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1 294 jeremybenn
-- CXG2002.A
2
--
3
--                             Grant of Unlimited Rights
4
--
5
--     Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
6
--     F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
7
--     unlimited rights in the software and documentation contained herein.
8
--     Unlimited rights are defined in DFAR 252.227-7013(a)(19).  By making
9
--     this public release, the Government intends to confer upon all
10
--     recipients unlimited rights  equal to those held by the Government.
11
--     These rights include rights to use, duplicate, release or disclose the
12
--     released technical data and computer software in whole or in part, in
13
--     any manner and for any purpose whatsoever, and to have or permit others
14
--     to do so.
15
--
16
--                                    DISCLAIMER
17
--
18
--     ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
19
--     DISCLOSED ARE AS IS.  THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
20
--     WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
21
--     SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
22
--     OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
23
--     PARTICULAR PURPOSE OF SAID MATERIAL.
24
--*
25
--
26
-- OBJECTIVE:
27
--      Check that the complex "abs" or modulus function returns
28
--      results that are within the error bound allowed.
29
--
30
-- TEST DESCRIPTION:
31
--      This test uses a generic package to compute and check the
32
--      values of the modulus function.  In addition, a non-generic
33
--      copy of this package is used to check the non-generic package
34
--      Ada.Numerics.Complex_Types.
35
--      Of special interest is the case where either the real or
36
--      the imaginary part of the argument is very large while the
37
--      other part is very small or 0.
38
--      We want to check that the value is computed such that
39
--      an overflow does not occur.  If computed directly from the
40
--      definition
41
--        abs (x+yi) = sqrt(x**2 + y**2)
42
--      then overflow or underflow is much more likely than if the
43
--      argument is normalized first.
44
--
45
-- SPECIAL REQUIREMENTS
46
--      The Strict Mode for the numerical accuracy must be
47
--      selected.  The method by which this mode is selected
48
--      is implementation dependent.
49
--
50
-- APPLICABILITY CRITERIA:
51
--      This test applies only to implementations supporting the
52
--      Numerics Annex.
53
--      This test only applies to the Strict Mode for numerical
54
--      accuracy.
55
--
56
--
57
-- CHANGE HISTORY:
58
--      31 JAN 96   SAIC    Initial release for 2.1
59
--      02 JUN 98   EDS     Add parens to intermediate calculations.
60
--!
61
 
62
--
63
-- Reference:
64
-- Problems and Methodologies in Mathematical Software Production;
65
-- editors: P. C. Messina and A Murli;
66
-- Lecture Notes in Computer Science
67
-- Volume 142
68
-- Springer Verlag 1982
69
--
70
 
71
with System;
72
with Report;
73
with Ada.Numerics.Generic_Complex_Types;
74
with Ada.Numerics.Complex_Types;
75
procedure CXG2002 is
76
   Verbose : constant Boolean := False;
77
   Maximum_Relative_Error : constant := 3.0;
78
 
79
   generic
80
      type Real is digits <>;
81
   package Generic_Check is
82
      procedure Do_Test;
83
   end Generic_Check;
84
 
85
   package body Generic_Check is
86
      package Complex_Types is new
87
           Ada.Numerics.Generic_Complex_Types (Real);
88
      use Complex_Types;
89
 
90
      procedure Check (Actual, Expected : Real;
91
                       Test_Name : String;
92
                       MRE : Real := Maximum_Relative_Error) is
93
         Rel_Error,
94
         Abs_Error,
95
         Max_Error : Real;
96
      begin
97
         -- In the case where the expected result is very small or 0
98
         -- we compute the maximum error as a multiple of Model_Epsilon instead
99
         -- of Model_Epsilon and Expected.
100
         Rel_Error := MRE * (abs Expected * Real'Model_Epsilon);
101
         Abs_Error := MRE * Real'Model_Epsilon;
102
         if Rel_Error > Abs_Error then
103
            Max_Error := Rel_Error;
104
         else
105
            Max_Error := Abs_Error;
106
         end if;
107
 
108
         if abs (Actual - Expected) > Max_Error then
109
            Report.Failed (Test_Name &
110
                           " actual: " & Real'Image (Actual) &
111
                           " expected: " & Real'Image (Expected) &
112
                           " difference: " &
113
                           Real'Image (Expected - Actual) &
114
                           " max_err:" & Real'Image (Max_Error) );
115
         elsif Verbose then
116
            if Actual = Expected then
117
               Report.Comment (Test_Name & "  exact result");
118
            else
119
               Report.Comment (Test_Name & "  passed");
120
            end if;
121
         end if;
122
      end Check;
123
 
124
 
125
      procedure Do_Test is
126
         Z : Complex;
127
         X : Real;
128
         T : Real;
129
      begin
130
 
131
         --- test 1 ---
132
         begin
133
            T := Real'Safe_Last;
134
            Z := T + 0.0*i;
135
            X := abs Z;
136
            Check (X, T, "test 1 -- abs(bigreal + 0i)");
137
         exception
138
            when Constraint_Error =>
139
               Report.Failed ("Constraint_Error raised in test 1");
140
            when others =>
141
               Report.Failed ("exception in test 1");
142
         end;
143
 
144
         --- test 2 ---
145
         begin
146
            T := Real'Safe_Last;
147
            Z := 0.0 + T*i;
148
            X := Modulus (Z);
149
            Check (X, T, "test 2 -- abs(0 + bigreal*i)");
150
         exception
151
            when Constraint_Error =>
152
               Report.Failed ("Constraint_Error raised in test 2");
153
            when others =>
154
               Report.Failed ("exception in test 2");
155
         end;
156
 
157
         --- test 3 ---
158
         begin
159
            Z := 3.0 + 4.0*i;
160
            X := abs Z;
161
            Check (X, 5.0 , "test 3 -- abs(3 + 4*i)");
162
         exception
163
            when Constraint_Error =>
164
               Report.Failed ("Constraint_Error raised in test 3");
165
            when others =>
166
               Report.Failed ("exception in test 3");
167
         end;
168
 
169
         --- test 4 ---
170
         declare
171
            S : Real;
172
         begin
173
            S := Real(Real'Machine_Radix) ** (Real'Machine_EMax - 3);
174
            Z := 3.0 * S + 4.0*S*i;
175
            X := abs Z;
176
            Check (X, 5.0*S, "test 4 -- abs(3S + 4S*i) for large S",
177
                   5.0*Real'Model_Epsilon);
178
         exception
179
            when Constraint_Error =>
180
               Report.Failed ("Constraint_Error raised in test 4");
181
            when others =>
182
               Report.Failed ("exception in test 4");
183
         end;
184
 
185
         --- test 5 ---
186
         begin
187
            T := Real'Model_Small;
188
            Z := T + 0.0*i;
189
            X := abs Z;
190
            Check (X, T , "test 5 -- abs(small + 0*i)");
191
         exception
192
            when Constraint_Error =>
193
               Report.Failed ("Constraint_Error raised in test 5");
194
            when others =>
195
               Report.Failed ("exception in test 5");
196
         end;
197
 
198
         --- test 6 ---
199
         begin
200
            T := Real'Model_Small;
201
            Z := 0.0 + T*i;
202
            X := abs Z;
203
            Check (X, T , "test 6 -- abs(0 + small*i)");
204
         exception
205
            when Constraint_Error =>
206
               Report.Failed ("Constraint_Error raised in test 6");
207
            when others =>
208
               Report.Failed ("exception in test 6");
209
         end;
210
 
211
         --- test 7 ---
212
         declare
213
            S : Real;
214
         begin
215
            S := Real(Real'Machine_Radix) ** (Real'Model_EMin + 3);
216
            Z := 3.0 * S + 4.0*S*i;
217
            X := abs Z;
218
            Check (X, 5.0*S, "test 7 -- abs(3S + 4S*i) for small S",
219
                   5.0*Real'Model_Epsilon);
220
         exception
221
            when Constraint_Error =>
222
               Report.Failed ("Constraint_Error raised in test 7");
223
            when others =>
224
               Report.Failed ("exception in test 7");
225
         end;
226
 
227
         --- test 8 ---
228
         declare
229
            -- CRC Standard Mathematical Tables;  23rd Edition; pg 738
230
            Sqrt2 : constant :=
231
              1.41421_35623_73095_04880_16887_24209_69807_85696_71875_37695;
232
         begin
233
            Z := 1.0 + 1.0*i;
234
            X := abs Z;
235
            Check (X, Sqrt2 , "test 8 -- abs(1 + 1*i)");
236
         exception
237
            when Constraint_Error =>
238
               Report.Failed ("Constraint_Error raised in test 8");
239
            when others =>
240
               Report.Failed ("exception in test 8");
241
         end;
242
 
243
         --- test 9 ---
244
         begin
245
            T := 0.0;
246
            Z := T + 0.0*i;
247
            X := abs Z;
248
            Check (X, T , "test 5 -- abs(0 + 0*i)");
249
         exception
250
            when Constraint_Error =>
251
               Report.Failed ("Constraint_Error raised in test 9");
252
            when others =>
253
               Report.Failed ("exception in test 9");
254
         end;
255
      end Do_Test;
256
   end Generic_Check;
257
 
258
   -----------------------------------------------------------------------
259
   --- non generic copy of the above generic package
260
   -----------------------------------------------------------------------
261
 
262
   package Non_Generic_Check is
263
      subtype Real is Float;
264
      procedure Do_Test;
265
   end Non_Generic_Check;
266
 
267
   package body Non_Generic_Check is
268
      use Ada.Numerics.Complex_Types;
269
 
270
      procedure Check (Actual, Expected : Real;
271
                       Test_Name : String;
272
                       MRE : Real := Maximum_Relative_Error) is
273
         Rel_Error,
274
         Abs_Error,
275
         Max_Error : Real;
276
      begin
277
         -- In the case where the expected result is very small or 0
278
         -- we compute the maximum error as a multiple of Model_Epsilon instead
279
         -- of Model_Epsilon and Expected.
280
         Rel_Error := MRE * (abs Expected * Real'Model_Epsilon);
281
         Abs_Error := MRE * Real'Model_Epsilon;
282
         if Rel_Error > Abs_Error then
283
            Max_Error := Rel_Error;
284
         else
285
            Max_Error := Abs_Error;
286
         end if;
287
 
288
         if abs (Actual - Expected) > Max_Error then
289
            Report.Failed (Test_Name &
290
                           " actual: " & Real'Image (Actual) &
291
                           " expected: " & Real'Image (Expected) &
292
                           " difference: " &
293
                           Real'Image (Expected - Actual) &
294
                           " max_err:" & Real'Image (Max_Error) );
295
         elsif Verbose then
296
            if Actual = Expected then
297
               Report.Comment (Test_Name & "  exact result");
298
            else
299
               Report.Comment (Test_Name & "  passed");
300
            end if;
301
         end if;
302
      end Check;
303
 
304
 
305
      procedure Do_Test is
306
         Z : Complex;
307
         X : Real;
308
         T : Real;
309
      begin
310
 
311
         --- test 1 ---
312
         begin
313
            T := Real'Safe_Last;
314
            Z := T + 0.0*i;
315
            X := abs Z;
316
            Check (X, T, "test 1 -- abs(bigreal + 0i)");
317
         exception
318
            when Constraint_Error =>
319
               Report.Failed ("Constraint_Error raised in test 1");
320
            when others =>
321
               Report.Failed ("exception in test 1");
322
         end;
323
 
324
         --- test 2 ---
325
         begin
326
            T := Real'Safe_Last;
327
            Z := 0.0 + T*i;
328
            X := Modulus (Z);
329
            Check (X, T, "test 2 -- abs(0 + bigreal*i)");
330
         exception
331
            when Constraint_Error =>
332
               Report.Failed ("Constraint_Error raised in test 2");
333
            when others =>
334
               Report.Failed ("exception in test 2");
335
         end;
336
 
337
         --- test 3 ---
338
         begin
339
            Z := 3.0 + 4.0*i;
340
            X := abs Z;
341
            Check (X, 5.0 , "test 3 -- abs(3 + 4*i)");
342
         exception
343
            when Constraint_Error =>
344
               Report.Failed ("Constraint_Error raised in test 3");
345
            when others =>
346
               Report.Failed ("exception in test 3");
347
         end;
348
 
349
         --- test 4 ---
350
         declare
351
            S : Real;
352
         begin
353
            S := Real(Real'Machine_Radix) ** (Real'Machine_EMax - 3);
354
            Z := 3.0 * S + 4.0*S*i;
355
            X := abs Z;
356
            Check (X, 5.0*S, "test 4 -- abs(3S + 4S*i) for large S",
357
                   5.0*Real'Model_Epsilon);
358
         exception
359
            when Constraint_Error =>
360
               Report.Failed ("Constraint_Error raised in test 4");
361
            when others =>
362
               Report.Failed ("exception in test 4");
363
         end;
364
 
365
         --- test 5 ---
366
         begin
367
            T := Real'Model_Small;
368
            Z := T + 0.0*i;
369
            X := abs Z;
370
            Check (X, T , "test 5 -- abs(small + 0*i)");
371
         exception
372
            when Constraint_Error =>
373
               Report.Failed ("Constraint_Error raised in test 5");
374
            when others =>
375
               Report.Failed ("exception in test 5");
376
         end;
377
 
378
         --- test 6 ---
379
         begin
380
            T := Real'Model_Small;
381
            Z := 0.0 + T*i;
382
            X := abs Z;
383
            Check (X, T , "test 6 -- abs(0 + small*i)");
384
         exception
385
            when Constraint_Error =>
386
               Report.Failed ("Constraint_Error raised in test 6");
387
            when others =>
388
               Report.Failed ("exception in test 6");
389
         end;
390
 
391
         --- test 7 ---
392
         declare
393
            S : Real;
394
         begin
395
            S := Real(Real'Machine_Radix) ** (Real'Model_EMin + 3);
396
            Z := 3.0 * S + 4.0*S*i;
397
            X := abs Z;
398
            Check (X, 5.0*S, "test 7 -- abs(3S + 4S*i) for small S",
399
                   5.0*Real'Model_Epsilon);
400
         exception
401
            when Constraint_Error =>
402
               Report.Failed ("Constraint_Error raised in test 7");
403
            when others =>
404
               Report.Failed ("exception in test 7");
405
         end;
406
 
407
         --- test 8 ---
408
         declare
409
            -- CRC Standard Mathematical Tables;  23rd Edition; pg 738
410
            Sqrt2 : constant :=
411
              1.41421_35623_73095_04880_16887_24209_69807_85696_71875_37695;
412
         begin
413
            Z := 1.0 + 1.0*i;
414
            X := abs Z;
415
            Check (X, Sqrt2 , "test 8 -- abs(1 + 1*i)");
416
         exception
417
            when Constraint_Error =>
418
               Report.Failed ("Constraint_Error raised in test 8");
419
            when others =>
420
               Report.Failed ("exception in test 8");
421
         end;
422
 
423
         --- test 9 ---
424
         begin
425
            T := 0.0;
426
            Z := T + 0.0*i;
427
            X := abs Z;
428
            Check (X, T , "test 5 -- abs(0 + 0*i)");
429
         exception
430
            when Constraint_Error =>
431
               Report.Failed ("Constraint_Error raised in test 9");
432
            when others =>
433
               Report.Failed ("exception in test 9");
434
         end;
435
      end Do_Test;
436
   end Non_Generic_Check;
437
 
438
   -----------------------------------------------------------------------
439
   --- end of "manual instantiation"
440
   -----------------------------------------------------------------------
441
   package Chk_Float is new Generic_Check (Float);
442
 
443
   -- check the floating point type with the most digits
444
   type A_Long_Float is digits System.Max_Digits;
445
   package Chk_A_Long_Float is new Generic_Check (A_Long_Float);
446
begin
447
   Report.Test ("CXG2002",
448
                "Check the accuracy of the complex modulus" &
449
                " function");
450
 
451
   if Verbose then
452
      Report.Comment ("checking Standard.Float");
453
   end if;
454
   Chk_Float.Do_Test;
455
 
456
   if Verbose then
457
      Report.Comment ("checking a digits" &
458
                      Integer'Image (System.Max_Digits) &
459
                      " floating point type");
460
   end if;
461
   Chk_A_Long_Float.Do_Test;
462
 
463
   if Verbose then
464
      Report.Comment ("checking non-generic package");
465
   end if;
466
   Non_Generic_Check.Do_Test;
467
   Report.Result;
468
end CXG2002;

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