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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2000, 2010 Oracle and/or its affiliates.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_cppuhelper.hxx"
#include <sal/alloca.h>
#include <osl/diagnose.h>
#include <rtl/alloc.h>
#include <rtl/ustring.hxx>
#include <uno/mapping.hxx>
#include <cppuhelper/bootstrap.hxx>
#include <cppuhelper/implbase1.hxx>
#include <typelib/typedescription.h>
#include <com/sun/star/lang/XComponent.hpp>
#include <com/sun/star/container/XHierarchicalNameAccess.hpp>
#include <com/sun/star/reflection/XTypeDescription.hpp>
#include <com/sun/star/reflection/XEnumTypeDescription.hpp>
#include <com/sun/star/reflection/XIndirectTypeDescription.hpp>
#include <com/sun/star/reflection/XInterfaceMemberTypeDescription.hpp>
#include <com/sun/star/reflection/XInterfaceAttributeTypeDescription.hpp>
#include <com/sun/star/reflection/XMethodParameter.hpp>
#include <com/sun/star/reflection/XInterfaceMethodTypeDescription.hpp>
#include <com/sun/star/reflection/XInterfaceTypeDescription2.hpp>
#include <com/sun/star/reflection/XCompoundTypeDescription.hpp>
#include <com/sun/star/reflection/XStructTypeDescription.hpp>
#include <com/sun/star/reflection/XUnionTypeDescription.hpp>
#include "com/sun/star/uno/RuntimeException.hpp"
#include "boost/scoped_array.hpp"
using namespace ::rtl;
using namespace ::com::sun::star;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::reflection;
namespace cppu
{
static typelib_TypeDescription * createCTD(
Reference< container::XHierarchicalNameAccess > const & access,
const Reference< XTypeDescription > & xType );
//==================================================================================================
inline static sal_Int64 coerceToInt64( const Any & rVal )
{
switch (rVal.getValueTypeClass())
{
case TypeClass_CHAR:
return *(sal_Unicode *)rVal.getValue();
case TypeClass_BOOLEAN:
return (*(sal_Bool *)rVal.getValue() ? 1 : 0);
case TypeClass_BYTE:
return *(sal_Int8 *)rVal.getValue();
case TypeClass_SHORT:
return *(sal_Int16 *)rVal.getValue();
case TypeClass_UNSIGNED_SHORT:
return *(sal_uInt16 *)rVal.getValue();
case TypeClass_LONG:
return *(sal_Int32 *)rVal.getValue();
case TypeClass_UNSIGNED_LONG:
return *(sal_uInt32 *)rVal.getValue();
case TypeClass_HYPER:
return *(sal_Int64 *)rVal.getValue();
case TypeClass_UNSIGNED_HYPER:
return *(sal_uInt64 *)rVal.getValue();
case TypeClass_ENUM:
return *(int *)rVal.getValue();
default:
OSL_ASSERT(false);
return 0;
}
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
const Reference< XUnionTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
OUString aTypeName( xType->getName() );
// discriminant type
Reference< XTypeDescription > xDiscrTD( xType->getDiscriminantType() );
OUString aDiscrTypeName( xDiscrTD->getName() );
typelib_TypeDescriptionReference * pDiscrTypeRef = 0;
typelib_typedescriptionreference_new( &pDiscrTypeRef,
(typelib_TypeClass)xDiscrTD->getTypeClass(),
aDiscrTypeName.pData );
// default member type
Reference< XTypeDescription > xDefaultMemberTD( xType->getDefaultMemberType() );
OUString aDefMemberTypeName( xDefaultMemberTD->getName() );
typelib_TypeDescriptionReference * pDefMemberTypeRef = 0;
typelib_typedescriptionreference_new( &pDefMemberTypeRef,
(typelib_TypeClass)xDefaultMemberTD->getTypeClass(),
aDefMemberTypeName.pData );
// init array
Sequence< Any > aDiscriminants( xType->getDiscriminants() );
Sequence< Reference< XTypeDescription > > aMemberTypes( xType->getMemberTypes() );
Sequence< OUString > aMemberNames( xType->getMemberNames() );
sal_Int32 nMembers = aDiscriminants.getLength();
OSL_ASSERT( nMembers == aMemberNames.getLength() && nMembers == aMemberTypes.getLength() );
const Any * pDiscriminants = aDiscriminants.getConstArray();
const Reference< XTypeDescription > * pMemberTypes = aMemberTypes.getConstArray();
const OUString * pMemberNames = aMemberNames.getConstArray();
typelib_Union_Init * pMembers = (typelib_Union_Init *)alloca( nMembers * sizeof(typelib_Union_Init) );
sal_Int32 nPos;
for ( nPos = nMembers; nPos--; )
{
typelib_Union_Init & rEntry = pMembers[nPos];
// member discriminant
rEntry.nDiscriminant = coerceToInt64( pDiscriminants[nPos] );
// member type
OUString aMemberTypeName( pMemberTypes[nPos]->getName() );
rEntry.pTypeRef = 0;
typelib_typedescriptionreference_new( &rEntry.pTypeRef,
(typelib_TypeClass)pMemberTypes[nPos]->getTypeClass(),
aMemberTypeName.pData );
// member name
rEntry.pMemberName = pMemberNames[nPos].pData;
}
typelib_typedescription_newUnion( &pRet, aTypeName.pData,
pDiscrTypeRef,
coerceToInt64( xType->getDefaultDiscriminant() ),
pDefMemberTypeRef,
nMembers, pMembers );
for ( nPos = nMembers; nPos--; )
{
typelib_typedescriptionreference_release( pMembers[nPos].pTypeRef );
}
typelib_typedescriptionreference_release( pDiscrTypeRef );
typelib_typedescriptionreference_release( pDefMemberTypeRef );
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
const Reference< XCompoundTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
typelib_TypeDescription * pBaseType = createCTD(
Reference< XCompoundTypeDescription >::query( xType->getBaseType() ) );
if (pBaseType)
typelib_typedescription_register( &pBaseType );
// construct member init array
const Sequence<Reference< XTypeDescription > > & rMemberTypes = xType->getMemberTypes();
const Sequence< OUString > & rMemberNames = xType->getMemberNames();
const Reference< XTypeDescription > * pMemberTypes = rMemberTypes.getConstArray();
const OUString * pMemberNames = rMemberNames.getConstArray();
sal_Int32 nMembers = rMemberTypes.getLength();
OSL_ENSURE( nMembers == rMemberNames.getLength(), "### lens differ!" );
OUString aTypeName( xType->getName() );
typelib_CompoundMember_Init * pMemberInits = (typelib_CompoundMember_Init *)alloca(
sizeof(typelib_CompoundMember_Init) * nMembers );
sal_Int32 nPos;
for ( nPos = nMembers; nPos--; )
{
typelib_CompoundMember_Init & rInit = pMemberInits[nPos];
rInit.eTypeClass = (typelib_TypeClass)pMemberTypes[nPos]->getTypeClass();
OUString aMemberTypeName( pMemberTypes[nPos]->getName() );
rtl_uString_acquire( rInit.pTypeName = aMemberTypeName.pData );
// string is held by rMemberNames
rInit.pMemberName = pMemberNames[nPos].pData;
}
typelib_typedescription_new(
&pRet,
(typelib_TypeClass)xType->getTypeClass(),
aTypeName.pData,
(pBaseType ? pBaseType->pWeakRef : 0),
nMembers, pMemberInits );
// cleanup
for ( nPos = nMembers; nPos--; )
{
rtl_uString_release( pMemberInits[nPos].pTypeName );
}
if (pBaseType)
typelib_typedescription_release( pBaseType );
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
Reference< container::XHierarchicalNameAccess > const & access,
const Reference< XStructTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is() && xType->getTypeParameters().getLength() == 0)
{
typelib_TypeDescription * pBaseType = createCTD(
access, xType->getBaseType() );
if (pBaseType)
typelib_typedescription_register( &pBaseType );
// construct member init array
const Sequence<Reference< XTypeDescription > > & rMemberTypes = xType->getMemberTypes();
const Sequence< OUString > & rMemberNames = xType->getMemberNames();
const Reference< XTypeDescription > * pMemberTypes = rMemberTypes.getConstArray();
const OUString * pMemberNames = rMemberNames.getConstArray();
sal_Int32 nMembers = rMemberTypes.getLength();
OSL_ENSURE( nMembers == rMemberNames.getLength(), "### lens differ!" );
OUString aTypeName( xType->getName() );
typelib_StructMember_Init * pMemberInits = (typelib_StructMember_Init *)alloca(
sizeof(typelib_StructMember_Init) * nMembers );
Sequence< Reference< XTypeDescription > > templateMemberTypes;
sal_Int32 i = aTypeName.indexOf('<');
if (i >= 0) {
Reference< XStructTypeDescription > templateDesc(
access->getByHierarchicalName(aTypeName.copy(0, i)),
UNO_QUERY_THROW);
OSL_ASSERT(
templateDesc->getTypeParameters().getLength()
== xType->getTypeArguments().getLength());
templateMemberTypes = templateDesc->getMemberTypes();
OSL_ASSERT(templateMemberTypes.getLength() == nMembers);
}
sal_Int32 nPos;
for ( nPos = nMembers; nPos--; )
{
typelib_StructMember_Init & rInit = pMemberInits[nPos];
rInit.aBase.eTypeClass
= (typelib_TypeClass)pMemberTypes[nPos]->getTypeClass();
OUString aMemberTypeName( pMemberTypes[nPos]->getName() );
rtl_uString_acquire(
rInit.aBase.pTypeName = aMemberTypeName.pData );
// string is held by rMemberNames
rInit.aBase.pMemberName = pMemberNames[nPos].pData;
rInit.bParameterizedType = templateMemberTypes.getLength() != 0
&& (templateMemberTypes[nPos]->getTypeClass()
== TypeClass_UNKNOWN);
}
typelib_typedescription_newStruct(
&pRet,
aTypeName.pData,
(pBaseType ? pBaseType->pWeakRef : 0),
nMembers, pMemberInits );
// cleanup
for ( nPos = nMembers; nPos--; )
{
rtl_uString_release( pMemberInits[nPos].aBase.pTypeName );
}
if (pBaseType)
typelib_typedescription_release( pBaseType );
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
const Reference< XInterfaceAttributeTypeDescription > & xAttribute )
{
typelib_TypeDescription * pRet = 0;
if (xAttribute.is())
{
OUString aMemberName( xAttribute->getName() );
Reference< XTypeDescription > xType( xAttribute->getType() );
OUString aMemberTypeName( xType->getName() );
typelib_typedescription_newInterfaceAttribute(
(typelib_InterfaceAttributeTypeDescription **)&pRet,
xAttribute->getPosition(),
aMemberName.pData, // name
(typelib_TypeClass)xType->getTypeClass(),
aMemberTypeName.pData, // type name
xAttribute->isReadOnly() );
}
return pRet;
}
//==================================================================================================
static typelib_TypeDescription * createCTD(
const Reference< XInterfaceMethodTypeDescription > & xMethod )
{
typelib_TypeDescription * pRet = 0;
if (xMethod.is())
{
Reference< XTypeDescription > xReturnType( xMethod->getReturnType() );
// init all params
const Sequence<Reference< XMethodParameter > > & rParams = xMethod->getParameters();
const Reference< XMethodParameter > * pParams = rParams.getConstArray();
sal_Int32 nParams = rParams.getLength();
typelib_Parameter_Init * pParamInit = (typelib_Parameter_Init *)alloca(
sizeof(typelib_Parameter_Init) * nParams );
sal_Int32 nPos;
for ( nPos = nParams; nPos--; )
{
const Reference< XMethodParameter > & xParam = pParams[nPos];
const Reference< XTypeDescription > & xType = xParam->getType();
typelib_Parameter_Init & rInit = pParamInit[xParam->getPosition()];
rInit.eTypeClass = (typelib_TypeClass)xType->getTypeClass();
OUString aParamTypeName( xType->getName() );
rtl_uString_acquire( rInit.pTypeName = aParamTypeName.pData );
OUString aParamName( xParam->getName() );
rtl_uString_acquire( rInit.pParamName = aParamName.pData );
rInit.bIn = xParam->isIn();
rInit.bOut = xParam->isOut();
}
// init all exception strings
const Sequence<Reference< XTypeDescription > > & rExceptions = xMethod->getExceptions();
const Reference< XTypeDescription > * pExceptions = rExceptions.getConstArray();
sal_Int32 nExceptions = rExceptions.getLength();
rtl_uString ** ppExceptionNames = (rtl_uString **)alloca(
sizeof(rtl_uString *) * nExceptions );
for ( nPos = nExceptions; nPos--; )
{
OUString aExceptionTypeName( pExceptions[nPos]->getName() );
rtl_uString_acquire( ppExceptionNames[nPos] = aExceptionTypeName.pData );
}
OUString aTypeName( xMethod->getName() );
OUString aReturnTypeName( xReturnType->getName() );
typelib_typedescription_newInterfaceMethod(
(typelib_InterfaceMethodTypeDescription **)&pRet,
xMethod->getPosition(),
xMethod->isOneway(),
aTypeName.pData,
(typelib_TypeClass)xReturnType->getTypeClass(),
aReturnTypeName.pData,
nParams, pParamInit,
nExceptions, ppExceptionNames );
for ( nPos = nParams; nPos--; )
{
rtl_uString_release( pParamInit[nPos].pTypeName );
rtl_uString_release( pParamInit[nPos].pParamName );
}
for ( nPos = nExceptions; nPos--; )
{
rtl_uString_release( ppExceptionNames[nPos] );
}
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
Reference< container::XHierarchicalNameAccess > const & access,
const Reference< XInterfaceTypeDescription2 > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
Sequence< Reference< XTypeDescription > > aBases(xType->getBaseTypes());
sal_Int32 nBases = aBases.getLength();
// Exploit the fact that a typelib_TypeDescription for an interface type
// is also the typelib_TypeDescriptionReference for that type:
boost::scoped_array< typelib_TypeDescription * > aBaseTypes(
new typelib_TypeDescription *[nBases]);
{for (sal_Int32 i = 0; i < nBases; ++i) {
typelib_TypeDescription * p = createCTD(access, aBases[i]);
OSL_ASSERT(
!TYPELIB_TYPEDESCRIPTIONREFERENCE_ISREALLYWEAK(p->eTypeClass));
typelib_typedescription_register(&p);
aBaseTypes[i] = p;
}}
typelib_TypeDescriptionReference ** pBaseTypeRefs
= reinterpret_cast< typelib_TypeDescriptionReference ** >(
aBaseTypes.get());
// construct all member refs
const Sequence<Reference< XInterfaceMemberTypeDescription > > & rMembers = xType->getMembers();
sal_Int32 nMembers = rMembers.getLength();
typelib_TypeDescriptionReference ** ppMemberRefs = (typelib_TypeDescriptionReference **)alloca(
sizeof(typelib_TypeDescriptionReference *) * nMembers );
const Reference< XInterfaceMemberTypeDescription > * pMembers = rMembers.getConstArray();
OUString aTypeName( xType->getName() );
sal_Int32 nPos;
for ( nPos = nMembers; nPos--; )
{
OUString aMemberTypeName( pMembers[nPos]->getName() );
ppMemberRefs[nPos] = 0;
typelib_typedescriptionreference_new(
ppMemberRefs + nPos,
(typelib_TypeClass)pMembers[nPos]->getTypeClass(),
aMemberTypeName.pData );
}
Uik uik = xType->getUik();
typelib_typedescription_newMIInterface(
(typelib_InterfaceTypeDescription **)&pRet,
aTypeName.pData,
uik.m_Data1, uik.m_Data2, uik.m_Data3, uik.m_Data4, uik.m_Data5,
nBases, pBaseTypeRefs,
nMembers, ppMemberRefs );
// cleanup refs and base type
{for (int i = 0; i < nBases; ++i) {
typelib_typedescription_release(aBaseTypes[i]);
}}
for ( nPos = nMembers; nPos--; )
{
typelib_typedescriptionreference_release( ppMemberRefs[nPos] );
}
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD( const Reference< XEnumTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
OUString aTypeName( xType->getName() );
Sequence< OUString > aNames( xType->getEnumNames() );
OSL_ASSERT( sizeof(OUString) == sizeof(rtl_uString *) ); // !!!
Sequence< sal_Int32 > aValues( xType->getEnumValues() );
typelib_typedescription_newEnum(
&pRet, aTypeName.pData, xType->getDefaultEnumValue(),
aNames.getLength(),
(rtl_uString **)aNames.getConstArray(),
const_cast< sal_Int32 * >( aValues.getConstArray() ) );
}
return pRet;
}
//==================================================================================================
inline static typelib_TypeDescription * createCTD(
Reference< container::XHierarchicalNameAccess > const & access,
const Reference< XIndirectTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
typelib_TypeDescription * pRefType = createCTD(
access, xType->getReferencedType() );
typelib_typedescription_register( &pRefType );
OUString aTypeName( xType->getName() );
typelib_typedescription_new(
&pRet,
(typelib_TypeClass)xType->getTypeClass(),
aTypeName.pData,
pRefType->pWeakRef,
0, 0 );
// cleanup
if (pRefType)
typelib_typedescription_release( pRefType );
}
return pRet;
}
//==================================================================================================
static typelib_TypeDescription * createCTD(
Reference< container::XHierarchicalNameAccess > const & access,
const Reference< XTypeDescription > & xType )
{
typelib_TypeDescription * pRet = 0;
if (xType.is())
{
switch (xType->getTypeClass())
{
// built in types
case TypeClass_VOID:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("void") );
typelib_typedescription_new( &pRet, typelib_TypeClass_VOID, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_CHAR:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("char") );
typelib_typedescription_new( &pRet, typelib_TypeClass_CHAR, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_BOOLEAN:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("boolean") );
typelib_typedescription_new( &pRet, typelib_TypeClass_BOOLEAN, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_BYTE:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("byte") );
typelib_typedescription_new( &pRet, typelib_TypeClass_BYTE, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_SHORT:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("short") );
typelib_typedescription_new( &pRet, typelib_TypeClass_SHORT, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_UNSIGNED_SHORT:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("unsigned short") );
typelib_typedescription_new( &pRet, typelib_TypeClass_UNSIGNED_SHORT, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_LONG:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("long") );
typelib_typedescription_new( &pRet, typelib_TypeClass_LONG, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_UNSIGNED_LONG:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("unsigned long") );
typelib_typedescription_new( &pRet, typelib_TypeClass_UNSIGNED_LONG, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_HYPER:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("hyper") );
typelib_typedescription_new( &pRet, typelib_TypeClass_HYPER, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_UNSIGNED_HYPER:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("unsigned hyper") );
typelib_typedescription_new( &pRet, typelib_TypeClass_UNSIGNED_HYPER, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_FLOAT:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("float") );
typelib_typedescription_new( &pRet, typelib_TypeClass_FLOAT, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_DOUBLE:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("double") );
typelib_typedescription_new( &pRet, typelib_TypeClass_DOUBLE, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_STRING:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("string") );
typelib_typedescription_new( &pRet, typelib_TypeClass_STRING, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_TYPE:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("type") );
typelib_typedescription_new( &pRet, typelib_TypeClass_TYPE, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_ANY:
{
OUString aTypeName( RTL_CONSTASCII_USTRINGPARAM("any") );
typelib_typedescription_new( &pRet, typelib_TypeClass_ANY, aTypeName.pData, 0, 0, 0 );
break;
}
case TypeClass_UNION:
pRet = createCTD( Reference< XUnionTypeDescription >::query( xType ) );
break;
case TypeClass_EXCEPTION:
pRet = createCTD( Reference< XCompoundTypeDescription >::query( xType ) );
break;
case TypeClass_STRUCT:
pRet = createCTD(
access, Reference< XStructTypeDescription >::query( xType ) );
break;
case TypeClass_ENUM:
pRet = createCTD( Reference< XEnumTypeDescription >::query( xType ) );
break;
case TypeClass_TYPEDEF:
{
Reference< XIndirectTypeDescription > xTypedef( xType, UNO_QUERY );
if (xTypedef.is())
pRet = createCTD( access, xTypedef->getReferencedType() );
break;
}
case TypeClass_SEQUENCE:
pRet = createCTD(
access, Reference< XIndirectTypeDescription >::query( xType ) );
break;
case TypeClass_INTERFACE:
pRet = createCTD(
access,
Reference< XInterfaceTypeDescription2 >::query( xType ) );
break;
case TypeClass_INTERFACE_METHOD:
pRet = createCTD( Reference< XInterfaceMethodTypeDescription >::query( xType ) );
break;
case TypeClass_INTERFACE_ATTRIBUTE:
pRet = createCTD( Reference< XInterfaceAttributeTypeDescription >::query( xType ) );
break;
default:
break;
}
}
return pRet;
}
//==================================================================================================
extern "C"
{
static void SAL_CALL typelib_callback(
void * pContext, typelib_TypeDescription ** ppRet, rtl_uString * pTypeName )
{
OSL_ENSURE( pContext && ppRet && pTypeName, "### null ptr!" );
if (ppRet)
{
if (*ppRet)
{
::typelib_typedescription_release( *ppRet );
*ppRet = 0;
}
if (pContext && pTypeName)
{
Reference< container::XHierarchicalNameAccess > access(
reinterpret_cast< container::XHierarchicalNameAccess * >(
pContext));
try
{
OUString const & rTypeName = OUString::unacquired( &pTypeName );
Reference< XTypeDescription > xTD;
if (access->getByHierarchicalName(rTypeName ) >>= xTD)
{
*ppRet = createCTD( access, xTD );
}
}
catch (container::NoSuchElementException & exc)
{
(void) exc; // avoid warning about unused variable
OSL_TRACE(
"typelibrary type not available: %s",
OUStringToOString(
exc.Message, RTL_TEXTENCODING_UTF8 ).getStr() );
}
catch (Exception & exc)
{
(void) exc; // avoid warning about unused variable
OSL_TRACE(
"%s",
OUStringToOString(
exc.Message, RTL_TEXTENCODING_UTF8 ).getStr() );
}
}
}
}
}
//==================================================================================================
class EventListenerImpl
: public WeakImplHelper1< lang::XEventListener >
{
Reference< container::XHierarchicalNameAccess > m_xTDMgr;
public:
inline EventListenerImpl(
Reference< container::XHierarchicalNameAccess > const & xTDMgr )
SAL_THROW( () )
: m_xTDMgr( xTDMgr )
{}
// XEventListener
virtual void SAL_CALL disposing( lang::EventObject const & rEvt )
throw (RuntimeException);
};
//__________________________________________________________________________________________________
void EventListenerImpl::disposing( lang::EventObject const & rEvt )
throw (RuntimeException)
{
if (rEvt.Source != m_xTDMgr) {
OSL_ASSERT(false);
}
// deregister of c typelib callback
::typelib_typedescription_revokeCallback( m_xTDMgr.get(), typelib_callback );
}
//==================================================================================================
sal_Bool SAL_CALL installTypeDescriptionManager(
Reference< container::XHierarchicalNameAccess > const & xTDMgr_c )
SAL_THROW( () )
{
uno::Environment curr_env(Environment::getCurrent());
uno::Environment target_env(rtl::OUString(RTL_CONSTASCII_USTRINGPARAM(CPPU_STRINGIFY(CPPU_ENV))));
uno::Mapping curr2target(curr_env, target_env);
Reference<container::XHierarchicalNameAccess> xTDMgr(
reinterpret_cast<container::XHierarchicalNameAccess *>(
curr2target.mapInterface(xTDMgr_c.get(), ::getCppuType(&xTDMgr_c))),
SAL_NO_ACQUIRE);
Reference< lang::XComponent > xComp( xTDMgr, UNO_QUERY );
if (xComp.is())
{
xComp->addEventListener( new EventListenerImpl( xTDMgr ) );
// register c typelib callback
::typelib_typedescription_registerCallback( xTDMgr.get(), typelib_callback );
return sal_True;
}
return sal_False;
}
} // end namespace cppu
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