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jeremybenn |
------------------------------------------------------------------------------
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-- --
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-- GNAT RUN-TIME COMPONENTS --
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-- --
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-- G N A T . B Y T E _ S W A P P I N G --
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-- --
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-- S p e c --
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-- --
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-- Copyright (C) 2006-2011, AdaCore --
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-- --
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-- GNAT is free software; you can redistribute it and/or modify it under --
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-- terms of the GNU General Public License as published by the Free Soft- --
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-- ware Foundation; either version 3, or (at your option) any later ver- --
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-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
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-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
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-- or FITNESS FOR A PARTICULAR PURPOSE. --
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-- --
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-- As a special exception under Section 7 of GPL version 3, you are granted --
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-- additional permissions described in the GCC Runtime Library Exception, --
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-- version 3.1, as published by the Free Software Foundation. --
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-- --
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-- You should have received a copy of the GNU General Public License and --
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-- a copy of the GCC Runtime Library Exception along with this program; --
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-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
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-- <http://www.gnu.org/licenses/>. --
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-- --
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-- GNAT was originally developed by the GNAT team at New York University. --
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-- Extensive contributions were provided by Ada Core Technologies Inc. --
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-- --
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------------------------------------------------------------------------------
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-- Simple routines for swapping the bytes of 16-, 32-, and 64-bit objects
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-- The generic functions should be instantiated with types that are of a size
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-- in bytes corresponding to the name of the generic. For example, a 2-byte
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-- integer type would be compatible with Swapped2, 4-byte integer with
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-- Swapped4, and so on. Failure to do so will result in a warning when
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-- compiling the instantiation; this warning should be heeded. Ignoring this
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-- warning can result in unexpected results.
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-- An example of proper usage follows:
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-- declare
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-- type Short_Integer is range -32768 .. 32767;
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-- for Short_Integer'Size use 16; -- for confirmation
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-- X : Short_Integer := 16#7FFF#;
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-- function Swapped is new Byte_Swapping.Swapped2 (Short_Integer);
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-- begin
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-- Put_Line (X'Img);
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-- X := Swapped (X);
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-- Put_Line (X'Img);
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-- end;
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-- Note that the generic actual types need not be scalars, but must be
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-- 'definite' types. They can, for example, be constrained subtypes of
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-- unconstrained array types as long as the size is correct. For instance,
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-- a subtype of String with length of 4 would be compatible with the
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-- Swapped4 generic:
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-- declare
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-- subtype String4 is String (1 .. 4);
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-- function Swapped is new Byte_Swapping.Swapped4 (String4);
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-- S : String4 := "ABCD";
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-- for S'Alignment use 4;
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-- begin
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-- Put_Line (S);
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-- S := Swapped (S);
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-- Put_Line (S);
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-- end;
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-- Similarly, a constrained array type is also acceptable:
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-- declare
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-- type Mask is array (0 .. 15) of Boolean;
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-- for Mask'Alignment use 2;
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-- for Mask'Component_Size use Boolean'Size;
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-- X : Mask := (0 .. 7 => True, others => False);
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-- function Swapped is new Byte_Swapping.Swapped2 (Mask);
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-- begin
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-- ...
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-- X := Swapped (X);
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-- ...
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-- end;
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-- A properly-sized record type will also be acceptable, and so forth
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-- However, as described, a size mismatch must be avoided. In the following we
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-- instantiate one of the generics with a type that is too large. The result
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-- of the function call is undefined, such that assignment to an object can
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-- result in garbage values.
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-- Wrong: declare
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-- subtype String16 is String (1 .. 16);
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-- function Swapped is new Byte_Swapping.Swapped8 (String16);
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-- -- Instantiation generates a compiler warning about
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-- -- mismatched sizes
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-- S : String16;
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-- begin
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-- S := "ABCDEFGHDEADBEEF";
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--
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-- Put_Line (S);
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--
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-- -- the following assignment results in garbage in S after the
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-- -- first 8 bytes
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--
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-- S := Swapped (S);
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--
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-- Put_Line (S);
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-- end Wrong;
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-- When the size of the type is larger than 8 bytes, the use of the non-
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-- generic procedures is an alternative because no function result is
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-- involved; manipulation of the object is direct.
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-- The procedures are passed the address of an object to manipulate. They will
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-- swap the first N bytes of that object corresponding to the name of the
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-- procedure. For example:
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-- declare
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-- S2 : String := "AB";
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-- for S2'Alignment use 2;
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-- S4 : String := "ABCD";
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-- for S4'Alignment use 4;
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-- S8 : String := "ABCDEFGH";
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-- for S8'Alignment use 8;
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-- begin
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-- Swap2 (S2'Address);
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-- Put_Line (S2);
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-- Swap4 (S4'Address);
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-- Put_Line (S4);
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-- Swap8 (S8'Address);
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-- Put_Line (S8);
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-- end;
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-- If an object of a type larger than N is passed, the remaining bytes of the
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-- object are undisturbed. For example:
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-- declare
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-- subtype String16 is String (1 .. 16);
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-- S : String16;
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-- for S'Alignment use 8;
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-- begin
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-- S := "ABCDEFGHDEADBEEF";
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-- Put_Line (S);
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-- Swap8 (S'Address);
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-- Put_Line (S);
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-- end;
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with System;
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package GNAT.Byte_Swapping is
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pragma Pure;
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-- NB: all the routines in this package treat the application objects as
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-- unsigned (modular) types of a size in bytes corresponding to the routine
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-- name. For example, the generic function Swapped2 manipulates the object
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-- passed to the formal parameter Input as a value of an unsigned type that
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-- is 2 bytes long. Therefore clients are responsible for the compatibility
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-- of application types manipulated by these routines and these modular
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-- types, in terms of both size and alignment. This requirement applies to
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-- the generic actual type passed to the generic formal type Item in the
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-- generic functions, as well as to the type of the object implicitly
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-- designated by the address passed to the non-generic procedures. Use of
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-- incompatible types can result in implementation- defined effects.
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generic
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type Item is limited private;
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function Swapped2 (Input : Item) return Item;
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-- Return the 2-byte value of Input with the bytes swapped
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generic
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type Item is limited private;
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function Swapped4 (Input : Item) return Item;
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-- Return the 4-byte value of Input with the bytes swapped
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generic
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type Item is limited private;
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function Swapped8 (Input : Item) return Item;
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-- Return the 8-byte value of Input with the bytes swapped
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procedure Swap2 (Location : System.Address);
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-- Swap the first 2 bytes of the object starting at the address specified
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-- by Location.
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procedure Swap4 (Location : System.Address);
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-- Swap the first 4 bytes of the object starting at the address specified
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-- by Location.
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procedure Swap8 (Location : System.Address);
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-- Swap the first 8 bytes of the object starting at the address specified
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-- by Location.
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pragma Inline (Swap2, Swap4, Swap8, Swapped2, Swapped4, Swapped8);
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end GNAT.Byte_Swapping;
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