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-- CXA5A10.A
--
--                             Grant of Unlimited Rights
--
--     Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
--     F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
--     unlimited rights in the software and documentation contained herein.
--     Unlimited rights are defined in DFAR 252.227-7013(a)(19).  By making
--     this public release, the Government intends to confer upon all
--     recipients unlimited rights  equal to those held by the Government.
--     These rights include rights to use, duplicate, release or disclose the
--     released technical data and computer software in whole or in part, in
--     any manner and for any purpose whatsoever, and to have or permit others
--     to do so.
--
--                                    DISCLAIMER
--
--     ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
--     DISCLOSED ARE AS IS.  THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
--     WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
--     SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
--     OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
--     PARTICULAR PURPOSE OF SAID MATERIAL.
--*
--
-- OBJECTIVE:
--      Check that the functions Exp and Sqrt, and the exponentiation
--      operator "**" provide correct results.
--
-- TEST DESCRIPTION:
--      This test examines both the versions of Exp, Sqrt, and "**"
--      resulting from the instantiation of the
--      Ada.Numerics.Generic_Elementary_Functions with a type derived from
--      type Float, as well as the preinstantiated version of this package
--      for type Float.
--      Prescribed results (stated as such in the reference manual),
--      including instances prescribed to raise exceptions, are examined
--      in the test cases.  In addition, certain evaluations are performed
--      for the preinstantiated package where the actual function result is
--      compared with the expected result (within an epsilon range of
--      accuracy).
--
-- TEST FILES:
--      The following files comprise this test:
--
--         FXA5A00.A   (foundation code)
--         CXA5A10.A
--
--
-- CHANGE HISTORY:
--      17 Apr 95   SAIC    Initial prerelease version.
--      13 Jun 95   SAIC    Incorporated use of Dont_Optimize procedure, and
--                          use of Result_Within_Range function overloaded for
--                          FXA5A00.New_Float_Type.
--      18 Apr 96   SAIC    Incorporated reviewer comments for ACVC 2.1.
--      01 Oct 01   RLB     Protected Constraint_Error exception tests by
--                          first testing for 'Machine_Overflows.
--
--!
 
with Ada.Exceptions;
with Ada.Numerics.Elementary_Functions;
with Ada.Numerics.Generic_Elementary_Functions;
with FXA5A00;
with Report;
 
procedure CXA5A10 is
begin
 
   Report.Test ("CXA5A10", "Check that Exp, Sqrt, and the ""**"" operator " &
                           "provide correct results");
 
   Test_Block:
   declare
 
      use FXA5A00, Ada.Numerics;
      use Ada.Exceptions;
 
      package GEF is new Ada.Numerics.Generic_Elementary_Functions(New_Float);
      package  EF renames Ada.Numerics.Elementary_Functions;
 
      use GEF, EF;
 
      Arg,
      Float_Result     : Float;
      New_Float_Result : New_Float;
 
      Flag_1, Flag_2, Flag_3, Flag_4,
      Incorrect_Inverse_Base_e,
      Incorrect_Inverse_Base_2,
      Incorrect_Inverse_Base_8,
      Incorrect_Inverse_Base_10,
      Incorrect_Inverse_Base_16        : Boolean := False;
 
      procedure Dont_Optimize_Float     is new Dont_Optimize(Float);
      procedure Dont_Optimize_New_Float is new Dont_Optimize(New_Float);
 
   begin
 
      -- Testing of the "**" operator, both instantiated and pre-instantiated
      -- version.
 
      -- Check that Argument_Error is raised by the exponentiation operator
      -- when the value of the Left parameter (operand) is negative.
 
      begin
         New_Float_Result := GEF."**"(Left  => -10.0,
                                      Right =>   2.0);
         Report.Failed("Argument_Error not raised by the instantiated "   &
                       "version of the exponentiation operator when the " &
                       "value of the Left parameter is negative");
         Dont_Optimize_New_Float(New_Float_Result, 1);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by the "            &
                          "instantiated version of the exponentiation "    &
                          "operator when the value of the Left parameter " &
                          "is negative");
      end;
 
      begin
         Float_Result := (-FXA5A00.Small) ** 4.0;
         Report.Failed("Argument_Error not raised by the preinstantiated " &
                       "version of the exponentiation operator when the "  &
                       "value of the Left parameter is negative");
         Dont_Optimize_Float(Float_Result, 2);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by the "            &
                          "preinstantiated version of the exponentiation " &
                          "operator when the value of the Left parameter " &
                          "is negative");
      end;
 
 
      -- Check that Argument_Error is raised by the exponentiation operator
      -- when both parameters (operands) have the value 0.0.
 
      begin
         New_Float_Result := GEF."**"(0.0, Right => 0.0);
         Report.Failed("Argument_Error not raised by the instantiated " &
                       "version of the exponentiation operator when "   &
                       "both operands are zero");
         Dont_Optimize_New_Float(New_Float_Result, 3);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by the "         &
                          "instantiated version of the exponentiation " &
                          "operator when both operands are zero");
      end;
 
      begin
         Float_Result := 0.0**0.0;
         Report.Failed("Argument_Error not raised by the preinstantiated " &
                       "version of the exponentiation operator when both " &
                       "operands are zero");
         Dont_Optimize_Float(Float_Result, 4);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by the "            &
                          "preinstantiated version of the exponentiation " &
                          "operator when both operands are zero");
      end;
 
 
      -- Check that Constraint_Error is raised by the exponentiation
      -- operator when the value of the left parameter (operand) is zero,
      -- and the value of the right parameter (exponent) is negative.
      -- This check applies only if Machine_Overflows is true [A.5.1(28, 30)].
 
      if New_Float'Machine_Overflows = True then
         begin
            New_Float_Result := GEF."**"(0.0, Right => -2.0);
            Report.Failed("Constraint_Error not raised by the instantiated " &
                          "version of the exponentiation operator when "     &
                          "the left parameter is 0.0, and the right "        &
                          "parameter is negative");
            Dont_Optimize_New_Float(New_Float_Result, 5);
         exception
            when Constraint_Error => null;  -- OK, expected exception.
            when others           =>
               Report.Failed("Unexpected exception raised by the "         &
                             "instantiated version of the exponentiation " &
                             "operator when the left parameter is 0.0, "   &
                             "and the right parameter is negative");
         end;
      end if;
 
      if Float'Machine_Overflows = True then
         begin
            Float_Result := 0.0 ** (-FXA5A00.Small);
            Report.Failed("Constraint_Error not raised by the " &
                          "preinstantiated version of the exponentiation " &
                          "operator when the left parameter is 0.0, and the " &
                          "right parameter is negative");
            Dont_Optimize_Float(Float_Result, 6);
         exception
            when Constraint_Error => null;  -- OK, expected exception.
            when others           =>
               Report.Failed("Unexpected exception raised by the "            &
                             "preinstantiated version of the exponentiation " &
                             "operator when the left parameter is 0.0, and "  &
                             "the right parameter is negative");
         end;
      end if;
 
      -- Prescribed results.
      -- Check that exponentiation by a 0.0 exponent yields the value one.
 
      if GEF."**"(Left => 10.0,  Right => 0.0) /= 1.0 or
          EF."**"(FXA5A00.Large, Right => 0.0) /= 1.0 or
         GEF."**"(3.0, 0.0)                    /= 1.0 or
          FXA5A00.Small ** 0.0                 /= 1.0
      then
         Report.Failed("Incorrect results returned from the ""**"" " &
                       "operator when the value of the exponent is 0.0");
      end if;
 
 
      -- Check that exponentiation by a unit exponent yields the value
      -- of the left operand.
 
      if GEF."**"(Left => 50.0,  Right => 1.0) /= 50.0          or
          EF."**"(FXA5A00.Large, Right => 1.0) /= FXA5A00.Large or
         GEF."**"(6.0, 1.0)                    /= 6.0           or
          FXA5A00.Small ** 1.0                 /= FXA5A00.Small
      then
         Report.Failed("Incorrect results returned from the ""**"" " &
                       "operator when the value of the exponent is 1.0");
      end if;
 
 
      -- Check that exponentiation of the value 1.0 yields the value 1.0.
 
      if GEF."**"(Left => 1.0, Right => 16.0)   /=  1.0 or
          EF."**"(1.0, Right => FXA5A00.Large)  /=  1.0 or
         GEF."**"(1.0, 3.0)                     /=  1.0 or
          1.0 ** FXA5A00.Small                  /=  1.0
      then
         Report.Failed("Incorrect results returned from the ""**"" " &
                       "operator when the value of the operand is 1.0");
      end if;
 
 
      -- Check that exponentiation of the value 0.0 yields the value 0.0.
 
      if GEF."**"(Left => 0.0, Right => 10.0)   /=  0.0 or
          EF."**"(0.0, Right => FXA5A00.Large)  /=  0.0 or
         GEF."**"(0.0, 4.0)                     /=  0.0 or
          0.0 ** FXA5A00.Small                  /=  0.0
      then
         Report.Failed("Incorrect results returned from the ""**"" " &
                       "operator when the value of the operand is 0.0");
      end if;
 
 
      -- Check that exponentiation of various operands with a variety of
      -- of exponent values yield correct results.
 
      if not Result_Within_Range(GEF."**"(5.0,   2.0),  25.0,   0.01)  or
         not Result_Within_Range(GEF."**"(1.225, 1.5),   1.36,  0.01)  or
         not Result_Within_Range(GEF."**"(0.26,  2.0),   0.068, 0.001) or
         not Result_Within_Range( EF."**"(e,     5.0), 148.4,   0.1)   or
         not Result_Within_Range( EF."**"(10.0,  e),   522.7,   0.1)   or
         not Result_Within_Range( EF."**"(e,   (-3.0)),  0.050, 0.001) or
         not Result_Within_Range(GEF."**"(10.0,(-2.0)),  0.010, 0.001)
      then
         Report.Failed("Incorrect results returned from the ""**"" "       &
                       "operator with a variety of  operand and exponent " &
                       "values");
      end if;
 
 
      -- Use the following loops to check for internal consistency between
      -- inverse functions.
 
      declare
         -- Use the relative error value to account for non-exact
         -- computations.
         TC_Relative_Error: Float := 0.005;
      begin
         for i in 1..5 loop
            for j in 0..5 loop
               if not Incorrect_Inverse_Base_e and
                  not FXA5A00.Result_Within_Range
                        (Float(i)**Float(j),
                         e**(Float(j)*EF.Log(Float(i))),
                         TC_Relative_Error)
               then
                  Incorrect_Inverse_Base_e := True;
                  Report.Failed("Incorrect Log-** Inverse calc for Base e " &
                                "with i= " & Integer'Image(i) & "  and j= " &
                                Integer'Image(j));
               end if;
               if not Incorrect_Inverse_Base_2 and
                  not FXA5A00.Result_Within_Range
                        (Float(i)**Float(j),
                         2.0**(Float(j)*EF.Log(Float(i),2.0)),
                         TC_Relative_Error)
               then
                  Incorrect_Inverse_Base_2 := True;
                  Report.Failed("Incorrect Log-** Inverse calc for Base 2 " &
                                "with i= " & Integer'Image(i) & "  and j= " &
                                Integer'Image(j));
               end if;
               if not Incorrect_Inverse_Base_8 and
                  not FXA5A00.Result_Within_Range
                        (Float(i)**Float(j),
                         8.0**(Float(j)*EF.Log(Float(i),8.0)),
                         TC_Relative_Error)
               then
                  Incorrect_Inverse_Base_8 := True;
                  Report.Failed("Incorrect Log-** Inverse calc for Base 8 " &
                                "with i= " & Integer'Image(i) & "  and j= " &
                                Integer'Image(j));
               end if;
               if not Incorrect_Inverse_Base_10 and
                  not FXA5A00.Result_Within_Range
                        (Float(i)**Float(j),
                         10.0**(Float(j)*EF.Log(Float(i),10.0)),
                         TC_Relative_Error)
               then
                  Incorrect_Inverse_Base_10 := True;
                  Report.Failed("Incorrect Log-** Inverse calc for Base 10 " &
                                "with i= " & Integer'Image(i) & "   and j= " &
                                Integer'Image(j));
               end if;
               if not Incorrect_Inverse_Base_16 and
                  not FXA5A00.Result_Within_Range
                        (Float(i)**Float(j),
                         16.0**(Float(j)*EF.Log(Float(i),16.0)),
                         TC_Relative_Error)
               then
                  Incorrect_Inverse_Base_16 := True;
                  Report.Failed("Incorrect Log-** Inverse calc for Base 16 " &
                                "with i= " & Integer'Image(i) & "   and j= " &
                                Integer'Image(j));
               end if;
            end loop;
         end loop;
      end;
 
      -- Reset Flags.
      Incorrect_Inverse_Base_e  := False;
      Incorrect_Inverse_Base_2  := False;
      Incorrect_Inverse_Base_8  := False;
      Incorrect_Inverse_Base_10 := False;
      Incorrect_Inverse_Base_16 := False;
 
 
      -- Testing of Exp Function, both instantiated and pre-instantiated
      -- version.
 
      -- Check that the result of the Exp Function, when provided an X
      -- parameter value of 0.0, is 1.0.
 
      if GEF.Exp(X => 0.0) /= 1.0 or
          EF.Exp(0.0)      /= 1.0
      then
         Report.Failed("Incorrect result returned by Function Exp when " &
                       "given a parameter value of 0.0");
      end if;
 
 
      -- Check that the Exp Function provides correct results when provided
      -- a variety of input parameter values.
 
      if not Result_Within_Range(GEF.Exp(0.001),    1.01,  0.01)  or
         not Result_Within_Range( EF.Exp(0.1),      1.11,  0.01)  or
         not Result_Within_Range(GEF.Exp(1.2697),   3.56,  0.01)  or
         not Result_Within_Range( EF.Exp(3.2525),  25.9,   0.1)   or
         not Result_Within_Range(GEF.Exp(-0.2198),  0.803, 0.001) or
         not Result_Within_Range( EF.Exp(-1.6621),  0.190, 0.001) or
         not Result_Within_Range(GEF.Exp(-2.3888),  0.092, 0.001) or
         not Result_Within_Range( EF.Exp(-5.4415),  0.004, 0.001)
      then
         Report.Failed("Incorrect result from Function Exp when provided " &
                       "a variety of input parameter values");
      end if;
 
      -- Use the following loops to check for internal consistency between
      -- inverse functions.
 
      Arg := 0.01;
      while Arg < 10.0 loop
         if not Incorrect_Inverse_Base_e and
            FXA5A00.Result_Within_Range(EF.Exp(Arg),
                                        e**(Arg*EF.Log(Arg)),
                                        0.001)
         then
            Incorrect_Inverse_Base_e := True;
            Report.Failed("Incorrect Exp-** Inverse calc for Base e");
         end if;
         if not Incorrect_Inverse_Base_2 and
            FXA5A00.Result_Within_Range(EF.Exp(Arg),
                                        2.0**(Arg*EF.Log(Arg,2.0)),
                                        0.001)
         then
            Incorrect_Inverse_Base_2 := True;
            Report.Failed("Incorrect Exp-** Inverse calc for Base 2");
         end if;
         if not Incorrect_Inverse_Base_8 and
            FXA5A00.Result_Within_Range(EF.Exp(Arg),
                                        8.0**(Arg*EF.Log(Arg,8.0)),
                                        0.001)
         then
            Incorrect_Inverse_Base_8 := True;
            Report.Failed("Incorrect Exp-** Inverse calc for Base 8");
         end if;
         if not Incorrect_Inverse_Base_10 and
            FXA5A00.Result_Within_Range(EF.Exp(Arg),
                                        10.0**(Arg*EF.Log(Arg,10.0)),
                                        0.001)
         then
            Incorrect_Inverse_Base_10 := True;
            Report.Failed("Incorrect Exp-** Inverse calc for Base 10");
         end if;
         if not Incorrect_Inverse_Base_16 and
            FXA5A00.Result_Within_Range(EF.Exp(Arg),
                                        16.0**(Arg*EF.Log(Arg,16.0)),
                                        0.001)
         then
            Incorrect_Inverse_Base_16 := True;
            Report.Failed("Incorrect Exp-** Inverse calc for Base 16");
         end if;
         Arg := Arg + 0.01;
      end loop;
 
 
      -- Testing of Sqrt Function, both instantiated and pre-instantiated
      -- version.
 
      -- Check that Argument_Error is raised by the Sqrt Function when
      -- the value of the input parameter X is negative.
 
      begin
         Float_Result := EF.Sqrt(X => -FXA5A00.Small);
         Report.Failed("Argument_Error not raised by Function Sqrt "     &
                       "when provided a small negative input parameter " &
                       "value");
         Dont_Optimize_Float(Float_Result, 7);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by Function Sqrt "   &
                          "when provided a small negative input parameter " &
                          "value");
      end;
 
      begin
         New_Float_Result := GEF.Sqrt(X => -64.0);
         Report.Failed("Argument_Error not raised by Function Sqrt "     &
                       "when provided a large negative input parameter " &
                       "value");
         Dont_Optimize_New_Float(New_Float_Result, 8);
      exception
         when Argument_Error => null;  -- OK, expected exception.
         when others         =>
            Report.Failed("Unexpected exception raised by Function Sqrt "   &
                          "when provided a large negative input parameter " &
                          "value");
      end;
 
 
      -- Check that the Sqrt Function, when given an X parameter value of 0.0,
      -- returns a result of 0.0.
 
      if GEF.Sqrt(X => 0.0) /= 0.0 or
          EF.Sqrt(0.0)      /= 0.0
      then
         Report.Failed("Incorrect result from Function Sqrt when provided " &
                       "an input parameter value of 0.0");
      end if;
 
 
      -- Check that the Sqrt Function, when given an X parameter input value
      -- of 1.0, returns a result of 1.0.
 
      if GEF.Sqrt(X => 1.0) /= 1.0 or
          EF.Sqrt(1.0)      /= 1.0
      then
         Report.Failed("Incorrect result from Function Sqrt when provided " &
                       "an input parameter value of 1.0");
      end if;
 
 
      -- Check that the Sqrt Function provides correct results when provided
      -- a variety of input parameter values.
 
      if not FXA5A00.Result_Within_Range(GEF.Sqrt(0.0327),     0.181, 0.001) or
         not FXA5A00.Result_Within_Range( EF.Sqrt(0.1808),     0.425, 0.001) or
         not FXA5A00.Result_Within_Range(GEF.Sqrt(1.0556),     1.03,  0.01)  or
         not FXA5A00.Result_Within_Range( EF.Sqrt(32.8208),    5.73,  0.01)  or
         not FXA5A00.Result_Within_Range( EF.Sqrt(27851.0),  166.9,   0.1)   or
         not FXA5A00.Result_Within_Range( EF.Sqrt(61203.4),  247.4,   0.1)   or
         not FXA5A00.Result_Within_Range( EF.Sqrt(655891.0), 809.9,   0.1)
      then
         Report.Failed("Incorrect result from Function Sqrt when provided " &
                       "a variety of input parameter values");
      end if;
 
      -- Check internal consistency between functions.
 
      Arg := 0.01;
      while Arg < 10.0 loop
         if not Flag_1 and
            not FXA5A00.Result_Within_Range(Arg,
                                            EF.Sqrt(Arg)*EF.Sqrt(Arg),
                                            0.01)
         then
            Report.Failed("Inconsistency found in Case 1");
            Flag_1 := True;
         end if;
         if not Flag_2 and
            not FXA5A00.Result_Within_Range(Arg, EF.Sqrt(Arg)**2.0, 0.01)
         then
            Report.Failed("Inconsistency found in Case 2");
            Flag_2 := True;
         end if;
         if not Flag_3 and
            not FXA5A00.Result_Within_Range(EF.Log(Arg),
                                            EF.Log(Sqrt(Arg)**2.0), 0.01)
         then
            Report.Failed("Inconsistency found in Case 3");
            Flag_3 := True;
         end if;
         if not Flag_4 and
            not FXA5A00.Result_Within_Range(EF.Log(Arg),
                                            2.00*EF.Log(EF.Sqrt(Arg)),
                                            0.01)
         then
            Report.Failed("Inconsistency found in Case 4");
            Flag_4 := True;
         end if;
         Arg := Arg + 1.0;
      end loop;
 
 
   exception
      when The_Error : others =>
         Report.Failed ("The following exception was raised in the " &
                        "Test_Block: " & Exception_Name(The_Error));
   end Test_Block;
 
   Report.Result;
 
end CXA5A10;

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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [ada/] [acats/] [tests/] [cxa/] [cxa5a10.a] - Blame information for rev 316

Line No.	Rev	Author	Line
1	294	jeremybenn	`-- CXA5A10.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 functions Exp and Sqrt, and the exponentiation`
28			`-- operator "**" provide correct results.`
29			`--`
30			`-- TEST DESCRIPTION:`
31			`-- This test examines both the versions of Exp, Sqrt, and "**"`
32			`-- resulting from the instantiation of the`
33			`-- Ada.Numerics.Generic_Elementary_Functions with a type derived from`
34			`-- type Float, as well as the preinstantiated version of this package`
35			`-- for type Float.`
36			`-- Prescribed results (stated as such in the reference manual),`
37			`-- including instances prescribed to raise exceptions, are examined`
38			`-- in the test cases. In addition, certain evaluations are performed`
39			`-- for the preinstantiated package where the actual function result is`
40			`-- compared with the expected result (within an epsilon range of`
41			`-- accuracy).`
42			`--`
43			`-- TEST FILES:`
44			`-- The following files comprise this test:`
45			`--`
46			`-- FXA5A00.A (foundation code)`
47			`-- CXA5A10.A`
48			`--`
49			`--`
50			`-- CHANGE HISTORY:`
51			`-- 17 Apr 95 SAIC Initial prerelease version.`
52			`-- 13 Jun 95 SAIC Incorporated use of Dont_Optimize procedure, and`
53			`-- use of Result_Within_Range function overloaded for`
54			`-- FXA5A00.New_Float_Type.`
55			`-- 18 Apr 96 SAIC Incorporated reviewer comments for ACVC 2.1.`
56			`-- 01 Oct 01 RLB Protected Constraint_Error exception tests by`
57			`-- first testing for 'Machine_Overflows.`
58			`--`
59			`--!`
60
61			`with Ada.Exceptions;`
62			`with Ada.Numerics.Elementary_Functions;`
63			`with Ada.Numerics.Generic_Elementary_Functions;`
64			`with FXA5A00;`
65			`with Report;`
66
67			`procedure CXA5A10 is`
68			`begin`
69
70			`Report.Test ("CXA5A10", "Check that Exp, Sqrt, and the ""**"" operator " &`
71			`"provide correct results");`
72
73			`Test_Block:`
74			`declare`
75
76			`use FXA5A00, Ada.Numerics;`
77			`use Ada.Exceptions;`
78
79			`package GEF is new Ada.Numerics.Generic_Elementary_Functions(New_Float);`
80			`package EF renames Ada.Numerics.Elementary_Functions;`
81
82			`use GEF, EF;`
83
84			`Arg,`
85			`Float_Result : Float;`
86			`New_Float_Result : New_Float;`
87
88			`Flag_1, Flag_2, Flag_3, Flag_4,`
89			`Incorrect_Inverse_Base_e,`
90			`Incorrect_Inverse_Base_2,`
91			`Incorrect_Inverse_Base_8,`
92			`Incorrect_Inverse_Base_10,`
93			`Incorrect_Inverse_Base_16 : Boolean := False;`
94
95			`procedure Dont_Optimize_Float is new Dont_Optimize(Float);`
96			`procedure Dont_Optimize_New_Float is new Dont_Optimize(New_Float);`
97
98			`begin`
99
100			`-- Testing of the "**" operator, both instantiated and pre-instantiated`
101			`-- version.`
102
103			`-- Check that Argument_Error is raised by the exponentiation operator`
104			`-- when the value of the Left parameter (operand) is negative.`
105
106			`begin`
107			`New_Float_Result := GEF."**"(Left => -10.0,`
108			`Right => 2.0);`
109			`Report.Failed("Argument_Error not raised by the instantiated " &`
110			`"version of the exponentiation operator when the " &`
111			`"value of the Left parameter is negative");`
112			`Dont_Optimize_New_Float(New_Float_Result, 1);`
113			`exception`
114			`when Argument_Error => null; -- OK, expected exception.`
115			`when others =>`
116			`Report.Failed("Unexpected exception raised by the " &`
117			`"instantiated version of the exponentiation " &`
118			`"operator when the value of the Left parameter " &`
119			`"is negative");`
120			`end;`
121
122			`begin`
123			`Float_Result := (-FXA5A00.Small) ** 4.0;`
124			`Report.Failed("Argument_Error not raised by the preinstantiated " &`
125			`"version of the exponentiation operator when the " &`
126			`"value of the Left parameter is negative");`
127			`Dont_Optimize_Float(Float_Result, 2);`
128			`exception`
129			`when Argument_Error => null; -- OK, expected exception.`
130			`when others =>`
131			`Report.Failed("Unexpected exception raised by the " &`
132			`"preinstantiated version of the exponentiation " &`
133			`"operator when the value of the Left parameter " &`
134			`"is negative");`
135			`end;`
136
137
138			`-- Check that Argument_Error is raised by the exponentiation operator`
139			`-- when both parameters (operands) have the value 0.0.`
140
141			`begin`
142			`New_Float_Result := GEF."**"(0.0, Right => 0.0);`
143			`Report.Failed("Argument_Error not raised by the instantiated " &`
144			`"version of the exponentiation operator when " &`
145			`"both operands are zero");`
146			`Dont_Optimize_New_Float(New_Float_Result, 3);`
147			`exception`
148			`when Argument_Error => null; -- OK, expected exception.`
149			`when others =>`
150			`Report.Failed("Unexpected exception raised by the " &`
151			`"instantiated version of the exponentiation " &`
152			`"operator when both operands are zero");`
153			`end;`
154
155			`begin`
156			`Float_Result := 0.0**0.0;`
157			`Report.Failed("Argument_Error not raised by the preinstantiated " &`
158			`"version of the exponentiation operator when both " &`
159			`"operands are zero");`
160			`Dont_Optimize_Float(Float_Result, 4);`
161			`exception`
162			`when Argument_Error => null; -- OK, expected exception.`
163			`when others =>`
164			`Report.Failed("Unexpected exception raised by the " &`
165			`"preinstantiated version of the exponentiation " &`
166			`"operator when both operands are zero");`
167			`end;`
168
169
170			`-- Check that Constraint_Error is raised by the exponentiation`
171			`-- operator when the value of the left parameter (operand) is zero,`
172			`-- and the value of the right parameter (exponent) is negative.`
173			`-- This check applies only if Machine_Overflows is true [A.5.1(28, 30)].`
174
175			`if New_Float'Machine_Overflows = True then`
176			`begin`
177			`New_Float_Result := GEF."**"(0.0, Right => -2.0);`
178			`Report.Failed("Constraint_Error not raised by the instantiated " &`
179			`"version of the exponentiation operator when " &`
180			`"the left parameter is 0.0, and the right " &`
181			`"parameter is negative");`
182			`Dont_Optimize_New_Float(New_Float_Result, 5);`
183			`exception`
184			`when Constraint_Error => null; -- OK, expected exception.`
185			`when others =>`
186			`Report.Failed("Unexpected exception raised by the " &`
187			`"instantiated version of the exponentiation " &`
188			`"operator when the left parameter is 0.0, " &`
189			`"and the right parameter is negative");`
190			`end;`
191			`end if;`
192
193			`if Float'Machine_Overflows = True then`
194			`begin`
195			`Float_Result := 0.0 ** (-FXA5A00.Small);`
196			`Report.Failed("Constraint_Error not raised by the " &`
197			`"preinstantiated version of the exponentiation " &`
198			`"operator when the left parameter is 0.0, and the " &`
199			`"right parameter is negative");`
200			`Dont_Optimize_Float(Float_Result, 6);`
201			`exception`
202			`when Constraint_Error => null; -- OK, expected exception.`
203			`when others =>`
204			`Report.Failed("Unexpected exception raised by the " &`
205			`"preinstantiated version of the exponentiation " &`
206			`"operator when the left parameter is 0.0, and " &`
207			`"the right parameter is negative");`
208			`end;`
209			`end if;`
210
211			`-- Prescribed results.`
212			`-- Check that exponentiation by a 0.0 exponent yields the value one.`
213
214			`if GEF."**"(Left => 10.0, Right => 0.0) /= 1.0 or`
215			`EF."**"(FXA5A00.Large, Right => 0.0) /= 1.0 or`
216			`GEF."**"(3.0, 0.0) /= 1.0 or`
217			`FXA5A00.Small ** 0.0 /= 1.0`
218			`then`
219			`Report.Failed("Incorrect results returned from the ""**"" " &`
220			`"operator when the value of the exponent is 0.0");`
221			`end if;`
222
223
224			`-- Check that exponentiation by a unit exponent yields the value`
225			`-- of the left operand.`
226
227			`if GEF."**"(Left => 50.0, Right => 1.0) /= 50.0 or`
228			`EF."**"(FXA5A00.Large, Right => 1.0) /= FXA5A00.Large or`
229			`GEF."**"(6.0, 1.0) /= 6.0 or`
230			`FXA5A00.Small ** 1.0 /= FXA5A00.Small`
231			`then`
232			`Report.Failed("Incorrect results returned from the ""**"" " &`
233			`"operator when the value of the exponent is 1.0");`
234			`end if;`
235
236
237			`-- Check that exponentiation of the value 1.0 yields the value 1.0.`
238
239			`if GEF."**"(Left => 1.0, Right => 16.0) /= 1.0 or`
240			`EF."**"(1.0, Right => FXA5A00.Large) /= 1.0 or`
241			`GEF."**"(1.0, 3.0) /= 1.0 or`
242			`1.0 ** FXA5A00.Small /= 1.0`
243			`then`
244			`Report.Failed("Incorrect results returned from the ""**"" " &`
245			`"operator when the value of the operand is 1.0");`
246			`end if;`
247
248
249			`-- Check that exponentiation of the value 0.0 yields the value 0.0.`
250
251			`if GEF."**"(Left => 0.0, Right => 10.0) /= 0.0 or`
252			`EF."**"(0.0, Right => FXA5A00.Large) /= 0.0 or`
253			`GEF."**"(0.0, 4.0) /= 0.0 or`
254			`0.0 ** FXA5A00.Small /= 0.0`
255			`then`
256			`Report.Failed("Incorrect results returned from the ""**"" " &`
257			`"operator when the value of the operand is 0.0");`
258			`end if;`
259
260
261			`-- Check that exponentiation of various operands with a variety of`
262			`-- of exponent values yield correct results.`
263
264			`if not Result_Within_Range(GEF."**"(5.0, 2.0), 25.0, 0.01) or`
265			`not Result_Within_Range(GEF."**"(1.225, 1.5), 1.36, 0.01) or`
266			`not Result_Within_Range(GEF."**"(0.26, 2.0), 0.068, 0.001) or`
267			`not Result_Within_Range( EF."**"(e, 5.0), 148.4, 0.1) or`
268			`not Result_Within_Range( EF."**"(10.0, e), 522.7, 0.1) or`
269			`not Result_Within_Range( EF."**"(e, (-3.0)), 0.050, 0.001) or`
270			`not Result_Within_Range(GEF."**"(10.0,(-2.0)), 0.010, 0.001)`
271			`then`
272			`Report.Failed("Incorrect results returned from the ""**"" " &`
273			`"operator with a variety of operand and exponent " &`
274			`"values");`
275			`end if;`
276
277
278			`-- Use the following loops to check for internal consistency between`
279			`-- inverse functions.`
280
281			`declare`
282			`-- Use the relative error value to account for non-exact`
283			`-- computations.`
284			`TC_Relative_Error: Float := 0.005;`
285			`begin`
286			`for i in 1..5 loop`
287			`for j in 0..5 loop`
288			`if not Incorrect_Inverse_Base_e and`
289			`not FXA5A00.Result_Within_Range`
290			`(Float(i)**Float(j),`
291			`e*(Float(j)EF.Log(Float(i))),`
292			`TC_Relative_Error)`
293			`then`
294			`Incorrect_Inverse_Base_e := True;`
295			`Report.Failed("Incorrect Log-** Inverse calc for Base e " &`
296			`"with i= " & Integer'Image(i) & " and j= " &`
297			`Integer'Image(j));`
298			`end if;`
299			`if not Incorrect_Inverse_Base_2 and`
300			`not FXA5A00.Result_Within_Range`
301			`(Float(i)**Float(j),`
302			`2.0*(Float(j)EF.Log(Float(i),2.0)),`
303			`TC_Relative_Error)`
304			`then`
305			`Incorrect_Inverse_Base_2 := True;`
306			`Report.Failed("Incorrect Log-** Inverse calc for Base 2 " &`
307			`"with i= " & Integer'Image(i) & " and j= " &`
308			`Integer'Image(j));`
309			`end if;`
310			`if not Incorrect_Inverse_Base_8 and`
311			`not FXA5A00.Result_Within_Range`
312			`(Float(i)**Float(j),`
313			`8.0*(Float(j)EF.Log(Float(i),8.0)),`
314			`TC_Relative_Error)`
315			`then`
316			`Incorrect_Inverse_Base_8 := True;`
317			`Report.Failed("Incorrect Log-** Inverse calc for Base 8 " &`
318			`"with i= " & Integer'Image(i) & " and j= " &`
319			`Integer'Image(j));`
320			`end if;`
321			`if not Incorrect_Inverse_Base_10 and`
322			`not FXA5A00.Result_Within_Range`
323			`(Float(i)**Float(j),`
324			`10.0*(Float(j)EF.Log(Float(i),10.0)),`
325			`TC_Relative_Error)`
326			`then`
327			`Incorrect_Inverse_Base_10 := True;`
328			`Report.Failed("Incorrect Log-** Inverse calc for Base 10 " &`
329			`"with i= " & Integer'Image(i) & " and j= " &`
330			`Integer'Image(j));`
331			`end if;`
332			`if not Incorrect_Inverse_Base_16 and`
333			`not FXA5A00.Result_Within_Range`
334			`(Float(i)**Float(j),`
335			`16.0*(Float(j)EF.Log(Float(i),16.0)),`
336			`TC_Relative_Error)`
337			`then`
338			`Incorrect_Inverse_Base_16 := True;`
339			`Report.Failed("Incorrect Log-** Inverse calc for Base 16 " &`
340			`"with i= " & Integer'Image(i) & " and j= " &`
341			`Integer'Image(j));`
342			`end if;`
343			`end loop;`
344			`end loop;`
345			`end;`
346
347			`-- Reset Flags.`
348			`Incorrect_Inverse_Base_e := False;`
349			`Incorrect_Inverse_Base_2 := False;`
350			`Incorrect_Inverse_Base_8 := False;`
351			`Incorrect_Inverse_Base_10 := False;`
352			`Incorrect_Inverse_Base_16 := False;`
353
354
355			`-- Testing of Exp Function, both instantiated and pre-instantiated`
356			`-- version.`
357
358			`-- Check that the result of the Exp Function, when provided an X`
359			`-- parameter value of 0.0, is 1.0.`
360
361			`if GEF.Exp(X => 0.0) /= 1.0 or`
362			`EF.Exp(0.0) /= 1.0`
363			`then`
364			`Report.Failed("Incorrect result returned by Function Exp when " &`
365			`"given a parameter value of 0.0");`
366			`end if;`
367
368
369			`-- Check that the Exp Function provides correct results when provided`
370			`-- a variety of input parameter values.`
371
372			`if not Result_Within_Range(GEF.Exp(0.001), 1.01, 0.01) or`
373			`not Result_Within_Range( EF.Exp(0.1), 1.11, 0.01) or`
374			`not Result_Within_Range(GEF.Exp(1.2697), 3.56, 0.01) or`
375			`not Result_Within_Range( EF.Exp(3.2525), 25.9, 0.1) or`
376			`not Result_Within_Range(GEF.Exp(-0.2198), 0.803, 0.001) or`
377			`not Result_Within_Range( EF.Exp(-1.6621), 0.190, 0.001) or`
378			`not Result_Within_Range(GEF.Exp(-2.3888), 0.092, 0.001) or`
379			`not Result_Within_Range( EF.Exp(-5.4415), 0.004, 0.001)`
380			`then`
381			`Report.Failed("Incorrect result from Function Exp when provided " &`
382			`"a variety of input parameter values");`
383			`end if;`
384
385			`-- Use the following loops to check for internal consistency between`
386			`-- inverse functions.`
387
388			`Arg := 0.01;`
389			`while Arg < 10.0 loop`
390			`if not Incorrect_Inverse_Base_e and`
391			`FXA5A00.Result_Within_Range(EF.Exp(Arg),`
392			`e*(ArgEF.Log(Arg)),`
393			`0.001)`
394			`then`
395			`Incorrect_Inverse_Base_e := True;`
396			`Report.Failed("Incorrect Exp-** Inverse calc for Base e");`
397			`end if;`
398			`if not Incorrect_Inverse_Base_2 and`
399			`FXA5A00.Result_Within_Range(EF.Exp(Arg),`
400			`2.0*(ArgEF.Log(Arg,2.0)),`
401			`0.001)`
402			`then`
403			`Incorrect_Inverse_Base_2 := True;`
404			`Report.Failed("Incorrect Exp-** Inverse calc for Base 2");`
405			`end if;`
406			`if not Incorrect_Inverse_Base_8 and`
407			`FXA5A00.Result_Within_Range(EF.Exp(Arg),`
408			`8.0*(ArgEF.Log(Arg,8.0)),`
409			`0.001)`
410			`then`
411			`Incorrect_Inverse_Base_8 := True;`
412			`Report.Failed("Incorrect Exp-** Inverse calc for Base 8");`
413			`end if;`
414			`if not Incorrect_Inverse_Base_10 and`
415			`FXA5A00.Result_Within_Range(EF.Exp(Arg),`
416			`10.0*(ArgEF.Log(Arg,10.0)),`
417			`0.001)`
418			`then`
419			`Incorrect_Inverse_Base_10 := True;`
420			`Report.Failed("Incorrect Exp-** Inverse calc for Base 10");`
421			`end if;`
422			`if not Incorrect_Inverse_Base_16 and`
423			`FXA5A00.Result_Within_Range(EF.Exp(Arg),`
424			`16.0*(ArgEF.Log(Arg,16.0)),`
425			`0.001)`
426			`then`
427			`Incorrect_Inverse_Base_16 := True;`
428			`Report.Failed("Incorrect Exp-** Inverse calc for Base 16");`
429			`end if;`
430			`Arg := Arg + 0.01;`
431			`end loop;`
432
433
434			`-- Testing of Sqrt Function, both instantiated and pre-instantiated`
435			`-- version.`
436
437			`-- Check that Argument_Error is raised by the Sqrt Function when`
438			`-- the value of the input parameter X is negative.`
439
440			`begin`
441			`Float_Result := EF.Sqrt(X => -FXA5A00.Small);`
442			`Report.Failed("Argument_Error not raised by Function Sqrt " &`
443			`"when provided a small negative input parameter " &`
444			`"value");`
445			`Dont_Optimize_Float(Float_Result, 7);`
446			`exception`
447			`when Argument_Error => null; -- OK, expected exception.`
448			`when others =>`
449			`Report.Failed("Unexpected exception raised by Function Sqrt " &`
450			`"when provided a small negative input parameter " &`
451			`"value");`
452			`end;`
453
454			`begin`
455			`New_Float_Result := GEF.Sqrt(X => -64.0);`
456			`Report.Failed("Argument_Error not raised by Function Sqrt " &`
457			`"when provided a large negative input parameter " &`
458			`"value");`
459			`Dont_Optimize_New_Float(New_Float_Result, 8);`
460			`exception`
461			`when Argument_Error => null; -- OK, expected exception.`
462			`when others =>`
463			`Report.Failed("Unexpected exception raised by Function Sqrt " &`
464			`"when provided a large negative input parameter " &`
465			`"value");`
466			`end;`
467
468
469			`-- Check that the Sqrt Function, when given an X parameter value of 0.0,`
470			`-- returns a result of 0.0.`
471
472			`if GEF.Sqrt(X => 0.0) /= 0.0 or`
473			`EF.Sqrt(0.0) /= 0.0`
474			`then`
475			`Report.Failed("Incorrect result from Function Sqrt when provided " &`
476			`"an input parameter value of 0.0");`
477			`end if;`
478
479
480			`-- Check that the Sqrt Function, when given an X parameter input value`
481			`-- of 1.0, returns a result of 1.0.`
482
483			`if GEF.Sqrt(X => 1.0) /= 1.0 or`
484			`EF.Sqrt(1.0) /= 1.0`
485			`then`
486			`Report.Failed("Incorrect result from Function Sqrt when provided " &`
487			`"an input parameter value of 1.0");`
488			`end if;`
489
490
491			`-- Check that the Sqrt Function provides correct results when provided`
492			`-- a variety of input parameter values.`
493
494			`if not FXA5A00.Result_Within_Range(GEF.Sqrt(0.0327), 0.181, 0.001) or`
495			`not FXA5A00.Result_Within_Range( EF.Sqrt(0.1808), 0.425, 0.001) or`
496			`not FXA5A00.Result_Within_Range(GEF.Sqrt(1.0556), 1.03, 0.01) or`
497			`not FXA5A00.Result_Within_Range( EF.Sqrt(32.8208), 5.73, 0.01) or`
498			`not FXA5A00.Result_Within_Range( EF.Sqrt(27851.0), 166.9, 0.1) or`
499			`not FXA5A00.Result_Within_Range( EF.Sqrt(61203.4), 247.4, 0.1) or`
500			`not FXA5A00.Result_Within_Range( EF.Sqrt(655891.0), 809.9, 0.1)`
501			`then`
502			`Report.Failed("Incorrect result from Function Sqrt when provided " &`
503			`"a variety of input parameter values");`
504			`end if;`
505
506			`-- Check internal consistency between functions.`
507
508			`Arg := 0.01;`
509			`while Arg < 10.0 loop`
510			`if not Flag_1 and`
511			`not FXA5A00.Result_Within_Range(Arg,`
512			`EF.Sqrt(Arg)*EF.Sqrt(Arg),`
513			`0.01)`
514			`then`
515			`Report.Failed("Inconsistency found in Case 1");`
516			`Flag_1 := True;`
517			`end if;`
518			`if not Flag_2 and`
519			`not FXA5A00.Result_Within_Range(Arg, EF.Sqrt(Arg)**2.0, 0.01)`
520			`then`
521			`Report.Failed("Inconsistency found in Case 2");`
522			`Flag_2 := True;`
523			`end if;`
524			`if not Flag_3 and`
525			`not FXA5A00.Result_Within_Range(EF.Log(Arg),`
526			`EF.Log(Sqrt(Arg)**2.0), 0.01)`
527			`then`
528			`Report.Failed("Inconsistency found in Case 3");`
529			`Flag_3 := True;`
530			`end if;`
531			`if not Flag_4 and`
532			`not FXA5A00.Result_Within_Range(EF.Log(Arg),`
533			`2.00*EF.Log(EF.Sqrt(Arg)),`
534			`0.01)`
535			`then`
536			`Report.Failed("Inconsistency found in Case 4");`
537			`Flag_4 := True;`
538			`end if;`
539			`Arg := Arg + 1.0;`
540			`end loop;`
541
542
543			`exception`
544			`when The_Error : others =>`
545			`Report.Failed ("The following exception was raised in the " &`
546			`"Test_Block: " & Exception_Name(The_Error));`
547			`end Test_Block;`
548
549			`Report.Result;`
550
551			`end CXA5A10;`