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-- CXG2001.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 floating point attributes Model_Mantissa,-- Machine_Mantissa, Machine_Radix, and Machine_Rounds-- are properly reported.---- TEST DESCRIPTION:-- This test uses a generic package to compute and check the-- values of the Machine_ attributes listed above. The-- generic package is instantiated with the standard FLOAT-- type and a floating point type for the maximum number-- of digits of precision.---- APPLICABILITY CRITERIA:-- This test applies only to implementations supporting the-- Numerics Annex.------ CHANGE HISTORY:-- 26 JAN 96 SAIC Initial Release for 2.1----!-- References:---- "Algorithms To Reveal Properties of Floating-Point Arithmetic"-- Michael A. Malcolm; CACM November 1972; pgs 949-951.---- Software Manual for Elementary Functions; W. J. Cody and W. Waite;-- Prentice-Hall; 1980--------------------------------------------------------------------------- This test relies upon the fact that-- (A+2.0)-A is not necessarily 2.0. If A is large enough then adding-- a small value to A does not change the value of A. Consider the case-- where we have a decimal based floating point representation with 4-- digits of precision. A floating point number would logically be-- represented as "DDDD * 10 ** exp" where D is a value in the range 0..9.-- The first loop of the test starts A at 2.0 and doubles it until-- ((A+1.0)-A)-1.0 is no longer zero. For our decimal floating point-- number this will be 1638 * 10**1 (the value 16384 rounded or truncated-- to fit in 4 digits).-- The second loop starts B at 2.0 and keeps doubling B until (A+B)-A is-- no longer 0. This will keep looping until B is 8.0 because that is-- the first value where rounding (assuming our machine rounds and addition-- employs a guard digit) will change the upper 4 digits of the result:-- 1638_-- + 8-- --------- 1639_-- Without rounding the second loop will continue until-- B is 16:-- 1638_-- + 16-- --------- 1639_---- The radix is then determined by (A+B)-A which will give 10.---- The use of Tmp and ITmp in the test is to force values to be-- stored into memory in the event that register precision is greater-- than the stored precision of the floating point values.------ The test for rounding is (ignoring the temporary variables used to-- get the stored precision) is-- Rounds := A + Radix/2.0 - A /= 0.0 ;-- where A is the value determined in the first step that is the smallest-- power of 2 such that A + 1.0 = A. This means that the true value of-- A has one more digit in its value than 'Machine_Mantissa.-- This check will detect the case where a value is always rounded.-- There is an additional case where values are rounded to the nearest-- even value. That is referred to as IEEE style rounding in the test.-------------------------------------------------------------------------with System;with Report;with Ada.Numerics.Generic_Elementary_Functions;procedure CXG2001 isVerbose : constant Boolean := False;-- if one of the attribute computation loops exceeds Max_Iterations-- it is most likely due to the compiler reordering an expression-- that should not be reordered.Illegal_Optimization : exception;Max_Iterations : constant := 10_000;generictype Real is digits <>;package Chk_Attrs isprocedure Do_Test;end Chk_Attrs;package body Chk_Attrs ispackage EF is new Ada.Numerics.Generic_Elementary_Functions (Real);function Log (X : Real) return Real renames EF.Log;-- names used in paperRadix : Integer; -- BetaMantissa_Digits : Integer; -- tRounds : Boolean; -- RND-- made global to Determine_Attributes to help thwart optimizationA, B : Real := 2.0;Tmp, Tmpa, Tmp1 : Real;ITmp : Integer;Half_Radix : Real;-- special constants - not declared as constants so that-- the "stored" precision will be used instead of a "register"-- precision.Zero : Real := 0.0;One : Real := 1.0;Two : Real := 2.0;procedure Thwart_Optimization is-- the purpose of this procedure is to reference the-- global variables used by Determine_Attributes so-- that the compiler is not likely to keep them in-- a higher precision register for their entire lifetime.beginif Report.Ident_Bool (False) then-- never executedA := A + 5.0;B := B + 6.0;Tmp := Tmp + 1.0;Tmp1 := Tmp1 + 2.0;Tmpa := Tmpa + 2.0;One := 12.34; Two := 56.78; Zero := 90.12;end if;end Thwart_Optimization;-- determines values for Radix, Mantissa_Digits, and Rounds-- This is mostly a straight translation of the C code.-- The only significant addition is the iteration count-- to prevent endless looping if things are really screwed up.procedure Determine_Attributes isIterations : Integer;beginRounds := True;Iterations := 0;Tmp := Real'Machine (((A + One) - A) - One);while Tmp = Zero loopA := Real'Machine(A + A);Tmp := Real'Machine(A + One);Tmp1 := Real'Machine(Tmp - A);Tmp := Real'Machine(Tmp1 - One);Iterations := Iterations + 1;if Iterations > Max_Iterations thenraise Illegal_Optimization;end if;end loop;Iterations := 0;Tmp := Real'Machine(A + B);ITmp := Integer (Tmp - A);while ITmp = 0 loopB := Real'Machine(B + B);Tmp := Real'Machine(A + B);ITmp := Integer (Tmp - A);Iterations := Iterations + 1;if Iterations > Max_Iterations thenraise Illegal_Optimization;end if;end loop;Radix := ITmp;Mantissa_Digits := 0;B := 1.0;Tmp := Real'Machine(((B + One) - B) - One);Iterations := 0;while (Tmp = Zero) loopMantissa_Digits := Mantissa_Digits + 1;B := B * Real (Radix);Tmp := Real'Machine(B + One);Tmp1 := Real'Machine(Tmp - B);Tmp := Real'Machine(Tmp1 - One);Iterations := Iterations + 1;if Iterations > Max_Iterations thenraise Illegal_Optimization;end if;end loop;Rounds := False;Half_Radix := Real (Radix) / Two;Tmp := Real'Machine(A + Half_Radix);Tmp1 := Real'Machine(Tmp - A);if (Tmp1 /= Zero) thenRounds := True;end if;Tmpa := Real'Machine(A + Real (Radix));Tmp := Real'Machine(Tmpa + Half_Radix);if not Rounds and (Tmp - TmpA /= Zero) thenRounds := True;if Verbose thenReport.Comment ("IEEE style rounding");end if;end if;exceptionwhen others =>Thwart_Optimization;raise;end Determine_Attributes;procedure Do_Test isShow_Results : Boolean := Verbose;Min_Mantissa_Digits : Integer;begin-- compute the actual Machine_* attribute valuesDetermine_Attributes;if Real'Machine_Radix /= Radix thenReport.Failed ("'Machine_Radix incorrectly reports" &Integer'Image (Real'Machine_Radix));Show_Results := True;end if;if Real'Machine_Mantissa /= Mantissa_Digits thenReport.Failed ("'Machine_Mantissa incorrectly reports" &Integer'Image (Real'Machine_Mantissa));Show_Results := True;end if;if Real'Machine_Rounds /= Rounds thenReport.Failed ("'Machine_Rounds incorrectly reports " &Boolean'Image (Real'Machine_Rounds));Show_Results := True;end if;if Show_Results thenReport.Comment ("computed Machine_Mantissa is" &Integer'Image (Mantissa_Digits));Report.Comment ("computed Radix is" &Integer'Image (Radix));Report.Comment ("computed Rounds is " &Boolean'Image (Rounds));end if;-- check the model attributes against the machine attributes-- G.2.2(3)/3;6.0if Real'Model_Mantissa > Real'Machine_Mantissa thenReport.Failed ("model mantissa > machine mantissa");end if;-- G.2.2(3)/2;6.0-- 'Model_Mantissa >= ceiling(d*log(10)/log(radix))+1Min_Mantissa_Digits :=Integer (Real'Ceiling (Real(Real'Digits) * Log(10.0) / Log(Real(Real'Machine_Radix))) ) + 1;if Real'Model_Mantissa < Min_Mantissa_Digits thenReport.Failed ("Model_Mantissa [" &Integer'Image (Real'Model_Mantissa) &"] < minimum mantissa digits [" &Integer'Image (Min_Mantissa_Digits) &"]");end if;exceptionwhen Illegal_Optimization =>Report.Failed ("illegal optimization of" &" floating point expression");end Do_Test;end Chk_Attrs;package Chk_Float is new Chk_Attrs (Float);-- check the floating point type with the most digitstype A_Long_Float is digits System.Max_Digits;package Chk_A_Long_Float is new Chk_Attrs (A_Long_Float);beginReport.Test ("CXG2001","Check the attributes Model_Mantissa," &" Machine_Mantissa, Machine_Radix," &" and Machine_Rounds");Report.Comment ("checking Standard.Float");Chk_Float.Do_Test;Report.Comment ("checking a digits" &Integer'Image (System.Max_Digits) &" floating point type");Chk_A_Long_Float.Do_Test;Report.Result;end CXG2001;