-- CXF2003.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 multiplying operators for a decimal fixed point type -- return values that are integral multiples of the small of the type. -- Check the case where the two operands are of different decimal -- fixed point types. -- -- Check that if the mathematical result is between multiples of the -- small of the result type, the result is truncated toward zero. -- Check that if the attribute 'Round is applied to the mathematical -- result, however, the result is rounded to the nearest multiple of -- the small (away from zero if the result is midway between two -- multiples of the small). -- -- TEST DESCRIPTION: -- Two decimal fixed point types A and B are declared, one with a -- Machine_Radix value of 2, and one with a value of 10. A third decimal -- fixed point type C is declared with digits and delta values different -- from those of A and B. For type A (and B), checks are performed -- on the following operations, where one operand type is C, and the -- other operand type and the result type is A (or B): -- -- - Multiplication. -- - Multiplication, where the attribute 'Round is applied to the -- result. -- - Division. -- - Division, where the attribute 'Round is applied to the result. -- -- Each operation is performed within a loop, where one operand is -- always the same variable. After the loop completes, the cumulative -- total contained in this variable is compared with the expected -- result. -- -- APPLICABILITY CRITERIA: -- This test is only applicable for a compiler attempting validation -- for the Information Systems Annex. -- -- -- CHANGE HISTORY: -- 22 Mar 96 SAIC Prerelease version for ACVC 2.1. -- --! generic type Decimal_Fixed_1 is delta <> digits <>; type Decimal_Fixed_2 is delta <> digits <>; package CXF2003_0 is procedure Multiply_And_Truncate (Balance : in out Decimal_Fixed_1; Factor : in Decimal_Fixed_2); procedure Divide_And_Truncate (Balance : in out Decimal_Fixed_1; Divisor : in Decimal_Fixed_2); procedure Multiply_And_Round (Balance : in out Decimal_Fixed_1; Factor : in Decimal_Fixed_2); procedure Divide_And_Round (Balance : in out Decimal_Fixed_1; Divisor : in Decimal_Fixed_2); end CXF2003_0; --==================================================================-- package body CXF2003_0 is procedure Multiply_And_Truncate (Balance : in out Decimal_Fixed_1; Factor : in Decimal_Fixed_2) is Interest : Decimal_Fixed_1; begin Interest := Factor * Balance; -- Fixed-fixed multiplication. Balance := Balance + Interest; end Multiply_And_Truncate; procedure Divide_And_Truncate (Balance : in out Decimal_Fixed_1; Divisor : in Decimal_Fixed_2) is Interest : Decimal_Fixed_1; begin Interest := Balance / Divisor; -- Fixed-fixed division. Balance := Balance + Interest; end Divide_And_Truncate; procedure Multiply_And_Round (Balance : in out Decimal_Fixed_1; Factor : in Decimal_Fixed_2) is Interest : Decimal_Fixed_1; begin -- Fixed-fixed multiplication. Interest := Decimal_Fixed_1'Round ( Factor * Balance ); Balance := Balance + Interest; end Multiply_And_Round; procedure Divide_And_Round (Balance : in out Decimal_Fixed_1; Divisor : in Decimal_Fixed_2) is Interest : Decimal_Fixed_1; begin -- Fixed-fixed division. Interest := Decimal_Fixed_1'Round ( Balance / Divisor ); Balance := Balance + Interest; end Divide_And_Round; end CXF2003_0; --==================================================================-- package CXF2003_1 is type Money_Radix2 is delta 0.01 digits 11; -- range -999,999,999.99 .. for Money_Radix2'Machine_Radix use 2; -- +999,999,999.99 type Money_Radix10 is delta 0.01 digits 11; -- range -999,999,999.99 .. for Money_Radix10'Machine_Radix use 10; -- +999,999,999.99 type Interest_Rate is delta 0.00001 digits 9; -- range -9999.99999 .. -- +9999.99999 end CXF2003_1; --==================================================================-- with CXF2003_0; with CXF2003_1; with Report; procedure CXF2003 is Loop_Count : constant := 1825; type Loop_Range is range 1 .. Loop_Count; begin Report.Test ("CXF2003", "Check decimal multiplication and division, and " & "'Round, where the operand types are different"); ---=---=---=---=---=---=---=---=---=---=--- RADIX_2_SUBTESTS: declare package Radix_2 is new CXF2003_0 (CXF2003_1.Money_Radix2, CXF2003_1.Interest_Rate); use type CXF2003_1.Money_Radix2; use type CXF2003_1.Interest_Rate; begin RADIX_2_MULTIPLICATION: declare Rate : CXF2003_1.Interest_Rate := 0.198; Period : Integer := 365; Factor : CXF2003_1.Interest_Rate := Rate / Period; Initial : constant CXF2003_1.Money_Radix2 := 1_000.00; Trunc_Expected : constant CXF2003_1.Money_Radix2 := 2_662.94; Round_Expected : constant CXF2003_1.Money_Radix2 := 2_678.34; Balance : CXF2003_1.Money_Radix2; begin ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_2.Multiply_And_Truncate (Balance, Factor); end loop; if Balance /= Trunc_Expected then Report.Failed ("Wrong result: Radix 2 multiply and truncate"); end if; ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_2.Multiply_And_Round (Balance, Factor); end loop; if Balance /= Round_Expected then Report.Failed ("Wrong result: Radix 2 multiply and round"); end if; ---=---=---=---=---=---=--- end RADIX_2_MULTIPLICATION; RADIX_2_DIVISION: declare Rate : CXF2003_1.Interest_Rate := 0.129; Period : Integer := 365; Factor : CXF2003_1.Interest_Rate := Rate / Period; Divisor : CXF2003_1.Interest_Rate := 1.0 / Factor; Initial : constant CXF2003_1.Money_Radix2 := 14_626.52; Trunc_Expected : constant CXF2003_1.Money_Radix2 := 27_688.26; Round_Expected : constant CXF2003_1.Money_Radix2 := 27_701.12; Balance : CXF2003_1.Money_Radix2; begin ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_2.Divide_And_Truncate (Balance, Divisor); end loop; if Balance /= Trunc_Expected then Report.Failed ("Wrong result: Radix 2 divide and truncate"); end if; ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_2.Divide_And_Round (Balance, Divisor); end loop; if Balance /= Round_Expected then Report.Failed ("Wrong result: Radix 2 divide and round"); end if; ---=---=---=---=---=---=--- end RADIX_2_DIVISION; end RADIX_2_SUBTESTS; ---=---=---=---=---=---=---=---=---=---=--- RADIX_10_SUBTESTS: declare package Radix_10 is new CXF2003_0 (CXF2003_1.Money_Radix10, CXF2003_1.Interest_Rate); use type CXF2003_1.Money_Radix10; use type CXF2003_1.Interest_Rate; begin RADIX_10_MULTIPLICATION: declare Rate : CXF2003_1.Interest_Rate := 0.063; Period : Integer := 365; Factor : CXF2003_1.Interest_Rate := Rate / Period; Initial : constant CXF2003_1.Money_Radix10 := 314_036.10; Trunc_Expected : constant CXF2003_1.Money_Radix10 := 428_249.48; Round_Expected : constant CXF2003_1.Money_Radix10 := 428_260.52; Balance : CXF2003_1.Money_Radix10; begin ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_10.Multiply_And_Truncate (Balance, Factor); end loop; if Balance /= Trunc_Expected then Report.Failed ("Wrong result: Radix 10 multiply and truncate"); end if; ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_10.Multiply_And_Round (Balance, Factor); end loop; if Balance /= Round_Expected then Report.Failed ("Wrong result: Radix 10 multiply and round"); end if; ---=---=---=---=---=---=--- end RADIX_10_MULTIPLICATION; RADIX_10_DIVISION: declare Rate : CXF2003_1.Interest_Rate := 0.273; Period : Integer := 365; Factor : CXF2003_1.Interest_Rate := Rate / Period; Divisor : CXF2003_1.Interest_Rate := 1.0 / Factor; Initial : constant CXF2003_1.Money_Radix10 := 25.72; Trunc_Expected : constant CXF2003_1.Money_Radix10 := 79.05; Round_Expected : constant CXF2003_1.Money_Radix10 := 97.46; Balance : CXF2003_1.Money_Radix10; begin ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_10.Divide_And_Truncate (Balance, Divisor); end loop; if Balance /= Trunc_Expected then Report.Failed ("Wrong result: Radix 10 divide and truncate"); end if; ---=---=---=---=---=---=--- Balance := Initial; for I in Loop_Range loop Radix_10.Divide_And_Round (Balance, Divisor); end loop; if Balance /= Round_Expected then Report.Failed ("Wrong result: Radix 10 divide and round"); end if; ---=---=---=---=---=---=--- end RADIX_10_DIVISION; end RADIX_10_SUBTESTS; ---=---=---=---=---=---=---=---=---=---=--- Report.Result; end CXF2003;