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------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S Y S T E M . S T A N D A R D _ L I B R A R Y --
-- --
-- S p e c --
-- --
-- $Revision: 1.1 $
-- --
-- Copyright (C) 1992-2001 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). --
-- --
------------------------------------------------------------------------------
-- This package is included in all programs. It contains declarations that
-- are required to be part of every Ada program. A special mechanism is
-- required to ensure that these are loaded, since it may be the case in
-- some programs that the only references to these required packages are
-- from C code or from code generated directly by Gigi, an in both cases
-- the binder is not aware of such references.
-- System.Standard_Library also includes data that must be present in every
-- program, in particular the definitions of all the standard and also some
-- subprograms that must be present in every program.
-- The binder unconditionally includes s-stalib.ali, which ensures that this
-- package and the packages it references are included in all Ada programs,
-- together with the included data.
pragma Polling (Off);
-- We must turn polling off for this unit, because otherwise we get
-- elaboration circularities with Ada.Exceptions if polling is on.
with System;
with Unchecked_Conversion;
package System.Standard_Library is
pragma Suppress (All_Checks);
-- Suppress explicitly all the checks to work around the Solaris linker
-- bug when using gnatmake -f -a (but without -gnatp). This is not needed
-- with Solaris 2.6, so eventually can be removed ???
type Big_String_Ptr is access all String (Positive);
-- A non-fat pointer type for null terminated strings
function To_Ptr is
new Unchecked_Conversion (System.Address, Big_String_Ptr);
---------------------------------------------
-- Type For Enumeration Image Index Tables --
---------------------------------------------
-- Note: these types are declared at the start of this unit, since
-- they must appear before any enumeration types declared in this
-- unit. Note that the spec of system is already elaborated at
-- this point (since we are a child of system), which means that
-- enumeration types in package System cannot use these types.
type Image_Index_Table_8 is
array (Integer range <>) of Short_Short_Integer;
type Image_Index_Table_16 is
array (Integer range <>) of Short_Integer;
type Image_Index_Table_32 is
array (Integer range <>) of Integer;
-- These types are used to generate the index vector used for enumeration
-- type image tables. See spec of Exp_Imgv in the main GNAT sources for a
-- full description of the data structures that are used here.
-------------------------------------
-- Exception Declarations and Data --
-------------------------------------
type Exception_Data;
type Exception_Data_Ptr is access all Exception_Data;
-- An equivalent of Exception_Id that is public
-- The following record defines the underlying representation of exceptions
-- WARNING! Any changes to this may need to be reflectd in the following
-- locations in the compiler and runtime code:
-- 1. The Internal_Exception routine in s-exctab.adb
-- 2. The processing in gigi that tests Not_Handled_By_Others
-- 3. Expand_N_Exception_Declaration in Exp_Ch11
-- 4. The construction of the exception type in Cstand
type Exception_Data is record
Not_Handled_By_Others : Boolean;
-- Normally set False, indicating that the exception is handled in the
-- usual way by others (i.e. an others handler handles the exception).
-- Set True to indicate that this exception is not caught by others
-- handlers, but must be explicitly named in a handler. This latter
-- setting is currently used by the Abort_Signal.
Lang : Character;
-- A character indicating the language raising the exception.
-- Set to "A" for exceptions defined by an Ada program.
-- Set to "V" for imported VMS exceptions.
Name_Length : Natural;
-- Length of fully expanded name of exception
Full_Name : Big_String_Ptr;
-- Fully expanded name of exception, null terminated
HTable_Ptr : Exception_Data_Ptr;
-- Hash table pointer used to link entries together in the hash table
-- built (by Register_Exception in s-exctab.adb) for converting between
-- identities and names.
Import_Code : Integer;
-- Value for imported exceptions. Needed only for the handling of
-- Import/Export_Exception for the VMS case, but present in all
-- implementations (we might well extend this mechanism for other
-- systems in the future).
end record;
-- Definitions for standard predefined exceptions defined in Standard,
-- Why are the Nul's necessary here, seems like they should not be
-- required, since Gigi is supposed to add a Nul to each name ???
Constraint_Error_Name : constant String := "CONSTRAINT_ERROR" & ASCII.NUL;
Program_Error_Name : constant String := "PROGRAM_ERROR" & ASCII.NUL;
Storage_Error_Name : constant String := "STORAGE_ERROR" & ASCII.NUL;
Tasking_Error_Name : constant String := "TASKING_ERROR" & ASCII.NUL;
Abort_Signal_Name : constant String := "_ABORT_SIGNAL" & ASCII.NUL;
Numeric_Error_Name : constant String := "NUMERIC_ERROR" & ASCII.NUL;
-- This is used only in the Ada 83 case, but it is not worth having a
-- separate version of s-stalib.ads for use in Ada 83 mode.
Constraint_Error_Def : aliased Exception_Data :=
(Not_Handled_By_Others => False,
Lang => 'A',
Name_Length => Constraint_Error_Name'Length,
Full_Name => To_Ptr (Constraint_Error_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
Numeric_Error_Def : aliased Exception_Data :=
(Not_Handled_By_Others => False,
Lang => 'A',
Name_Length => Numeric_Error_Name'Length,
Full_Name => To_Ptr (Numeric_Error_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
Program_Error_Def : aliased Exception_Data :=
(Not_Handled_By_Others => False,
Lang => 'A',
Name_Length => Program_Error_Name'Length,
Full_Name => To_Ptr (Program_Error_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
Storage_Error_Def : aliased Exception_Data :=
(Not_Handled_By_Others => False,
Lang => 'A',
Name_Length => Storage_Error_Name'Length,
Full_Name => To_Ptr (Storage_Error_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
Tasking_Error_Def : aliased Exception_Data :=
(Not_Handled_By_Others => False,
Lang => 'A',
Name_Length => Tasking_Error_Name'Length,
Full_Name => To_Ptr (Tasking_Error_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
Abort_Signal_Def : aliased Exception_Data :=
(Not_Handled_By_Others => True,
Lang => 'A',
Name_Length => Abort_Signal_Name'Length,
Full_Name => To_Ptr (Abort_Signal_Name'Address),
HTable_Ptr => null,
Import_Code => 0);
pragma Export (C, Constraint_Error_Def, "constraint_error");
pragma Export (C, Numeric_Error_Def, "numeric_error");
pragma Export (C, Program_Error_Def, "program_error");
pragma Export (C, Storage_Error_Def, "storage_error");
pragma Export (C, Tasking_Error_Def, "tasking_error");
pragma Export (C, Abort_Signal_Def, "_abort_signal");
Local_Partition_ID : Natural := 0;
-- This variable contains the local Partition_ID that will be used when
-- building exception occurrences. In distributed mode, it will be
-- set by each partition to the correct value during the elaboration.
type Exception_Trace_Kind is
(RM_Convention,
-- No particular trace is requested, only unhandled exceptions
-- in the environment task (following the RM) will be printed.
-- This is the default behavior.
Every_Raise,
-- Denotes every possible raise event, either explicit or due to
-- a specific language rule, within the context of a task or not.
Unhandled_Raise
-- Denotes the raise events corresponding to exceptions for which
-- there is no user defined handler.
);
-- Provide a way to denote different kinds of automatic traces related
-- to exceptions that can be requested.
Exception_Trace : Exception_Trace_Kind := RM_Convention;
pragma Atomic (Exception_Trace);
-- By default, follow the RM convention.
-----------------
-- Subprograms --
-----------------
procedure Abort_Undefer_Direct;
pragma Inline (Abort_Undefer_Direct);
-- A little procedure that just calls Abort_Undefer.all, for use in
-- clean up procedures, which only permit a simple subprogram name.
procedure Adafinal;
-- Performs the Ada Runtime finalization the first time it is invoked.
-- All subsequent calls are ignored.
end System.Standard_Library;