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1 706 jeremybenn
------------------------------------------------------------------------------
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--                                                                          --
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--                         GNAT LIBRARY COMPONENTS                          --
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--                                                                          --
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--              ADA.CONTAINERS.HASH_TABLES.GENERIC_BOUNDED_KEYS             --
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--                                                                          --
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--                                 B o d y                                  --
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--                                                                          --
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--          Copyright (C) 2004-2010, Free Software Foundation, Inc.         --
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--                                                                          --
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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.               --
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--                                                                          --
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-- You should have received a copy of the GNU General Public License and    --
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-- 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    --
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-- <http://www.gnu.org/licenses/>.                                          --
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--                                                                          --
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-- This unit was originally developed by Matthew J Heaney.                  --
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------------------------------------------------------------------------------
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package body Ada.Containers.Hash_Tables.Generic_Bounded_Keys is
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   --------------------------
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   -- Delete_Key_Sans_Free --
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   --------------------------
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   procedure Delete_Key_Sans_Free
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     (HT  : in out Hash_Table_Type'Class;
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      Key : Key_Type;
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      X   : out Count_Type)
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   is
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      Indx : Hash_Type;
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      Prev : Count_Type;
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   begin
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      if HT.Length = 0 then
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         X := 0;
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         return;
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      end if;
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      Indx := Index (HT, Key);
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      X := HT.Buckets (Indx);
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      if X = 0 then
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         return;
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      end if;
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      if Equivalent_Keys (Key, HT.Nodes (X)) then
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         if HT.Busy > 0 then
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            raise Program_Error with
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              "attempt to tamper with cursors (container is busy)";
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         end if;
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         HT.Buckets (Indx) := Next (HT.Nodes (X));
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         HT.Length := HT.Length - 1;
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         return;
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      end if;
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      loop
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         Prev := X;
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         X := Next (HT.Nodes (Prev));
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         if X = 0 then
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            return;
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         end if;
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         if Equivalent_Keys (Key, HT.Nodes (X)) then
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            if HT.Busy > 0 then
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               raise Program_Error with
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                 "attempt to tamper with cursors (container is busy)";
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            end if;
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            Set_Next (HT.Nodes (Prev), Next => Next (HT.Nodes (X)));
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            HT.Length := HT.Length - 1;
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            return;
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         end if;
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      end loop;
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   end Delete_Key_Sans_Free;
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   ----------
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   -- Find --
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   ----------
90
 
91
   function Find
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     (HT  : Hash_Table_Type'Class;
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      Key : Key_Type) return Count_Type
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   is
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      Indx : Hash_Type;
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      Node : Count_Type;
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98
   begin
99
      if HT.Length = 0 then
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         return 0;
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      end if;
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      Indx := Index (HT, Key);
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      Node := HT.Buckets (Indx);
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      while Node /= 0 loop
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         if Equivalent_Keys (Key, HT.Nodes (Node)) then
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            return Node;
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         end if;
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         Node := Next (HT.Nodes (Node));
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      end loop;
112
 
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      return 0;
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   end Find;
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   --------------------------------
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   -- Generic_Conditional_Insert --
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   --------------------------------
119
 
120
   procedure Generic_Conditional_Insert
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     (HT       : in out Hash_Table_Type'Class;
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      Key      : Key_Type;
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      Node     : out Count_Type;
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      Inserted : out Boolean)
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   is
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      Indx : constant Hash_Type := Index (HT, Key);
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      B    : Count_Type renames HT.Buckets (Indx);
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129
   begin
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      if B = 0 then
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         if HT.Busy > 0 then
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            raise Program_Error with
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              "attempt to tamper with cursors (container is busy)";
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         end if;
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         if HT.Length = HT.Capacity then
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            raise Capacity_Error with "no more capacity for insertion";
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         end if;
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         Node := New_Node;
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         Set_Next (HT.Nodes (Node), Next => 0);
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         Inserted := True;
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         B := Node;
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         HT.Length := HT.Length + 1;
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         return;
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      end if;
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      Node := B;
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      loop
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         if Equivalent_Keys (Key, HT.Nodes (Node)) then
154
            Inserted := False;
155
            return;
156
         end if;
157
 
158
         Node := Next (HT.Nodes (Node));
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160
         exit when Node = 0;
161
      end loop;
162
 
163
      if HT.Busy > 0 then
164
         raise Program_Error with
165
           "attempt to tamper with cursors (container is busy)";
166
      end if;
167
 
168
      if HT.Length = HT.Capacity then
169
         raise Capacity_Error with "no more capacity for insertion";
170
      end if;
171
 
172
      Node := New_Node;
173
      Set_Next (HT.Nodes (Node), Next => B);
174
 
175
      Inserted := True;
176
 
177
      B := Node;
178
      HT.Length := HT.Length + 1;
179
   end Generic_Conditional_Insert;
180
 
181
   -----------
182
   -- Index --
183
   -----------
184
 
185
   function Index
186
     (HT  : Hash_Table_Type'Class;
187
      Key : Key_Type) return Hash_Type is
188
   begin
189
      return HT.Buckets'First + Hash (Key) mod HT.Buckets'Length;
190
   end Index;
191
 
192
   -----------------------------
193
   -- Generic_Replace_Element --
194
   -----------------------------
195
 
196
   procedure Generic_Replace_Element
197
     (HT   : in out Hash_Table_Type'Class;
198
      Node : Count_Type;
199
      Key  : Key_Type)
200
   is
201
      pragma Assert (HT.Length > 0);
202
      pragma Assert (Node /= 0);
203
 
204
      BB : Buckets_Type renames HT.Buckets;
205
      NN : Nodes_Type renames HT.Nodes;
206
 
207
      Old_Hash : constant Hash_Type := Hash (NN (Node));
208
      Old_Indx : constant Hash_Type := BB'First + Old_Hash mod BB'Length;
209
 
210
      New_Hash : constant Hash_Type := Hash (Key);
211
      New_Indx : constant Hash_Type := BB'First + New_Hash mod BB'Length;
212
 
213
      New_Bucket : Count_Type renames BB (New_Indx);
214
      N, M       : Count_Type;
215
 
216
   begin
217
      --  Replace_Element is allowed to change a node's key to Key
218
      --  (generic formal operation Assign provides the mechanism), but
219
      --  only if Key is not already in the hash table. (In a unique-key
220
      --  hash table as this one, a key is mapped to exactly one node.)
221
 
222
      if Equivalent_Keys (Key, NN (Node)) then
223
         pragma Assert (New_Hash = Old_Hash);
224
 
225
         if HT.Lock > 0 then
226
            raise Program_Error with
227
              "attempt to tamper with elements (container is locked)";
228
         end if;
229
 
230
         --  The new Key value is mapped to this same Node, so Node
231
         --  stays in the same bucket.
232
 
233
         Assign (NN (Node), Key);
234
         pragma Assert (Hash (NN (Node)) = New_Hash);
235
         pragma Assert (Equivalent_Keys (Key, NN (Node)));
236
         return;
237
      end if;
238
 
239
      --  Key is not equivalent to Node, so we now have to determine if it's
240
      --  equivalent to some other node in the hash table. This is the case
241
      --  irrespective of whether Key is in the same or a different bucket from
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      --  Node.
243
 
244
      N := New_Bucket;
245
      while N /= 0 loop
246
         if Equivalent_Keys (Key, NN (N)) then
247
            pragma Assert (N /= Node);
248
            raise Program_Error with
249
              "attempt to replace existing element";
250
         end if;
251
 
252
         N := Next (NN (N));
253
      end loop;
254
 
255
      --  We have determined that Key is not already in the hash table, so
256
      --  the change is tentatively allowed. We now perform the standard
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      --  checks to determine whether the hash table is locked (because you
258
      --  cannot change an element while it's in use by Query_Element or
259
      --  Update_Element), or if the container is busy (because moving a
260
      --  node to a different bucket would interfere with iteration).
261
 
262
      if Old_Indx = New_Indx then
263
         --  The node is already in the bucket implied by Key. In this case
264
         --  we merely change its value without moving it.
265
 
266
         if HT.Lock > 0 then
267
            raise Program_Error with
268
              "attempt to tamper with elements (container is locked)";
269
         end if;
270
 
271
         Assign (NN (Node), Key);
272
         pragma Assert (Hash (NN (Node)) = New_Hash);
273
         pragma Assert (Equivalent_Keys (Key, NN (Node)));
274
         return;
275
      end if;
276
 
277
      --  The node is a bucket different from the bucket implied by Key
278
 
279
      if HT.Busy > 0 then
280
         raise Program_Error with
281
           "attempt to tamper with cursors (container is busy)";
282
      end if;
283
 
284
      --  Do the assignment first, before moving the node, so that if Assign
285
      --  propagates an exception, then the hash table will not have been
286
      --  modified (except for any possible side-effect Assign had on Node).
287
 
288
      Assign (NN (Node), Key);
289
      pragma Assert (Hash (NN (Node)) = New_Hash);
290
      pragma Assert (Equivalent_Keys (Key, NN (Node)));
291
 
292
      --  Now we can safely remove the node from its current bucket
293
 
294
      N := BB (Old_Indx);  -- get value of first node in old bucket
295
      pragma Assert (N /= 0);
296
 
297
      if N = Node then  -- node is first node in its bucket
298
         BB (Old_Indx) := Next (NN (Node));
299
 
300
      else
301
         pragma Assert (HT.Length > 1);
302
 
303
         loop
304
            M := Next (NN (N));
305
            pragma Assert (M /= 0);
306
 
307
            if M = Node then
308
               Set_Next (NN (N), Next => Next (NN (Node)));
309
               exit;
310
            end if;
311
 
312
            N := M;
313
         end loop;
314
      end if;
315
 
316
      --  Now we link the node into its new bucket (corresponding to Key)
317
 
318
      Set_Next (NN (Node), Next => New_Bucket);
319
      New_Bucket := Node;
320
   end Generic_Replace_Element;
321
 
322
end Ada.Containers.Hash_Tables.Generic_Bounded_Keys;

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