1 // 2 // Copyright (C) 2002-2012 International Business Machines Corporation 3 // and others. All rights reserved. 4 // 5 // file: regeximp.h 6 // 7 // ICU Regular Expressions, 8 // Definitions of constant values used in the compiled form of 9 // a regular expression pattern. 10 // 11 12 #ifndef _REGEXIMP_H 13 #define _REGEXIMP_H 14 15 #include "unicode/utypes.h" 16 #include "unicode/uobject.h" 17 #include "unicode/uniset.h" 18 #include "unicode/utext.h" 19 20 #include "cmemory.h" 21 #include "ucase.h" 22 23 U_NAMESPACE_BEGIN 24 25 // For debugging, define REGEX_DEBUG 26 // To define with configure, 27 // ./runConfigureICU --enable-debug --disable-release Linux CPPFLAGS="-DREGEX_DEBUG" 28 29 #ifdef REGEX_DEBUG 30 // 31 // debugging options. Enable one or more of the three #defines immediately following 32 // 33 34 //#define REGEX_SCAN_DEBUG 35 #define REGEX_DUMP_DEBUG 36 #define REGEX_RUN_DEBUG 37 38 // End of #defines inteded to be directly set. 39 40 #include <stdio.h> 41 #endif 42 43 #ifdef REGEX_SCAN_DEBUG 44 #define REGEX_SCAN_DEBUG_PRINTF(a) printf a 45 #else 46 #define REGEX_SCAN_DEBUG_PRINTF(a) 47 #endif 48 49 #ifdef REGEX_DUMP_DEBUG 50 #define REGEX_DUMP_DEBUG_PRINTF(a) printf a 51 #else 52 #define REGEX_DUMP_DEBUG_PRINTF(a) 53 #endif 54 55 #ifdef REGEX_RUN_DEBUG 56 #define REGEX_RUN_DEBUG_PRINTF(a) printf a 57 #define REGEX_DUMP_DEBUG_PRINTF(a) printf a 58 #else 59 #define REGEX_RUN_DEBUG_PRINTF(a) 60 #endif 61 62 63 // 64 // Opcode types In the compiled form of the regexp, these are the type, or opcodes, 65 // of the entries. 66 // 67 enum { 68 URX_RESERVED_OP = 0, // For multi-operand ops, most non-first words. 69 URX_RESERVED_OP_N = 255, // For multi-operand ops, negative operand values. 70 URX_BACKTRACK = 1, // Force a backtrack, as if a match test had failed. 71 URX_END = 2, 72 URX_ONECHAR = 3, // Value field is the 21 bit unicode char to match 73 URX_STRING = 4, // Value field is index of string start 74 URX_STRING_LEN = 5, // Value field is string length (code units) 75 URX_STATE_SAVE = 6, // Value field is pattern position to push 76 URX_NOP = 7, 77 URX_START_CAPTURE = 8, // Value field is capture group number. 78 URX_END_CAPTURE = 9, // Value field is capture group number 79 URX_STATIC_SETREF = 10, // Value field is index of set in array of sets. 80 URX_SETREF = 11, // Value field is index of set in array of sets. 81 URX_DOTANY = 12, 82 URX_JMP = 13, // Value field is destination position in 83 // the pattern. 84 URX_FAIL = 14, // Stop match operation, No match. 85 86 URX_JMP_SAV = 15, // Operand: JMP destination location 87 URX_BACKSLASH_B = 16, // Value field: 0: \b 1: \B 88 URX_BACKSLASH_G = 17, 89 URX_JMP_SAV_X = 18, // Conditional JMP_SAV, 90 // Used in (x)+, breaks loop on zero length match. 91 // Operand: Jmp destination. 92 URX_BACKSLASH_X = 19, 93 URX_BACKSLASH_Z = 20, // \z Unconditional end of line. 94 95 URX_DOTANY_ALL = 21, // ., in the . matches any mode. 96 URX_BACKSLASH_D = 22, // Value field: 0: \d 1: \D 97 URX_CARET = 23, // Value field: 1: multi-line mode. 98 URX_DOLLAR = 24, // Also for \Z 99 100 URX_CTR_INIT = 25, // Counter Inits for {Interval} loops. 101 URX_CTR_INIT_NG = 26, // 2 kinds, normal and non-greedy. 102 // These are 4 word opcodes. See description. 103 // First Operand: Data loc of counter variable 104 // 2nd Operand: Pat loc of the URX_CTR_LOOPx 105 // at the end of the loop. 106 // 3rd Operand: Minimum count. 107 // 4th Operand: Max count, -1 for unbounded. 108 109 URX_DOTANY_UNIX = 27, // '.' operator in UNIX_LINES mode, only \n marks end of line. 110 111 URX_CTR_LOOP = 28, // Loop Ops for {interval} loops. 112 URX_CTR_LOOP_NG = 29, // Also in three flavors. 113 // Operand is loc of corresponding CTR_INIT. 114 115 URX_CARET_M_UNIX = 30, // '^' operator, test for start of line in multi-line 116 // plus UNIX_LINES mode. 117 118 URX_RELOC_OPRND = 31, // Operand value in multi-operand ops that refers 119 // back into compiled pattern code, and thus must 120 // be relocated when inserting/deleting ops in code. 121 122 URX_STO_SP = 32, // Store the stack ptr. Operand is location within 123 // matcher data (not stack data) to store it. 124 URX_LD_SP = 33, // Load the stack pointer. Operand is location 125 // to load from. 126 URX_BACKREF = 34, // Back Reference. Parameter is the index of the 127 // capture group variables in the state stack frame. 128 URX_STO_INP_LOC = 35, // Store the input location. Operand is location 129 // within the matcher stack frame. 130 URX_JMPX = 36, // Conditional JMP. 131 // First Operand: JMP target location. 132 // Second Operand: Data location containing an 133 // input position. If current input position == 134 // saved input position, FAIL rather than taking 135 // the JMP 136 URX_LA_START = 37, // Starting a LookAround expression. 137 // Save InputPos and SP in static data. 138 // Operand: Static data offset for the save 139 URX_LA_END = 38, // Ending a Lookaround expression. 140 // Restore InputPos and Stack to saved values. 141 // Operand: Static data offset for saved data. 142 URX_ONECHAR_I = 39, // Test for case-insensitive match of a literal character. 143 // Operand: the literal char. 144 URX_STRING_I = 40, // Case insensitive string compare. 145 // First Operand: Index of start of string in string literals 146 // Second Operand (next word in compiled code): 147 // the length of the string. 148 URX_BACKREF_I = 41, // Case insensitive back reference. 149 // Parameter is the index of the 150 // capture group variables in the state stack frame. 151 URX_DOLLAR_M = 42, // $ in multi-line mode. 152 URX_CARET_M = 43, // ^ in multi-line mode. 153 URX_LB_START = 44, // LookBehind Start. 154 // Paramater is data location 155 URX_LB_CONT = 45, // LookBehind Continue. 156 // Param 0: the data location 157 // Param 1: The minimum length of the look-behind match 158 // Param 2: The max length of the look-behind match 159 URX_LB_END = 46, // LookBehind End. 160 // Parameter is the data location. 161 // Check that match ended at the right spot, 162 // Restore original input string len. 163 URX_LBN_CONT = 47, // Negative LookBehind Continue 164 // Param 0: the data location 165 // Param 1: The minimum length of the look-behind match 166 // Param 2: The max length of the look-behind match 167 // Param 3: The pattern loc following the look-behind block. 168 URX_LBN_END = 48, // Negative LookBehind end 169 // Parameter is the data location. 170 // Check that the match ended at the right spot. 171 URX_STAT_SETREF_N = 49, // Reference to a prebuilt set (e.g. \w), negated 172 // Operand is index of set in array of sets. 173 URX_LOOP_SR_I = 50, // Init a [set]* loop. 174 // Operand is the sets index in array of user sets. 175 URX_LOOP_C = 51, // Continue a [set]* or OneChar* loop. 176 // Operand is a matcher static data location. 177 // Must always immediately follow LOOP_x_I instruction. 178 URX_LOOP_DOT_I = 52, // .*, initialization of the optimized loop. 179 // Operand value: 180 // bit 0: 181 // 0: Normal (. doesn't match new-line) mode. 182 // 1: . matches new-line mode. 183 // bit 1: controls what new-lines are recognized by this operation. 184 // 0: All Unicode New-lines 185 // 1: UNIX_LINES, \u000a only. 186 URX_BACKSLASH_BU = 53, // \b or \B in UREGEX_UWORD mode, using Unicode style 187 // word boundaries. 188 URX_DOLLAR_D = 54, // $ end of input test, in UNIX_LINES mode. 189 URX_DOLLAR_MD = 55 // $ end of input test, in MULTI_LINE and UNIX_LINES mode. 190 191 }; 192 193 // Keep this list of opcode names in sync with the above enum 194 // Used for debug printing only. 195 #define URX_OPCODE_NAMES \ 196 " ", \ 197 "BACKTRACK", \ 198 "END", \ 199 "ONECHAR", \ 200 "STRING", \ 201 "STRING_LEN", \ 202 "STATE_SAVE", \ 203 "NOP", \ 204 "START_CAPTURE", \ 205 "END_CAPTURE", \ 206 "URX_STATIC_SETREF", \ 207 "SETREF", \ 208 "DOTANY", \ 209 "JMP", \ 210 "FAIL", \ 211 "JMP_SAV", \ 212 "BACKSLASH_B", \ 213 "BACKSLASH_G", \ 214 "JMP_SAV_X", \ 215 "BACKSLASH_X", \ 216 "BACKSLASH_Z", \ 217 "DOTANY_ALL", \ 218 "BACKSLASH_D", \ 219 "CARET", \ 220 "DOLLAR", \ 221 "CTR_INIT", \ 222 "CTR_INIT_NG", \ 223 "DOTANY_UNIX", \ 224 "CTR_LOOP", \ 225 "CTR_LOOP_NG", \ 226 "URX_CARET_M_UNIX", \ 227 "RELOC_OPRND", \ 228 "STO_SP", \ 229 "LD_SP", \ 230 "BACKREF", \ 231 "STO_INP_LOC", \ 232 "JMPX", \ 233 "LA_START", \ 234 "LA_END", \ 235 "ONECHAR_I", \ 236 "STRING_I", \ 237 "BACKREF_I", \ 238 "DOLLAR_M", \ 239 "CARET_M", \ 240 "LB_START", \ 241 "LB_CONT", \ 242 "LB_END", \ 243 "LBN_CONT", \ 244 "LBN_END", \ 245 "STAT_SETREF_N", \ 246 "LOOP_SR_I", \ 247 "LOOP_C", \ 248 "LOOP_DOT_I", \ 249 "BACKSLASH_BU", \ 250 "DOLLAR_D", \ 251 "DOLLAR_MD" 252 253 254 // 255 // Convenience macros for assembling and disassembling a compiled operation. 256 // 257 #define URX_BUILD(type, val) (int32_t)((type << 24) | (val)) 258 #define URX_TYPE(x) ((uint32_t)(x) >> 24) 259 #define URX_VAL(x) ((x) & 0xffffff) 260 261 262 // 263 // Access to Unicode Sets composite character properties 264 // The sets are accessed by the match engine for things like \w (word boundary) 265 // 266 enum { 267 URX_ISWORD_SET = 1, 268 URX_ISALNUM_SET = 2, 269 URX_ISALPHA_SET = 3, 270 URX_ISSPACE_SET = 4, 271 272 URX_GC_NORMAL, // Sets for finding grapheme cluster boundaries. 273 URX_GC_EXTEND, 274 URX_GC_CONTROL, 275 URX_GC_L, 276 URX_GC_LV, 277 URX_GC_LVT, 278 URX_GC_V, 279 URX_GC_T, 280 281 URX_LAST_SET, 282 283 URX_NEG_SET = 0x800000 // Flag bit to reverse sense of set 284 // membership test. 285 }; 286 287 288 // 289 // Match Engine State Stack Frame Layout. 290 // 291 struct REStackFrame { 292 // Header 293 int64_t fInputIdx; // Position of next character in the input string 294 int64_t fPatIdx; // Position of next Op in the compiled pattern 295 // (int64_t for UVector64, values fit in an int32_t) 296 // Remainder 297 int64_t fExtra[1]; // Extra state, for capture group start/ends 298 // atomic parentheses, repeat counts, etc. 299 // Locations assigned at pattern compile time. 300 // Variable-length array. 301 }; 302 // number of UVector elements in the header 303 #define RESTACKFRAME_HDRCOUNT 2 304 305 // 306 // Start-Of-Match type. Used by find() to quickly scan to positions where a 307 // match might start before firing up the full match engine. 308 // 309 enum StartOfMatch { 310 START_NO_INFO, // No hint available. 311 START_CHAR, // Match starts with a literal code point. 312 START_SET, // Match starts with something matching a set. 313 START_START, // Match starts at start of buffer only (^ or \A) 314 START_LINE, // Match starts with ^ in multi-line mode. 315 START_STRING // Match starts with a literal string. 316 }; 317 318 #define START_OF_MATCH_STR(v) ((v)==START_NO_INFO? "START_NO_INFO" : \ 319 (v)==START_CHAR? "START_CHAR" : \ 320 (v)==START_SET? "START_SET" : \ 321 (v)==START_START? "START_START" : \ 322 (v)==START_LINE? "START_LINE" : \ 323 (v)==START_STRING? "START_STRING" : \ 324 "ILLEGAL") 325 326 // 327 // 8 bit set, to fast-path latin-1 set membership tests. 328 // 329 struct Regex8BitSet : public UMemory { 330 inline Regex8BitSet(); 331 inline void operator = (const Regex8BitSet &s); 332 inline void init(const UnicodeSet *src); 333 inline UBool contains(UChar32 c); 334 inline void add(UChar32 c); 335 int8_t d[32]; 336 }; 337 338 inline Regex8BitSet::Regex8BitSet() { 339 uprv_memset(d, 0, sizeof(d)); 340 } 341 342 inline UBool Regex8BitSet::contains(UChar32 c) { 343 // No bounds checking! This is deliberate. 344 return ((d[c>>3] & 1 <<(c&7)) != 0); 345 } 346 347 inline void Regex8BitSet::add(UChar32 c) { 348 d[c>>3] |= 1 << (c&7); 349 } 350 351 inline void Regex8BitSet::init(const UnicodeSet *s) { 352 if (s != NULL) { 353 for (int32_t i=0; i<=255; i++) { 354 if (s->contains(i)) { 355 this->add(i); 356 } 357 } 358 } 359 } 360 361 inline void Regex8BitSet::operator = (const Regex8BitSet &s) { 362 uprv_memcpy(d, s.d, sizeof(d)); 363 } 364 365 366 // Case folded UText Iterator helper class. 367 // Wraps a UText, provides a case-folded enumeration over its contents. 368 // Used in implementing case insensitive matching constructs. 369 // Implementation in rematch.cpp 370 371 class CaseFoldingUTextIterator: public UMemory { 372 public: 373 CaseFoldingUTextIterator(UText &text); 374 ~CaseFoldingUTextIterator(); 375 376 UChar32 next(); // Next case folded character 377 378 UBool inExpansion(); // True if last char returned from next() and the 379 // next to be returned both originated from a string 380 // folding of the same code point from the orignal UText. 381 private: 382 UText &fUText; 383 const UCaseProps *fcsp; 384 const UChar *fFoldChars; 385 int32_t fFoldLength; 386 int32_t fFoldIndex; 387 388 }; 389 390 391 // Case folded UChar * string iterator. 392 // Wraps a UChar *, provides a case-folded enumeration over its contents. 393 // Used in implementing case insensitive matching constructs. 394 // Implementation in rematch.cpp 395 396 class CaseFoldingUCharIterator: public UMemory { 397 public: 398 CaseFoldingUCharIterator(const UChar *chars, int64_t start, int64_t limit); 399 ~CaseFoldingUCharIterator(); 400 401 UChar32 next(); // Next case folded character 402 403 UBool inExpansion(); // True if last char returned from next() and the 404 // next to be returned both originated from a string 405 // folding of the same code point from the orignal UText. 406 407 int64_t getIndex(); // Return the current input buffer index. 408 409 private: 410 const UChar *fChars; 411 int64_t fIndex; 412 int64_t fLimit; 413 const UCaseProps *fcsp; 414 const UChar *fFoldChars; 415 int32_t fFoldLength; 416 int32_t fFoldIndex; 417 418 }; 419 420 U_NAMESPACE_END 421 #endif 422 423