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-- CXB2001.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 subprograms Shift_Left, Shift_Right,
-- Shift_Right_Arithmetic, Rotate_Left, and Rotate_Right are available
-- and produce correct results for values of signed and modular
-- integer types of 8 bits.
--
-- TEST DESCRIPTION:
-- This test uses the shift and rotate functions of package Interfaces
-- with a modular type representative of 8 bits. The functions
-- are used as the right hand of assignment statements, as part of
-- conditional statements, and as arguments in other function calls.
--
-- A check is performed in the test to determine whether the bit
-- ordering method used by the machine/implementation is high-order
-- first ("Big Endian") or low-order first ("Little Endian"). The
-- specific subtests use this information to evaluate the results of
-- each of the functions under test.
--
-- Note: In the string associated with each Report.Failed statement, the
-- acronym BE refers to Big Endian, LE refers to Little Endian.
--
-- APPLICABILITY CRITERIA:
-- This test is applicable to all implementations that support signed
-- and modular integer types of 8 bits.
--
--
-- CHANGE HISTORY:
-- 21 Aug 95 SAIC Initial prerelease version.
-- 07 May 96 SAIC Incorporated reviewer comments for ACVC 2.1.
--
--!
with Report;
with Interfaces;
with Ada.Exceptions;
procedure CXB2001 is
begin
Report.Test ("CXB2001",
"Check that subprograms Shift_Left, Shift_Right, " &
"Shift_Right_Arithmetic, Rotate_Left, and Rotate_Right " &
"produce correct results for values of signed and " &
"modular integer types of 8 bits");
Test_Block:
declare
use Ada.Exceptions;
use Interfaces;
TC_Amount : Natural := Natural'First;
Big_Endian : Boolean := False;
-- Range of type Unsigned_8 is 0..255 (0..Modulus-1).
TC_Val_Unsigned_8,
TC_Result_Unsigned_8 : Unsigned_8 := Unsigned_8'First;
begin
-- Determine whether the machine uses high-order first or low-order
-- first bit ordering.
-- On a high-order first machine, bit zero of a storage element is
-- the most significant bit (interpreting the sequence of bits that
-- represent a component as an unsigned integer value).
-- On a low-order first machine, bit zero is the least significant.
-- In this check, a right shift of one place on a Big Endian machine
-- will yield a result of one, while on a Little Endian machine the
-- result would be four.
TC_Val_Unsigned_8 := 2;
Big_Endian := (Shift_Right(TC_Val_Unsigned_8, 1) = 1);
-- Note: The shifting and rotating subprograms operate on a bit-by-bit
-- basis, using the binary representation of the value of the
-- operands to yield a binary representation for the result.
-- Function Shift_Left.
if Big_Endian then -- High-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := Unsigned_8'Last; -- 255.
TC_Result_Unsigned_8 := Shift_Left(Value => TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 254 then
Report.Failed("Incorrect result from BE Shift_Left - 1");
end if;
if Shift_Left(TC_Val_Unsigned_8, 2) /= 252 or
Shift_Left(TC_Val_Unsigned_8, 3) /= 248 or
Shift_Left(TC_Val_Unsigned_8, 5) /= 224 or
Shift_Left(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Left(TC_Val_Unsigned_8, 9) /= 0 or
Shift_Left(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from BE Shift_Left - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Shift_Left(TC_Val_Unsigned_8, 1) /= 2 or
Shift_Left(TC_Val_Unsigned_8, Amount => 3) /= 8
then
Report.Failed("Incorrect result from BE Shift_Left - 3");
end if;
TC_Val_Unsigned_8 := 7;
if Shift_Left(TC_Val_Unsigned_8, Amount => 4) /= 112 or
Shift_Left(Shift_Left(TC_Val_Unsigned_8, 7), 1) /= 0
then
Report.Failed("Incorrect result from BE Shift_Left - 4");
end if;
else -- Low-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := Unsigned_8'Last; -- 255.
TC_Result_Unsigned_8 := Shift_Left(TC_Val_Unsigned_8, TC_Amount);
if TC_Result_Unsigned_8 /= 127 then
Report.Failed("Incorrect result from LE Shift_Left - 1");
end if;
if Shift_Left(TC_Val_Unsigned_8, 2) /= 63 or
Shift_Left(TC_Val_Unsigned_8, 3) /= 31 or
Shift_Left(TC_Val_Unsigned_8, 5) /= 7 or
Shift_Left(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Left(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from LE Shift_Left - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Shift_Left(TC_Val_Unsigned_8, 1) /= 0 or
Shift_Left(TC_Val_Unsigned_8, 7) /= 0
then
Report.Failed("Incorrect result from LE Shift_Left - 3");
end if;
TC_Val_Unsigned_8 := 129;
if Shift_Left(TC_Val_Unsigned_8, 4) /= 8 or
Shift_Left(Shift_Left(TC_Val_Unsigned_8, 7), 1) /= 0
then
Report.Failed("Incorrect result from LE Shift_Left - 4");
end if;
end if;
-- Function Shift_Right.
if Big_Endian then -- High-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := Unsigned_8'Last; -- 255.
TC_Result_Unsigned_8 := Shift_Right(TC_Val_Unsigned_8, TC_Amount);
if TC_Result_Unsigned_8 /= 127 then
Report.Failed("Incorrect result from BE Shift_Right - 1");
end if;
if Shift_Right(TC_Val_Unsigned_8, 2) /= 63 or
Shift_Right(TC_Val_Unsigned_8, 3) /= 31 or
Shift_Right(TC_Val_Unsigned_8, 5) /= 7 or
Shift_Right(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Right(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from BE Shift_Right - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Shift_Right(TC_Val_Unsigned_8, 1) /= 0 or
Shift_Right(TC_Val_Unsigned_8, 7) /= 0
then
Report.Failed("Incorrect result from BE Shift_Right - 3");
end if;
TC_Val_Unsigned_8 := 129;
if Shift_Right(TC_Val_Unsigned_8, 4) /= 8 or
Shift_Right(Shift_Right(TC_Val_Unsigned_8, 7), 1) /= 0
then
Report.Failed("Incorrect result from BE Shift_Right - 4");
end if;
else -- Low-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := Unsigned_8'Last; -- 255.
TC_Result_Unsigned_8 := Shift_Right(Value => TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 254 then
Report.Failed("Incorrect result from LE Shift_Right - 1");
end if;
if Shift_Right(TC_Val_Unsigned_8, 2) /= 252 or
Shift_Right(TC_Val_Unsigned_8, 3) /= 248 or
Shift_Right(TC_Val_Unsigned_8, 5) /= 224 or
Shift_Right(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Right(TC_Val_Unsigned_8, 9) /= 0 or
Shift_Right(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from LE Shift_Right - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Shift_Right(TC_Val_Unsigned_8, 1) /= 2 or
Shift_Right(TC_Val_Unsigned_8, Amount => 3) /= 8
then
Report.Failed("Incorrect result from LE Shift_Right - 3");
end if;
TC_Val_Unsigned_8 := 7;
if Shift_Right(TC_Val_Unsigned_8, Amount => 4) /= 112 or
Shift_Right(Shift_Right(TC_Val_Unsigned_8, 7), 1) /= 0
then
Report.Failed("Incorrect result from LE Shift_Right - 4");
end if;
end if;
-- Tests of Shift_Left and Shift_Right in combination.
if Big_Endian then -- High-order first bit ordering.
TC_Val_Unsigned_8 := 32;
if Shift_Left(Shift_Right(TC_Val_Unsigned_8, 2), 2) /=
TC_Val_Unsigned_8 or
Shift_Left(Shift_Right(TC_Val_Unsigned_8, 1), 3) /= 128 or
Shift_Right(Shift_Left(TC_Val_Unsigned_8, 2), 6) /= 2 or
Shift_Right(Shift_Left(TC_Val_Unsigned_8, 2), 8) /= 0
then
Report.Failed("Incorrect result from BE Shift_Left - " &
"Shift_Right functions used in combination");
end if;
else -- Low-order first bit ordering.
TC_Val_Unsigned_8 := 32;
if Shift_Left(Shift_Right(TC_Val_Unsigned_8, 2), 2) /=
TC_Val_Unsigned_8 or
Shift_Left(Shift_Right(TC_Val_Unsigned_8, 1), 3) /= 8 or
Shift_Right(Shift_Left(TC_Val_Unsigned_8, 2), 3) /= 64 or
Shift_Right(Shift_Left(TC_Val_Unsigned_8, 2), 4) /= 128
then
Report.Failed("Incorrect result from LE Shift_Left - " &
"Shift_Right functions used in combination");
end if;
end if;
-- Function Shift_Right_Arithmetic.
if Big_Endian then -- High-order first bit ordering.
-- Case where the parameter Value is less than
-- one half of the modulus. Zero bits will be shifted in.
-- Modulus of type Unsigned_8 is 256; half of the modulus is 128.
TC_Amount := 1;
TC_Val_Unsigned_8 := 127; -- Less than one half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
TC_Amount);
if TC_Result_Unsigned_8 /= 63 then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 1");
end if;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 2) /= 31 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 15 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 5) /= 3 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, Amount => 1) /= 0 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 0
then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 3");
end if;
-- Case where the parameter Value is greater than or equal to
-- one half of the modulus. One bits will be shifted in.
TC_Amount := 1;
TC_Val_Unsigned_8 := 128; -- One half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 192 then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 4");
end if;
TC_Amount := 1;
TC_Val_Unsigned_8 := 129; -- Greater than one half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 192 then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 5");
end if;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 2) /= 224 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 240 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 5) /= 252 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 7) /= Unsigned_8'Last or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 6");
end if;
TC_Val_Unsigned_8 := Unsigned_8'Last;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 1) /=
Unsigned_8'Last
then
Report.Failed
("Incorrect result from BE Shift_Right_Arithmetic - 7");
end if;
else -- Low-order first bit ordering
-- Case where the parameter Value is less than
-- one half of the modulus. Zero bits will be shifted in.
TC_Amount := 1;
TC_Val_Unsigned_8 := 127; -- Less than one half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
TC_Amount);
if TC_Result_Unsigned_8 /= 254 then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 1");
end if;
TC_Val_Unsigned_8 := 2;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 2) /= 8 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 16 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 5) /= 64 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 8) /= 0 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 2");
end if;
TC_Val_Unsigned_8 := 64;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, Amount => 1) /= 128 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 0
then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 3");
end if;
-- Case where the parameter Value is greater than or equal to
-- one half of the modulus. One bits will be shifted in.
TC_Amount := 1;
TC_Val_Unsigned_8 := 128; -- One half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 3 then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 4");
end if;
TC_Amount := 1;
TC_Val_Unsigned_8 := 129; -- Greater than one half of modulus.
TC_Result_Unsigned_8 := Shift_Right_Arithmetic(TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 3 then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 5");
end if;
TC_Val_Unsigned_8 := 135; -- Greater than one half of modulus.
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 2) /= 31 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 3) /= 63 or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 5) /= Unsigned_8'Last or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 7) /= Unsigned_8'Last or
Shift_Right_Arithmetic(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 6");
end if;
TC_Val_Unsigned_8 := Unsigned_8'Last;
if Shift_Right_Arithmetic(TC_Val_Unsigned_8, 1) /=
Unsigned_8'Last
then
Report.Failed
("Incorrect result from LE Shift_Right_Arithmetic - 7");
end if;
end if;
-- Function Rotate_Left.
if Big_Endian then -- High-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := 129;
TC_Result_Unsigned_8 := Rotate_Left(Value => TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 3 then
Report.Failed("Incorrect result from BE Rotate_Left - 1");
end if;
if Rotate_Left(TC_Val_Unsigned_8, 2) /= 6 or
Rotate_Left(TC_Val_Unsigned_8, 3) /= 12 or
Rotate_Left(TC_Val_Unsigned_8, 5) /= 48 or
Rotate_Left(TC_Val_Unsigned_8, 8) /= 129 or
Rotate_Left(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from BE Rotate_Left - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Rotate_Left(Value => TC_Val_Unsigned_8, Amount => 1) /= 2 or
Rotate_Left(TC_Val_Unsigned_8, Amount => 3) /= 8
then
Report.Failed("Incorrect result from BE Rotate_Left - 3");
end if;
TC_Val_Unsigned_8 := 82;
if Rotate_Left(TC_Val_Unsigned_8, Amount => 4) /= 37 or
Rotate_Left(Rotate_Left(TC_Val_Unsigned_8, 7), 1) /= 82
then
Report.Failed("Incorrect result from BE Rotate_Left - 4");
end if;
else -- Low-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := 1;
TC_Result_Unsigned_8 := Rotate_Left(TC_Val_Unsigned_8, TC_Amount);
if TC_Result_Unsigned_8 /= 128 then
Report.Failed("Incorrect result from LE Rotate_Left - 1");
end if;
TC_Val_Unsigned_8 := 15;
if Rotate_Left(TC_Val_Unsigned_8, 2) /= 195 or
Rotate_Left(TC_Val_Unsigned_8, 3) /= 225 or
Rotate_Left(TC_Val_Unsigned_8, 5) /= 120 or
Rotate_Left(TC_Val_Unsigned_8, 8) /= TC_Val_Unsigned_8 or
Rotate_Left(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from LE Rotate_Left - 2");
end if;
TC_Val_Unsigned_8 := Unsigned_8'Last;
if Rotate_Left(TC_Val_Unsigned_8, 1) /= Unsigned_8'Last then
Report.Failed("Incorrect result from LE Rotate_Left - 3");
end if;
TC_Val_Unsigned_8 := 12;
if Rotate_Left(TC_Val_Unsigned_8, 1) /= 6 or
Rotate_Left(TC_Val_Unsigned_8, 3) /= 129
then
Report.Failed("Incorrect result from LE Rotate_Left - 4");
end if;
TC_Val_Unsigned_8 := 129;
if Rotate_Left(TC_Val_Unsigned_8, 4) /= 24 or
Rotate_Left(Rotate_Left(TC_Val_Unsigned_8, 7), 1) /= 129
then
Report.Failed("Incorrect result from LE Rotate_Left - 5");
end if;
end if;
-- Function Rotate_Right.
if Big_Endian then -- High-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := 1;
TC_Result_Unsigned_8 := Rotate_Right(TC_Val_Unsigned_8, TC_Amount);
if TC_Result_Unsigned_8 /= 128 then
Report.Failed("Incorrect result from BE Rotate_Right - 1");
end if;
TC_Val_Unsigned_8 := 15;
if Rotate_Right(TC_Val_Unsigned_8, 2) /= 195 or
Rotate_Right(TC_Val_Unsigned_8, 3) /= 225 or
Rotate_Right(TC_Val_Unsigned_8, 5) /= 120 or
Rotate_Right(TC_Val_Unsigned_8, 8) /= TC_Val_Unsigned_8 or
Rotate_Right(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from BE Rotate_Right - 2");
end if;
TC_Val_Unsigned_8 := Unsigned_8'Last;
if Rotate_Right(TC_Val_Unsigned_8, 1) /= Unsigned_8'Last then
Report.Failed("Incorrect result from BE Rotate_Right - 3");
end if;
TC_Val_Unsigned_8 := 12;
if Rotate_Right(TC_Val_Unsigned_8, 1) /= 6 or
Rotate_Right(TC_Val_Unsigned_8, 3) /= 129
then
Report.Failed("Incorrect result from BE Rotate_Right - 4");
end if;
TC_Val_Unsigned_8 := 129;
if Rotate_Right(TC_Val_Unsigned_8, 4) /= 24 or
Rotate_Right(Rotate_Right(TC_Val_Unsigned_8, 7), 1) /= 129
then
Report.Failed("Incorrect result from BE Rotate_Right - 5");
end if;
else -- Low-order first bit ordering.
TC_Amount := 1;
TC_Val_Unsigned_8 := 129;
TC_Result_Unsigned_8 := Rotate_Right(Value => TC_Val_Unsigned_8,
Amount => TC_Amount);
if TC_Result_Unsigned_8 /= 3 then
Report.Failed("Incorrect result from LE Rotate_Right - 1");
end if;
if Rotate_Right(TC_Val_Unsigned_8, 2) /= 6 or
Rotate_Right(TC_Val_Unsigned_8, 3) /= 12 or
Rotate_Right(TC_Val_Unsigned_8, 5) /= 48 or
Rotate_Right(TC_Val_Unsigned_8, 8) /= 129 or
Rotate_Right(TC_Val_Unsigned_8, 0) /= TC_Val_Unsigned_8
then
Report.Failed("Incorrect result from LE Rotate_Right - 2");
end if;
TC_Val_Unsigned_8 := 1;
if Rotate_Right(Value => TC_Val_Unsigned_8, Amount => 1) /= 2 or
Rotate_Right(TC_Val_Unsigned_8, Amount => 3) /= 8
then
Report.Failed("Incorrect result from LE Rotate_Right - 3");
end if;
TC_Val_Unsigned_8 := 82;
if Rotate_Right(TC_Val_Unsigned_8, Amount => 4) /= 37 or
Rotate_Right(Rotate_Right(TC_Val_Unsigned_8, 7), 1) /= 82
then
Report.Failed("Incorrect result from LE Rotate_Right - 4");
end if;
end if;
-- Tests of Rotate_Left and Rotate_Right in combination.
if Big_Endian then -- High-order first bit ordering.
TC_Val_Unsigned_8 := 17;
if Rotate_Left(Rotate_Right(TC_Val_Unsigned_8, 2), 2) /=
TC_Val_Unsigned_8 or
Rotate_Left(Rotate_Right(TC_Val_Unsigned_8, 1), 3) /= 68 or
Rotate_Right(Rotate_Left(TC_Val_Unsigned_8, 3), 7) /= 17 or
Rotate_Right(Rotate_Left(TC_Val_Unsigned_8, 2), 8) /= 68
then
Report.Failed("Incorrect result from BE Rotate_Left - " &
"Rotate_Right functions used in combination");
end if;
else -- Low-order first bit ordering.
TC_Val_Unsigned_8 := 4;
if Rotate_Left(Rotate_Right(TC_Val_Unsigned_8, 2), 2) /=
TC_Val_Unsigned_8 or
Rotate_Left(Rotate_Right(TC_Val_Unsigned_8, 1), 3) /= 1 or
Rotate_Right(Rotate_Left(TC_Val_Unsigned_8, 3), 7) /= 64 or
Rotate_Right(Rotate_Left(TC_Val_Unsigned_8, 2), 8) /= 1
then
Report.Failed("Incorrect result from LE Rotate_Left - " &
"Rotate_Right functions used in combination");
end if;
end if;
exception
when The_Error : others =>
Report.Failed ("The following exception was raised in the " &
"Test_Block: " & Exception_Name(The_Error));
end Test_Block;
Report.Result;
end CXB2001;