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-- CXG1001.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 subprograms defined in the package
-- Ada.Numerics.Generic_Complex_Types provide correct results.
-- Specifically, check the functions Re, Im (both versions), procedures
-- Set_Re, Set_Im (both versions), functions Compose_From_Cartesian (all
-- versions), Compose_From_Polar, Modulus, Argument, and "abs".
--
-- TEST DESCRIPTION:
-- The generic package Generic_Complex_Types
-- is instantiated with a real type (new Float), and the results
-- produced by the specified subprograms are verified.
--
-- APPLICABILITY CRITERIA:
-- This test applies only to implementations supporting the
-- Numerics Annex.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 15 Nov 95 SAIC Corrected visibility problems for ACVC 2.0.1.
-- Modified subtest for Compose_From_Polar.
-- 29 Sep 96 SAIC Incorporated reviewer comments.
--
--!
with Ada.Numerics.Generic_Complex_Types;
with Report;
procedure CXG1001 is
begin
Report.Test ("CXG1001", "Check that the subprograms defined in " &
"the package Ada.Numerics.Generic_Complex_Types " &
"provide correct results");
Test_Block:
declare
type Real_Type is new Float;
package Complex_Pack is new
Ada.Numerics.Generic_Complex_Types(Real_Type);
use type Complex_Pack.Complex;
-- Declare a zero valued complex number.
Complex_Zero : constant Complex_Pack.Complex := (0.0, 0.0);
TC_Complex : Complex_Pack.Complex := Complex_Zero;
TC_Imaginary : Complex_Pack.Imaginary;
begin
-- Check that the procedures Set_Re and Set_Im (both versions) provide
-- correct results.
declare
TC_Complex_Real_Field : Complex_Pack.Complex := (5.0, 0.0);
TC_Complex_Both_Fields : Complex_Pack.Complex := (5.0, 7.0);
begin
Complex_Pack.Set_Re(X => TC_Complex, Re => 5.0);
if TC_Complex /= TC_Complex_Real_Field then
Report.Failed("Incorrect results from Procedure Set_Re");
end if;
Complex_Pack.Set_Im(X => TC_Complex, Im => 7.0);
if TC_Complex.Re /= 5.0 or
TC_Complex.Im /= 7.0 or
TC_Complex /= TC_Complex_Both_Fields
then
Report.Failed("Incorrect results from Procedure Set_Im " &
"with Complex argument");
end if;
Complex_Pack.Set_Im(X => TC_Imaginary, Im => 3.0);
if Complex_Pack.Im(TC_Imaginary) /= 3.0 then
Report.Failed("Incorrect results returned following the use " &
"of Procedure Set_Im with Imaginary argument");
end if;
end;
-- Check that the functions Re and Im (both versions) provide
-- correct results.
declare
TC_Complex_1 : Complex_Pack.Complex := (1.0, 0.0);
TC_Complex_2 : Complex_Pack.Complex := (0.0, 2.0);
TC_Complex_3 : Complex_Pack.Complex := (4.0, 3.0);
begin
-- Function Re.
if Complex_Pack.Re(X => TC_Complex_1) /= 1.0 or
Complex_Pack.Re(X => TC_Complex_2) /= 0.0 or
Complex_Pack.Re(X => TC_Complex_3) /= 4.0
then
Report.Failed("Incorrect results from Function Re");
end if;
-- Function Im; version with Complex argument.
if Complex_Pack.Im(X => TC_Complex_1) /= 0.0 or
Complex_Pack.Im(X => TC_Complex_2) /= 2.0 or
Complex_Pack.Im(X => TC_Complex_3) /= 3.0
then
Report.Failed("Incorrect results from Function Im " &
"with Complex argument");
end if;
-- Function Im; version with Imaginary argument.
if Complex_Pack.Im(Complex_Pack.i) /= 1.0 or
Complex_Pack.Im(Complex_Pack.j) /= 1.0
then
Report.Failed("Incorrect results from use of Function Im " &
"when used with an Imaginary argument");
end if;
end;
-- Verify the results of the three versions of Function
-- Compose_From_Cartesian
declare
Zero : constant Real_Type := 0.0;
Six : constant Real_Type := 6.0;
TC_Complex_1 : Complex_Pack.Complex := (3.0, 8.0);
TC_Complex_2 : Complex_Pack.Complex := (Six, Zero);
TC_Complex_3 : Complex_Pack.Complex := (Zero, 1.0);
begin
TC_Complex := Complex_Pack.Compose_From_Cartesian(3.0, 8.0);
if TC_Complex /= TC_Complex_1 then
Report.Failed("Incorrect results from Function " &
"Compose_From_Cartesian - 1");
end if;
-- If only one component is given, the other component is
-- implicitly zero (Both components are set by the following two
-- function calls).
TC_Complex := Complex_Pack.Compose_From_Cartesian(Re => 6.0);
if TC_Complex /= TC_Complex_2 then
Report.Failed("Incorrect results from Function " &
"Compose_From_Cartesian - 2");
end if;
TC_Complex :=
Complex_Pack.Compose_From_Cartesian(Im => Complex_Pack.i);
if TC_Complex /= TC_Complex_3 then
Report.Failed("Incorrect results from Function " &
"Compose_From_Cartesian - 3");
end if;
end;
-- Verify the results of Function Compose_From_Polar, Modulus, "abs",
-- and Argument.
declare
use Complex_Pack;
TC_Modulus,
TC_Argument : Real_Type := 0.0;
Angle_0 : constant Real_Type := 0.0;
Angle_90 : constant Real_Type := 90.0;
Angle_180 : constant Real_Type := 180.0;
Angle_270 : constant Real_Type := 270.0;
Angle_360 : constant Real_Type := 360.0;
begin
-- Verify the result of Function Compose_From_Polar.
-- When the value of the parameter Modulus is zero, the
-- Compose_From_Polar function yields a result of zero.
if Compose_From_Polar(0.0, 30.0, 360.0) /= Complex_Zero
then
Report.Failed("Incorrect result from Function " &
"Compose_From_Polar - 1");
end if;
-- When the value of the parameter Argument is equal to a multiple
-- of the quarter cycle, the result of the Compose_From_Polar
-- function with specified cycle lies on one of the axes.
if Compose_From_Polar( 5.0, Angle_0, Angle_360) /= (5.0, 0.0) or
Compose_From_Polar( 5.0, Angle_90, Angle_360) /= (0.0, 5.0) or
Compose_From_Polar(-5.0, Angle_180, Angle_360) /= (5.0, 0.0) or
Compose_From_Polar(-5.0, Angle_270, Angle_360) /= (0.0, 5.0) or
Compose_From_Polar(-5.0, Angle_90, Angle_360) /= (0.0, -5.0) or
Compose_From_Polar( 5.0, Angle_270, Angle_360) /= (0.0, -5.0)
then
Report.Failed("Incorrect result from Function " &
"Compose_From_Polar - 2");
end if;
-- When the parameter to Function Argument represents a point on
-- the non-negative real axis, the function yields a zero result.
if Argument(Complex_Zero, Angle_360) /= 0.0 then
Report.Failed("Incorrect result from Function Argument");
end if;
-- Function Modulus
if Modulus(Complex_Zero) /= 0.0 or
Modulus(Compose_From_Polar( 5.0, Angle_90, Angle_360)) /= 5.0 or
Modulus(Compose_From_Polar(-5.0, Angle_180, Angle_360)) /= 5.0
then
Report.Failed("Incorrect results from Function Modulus");
end if;
-- Function "abs", a rename of Function Modulus.
if "abs"(Complex_Zero) /= 0.0 or
"abs"(Compose_From_Polar( 5.0, Angle_90, Angle_360)) /= 5.0 or
"abs"(Compose_From_Polar(-5.0, Angle_180, Angle_360)) /= 5.0
then
Report.Failed("Incorrect results from Function abs");
end if;
end;
exception
when others => Report.Failed ("Exception raised in Test_Block");
end Test_Block;
Report.Result;
end CXG1001;
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