------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- A D A . E X C E P T I O N S --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2009, 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 3, 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. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- . --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This version of Ada.Exceptions is a full Ada 95 version, and Ada 2005
-- features such as the additional definitions of Exception_Name returning
-- Wide_[Wide_]String.
-- It is used for building the compiler and the basic tools, since these
-- builds may be done with bootstrap compilers that cannot handle these
-- additions. The full version of Ada.Exceptions can be found in the files
-- a-except-2005.ads/adb, and is used for all other builds where full Ada
-- 2005 functionality is required. In particular, it is used for building
-- run times on all targets.
pragma Compiler_Unit;
pragma Style_Checks (All_Checks);
-- No subprogram ordering check, due to logical grouping
pragma Polling (Off);
-- We must turn polling off for this unit, because otherwise we get
-- elaboration circularities with System.Exception_Tables.
with System; use System;
with System.Exceptions; use System.Exceptions;
with System.Standard_Library; use System.Standard_Library;
with System.Soft_Links; use System.Soft_Links;
package body Ada.Exceptions is
pragma Suppress (All_Checks);
-- We definitely do not want exceptions occurring within this unit, or we
-- are in big trouble. If an exceptional situation does occur, better that
-- it not be raised, since raising it can cause confusing chaos.
-----------------------
-- Local Subprograms --
-----------------------
-- Note: the exported subprograms in this package body are called directly
-- from C clients using the given external name, even though they are not
-- technically visible in the Ada sense.
procedure Process_Raise_Exception (E : Exception_Id);
pragma No_Return (Process_Raise_Exception);
-- This is the lowest level raise routine. It raises the exception
-- referenced by Current_Excep.all in the TSD, without deferring abort
-- (the caller must ensure that abort is deferred on entry).
procedure To_Stderr (S : String);
pragma Export (Ada, To_Stderr, "__gnat_to_stderr");
-- Little routine to output string to stderr that is also used in the
-- tasking run time.
procedure To_Stderr (C : Character);
pragma Inline (To_Stderr);
pragma Export (Ada, To_Stderr, "__gnat_to_stderr_char");
-- Little routine to output a character to stderr, used by some of the
-- separate units below.
package Exception_Data is
---------------------------------
-- Exception messages routines --
---------------------------------
procedure Set_Exception_C_Msg
(Id : Exception_Id;
Msg1 : System.Address;
Line : Integer := 0;
Msg2 : System.Address := System.Null_Address);
-- This routine is called to setup the exception referenced by the
-- Current_Excep field in the TSD to contain the indicated Id value
-- and message. Msg1 is a null terminated string which is generated
-- as the exception message. If line is non-zero, then a colon and
-- the decimal representation of this integer is appended to the
-- message. When Msg2 is non-null, a space and this additional null
-- terminated string is added to the message.
procedure Set_Exception_Msg
(Id : Exception_Id;
Message : String);
-- This routine is called to setup the exception referenced by the
-- Current_Excep field in the TSD to contain the indicated Id value and
-- message. Message is a string which is generated as the exception
-- message.
--------------------------------------
-- Exception information subprogram --
--------------------------------------
function Exception_Information (X : Exception_Occurrence) return String;
-- The format of the exception information is as follows:
--
-- Exception_Name: (as in Exception_Name)
-- Message: (only if Exception_Message is empty)
-- PID=nnnn (only if != 0)
-- Call stack traceback locations: (only if at least one location)
-- <0xyyyyyyyy 0xyyyyyyyy ...> (is recorded)
--
-- The lines are separated by a ASCII.LF character
--
-- The nnnn is the partition Id given as decimal digits
--
-- The 0x... line represents traceback program counter locations, in
-- execution order with the first one being the exception location. It
-- is present only
--
-- The Exception_Name and Message lines are omitted in the abort signal
-- case, since this is not really an exception.
-- Note: If the format of the generated string is changed, please note
-- that an equivalent modification to the routine String_To_EO must be
-- made to preserve proper functioning of the stream attributes.
---------------------------------------
-- Exception backtracing subprograms --
---------------------------------------
-- What is automatically output when exception tracing is on is the
-- usual exception information with the call chain backtrace possibly
-- tailored by a backtrace decorator. Modifying Exception_Information
-- itself is not a good idea because the decorated output is completely
-- out of control and would break all our code related to the streaming
-- of exceptions. We then provide an alternative function to compute
-- the possibly tailored output, which is equivalent if no decorator is
-- currently set:
function Tailored_Exception_Information
(X : Exception_Occurrence) return String;
-- Exception information to be output in the case of automatic tracing
-- requested through GNAT.Exception_Traces.
--
-- This is the same as Exception_Information if no backtrace decorator
-- is currently in place. Otherwise, this is Exception_Information with
-- the call chain raw addresses replaced by the result of a call to the
-- current decorator provided with the call chain addresses.
pragma Export
(Ada, Tailored_Exception_Information,
"__gnat_tailored_exception_information");
-- This is currently used by System.Tasking.Stages
end Exception_Data;
package Exception_Traces is
use Exception_Data;
-- Imports Tailored_Exception_Information
----------------------------------------------
-- Run-Time Exception Notification Routines --
----------------------------------------------
-- These subprograms provide a common run-time interface to trigger the
-- actions required when an exception is about to be propagated (e.g.
-- user specified actions or output of exception information). They are
-- exported to be usable by the Ada exception handling personality
-- routine when the GCC 3 mechanism is used.
procedure Notify_Handled_Exception;
pragma Export
(C, Notify_Handled_Exception, "__gnat_notify_handled_exception");
-- This routine is called for a handled occurrence is about to be
-- propagated.
procedure Notify_Unhandled_Exception;
pragma Export
(C, Notify_Unhandled_Exception, "__gnat_notify_unhandled_exception");
-- This routine is called when an unhandled occurrence is about to be
-- propagated.
procedure Unhandled_Exception_Terminate;
pragma No_Return (Unhandled_Exception_Terminate);
-- This procedure is called to terminate program execution following an
-- unhandled exception. The exception information, including traceback
-- if available is output, and execution is then terminated. Note that
-- at the point where this routine is called, the stack has typically
-- been destroyed.
end Exception_Traces;
package Exception_Propagation is
procedure Setup_Exception
(Excep : EOA;
Current : EOA;
Reraised : Boolean := False);
-- Dummy routine used to share a-exexda.adb, do nothing
end Exception_Propagation;
package Stream_Attributes is
--------------------------------
-- Stream attributes routines --
--------------------------------
function EId_To_String (X : Exception_Id) return String;
function String_To_EId (S : String) return Exception_Id;
-- Functions for implementing Exception_Id stream attributes
function EO_To_String (X : Exception_Occurrence) return String;
function String_To_EO (S : String) return Exception_Occurrence;
-- Functions for implementing Exception_Occurrence stream
-- attributes
end Stream_Attributes;
procedure Raise_Current_Excep (E : Exception_Id);
pragma No_Return (Raise_Current_Excep);
pragma Export (C, Raise_Current_Excep, "__gnat_raise_nodefer_with_msg");
-- This is a simple wrapper to Process_Raise_Exception.
--
-- This external name for Raise_Current_Excep is historical, and probably
-- should be changed but for now we keep it, because gdb and gigi know
-- about it.
procedure Raise_Exception_No_Defer
(E : Exception_Id; Message : String := "");
pragma Export
(Ada, Raise_Exception_No_Defer,
"ada__exceptions__raise_exception_no_defer");
pragma No_Return (Raise_Exception_No_Defer);
-- Similar to Raise_Exception, but with no abort deferral
procedure Raise_With_Msg (E : Exception_Id);
pragma No_Return (Raise_With_Msg);
pragma Export (C, Raise_With_Msg, "__gnat_raise_with_msg");
-- Raises an exception with given exception id value. A message is
-- associated with the raise, and has already been stored in the exception
-- occurrence referenced by the Current_Excep in the TSD. Abort is deferred
-- before the raise call.
procedure Raise_With_Location_And_Msg
(E : Exception_Id;
F : System.Address;
L : Integer;
M : System.Address := System.Null_Address);
pragma No_Return (Raise_With_Location_And_Msg);
-- Raise an exception with given exception id value. A filename and line
-- number is associated with the raise and is stored in the exception
-- occurrence and in addition a string message M is appended to this
-- if M is not null.
procedure Raise_Constraint_Error
(File : System.Address;
Line : Integer);
pragma No_Return (Raise_Constraint_Error);
pragma Export
(C, Raise_Constraint_Error, "__gnat_raise_constraint_error");
-- Raise constraint error with file:line information
procedure Raise_Constraint_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address);
pragma No_Return (Raise_Constraint_Error_Msg);
pragma Export
(C, Raise_Constraint_Error_Msg, "__gnat_raise_constraint_error_msg");
-- Raise constraint error with file:line + msg information
procedure Raise_Program_Error
(File : System.Address;
Line : Integer);
pragma No_Return (Raise_Program_Error);
pragma Export
(C, Raise_Program_Error, "__gnat_raise_program_error");
-- Raise program error with file:line information
procedure Raise_Program_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address);
pragma No_Return (Raise_Program_Error_Msg);
pragma Export
(C, Raise_Program_Error_Msg, "__gnat_raise_program_error_msg");
-- Raise program error with file:line + msg information
procedure Raise_Storage_Error
(File : System.Address;
Line : Integer);
pragma No_Return (Raise_Storage_Error);
pragma Export
(C, Raise_Storage_Error, "__gnat_raise_storage_error");
-- Raise storage error with file:line information
procedure Raise_Storage_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address);
pragma No_Return (Raise_Storage_Error_Msg);
pragma Export
(C, Raise_Storage_Error_Msg, "__gnat_raise_storage_error_msg");
-- Raise storage error with file:line + reason msg information
-- The exception raising process and the automatic tracing mechanism rely
-- on some careful use of flags attached to the exception occurrence. The
-- graph below illustrates the relations between the Raise_ subprograms
-- and identifies the points where basic flags such as Exception_Raised
-- are initialized.
--
-- (i) signs indicate the flags initialization points. R stands for Raise,
-- W for With, and E for Exception.
--
-- R_No_Msg R_E R_Pe R_Ce R_Se
-- | | | | |
-- +--+ +--+ +---+ | +---+
-- | | | | |
-- R_E_No_Defer(i) R_W_Msg(i) R_W_Loc
-- | | | |
-- +------------+ | +-----------+ +--+
-- | | | |
-- | | | Set_E_C_Msg(i)
-- | | |
-- Raise_Current_Excep
procedure Reraise;
pragma No_Return (Reraise);
pragma Export (C, Reraise, "__gnat_reraise");
-- Reraises the exception referenced by the Current_Excep field of the TSD
-- (all fields of this exception occurrence are set). Abort is deferred
-- before the reraise operation.
-- Save_Occurrence variations: As the management of the private data
-- attached to occurrences is delicate, whether or not pointers to such
-- data has to be copied in various situations is better made explicit.
-- The following procedures provide an internal interface to help making
-- this explicit.
procedure Save_Occurrence_No_Private
(Target : out Exception_Occurrence;
Source : Exception_Occurrence);
-- Copy all the components of Source to Target, except the
-- Private_Data pointer.
procedure Transfer_Occurrence
(Target : Exception_Occurrence_Access;
Source : Exception_Occurrence);
pragma Export (C, Transfer_Occurrence, "__gnat_transfer_occurrence");
-- Called from System.Tasking.RendezVous.Exceptional_Complete_RendezVous
-- to setup Target from Source as an exception to be propagated in the
-- caller task. Target is expected to be a pointer to the fixed TSD
-- occurrence for this task.
-----------------------------
-- Run-Time Check Routines --
-----------------------------
-- Routines to a specific exception with a reason message attached. The
-- parameters are the file name and line number in each case. The names are
-- keyed to the codes defined in types.ads and a-types.h (for example, the
-- name Rcheck_05 refers to the Reason RT_Exception_Code'Val (5)).
procedure Rcheck_00 (File : System.Address; Line : Integer);
procedure Rcheck_01 (File : System.Address; Line : Integer);
procedure Rcheck_02 (File : System.Address; Line : Integer);
procedure Rcheck_03 (File : System.Address; Line : Integer);
procedure Rcheck_04 (File : System.Address; Line : Integer);
procedure Rcheck_05 (File : System.Address; Line : Integer);
procedure Rcheck_06 (File : System.Address; Line : Integer);
procedure Rcheck_07 (File : System.Address; Line : Integer);
procedure Rcheck_08 (File : System.Address; Line : Integer);
procedure Rcheck_09 (File : System.Address; Line : Integer);
procedure Rcheck_10 (File : System.Address; Line : Integer);
procedure Rcheck_11 (File : System.Address; Line : Integer);
procedure Rcheck_12 (File : System.Address; Line : Integer);
procedure Rcheck_13 (File : System.Address; Line : Integer);
procedure Rcheck_14 (File : System.Address; Line : Integer);
procedure Rcheck_15 (File : System.Address; Line : Integer);
procedure Rcheck_16 (File : System.Address; Line : Integer);
procedure Rcheck_17 (File : System.Address; Line : Integer);
procedure Rcheck_18 (File : System.Address; Line : Integer);
procedure Rcheck_19 (File : System.Address; Line : Integer);
procedure Rcheck_20 (File : System.Address; Line : Integer);
procedure Rcheck_21 (File : System.Address; Line : Integer);
procedure Rcheck_22 (File : System.Address; Line : Integer);
procedure Rcheck_23 (File : System.Address; Line : Integer);
procedure Rcheck_24 (File : System.Address; Line : Integer);
procedure Rcheck_25 (File : System.Address; Line : Integer);
procedure Rcheck_26 (File : System.Address; Line : Integer);
procedure Rcheck_27 (File : System.Address; Line : Integer);
procedure Rcheck_28 (File : System.Address; Line : Integer);
procedure Rcheck_29 (File : System.Address; Line : Integer);
procedure Rcheck_30 (File : System.Address; Line : Integer);
procedure Rcheck_31 (File : System.Address; Line : Integer);
procedure Rcheck_32 (File : System.Address; Line : Integer);
procedure Rcheck_33 (File : System.Address; Line : Integer);
pragma Export (C, Rcheck_00, "__gnat_rcheck_00");
pragma Export (C, Rcheck_01, "__gnat_rcheck_01");
pragma Export (C, Rcheck_02, "__gnat_rcheck_02");
pragma Export (C, Rcheck_03, "__gnat_rcheck_03");
pragma Export (C, Rcheck_04, "__gnat_rcheck_04");
pragma Export (C, Rcheck_05, "__gnat_rcheck_05");
pragma Export (C, Rcheck_06, "__gnat_rcheck_06");
pragma Export (C, Rcheck_07, "__gnat_rcheck_07");
pragma Export (C, Rcheck_08, "__gnat_rcheck_08");
pragma Export (C, Rcheck_09, "__gnat_rcheck_09");
pragma Export (C, Rcheck_10, "__gnat_rcheck_10");
pragma Export (C, Rcheck_11, "__gnat_rcheck_11");
pragma Export (C, Rcheck_12, "__gnat_rcheck_12");
pragma Export (C, Rcheck_13, "__gnat_rcheck_13");
pragma Export (C, Rcheck_14, "__gnat_rcheck_14");
pragma Export (C, Rcheck_15, "__gnat_rcheck_15");
pragma Export (C, Rcheck_16, "__gnat_rcheck_16");
pragma Export (C, Rcheck_17, "__gnat_rcheck_17");
pragma Export (C, Rcheck_18, "__gnat_rcheck_18");
pragma Export (C, Rcheck_19, "__gnat_rcheck_19");
pragma Export (C, Rcheck_20, "__gnat_rcheck_20");
pragma Export (C, Rcheck_21, "__gnat_rcheck_21");
pragma Export (C, Rcheck_22, "__gnat_rcheck_22");
pragma Export (C, Rcheck_23, "__gnat_rcheck_23");
pragma Export (C, Rcheck_24, "__gnat_rcheck_24");
pragma Export (C, Rcheck_25, "__gnat_rcheck_25");
pragma Export (C, Rcheck_26, "__gnat_rcheck_26");
pragma Export (C, Rcheck_27, "__gnat_rcheck_27");
pragma Export (C, Rcheck_28, "__gnat_rcheck_28");
pragma Export (C, Rcheck_29, "__gnat_rcheck_29");
pragma Export (C, Rcheck_30, "__gnat_rcheck_30");
pragma Export (C, Rcheck_31, "__gnat_rcheck_31");
pragma Export (C, Rcheck_32, "__gnat_rcheck_32");
pragma Export (C, Rcheck_33, "__gnat_rcheck_33");
-- None of these procedures ever returns (they raise an exception!). By
-- using pragma No_Return, we ensure that any junk code after the call,
-- such as normal return epilog stuff, can be eliminated).
pragma No_Return (Rcheck_00);
pragma No_Return (Rcheck_01);
pragma No_Return (Rcheck_02);
pragma No_Return (Rcheck_03);
pragma No_Return (Rcheck_04);
pragma No_Return (Rcheck_05);
pragma No_Return (Rcheck_06);
pragma No_Return (Rcheck_07);
pragma No_Return (Rcheck_08);
pragma No_Return (Rcheck_09);
pragma No_Return (Rcheck_10);
pragma No_Return (Rcheck_11);
pragma No_Return (Rcheck_12);
pragma No_Return (Rcheck_13);
pragma No_Return (Rcheck_14);
pragma No_Return (Rcheck_15);
pragma No_Return (Rcheck_16);
pragma No_Return (Rcheck_17);
pragma No_Return (Rcheck_18);
pragma No_Return (Rcheck_19);
pragma No_Return (Rcheck_20);
pragma No_Return (Rcheck_21);
pragma No_Return (Rcheck_22);
pragma No_Return (Rcheck_23);
pragma No_Return (Rcheck_24);
pragma No_Return (Rcheck_25);
pragma No_Return (Rcheck_26);
pragma No_Return (Rcheck_27);
pragma No_Return (Rcheck_28);
pragma No_Return (Rcheck_29);
pragma No_Return (Rcheck_30);
pragma No_Return (Rcheck_32);
pragma No_Return (Rcheck_33);
---------------------------------------------
-- Reason Strings for Run-Time Check Calls --
---------------------------------------------
-- These strings are null-terminated and are used by Rcheck_nn. The
-- strings correspond to the definitions for Types.RT_Exception_Code.
use ASCII;
Rmsg_00 : constant String := "access check failed" & NUL;
Rmsg_01 : constant String := "access parameter is null" & NUL;
Rmsg_02 : constant String := "discriminant check failed" & NUL;
Rmsg_03 : constant String := "divide by zero" & NUL;
Rmsg_04 : constant String := "explicit raise" & NUL;
Rmsg_05 : constant String := "index check failed" & NUL;
Rmsg_06 : constant String := "invalid data" & NUL;
Rmsg_07 : constant String := "length check failed" & NUL;
Rmsg_08 : constant String := "null Exception_Id" & NUL;
Rmsg_09 : constant String := "null-exclusion check failed" & NUL;
Rmsg_10 : constant String := "overflow check failed" & NUL;
Rmsg_11 : constant String := "partition check failed" & NUL;
Rmsg_12 : constant String := "range check failed" & NUL;
Rmsg_13 : constant String := "tag check failed" & NUL;
Rmsg_14 : constant String := "access before elaboration" & NUL;
Rmsg_15 : constant String := "accessibility check failed" & NUL;
Rmsg_16 : constant String := "attempt to take address of" &
" intrinsic subprogram" & NUL;
Rmsg_17 : constant String := "all guards closed" & NUL;
Rmsg_18 : constant String := "Current_Task referenced in entry" &
" body" & NUL;
Rmsg_19 : constant String := "duplicated entry address" & NUL;
Rmsg_20 : constant String := "explicit raise" & NUL;
Rmsg_21 : constant String := "finalize/adjust raised exception" & NUL;
Rmsg_22 : constant String := "implicit return with No_Return" & NUL;
Rmsg_23 : constant String := "misaligned address value" & NUL;
Rmsg_24 : constant String := "missing return" & NUL;
Rmsg_25 : constant String := "overlaid controlled object" & NUL;
Rmsg_26 : constant String := "potentially blocking operation" & NUL;
Rmsg_27 : constant String := "stubbed subprogram called" & NUL;
Rmsg_28 : constant String := "unchecked union restriction" & NUL;
Rmsg_29 : constant String := "actual/returned class-wide" &
" value not transportable" & NUL;
Rmsg_30 : constant String := "empty storage pool" & NUL;
Rmsg_31 : constant String := "explicit raise" & NUL;
Rmsg_32 : constant String := "infinite recursion" & NUL;
Rmsg_33 : constant String := "object too large" & NUL;
-----------------------
-- Polling Interface --
-----------------------
type Unsigned is mod 2 ** 32;
Counter : Unsigned := 0;
pragma Warnings (Off, Counter);
-- This counter is provided for convenience. It can be used in Poll to
-- perform periodic but not systematic operations.
procedure Poll is separate;
-- The actual polling routine is separate, so that it can easily be
-- replaced with a target dependent version.
------------------------------
-- Current_Target_Exception --
------------------------------
function Current_Target_Exception return Exception_Occurrence is
begin
return Null_Occurrence;
end Current_Target_Exception;
-------------------
-- EId_To_String --
-------------------
function EId_To_String (X : Exception_Id) return String
renames Stream_Attributes.EId_To_String;
------------------
-- EO_To_String --
------------------
-- We use the null string to represent the null occurrence, otherwise we
-- output the Exception_Information string for the occurrence.
function EO_To_String (X : Exception_Occurrence) return String
renames Stream_Attributes.EO_To_String;
------------------------
-- Exception_Identity --
------------------------
function Exception_Identity
(X : Exception_Occurrence) return Exception_Id
is
begin
-- Note that the following test used to be here for the original Ada 95
-- semantics, but these were modified by AI-241 to require returning
-- Null_Id instead of raising Constraint_Error.
-- if X.Id = Null_Id then
-- raise Constraint_Error;
-- end if;
return X.Id;
end Exception_Identity;
---------------------------
-- Exception_Information --
---------------------------
function Exception_Information (X : Exception_Occurrence) return String is
begin
if X.Id = Null_Id then
raise Constraint_Error;
end if;
return Exception_Data.Exception_Information (X);
end Exception_Information;
-----------------------
-- Exception_Message --
-----------------------
function Exception_Message (X : Exception_Occurrence) return String is
begin
if X.Id = Null_Id then
raise Constraint_Error;
end if;
return X.Msg (1 .. X.Msg_Length);
end Exception_Message;
--------------------
-- Exception_Name --
--------------------
function Exception_Name (Id : Exception_Id) return String is
begin
if Id = null then
raise Constraint_Error;
end if;
return To_Ptr (Id.Full_Name) (1 .. Id.Name_Length - 1);
end Exception_Name;
function Exception_Name (X : Exception_Occurrence) return String is
begin
return Exception_Name (X.Id);
end Exception_Name;
---------------------------
-- Exception_Name_Simple --
---------------------------
function Exception_Name_Simple (X : Exception_Occurrence) return String is
Name : constant String := Exception_Name (X);
P : Natural;
begin
P := Name'Length;
while P > 1 loop
exit when Name (P - 1) = '.';
P := P - 1;
end loop;
-- Return result making sure lower bound is 1
declare
subtype Rname is String (1 .. Name'Length - P + 1);
begin
return Rname (Name (P .. Name'Length));
end;
end Exception_Name_Simple;
--------------------
-- Exception_Data --
--------------------
package body Exception_Data is separate;
-- This package can be easily dummied out if we do not want the basic
-- support for exception messages (such as in Ada 83).
package body Exception_Propagation is
procedure Setup_Exception
(Excep : EOA;
Current : EOA;
Reraised : Boolean := False)
is
pragma Warnings (Off, Excep);
pragma Warnings (Off, Current);
pragma Warnings (Off, Reraised);
begin
null;
end Setup_Exception;
end Exception_Propagation;
----------------------
-- Exception_Traces --
----------------------
package body Exception_Traces is separate;
-- Depending on the underlying support for IO the implementation will
-- differ. Moreover we would like to dummy out this package in case we do
-- not want any exception tracing support. This is why this package is
-- separated.
-----------------------
-- Stream Attributes --
-----------------------
package body Stream_Attributes is separate;
-- This package can be easily dummied out if we do not want the
-- support for streaming Exception_Ids and Exception_Occurrences.
-----------------------------
-- Process_Raise_Exception --
-----------------------------
procedure Process_Raise_Exception (E : Exception_Id) is
pragma Inspection_Point (E);
-- This is so the debugger can reliably inspect the parameter
Jumpbuf_Ptr : constant Address := Get_Jmpbuf_Address.all;
Excep : constant EOA := Get_Current_Excep.all;
procedure builtin_longjmp (buffer : Address; Flag : Integer);
pragma No_Return (builtin_longjmp);
pragma Import (C, builtin_longjmp, "_gnat_builtin_longjmp");
begin
-- WARNING: There should be no exception handler for this body because
-- this would cause gigi to prepend a setup for a new jmpbuf to the
-- sequence of statements in case of built-in sjljl. We would then
-- always get this new buf in Jumpbuf_Ptr instead of the one for the
-- exception we are handling, which would completely break the whole
-- design of this procedure.
-- If the jump buffer pointer is non-null, transfer control using it.
-- Otherwise announce an unhandled exception (note that this means that
-- we have no finalizations to do other than at the outer level).
-- Perform the necessary notification tasks in both cases.
if Jumpbuf_Ptr /= Null_Address then
if not Excep.Exception_Raised then
Excep.Exception_Raised := True;
Exception_Traces.Notify_Handled_Exception;
end if;
builtin_longjmp (Jumpbuf_Ptr, 1);
else
Exception_Traces.Notify_Unhandled_Exception;
Exception_Traces.Unhandled_Exception_Terminate;
end if;
end Process_Raise_Exception;
----------------------------
-- Raise_Constraint_Error --
----------------------------
procedure Raise_Constraint_Error
(File : System.Address;
Line : Integer)
is
begin
Raise_With_Location_And_Msg
(Constraint_Error_Def'Access, File, Line);
end Raise_Constraint_Error;
--------------------------------
-- Raise_Constraint_Error_Msg --
--------------------------------
procedure Raise_Constraint_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address)
is
begin
Raise_With_Location_And_Msg
(Constraint_Error_Def'Access, File, Line, Msg);
end Raise_Constraint_Error_Msg;
-------------------------
-- Raise_Current_Excep --
-------------------------
procedure Raise_Current_Excep (E : Exception_Id) is
pragma Inspection_Point (E);
-- This is so the debugger can reliably inspect the parameter when
-- inserting a breakpoint at the start of this procedure.
Id : Exception_Id := E;
pragma Volatile (Id);
pragma Warnings (Off, Id);
-- In order to provide support for breakpoints on unhandled exceptions,
-- the debugger will also need to be able to inspect the value of E from
-- another (inner) frame. So we need to make sure that if E is passed in
-- a register, its value is also spilled on stack. For this, we store
-- the parameter value in a local variable, and add a pragma Volatile to
-- make sure it is spilled. The pragma Warnings (Off) is needed because
-- the compiler knows that Id is not referenced and that this use of
-- pragma Volatile is peculiar!
begin
Debug_Raise_Exception (E => SSL.Exception_Data_Ptr (E));
Process_Raise_Exception (E);
end Raise_Current_Excep;
---------------------
-- Raise_Exception --
---------------------
procedure Raise_Exception
(E : Exception_Id;
Message : String := "")
is
EF : Exception_Id := E;
begin
-- Raise CE if E = Null_ID (AI-446)
if E = null then
EF := Constraint_Error'Identity;
end if;
-- Go ahead and raise appropriate exception
Exception_Data.Set_Exception_Msg (EF, Message);
Abort_Defer.all;
Raise_Current_Excep (EF);
end Raise_Exception;
----------------------------
-- Raise_Exception_Always --
----------------------------
procedure Raise_Exception_Always
(E : Exception_Id;
Message : String := "")
is
begin
Exception_Data.Set_Exception_Msg (E, Message);
Abort_Defer.all;
Raise_Current_Excep (E);
end Raise_Exception_Always;
-------------------------------------
-- Raise_From_Controlled_Operation --
-------------------------------------
procedure Raise_From_Controlled_Operation
(X : Ada.Exceptions.Exception_Occurrence)
is
Prefix : constant String := "adjust/finalize raised ";
Orig_Msg : constant String := Exception_Message (X);
New_Msg : constant String := Prefix & Exception_Name (X);
begin
if Orig_Msg'Length >= Prefix'Length
and then
Orig_Msg (Orig_Msg'First .. Orig_Msg'First + Prefix'Length - 1) =
Prefix
then
-- Message already has proper prefix, just re-reraise PROGRAM_ERROR
Raise_Exception_No_Defer
(E => Program_Error'Identity,
Message => Orig_Msg);
elsif Orig_Msg = "" then
-- No message present: just provide our own
Raise_Exception_No_Defer
(E => Program_Error'Identity,
Message => New_Msg);
else
-- Message present, add informational prefix
Raise_Exception_No_Defer
(E => Program_Error'Identity,
Message => New_Msg & ": " & Orig_Msg);
end if;
end Raise_From_Controlled_Operation;
-------------------------------
-- Raise_From_Signal_Handler --
-------------------------------
procedure Raise_From_Signal_Handler
(E : Exception_Id;
M : System.Address)
is
begin
Exception_Data.Set_Exception_C_Msg (E, M);
Abort_Defer.all;
Process_Raise_Exception (E);
end Raise_From_Signal_Handler;
-------------------------
-- Raise_Program_Error --
-------------------------
procedure Raise_Program_Error
(File : System.Address;
Line : Integer)
is
begin
Raise_With_Location_And_Msg
(Program_Error_Def'Access, File, Line);
end Raise_Program_Error;
-----------------------------
-- Raise_Program_Error_Msg --
-----------------------------
procedure Raise_Program_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address)
is
begin
Raise_With_Location_And_Msg
(Program_Error_Def'Access, File, Line, Msg);
end Raise_Program_Error_Msg;
-------------------------
-- Raise_Storage_Error --
-------------------------
procedure Raise_Storage_Error
(File : System.Address;
Line : Integer)
is
begin
Raise_With_Location_And_Msg
(Storage_Error_Def'Access, File, Line);
end Raise_Storage_Error;
-----------------------------
-- Raise_Storage_Error_Msg --
-----------------------------
procedure Raise_Storage_Error_Msg
(File : System.Address;
Line : Integer;
Msg : System.Address)
is
begin
Raise_With_Location_And_Msg
(Storage_Error_Def'Access, File, Line, Msg);
end Raise_Storage_Error_Msg;
---------------------------------
-- Raise_With_Location_And_Msg --
---------------------------------
procedure Raise_With_Location_And_Msg
(E : Exception_Id;
F : System.Address;
L : Integer;
M : System.Address := System.Null_Address)
is
begin
Exception_Data.Set_Exception_C_Msg (E, F, L, M);
Abort_Defer.all;
Raise_Current_Excep (E);
end Raise_With_Location_And_Msg;
--------------------
-- Raise_With_Msg --
--------------------
procedure Raise_With_Msg (E : Exception_Id) is
Excep : constant EOA := Get_Current_Excep.all;
begin
Excep.Exception_Raised := False;
Excep.Id := E;
Excep.Num_Tracebacks := 0;
Excep.Cleanup_Flag := False;
Excep.Pid := Local_Partition_ID;
Abort_Defer.all;
Raise_Current_Excep (E);
end Raise_With_Msg;
--------------------------------------
-- Calls to Run-Time Check Routines --
--------------------------------------
procedure Rcheck_00 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_00'Address);
end Rcheck_00;
procedure Rcheck_01 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_01'Address);
end Rcheck_01;
procedure Rcheck_02 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_02'Address);
end Rcheck_02;
procedure Rcheck_03 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_03'Address);
end Rcheck_03;
procedure Rcheck_04 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_04'Address);
end Rcheck_04;
procedure Rcheck_05 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_05'Address);
end Rcheck_05;
procedure Rcheck_06 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_06'Address);
end Rcheck_06;
procedure Rcheck_07 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_07'Address);
end Rcheck_07;
procedure Rcheck_08 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_08'Address);
end Rcheck_08;
procedure Rcheck_09 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_09'Address);
end Rcheck_09;
procedure Rcheck_10 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_10'Address);
end Rcheck_10;
procedure Rcheck_11 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_11'Address);
end Rcheck_11;
procedure Rcheck_12 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_12'Address);
end Rcheck_12;
procedure Rcheck_13 (File : System.Address; Line : Integer) is
begin
Raise_Constraint_Error_Msg (File, Line, Rmsg_13'Address);
end Rcheck_13;
procedure Rcheck_14 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_14'Address);
end Rcheck_14;
procedure Rcheck_15 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_15'Address);
end Rcheck_15;
procedure Rcheck_16 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_16'Address);
end Rcheck_16;
procedure Rcheck_17 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_17'Address);
end Rcheck_17;
procedure Rcheck_18 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_18'Address);
end Rcheck_18;
procedure Rcheck_19 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_19'Address);
end Rcheck_19;
procedure Rcheck_20 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_20'Address);
end Rcheck_20;
procedure Rcheck_21 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_21'Address);
end Rcheck_21;
procedure Rcheck_22 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_22'Address);
end Rcheck_22;
procedure Rcheck_23 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_23'Address);
end Rcheck_23;
procedure Rcheck_24 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_24'Address);
end Rcheck_24;
procedure Rcheck_25 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_25'Address);
end Rcheck_25;
procedure Rcheck_26 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_26'Address);
end Rcheck_26;
procedure Rcheck_27 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_27'Address);
end Rcheck_27;
procedure Rcheck_28 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_28'Address);
end Rcheck_28;
procedure Rcheck_29 (File : System.Address; Line : Integer) is
begin
Raise_Program_Error_Msg (File, Line, Rmsg_29'Address);
end Rcheck_29;
procedure Rcheck_30 (File : System.Address; Line : Integer) is
begin
Raise_Storage_Error_Msg (File, Line, Rmsg_30'Address);
end Rcheck_30;
procedure Rcheck_31 (File : System.Address; Line : Integer) is
begin
Raise_Storage_Error_Msg (File, Line, Rmsg_31'Address);
end Rcheck_31;
procedure Rcheck_32 (File : System.Address; Line : Integer) is
begin
Raise_Storage_Error_Msg (File, Line, Rmsg_32'Address);
end Rcheck_32;
procedure Rcheck_33 (File : System.Address; Line : Integer) is
begin
Raise_Storage_Error_Msg (File, Line, Rmsg_33'Address);
end Rcheck_33;
-------------
-- Reraise --
-------------
procedure Reraise is
Excep : constant EOA := Get_Current_Excep.all;
begin
Abort_Defer.all;
Raise_Current_Excep (Excep.Id);
end Reraise;
------------------------
-- Reraise_Occurrence --
------------------------
procedure Reraise_Occurrence (X : Exception_Occurrence) is
begin
if X.Id /= null then
Abort_Defer.all;
Save_Occurrence_No_Private (Get_Current_Excep.all.all, X);
Raise_Current_Excep (X.Id);
end if;
end Reraise_Occurrence;
-------------------------------
-- Reraise_Occurrence_Always --
-------------------------------
procedure Reraise_Occurrence_Always (X : Exception_Occurrence) is
begin
Abort_Defer.all;
Save_Occurrence_No_Private (Get_Current_Excep.all.all, X);
Raise_Current_Excep (X.Id);
end Reraise_Occurrence_Always;
---------------------------------
-- Reraise_Occurrence_No_Defer --
---------------------------------
procedure Reraise_Occurrence_No_Defer (X : Exception_Occurrence) is
begin
Save_Occurrence_No_Private (Get_Current_Excep.all.all, X);
Raise_Current_Excep (X.Id);
end Reraise_Occurrence_No_Defer;
---------------------
-- Save_Occurrence --
---------------------
procedure Save_Occurrence
(Target : out Exception_Occurrence;
Source : Exception_Occurrence)
is
begin
Save_Occurrence_No_Private (Target, Source);
end Save_Occurrence;
function Save_Occurrence (Source : Exception_Occurrence) return EOA is
Target : constant EOA := new Exception_Occurrence;
begin
Save_Occurrence (Target.all, Source);
return Target;
end Save_Occurrence;
--------------------------------
-- Save_Occurrence_No_Private --
--------------------------------
procedure Save_Occurrence_No_Private
(Target : out Exception_Occurrence;
Source : Exception_Occurrence)
is
begin
Target.Id := Source.Id;
Target.Msg_Length := Source.Msg_Length;
Target.Num_Tracebacks := Source.Num_Tracebacks;
Target.Pid := Source.Pid;
Target.Cleanup_Flag := Source.Cleanup_Flag;
Target.Msg (1 .. Target.Msg_Length) :=
Source.Msg (1 .. Target.Msg_Length);
Target.Tracebacks (1 .. Target.Num_Tracebacks) :=
Source.Tracebacks (1 .. Target.Num_Tracebacks);
end Save_Occurrence_No_Private;
-------------------------
-- Transfer_Occurrence --
-------------------------
procedure Transfer_Occurrence
(Target : Exception_Occurrence_Access;
Source : Exception_Occurrence)
is
begin
-- Setup Target as an exception to be propagated in the calling task
-- (rendezvous-wise), taking care not to clobber the associated private
-- data. Target is expected to be a pointer to the calling task's fixed
-- TSD occurrence, which is very different from Get_Current_Excep here
-- because this subprogram is called from the called task.
Save_Occurrence_No_Private (Target.all, Source);
end Transfer_Occurrence;
-------------------
-- String_To_EId --
-------------------
function String_To_EId (S : String) return Exception_Id
renames Stream_Attributes.String_To_EId;
------------------
-- String_To_EO --
------------------
function String_To_EO (S : String) return Exception_Occurrence
renames Stream_Attributes.String_To_EO;
------------------------------
-- Raise_Exception_No_Defer --
------------------------------
procedure Raise_Exception_No_Defer
(E : Exception_Id;
Message : String := "")
is
begin
Exception_Data.Set_Exception_Msg (E, Message);
-- Do not call Abort_Defer.all, as specified by the spec
Raise_Current_Excep (E);
end Raise_Exception_No_Defer;
---------------
-- To_Stderr --
---------------
procedure To_Stderr (C : Character) is
type int is new Integer;
procedure put_char_stderr (C : int);
pragma Import (C, put_char_stderr, "put_char_stderr");
begin
put_char_stderr (Character'Pos (C));
end To_Stderr;
procedure To_Stderr (S : String) is
begin
for J in S'Range loop
if S (J) /= ASCII.CR then
To_Stderr (S (J));
end if;
end loop;
end To_Stderr;
end Ada.Exceptions;