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1 149 jeremybenn
-- WIDECHR.A
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--
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--                             Grant of Unlimited Rights
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--
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--     Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
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--     F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
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--     unlimited rights in the software and documentation contained herein.
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--     Unlimited rights are defined in DFAR 252.227-7013(a)(19).  By making
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--     this public release, the Government intends to confer upon all
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--     recipients unlimited rights  equal to those held by the Government.
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--     These rights include rights to use, duplicate, release or disclose the
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--     released technical data and computer software in whole or in part, in
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--     any manner and for any purpose whatsoever, and to have or permit others
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--     to do so.
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--
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--                                    DISCLAIMER
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--
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--     ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
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--     DISCLOSED ARE AS IS.  THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
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--     WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
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--     SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
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--     OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
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--     PARTICULAR PURPOSE OF SAID MATERIAL.
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--*
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--
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-- DESCRIPTION:
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--
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--      This program reads C250001.AW and C250002.AW; translates a special
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--      character sequence into characters and wide characters with positions
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--      above ASCII.DEL.  The resulting tests are written as C250001.A and
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--      C250002.A respectively.   This program may need to
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--      be modified if the Wide_Character representation recognized by
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--      your compiler differs from the Wide_Character
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--      representation generated by the package Ada.Wide_Text_IO.
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--      Modify this program as needed to translate that file.
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--
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--      A wide character is represented by an 8 character sequence:
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--
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--          ["abcd"]
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--
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--      where the character code represented is specified by four hexadecimal
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--      digits, abcd, with letters in upper case. For example the wide
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--      character with the code 16#AB13# is represented by the eight
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--      character sequence:
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--
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--          ["AB13"]
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--
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-- ASSUMPTIONS:
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--
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--      The path for these files is specified in ImpDef.
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--
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-- SPECIAL REQUIREMENTS:
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--
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--     Compile, bind and execute this program.  It will process the ".AW"
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--     tests, "translating" them to ".A" tests.
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--
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-- CHANGE HISTORY:
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--      11 DEC 96   SAIC   ACVC 2.1 Release
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--
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--      11 DEC 96   Keith  Constructed initial release version
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--!
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63
with Ada.Text_IO;
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with Ada.Wide_Text_IO;
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with Ada.Strings.Fixed;
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with Impdef;
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68
procedure WideChr is
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70
  -- Debug
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  --
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  -- To have the program generate trace/debugging information, de-comment
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  -- the call to Put_Line
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75
  procedure Debug( S: String ) is
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  begin
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    null; -- Ada.Text_IO.Put_Line(S);
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  end Debug;
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80
  package TIO renames Ada.Text_IO;
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  package WIO renames Ada.Wide_Text_IO;
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  package SF renames Ada.Strings.Fixed;
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84
  In_File : TIO.File_Type;
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86
  -- This program is actually dual-purpose.  It translates the ["xxxx"]
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  -- notation to Wide_Character, as well as a similar notation ["xx"] into
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  -- Character.  The intent of the latter being the ability to represent
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  -- literals in the Latin-1 character set that have position numbers
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  -- greater than ASCII.DEL.  The variable Output_Mode drives the algorithms
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  -- to generate Wide_Character output (Wide) or Character output (Narrow).
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93
  type Output_Modes is ( Wide, Narrow );
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  Output_Mode : Output_Modes := Wide;
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96
  Wide_Out   : WIO.File_Type;
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  Narrow_Out : TIO.File_Type;
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99
  In_Line   : String(1..132); -- SB: $MAX_LINE_LENGTH
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101
  -- Index variables
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  --
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  -- the following index variables: In_Length, Front, Open_Bracket and
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  -- Close_Bracket are used by the scanning software to keep track of
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  -- what's where.
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  --
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  -- In_Length stores the value returned by Ada.Text_IO.Get_Line indicating
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  -- the position of the last "useful" character in the string In_Line.
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  --
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  -- Front retains the index of the first non-translating character in
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  -- In_Line, it is used to indicate the starting index of the portion of
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  -- the string to save without special interpretation.  In the example
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  -- below, where there are two consecutive characters to translate, we see
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  -- that Front will assume three different values processing the string,
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  -- these are indicated by the digits '1', '2' & '3' in the comment
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  -- attached to the declaration.  The processing software will dump
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  -- In_Line(Front..Open_Bracket-1) to the output stream.  Note that in
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  -- the second case, this results in a null string, and in the third case,
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  -- where Open_Bracket does not obtain a third value, the slice
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  -- In_Line(Front..In_Length) is used instead.
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  --
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  -- Open_Bracket and Close_Bracket are used to retain the starting index
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  -- of the character pairs [" and "] respectively.  For the purposes of
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  -- this software the character pairs are what are considered to be the
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  -- "brackets" enclosing the hexadecimal values to be translated.
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  --  Looking at the example below you will see where these index variables
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  -- will "point" in the first and second case.
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129
  In_Length     : Natural := 0;  --->  Some_["0A12"]["0B13"]_Thing
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  Front         : Natural := 0;  --  1              2       3
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  Open_Bracket  : Natural := 0;  --         1       2
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  Close_Bracket : Natural := 0;  --               1       2
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134
  -- Xlation
135
  --
136
  -- This translation table gives an easy way to translate the "decimal"
137
  -- value of a hex digit (as represented by a Latin-1 character)
138
 
139
  type Xlate is array(Character range '0'..'F') of Natural;
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  Xlation : constant Xlate :=
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            ('0' =>  0, '1' =>  1, '2' =>  2, '3' =>  3, '4' =>  4,
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             '5' =>  5, '6' =>  6, '7' =>  7, '8' =>  8, '9' =>  9,
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             'A' => 10, 'B' => 11, 'C' => 12, 'D' => 13, 'E' => 14,
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             'F' => 15,
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             others => 0);
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147
  -- To_Ch
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  --
149
  -- This function takes a string which is assumed to be trimmed to just a
150
  -- hexadecimal representation of a Latin-1 character.  The result of the
151
  -- function is the Latin-1 character at the position designated by the
152
  -- incoming hexadecimal value.  (hexadecimal in human readable form)
153
 
154
  function To_Ch( S:String ) return Character is
155
    Numerical : Natural := 0;
156
  begin
157
    Debug("To Wide: " & S);
158
    for I in S'Range loop
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      Numerical := Numerical * 16 + Xlation(S(I));
160
    end loop;
161
    return Character'Val(Numerical);
162
  exception
163
    when Constraint_Error => return '_';
164
  end To_Ch;
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166
  -- To_Wide
167
  --
168
  -- This function takes a string which is assumed to be trimmed to just a
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  -- hexadecimal representation of a Wide_character.  The result of the
170
  -- function is the Wide_character at the position designated by the
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  -- incoming hexadecimal value.  (hexadecimal in human readable form)
172
 
173
  function To_Wide( S:String ) return Wide_character is
174
    Numerical : Natural := 0;
175
  begin
176
    Debug("To Wide: " & S);
177
    for I in S'Range loop
178
      Numerical := Numerical * 16 + Xlation(S(I));
179
    end loop;
180
    return Wide_Character'Val(Numerical);
181
  exception
182
    when Constraint_Error => return '_';
183
  end To_Wide;
184
 
185
  -- Make_Wide
186
  --
187
  -- this function converts a String to a Wide_String
188
 
189
  function Make_Wide( S: String ) return Wide_String is
190
    W: Wide_String(S'Range);
191
  begin
192
    for I in S'Range loop
193
      W(I) := Wide_Character'Val( Character'Pos(S(I)) );
194
    end loop;
195
    return W;
196
  end Make_Wide;
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198
  -- Close_Files
199
  --
200
  -- Depending on which input we've processed, close the output file
201
 
202
  procedure Close_Files is
203
  begin
204
    TIO.Close(In_File);
205
    if Output_Mode = Wide then
206
      WIO.Close(Wide_Out);
207
    else
208
      TIO.Close(Narrow_Out);
209
    end if;
210
  end Close_Files;
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212
  -- Process
213
  --
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  -- for all lines in the input file
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  --   scan the file for occurrences of [" and "]
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  --     for found occurrence, attempt translation of the characters found
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  --     between the brackets.  As a safeguard, unrecognizable character
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  --     sequences will be replaced with the underscore character.  This
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  --     handles the cases in the tests where the test documentation includes
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  --     examples that are non-conformant: i.e. ["abcd"] or ["XXXX"]
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222
  procedure Process( Input_File_Name: String ) is
223
  begin
224
    TIO.Open(In_File,TIO.In_File,Input_File_Name & ".aw" );
225
 
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    if Output_Mode = Wide then
227
      WIO.Create(Wide_Out,WIO.Out_File, Input_File_Name & ".a" );
228
    else
229
      TIO.Create(Narrow_Out,TIO.Out_File, Input_File_Name & ".a" );
230
    end if;
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232
    File: while not TIO.End_Of_File( In_File ) loop
233
      In_Line := (others => ' ');
234
      TIO.Get_Line(In_File,In_Line,In_Length);
235
      Debug(In_Line(1..In_Length));
236
 
237
      Front := 1;
238
 
239
      Line: loop
240
             -- scan for next occurrence of ["abcd"]
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             Open_Bracket := SF.Index( In_Line(Front..In_Length), "[""" );
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             Close_Bracket := SF.Index( In_Line(Front..In_Length), """]" );
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             Debug( "[=" & Natural'Image(Open_Bracket) );
244
             Debug( "]=" & Natural'Image(Close_Bracket) );
245
 
246
             if Open_Bracket = 0 or Close_Bracket = 0 then
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        -- done with the line, output remaining characters and exit
248
               Debug("Done with line");
249
               if Output_Mode = Wide then
250
                 WIO.Put_Line(Wide_Out, Make_Wide(In_Line(Front..In_Length)) );
251
               else
252
                 TIO.Put_Line(Narrow_Out, In_Line(Front..In_Length) );
253
               end if;
254
               exit Line;
255
             else
256
               -- output the "normal" stuff up to the bracket
257
               if Output_Mode = Wide then
258
                 WIO.Put(Wide_Out, Make_Wide(In_Line(Front..Open_Bracket-1)) );
259
               else
260
                 TIO.Put(Narrow_Out, In_Line(Front..Open_Bracket-1) );
261
               end if;
262
 
263
               -- point beyond the closing bracket
264
               Front := Close_Bracket +2;
265
 
266
               -- output the translated hexadecimal character
267
               if Output_Mode = Wide then
268
                 WIO.Put(Wide_Out,
269
                            To_Wide( In_Line(Open_Bracket+2..Close_Bracket-1) ));
270
               else
271
                 TIO.Put(Narrow_Out,
272
                                    To_Ch( In_Line(Open_Bracket+2..Close_Bracket-1)) );
273
               end if;
274
        end if;
275
      end loop Line;
276
 
277
    end loop File;
278
 
279
    Close_Files;
280
  exception
281
    when others =>
282
      Ada.Text_IO.Put_Line("Error in processing " & Input_File_Name);
283
      raise;
284
  end Process;
285
 
286
begin
287
 
288
  Output_Mode := Wide;
289
  Process( Impdef.Wide_Character_Test );
290
 
291
  Output_Mode := Narrow;
292
  Process( Impdef.Upper_Latin_Test );
293
 
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end WideChr;

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