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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT LIBRARY COMPONENTS                          --
4
--                                                                          --
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--                         G N A T . S P I T B O L                          --
6
--                                                                          --
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--                                 S p e c                                  --
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--                                                                          --
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--                     Copyright (C) 1997-2010, AdaCore                     --
10
--                                                                          --
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-- GNAT is free software;  you can  redistribute it  and/or modify it under --
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-- terms of the  GNU General Public License as published  by the Free Soft- --
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-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
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-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
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-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
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-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
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--                                                                          --
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-- As a special exception under Section 7 of GPL version 3, you are granted --
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-- additional permissions described in the GCC Runtime Library Exception,   --
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-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
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-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
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-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
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-- GNAT was originally developed  by the GNAT team at  New York University. --
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-- Extensive contributions were provided by Ada Core Technologies Inc.      --
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--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
--  SPITBOL-like interface facilities
33
 
34
--  This package provides a set of interfaces to semantic operations copied
35
--  from SPITBOL, including a complete implementation of SPITBOL pattern
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--  matching. The code is derived from the original SPITBOL MINIMAL sources,
37
--  created by Robert Dewar. The translation is not exact, but the
38
--  algorithmic approaches are similar.
39
 
40
with Ada.Finalization;      use Ada.Finalization;
41
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
42
with Interfaces;            use Interfaces;
43
 
44
package GNAT.Spitbol is
45
   pragma Preelaborate;
46
 
47
   --  The Spitbol package relies heavily on the Unbounded_String package,
48
   --  using the synonym VString for variable length string. The following
49
   --  declarations define this type and other useful abbreviations.
50
 
51
   subtype VString is Ada.Strings.Unbounded.Unbounded_String;
52
 
53
   function V (Source : String) return VString
54
     renames Ada.Strings.Unbounded.To_Unbounded_String;
55
 
56
   function S (Source : VString) return String
57
     renames Ada.Strings.Unbounded.To_String;
58
 
59
   Nul : VString renames Ada.Strings.Unbounded.Null_Unbounded_String;
60
 
61
   -------------------------
62
   -- Facilities Provided --
63
   -------------------------
64
 
65
   --  The SPITBOL support in GNAT consists of this package together with
66
   --  several child packages. In this package, we have first a set of
67
   --  useful string functions, copied exactly from the corresponding
68
   --  SPITBOL functions, except that we had to rename REVERSE because
69
   --  reverse is a reserved word (it is now Reverse_String).
70
 
71
   --  The second element of the parent package is a generic implementation
72
   --  of a table facility. In SPITBOL, the TABLE function allows general
73
   --  mappings from any datatype to any other datatype, and of course, as
74
   --  always, we can freely mix multiple types in the same table.
75
 
76
   --  The Ada version of tables is strongly typed, so the indexing type and
77
   --  the range type are always of a consistent type. In this implementation
78
   --  we only provide VString as an indexing type, since this is by far the
79
   --  most common case. The generic instantiation specifies the range type
80
   --  to be used.
81
 
82
   --  Three child packages provide standard instantiations of this table
83
   --  package for three common datatypes:
84
 
85
   --    GNAT.Spitbol.Table_Boolean     (file g-sptabo.ads)
86
 
87
   --      The range type is Boolean. The default value is False. This
88
   --      means that this table is essentially a representation of a set.
89
 
90
   --    GNAT.Spitbol.Table_Integer     (file g-sptain.ads)
91
 
92
   --      The range type is Integer. The default value is Integer'First.
93
   --      This provides a general mapping from strings to integers.
94
 
95
   --    GNAT.Spitbol.Table_VString     (file g-sptavs.ads)
96
 
97
   --      The range type is VString. The default value is the null string.
98
   --      This provides a general mapping from strings to strings.
99
 
100
   --  Finally there is another child package:
101
 
102
   --    GNAT.Spitbol.Patterns          (file g-spipat.ads)
103
 
104
   --       This child package provides a complete implementation of SPITBOL
105
   --       pattern matching. The spec contains a complete tutorial on the
106
   --       use of pattern matching.
107
 
108
   ---------------------------------
109
   -- Standard String Subprograms --
110
   ---------------------------------
111
 
112
   --  This section contains some operations on unbounded strings that are
113
   --  closely related to those in the package Unbounded.Strings, but they
114
   --  correspond to the SPITBOL semantics for these operations.
115
 
116
   function Char (Num : Natural) return Character;
117
   pragma Inline (Char);
118
   --  Equivalent to Character'Val (Num)
119
 
120
   function Lpad
121
     (Str : VString;
122
      Len : Natural;
123
      Pad : Character := ' ') return VString;
124
   function Lpad
125
     (Str : String;
126
      Len : Natural;
127
      Pad : Character := ' ') return VString;
128
   --  If the length of Str is greater than or equal to Len, then Str is
129
   --  returned unchanged. Otherwise, The value returned is obtained by
130
   --  concatenating Length (Str) - Len instances of the Pad character to
131
   --  the left hand side.
132
 
133
   procedure Lpad
134
     (Str  : in out VString;
135
      Len  : Natural;
136
      Pad  : Character := ' ');
137
   --  The procedure form is identical to the function form, except that
138
   --  the result overwrites the input argument Str.
139
 
140
   function Reverse_String (Str : VString) return VString;
141
   function Reverse_String (Str : String)  return VString;
142
   --  Returns result of reversing the string Str, i.e. the result returned
143
   --  is a mirror image (end-for-end reversal) of the input string.
144
 
145
   procedure Reverse_String (Str : in out VString);
146
   --  The procedure form is identical to the function form, except that the
147
   --  result overwrites the input argument Str.
148
 
149
   function Rpad
150
     (Str : VString;
151
      Len : Natural;
152
      Pad : Character := ' ') return VString;
153
   function Rpad
154
     (Str : String;
155
      Len : Natural;
156
      Pad : Character := ' ') return VString;
157
   --  If the length of Str is greater than or equal to Len, then Str is
158
   --  returned unchanged. Otherwise, The value returned is obtained by
159
   --  concatenating Length (Str) - Len instances of the Pad character to
160
   --  the right hand side.
161
 
162
   procedure Rpad
163
     (Str  : in out VString;
164
      Len  : Natural;
165
      Pad  : Character := ' ');
166
   --  The procedure form is identical to the function form, except that the
167
   --  result overwrites the input argument Str.
168
 
169
   function Size (Source : VString) return Natural
170
     renames Ada.Strings.Unbounded.Length;
171
 
172
   function Substr
173
     (Str   : VString;
174
      Start : Positive;
175
      Len   : Natural) return  VString;
176
   function Substr
177
     (Str   : String;
178
      Start : Positive;
179
      Len   : Natural) return  VString;
180
   --  Returns the substring starting at the given character position (which
181
   --  is always counted from the start of the string, regardless of bounds,
182
   --  e.g. 2 means starting with the second character of the string), and
183
   --  with the length (Len) given. Indexing_Error is raised if the starting
184
   --  position is out of range, and Length_Error is raised if Len is too long.
185
 
186
   function Trim (Str : VString) return VString;
187
   function Trim (Str : String)  return VString;
188
   --  Returns the string obtained by removing all spaces from the right
189
   --  hand side of the string Str.
190
 
191
   procedure Trim (Str : in out VString);
192
   --  The procedure form is identical to the function form, except that the
193
   --  result overwrites the input argument Str.
194
 
195
   -----------------------
196
   -- Utility Functions --
197
   -----------------------
198
 
199
   --  In SPITBOL, integer values can be freely treated as strings. The
200
   --  following definitions help provide some of this capability in
201
   --  some common cases.
202
 
203
   function "&" (Num : Integer; Str : String)  return String;
204
   function "&" (Str : String;  Num : Integer) return String;
205
   function "&" (Num : Integer; Str : VString) return VString;
206
   function "&" (Str : VString; Num : Integer) return VString;
207
   --  In all these concatenation operations, the integer is converted to
208
   --  its corresponding decimal string form, with no leading blank.
209
 
210
   function S (Num : Integer) return String;
211
   function V (Num : Integer) return VString;
212
   --  These operators return the given integer converted to its decimal
213
   --  string form with no leading blank.
214
 
215
   function N (Str : VString) return Integer;
216
   --  Converts string to number (same as Integer'Value (S (Str)))
217
 
218
   -------------------
219
   -- Table Support --
220
   -------------------
221
 
222
   --  So far, we only provide support for tables whose indexing data values
223
   --  are strings (or unbounded strings). The values stored may be of any
224
   --  type, as supplied by the generic formal parameter.
225
 
226
   generic
227
 
228
      type Value_Type is private;
229
      --  Any non-limited type can be used as the value type in the table
230
 
231
      Null_Value : Value_Type;
232
      --  Value used to represent a value that is not present in the table
233
 
234
      with function Img (A : Value_Type) return String;
235
      --  Used to provide image of value in Dump procedure
236
 
237
      with function "=" (A, B : Value_Type) return Boolean is <>;
238
      --  This allows a user-defined equality function to override the
239
      --  predefined equality function.
240
 
241
   package Table is
242
 
243
      ------------------------
244
      -- Table Declarations --
245
      ------------------------
246
 
247
      type Table (N : Unsigned_32) is private;
248
      --  This is the table type itself. A table is a mapping from string
249
      --  values to values of Value_Type. The discriminant is an estimate of
250
      --  the number of values in the table. If the estimate is much too
251
      --  high, some space is wasted, if the estimate is too low, access to
252
      --  table elements is slowed down. The type Table has copy semantics,
253
      --  not reference semantics. This means that if a table is copied
254
      --  using simple assignment, then the two copies refer to entirely
255
      --  separate tables.
256
 
257
      -----------------------------
258
      -- Table Access Operations --
259
      -----------------------------
260
 
261
      function Get (T : Table; Name : VString)   return Value_Type;
262
      function Get (T : Table; Name : Character) return Value_Type;
263
      pragma Inline (Get);
264
      function Get (T : Table; Name : String)    return Value_Type;
265
 
266
      --  If an entry with the given name exists in the table, then the
267
      --  corresponding Value_Type value is returned. Otherwise Null_Value
268
      --  is returned.
269
 
270
      function Present (T : Table; Name : VString)   return Boolean;
271
      function Present (T : Table; Name : Character) return Boolean;
272
      pragma Inline (Present);
273
      function Present (T : Table; Name : String)    return Boolean;
274
      --  Determines if an entry with the given name is present in the table.
275
      --  A returned value of True means that it is in the table, otherwise
276
      --  False indicates that it is not in the table.
277
 
278
      procedure Delete (T : in out Table; Name : VString);
279
      procedure Delete (T : in out Table; Name : Character);
280
      pragma Inline (Delete);
281
      procedure Delete (T : in out Table; Name : String);
282
      --  Deletes the table element with the given name from the table. If
283
      --  no element in the table has this name, then the call has no effect.
284
 
285
      procedure Set (T : in out Table; Name  : VString;   Value : Value_Type);
286
      procedure Set (T : in out Table; Name  : Character; Value : Value_Type);
287
      pragma Inline (Set);
288
      procedure Set (T : in out Table; Name  : String;    Value : Value_Type);
289
      --  Sets the value of the element with the given name to the given
290
      --  value. If Value is equal to Null_Value, the effect is to remove
291
      --  the entry from the table. If no element with the given name is
292
      --  currently in the table, then a new element with the given value
293
      --  is created.
294
 
295
      ----------------------------
296
      -- Allocation and Copying --
297
      ----------------------------
298
 
299
      --  Table is a controlled type, so that all storage associated with
300
      --  tables is properly reclaimed when a Table value is abandoned.
301
      --  Tables have value semantics rather than reference semantics as
302
      --  in Spitbol, i.e. when you assign a copy you end up with two
303
      --  distinct copies of the table, as though COPY had been used in
304
      --  Spitbol. It seems clearly more appropriate in Ada to require
305
      --  the use of explicit pointers for reference semantics.
306
 
307
      procedure Clear (T : in out Table);
308
      --  Clears all the elements of the given table, freeing associated
309
      --  storage. On return T is an empty table with no elements.
310
 
311
      procedure Copy (From : Table; To : in out Table);
312
      --  First all the elements of table To are cleared (as described for
313
      --  the Clear procedure above), then all the elements of table From
314
      --  are copied into To. In the case where the tables From and To have
315
      --  the same declared size (i.e. the same discriminant), the call to
316
      --  Copy has the same effect as the assignment of From to To. The
317
      --  difference is that, unlike the assignment statement, which will
318
      --  cause a Constraint_Error if the source and target are of different
319
      --  sizes, Copy works fine with different sized tables.
320
 
321
      ----------------
322
      -- Conversion --
323
      ----------------
324
 
325
      type Table_Entry is record
326
         Name  : VString;
327
         Value : Value_Type;
328
      end record;
329
 
330
      type Table_Array is array (Positive range <>) of Table_Entry;
331
 
332
      function Convert_To_Array (T : Table) return Table_Array;
333
      --  Returns a Table_Array value with a low bound of 1, and a length
334
      --  corresponding to the number of elements in the table. The elements
335
      --  of the array give the elements of the table in unsorted order.
336
 
337
      ---------------
338
      -- Debugging --
339
      ---------------
340
 
341
      procedure Dump (T : Table; Str : String := "Table");
342
      --  Dump contents of given table to the standard output file. The
343
      --  string value Str is used as the name of the table in the dump.
344
 
345
      procedure Dump (T : Table_Array; Str : String := "Table_Array");
346
      --  Dump contents of given table array to the current output file. The
347
      --  string value Str is used as the name of the table array in the dump.
348
 
349
   private
350
 
351
      ------------------
352
      -- Private Part --
353
      ------------------
354
 
355
      --  A Table is a pointer to a hash table which contains the indicated
356
      --  number of hash elements (the number is forced to the next odd value
357
      --  if it is even to improve hashing performance). If more than one
358
      --  of the entries in a table hashes to the same slot, the Next field
359
      --  is used to chain entries from the header. The chains are not kept
360
      --  ordered. A chain is terminated by a null pointer in Next. An unused
361
      --  chain is marked by an element whose Name is null and whose value
362
      --  is Null_Value.
363
 
364
      type Hash_Element;
365
      type Hash_Element_Ptr is access all Hash_Element;
366
 
367
      type Hash_Element is record
368
         Name  : String_Access    := null;
369
         Value : Value_Type       := Null_Value;
370
         Next  : Hash_Element_Ptr := null;
371
      end record;
372
 
373
      type Hash_Table is
374
        array (Unsigned_32 range <>) of aliased Hash_Element;
375
 
376
      type Table (N : Unsigned_32) is new Controlled with record
377
         Elmts : Hash_Table (1 .. N);
378
      end record;
379
 
380
      pragma Finalize_Storage_Only (Table);
381
 
382
      procedure Adjust (Object : in out Table);
383
      --  The Adjust procedure does a deep copy of the table structure
384
      --  so that the effect of assignment is, like other assignments
385
      --  in Ada, value-oriented.
386
 
387
      procedure Finalize (Object : in out Table);
388
      --  This is the finalization routine that ensures that all storage
389
      --  associated with a table is properly released when a table object
390
      --  is abandoned and finalized.
391
 
392
   end Table;
393
 
394
end GNAT.Spitbol;

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