/**************************************************************
 *
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 *
 *************************************************************/



// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_extensions.hxx"
#include <string.h>

#include <usr/reflserv.hxx>  // for EXTERN_SERVICE_CALLTYPE

#include <usr/factoryhlp.hxx>
#include "testfactreg.hxx"


using namespace vos;
using namespace usr;

#ifdef __cplusplus
extern "C"
{
#endif

BOOL EXTERN_SERVICE_CALLTYPE exService_writeRegEntry(
        const UNO_INTERFACE(XRegistryKey)* xUnoKey)

{
	XRegistryKeyRef   xKey;
	uno2smart(xKey, *xUnoKey);

	UString str = UString( L"/" ) + OPipeTest_getImplementationName() + UString( L"/UNO/SERVICES" );
	XRegistryKeyRef xNewKey = xKey->createKey( str );
	xNewKey->createKey( OPipeTest_getServiceName() );

	str = UString( L"/" ) + ODataStreamTest_getImplementationName(1) + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( ODataStreamTest_getServiceName(1) );

	str = UString( L"/" ) + ODataStreamTest_getImplementationName(2) + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( ODataStreamTest_getServiceName(2) );

	str = UString( L"/" ) + OObjectStreamTest_getImplementationName(1) + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( OObjectStreamTest_getServiceName(1) );

	str = UString( L"/" ) + OObjectStreamTest_getImplementationName(2) + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( OObjectStreamTest_getServiceName(2) );

	str = UString( L"/" ) + OMarkableOutputStreamTest_getImplementationName() + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( OMarkableOutputStreamTest_getServiceName() );

	str = UString( L"/" ) + OMarkableInputStreamTest_getImplementationName() + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( OMarkableInputStreamTest_getServiceName() );

	str = UString( L"/" ) + OMyPersistObject_getImplementationName() + UString( L"/UNO/SERVICES" );
	xNewKey = xKey->createKey( str );
	xNewKey->createKey( OMyPersistObject_getServiceName() );

	return TRUE;
}


UNO_INTERFACE(XInterface) EXTERN_SERVICE_CALLTYPE exService_getFactory
(
	const wchar_t* implementationName,
	const UNO_INTERFACE(XMultiServiceFactory)* xUnoFact,
	const UNO_INTERFACE(XRegistryKey)*
)
{
	UNO_INTERFACE(XInterface) xUnoRet = {0, 0};

	XInterfaceRef 			xRet;
	XMultiServiceFactoryRef xSMgr;
	UString					aImplementationName(implementationName);

	uno2smart(xSMgr, *xUnoFact);

	if (aImplementationName == OPipeTest_getImplementationName() )
	{
		xRet = createSingleFactory( xSMgr, implementationName,
									OPipeTest_CreateInstance,
									OPipeTest_getSupportedServiceNames() );
	}
	else if( aImplementationName == ODataStreamTest_getImplementationName(1) ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									ODataStreamTest_CreateInstance,
									ODataStreamTest_getSupportedServiceNames(1) );
	}
	else if( aImplementationName == ODataStreamTest_getImplementationName(2) ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									ODataStreamTest_CreateInstance,
									ODataStreamTest_getSupportedServiceNames(2) );
	}
	else if( aImplementationName == OObjectStreamTest_getImplementationName(1) ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									OObjectStreamTest_CreateInstance,
									OObjectStreamTest_getSupportedServiceNames(1) );
	}
	else if( aImplementationName == OObjectStreamTest_getImplementationName(2) ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									OObjectStreamTest_CreateInstance,
									OObjectStreamTest_getSupportedServiceNames(2) );
	}
	else if( aImplementationName == OMarkableOutputStreamTest_getImplementationName() ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									OMarkableOutputStreamTest_CreateInstance,
									OMarkableOutputStreamTest_getSupportedServiceNames() );
	}
	else if( aImplementationName == OMarkableInputStreamTest_getImplementationName() ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									OMarkableInputStreamTest_CreateInstance,
									OMarkableInputStreamTest_getSupportedServiceNames() );
	}
	else if( aImplementationName == OMyPersistObject_getImplementationName() ) {
		xRet = createSingleFactory( xSMgr , implementationName,
									OMyPersistObject_CreateInstance,
									OMyPersistObject_getSupportedServiceNames() );
	}
	if (xRet.is())
	{
		smart2uno(xRet, xUnoRet);
	}

	return xUnoRet;
}

#ifdef __cplusplus
}
#endif

Sequence<BYTE> createSeq( char * p )
{
	Sequence<BYTE> seq( strlen( p )+1 );
	strcpy( (char * ) seq.getArray() , p );
	return seq;
}

Sequence<BYTE> createIntSeq( INT32 i )
{
	char pcCount[20];
	sprintf( pcCount , "%d" , i );
	return createSeq( pcCount );
}
