1 ------------------------------------------------------------------------------
3 -- GNAT LIBRARY COMPONENTS --
5 -- G N A T . S P I T B O L --
9 -- Copyright (C) 1997-1999 Ada Core Technologies, Inc. --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 2, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING. If not, write --
19 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
20 -- MA 02111-1307, USA. --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
32 ------------------------------------------------------------------------------
34 -- SPITBOL-like interface facilities
36 -- This package provides a set of interfaces to semantic operations copied
37 -- from SPITBOL, including a complete implementation of SPITBOL pattern
38 -- matching. The code is derived from the original SPITBOL MINIMAL sources,
39 -- created by Robert Dewar. The translation is not exact, but the
40 -- algorithmic approaches are similar.
42 with Ada
.Finalization
; use Ada
.Finalization
;
43 with Ada
.Strings
.Unbounded
; use Ada
.Strings
.Unbounded
;
44 with Interfaces
; use Interfaces
;
46 package GNAT
.Spitbol
is
47 pragma Preelaborate
(Spitbol
);
49 -- The Spitbol package relies heavily on the Unbounded_String package,
50 -- using the synonym VString for variable length string. The following
51 -- declarations define this type and other useful abbreviations.
53 subtype VString
is Ada
.Strings
.Unbounded
.Unbounded_String
;
55 function V
(Source
: String) return VString
56 renames Ada
.Strings
.Unbounded
.To_Unbounded_String
;
58 function S
(Source
: VString
) return String
59 renames Ada
.Strings
.Unbounded
.To_String
;
61 Nul
: VString
renames Ada
.Strings
.Unbounded
.Null_Unbounded_String
;
63 -------------------------
64 -- Facilities Provided --
65 -------------------------
67 -- The SPITBOL support in GNAT consists of this package together with
68 -- several child packages. In this package, we have first a set of
69 -- useful string functions, copied exactly from the corresponding
70 -- SPITBOL functions, except that we had to rename REVERSE because
71 -- reverse is a reserved word (it is now Reverse_String).
73 -- The second element of the parent package is a generic implementation
74 -- of a table facility. In SPITBOL, the TABLE function allows general
75 -- mappings from any datatype to any other datatype, and of course, as
76 -- always, we can freely mix multiple types in the same table.
78 -- The Ada version of tables is strongly typed, so the indexing type and
79 -- the range type are always of a consistent type. In this implementation
80 -- we only provide VString as an indexing type, since this is by far the
81 -- most common case. The generic instantiation specifies the range type
84 -- Three child packages provide standard instantiations of this table
85 -- package for three common datatypes:
87 -- GNAT.Spitbol.Table_Boolean (file g-sptabo.ads)
89 -- The range type is Boolean. The default value is False. This
90 -- means that this table is essentially a representation of a set.
92 -- GNAT.Spitbol.Table_Integer (file g-sptain.ads)
94 -- The range type is Integer. The default value is Integer'First.
95 -- This provides a general mapping from strings to integers.
97 -- GNAT.Spitbol.Table_VString (file g-sptavs.ads)
99 -- The range type is VString. The default value is the null string.
100 -- This provides a general mapping from strings to strings.
102 -- Finally there is another child package:
104 -- GNAT.Spitbol.Patterns (file g-spipat.ads)
106 -- This child package provides a complete implementation of SPITBOL
107 -- pattern matching. The spec contains a complete tutorial on the
108 -- use of pattern matching.
110 ---------------------------------
111 -- Standard String Subprograms --
112 ---------------------------------
114 -- This section contains some operations on unbounded strings that are
115 -- closely related to those in the package Unbounded.Strings, but they
116 -- correspond to the SPITBOL semantics for these operations.
118 function Char
(Num
: Natural) return Character;
119 pragma Inline
(Char
);
120 -- Equivalent to Character'Val (Num)
125 Pad
: Character := ' ')
130 Pad
: Character := ' ')
132 -- If the length of Str is greater than or equal to Len, then Str is
133 -- returned unchanged. Otherwise, The value returned is obtained by
134 -- concatenating Length (Str) - Len instances of the Pad character to
135 -- the left hand side.
138 (Str
: in out VString
;
140 Pad
: Character := ' ');
141 -- The procedure form is identical to the function form, except that
142 -- the result overwrites the input argument Str.
144 function Reverse_String
(Str
: VString
) return VString
;
145 function Reverse_String
(Str
: String) return VString
;
146 -- Returns result of reversing the string Str, i.e. the result returned
147 -- is a mirror image (end-for-end reversal) of the input string.
149 procedure Reverse_String
(Str
: in out VString
);
150 -- The procedure form is identical to the function form, except that the
151 -- result overwrites the input argument Str.
156 Pad
: Character := ' ')
161 Pad
: Character := ' ')
163 -- If the length of Str is greater than or equal to Len, then Str is
164 -- returned unchanged. Otherwise, The value returned is obtained by
165 -- concatenating Length (Str) - Len instances of the Pad character to
166 -- the right hand side.
169 (Str
: in out VString
;
171 Pad
: Character := ' ');
172 -- The procedure form is identical to the function form, except that the
173 -- result overwrites the input argument Str.
175 function Size
(Source
: VString
) return Natural
176 renames Ada
.Strings
.Unbounded
.Length
;
188 -- Returns the substring starting at the given character position (which
189 -- is always counted from the start of the string, regardless of bounds,
190 -- e.g. 2 means starting with the second character of the string), and
191 -- with the length (Len) given. Indexing_Error is raised if the starting
192 -- position is out of range, and Length_Error is raised if Len is too long.
194 function Trim
(Str
: VString
) return VString
;
195 function Trim
(Str
: String) return VString
;
196 -- Returns the string obtained by removing all spaces from the right
197 -- hand side of the string Str.
199 procedure Trim
(Str
: in out VString
);
200 -- The procedure form is identical to the function form, except that the
201 -- result overwrites the input argument Str.
203 -----------------------
204 -- Utility Functions --
205 -----------------------
207 -- In SPITBOL, integer values can be freely treated as strings. The
208 -- following definitions help provide some of this capability in
209 -- some common cases.
211 function "&" (Num
: Integer; Str
: String) return String;
212 function "&" (Str
: String; Num
: Integer) return String;
213 function "&" (Num
: Integer; Str
: VString
) return VString
;
214 function "&" (Str
: VString
; Num
: Integer) return VString
;
215 -- In all these concatenation operations, the integer is converted to
216 -- its corresponding decimal string form, with no leading blank.
218 function S
(Num
: Integer) return String;
219 function V
(Num
: Integer) return VString
;
220 -- These operators return the given integer converted to its decimal
221 -- string form with no leading blank.
223 function N
(Str
: VString
) return Integer;
224 -- Converts string to number (same as Integer'Value (S (Str)))
230 -- So far, we only provide support for tables whose indexing data values
231 -- are strings (or unbounded strings). The values stored may be of any
232 -- type, as supplied by the generic formal parameter.
236 type Value_Type
is private;
237 -- Any non-limited type can be used as the value type in the table
239 Null_Value
: Value_Type
;
240 -- Value used to represent a value that is not present in the table.
242 with function Img
(A
: Value_Type
) return String;
243 -- Used to provide image of value in Dump procedure
245 with function "=" (A
, B
: Value_Type
) return Boolean is <>;
246 -- This allows a user-defined equality function to override the
247 -- predefined equality function.
251 ------------------------
252 -- Table Declarations --
253 ------------------------
255 type Table
(N
: Unsigned_32
) is private;
256 -- This is the table type itself. A table is a mapping from string
257 -- values to values of Value_Type. The discriminant is an estimate of
258 -- the number of values in the table. If the estimate is much too
259 -- high, some space is wasted, if the estimate is too low, access to
260 -- table elements is slowed down. The type Table has copy semantics,
261 -- not reference semantics. This means that if a table is copied
262 -- using simple assignment, then the two copies refer to entirely
265 -----------------------------
266 -- Table Access Operations --
267 -----------------------------
269 function Get
(T
: Table
; Name
: VString
) return Value_Type
;
270 function Get
(T
: Table
; Name
: Character) return Value_Type
;
272 function Get
(T
: Table
; Name
: String) return Value_Type
;
274 -- If an entry with the given name exists in the table, then the
275 -- corresponding Value_Type value is returned. Otherwise Null_Value
278 function Present
(T
: Table
; Name
: VString
) return Boolean;
279 function Present
(T
: Table
; Name
: Character) return Boolean;
280 pragma Inline
(Present
);
281 function Present
(T
: Table
; Name
: String) return Boolean;
282 -- Determines if an entry with the given name is present in the table.
283 -- A returned value of True means that it is in the table, otherwise
284 -- False indicates that it is not in the table.
286 procedure Delete
(T
: in out Table
; Name
: VString
);
287 procedure Delete
(T
: in out Table
; Name
: Character);
288 pragma Inline
(Delete
);
289 procedure Delete
(T
: in out Table
; Name
: String);
290 -- Deletes the table element with the given name from the table. If
291 -- no element in the table has this name, then the call has no effect.
293 procedure Set
(T
: in out Table
; Name
: VString
; Value
: Value_Type
);
294 procedure Set
(T
: in out Table
; Name
: Character; Value
: Value_Type
);
296 procedure Set
(T
: in out Table
; Name
: String; Value
: Value_Type
);
297 -- Sets the value of the element with the given name to the given
298 -- value. If Value is equal to Null_Value, the effect is to remove
299 -- the entry from the table. If no element with the given name is
300 -- currently in the table, then a new element with the given value
303 ----------------------------
304 -- Allocation and Copying --
305 ----------------------------
307 -- Table is a controlled type, so that all storage associated with
308 -- tables is properly reclaimed when a Table value is abandoned.
309 -- Tables have value semantics rather than reference semantics as
310 -- in Spitbol, i.e. when you assign a copy you end up with two
311 -- distinct copies of the table, as though COPY had been used in
312 -- Spitbol. It seems clearly more appropriate in Ada to require
313 -- the use of explicit pointers for reference semantics.
315 procedure Clear
(T
: in out Table
);
316 -- Clears all the elements of the given table, freeing associated
317 -- storage. On return T is an empty table with no elements.
319 procedure Copy
(From
: in Table
; To
: in out Table
);
320 -- First all the elements of table To are cleared (as described for
321 -- the Clear procedure above), then all the elements of table From
322 -- are copied into To. In the case where the tables From and To have
323 -- the same declared size (i.e. the same discriminant), the call to
324 -- Copy has the same effect as the assignment of From to To. The
325 -- difference is that, unlike the assignment statement, which will
326 -- cause a Constraint_Error if the source and target are of different
327 -- sizes, Copy works fine with different sized tables.
333 type Table_Entry
is record
338 type Table_Array
is array (Positive range <>) of Table_Entry
;
340 function Convert_To_Array
(T
: Table
) return Table_Array
;
341 -- Returns a Table_Array value with a low bound of 1, and a length
342 -- corresponding to the number of elements in the table. The elements
343 -- of the array give the elements of the table in unsorted order.
349 procedure Dump
(T
: Table
; Str
: String := "Table");
350 -- Dump contents of given table to the standard output file. The
351 -- string value Str is used as the name of the table in the dump.
353 procedure Dump
(T
: Table_Array
; Str
: String := "Table_Array");
354 -- Dump contents of given table array to the current output file. The
355 -- string value Str is used as the name of the table array in the dump.
363 -- A Table is a pointer to a hash table which contains the indicated
364 -- number of hash elements (the number is forced to the next odd value
365 -- if it is even to improve hashing performance). If more than one
366 -- of the entries in a table hashes to the same slot, the Next field
367 -- is used to chain entries from the header. The chains are not kept
368 -- ordered. A chain is terminated by a null pointer in Next. An unused
369 -- chain is marked by an element whose Name is null and whose value
373 type Hash_Element_Ptr
is access all Hash_Element
;
375 type Hash_Element
is record
376 Name
: String_Access
:= null;
377 Value
: Value_Type
:= Null_Value
;
378 Next
: Hash_Element_Ptr
:= null;
382 array (Unsigned_32
range <>) of aliased Hash_Element
;
384 type Table
(N
: Unsigned_32
) is new Controlled
with record
385 Elmts
: Hash_Table
(1 .. N
);
388 pragma Finalize_Storage_Only
(Table
);
390 procedure Adjust
(Object
: in out Table
);
391 -- The Adjust procedure does a deep copy of the table structure
392 -- so that the effect of assignment is, like other assignments
393 -- in Ada, value-oriented.
395 procedure Finalize
(Object
: in out Table
);
396 -- This is the finalization routine that ensures that all storage
397 -- associated with a table is properly released when a table object
398 -- is abandoned and finalized.