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// This may look like C, but it's really -*- C++ -*-
// $Id$
// ============================================================================
/**
* @file try_macros.h
*
* @brief This file has been deprecated.
*
*<PRE>
* *****************************************************************
* * *
* * NOTICE !!! NOTICE !!! NOTICE !!! NOTICE !!! *
* * *
* * The macros in this file is deprecated. *
* * *
* * Please check out $ACE_ROOT/ace/CORBA_macros.h *
* * and $ACE_ROOT/docs/exceptions.html for a new *
* * set of helper macros that replace this file. *
* * *
* * We strongely encourage you to stop using the *
* * macros in this file. You should try to convert *
* * your program to use the new ACE try macros *
* * which are simpler to use and easier to remember. *
* * However, if you still insist on using these old *
* * macros, you can do this by uncomment the "#define *
* * TAO_USES_DEPRECATED_TAO_TRY_MACROS" below. *
* * *
* * Again, we no longer maintain this file and it will *
* * eventually go away. *
* * *
* *****************************************************************
*</PRE>
*
* @author Douglas C. Schmidt.
*/
// ============================================================================
#ifndef TAO_TRY_MACROS_H
#define TAO_TRY_MACROS_H
#include "ace/pre.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
// *****************************************************************
// * *
// * Uncomment the following line to use TAO try macros. *
// * *
// *****************************************************************
//#define TAO_USES_DEPRECATED_TAO_TRY_MACROS
#include "tao/orbconf.h"
#include "ace/CORBA_macros.h"
#if defined (TAO_USES_DEPRECATED_TAO_TRY_MACROS)
// Define a local enviroment variable...
#define TAO_IN_ENV ACE_TRY_ENV
#define TAO_TRY_ENV _tao_try_environment
// These macros can be used to write "portable" code between platforms
// supporting CORBA exceptions natively (using the C++ exceptions) or
// through the Enviroment parameter. Their use requires some
// discipline, but they certainly help...
#if defined (TAO_HAS_EXCEPTIONS)
// The first "do" scope is for the TAO_TRY_ENV.
// The second "do" scope is for the TAO_CHECK_ENV continues.
// These are all on one line so the keywords don't confuse compilers.
#define TAO_TRY do { CORBA_Environment TAO_TRY_ENV; try {
#define TAO_TRY_VAR(X) do { CORBA_Environment &TAO_TRY_ENV = X; \
ACE_UNUSED_ARG (TAO_TRY_ENV); try {
#define TAO_TRY_EX(LABEL) do { CORBA_Environment TAO_TRY_ENV; try {
#define TAO_TRY_VAR_EX(X,LABEL) do { CORBA_Environment &TAO_TRY_ENV = X; \
ACE_UNUSED_ARG (TAO_TRY_ENV); try {
#define TAO_CATCH(TYPE,VAR) } catch (TYPE & VAR) { ACE_UNUSED_ARG (VAR);
// @@ @@ @@ This conditional compilation is meant to be catch abnormal
// exceptions so the debugger can catch the exception for us.
#if defined (TAO_DONT_CATCH_DOT_DOT_DOT)
#define TAO_CATCHALL TAO_CATCH (TAO_DONT_CATCH, ex)
#else
#define TAO_CATCHALL } catch (...) {
#endif /* TAO_DONT_CATCH_DOT_DOT_DOT */
#define TAO_ENDTRY }} while (0)
// Use this macro if there's a return statement following TAO_ENDTRY
// and the statement is the last statement in the function.
#define TAO_ENDTRY_RETURN(X) TAO_ENDTRY; ACE_NOTREACHED (return X)
// No need to do checking, exception handling does it for us.
#define TAO_CHECK_ENV
#define TAO_CHECK_ENV_EX(LABEL)
#define TAO_CHECK_ENV_RETURN(X, Y)
#define TAO_CHECK_ENV_RETURN_VOID(X)
#define TAO_TRY_THROW(EXCEPTION) throw EXCEPTION
#define TAO_TRY_THROW_EX(EXCEPTION,LABEL) throw EXCEPTION
#define TAO_THROW(EXCEPTION) throw EXCEPTION
#define TAO_THROW_ENV(EXCEPTION, ENV) do { \
ACE_UNUSED_ARG (ENV); \
throw EXCEPTION; } while (0)
#define TAO_RETHROW throw
#define TAO_GOTO(LABEL) goto LABEL
#define TAO_LABEL(LABEL) LABEL:
#if defined (ACE_WIN32)
// MSVC++ gives a warning if there is no return after the throw
// expression, it is possible that other compilers have the same
// problem.
#define TAO_THROW_ENV_RETURN(EXCEPTION, ENV, RETURN) do { \
throw EXCEPTION; \
return RETURN; } while (0)
#define TAO_RETHROW_RETURN(RETURN) throw; \
return RETURN
#define TAO_RETHROW_RETURN_VOID throw; \
return
#else
#define TAO_THROW_ENV_RETURN(EXCEPTION, ENV, RETURN) do { \
ACE_UNUSED_ARG (ENV); \
throw EXCEPTION; } while (0)
#define TAO_RETHROW_RETURN(RETURN) throw
#define TAO_RETHROW_RETURN_VOID throw
#endif /* ACE_WIN32 */
#define TAO_THROW_RETURN(EXCEPTION,RETURN) TAO_THROW_ENV_RETURN(EXCEPTION,TAO_IN_ENV,RETURN)
#define TAO_RETHROW_SAME_ENV_RETURN(RETURN) TAO_RETHROW_RETURN (RETURN)
#define TAO_RETHROW_SAME_ENV_RETURN_VOID TAO_RETHROW_RETURN_VOID
// #define TAO_THROW_SPEC(X) ACE_THROW_SPEC(X)
#define TAO_THROW_SPEC(X)
// The IDL compiler is not generating throw specs, so putting them in
// the servant implementation only results in compilation
// errors. Further the spec does not say that we should generate them
// and I'm concerned that putting a throw spec can result in an
// "unexpected" exception, which *could* be translated into a
// CORBA::UNKNOWN, but I'm not sure.
#else /* ACE_HAS_EXCEPTIONS && TAO_IDL_COMPILES_HAS_EXCEPTIONS */
#define TAO_TRY_VAR(X) \
do { CORBA_Environment &TAO_TRY_ENV = X; \
int TAO_TRY_FLAG = 1; \
TAO_TRY_LABEL: \
if (TAO_TRY_FLAG) \
do {
// The first "do" scope is for the TAO_TRY_ENV.
// The second "do" scope is for the TAO_CHECK_ENV continues.
#define TAO_TRY \
do { CORBA_Environment TAO_TRY_ENV; \
int TAO_TRY_FLAG = 1; \
TAO_TRY_LABEL: \
if (TAO_TRY_FLAG) \
do {
// This serves a similar purpose as the macro above,
// The second "do" scope is for the TAO_CHECK_ENV continues.
#define TAO_TRY_EX(LABEL) \
do { \
CORBA_Environment TAO_TRY_ENV; \
int TAO_TRY_FLAG = 1; \
TAO_TRY_LABEL ## LABEL: \
if (TAO_TRY_FLAG) \
do {
#define TAO_TRY_VAR_EX(X,LABEL) \
do { \
CORBA_Environment &TAO_TRY_ENV = X; \
int TAO_TRY_FLAG = 1; \
TAO_TRY_LABEL ## LABEL: \
if (TAO_TRY_FLAG) \
do {
// Throwing an exception within a try block must be treated differently
// on platforms that don't support native exception because the exception
// won't get caught by the catch clauses automatically.
#define TAO_TRY_THROW(EXCEPTION) \
{\
TAO_TRY_ENV.exception (new EXCEPTION); \
TAO_TRY_FLAG = 0; \
goto TAO_TRY_LABEL; \
}
#define TAO_TRY_THROW_EX (EXCEPTION,LABEL) \
{\
TAO_TRY_ENV.exception (new EXCEPTION); \
TAO_TRY_FLAG = 0; \
goto TAO_TRY_LABEL ## LABEL; \
}
// Each CATCH statement ends the previous scope and starts a new one.
// Since all CATCH statements can end the TAO_TRY macro, they must all
// start a new scope for the next potential TAO_CATCH. The TAO_ENDTRY
// will finish them all. Cool, eh?
#define TAO_CATCH(TYPE,VAR) \
} while (0); \
do \
if (TAO_TRY_ENV.exception () != 0 && \
TYPE::_narrow(TAO_TRY_ENV.exception ()) != 0) { \
TYPE &VAR = *TYPE::_narrow (TAO_TRY_ENV.exception ()); \
ACE_UNUSED_ARG (VAR);
#define TAO_CATCHALL TAO_CATCH(CORBA_Exception, ex)
// The first "while" closes the local scope. The second "while"
// closes the TAO_TRY_ENV scope.
#define TAO_ENDTRY \
} while (0); \
} while (0)
// Use this macro if there's a return statement following TAO_ENDTRY
// and the statement is the last statement in the function.
#define TAO_ENDTRY_RETURN(X) TAO_ENDTRY; return X
// If continue is called, control will skip to the next TAO_CATCH
// statement.
#define TAO_CHECK_ENV \
{\
if (TAO_TRY_ENV.exception () != 0) \
{ \
TAO_TRY_FLAG = 0; \
goto TAO_TRY_LABEL; \
} \
}
// Same as above but for TAO_TRY_EX
#define TAO_CHECK_ENV_EX(LABEL) \
{\
if (TAO_TRY_ENV.exception () != 0) \
{ \
TAO_TRY_FLAG = 0; \
goto TAO_TRY_LABEL ## LABEL; \
} \
}
#define TAO_CHECK_ENV_RETURN(X, Y) \
if ( X . exception () != 0) return Y
#define TAO_CHECK_ENV_RETURN_VOID(X) \
if ( X . exception () != 0) return
#define TAO_THROW(EXCEPTION) \
do {\
TAO_IN_ENV.exception (new EXCEPTION); \
return; } while (0)
#define TAO_THROW_ENV(EXCEPTION, ENV) \
do {\
ENV.exception (new EXCEPTION); \
return; } while (0)
#define TAO_THROW_RETURN(EXCEPTION, RETURN) \
do {\
TAO_IN_ENV.exception (new EXCEPTION); \
return RETURN; } while (0)
#define TAO_THROW_ENV_RETURN(EXCEPTION, ENV, RETURN) \
do {\
ENV.exception (new EXCEPTION); \
return RETURN; } while (0)
#define TAO_RETHROW \
TAO_IN_ENV.exception (TAO_TRY_ENV.exception ()); \
return
#define TAO_GOTO(LABEL) goto LABEL
#define TAO_LABEL(LABEL) LABEL:
#define TAO_RETHROW_RETURN(RETURN) \
TAO_IN_ENV.exception (TAO_TRY_ENV.exception ()); \
return RETURN
#define TAO_RETHROW_RETURN_VOID \
TAO_IN_ENV.exception (TAO_TRY_ENV.exception ()); \
return
#define TAO_RETHROW_SAME_ENV_RETURN(RETURN) return RETURN
#define TAO_RETHROW_SAME_ENV_RETURN_VOID return
#define TAO_THROW_SPEC(X)
#endif /* TAO_HAS_EXCEPTIONS */
#define TAO_CATCHANY TAO_CATCH(CORBA_Exception, ex)
#define TAO_CHECK_RETURN(Y) TAO_CHECK_ENV_RETURN (TAO_IN_ENV, Y)
#define TAO_CHECK_RETURN_VOID TAO_CHECK_ENV_RETURN_VOID (TAO_IN_ENV)
// This macros can be used even outside the TAO_TRY blocks, in fact
// some are designed for that purpose.
#define TAO_CHECK_ENV_PRINT_RETURN(ENV, PRINT_STRING, RETURN) \
if (ENV . exception () != 0) \
{ \
ENV.print_exception (PRINT_STRING); \
return RETURN; \
}
#define TAO_CHECK_ENV_PRINT_RETURN_VOID(ENV, PRINT_STRING) \
if (ENV . exception () != 0) \
{ \
ENV.print_exception (PRINT_STRING); \
return; \
}
// This macros are used to grab a lock using a Guard, test that the
// lock was correctly grabbed and throw an exception on failure.
// If you do not wish to throw an exception, but just to return a
// value please use the ACE macros.
#define TAO_GUARD_THROW(MUTEX,OBJ,LOCK,ENV,EXCEPTION) \
ACE_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV (EXCEPTION,ENV)
#define TAO_GUARD_THROW_RETURN(MUTEX,OBJ,LOCK,RETURN,ENV,EXCEPTION) \
ACE_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV_RETURN (EXCEPTION,ENV,RETURN)
#define TAO_READ_GUARD_THROW(MUTEX,OBJ,LOCK,ENV,EXCEPTION) \
ACE_Read_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV (EXCEPTION,ENV)
#define TAO_READ_GUARD_THROW_RETURN(MUTEX,OBJ,LOCK,RETURN,ENV,EXCEPTION) \
ACE_Read_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV_RETURN (EXCEPTION,ENV,RETURN)
#define TAO_WRITE_GUARD_THROW(MUTEX,OBJ,LOCK,ENV,EXCEPTION) \
ACE_Write_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV (EXCEPTION,ENV)
#define TAO_WRITE_GUARD_THROW_RETURN(MUTEX,OBJ,LOCK,RETURN,ENV,EXCEPTION) \
ACE_Write_Guard<MUTEX> OBJ (LOCK); \
if (OBJ.locked () == 0) \
TAO_THROW_ENV_RETURN (EXCEPTION,ENV,RETURN)
#endif /* TAO_USES_DEPRECATED_TAO_TRY_MACROS */
#include "ace/post.h"
#endif /* TAO_TRY_MACROS_H */
|