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jeremybenn |
-- CXG2008.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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-- OBJECTIVE:
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-- Check that the complex multiplication and division
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-- operations return results that are within the allowed
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-- error bound.
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-- Check that all the required pure Numerics packages are pure.
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--
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-- TEST DESCRIPTION:
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-- This test contains three test packages that are almost
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-- identical. The first two packages differ only in the
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-- floating point type that is being tested. The first
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-- and third package differ only in whether the generic
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-- complex types package or the pre-instantiated
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-- package is used.
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-- The test package is not generic so that the arguments
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-- and expected results for some of the test values
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-- can be expressed as universal real instead of being
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-- computed at runtime.
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--
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-- SPECIAL REQUIREMENTS
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-- The Strict Mode for the numerical accuracy must be
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-- selected. The method by which this mode is selected
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-- is implementation dependent.
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--
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-- APPLICABILITY CRITERIA:
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-- This test applies only to implementations supporting the
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-- Numerics Annex.
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-- This test only applies to the Strict Mode for numerical
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-- accuracy.
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--
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--
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-- CHANGE HISTORY:
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-- 24 FEB 96 SAIC Initial release for 2.1
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-- 03 JUN 98 EDS Correct the test program's incorrect assumption
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-- that Constraint_Error must be raised by complex
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-- division by zero, which is contrary to the
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-- allowance given by the Ada 95 standard G.1.1(40).
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-- 13 MAR 01 RLB Replaced commented out Pure check on non-generic
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-- packages, as required by Defect Report
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-- 8652/0020 and as reflected in Technical
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-- Corrigendum 1.
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--!
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------------------------------------------------------------------------------
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-- Check that the required pure packages are pure by withing them from a
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-- pure package. The non-generic versions of those packages are required to
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-- be pure by Defect Report 8652/0020, Technical Corrigendum 1 [A.5.1(9/1) and
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-- G.1.1(25/1)].
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with Ada.Numerics.Generic_Elementary_Functions;
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with Ada.Numerics.Elementary_Functions;
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with Ada.Numerics.Generic_Complex_Types;
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with Ada.Numerics.Complex_Types;
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with Ada.Numerics.Generic_Complex_Elementary_Functions;
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with Ada.Numerics.Complex_Elementary_Functions;
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package CXG2008_0 is
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pragma Pure;
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-- CRC Standard Mathematical Tables; 23rd Edition; pg 738
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Sqrt2 : constant :=
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1.41421_35623_73095_04880_16887_24209_69807_85696_71875_37695;
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Sqrt3 : constant :=
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1.73205_08075_68877_29352_74463_41505_87236_69428_05253_81039;
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end CXG2008_0;
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------------------------------------------------------------------------------
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with System;
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with Report;
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with Ada.Numerics.Generic_Complex_Types;
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with Ada.Numerics.Complex_Types;
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with CXG2008_0; use CXG2008_0;
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procedure CXG2008 is
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Verbose : constant Boolean := False;
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package Float_Check is
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subtype Real is Float;
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procedure Do_Test;
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end Float_Check;
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package body Float_Check is
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package Complex_Types is new
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Ada.Numerics.Generic_Complex_Types (Real);
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use Complex_Types;
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-- keep track if an accuracy failure has occurred so the test
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-- can be short-circuited to avoid thousands of error messages.
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Failure_Detected : Boolean := False;
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Mult_MBE : constant Real := 5.0;
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Divide_MBE : constant Real := 13.0;
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procedure Check (Actual, Expected : Complex;
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Test_Name : String;
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MBE : Real) is
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Rel_Error : Real;
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Abs_Error : Real;
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Max_Error : Real;
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begin
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-- In the case where the expected result is very small or 0
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-- we compute the maximum error as a multiple of Model_Epsilon instead
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-- of Model_Epsilon and Expected.
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Rel_Error := MBE * abs Expected.Re * Real'Model_Epsilon;
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Abs_Error := MBE * Real'Model_Epsilon;
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if Rel_Error > Abs_Error then
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Max_Error := Rel_Error;
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else
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Max_Error := Abs_Error;
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end if;
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if abs (Actual.Re - Expected.Re) > Max_Error then
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Failure_Detected := True;
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Report.Failed (Test_Name &
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" actual.re: " & Real'Image (Actual.Re) &
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" expected.re: " & Real'Image (Expected.Re) &
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" difference.re " &
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Real'Image (Actual.Re - Expected.Re) &
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" mre:" & Real'Image (Max_Error) );
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elsif Verbose then
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if Actual = Expected then
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Report.Comment (Test_Name & " exact result for real part");
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else
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Report.Comment (Test_Name & " passed for real part");
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end if;
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end if;
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Rel_Error := MBE * abs Expected.Im * Real'Model_Epsilon;
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if Rel_Error > Abs_Error then
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Max_Error := Rel_Error;
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else
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Max_Error := Abs_Error;
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end if;
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if abs (Actual.Im - Expected.Im) > Max_Error then
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Failure_Detected := True;
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Report.Failed (Test_Name &
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" actual.im: " & Real'Image (Actual.Im) &
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" expected.im: " & Real'Image (Expected.Im) &
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" difference.im " &
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Real'Image (Actual.Im - Expected.Im) &
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" mre:" & Real'Image (Max_Error) );
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elsif Verbose then
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if Actual = Expected then
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Report.Comment (Test_Name & " exact result for imaginary part");
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else
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Report.Comment (Test_Name & " passed for imaginary part");
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end if;
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end if;
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end Check;
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procedure Special_Values is
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begin
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--- test 1 ---
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declare
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T : constant := (Real'Machine_EMax - 1) / 2;
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Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
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Expected : Complex := (0.0, 0.0);
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X : Complex := (0.0, 0.0);
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Y : Complex := (Big, Big);
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Z : Complex;
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begin
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Z := X * Y;
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Check (Z, Expected, "test 1a -- (0+0i) * (big+big*i)",
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Mult_MBE);
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Z := Y * X;
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Check (Z, Expected, "test 1b -- (big+big*i) * (0+0i)",
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Mult_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error raised in test 1");
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when others =>
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Report.Failed ("exception in test 1");
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end;
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--- test 2 ---
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declare
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T : constant := Real'Model_EMin + 1;
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Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
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U : Complex := (Tiny, Tiny);
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X : Complex := (0.0, 0.0);
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Expected : Complex := (0.0, 0.0);
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Z : Complex;
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begin
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Z := U * X;
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Check (Z, Expected, "test 2 -- (tiny,tiny) * (0,0)",
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Mult_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error raised in test 2");
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when others =>
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Report.Failed ("exception in test 2");
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end;
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--- test 3 ---
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declare
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T : constant := (Real'Machine_EMax - 1) / 2;
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Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
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B : Complex := (Big, Big);
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X : Complex := (0.0, 0.0);
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Z : Complex;
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begin
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if Real'Machine_Overflows then
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Z := B / X;
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Report.Failed ("test 3 - Constraint_Error not raised");
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Check (Z, Z, "not executed - optimizer thwarting", 0.0);
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end if;
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exception
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when Constraint_Error => null; -- expected
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when others =>
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Report.Failed ("exception in test 3");
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end;
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--- test 4 ---
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declare
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T : constant := Real'Model_EMin + 1;
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Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
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U : Complex := (Tiny, Tiny);
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X : Complex := (0.0, 0.0);
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Z : Complex;
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begin
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if Real'Machine_Overflows then
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Z := U / X;
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Report.Failed ("test 4 - Constraint_Error not raised");
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Check (Z, Z, "not executed - optimizer thwarting", 0.0);
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end if;
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exception
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when Constraint_Error => null; -- expected
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when others =>
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Report.Failed ("exception in test 4");
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end;
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--- test 5 ---
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declare
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X : Complex := (Sqrt2, Sqrt2);
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Z : Complex;
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Expected : constant Complex := (0.0, 4.0);
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begin
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Z := X * X;
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Check (Z, Expected, "test 5 -- (sqrt2,sqrt2) * (sqrt2,sqrt2)",
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Mult_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error raised in test 5");
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when others =>
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Report.Failed ("exception in test 5");
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end;
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--- test 6 ---
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declare
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X : Complex := Sqrt3 - Sqrt3 * i;
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Z : Complex;
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Expected : constant Complex := (0.0, -6.0);
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begin
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Z := X * X;
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Check (Z, Expected, "test 6 -- (sqrt3,-sqrt3) * (sqrt3,-sqrt3)",
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Mult_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error raised in test 6");
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when others =>
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Report.Failed ("exception in test 6");
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end;
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--- test 7 ---
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declare
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X : Complex := Sqrt2 + Sqrt2 * i;
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Y : Complex := Sqrt2 - Sqrt2 * i;
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Z : Complex;
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Expected : constant Complex := 0.0 + i;
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begin
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Z := X / Y;
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Check (Z, Expected, "test 7 -- (sqrt2,sqrt2) / (sqrt2,-sqrt2)",
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Divide_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error raised in test 7");
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when others =>
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Report.Failed ("exception in test 7");
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end;
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end Special_Values;
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procedure Do_Mult_Div (X, Y : Complex) is
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Z : Complex;
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Args : constant String :=
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"X=(" & Real'Image (X.Re) & "," & Real'Image (X.Im) & ") " &
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"Y=(" & Real'Image (Y.Re) & "," & Real'Image (Y.Im) & ") " ;
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begin
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Z := (X * X) / X;
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Check (Z, X, "X*X/X " & Args, Mult_MBE + Divide_MBE);
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Z := (X * Y) / X;
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Check (Z, Y, "X*Y/X " & Args, Mult_MBE + Divide_MBE);
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Z := (X * Y) / Y;
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Check (Z, X, "X*Y/Y " & Args, Mult_MBE + Divide_MBE);
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exception
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when Constraint_Error =>
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Report.Failed ("Constraint_Error in Do_Mult_Div for " & Args);
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when others =>
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Report.Failed ("exception in Do_Mult_Div for " & Args);
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end Do_Mult_Div;
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-- select complex values X and Y where the real and imaginary
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-- parts are selected from the ranges (1/radix..1) and
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-- (1..radix). This translates into quite a few combinations.
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procedure Mult_Div_Check is
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Samples : constant := 17;
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Radix : constant Real := Real(Real'Machine_Radix);
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Inv_Radix : constant Real := 1.0 / Real(Real'Machine_Radix);
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Low_Sample : Real; -- (1/radix .. 1)
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High_Sample : Real; -- (1 .. radix)
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Sample : array (1..2) of Real;
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X, Y : Complex;
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begin
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for I in 1 .. Samples loop
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Low_Sample := (1.0 - Inv_Radix) / Real (Samples) * Real (I) +
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Inv_Radix;
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Sample (1) := Low_Sample;
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for J in 1 .. Samples loop
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High_Sample := (Radix - 1.0) / Real (Samples) * Real (I) +
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Radix;
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Sample (2) := High_Sample;
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for K in 1 .. 2 loop
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for L in 1 .. 2 loop
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|
|
X := Complex'(Sample (K), Sample (L));
|
350 |
|
|
Y := Complex'(Sample (L), Sample (K));
|
351 |
|
|
Do_Mult_Div (X, Y);
|
352 |
|
|
if Failure_Detected then
|
353 |
|
|
return; -- minimize flood of error messages
|
354 |
|
|
end if;
|
355 |
|
|
end loop;
|
356 |
|
|
end loop;
|
357 |
|
|
end loop; -- J
|
358 |
|
|
end loop; -- I
|
359 |
|
|
end Mult_Div_Check;
|
360 |
|
|
|
361 |
|
|
|
362 |
|
|
procedure Do_Test is
|
363 |
|
|
begin
|
364 |
|
|
Special_Values;
|
365 |
|
|
Mult_Div_Check;
|
366 |
|
|
end Do_Test;
|
367 |
|
|
end Float_Check;
|
368 |
|
|
|
369 |
|
|
-----------------------------------------------------------------------
|
370 |
|
|
-----------------------------------------------------------------------
|
371 |
|
|
-- check the floating point type with the most digits
|
372 |
|
|
|
373 |
|
|
package A_Long_Float_Check is
|
374 |
|
|
type A_Long_Float is digits System.Max_Digits;
|
375 |
|
|
subtype Real is A_Long_Float;
|
376 |
|
|
procedure Do_Test;
|
377 |
|
|
end A_Long_Float_Check;
|
378 |
|
|
|
379 |
|
|
package body A_Long_Float_Check is
|
380 |
|
|
|
381 |
|
|
package Complex_Types is new
|
382 |
|
|
Ada.Numerics.Generic_Complex_Types (Real);
|
383 |
|
|
use Complex_Types;
|
384 |
|
|
|
385 |
|
|
-- keep track if an accuracy failure has occurred so the test
|
386 |
|
|
-- can be short-circuited to avoid thousands of error messages.
|
387 |
|
|
Failure_Detected : Boolean := False;
|
388 |
|
|
|
389 |
|
|
Mult_MBE : constant Real := 5.0;
|
390 |
|
|
Divide_MBE : constant Real := 13.0;
|
391 |
|
|
|
392 |
|
|
|
393 |
|
|
procedure Check (Actual, Expected : Complex;
|
394 |
|
|
Test_Name : String;
|
395 |
|
|
MBE : Real) is
|
396 |
|
|
Rel_Error : Real;
|
397 |
|
|
Abs_Error : Real;
|
398 |
|
|
Max_Error : Real;
|
399 |
|
|
begin
|
400 |
|
|
-- In the case where the expected result is very small or 0
|
401 |
|
|
-- we compute the maximum error as a multiple of Model_Epsilon instead
|
402 |
|
|
-- of Model_Epsilon and Expected.
|
403 |
|
|
Rel_Error := MBE * abs Expected.Re * Real'Model_Epsilon;
|
404 |
|
|
Abs_Error := MBE * Real'Model_Epsilon;
|
405 |
|
|
if Rel_Error > Abs_Error then
|
406 |
|
|
Max_Error := Rel_Error;
|
407 |
|
|
else
|
408 |
|
|
Max_Error := Abs_Error;
|
409 |
|
|
end if;
|
410 |
|
|
|
411 |
|
|
if abs (Actual.Re - Expected.Re) > Max_Error then
|
412 |
|
|
Failure_Detected := True;
|
413 |
|
|
Report.Failed (Test_Name &
|
414 |
|
|
" actual.re: " & Real'Image (Actual.Re) &
|
415 |
|
|
" expected.re: " & Real'Image (Expected.Re) &
|
416 |
|
|
" difference.re " &
|
417 |
|
|
Real'Image (Actual.Re - Expected.Re) &
|
418 |
|
|
" mre:" & Real'Image (Max_Error) );
|
419 |
|
|
elsif Verbose then
|
420 |
|
|
if Actual = Expected then
|
421 |
|
|
Report.Comment (Test_Name & " exact result for real part");
|
422 |
|
|
else
|
423 |
|
|
Report.Comment (Test_Name & " passed for real part");
|
424 |
|
|
end if;
|
425 |
|
|
end if;
|
426 |
|
|
|
427 |
|
|
Rel_Error := MBE * abs Expected.Im * Real'Model_Epsilon;
|
428 |
|
|
if Rel_Error > Abs_Error then
|
429 |
|
|
Max_Error := Rel_Error;
|
430 |
|
|
else
|
431 |
|
|
Max_Error := Abs_Error;
|
432 |
|
|
end if;
|
433 |
|
|
if abs (Actual.Im - Expected.Im) > Max_Error then
|
434 |
|
|
Failure_Detected := True;
|
435 |
|
|
Report.Failed (Test_Name &
|
436 |
|
|
" actual.im: " & Real'Image (Actual.Im) &
|
437 |
|
|
" expected.im: " & Real'Image (Expected.Im) &
|
438 |
|
|
" difference.im " &
|
439 |
|
|
Real'Image (Actual.Im - Expected.Im) &
|
440 |
|
|
" mre:" & Real'Image (Max_Error) );
|
441 |
|
|
elsif Verbose then
|
442 |
|
|
if Actual = Expected then
|
443 |
|
|
Report.Comment (Test_Name & " exact result for imaginary part");
|
444 |
|
|
else
|
445 |
|
|
Report.Comment (Test_Name & " passed for imaginary part");
|
446 |
|
|
end if;
|
447 |
|
|
end if;
|
448 |
|
|
end Check;
|
449 |
|
|
|
450 |
|
|
|
451 |
|
|
procedure Special_Values is
|
452 |
|
|
begin
|
453 |
|
|
|
454 |
|
|
--- test 1 ---
|
455 |
|
|
declare
|
456 |
|
|
T : constant := (Real'Machine_EMax - 1) / 2;
|
457 |
|
|
Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
|
458 |
|
|
Expected : Complex := (0.0, 0.0);
|
459 |
|
|
X : Complex := (0.0, 0.0);
|
460 |
|
|
Y : Complex := (Big, Big);
|
461 |
|
|
Z : Complex;
|
462 |
|
|
begin
|
463 |
|
|
Z := X * Y;
|
464 |
|
|
Check (Z, Expected, "test 1a -- (0+0i) * (big+big*i)",
|
465 |
|
|
Mult_MBE);
|
466 |
|
|
Z := Y * X;
|
467 |
|
|
Check (Z, Expected, "test 1b -- (big+big*i) * (0+0i)",
|
468 |
|
|
Mult_MBE);
|
469 |
|
|
exception
|
470 |
|
|
when Constraint_Error =>
|
471 |
|
|
Report.Failed ("Constraint_Error raised in test 1");
|
472 |
|
|
when others =>
|
473 |
|
|
Report.Failed ("exception in test 1");
|
474 |
|
|
end;
|
475 |
|
|
|
476 |
|
|
--- test 2 ---
|
477 |
|
|
declare
|
478 |
|
|
T : constant := Real'Model_EMin + 1;
|
479 |
|
|
Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
|
480 |
|
|
U : Complex := (Tiny, Tiny);
|
481 |
|
|
X : Complex := (0.0, 0.0);
|
482 |
|
|
Expected : Complex := (0.0, 0.0);
|
483 |
|
|
Z : Complex;
|
484 |
|
|
begin
|
485 |
|
|
Z := U * X;
|
486 |
|
|
Check (Z, Expected, "test 2 -- (tiny,tiny) * (0,0)",
|
487 |
|
|
Mult_MBE);
|
488 |
|
|
exception
|
489 |
|
|
when Constraint_Error =>
|
490 |
|
|
Report.Failed ("Constraint_Error raised in test 2");
|
491 |
|
|
when others =>
|
492 |
|
|
Report.Failed ("exception in test 2");
|
493 |
|
|
end;
|
494 |
|
|
|
495 |
|
|
--- test 3 ---
|
496 |
|
|
declare
|
497 |
|
|
T : constant := (Real'Machine_EMax - 1) / 2;
|
498 |
|
|
Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
|
499 |
|
|
B : Complex := (Big, Big);
|
500 |
|
|
X : Complex := (0.0, 0.0);
|
501 |
|
|
Z : Complex;
|
502 |
|
|
begin
|
503 |
|
|
if Real'Machine_Overflows then
|
504 |
|
|
Z := B / X;
|
505 |
|
|
Report.Failed ("test 3 - Constraint_Error not raised");
|
506 |
|
|
Check (Z, Z, "not executed - optimizer thwarting", 0.0);
|
507 |
|
|
end if;
|
508 |
|
|
exception
|
509 |
|
|
when Constraint_Error => null; -- expected
|
510 |
|
|
when others =>
|
511 |
|
|
Report.Failed ("exception in test 3");
|
512 |
|
|
end;
|
513 |
|
|
|
514 |
|
|
--- test 4 ---
|
515 |
|
|
declare
|
516 |
|
|
T : constant := Real'Model_EMin + 1;
|
517 |
|
|
Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
|
518 |
|
|
U : Complex := (Tiny, Tiny);
|
519 |
|
|
X : Complex := (0.0, 0.0);
|
520 |
|
|
Z : Complex;
|
521 |
|
|
begin
|
522 |
|
|
if Real'Machine_Overflows then
|
523 |
|
|
Z := U / X;
|
524 |
|
|
Report.Failed ("test 4 - Constraint_Error not raised");
|
525 |
|
|
Check (Z, Z, "not executed - optimizer thwarting", 0.0);
|
526 |
|
|
end if;
|
527 |
|
|
exception
|
528 |
|
|
when Constraint_Error => null; -- expected
|
529 |
|
|
when others =>
|
530 |
|
|
Report.Failed ("exception in test 4");
|
531 |
|
|
end;
|
532 |
|
|
|
533 |
|
|
|
534 |
|
|
--- test 5 ---
|
535 |
|
|
declare
|
536 |
|
|
X : Complex := (Sqrt2, Sqrt2);
|
537 |
|
|
Z : Complex;
|
538 |
|
|
Expected : constant Complex := (0.0, 4.0);
|
539 |
|
|
begin
|
540 |
|
|
Z := X * X;
|
541 |
|
|
Check (Z, Expected, "test 5 -- (sqrt2,sqrt2) * (sqrt2,sqrt2)",
|
542 |
|
|
Mult_MBE);
|
543 |
|
|
exception
|
544 |
|
|
when Constraint_Error =>
|
545 |
|
|
Report.Failed ("Constraint_Error raised in test 5");
|
546 |
|
|
when others =>
|
547 |
|
|
Report.Failed ("exception in test 5");
|
548 |
|
|
end;
|
549 |
|
|
|
550 |
|
|
--- test 6 ---
|
551 |
|
|
declare
|
552 |
|
|
X : Complex := Sqrt3 - Sqrt3 * i;
|
553 |
|
|
Z : Complex;
|
554 |
|
|
Expected : constant Complex := (0.0, -6.0);
|
555 |
|
|
begin
|
556 |
|
|
Z := X * X;
|
557 |
|
|
Check (Z, Expected, "test 6 -- (sqrt3,-sqrt3) * (sqrt3,-sqrt3)",
|
558 |
|
|
Mult_MBE);
|
559 |
|
|
exception
|
560 |
|
|
when Constraint_Error =>
|
561 |
|
|
Report.Failed ("Constraint_Error raised in test 6");
|
562 |
|
|
when others =>
|
563 |
|
|
Report.Failed ("exception in test 6");
|
564 |
|
|
end;
|
565 |
|
|
|
566 |
|
|
--- test 7 ---
|
567 |
|
|
declare
|
568 |
|
|
X : Complex := Sqrt2 + Sqrt2 * i;
|
569 |
|
|
Y : Complex := Sqrt2 - Sqrt2 * i;
|
570 |
|
|
Z : Complex;
|
571 |
|
|
Expected : constant Complex := 0.0 + i;
|
572 |
|
|
begin
|
573 |
|
|
Z := X / Y;
|
574 |
|
|
Check (Z, Expected, "test 7 -- (sqrt2,sqrt2) / (sqrt2,-sqrt2)",
|
575 |
|
|
Divide_MBE);
|
576 |
|
|
exception
|
577 |
|
|
when Constraint_Error =>
|
578 |
|
|
Report.Failed ("Constraint_Error raised in test 7");
|
579 |
|
|
when others =>
|
580 |
|
|
Report.Failed ("exception in test 7");
|
581 |
|
|
end;
|
582 |
|
|
end Special_Values;
|
583 |
|
|
|
584 |
|
|
|
585 |
|
|
procedure Do_Mult_Div (X, Y : Complex) is
|
586 |
|
|
Z : Complex;
|
587 |
|
|
Args : constant String :=
|
588 |
|
|
"X=(" & Real'Image (X.Re) & "," & Real'Image (X.Im) & ") " &
|
589 |
|
|
"Y=(" & Real'Image (Y.Re) & "," & Real'Image (Y.Im) & ") " ;
|
590 |
|
|
begin
|
591 |
|
|
Z := (X * X) / X;
|
592 |
|
|
Check (Z, X, "X*X/X " & Args, Mult_MBE + Divide_MBE);
|
593 |
|
|
Z := (X * Y) / X;
|
594 |
|
|
Check (Z, Y, "X*Y/X " & Args, Mult_MBE + Divide_MBE);
|
595 |
|
|
Z := (X * Y) / Y;
|
596 |
|
|
Check (Z, X, "X*Y/Y " & Args, Mult_MBE + Divide_MBE);
|
597 |
|
|
exception
|
598 |
|
|
when Constraint_Error =>
|
599 |
|
|
Report.Failed ("Constraint_Error in Do_Mult_Div for " & Args);
|
600 |
|
|
when others =>
|
601 |
|
|
Report.Failed ("exception in Do_Mult_Div for " & Args);
|
602 |
|
|
end Do_Mult_Div;
|
603 |
|
|
|
604 |
|
|
-- select complex values X and Y where the real and imaginary
|
605 |
|
|
-- parts are selected from the ranges (1/radix..1) and
|
606 |
|
|
-- (1..radix). This translates into quite a few combinations.
|
607 |
|
|
procedure Mult_Div_Check is
|
608 |
|
|
Samples : constant := 17;
|
609 |
|
|
Radix : constant Real := Real(Real'Machine_Radix);
|
610 |
|
|
Inv_Radix : constant Real := 1.0 / Real(Real'Machine_Radix);
|
611 |
|
|
Low_Sample : Real; -- (1/radix .. 1)
|
612 |
|
|
High_Sample : Real; -- (1 .. radix)
|
613 |
|
|
Sample : array (1..2) of Real;
|
614 |
|
|
X, Y : Complex;
|
615 |
|
|
begin
|
616 |
|
|
for I in 1 .. Samples loop
|
617 |
|
|
Low_Sample := (1.0 - Inv_Radix) / Real (Samples) * Real (I) +
|
618 |
|
|
Inv_Radix;
|
619 |
|
|
Sample (1) := Low_Sample;
|
620 |
|
|
for J in 1 .. Samples loop
|
621 |
|
|
High_Sample := (Radix - 1.0) / Real (Samples) * Real (I) +
|
622 |
|
|
Radix;
|
623 |
|
|
Sample (2) := High_Sample;
|
624 |
|
|
for K in 1 .. 2 loop
|
625 |
|
|
for L in 1 .. 2 loop
|
626 |
|
|
X := Complex'(Sample (K), Sample (L));
|
627 |
|
|
Y := Complex'(Sample (L), Sample (K));
|
628 |
|
|
Do_Mult_Div (X, Y);
|
629 |
|
|
if Failure_Detected then
|
630 |
|
|
return; -- minimize flood of error messages
|
631 |
|
|
end if;
|
632 |
|
|
end loop;
|
633 |
|
|
end loop;
|
634 |
|
|
end loop; -- J
|
635 |
|
|
end loop; -- I
|
636 |
|
|
end Mult_Div_Check;
|
637 |
|
|
|
638 |
|
|
|
639 |
|
|
procedure Do_Test is
|
640 |
|
|
begin
|
641 |
|
|
Special_Values;
|
642 |
|
|
Mult_Div_Check;
|
643 |
|
|
end Do_Test;
|
644 |
|
|
end A_Long_Float_Check;
|
645 |
|
|
|
646 |
|
|
-----------------------------------------------------------------------
|
647 |
|
|
-----------------------------------------------------------------------
|
648 |
|
|
|
649 |
|
|
package Non_Generic_Check is
|
650 |
|
|
subtype Real is Float;
|
651 |
|
|
procedure Do_Test;
|
652 |
|
|
end Non_Generic_Check;
|
653 |
|
|
|
654 |
|
|
package body Non_Generic_Check is
|
655 |
|
|
|
656 |
|
|
use Ada.Numerics.Complex_Types;
|
657 |
|
|
|
658 |
|
|
-- keep track if an accuracy failure has occurred so the test
|
659 |
|
|
-- can be short-circuited to avoid thousands of error messages.
|
660 |
|
|
Failure_Detected : Boolean := False;
|
661 |
|
|
|
662 |
|
|
Mult_MBE : constant Real := 5.0;
|
663 |
|
|
Divide_MBE : constant Real := 13.0;
|
664 |
|
|
|
665 |
|
|
|
666 |
|
|
procedure Check (Actual, Expected : Complex;
|
667 |
|
|
Test_Name : String;
|
668 |
|
|
MBE : Real) is
|
669 |
|
|
Rel_Error : Real;
|
670 |
|
|
Abs_Error : Real;
|
671 |
|
|
Max_Error : Real;
|
672 |
|
|
begin
|
673 |
|
|
-- In the case where the expected result is very small or 0
|
674 |
|
|
-- we compute the maximum error as a multiple of Model_Epsilon instead
|
675 |
|
|
-- of Model_Epsilon and Expected.
|
676 |
|
|
Rel_Error := MBE * abs Expected.Re * Real'Model_Epsilon;
|
677 |
|
|
Abs_Error := MBE * Real'Model_Epsilon;
|
678 |
|
|
if Rel_Error > Abs_Error then
|
679 |
|
|
Max_Error := Rel_Error;
|
680 |
|
|
else
|
681 |
|
|
Max_Error := Abs_Error;
|
682 |
|
|
end if;
|
683 |
|
|
|
684 |
|
|
if abs (Actual.Re - Expected.Re) > Max_Error then
|
685 |
|
|
Failure_Detected := True;
|
686 |
|
|
Report.Failed (Test_Name &
|
687 |
|
|
" actual.re: " & Real'Image (Actual.Re) &
|
688 |
|
|
" expected.re: " & Real'Image (Expected.Re) &
|
689 |
|
|
" difference.re " &
|
690 |
|
|
Real'Image (Actual.Re - Expected.Re) &
|
691 |
|
|
" mre:" & Real'Image (Max_Error) );
|
692 |
|
|
elsif Verbose then
|
693 |
|
|
if Actual = Expected then
|
694 |
|
|
Report.Comment (Test_Name & " exact result for real part");
|
695 |
|
|
else
|
696 |
|
|
Report.Comment (Test_Name & " passed for real part");
|
697 |
|
|
end if;
|
698 |
|
|
end if;
|
699 |
|
|
|
700 |
|
|
Rel_Error := MBE * abs Expected.Im * Real'Model_Epsilon;
|
701 |
|
|
if Rel_Error > Abs_Error then
|
702 |
|
|
Max_Error := Rel_Error;
|
703 |
|
|
else
|
704 |
|
|
Max_Error := Abs_Error;
|
705 |
|
|
end if;
|
706 |
|
|
if abs (Actual.Im - Expected.Im) > Max_Error then
|
707 |
|
|
Failure_Detected := True;
|
708 |
|
|
Report.Failed (Test_Name &
|
709 |
|
|
" actual.im: " & Real'Image (Actual.Im) &
|
710 |
|
|
" expected.im: " & Real'Image (Expected.Im) &
|
711 |
|
|
" difference.im " &
|
712 |
|
|
Real'Image (Actual.Im - Expected.Im) &
|
713 |
|
|
" mre:" & Real'Image (Max_Error) );
|
714 |
|
|
elsif Verbose then
|
715 |
|
|
if Actual = Expected then
|
716 |
|
|
Report.Comment (Test_Name & " exact result for imaginary part");
|
717 |
|
|
else
|
718 |
|
|
Report.Comment (Test_Name & " passed for imaginary part");
|
719 |
|
|
end if;
|
720 |
|
|
end if;
|
721 |
|
|
end Check;
|
722 |
|
|
|
723 |
|
|
|
724 |
|
|
procedure Special_Values is
|
725 |
|
|
begin
|
726 |
|
|
|
727 |
|
|
--- test 1 ---
|
728 |
|
|
declare
|
729 |
|
|
T : constant := (Real'Machine_EMax - 1) / 2;
|
730 |
|
|
Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
|
731 |
|
|
Expected : Complex := (0.0, 0.0);
|
732 |
|
|
X : Complex := (0.0, 0.0);
|
733 |
|
|
Y : Complex := (Big, Big);
|
734 |
|
|
Z : Complex;
|
735 |
|
|
begin
|
736 |
|
|
Z := X * Y;
|
737 |
|
|
Check (Z, Expected, "test 1a -- (0+0i) * (big+big*i)",
|
738 |
|
|
Mult_MBE);
|
739 |
|
|
Z := Y * X;
|
740 |
|
|
Check (Z, Expected, "test 1b -- (big+big*i) * (0+0i)",
|
741 |
|
|
Mult_MBE);
|
742 |
|
|
exception
|
743 |
|
|
when Constraint_Error =>
|
744 |
|
|
Report.Failed ("Constraint_Error raised in test 1");
|
745 |
|
|
when others =>
|
746 |
|
|
Report.Failed ("exception in test 1");
|
747 |
|
|
end;
|
748 |
|
|
|
749 |
|
|
--- test 2 ---
|
750 |
|
|
declare
|
751 |
|
|
T : constant := Real'Model_EMin + 1;
|
752 |
|
|
Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
|
753 |
|
|
U : Complex := (Tiny, Tiny);
|
754 |
|
|
X : Complex := (0.0, 0.0);
|
755 |
|
|
Expected : Complex := (0.0, 0.0);
|
756 |
|
|
Z : Complex;
|
757 |
|
|
begin
|
758 |
|
|
Z := U * X;
|
759 |
|
|
Check (Z, Expected, "test 2 -- (tiny,tiny) * (0,0)",
|
760 |
|
|
Mult_MBE);
|
761 |
|
|
exception
|
762 |
|
|
when Constraint_Error =>
|
763 |
|
|
Report.Failed ("Constraint_Error raised in test 2");
|
764 |
|
|
when others =>
|
765 |
|
|
Report.Failed ("exception in test 2");
|
766 |
|
|
end;
|
767 |
|
|
|
768 |
|
|
--- test 3 ---
|
769 |
|
|
declare
|
770 |
|
|
T : constant := (Real'Machine_EMax - 1) / 2;
|
771 |
|
|
Big : constant := (1.0 * Real'Machine_Radix) ** (2 * T);
|
772 |
|
|
B : Complex := (Big, Big);
|
773 |
|
|
X : Complex := (0.0, 0.0);
|
774 |
|
|
Z : Complex;
|
775 |
|
|
begin
|
776 |
|
|
if Real'Machine_Overflows then
|
777 |
|
|
Z := B / X;
|
778 |
|
|
Report.Failed ("test 3 - Constraint_Error not raised");
|
779 |
|
|
Check (Z, Z, "not executed - optimizer thwarting", 0.0);
|
780 |
|
|
end if;
|
781 |
|
|
exception
|
782 |
|
|
when Constraint_Error => null; -- expected
|
783 |
|
|
when others =>
|
784 |
|
|
Report.Failed ("exception in test 3");
|
785 |
|
|
end;
|
786 |
|
|
|
787 |
|
|
--- test 4 ---
|
788 |
|
|
declare
|
789 |
|
|
T : constant := Real'Model_EMin + 1;
|
790 |
|
|
Tiny : constant := (1.0 * Real'Machine_Radix) ** T;
|
791 |
|
|
U : Complex := (Tiny, Tiny);
|
792 |
|
|
X : Complex := (0.0, 0.0);
|
793 |
|
|
Z : Complex;
|
794 |
|
|
begin
|
795 |
|
|
if Real'Machine_Overflows then
|
796 |
|
|
Z := U / X;
|
797 |
|
|
Report.Failed ("test 4 - Constraint_Error not raised");
|
798 |
|
|
Check (Z, Z, "not executed - optimizer thwarting", 0.0);
|
799 |
|
|
end if;
|
800 |
|
|
exception
|
801 |
|
|
when Constraint_Error => null; -- expected
|
802 |
|
|
when others =>
|
803 |
|
|
Report.Failed ("exception in test 4");
|
804 |
|
|
end;
|
805 |
|
|
|
806 |
|
|
|
807 |
|
|
--- test 5 ---
|
808 |
|
|
declare
|
809 |
|
|
X : Complex := (Sqrt2, Sqrt2);
|
810 |
|
|
Z : Complex;
|
811 |
|
|
Expected : constant Complex := (0.0, 4.0);
|
812 |
|
|
begin
|
813 |
|
|
Z := X * X;
|
814 |
|
|
Check (Z, Expected, "test 5 -- (sqrt2,sqrt2) * (sqrt2,sqrt2)",
|
815 |
|
|
Mult_MBE);
|
816 |
|
|
exception
|
817 |
|
|
when Constraint_Error =>
|
818 |
|
|
Report.Failed ("Constraint_Error raised in test 5");
|
819 |
|
|
when others =>
|
820 |
|
|
Report.Failed ("exception in test 5");
|
821 |
|
|
end;
|
822 |
|
|
|
823 |
|
|
--- test 6 ---
|
824 |
|
|
declare
|
825 |
|
|
X : Complex := Sqrt3 - Sqrt3 * i;
|
826 |
|
|
Z : Complex;
|
827 |
|
|
Expected : constant Complex := (0.0, -6.0);
|
828 |
|
|
begin
|
829 |
|
|
Z := X * X;
|
830 |
|
|
Check (Z, Expected, "test 6 -- (sqrt3,-sqrt3) * (sqrt3,-sqrt3)",
|
831 |
|
|
Mult_MBE);
|
832 |
|
|
exception
|
833 |
|
|
when Constraint_Error =>
|
834 |
|
|
Report.Failed ("Constraint_Error raised in test 6");
|
835 |
|
|
when others =>
|
836 |
|
|
Report.Failed ("exception in test 6");
|
837 |
|
|
end;
|
838 |
|
|
|
839 |
|
|
--- test 7 ---
|
840 |
|
|
declare
|
841 |
|
|
X : Complex := Sqrt2 + Sqrt2 * i;
|
842 |
|
|
Y : Complex := Sqrt2 - Sqrt2 * i;
|
843 |
|
|
Z : Complex;
|
844 |
|
|
Expected : constant Complex := 0.0 + i;
|
845 |
|
|
begin
|
846 |
|
|
Z := X / Y;
|
847 |
|
|
Check (Z, Expected, "test 7 -- (sqrt2,sqrt2) / (sqrt2,-sqrt2)",
|
848 |
|
|
Divide_MBE);
|
849 |
|
|
exception
|
850 |
|
|
when Constraint_Error =>
|
851 |
|
|
Report.Failed ("Constraint_Error raised in test 7");
|
852 |
|
|
when others =>
|
853 |
|
|
Report.Failed ("exception in test 7");
|
854 |
|
|
end;
|
855 |
|
|
end Special_Values;
|
856 |
|
|
|
857 |
|
|
|
858 |
|
|
procedure Do_Mult_Div (X, Y : Complex) is
|
859 |
|
|
Z : Complex;
|
860 |
|
|
Args : constant String :=
|
861 |
|
|
"X=(" & Real'Image (X.Re) & "," & Real'Image (X.Im) & ") " &
|
862 |
|
|
"Y=(" & Real'Image (Y.Re) & "," & Real'Image (Y.Im) & ") " ;
|
863 |
|
|
begin
|
864 |
|
|
Z := (X * X) / X;
|
865 |
|
|
Check (Z, X, "X*X/X " & Args, Mult_MBE + Divide_MBE);
|
866 |
|
|
Z := (X * Y) / X;
|
867 |
|
|
Check (Z, Y, "X*Y/X " & Args, Mult_MBE + Divide_MBE);
|
868 |
|
|
Z := (X * Y) / Y;
|
869 |
|
|
Check (Z, X, "X*Y/Y " & Args, Mult_MBE + Divide_MBE);
|
870 |
|
|
exception
|
871 |
|
|
when Constraint_Error =>
|
872 |
|
|
Report.Failed ("Constraint_Error in Do_Mult_Div for " & Args);
|
873 |
|
|
when others =>
|
874 |
|
|
Report.Failed ("exception in Do_Mult_Div for " & Args);
|
875 |
|
|
end Do_Mult_Div;
|
876 |
|
|
|
877 |
|
|
-- select complex values X and Y where the real and imaginary
|
878 |
|
|
-- parts are selected from the ranges (1/radix..1) and
|
879 |
|
|
-- (1..radix). This translates into quite a few combinations.
|
880 |
|
|
procedure Mult_Div_Check is
|
881 |
|
|
Samples : constant := 17;
|
882 |
|
|
Radix : constant Real := Real(Real'Machine_Radix);
|
883 |
|
|
Inv_Radix : constant Real := 1.0 / Real(Real'Machine_Radix);
|
884 |
|
|
Low_Sample : Real; -- (1/radix .. 1)
|
885 |
|
|
High_Sample : Real; -- (1 .. radix)
|
886 |
|
|
Sample : array (1..2) of Real;
|
887 |
|
|
X, Y : Complex;
|
888 |
|
|
begin
|
889 |
|
|
for I in 1 .. Samples loop
|
890 |
|
|
Low_Sample := (1.0 - Inv_Radix) / Real (Samples) * Real (I) +
|
891 |
|
|
Inv_Radix;
|
892 |
|
|
Sample (1) := Low_Sample;
|
893 |
|
|
for J in 1 .. Samples loop
|
894 |
|
|
High_Sample := (Radix - 1.0) / Real (Samples) * Real (I) +
|
895 |
|
|
Radix;
|
896 |
|
|
Sample (2) := High_Sample;
|
897 |
|
|
for K in 1 .. 2 loop
|
898 |
|
|
for L in 1 .. 2 loop
|
899 |
|
|
X := Complex'(Sample (K), Sample (L));
|
900 |
|
|
Y := Complex'(Sample (L), Sample (K));
|
901 |
|
|
Do_Mult_Div (X, Y);
|
902 |
|
|
if Failure_Detected then
|
903 |
|
|
return; -- minimize flood of error messages
|
904 |
|
|
end if;
|
905 |
|
|
end loop;
|
906 |
|
|
end loop;
|
907 |
|
|
end loop; -- J
|
908 |
|
|
end loop; -- I
|
909 |
|
|
end Mult_Div_Check;
|
910 |
|
|
|
911 |
|
|
|
912 |
|
|
procedure Do_Test is
|
913 |
|
|
begin
|
914 |
|
|
Special_Values;
|
915 |
|
|
Mult_Div_Check;
|
916 |
|
|
end Do_Test;
|
917 |
|
|
end Non_Generic_Check;
|
918 |
|
|
|
919 |
|
|
-----------------------------------------------------------------------
|
920 |
|
|
-----------------------------------------------------------------------
|
921 |
|
|
|
922 |
|
|
begin
|
923 |
|
|
Report.Test ("CXG2008",
|
924 |
|
|
"Check the accuracy of the complex multiplication and" &
|
925 |
|
|
" division operators");
|
926 |
|
|
|
927 |
|
|
if Verbose then
|
928 |
|
|
Report.Comment ("checking Standard.Float");
|
929 |
|
|
end if;
|
930 |
|
|
|
931 |
|
|
Float_Check.Do_Test;
|
932 |
|
|
|
933 |
|
|
if Verbose then
|
934 |
|
|
Report.Comment ("checking a digits" &
|
935 |
|
|
Integer'Image (System.Max_Digits) &
|
936 |
|
|
" floating point type");
|
937 |
|
|
end if;
|
938 |
|
|
|
939 |
|
|
A_Long_Float_Check.Do_Test;
|
940 |
|
|
|
941 |
|
|
if Verbose then
|
942 |
|
|
Report.Comment ("checking non-generic package");
|
943 |
|
|
end if;
|
944 |
|
|
|
945 |
|
|
Non_Generic_Check.Do_Test;
|
946 |
|
|
|
947 |
|
|
Report.Result;
|
948 |
|
|
end CXG2008;
|