(bn) (((bn)->state & NST_NEST_LEVEL) != 0)
155 #define IS_QUANTIFIER_IN_REPEAT(qn) (((qn)->state & NST_IN_REPEAT) != 0)
156 #define IS_QUANTIFIER_BY_NUMBER(qn) (((qn)->state & NST_BY_NUMBER) != 0)
158 #define CALLNODE_REFNUM_UNDEF -1
160 typedef struct {
161 NodeBase base;
162 UChar* s;
163 UChar* end;
164 unsigned int flag;
165 int capa; /* (allocated size - 1) or 0: use buf[] */
166 UChar buf[NODE_STR_BUF_SIZE];
167 } StrNode;
169 typedef struct {
170 NodeBase base;
171 int state;
172 struct _Node* target;
173 int lower;
174 int upper;
175 int greedy;
176 int target_empty_info;
177 struct _Node* head_exact;
178 struct _Node* next_head_exact;
179 int is_refered; /* include called node. don't eliminate even if {0} */
180 #ifdef USE_COMBINATION_EXPLOSION_CHECK
181 int comb_exp_check_num; /* 1,2,3...: check, 0: no check */
182 #endif
183 } QtfrNode;
185 typedef struct {
186 NodeBase base;
187 int state;
188 int type;
189 int regnum;
190 OnigOptionType option;
191 struct _Node* target;
192 AbsAddrType call_addr;
193 /* for multiple call reference */
194 OnigDistance min_len; /* min length (byte) */
195 OnigDistance max_len; /* max length (byte) */
196 int char_len; /* character length */
197 int opt_count; /* referenced count in optimize_node_left() */
198 } EncloseNode;
200 #ifdef USE_SUBEXP_CALL
202 typedef struct {
203 int offset;
204 struct _Node* target;
205 } UnsetAddr;
207 typedef struct {
208 int num;
209 int alloc;
210 UnsetAddr* us;
211 } UnsetAddrList;
213 typedef struct {
214 NodeBase base;
215 int state;
216 int group_num;
217 UChar* name;
218 UChar* name_end;
219 struct _Node* target; /* EncloseNode : ENCLOSE_MEMORY */
220 UnsetAddrList* unset_addr_list;
221 } CallNode;
223 #endif
225 typedef struct {
226 NodeBase base;
227 int state;
228 int back_num;
229 int back_static[NODE_BACKREFS_SIZE];
230 int* back_dynamic;
231 int nest_level;
232 } BRefNode;
234 typedef struct {
235 NodeBase base;
236 int type;
237 struct _Node* target;
238 int char_len;
239 } AnchorNode;
241 typedef struct {
242 NodeBase base;
243 struct _Node* car;
244 struct _Node* cdr;
245 } ConsAltNode;
247 typedef struct {
248 NodeBase base;
249 int ctype;
250 int not;
251 } CtypeNode;
253 typedef struct _Node {
254 union {
255 NodeBase base;
256 StrNode str;
257 CClassNode cclass;
258 QtfrNode qtfr;
259 EncloseNode enclose;
260 BRefNode bref;
261 AnchorNode anchor;
262 ConsAltNode cons;
263 CtypeNode ctype;
264 #ifdef USE_SUBEXP_CALL
265 CallNode call;
266 #endif
267 } u;
268 } Node;
271 #define NULL_NODE ((Node* )0)
273 #define SCANENV_MEMNODES_SIZE 8
274 #define SCANENV_MEM_NODES(senv) \
275 (IS_NOT_NULL((senv)->mem_nodes_dynamic) ? \
276 (senv)->mem_nodes_dynamic : (senv)->mem_nodes_static)
278 typedef struct {
279 OnigOptionType option;
280 OnigCaseFoldType case_fold_flag;
281 OnigEncoding enc;
282 const OnigSyntaxType* syntax;
283 BitStatusType capture_history;
284 BitStatusType bt_mem_start;
285 BitStatusType bt_mem_end;
286 BitStatusType backrefed_mem;
287 UChar* pattern;
288 UChar* pattern_end;
289 UChar* error;
290 UChar* error_end;
291 regex_t* reg; /* for reg->names only */
292 int num_call;
293 #ifdef USE_SUBEXP_CALL
294 UnsetAddrList* unset_addr_list;
295 #endif
296 int num_mem;
297 #ifdef USE_NAMED_GROUP
298 int num_named;
299 #endif
300 int mem_alloc;
301 Node* mem_nodes_static[SCANENV_MEMNODES_SIZE];
302 Node** mem_nodes_dynamic;
303 #ifdef USE_COMBINATION_EXPLOSION_CHECK
304 int num_comb_exp_check;
305 int comb_exp_max_regnum;
306 int curr_max_regnum;
307 int has_recursion;
308 #endif
309 } ScanEnv;
312 #define IS_SYNTAX_OP(syn, opm) (((syn)->op & (opm)) != 0)
313 #define IS_SYNTAX_OP2(syn, opm) (((syn)->op2 & (opm)) != 0)
314 #define IS_SYNTAX_BV(syn, bvm) (((syn)->behavior & (bvm)) != 0)
316 #ifdef USE_NAMED_GROUP
317 typedef struct {
318 int new_val;
319 } GroupNumRemap;
321 extern int onig_renumber_name_table P_((regex_t* reg, GroupNumRemap* map));
322 #endif
324 extern int onig_strncmp P_((const UChar* s1, const UChar* s2, int n));
325 extern void onig_strcpy P_((UChar* dest, const UChar* src, const UChar* end));
326 extern void onig_scan_env_set_error_string P_((ScanEnv* env, int ecode, UChar* arg, UChar* arg_end));
327 extern int onig_scan_unsigned_number P_((UChar** src, const UChar* end, OnigEncoding enc));
328 extern void onig_reduce_nested_quantifier P_((Node* pnode, Node* cnode));
329 extern void onig_node_conv_to_str_node P_((Node* node, int raw));
330 extern int onig_node_str_cat P_((Node* node, const UChar* s, const UChar* end));
331 extern int onig_node_str_set P_((Node* node, const UChar* s, const UChar* end));
332 extern void onig_node_free P_((Node* node));
333 extern Node* onig_node_new_enclose P_((int type));
334 extern Node* onig_node_new_anchor P_((int type));
335 extern Node* onig_node_new_str P_((const UChar* s, const UChar* end));
336 extern Node* onig_node_new_list P_((Node* left, Node* right));
337 extern Node* onig_node_list_add P_((Node* list, Node* x));
338 extern Node* onig_node_new_alt P_((Node* left, Node* right));
339 extern void onig_node_str_clear P_((Node* node));
340 extern int onig_free_node_list P_((void));
341 extern int onig_names_free P_((regex_t* reg));
342 extern int onig_parse_make_tree P_((Node** root, const UChar* pattern, const UChar* end, regex_t* reg, ScanEnv* env));
343 extern int onig_free_shared_cclass_table P_((void));
345 #ifdef ONIG_DEBUG
346 #ifdef USE_NAMED_GROUP
347 extern int onig_print_names(FILE*, regex_t*);
348 #endif
349 #endif
351 #endif /* ONIGURUMA_REGPARSE_H */