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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT LIBRARY COMPONENTS                          --
4
--                                                                          --
5
--                        S Y S T E M . R E G P A T                         --
6
--                                                                          --
7
--                                 S p e c                                  --
8
--                                                                          --
9
--               Copyright (C) 1986 by University of Toronto.               --
10
--                     Copyright (C) 1996-2010, AdaCore                     --
11
--                                                                          --
12
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
13
-- terms of the  GNU General Public License as published  by the Free Soft- --
14
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
15
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
16
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
17
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
18
--                                                                          --
19
-- As a special exception under Section 7 of GPL version 3, you are granted --
20
-- additional permissions described in the GCC Runtime Library Exception,   --
21
-- version 3.1, as published by the Free Software Foundation.               --
22
--                                                                          --
23
-- You should have received a copy of the GNU General Public License and    --
24
-- a copy of the GCC Runtime Library Exception along with this program;     --
25
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
26
-- <http://www.gnu.org/licenses/>.                                          --
27
--                                                                          --
28
-- GNAT was originally developed  by the GNAT team at  New York University. --
29
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
30
--                                                                          --
31
------------------------------------------------------------------------------
32
 
33
--  This package implements roughly the same set of regular expressions as
34
--  are available in the Perl or Python programming languages.
35
 
36
--  This is an extension of the original V7 style regular expression library
37
--  written in C by Henry Spencer. Apart from the translation to Ada, the
38
--  interface has been considerably changed to use the Ada String type
39
--  instead of C-style nul-terminated strings.
40
 
41
--  Note: this package is in the System hierarchy so that it can be directly
42
--  be used by other predefined packages. User access to this package is via
43
--  a renaming of this package in GNAT.Regpat (file g-regpat.ads).
44
 
45
package System.Regpat is
46
   pragma Preelaborate;
47
 
48
   --  The grammar is the following:
49
 
50
   --     regexp ::= expr
51
   --            ::= ^ expr               -- anchor at the beginning of string
52
   --            ::= expr $               -- anchor at the end of string
53
 
54
   --     expr   ::= term
55
   --            ::= term | term          -- alternation (term or term ...)
56
 
57
   --     term   ::= item
58
   --            ::= item item ...        -- concatenation (item then item)
59
 
60
   --     item   ::= elmt                 -- match elmt
61
   --            ::= elmt *               -- zero or more elmt's
62
   --            ::= elmt +               -- one or more elmt's
63
   --            ::= elmt ?               -- matches elmt or nothing
64
   --            ::= elmt *?              -- zero or more times, minimum number
65
   --            ::= elmt +?              -- one or more times, minimum number
66
   --            ::= elmt ??              -- zero or one time, minimum number
67
   --            ::= elmt { num }         -- matches elmt exactly num times
68
   --            ::= elmt { num , }       -- matches elmt at least num times
69
   --            ::= elmt { num , num2 }  -- matches between num and num2 times
70
   --            ::= elmt { num }?        -- matches elmt exactly num times
71
   --            ::= elmt { num , }?      -- matches elmt at least num times
72
   --                                        non-greedy version
73
   --            ::= elmt { num , num2 }? -- matches between num and num2 times
74
   --                                        non-greedy version
75
 
76
   --     elmt   ::= nchr                 -- matches given character
77
   --            ::= [range range ...]    -- matches any character listed
78
   --            ::= [^ range range ...]  -- matches any character not listed
79
   --            ::= .                    -- matches any single character
80
   --                                     -- except newlines
81
   --            ::= ( expr )             -- parens used for grouping
82
   --            ::= \ num                -- reference to num-th parenthesis
83
 
84
   --     range  ::= char - char          -- matches chars in given range
85
   --            ::= nchr
86
   --            ::= [: posix :]          -- any character in the POSIX range
87
   --            ::= [:^ posix :]         -- not in the POSIX range
88
 
89
   --     posix  ::= alnum                -- alphanumeric characters
90
   --            ::= alpha                -- alphabetic characters
91
   --            ::= ascii                -- ascii characters (0 .. 127)
92
   --            ::= cntrl                -- control chars (0..31, 127..159)
93
   --            ::= digit                -- digits ('0' .. '9')
94
   --            ::= graph                -- graphic chars (32..126, 160..255)
95
   --            ::= lower                -- lower case characters
96
   --            ::= print                -- printable characters (32..127)
97
   --                                     -- and whitespaces (9 .. 13)
98
   --            ::= punct                -- printable, except alphanumeric
99
   --            ::= space                -- space characters
100
   --            ::= upper                -- upper case characters
101
   --            ::= word                 -- alphanumeric characters
102
   --            ::= xdigit               -- hexadecimal chars (0..9, a..f)
103
 
104
   --     char   ::= any character, including special characters
105
   --                ASCII.NUL is not supported.
106
 
107
   --     nchr   ::= any character except \()[].*+?^ or \char to match char
108
   --                \n means a newline (ASCII.LF)
109
   --                \t means a tab (ASCII.HT)
110
   --                \r means a return (ASCII.CR)
111
   --                \b matches the empty string at the beginning or end of a
112
   --                   word. A word is defined as a set of alphanumerical
113
   --                   characters (see \w below).
114
   --                \B matches the empty string only when *not* at the
115
   --                   beginning or end of a word.
116
   --                \d matches any digit character ([0-9])
117
   --                \D matches any non digit character ([^0-9])
118
   --                \s matches any white space character. This is equivalent
119
   --                   to [ \t\n\r\f\v]  (tab, form-feed, vertical-tab,...
120
   --                \S matches any non-white space character.
121
   --                \w matches any alphanumeric character or underscore.
122
   --                   This include accented letters, as defined in the
123
   --                   package Ada.Characters.Handling.
124
   --                \W matches any non-alphanumeric character.
125
   --                \A match the empty string only at the beginning of the
126
   --                   string, whatever flags are used for Compile (the
127
   --                   behavior of ^ can change, see Regexp_Flags below).
128
   --                \G match the empty string only at the end of the
129
   --                   string, whatever flags are used for Compile (the
130
   --                   behavior of $ can change, see Regexp_Flags below).
131
   --     ...    ::= is used to indication repetition (one or more terms)
132
 
133
   --  Embedded newlines are not matched by the ^ operator.
134
   --  It is possible to retrieve the substring matched a parenthesis
135
   --  expression. Although the depth of parenthesis is not limited in the
136
   --  regexp, only the first 9 substrings can be retrieved.
137
 
138
   --  The highest value possible for the arguments to the curly operator ({})
139
   --  are given by the constant Max_Curly_Repeat below.
140
 
141
   --  The operators '*', '+', '?' and '{}' always match the longest possible
142
   --  substring. They all have a non-greedy version (with an extra ? after the
143
   --  operator), which matches the shortest possible substring.
144
 
145
   --  For instance:
146
   --      regexp="<.*>"   string="<h1>title</h1>"   matches="<h1>title</h1>"
147
   --      regexp="<.*?>"  string="<h1>title</h1>"   matches="<h1>"
148
   --
149
   --  '{' and '}' are only considered as special characters if they appear
150
   --  in a substring that looks exactly like '{n}', '{n,m}' or '{n,}', where
151
   --  n and m are digits. No space is allowed. In other contexts, the curly
152
   --  braces will simply be treated as normal characters.
153
 
154
   --  Compiling Regular Expressions
155
   --  =============================
156
 
157
   --  To use this package, you first need to compile the regular expression
158
   --  (a string) into a byte-code program, in a Pattern_Matcher structure.
159
   --  This first step checks that the regexp is valid, and optimizes the
160
   --  matching algorithms of the second step.
161
 
162
   --  Two versions of the Compile subprogram are given: one in which this
163
   --  package will compute itself the best possible size to allocate for the
164
   --  byte code; the other where you must allocate enough memory yourself. An
165
   --  exception is raised if there is not enough memory.
166
 
167
   --     declare
168
   --        Regexp : String := "a|b";
169
 
170
   --        Matcher : Pattern_Matcher := Compile (Regexp);
171
   --        --  The size for matcher is automatically allocated
172
 
173
   --        Matcher2 : Pattern_Matcher (1000);
174
   --        --  Some space is allocated directly.
175
 
176
   --     begin
177
   --        Compile (Matcher2, Regexp);
178
   --        ...
179
   --     end;
180
 
181
   --  Note that the second version is significantly faster, since with the
182
   --  first version the regular expression has in fact to be compiled twice
183
   --  (first to compute the size, then to generate the byte code).
184
 
185
   --  Note also that you cannot use the function version of Compile if you
186
   --  specify the size of the Pattern_Matcher, since the discriminants will
187
   --  most probably be different and you will get a Constraint_Error
188
 
189
   --  Matching Strings
190
   --  ================
191
 
192
   --  Once the regular expression has been compiled, you can use it as often
193
   --  as needed to match strings.
194
 
195
   --  Several versions of the Match subprogram are provided, with different
196
   --  parameters and return results.
197
 
198
   --  See the description under each of these subprograms
199
 
200
   --  Here is a short example showing how to get the substring matched by
201
   --  the first parenthesis pair.
202
 
203
   --     declare
204
   --        Matches : Match_Array (0 .. 1);
205
   --        Regexp  : String := "a(b|c)d";
206
   --        Str     : String := "gacdg";
207
 
208
   --     begin
209
   --        Match (Compile (Regexp), Str, Matches);
210
   --        return Str (Matches (1).First .. Matches (1).Last);
211
   --        --  returns 'c'
212
   --     end;
213
 
214
   --  Finding all occurrences
215
   --  =======================
216
 
217
   --  Finding all the occurrences of a regular expression in a string cannot
218
   --  be done by simply passing a slice of the string. This wouldn't work for
219
   --  anchored regular expressions (the ones starting with "^" or ending with
220
   --  "$").
221
   --  Instead, you need to use the last parameter to Match (Data_First), as in
222
   --  the following loop:
223
 
224
   --     declare
225
   --        Str     : String :=
226
   --           "-- first line" & ASCII.LF & "-- second line";
227
   --        Matches : Match_Array (0 .. 0);
228
   --        Regexp  : Pattern_Matcher := Compile ("^--", Multiple_Lines);
229
   --        Current : Natural := Str'First;
230
   --     begin
231
   --        loop
232
   --           Match (Regexp, Str, Matches, Current);
233
   --           exit when Matches (0) = No_Match;
234
   --
235
   --           --  Process the match at position Matches (0).First
236
   --
237
   --           Current := Matches (0).Last + 1;
238
   --        end loop;
239
   --     end;
240
 
241
   --  String Substitution
242
   --  ===================
243
 
244
   --  No subprogram is currently provided for string substitution.
245
   --  However, this is easy to simulate with the parenthesis groups, as
246
   --  shown below.
247
 
248
   --  This example swaps the first two words of the string:
249
 
250
   --     declare
251
   --        Regexp  : String := "([a-z]+) +([a-z]+)";
252
   --        Str     : String := " first   second third ";
253
   --        Matches : Match_Array (0 .. 2);
254
 
255
   --     begin
256
   --        Match (Compile (Regexp), Str, Matches);
257
   --        return Str (Str'First .. Matches (1).First - 1)
258
   --               & Str (Matches (2).First .. Matches (2).Last)
259
   --               & " "
260
   --               & Str (Matches (1).First .. Matches (1).Last)
261
   --               & Str (Matches (2).Last + 1 .. Str'Last);
262
   --        --  returns " second first third "
263
   --     end;
264
 
265
   ---------------
266
   -- Constants --
267
   ---------------
268
 
269
   Expression_Error : exception;
270
   --  This exception is raised when trying to compile an invalid regular
271
   --  expression. All subprograms taking an expression as parameter may raise
272
   --  Expression_Error.
273
 
274
   Max_Paren_Count : constant := 255;
275
   --  Maximum number of parenthesis in a regular expression. This is limited
276
   --  by the size of a Character, as found in the byte-compiled version of
277
   --  regular expressions.
278
 
279
   Max_Curly_Repeat : constant := 32767;
280
   --  Maximum number of repetition for the curly operator. The digits in the
281
   --  {n}, {n,} and {n,m } operators cannot be higher than this constant,
282
   --  since they have to fit on two characters in the byte-compiled version of
283
   --  regular expressions.
284
 
285
   Max_Program_Size : constant := 2**15 - 1;
286
   --  Maximum size that can be allocated for a program
287
 
288
   type Program_Size is range 0 .. Max_Program_Size;
289
   for Program_Size'Size use 16;
290
   --  Number of bytes allocated for the byte-compiled version of a regular
291
   --  expression. The size required depends on the complexity of the regular
292
   --  expression in a complex manner that is undocumented (other than in the
293
   --  body of the Compile procedure). Normally the size is automatically set
294
   --  and the programmer need not be concerned about it. There are two
295
   --  exceptions to this. First in the calls to Match, it is possible to
296
   --  specify a non-zero size that is known to be large enough. This can
297
   --  slightly increase the efficiency by avoiding a copy. Second, in the case
298
   --  of calling compile, it is possible using the procedural form of Compile
299
   --  to use a single Pattern_Matcher variable for several different
300
   --  expressions by setting its size sufficiently large.
301
 
302
   Auto_Size : constant := 0;
303
   --  Used in calls to Match to indicate that the Size should be set to
304
   --  a value appropriate to the expression being used automatically.
305
 
306
   type Regexp_Flags is mod 256;
307
   for Regexp_Flags'Size use 8;
308
   --  Flags that can be given at compile time to specify default
309
   --  properties for the regular expression.
310
 
311
   No_Flags         : constant Regexp_Flags;
312
   Case_Insensitive : constant Regexp_Flags;
313
   --  The automaton is optimized so that the matching is done in a case
314
   --  insensitive manner (upper case characters and lower case characters
315
   --  are all treated the same way).
316
 
317
   Single_Line      : constant Regexp_Flags;
318
   --  Treat the Data we are matching as a single line. This means that
319
   --  ^ and $ will ignore \n (unless Multiple_Lines is also specified),
320
   --  and that '.' will match \n.
321
 
322
   Multiple_Lines   : constant Regexp_Flags;
323
   --  Treat the Data as multiple lines. This means that ^ and $ will also
324
   --  match on internal newlines (ASCII.LF), in addition to the beginning
325
   --  and end of the string.
326
   --
327
   --  This can be combined with Single_Line.
328
 
329
   -----------------
330
   -- Match_Array --
331
   -----------------
332
 
333
   subtype Match_Count is Natural range 0 .. Max_Paren_Count;
334
 
335
   type Match_Location is record
336
      First : Natural := 0;
337
      Last  : Natural := 0;
338
   end record;
339
 
340
   type Match_Array is array (Match_Count range <>) of Match_Location;
341
   --  Used for regular expressions that can contain parenthesized
342
   --  subexpressions. Certain Match subprograms below produce Matches of type
343
   --  Match_Array. Each component of Matches is set to the subrange of the
344
   --  matches substring, or to No_Match if no match. Matches (N) is for the
345
   --  N'th parenthesized subexpressions; Matches (0) is for the whole
346
   --  expression.
347
   --
348
   --  For instance, if your regular expression is: "a((b*)c+)(d+)", then
349
   --                                                 12      3
350
   --     Matches (0) is for "a((b*)c+)(d+)" (the entire expression)
351
   --     Matches (1) is for "(b*)c+"
352
   --     Matches (2) is for "b*"
353
   --     Matches (3) is for "d+"
354
   --
355
   --  The number of parenthesis groups that can be retrieved is limited only
356
   --  by Max_Paren_Count.
357
   --
358
   --  Normally, the bounds of the Matches actual parameter will be
359
   --  0 .. Paren_Count (Regexp), to get all the matches. However, it is fine
360
   --  if Matches is shorter than that on either end; missing components will
361
   --  be ignored. Thus, in the above example, you could use 2 .. 2 if all you
362
   --  care about it the second parenthesis pair "b*". Likewise, if
363
   --  Matches'Last > Paren_Count (Regexp), the extra components will be set to
364
   --  No_Match.
365
 
366
   No_Match : constant Match_Location := (First => 0, Last => 0);
367
   --  The No_Match constant is (0, 0) to differentiate between matching a null
368
   --  string at position 1, which uses (1, 0) and no match at all.
369
 
370
   ---------------------------------
371
   -- Pattern_Matcher Compilation --
372
   ---------------------------------
373
 
374
   --  The subprograms here are used to precompile regular expressions for use
375
   --  in subsequent Match calls. Precompilation improves efficiency if the
376
   --  same regular expression is to be used in more than one Match call.
377
 
378
   type Pattern_Matcher (Size : Program_Size) is private;
379
   --  Type used to represent a regular expression compiled into byte code
380
 
381
   Never_Match : constant Pattern_Matcher;
382
   --  A regular expression that never matches anything
383
 
384
   function Compile
385
     (Expression : String;
386
      Flags      : Regexp_Flags := No_Flags) return Pattern_Matcher;
387
   --  Compile a regular expression into internal code
388
   --
389
   --  Raises Expression_Error if Expression is not a legal regular expression
390
   --
391
   --  The appropriate size is calculated automatically to correspond to the
392
   --  provided expression. This is the normal default method of compilation.
393
   --  Note that it is generally not possible to assign the result of two
394
   --  different calls to this Compile function to the same Pattern_Matcher
395
   --  variable, since the sizes will differ.
396
   --
397
   --  Flags is the default value to use to set properties for Expression
398
   --  (e.g. case sensitivity,...).
399
 
400
   procedure Compile
401
     (Matcher         : out Pattern_Matcher;
402
      Expression      : String;
403
      Final_Code_Size : out Program_Size;
404
      Flags           : Regexp_Flags := No_Flags);
405
   --  Compile a regular expression into internal code
406
 
407
   --  This procedure is significantly faster than the Compile function since
408
   --  it avoids the extra step of precomputing the required size.
409
   --
410
   --  However, it requires the user to provide a Pattern_Matcher variable
411
   --  whose size is preset to a large enough value. One advantage of this
412
   --  approach, in addition to the improved efficiency, is that the same
413
   --  Pattern_Matcher variable can be used to hold the compiled code for
414
   --  several different regular expressions by setting a size that is large
415
   --  enough to accommodate all possibilities.
416
   --
417
   --  In this version of the procedure call, the actual required code size is
418
   --  returned. Also if Matcher.Size is zero on entry, then the resulting code
419
   --  is not stored. A call with Matcher.Size set to Auto_Size can thus be
420
   --  used to determine the space required for compiling the given regular
421
   --  expression.
422
   --
423
   --  This function raises Storage_Error if Matcher is too small to hold
424
   --  the resulting code (i.e. Matcher.Size has too small a value).
425
   --
426
   --  Expression_Error is raised if the string Expression does not contain
427
   --  a valid regular expression.
428
   --
429
   --  Flags is the default value to use to set properties for Expression (case
430
   --  sensitivity,...).
431
 
432
   procedure Compile
433
     (Matcher    : out Pattern_Matcher;
434
      Expression : String;
435
      Flags      : Regexp_Flags := No_Flags);
436
   --  Same procedure as above, expect it does not return the final
437
   --  program size, and Matcher.Size cannot be Auto_Size.
438
 
439
   function Paren_Count (Regexp : Pattern_Matcher) return Match_Count;
440
   pragma Inline (Paren_Count);
441
   --  Return the number of parenthesis pairs in Regexp.
442
   --
443
   --  This is the maximum index that will be filled if a Match_Array is
444
   --  used as an argument to Match.
445
   --
446
   --  Thus, if you want to be sure to get all the parenthesis, you should
447
   --  do something like:
448
   --
449
   --     declare
450
   --        Regexp  : Pattern_Matcher := Compile ("a(b*)(c+)");
451
   --        Matched : Match_Array (0 .. Paren_Count (Regexp));
452
   --     begin
453
   --        Match (Regexp, "a string", Matched);
454
   --     end;
455
 
456
   -------------
457
   -- Quoting --
458
   -------------
459
 
460
   function Quote (Str : String) return String;
461
   --  Return a version of Str so that every special character is quoted.
462
   --  The resulting string can be used in a regular expression to match
463
   --  exactly Str, whatever character was present in Str.
464
 
465
   --------------
466
   -- Matching --
467
   --------------
468
 
469
   --  The Match subprograms are given a regular expression in string
470
   --  form, and perform the corresponding match. The following parameters
471
   --  are present in all forms of the Match call.
472
 
473
   --    Expression contains the regular expression to be matched as a string
474
 
475
   --    Data contains the string to be matched
476
 
477
   --    Data_First is the lower bound for the match, i.e. Data (Data_First)
478
   --    will be the first character to be examined. If Data_First is set to
479
   --    the special value of -1 (the default), then the first character to
480
   --    be examined is Data (Data_First). However, the regular expression
481
   --    character ^ (start of string) still refers to the first character
482
   --    of the full string (Data (Data'First)), which is why there is a
483
   --    separate mechanism for specifying Data_First.
484
 
485
   --    Data_Last is the upper bound for the match, i.e. Data (Data_Last)
486
   --    will be the last character to be examined. If Data_Last is set to
487
   --    the special value of Positive'Last (the default), then the last
488
   --    character to be examined is Data (Data_Last). However, the regular
489
   --    expression character $ (end of string) still refers to the last
490
   --    character of the full string (Data (Data'Last)), which is why there
491
   --    is a separate mechanism for specifying Data_Last.
492
 
493
   --    Note: the use of Data_First and Data_Last is not equivalent to
494
   --    simply passing a slice as Expression because of the handling of
495
   --    regular expression characters ^ and $.
496
 
497
   --    Size is the size allocated for the compiled byte code. Normally
498
   --    this is defaulted to Auto_Size which means that the appropriate
499
   --    size is allocated automatically. It is possible to specify an
500
   --    explicit size, which must be sufficiently large. This slightly
501
   --    increases the efficiency by avoiding the extra step of computing
502
   --    the appropriate size.
503
 
504
   --  The following exceptions can be raised in calls to Match
505
   --
506
   --    Storage_Error is raised if a non-zero value is given for Size
507
   --    and it is too small to hold the compiled byte code.
508
   --
509
   --    Expression_Error is raised if the given expression is not a legal
510
   --    regular expression.
511
 
512
   procedure Match
513
     (Expression : String;
514
      Data       : String;
515
      Matches    : out Match_Array;
516
      Size       : Program_Size := Auto_Size;
517
      Data_First : Integer      := -1;
518
      Data_Last  : Positive     := Positive'Last);
519
   --  This version returns the result of the match stored in Match_Array;
520
   --  see comments under Match_Array above for details.
521
 
522
   function Match
523
     (Expression : String;
524
      Data       : String;
525
      Size       : Program_Size := Auto_Size;
526
      Data_First : Integer      := -1;
527
      Data_Last  : Positive     := Positive'Last) return Natural;
528
   --  This version returns the position where Data matches, or if there is
529
   --  no match, then the value Data'First - 1.
530
 
531
   function Match
532
     (Expression : String;
533
      Data       : String;
534
      Size       : Program_Size := Auto_Size;
535
      Data_First : Integer      := -1;
536
      Data_Last  : Positive     := Positive'Last) return Boolean;
537
   --  This version returns True if the match succeeds, False otherwise
538
 
539
   ------------------------------------------------
540
   -- Matching a Pre-Compiled Regular Expression --
541
   ------------------------------------------------
542
 
543
   --  The following functions are significantly faster if you need to reuse
544
   --  the same regular expression multiple times, since you only have to
545
   --  compile it once. For these functions you must first compile the
546
   --  expression with a call to Compile as previously described.
547
 
548
   --  The parameters Data, Data_First and Data_Last are as described
549
   --  in the previous section.
550
 
551
   function  Match
552
     (Self       : Pattern_Matcher;
553
      Data       : String;
554
      Data_First : Integer  := -1;
555
      Data_Last  : Positive := Positive'Last) return Natural;
556
   --  Match Data using the given pattern matcher. Returns the position
557
   --  where Data matches, or (Data'First - 1) if there is no match.
558
 
559
   function  Match
560
     (Self       : Pattern_Matcher;
561
      Data       : String;
562
      Data_First : Integer  := -1;
563
      Data_Last  : Positive := Positive'Last) return Boolean;
564
   --  Return True if Data matches using the given pattern matcher
565
 
566
   pragma Inline (Match);
567
   --  All except the last one below
568
 
569
   procedure Match
570
     (Self       : Pattern_Matcher;
571
      Data       : String;
572
      Matches    : out Match_Array;
573
      Data_First : Integer  := -1;
574
      Data_Last  : Positive := Positive'Last);
575
   --  Match Data using the given pattern matcher and store result in Matches;
576
   --  see comments under Match_Array above for details.
577
 
578
   -----------
579
   -- Debug --
580
   -----------
581
 
582
   procedure Dump (Self : Pattern_Matcher);
583
   --  Dump the compiled version of the regular expression matched by Self
584
 
585
--------------------------
586
-- Private Declarations --
587
--------------------------
588
 
589
private
590
 
591
   subtype Pointer is Program_Size;
592
   --  The Pointer type is used to point into Program_Data
593
 
594
   --  Note that the pointer type is not necessarily 2 bytes
595
   --  although it is stored in the program using 2 bytes
596
 
597
   type Program_Data is array (Pointer range <>) of Character;
598
 
599
   Program_First : constant := 1;
600
 
601
   --  The "internal use only" fields in regexp are present to pass info from
602
   --  compile to execute that permits the execute phase to run lots faster on
603
   --  simple cases. They are:
604
 
605
   --     First              character that must begin a match or ASCII.NUL
606
   --     Anchored           true iff match must start at beginning of line
607
   --     Must_Have          pointer to string that match must include or null
608
   --     Must_Have_Length   length of Must_Have string
609
 
610
   --  First and Anchored permit very fast decisions on suitable starting
611
   --  points for a match, cutting down the work a lot. Must_Have permits fast
612
   --  rejection of lines that cannot possibly match.
613
 
614
   --  The Must_Have tests are costly enough that Optimize supplies a Must_Have
615
   --  only if the r.e. contains something potentially expensive (at present,
616
   --  the only such thing detected is * or at the start of the r.e., which can
617
   --  involve a lot of backup). The length is supplied because the test in
618
   --  Execute needs it and Optimize is computing it anyway.
619
 
620
   --  The initialization is meant to fail-safe in case the user of this
621
   --  package tries to use an uninitialized matcher. This takes advantage
622
   --  of the knowledge that ASCII.NUL translates to the end-of-program (EOP)
623
   --  instruction code of the state machine.
624
 
625
   No_Flags         : constant Regexp_Flags := 0;
626
   Case_Insensitive : constant Regexp_Flags := 1;
627
   Single_Line      : constant Regexp_Flags := 2;
628
   Multiple_Lines   : constant Regexp_Flags := 4;
629
 
630
   type Pattern_Matcher (Size : Pointer) is record
631
      First            : Character    := ASCII.NUL;  --  internal use only
632
      Anchored         : Boolean      := False;      --  internal use only
633
      Must_Have        : Pointer      := 0;          --  internal use only
634
      Must_Have_Length : Natural      := 0;          --  internal use only
635
      Paren_Count      : Natural      := 0;          --  # paren groups
636
      Flags            : Regexp_Flags := No_Flags;
637
      Program          : Program_Data (Program_First .. Size) :=
638
                           (others => ASCII.NUL);
639
   end record;
640
 
641
   Never_Match : constant Pattern_Matcher :=
642
      (0, ASCII.NUL, False, 0, 0, 0, No_Flags, (others => ASCII.NUL));
643
 
644
end System.Regpat;

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