-- --------------------------------------------------------------------
--
-- Copyright � 2008 by IEEE. All rights reserved.
--
-- This source file is an essential part of IEEE Std 1076-2008,
-- IEEE Standard VHDL Language Reference Manual. This source file may not be
-- copied, sold, or included with software that is sold without written
-- permission from the IEEE Standards Department. This source file may be
-- copied for individual use between licensed users. This source file is
-- provided on an AS IS basis. The IEEE disclaims ANY WARRANTY EXPRESS OR
-- IMPLIED INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR USE
-- FOR A PARTICULAR PURPOSE. The user of the source file shall indemnify
-- and hold IEEE harmless from any damages or liability arising out of the
-- use thereof.
--
-- Title : Standard VHDL Synthesis Packages
-- : (NUMERIC_BIT_UNSIGNED package declaration)
-- :
-- Library : This package shall be compiled into a library
-- : symbolically named IEEE.
-- :
-- Developers: Accellera VHDL-TC, and IEEE P1076 Working Group
-- :
-- Purpose : This package defines numeric types and arithmetic functions
-- : for use with synthesis tools. Values of type BIT_VECTOR
-- : are interpreted as unsigned numbers in vector form.
-- : The leftmost bit is treated as the most significant bit.
-- : This package contains overloaded arithmetic operators on
-- : the BIT_VECTOR type. The package also contains
-- : useful type conversions functions, clock detection
-- : functions, and other utility functions.
-- :
-- : If any argument to a function is a null array, a null array
-- : is returned (exceptions, if any, are noted individually).
--
-- Note : This package may be modified to include additional data
-- : required by tools, but it must in no way change the
-- : external interfaces or simulation behavior of the
-- : description. It is permissible to add comments and/or
-- : attributes to the package declarations, but not to change
-- : or delete any original lines of the package declaration.
-- : The package body may be changed only in accordance with
-- : the terms of Clause 16 of this standard.
-- :
-- --------------------------------------------------------------------
-- $Revision: 1220 $
-- $Date: 2008-04-10 17:16:09 +0930 (Thu, 10 Apr 2008) $
-- --------------------------------------------------------------------
package NUMERIC_BIT_UNSIGNED is
constant CopyRightNotice : STRING :=
"Copyright 2008 IEEE. All rights reserved.";
-- Id: A.3
function "+" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(MAXIMUM(L'LENGTH, R'LENGTH)-1 downto 0).
-- Result: Adds two UNSIGNED vectors that may be of different lengths.
-- Id: A.3R
function "+"(L : BIT_VECTOR; R : BIT) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Similar to A.3 where R is a one bit bit_vector
-- Id: A.3L
function "+"(L : BIT; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Similar to A.3 where L is a one bit UNSIGNED
-- Id: A.5
function "+" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0).
-- Result: Adds an UNSIGNED vector, L, with a non-negative INTEGER, R.
-- Id: A.6
function "+" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0).
-- Result: Adds a non-negative INTEGER, L, with an UNSIGNED vector, R.
--============================================================================
-- Id: A.9
function "-" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: UNSIGNED(MAXIMUM(L'LENGTH, R'LENGTH)-1 downto 0).
-- Result: Subtracts two UNSIGNED vectors that may be of different lengths.
-- Id: A.9R
function "-"(L : BIT_VECTOR; R : BIT) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Similar to A.9 where R is a one bit UNSIGNED
-- Id: A.9L
function "-"(L : BIT; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Similar to A.9 where L is a one bit UNSIGNED
-- Id: A.11
function "-" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0).
-- Result: Subtracts a non-negative INTEGER, R, from an UNSIGNED vector, L.
-- Id: A.12
function "-" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0).
-- Result: Subtracts an UNSIGNED vector, R, from a non-negative INTEGER, L.
--============================================================================
-- Id: A.15
function "*" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector((L'LENGTH+R'LENGTH-1) downto 0).
-- Result: Performs the multiplication operation on two UNSIGNED vectors
-- that may possibly be of different lengths.
-- Id: A.17
function "*" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector((L'LENGTH+L'LENGTH-1) downto 0).
-- Result: Multiplies an UNSIGNED vector, L, with a non-negative
-- INTEGER, R. R is converted to an UNSIGNED vector of
-- SIZE L'LENGTH before multiplication.
-- Id: A.18
function "*" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector((R'LENGTH+R'LENGTH-1) downto 0).
-- Result: Multiplies an UNSIGNED vector, R, with a non-negative
-- INTEGER, L. L is converted to an UNSIGNED vector of
-- SIZE R'LENGTH before multiplication.
--============================================================================
--
-- NOTE: If second argument is zero for "/" operator, a severity level
-- of ERROR is issued.
-- Id: A.21
function "/" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Divides an UNSIGNED vector, L, by another UNSIGNED vector, R.
-- Id: A.23
function "/" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Divides an UNSIGNED vector, L, by a non-negative INTEGER, R.
-- If NO_OF_BITS(R) > L'LENGTH, result is truncated to L'LENGTH.
-- Id: A.24
function "/" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Divides a non-negative INTEGER, L, by an UNSIGNED vector, R.
-- If NO_OF_BITS(L) > R'LENGTH, result is truncated to R'LENGTH.
--============================================================================
--
-- NOTE: If second argument is zero for "rem" operator, a severity level
-- of ERROR is issued.
-- Id: A.27
function "rem" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Computes "L rem R" where L and R are UNSIGNED vectors.
-- Id: A.29
function "rem" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Computes "L rem R" where L is an UNSIGNED vector and R is a
-- non-negative INTEGER.
-- If NO_OF_BITS(R) > L'LENGTH, result is truncated to L'LENGTH.
-- Id: A.30
function "rem" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Computes "L rem R" where R is an UNSIGNED vector and L is a
-- non-negative INTEGER.
-- If NO_OF_BITS(L) > R'LENGTH, result is truncated to R'LENGTH.
--============================================================================
--
-- NOTE: If second argument is zero for "mod" operator, a severity level
-- of ERROR is issued.
-- Id: A.33
function "mod" (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Computes "L mod R" where L and R are UNSIGNED vectors.
-- Id: A.35
function "mod" (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(L'LENGTH-1 downto 0)
-- Result: Computes "L mod R" where L is an UNSIGNED vector and R
-- is a non-negative INTEGER.
-- If NO_OF_BITS(R) > L'LENGTH, result is truncated to L'LENGTH.
-- Id: A.36
function "mod" (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: bit_vector(R'LENGTH-1 downto 0)
-- Result: Computes "L mod R" where R is an UNSIGNED vector and L
-- is a non-negative INTEGER.
-- If NO_OF_BITS(L) > R'LENGTH, result is truncated to R'LENGTH.
--============================================================================
-- Id: A.39
function find_leftmost (ARG : BIT_VECTOR; Y : BIT) return INTEGER;
-- Result subtype: INTEGER
-- Result: Finds the leftmost occurrence of the value of Y in ARG.
-- Returns the index of the occurrence if it exists, or -1 otherwise.
-- Id: A.41
function find_rightmost (ARG : BIT_VECTOR; Y : BIT) return INTEGER;
-- Result subtype: INTEGER
-- Result: Finds the leftmost occurrence of the value of Y in ARG.
-- Returns the index of the occurrence if it exists, or -1 otherwise.
--============================================================================
-- Comparison Operators
--============================================================================
-- Id: C.1
function ">" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L > R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.3
function ">" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L > R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.5
function ">" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L > R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.7
function "<" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L < R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.9
function "<" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L < R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.11
function "<" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L < R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.13
function "<=" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L <= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.15
function "<=" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L <= R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.17
function "<=" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L <= R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.19
function ">=" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L >= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.21
function ">=" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L >= R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.23
function ">=" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L >= R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.25
function "=" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L = R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.27
function "=" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L = R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.29
function "=" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L = R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.31
function "/=" (L, R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L /= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.33
function "/=" (L : NATURAL; R : BIT_VECTOR) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L /= R" where L is a non-negative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.35
function "/=" (L : BIT_VECTOR; R : NATURAL) return BOOLEAN;
-- Result subtype: BOOLEAN
-- Result: Computes "L /= R" where L is an UNSIGNED vector and
-- R is a non-negative INTEGER.
--============================================================================
-- Id: C.37
function MINIMUM (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the lesser of two UNSIGNED vectors that may be
-- of different lengths.
-- Id: C.39
function MINIMUM (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the lesser of a nonnegative INTEGER, L, and
-- an UNSIGNED vector, R.
-- Id: C.41
function MINIMUM (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the lesser of an UNSIGNED vector, L, and
-- a nonnegative INTEGER, R.
--============================================================================
-- Id: C.43
function MAXIMUM (L, R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the greater of two UNSIGNED vectors that may be
-- of different lengths.
-- Id: C.45
function MAXIMUM (L : NATURAL; R : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the greater of a nonnegative INTEGER, L, and
-- an UNSIGNED vector, R.
-- Id: C.47
function MAXIMUM (L : BIT_VECTOR; R : NATURAL) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR
-- Result: Returns the greater of an UNSIGNED vector, L, and
-- a nonnegative INTEGER, R.
--============================================================================
-- Id: C.49
function "?>" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L > R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.51
function "?>" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L > R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.53
function "?>" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L > R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Id: C.55
function "?<" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L < R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.57
function "?<" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L < R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.59
function "?<" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L < R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Id: C.61
function "?<=" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L <= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.63
function "?<=" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L <= R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.65
function "?<=" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L <= R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Id: C.67
function "?>=" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L >= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.69
function "?>=" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L >= R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.71
function "?>=" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L >= R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Id: C.73
function "?=" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L = R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.75
function "?=" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L = R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.77
function "?=" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L = R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Id: C.79
function "?/=" (L, R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L /= R" where L and R are UNSIGNED vectors possibly
-- of different lengths.
-- Id: C.81
function "?/=" (L : NATURAL; R : BIT_VECTOR) return BIT;
-- Result subtype: BIT
-- Result: Computes "L /= R" where L is a nonnegative INTEGER and
-- R is an UNSIGNED vector.
-- Id: C.83
function "?/=" (L : BIT_VECTOR; R : NATURAL) return BIT;
-- Result subtype: BIT
-- Result: Computes "L /= R" where L is an UNSIGNED vector and
-- R is a nonnegative INTEGER.
--============================================================================
-- Shift and Rotate Functions
--============================================================================
-- Id: S.1
function SHIFT_LEFT (ARG : BIT_VECTOR; COUNT : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(ARG'LENGTH-1 downto 0)
-- Result: Performs a shift-left on an UNSIGNED vector COUNT times.
-- The vacated positions are filled with '0'.
-- The COUNT leftmost elements are lost.
-- Id: S.2
function SHIFT_RIGHT (ARG : BIT_VECTOR; COUNT : NATURAL) return BIT_VECTOR;
-- Result subtype: UNSIGNED(ARG'LENGTH-1 downto 0)
-- Result: Performs a shift-right on an UNSIGNED vector COUNT times.
-- The vacated positions are filled with '0'.
-- The COUNT rightmost elements are lost.
--============================================================================
-- Id: S.5
function ROTATE_LEFT (ARG : BIT_VECTOR; COUNT : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(ARG'LENGTH-1 downto 0)
-- Result: Performs a rotate-left of an UNSIGNED vector COUNT times.
-- Id: S.6
function ROTATE_RIGHT (ARG : BIT_VECTOR; COUNT : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(ARG'LENGTH-1 downto 0)
-- Result: Performs a rotate-right of an UNSIGNED vector COUNT times.
--============================================================================
------------------------------------------------------------------------------
-- Note: Function S.9 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.9
function "sll" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: SHIFT_LEFT(ARG, COUNT)
------------------------------------------------------------------------------
-- Note: Function S.11 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.11
function "srl" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: SHIFT_RIGHT(ARG, COUNT)
------------------------------------------------------------------------------
-- Note: Function S.13 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.13
function "rol" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: ROTATE_LEFT(ARG, COUNT)
------------------------------------------------------------------------------
-- Note: Function S.15 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.15
function "ror" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: ROTATE_RIGHT(ARG, COUNT)
------------------------------------------------------------------------------
-- Note: Function S.17 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.17
function "sla" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: SHIFT_LEFT(ARG, COUNT)
------------------------------------------------------------------------------
-- Note: Function S.19 is not compatible with IEEE Std 1076-1987. Comment
-- out the function (declaration and body) for IEEE Std 1076-1987 compatibility.
------------------------------------------------------------------------------
-- Id: S.19
function "sra" (ARG : BIT_VECTOR; COUNT : INTEGER) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR(ARG'LENGTH-1 downto 0)
-- Result: SHIFT_RIGHT(ARG, COUNT)
--============================================================================
-- RESIZE Functions
--============================================================================
-- Id: R.2
function RESIZE (ARG : BIT_VECTOR; NEW_SIZE : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(NEW_SIZE-1 downto 0)
-- Result: Resizes the UNSIGNED vector ARG to the specified size.
-- To create a larger vector, the new [leftmost] bit positions
-- are filled with '0'. When truncating, the leftmost bits
-- are dropped.
function RESIZE (ARG, SIZE_RES : BIT_VECTOR) return BIT_VECTOR;
-- Result subtype: BIT_VECTOR (SIZE_RES'length-1 downto 0)
--============================================================================
-- Conversion Functions
--============================================================================
-- Id: D.1
function TO_INTEGER (ARG : BIT_VECTOR) return NATURAL;
-- Result subtype: NATURAL. Value cannot be negative since parameter is an
-- UNSIGNED vector.
-- Result: Converts the UNSIGNED vector to an INTEGER.
-- Id: D.3
function To_BitVector (ARG, SIZE : NATURAL) return BIT_VECTOR;
-- Result subtype: bit_vector(SIZE-1 downto 0)
-- Result: Converts a non-negative INTEGER to an UNSIGNED vector with
-- the specified size.
function To_BitVector (ARG : NATURAL; SIZE_RES : BIT_VECTOR)
return BIT_VECTOR;
-- Result subtype: STD_LOGIC_VECTOR(SIZE_RES'length-1 downto 0)
-- begin LCS-2006-130
alias To_Bit_Vector is
To_BitVector[NATURAL, NATURAL return BIT_VECTOR];
alias To_BV is
To_BitVector[NATURAL, NATURAL return BIT_VECTOR];
alias To_Bit_Vector is
To_BitVector[NATURAL, BIT_VECTOR return BIT_VECTOR];
alias To_BV is
To_BitVector[NATURAL, BIT_VECTOR return BIT_VECTOR];
end package NUMERIC_BIT_UNSIGNED;