Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/ada/acats/tests/cxf/cxf2a01.a @ 111:04ced10e8804
gcc 7
| author | kono |
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| date | Fri, 27 Oct 2017 22:46:09 +0900 |
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-- CXF2A01.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 binary adding operators for a decimal fixed point type -- return values that are integral multiples of the small of the type. -- -- TEST DESCRIPTION: -- The test verifies that decimal addition and subtraction behave as -- expected for types with various digits, delta, and Machine_Radix -- values. Types with the minimum values for Decimal.Max_Digits and -- Decimal.Max_Scale (18) are included. -- -- Two kinds of checks are performed for each type. In the first check, -- the iteration, operation, and operand counts in the foundation and -- the operation tables in this test are given values such that, when the -- operations loop is complete, each operand will have been added to and -- subtracted from the loop's cumulator variable the same number of times, -- albeit in varying order. Thus, the result returned by the operations -- loop should have the same value as that used to initialize the -- cumulator (in this test, zero). -- -- In the second check, the same operation (addition for some types and -- subtraction for others) is performed during each loop iteration, -- resulting in a cumulative total which is checked against an expected -- value. -- -- TEST FILES: -- The following files comprise this test: -- -- FXF2A00.A -- -> CXF2A01.A -- -- APPLICABILITY CRITERIA: -- This test is only applicable for a compiler attempting validation -- for the Information Systems Annex. -- -- -- CHANGE HISTORY: -- 08 Apr 96 SAIC Prerelease version for ACVC 2.1. -- --! package CXF2A01_0 is ---=---=---=---=---=---=---=---=---=---=--- type Micro is delta 10.0**(-18) digits 18; -- range -0.999999999999999999 .. for Micro'Machine_Radix use 10; -- +0.999999999999999999 function Add (Left, Right : Micro) return Micro; function Subtract (Left, Right : Micro) return Micro; type Micro_Optr_Ptr is access function (Left, Right : Micro) return Micro; Micro_Add : Micro_Optr_Ptr := Add'Access; Micro_Sub : Micro_Optr_Ptr := Subtract'Access; ---=---=---=---=---=---=---=---=---=---=--- type Money is delta 0.01 digits 11; -- range -999,999,999.99 .. for Money'Machine_Radix use 2; -- +999,999,999.99 function Add (Left, Right : Money) return Money; function Subtract (Left, Right : Money) return Money; type Money_Optr_Ptr is access function (Left, Right : Money) return Money; Money_Add : Money_Optr_Ptr := Add'Access; Money_Sub : Money_Optr_Ptr := Subtract'Access; ---=---=---=---=---=---=---=---=---=---=--- -- Same as Money, but with Radix 10: type Cash is delta 0.01 digits 11; -- range -999,999,999.99 .. for Cash'Machine_Radix use 10; -- +999,999,999.99 function Add (Left, Right : Cash) return Cash; function Subtract (Left, Right : Cash) return Cash; type Cash_Optr_Ptr is access function (Left, Right : Cash) return Cash; Cash_Add : Cash_Optr_Ptr := Add'Access; Cash_Sub : Cash_Optr_Ptr := Subtract'Access; ---=---=---=---=---=---=---=---=---=---=--- type Broad is delta 10.0**(-9) digits 18; -- range -999,999,999.999999999 .. for Broad'Machine_Radix use 10; -- +999,999,999.999999999 function Add (Left, Right : Broad) return Broad; function Subtract (Left, Right : Broad) return Broad; type Broad_Optr_Ptr is access function (Left, Right : Broad) return Broad; Broad_Add : Broad_Optr_Ptr := Add'Access; Broad_Sub : Broad_Optr_Ptr := Subtract'Access; ---=---=---=---=---=---=---=---=---=---=--- end CXF2A01_0; --==================================================================-- package body CXF2A01_0 is ---=---=---=---=---=---=---=---=---=---=--- function Add (Left, Right : Micro) return Micro is begin return (Left + Right); -- Decimal fixed addition. end Add; function Subtract (Left, Right : Micro) return Micro is begin return (Left - Right); -- Decimal fixed subtraction. end Subtract; ---=---=---=---=---=---=---=---=---=---=--- function Add (Left, Right : Money) return Money is begin return (Left + Right); -- Decimal fixed addition. end Add; function Subtract (Left, Right : Money) return Money is begin return (Left - Right); -- Decimal fixed subtraction. end Subtract; ---=---=---=---=---=---=---=---=---=---=--- function Add (Left, Right : Cash) return Cash is begin return (Left + Right); -- Decimal fixed addition. end Add; function Subtract (Left, Right : Cash) return Cash is begin return (Left - Right); -- Decimal fixed subtraction. end Subtract; ---=---=---=---=---=---=---=---=---=---=--- function Add (Left, Right : Broad) return Broad is begin return (Left + Right); -- Decimal fixed addition. end Add; function Subtract (Left, Right : Broad) return Broad is begin return (Left - Right); -- Decimal fixed subtraction. end Subtract; ---=---=---=---=---=---=---=---=---=---=--- end CXF2A01_0; --==================================================================-- with FXF2A00; package CXF2A01_0.CXF2A01_1 is ---=---=---=---=---=---=---=---=---=---=--- type Micro_Ops is array (FXF2A00.Optr_Range) of Micro_Optr_Ptr; type Micro_Opnds is array (FXF2A00.Opnd_Range) of Micro; Micro_Optr_Table_Cancel : Micro_Ops := ( Micro_Add, Micro_Sub, Micro_Add, Micro_Sub, Micro_Add, Micro_Sub ); Micro_Optr_Table_Cumul : Micro_Ops := ( others => Micro_Add ); Micro_Opnd_Table_Cancel : Micro_Opnds := ( 0.001025000235111997, 0.000000000000000003, 0.724902903219925400, 0.000459228020000011, 0.049832104921096533 ); Micro_Opnd_Table_Cumul : Micro_Opnds := ( 0.000002309540000000, 0.000000278060000000, 0.000000000000070000, 0.000010003000000000, 0.000000023090000000 ); function Test_Micro_Ops is new FXF2A00.Operations_Loop (Decimal_Fixed => Micro, Operator_Ptr => Micro_Optr_Ptr, Operator_Table => Micro_Ops, Operand_Table => Micro_Opnds); ---=---=---=---=---=---=---=---=---=---=--- type Money_Ops is array (FXF2A00.Optr_Range) of Money_Optr_Ptr; type Money_Opnds is array (FXF2A00.Opnd_Range) of Money; Money_Optr_Table_Cancel : Money_Ops := ( Money_Add, Money_Add, Money_Sub, Money_Add, Money_Sub, Money_Sub ); Money_Optr_Table_Cumul : Money_Ops := ( others => Money_Sub ); Money_Opnd_Table_Cancel : Money_Opnds := ( 127.10, 5600.44, 0.05, 189662.78, 226900402.99 ); Money_Opnd_Table_Cumul : Money_Opnds := ( 17.99, 500.41, 92.78, 0.38, 2942.99 ); function Test_Money_Ops is new FXF2A00.Operations_Loop (Decimal_Fixed => Money, Operator_Ptr => Money_Optr_Ptr, Operator_Table => Money_Ops, Operand_Table => Money_Opnds); ---=---=---=---=---=---=---=---=---=---=--- type Cash_Ops is array (FXF2A00.Optr_Range) of Cash_Optr_Ptr; type Cash_Opnds is array (FXF2A00.Opnd_Range) of Cash; Cash_Optr_Table_Cancel : Cash_Ops := ( Cash_Add, Cash_Add, Cash_Sub, Cash_Add, Cash_Sub, Cash_Sub ); Cash_Optr_Table_Cumul : Cash_Ops := ( others => Cash_Add ); Cash_Opnd_Table_Cancel : Cash_Opnds := ( 127.10, 5600.44, 0.05, 189662.78, 226900402.99 ); Cash_Opnd_Table_Cumul : Cash_Opnds := ( 3.33, 100056.14, 22.87, 3901.55, 111.21 ); function Test_Cash_Ops is new FXF2A00.Operations_Loop (Decimal_Fixed => Cash, Operator_Ptr => Cash_Optr_Ptr, Operator_Table => Cash_Ops, Operand_Table => Cash_Opnds); ---=---=---=---=---=---=---=---=---=---=--- type Broad_Ops is array (FXF2A00.Optr_Range) of Broad_Optr_Ptr; type Broad_Opnds is array (FXF2A00.Opnd_Range) of Broad; Broad_Optr_Table_Cancel : Broad_Ops := ( Broad_Sub, Broad_Add, Broad_Add, Broad_Sub, Broad_Sub, Broad_Add ); Broad_Optr_Table_Cumul : Broad_Ops := ( others => Broad_Sub ); Broad_Opnd_Table_Cancel : Broad_Opnds := ( 1.000009092, 732919479.445022293, 89662.787000006, 660.101010133, 1121127.999905594 ); Broad_Opnd_Table_Cumul : Broad_Opnds := ( 12.000450223, 479.430320780, 0.003492096, 8.112888400, 1002.994937800 ); function Test_Broad_Ops is new FXF2A00.Operations_Loop (Decimal_Fixed => Broad, Operator_Ptr => Broad_Optr_Ptr, Operator_Table => Broad_Ops, Operand_Table => Broad_Opnds); ---=---=---=---=---=---=---=---=---=---=--- end CXF2A01_0.CXF2A01_1; --==================================================================-- with CXF2A01_0.CXF2A01_1; with Report; procedure CXF2A01 is package Data renames CXF2A01_0.CXF2A01_1; use type CXF2A01_0.Micro; use type CXF2A01_0.Money; use type CXF2A01_0.Cash; use type CXF2A01_0.Broad; Micro_Cancel_Expected : constant CXF2A01_0.Micro := 0.0; Money_Cancel_Expected : constant CXF2A01_0.Money := 0.0; Cash_Cancel_Expected : constant CXF2A01_0.Cash := 0.0; Broad_Cancel_Expected : constant CXF2A01_0.Broad := 0.0; Micro_Cumul_Expected : constant CXF2A01_0.Micro := 0.075682140420000000; Money_Cumul_Expected : constant CXF2A01_0.Money := -21327300.00; Cash_Cumul_Expected : constant CXF2A01_0.Cash := 624570600.00; Broad_Cumul_Expected : constant CXF2A01_0.Broad := -9015252.535794000; Micro_Actual : CXF2A01_0.Micro; Money_Actual : CXF2A01_0.Money; Cash_Actual : CXF2A01_0.Cash; Broad_Actual : CXF2A01_0.Broad; begin Report.Test ("CXF2A01", "Check decimal addition and subtraction"); ---=---=---=---=---=---=---=---=---=---=--- Micro_Actual := Data.Test_Micro_Ops (0.0, Data.Micro_Optr_Table_Cancel, Data.Micro_Opnd_Table_Cancel); if Micro_Actual /= Micro_Cancel_Expected then Report.Failed ("Wrong cancellation result for type Micro"); end if; ---=---=---=---=---=---=--- Micro_Actual := Data.Test_Micro_Ops (0.0, Data.Micro_Optr_Table_Cumul, Data.Micro_Opnd_Table_Cumul); if Micro_Actual /= Micro_Cumul_Expected then Report.Failed ("Wrong cumulation result for type Micro"); end if; ---=---=---=---=---=---=---=---=---=---=--- Money_Actual := Data.Test_Money_Ops (0.0, Data.Money_Optr_Table_Cancel, Data.Money_Opnd_Table_Cancel); if Money_Actual /= Money_Cancel_Expected then Report.Failed ("Wrong cancellation result for type Money"); end if; ---=---=---=---=---=---=--- Money_Actual := Data.Test_Money_Ops (0.0, Data.Money_Optr_Table_Cumul, Data.Money_Opnd_Table_Cumul); if Money_Actual /= Money_Cumul_Expected then Report.Failed ("Wrong cumulation result for type Money"); end if; ---=---=---=---=---=---=---=---=---=---=--- Cash_Actual := Data.Test_Cash_Ops (0.0, Data.Cash_Optr_Table_Cancel, Data.Cash_Opnd_Table_Cancel); if Cash_Actual /= Cash_Cancel_Expected then Report.Failed ("Wrong cancellation result for type Cash"); end if; ---=---=---=---=---=---=--- Cash_Actual := Data.Test_Cash_Ops (0.0, Data.Cash_Optr_Table_Cumul, Data.Cash_Opnd_Table_Cumul); if Cash_Actual /= Cash_Cumul_Expected then Report.Failed ("Wrong cumulation result for type Cash"); end if; ---=---=---=---=---=---=---=---=---=---=--- Broad_Actual := Data.Test_Broad_Ops (0.0, Data.Broad_Optr_Table_Cancel, Data.Broad_Opnd_Table_Cancel); if Broad_Actual /= Broad_Cancel_Expected then Report.Failed ("Wrong cancellation result for type Broad"); end if; ---=---=---=---=---=---=--- Broad_Actual := Data.Test_Broad_Ops (0.0, Data.Broad_Optr_Table_Cumul, Data.Broad_Opnd_Table_Cumul); if Broad_Actual /= Broad_Cumul_Expected then Report.Failed ("Wrong cumulation result for type Broad"); end if; ---=---=---=---=---=---=---=---=---=---=--- Report.Result; end CXF2A01;