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Workaround for GCC/LLVM

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This commit is contained in:
James Urquhart 2015-02-08 11:22:17 +00:00
parent 1449c4df57
commit 4a97054f02
2 changed files with 472 additions and 475 deletions
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22
Engine/source/console/console.h
View file

@ -874,17 +874,17 @@ namespace Con
///
/// @see _EngineConsoleExecCallbackHelper
///
template<typename A> ConsoleValueRef executef(A a) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(); }
template<typename A, typename B> ConsoleValueRef executef(A a, B b) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b); }
template<typename A, typename B, typename C> ConsoleValueRef executef(A a, B b, C c) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c); }
template<typename A, typename B, typename C, typename D> ConsoleValueRef executef(A a, B b, C c, D d) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d); }
template<typename A, typename B, typename C, typename D, typename E> ConsoleValueRef executef(A a, B b, C c, D d, E e) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e); }
template<typename A, typename B, typename C, typename D, typename E, typename F> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f, g); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f, g, h); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f, g, h, i); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i, J j) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f, g, h, i, j); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.call<ConsoleValueRef>(b, c, d, e, f, g, h, i, j, k); }
template<typename A> ConsoleValueRef executef(A a) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(); }
template<typename A, typename B> ConsoleValueRef executef(A a, B b) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b); }
template<typename A, typename B, typename C> ConsoleValueRef executef(A a, B b, C c) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c); }
template<typename A, typename B, typename C, typename D> ConsoleValueRef executef(A a, B b, C c, D d) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d); }
template<typename A, typename B, typename C, typename D, typename E> ConsoleValueRef executef(A a, B b, C c, D d, E e) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e); }
template<typename A, typename B, typename C, typename D, typename E, typename F> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f, g); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f, g, h); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f, g, h, i); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i, J j) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f, g, h, i, j); }
template<typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K> ConsoleValueRef executef(A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k) { _EngineConsoleExecCallbackHelper<A> callback( a ); return callback.template call<ConsoleValueRef>(b, c, d, e, f, g, h, i, j, k); }
/// }
};

925
Engine/source/console/engineAPI.h
View file

@ -3678,6 +3678,466 @@ public:
};
// Override for when first parameter is presumably a SimObject*, in which case A will be absorbed as the callback
template<typename P1> struct _EngineConsoleExecCallbackHelper : public _BaseEngineConsoleCallbackHelper
{
public:
_EngineConsoleExecCallbackHelper( SimObject* pThis )
{
mThis = pThis;
mArgc = mInitialArgc = 2;
mCallbackName = NULL;
}
template< typename R, typename A >
R call( A a )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+0, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+0, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B >
R call( A a, B b )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+1, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+1, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C >
R call( A a, B b, C c )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+2, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+2, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D >
R call( A a, B b, C c, D d )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+3, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+3, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E >
R call( A a, B b, C c, D d, E e )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+4, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+4, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F >
R call( A a, B b, C c, D d, E e, F f )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+5, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+5, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G >
R call( A a, B b, C c, D d, E e, F f, G g )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+6, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+6, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H >
R call( A a, B b, C c, D d, E e, F f, G g, H h )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+7, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+7, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+8, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+8, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+9, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+9, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+10, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+10, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k, L l )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+11, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
EngineMarshallData( l, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+11, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
EngineMarshallData( l, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
};
// Override for when first parameter is const char*
template<> struct _EngineConsoleExecCallbackHelper<const char*> : public _BaseEngineConsoleCallbackHelper
@ -4183,470 +4643,7 @@ template<> struct _EngineConsoleExecCallbackHelper<const char*> : public _BaseEn
};
// Override for when first parameter is presumably a SimObject*, in which case A will be absorbed as the callback
template<typename P1> struct _EngineConsoleExecCallbackHelper : public _BaseEngineConsoleCallbackHelper
{
public:
_EngineConsoleExecCallbackHelper( SimObject* pThis )
{
mThis = pThis;
mArgc = mInitialArgc = 2;
mCallbackName = NULL;
}
template< typename R, typename A >
R call( A a )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+0, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+0, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B >
R call( A a, B b )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+1, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+1, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C >
R call( A a, B b, C c )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+2, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+2, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D >
R call( A a, B b, C c, D d )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+3, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+3, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E >
R call( A a, B b, C c, D d, E e )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+4, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+4, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F >
R call( A a, B b, C c, D d, E e, F f )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+5, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+5, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G >
R call( A a, B b, C c, D d, E e, F f, G g )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+6, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+6, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H >
R call( A a, B b, C c, D d, E e, F f, G g, H h )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+7, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+7, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+8, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+8, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+9, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+9, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+10, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+10, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
template< typename R, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L >
R call( A a, B b, C c, D d, E e, F f, G g, H h, I i, J j, K k, L l )
{
if (Con::isMainThread())
{
ConsoleStackFrameSaver sav; sav.save();
CSTK.reserveValues(mArgc+11, mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
EngineMarshallData( l, mArgc, mArgv );
return R( EngineUnmarshallData< R >()( _exec() ) );
}
else
{
SimConsoleThreadExecCallback cb;
SimConsoleThreadExecEvent *evt = new SimConsoleThreadExecEvent(mArgc+11, NULL, true, &cb);
evt->populateArgs(mArgv);
mArgv[ 0 ].value->setStackStringValue(a);
EngineMarshallData( b, mArgc, mArgv );
EngineMarshallData( c, mArgc, mArgv );
EngineMarshallData( d, mArgc, mArgv );
EngineMarshallData( e, mArgc, mArgv );
EngineMarshallData( f, mArgc, mArgv );
EngineMarshallData( g, mArgc, mArgv );
EngineMarshallData( h, mArgc, mArgv );
EngineMarshallData( i, mArgc, mArgv );
EngineMarshallData( j, mArgc, mArgv );
EngineMarshallData( k, mArgc, mArgv );
EngineMarshallData( l, mArgc, mArgv );
Sim::postEvent(mThis, evt, Sim::getCurrentTime());
return R( EngineUnmarshallData< R >()( cb.waitForResult() ) );
}
}
};
// Re-enable some VC warnings we disabled for this file.
#pragma warning( pop ) // 4510 and 4610
#endif // !_ENGINEAPI_H_
#endif // !_ENGINEAPI_H_