OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [testsuite/] [ada/] [acats/] [tests/] [ca/] [ca11d02.a] - Rev 816

Compare with Previous | Blame | View Log

-- CA11D02.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 an exception declared in a package can be raised by a 
--      child of a child package.  Check that it can be renamed in the 
--      child of the child package and raised with the correct effect.
--
-- TEST DESCRIPTION:
--      Declare a package which defines complex number abstraction with
--      user-defined exceptions (foundation code).
--
--      Add a public child package to the above package. Declare two 
--      subprograms for the parent type.  
--
--      Add a public grandchild package to the foundation package.  Declare
--      subprograms to raise exceptions.
--
--      In the main program, "with" the grandchild package, then check that
--      the exceptions are raised and handled as expected.  Ensure that
--      exceptions are:
--         1) raised in the public grandchild package and handled/reraised to
--            be handled by the main program.
--         2) raised and handled locally by the "others" handler in the 
--            public grandchild package.
--         3) raised in the public grandchild and propagated to the main 
--            program.
--
-- TEST FILES:
--      This test depends on the following foundation code:
--
--         FA11D00.A
--
--
-- CHANGE HISTORY:
--      06 Dec 94   SAIC    ACVC 2.0
--
--!

-- Child package of FA11D00.

package FA11D00.CA11D02_0 is     -- Basic_Complex

   function "+" (Left, Right : Complex_Type) 
     return Complex_Type;                   -- Add two complex numbers.

   function "*" (Left, Right : Complex_Type) 
     return Complex_Type;                   -- Multiply two complex numbers.

end FA11D00.CA11D02_0;     -- Basic_Complex

--=======================================================================--

package body FA11D00.CA11D02_0 is     -- Basic_Complex

   function "+" (Left, Right : Complex_Type) return Complex_Type is
   begin
      return ( (Left.Real + Right.Real, Left.Imag + Right.Imag) );
   end "+";
   --------------------------------------------------------------
   function "*" (Left, Right : Complex_Type) return Complex_Type is
   begin
      return ( Real => (Left.Real * Right.Real),
               Imag => (Left.Imag * Right.Imag) );
   end "*";

end FA11D00.CA11D02_0;     -- Basic_Complex

--=======================================================================--

-- Child package of FA11D00.CA11D02_0.
-- Grandchild package of FA11D00.

package FA11D00.CA11D02_0.CA11D02_1 is     -- Array_Complex

   Inverse_Error : exception renames Divide_Error;   -- Reference to exception 
                                                     -- in grandparent package.
   Array_Size    : constant := 2;

   type Complex_Array_Type is                        
      array (1 .. Array_Size) of Complex_Type;       -- Reference to type
                                                     -- in parent package.

   function Multiply (Left  : Complex_Array_Type;    -- Multiply two complex
                      Right : Complex_Array_Type)    -- arrays.
     return Complex_Array_Type;

   function Add (Left, Right : Complex_Array_Type)   -- Add two complex
     return Complex_Array_Type;                      -- arrays.

   procedure Inverse (Right : in     Complex_Array_Type;  -- Invert a complex
                      Left  : in out Complex_Array_Type); -- array.
 
end FA11D00.CA11D02_0.CA11D02_1;     -- Array_Complex

--=======================================================================--

with Report;


package body FA11D00.CA11D02_0.CA11D02_1 is     -- Array_Complex

   function Multiply (Left  : Complex_Array_Type;
                      Right : Complex_Array_Type)
     return Complex_Array_Type is

   -- This procedure will raise an exception depending on the input
   -- parameter.  The exception will be handled locally by the
   -- "others" handler.

      Result : Complex_Array_Type := (others => Zero);

      subtype Vector_Size is Positive range Left'Range;

   begin  
      if Left = Result or else Right = Result then -- Do not multiply zero.
         raise Multiply_Error;                     -- Refence to exception in
                                                   -- grandparent package.
         Report.Failed ("Program control not transferred by raise");
      else
         for I in Vector_Size loop
           Result(I) := ( Left(I) * Right(I) );    -- Basic_Complex."*".
         end loop;
      end if;
      return (Result);
   
   exception
      when others =>
         Report.Comment ("Exception is handled by others in Multiplication");
         TC_Handled_In_Grandchild_Pkg_Func := true;
         return (Zero, Zero);
      
   end Multiply;
   --------------------------------------------------------------
   function Add (Left, Right : Complex_Array_Type)
     return Complex_Array_Type is

   -- This function will raise an exception depending on the input
   -- parameter.  The exception will be propagated and handled
   -- by the caller.

      Result : Complex_Array_Type := (others => Zero);

      subtype Vector_Size is Positive range Left'Range;

   begin  
      if Left = Result or Right = Result then     -- Do not add zero.
         raise Add_Error;                         -- Refence to exception in
                                                  -- grandparent package.
         Report.Failed ("Program control not transferred by raise");
      else
         for I in Vector_Size loop                   
           Result(I) := ( Left(I) + Right(I) );   -- Basic_Complex."+".
         end loop;
      end if;
      return (Result);
 
   end Add;
   --------------------------------------------------------------
   procedure Inverse (Right : in     Complex_Array_Type;
                      Left  : in out Complex_Array_Type) is

   -- This function will raise an exception depending on the input
   -- parameter.  The exception will be handled/reraised to be
   -- handled by the caller.

      Result : Complex_Array_Type := (others => Zero);

      Array_With_Zero : boolean := false;

   begin
      for I in 1 .. Right'Length loop
        if Right(I) = Zero then      -- Check for zero.
          Array_With_Zero := true;
        end if;
      end loop;

      If Array_With_Zero then
         raise Inverse_Error;      -- Do not inverse zero.
         Report.Failed ("Program control not transferred by raise");
      else
         for I in 1 .. Array_Size loop
           Left(I).Real := - Right(I).Real;
           Left(I).Imag := - Right(I).Imag;
        end loop;
      end if;

   exception
      when Inverse_Error  => 
         TC_Handled_In_Grandchild_Pkg_Proc := true;
         Left := Result;
         raise;     -- Reraise the Inverse_Error exception in the subtest.
         Report.Failed ("Exception not reraised in handler");

      when others => 
         Report.Failed ("Unexpected exception in procedure Inverse");
   end Inverse;

end FA11D00.CA11D02_0.CA11D02_1;     -- Array_Complex

--=======================================================================--

with FA11D00.CA11D02_0.CA11D02_1;    -- Array_Complex,
                                     -- implicitly with Basic_Complex.
with Report;

procedure CA11D02 is

   package Complex_Pkg renames FA11D00;
   package Array_Complex_Pkg renames FA11D00.CA11D02_0.CA11D02_1;

   use Complex_Pkg;                            
   use Array_Complex_Pkg;                      

begin

   Report.Test ("CA11D02", "Check that an exception declared in a package " &
                "can be raised by a child of a child package");

   Multiply_Complex_Subtest:
   declare
      Operand_1  : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (3)), 
                      Int_Type (Report.Ident_Int (5))),
                      Complex (Int_Type (Report.Ident_Int (2)), 
                      Int_Type (Report.Ident_Int (8))) );
      Operand_2  : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (1)), 
                      Int_Type (Report.Ident_Int (2))),
                      Complex (Int_Type (Report.Ident_Int (3)), 
                      Int_Type (Report.Ident_Int (6))) );
      Operand_3  : Complex_Array_Type := ( Zero, Zero);
      Mul_Result : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (3)), 
                      Int_Type (Report.Ident_Int (10))),
                      Complex (Int_Type (Report.Ident_Int (6)), 
                      Int_Type (Report.Ident_Int (48))) );
      Complex_No : Complex_Array_Type := (others => Zero);

   begin
      If (Multiply (Operand_1, Operand_2) /= Mul_Result) then
         Report.Failed ("Incorrect results from multiplication");
      end if;

      -- Error is raised and exception will be handled in grandchild package.

      Complex_No := Multiply (Operand_1, Operand_3);

      if Complex_No /= (Zero, Zero) then
         Report.Failed ("Exception was not raised in multiplication");
      end if;

   exception
      when Multiply_Error     =>
         Report.Failed ("Exception raised in multiplication and " &
                        "propagated to caller");
         TC_Handled_In_Grandchild_Pkg_Func := false;  
              -- Improper exception handling in caller.

      when others => 
         Report.Failed ("Unexpected exception in multiplication");
         TC_Handled_In_Grandchild_Pkg_Func := false;  
              -- Improper exception handling in caller.

   end Multiply_Complex_Subtest;


   Add_Complex_Subtest:
   declare
      Operand_1  : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (2)), 
                      Int_Type (Report.Ident_Int (7))),
                      Complex (Int_Type (Report.Ident_Int (5)), 
                      Int_Type (Report.Ident_Int (8))) );
      Operand_2  : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (4)), 
                      Int_Type (Report.Ident_Int (1))),
                      Complex (Int_Type (Report.Ident_Int (2)), 
                      Int_Type (Report.Ident_Int (3))) );
      Operand_3  : Complex_Array_Type := ( Zero, Zero);
      Add_Result : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (6)), 
                      Int_Type (Report.Ident_Int (8))),
                      Complex (Int_Type (Report.Ident_Int (7)), 
                      Int_Type (Report.Ident_Int (11))) );
      Complex_No : Complex_Array_Type := (others => Zero);

   begin
      Complex_No := Add (Operand_1, Operand_2);

      If (Complex_No /= Add_Result) then
         Report.Failed ("Incorrect results from addition");
      end if;

      -- Error is raised in grandchild package and exception 
      -- will be propagated to caller.

      Complex_No := Add (Operand_1, Operand_3);

      if Complex_No = Add_Result then
         Report.Failed ("Exception was not raised in addition");
      end if;

   exception
      when Add_Error => 
         TC_Propagated_To_Caller := true;  -- Exception is propagated.

      when others => 
         Report.Failed ("Unexpected exception in addition subtest");
         TC_Propagated_To_Caller := false;  -- Improper exception handling
                                            -- in caller.
   end Add_Complex_Subtest;

   Inverse_Complex_Subtest:
   declare
      Operand_1  : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (1)), 
                      Int_Type (Report.Ident_Int (5))),
                      Complex (Int_Type (Report.Ident_Int (3)), 
                      Int_Type (Report.Ident_Int (11))) );
      Operand_3  : Complex_Array_Type 
                 := ( Zero, Complex (Int_Type (Report.Ident_Int (3)), 
                      Int_Type (Report.Ident_Int (6))) );
      Inv_Result : Complex_Array_Type 
                 := ( Complex (Int_Type (Report.Ident_Int (-1)), 
                      Int_Type (Report.Ident_Int (-5))),
                      Complex (Int_Type (Report.Ident_Int (-3)), 
                      Int_Type (Report.Ident_Int (-11))) );
      Complex_No : Complex_Array_Type := (others => Zero);

   begin
      Inverse (Operand_1, Complex_No);

      if (Complex_No /= Inv_Result) then
         Report.Failed ("Incorrect results from inverse");
      end if;

      -- Error is raised in grandchild package and exception 
      -- will be handled/reraised to caller.

      Inverse (Operand_3, Complex_No);

      Report.Failed ("Exception was not handled in inverse");

   exception
      when Inverse_Error => 
         if not TC_Handled_In_Grandchild_Pkg_Proc then
            Report.Failed ("Exception was not raised in inverse");
         else
            TC_Handled_In_Caller := true;  -- Exception is reraised from
                                           -- child package.
         end if;

      when others => 
         Report.Failed ("Unexpected exception in inverse");
         TC_Handled_In_Caller := false; 
                -- Improper exception handling in caller.

   end Inverse_Complex_Subtest;

   if not (TC_Handled_In_Caller               and   -- Check to see that all 
           TC_Handled_In_Grandchild_Pkg_Proc  and   -- exceptions were handled
           TC_Handled_In_Grandchild_Pkg_Func  and   -- in proper location.
           TC_Propagated_To_Caller)        
   then
      Report.Failed ("Exceptions handled in incorrect locations");
   end if;

   Report.Result;

end CA11D02;

Compare with Previous | Blame | View Log

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.