office-gobmx/cppuhelper/source/factory.cxx
Stephan Bergmann f853ec317f Extend loplugin:external to warn about classes
...following up on 314f15bff0 "Extend
loplugin:external to warn about enums".

Cases where free functions were moved into an unnamed namespace along with a
class, to not break ADL, are in:

  filter/source/svg/svgexport.cxx
  sc/source/filter/excel/xelink.cxx
  sc/source/filter/excel/xilink.cxx
  svx/source/sdr/contact/viewobjectcontactofunocontrol.cxx

All other free functions mentioning moved classes appear to be harmless and not
give rise to (silent, even) ADL breakage.  (One remaining TODO in
compilerplugins/clang/external.cxx is that derived classes are not covered by
computeAffectedTypes, even though they could also be affected by ADL-breakage---
but don't seem to be in any acutal case across the code base.)

For friend declarations using elaborate type specifiers, like

  class C1 {};
  class C2 { friend class C1; };

* If C2 (but not C1) is moved into an unnamed namespace, the friend declaration
must be changed to not use an elaborate type specifier (i.e., "friend C1;"; see
C++17 [namespace.memdef]/3: "If the name in a friend declaration is neither
qualified nor a template-id and the declaration is a function or an
elaborated-type-specifier, the lookup to determine whether the entity has been
previously declared shall not consider any scopes outside the innermost
enclosing namespace.")

* If C1 (but not C2) is moved into an unnamed namespace, the friend declaration
must be changed too, see <https://gcc.gnu.org/bugzilla/show_bug.cgi?id=71882>
"elaborated-type-specifier friend not looked up in unnamed namespace".

Apart from that, to keep changes simple and mostly mechanical (which should help
avoid regressions), out-of-line definitions of class members have been left in
the enclosing (named) namespace.  But explicit specializations of class
templates had to be moved into the unnamed namespace to appease
<https://gcc.gnu.org/bugzilla/show_bug.cgi?id=92598> "explicit specialization of
template from unnamed namespace using unqualified-id in enclosing namespace".

Also, accompanying declarations (of e.g. typedefs or static variables) that
could arguably be moved into the unnamed namespace too have been left alone.

And in some cases, mention of affected types in blacklists in other loplugins
needed to be adapted.

And sc/qa/unit/mark_test.cxx uses a hack of including other .cxx, one of which
is sc/source/core/data/segmenttree.cxx where e.g. ScFlatUInt16SegmentsImpl is
not moved into an unnamed namespace (because it is declared in
sc/inc/segmenttree.hxx), but its base ScFlatSegmentsImpl is.  GCC warns about
such combinations with enabled-by-default -Wsubobject-linkage, but "The compiler
doesn’t give this warning for types defined in the main .C file, as those are
unlikely to have multiple definitions."
(<https://gcc.gnu.org/onlinedocs/gcc-9.2.0/gcc/Warning-Options.html>)  The
warned-about classes also don't have multiple definitions in the given test, so
disable the warning when including the .cxx.

Change-Id: Ib694094c0d8168be68f8fe90dfd0acbb66a3f1e4
Reviewed-on: https://gerrit.libreoffice.org/83239
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
2019-11-22 12:57:32 +01:00

967 lines
30 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* 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 .
*/
#include <sal/log.hxx>
#include <osl/diagnose.h>
#include <osl/mutex.hxx>
#include <cppuhelper/weak.hxx>
#include <cppuhelper/component.hxx>
#include <cppuhelper/factory.hxx>
#include <cppuhelper/implbase.hxx>
#include <cppuhelper/queryinterface.hxx>
#include <cppuhelper/supportsservice.hxx>
#include <rtl/unload.h>
#include <cppuhelper/propshlp.hxx>
#include <com/sun/star/lang/XServiceInfo.hpp>
#include <com/sun/star/lang/XSingleServiceFactory.hpp>
#include <com/sun/star/lang/XSingleComponentFactory.hpp>
#include <com/sun/star/lang/XInitialization.hpp>
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#include <com/sun/star/loader/XImplementationLoader.hpp>
#include <com/sun/star/lang/XComponent.hpp>
#include <com/sun/star/lang/IllegalArgumentException.hpp>
#include <com/sun/star/uno/XUnloadingPreference.hpp>
#include <com/sun/star/beans/PropertyAttribute.hpp>
#include <memory>
using namespace osl;
using namespace com::sun::star;
using namespace com::sun::star::uno;
using namespace com::sun::star::lang;
using namespace com::sun::star::loader;
using namespace com::sun::star::registry;
namespace cppu
{
namespace {
class OSingleFactoryHelper
: public XServiceInfo
, public XSingleServiceFactory
, public lang::XSingleComponentFactory
, public XUnloadingPreference
{
public:
OSingleFactoryHelper(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName_,
ComponentInstantiation pCreateFunction_,
ComponentFactoryFunc fptr,
const Sequence< OUString > * pServiceNames_ )
: xSMgr( rServiceManager )
, pCreateFunction( pCreateFunction_ )
, m_fptr( fptr )
, aImplementationName( rImplementationName_ )
{
if( pServiceNames_ )
aServiceNames = *pServiceNames_;
}
virtual ~OSingleFactoryHelper();
// XInterface
Any SAL_CALL queryInterface( const Type & rType ) override;
// XSingleServiceFactory
Reference<XInterface > SAL_CALL createInstance() override;
virtual Reference<XInterface > SAL_CALL createInstanceWithArguments(const Sequence<Any>& Arguments) override;
// XSingleComponentFactory
virtual Reference< XInterface > SAL_CALL createInstanceWithContext(
Reference< XComponentContext > const & xContext ) override;
virtual Reference< XInterface > SAL_CALL createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext ) override;
// XServiceInfo
OUString SAL_CALL getImplementationName() override;
sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override;
Sequence< OUString > SAL_CALL getSupportedServiceNames() override;
protected:
/**
* Create an instance specified by the factory. The one instance logic is implemented
* in the createInstance and createInstanceWithArguments methods.
* @return the newly created instance. Do not return a previous (one instance) instance.
* @throw css::uno::Exception
* @throw css::uno::RuntimeException
*/
virtual Reference<XInterface > createInstanceEveryTime(
Reference< XComponentContext > const & xContext );
Reference<XMultiServiceFactory > xSMgr;
ComponentInstantiation pCreateFunction;
ComponentFactoryFunc m_fptr;
Sequence< OUString > aServiceNames;
OUString aImplementationName;
};
}
OSingleFactoryHelper::~OSingleFactoryHelper()
{
}
Any OSingleFactoryHelper::queryInterface( const Type & rType )
{
return ::cppu::queryInterface(
rType,
static_cast< XSingleComponentFactory * >( this ),
static_cast< XSingleServiceFactory * >( this ),
static_cast< XServiceInfo * >( this ) ,
static_cast< XUnloadingPreference * >( this ));
}
// OSingleFactoryHelper
Reference<XInterface > OSingleFactoryHelper::createInstanceEveryTime(
Reference< XComponentContext > const & xContext )
{
if (m_fptr)
{
return (*m_fptr)( xContext );
}
if( pCreateFunction )
{
if (xContext.is())
{
Reference< lang::XMultiServiceFactory > xContextMgr(
xContext->getServiceManager(), UNO_QUERY );
if (xContextMgr.is())
return (*pCreateFunction)( xContextMgr );
}
return (*pCreateFunction)( xSMgr );
}
return Reference< XInterface >();
}
// XSingleServiceFactory
Reference<XInterface > OSingleFactoryHelper::createInstance()
{
return createInstanceWithContext( Reference< XComponentContext >() );
}
// XSingleServiceFactory
Reference<XInterface > OSingleFactoryHelper::createInstanceWithArguments(
const Sequence<Any>& Arguments )
{
return createInstanceWithArgumentsAndContext(
Arguments, Reference< XComponentContext >() );
}
// XSingleComponentFactory
Reference< XInterface > OSingleFactoryHelper::createInstanceWithContext(
Reference< XComponentContext > const & xContext )
{
return createInstanceEveryTime( xContext );
}
Reference< XInterface > OSingleFactoryHelper::createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext )
{
Reference< XInterface > xRet( createInstanceWithContext( xContext ) );
Reference< lang::XInitialization > xInit( xRet, UNO_QUERY );
// always call initialize, even if there are no arguments. #i63511#
if (xInit.is())
{
xInit->initialize( rArguments );
}
else
{
if ( rArguments.hasElements() )
{
// dispose the here created UNO object before throwing out exception
// to avoid risk of memory leaks #i113722#
Reference<XComponent> xComp( xRet, UNO_QUERY );
if (xComp.is())
xComp->dispose();
throw lang::IllegalArgumentException(
"cannot pass arguments to component => no XInitialization implemented!",
Reference< XInterface >(), 0 );
}
}
return xRet;
}
// XServiceInfo
OUString OSingleFactoryHelper::getImplementationName()
{
return aImplementationName;
}
// XServiceInfo
sal_Bool OSingleFactoryHelper::supportsService(
const OUString& ServiceName )
{
return cppu::supportsService(this, ServiceName);
}
// XServiceInfo
Sequence< OUString > OSingleFactoryHelper::getSupportedServiceNames()
{
return aServiceNames;
}
namespace {
struct OFactoryComponentHelper_Mutex
{
Mutex aMutex;
};
class OFactoryComponentHelper
: public OFactoryComponentHelper_Mutex
, public OComponentHelper
, public OSingleFactoryHelper
{
public:
OFactoryComponentHelper(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName_,
ComponentInstantiation pCreateFunction_,
ComponentFactoryFunc fptr,
const Sequence< OUString > * pServiceNames_,
bool bOneInstance_ )
: OComponentHelper( aMutex )
, OSingleFactoryHelper( rServiceManager, rImplementationName_, pCreateFunction_, fptr, pServiceNames_ )
, bOneInstance( bOneInstance_ )
{
}
// XInterface
Any SAL_CALL queryInterface( const Type & rType ) override;
void SAL_CALL acquire() throw() override
{ OComponentHelper::acquire(); }
void SAL_CALL release() throw() override
{ OComponentHelper::release(); }
// XSingleServiceFactory
Reference<XInterface > SAL_CALL createInstance() override;
Reference<XInterface > SAL_CALL createInstanceWithArguments( const Sequence<Any>& Arguments ) override;
// XSingleComponentFactory
virtual Reference< XInterface > SAL_CALL createInstanceWithContext(
Reference< XComponentContext > const & xContext ) override;
virtual Reference< XInterface > SAL_CALL createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext ) override;
// XTypeProvider
virtual Sequence< Type > SAL_CALL getTypes() override;
virtual Sequence< sal_Int8 > SAL_CALL getImplementationId() override;
// XAggregation
Any SAL_CALL queryAggregation( const Type & rType ) override;
// XUnloadingPreference
virtual sal_Bool SAL_CALL releaseOnNotification() override;
// OComponentHelper
void SAL_CALL dispose() override;
private:
Reference<XInterface > xTheInstance;
bool bOneInstance;
protected:
// needed for implementing XUnloadingPreference in inheriting classes
bool isOneInstance() const {return bOneInstance;}
bool isInstance() const {return xTheInstance.is();}
};
}
Any SAL_CALL OFactoryComponentHelper::queryInterface( const Type & rType )
{
if( rType == cppu::UnoType<XUnloadingPreference>::get() )
{
return Any(
Reference< XUnloadingPreference >(
static_cast< XUnloadingPreference * >(this) ) );
}
return OComponentHelper::queryInterface( rType );
}
// XAggregation
Any OFactoryComponentHelper::queryAggregation( const Type & rType )
{
Any aRet( OComponentHelper::queryAggregation( rType ) );
return (aRet.hasValue() ? aRet : OSingleFactoryHelper::queryInterface( rType ));
}
// XTypeProvider
Sequence< Type > OFactoryComponentHelper::getTypes()
{
Type ar[ 4 ];
ar[ 0 ] = cppu::UnoType<XSingleServiceFactory>::get();
ar[ 1 ] = cppu::UnoType<XServiceInfo>::get();
ar[ 2 ] = cppu::UnoType<XUnloadingPreference>::get();
if (m_fptr)
ar[ 3 ] = cppu::UnoType<XSingleComponentFactory>::get();
return Sequence< Type >( ar, m_fptr ? 4 : 3 );
}
Sequence< sal_Int8 > OFactoryComponentHelper::getImplementationId()
{
return css::uno::Sequence<sal_Int8>();
}
// XSingleServiceFactory
Reference<XInterface > OFactoryComponentHelper::createInstance()
{
if( bOneInstance )
{
if( !xTheInstance.is() )
{
MutexGuard aGuard( aMutex );
if( !xTheInstance.is() )
xTheInstance = OSingleFactoryHelper::createInstance();
}
return xTheInstance;
}
return OSingleFactoryHelper::createInstance();
}
Reference<XInterface > OFactoryComponentHelper::createInstanceWithArguments(
const Sequence<Any>& Arguments )
{
if( bOneInstance )
{
if( !xTheInstance.is() )
{
MutexGuard aGuard( aMutex );
// OSL_ENSURE( !xTheInstance.is(), "### arguments will be ignored!" );
if( !xTheInstance.is() )
xTheInstance = OSingleFactoryHelper::createInstanceWithArguments( Arguments );
}
return xTheInstance;
}
return OSingleFactoryHelper::createInstanceWithArguments( Arguments );
}
// XSingleComponentFactory
Reference< XInterface > OFactoryComponentHelper::createInstanceWithContext(
Reference< XComponentContext > const & xContext )
{
if( bOneInstance )
{
if( !xTheInstance.is() )
{
MutexGuard aGuard( aMutex );
// OSL_ENSURE( !xTheInstance.is(), "### context will be ignored!" );
if( !xTheInstance.is() )
xTheInstance = OSingleFactoryHelper::createInstanceWithContext( xContext );
}
return xTheInstance;
}
return OSingleFactoryHelper::createInstanceWithContext( xContext );
}
Reference< XInterface > OFactoryComponentHelper::createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext )
{
if( bOneInstance )
{
if( !xTheInstance.is() )
{
MutexGuard aGuard( aMutex );
// OSL_ENSURE( !xTheInstance.is(), "### context and arguments will be ignored!" );
if( !xTheInstance.is() )
xTheInstance = OSingleFactoryHelper::createInstanceWithArgumentsAndContext( rArguments, xContext );
}
return xTheInstance;
}
return OSingleFactoryHelper::createInstanceWithArgumentsAndContext( rArguments, xContext );
}
// OComponentHelper
void OFactoryComponentHelper::dispose()
{
OComponentHelper::dispose();
Reference<XInterface > x;
{
// do not delete in the guard section
MutexGuard aGuard( aMutex );
x = xTheInstance;
xTheInstance.clear();
}
// if it is a component call dispose at the component
Reference<XComponent > xComp( x, UNO_QUERY );
if( xComp.is() )
xComp->dispose();
}
// XUnloadingPreference
// This class is used for single factories, component factories and
// one-instance factories. Depending on the usage this function has
// to return different values.
// one-instance factory: sal_False
// single factory: sal_True
// component factory: sal_True
sal_Bool SAL_CALL OFactoryComponentHelper::releaseOnNotification()
{
if( bOneInstance)
return false;
return true;
}
namespace {
class ORegistryFactoryHelper : public OFactoryComponentHelper,
public OPropertySetHelper
{
public:
ORegistryFactoryHelper(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName_,
const Reference<XRegistryKey > & xImplementationKey_,
bool bOneInstance_ )
: OFactoryComponentHelper(
rServiceManager, rImplementationName_, nullptr, nullptr, nullptr, bOneInstance_ ),
OPropertySetHelper( OComponentHelper::rBHelper ),
xImplementationKey( xImplementationKey_ )
{}
// XInterface
virtual Any SAL_CALL queryInterface( Type const & type ) override;
virtual void SAL_CALL acquire() throw () override;
virtual void SAL_CALL release() throw () override;
// XTypeProvider
virtual Sequence< Type > SAL_CALL getTypes() override;
// XPropertySet
virtual Reference< beans::XPropertySetInfo > SAL_CALL getPropertySetInfo() override;
// OPropertySetHelper
virtual IPropertyArrayHelper & SAL_CALL getInfoHelper() override;
virtual sal_Bool SAL_CALL convertFastPropertyValue(
Any & rConvertedValue, Any & rOldValue,
sal_Int32 nHandle, Any const & rValue ) override;
virtual void SAL_CALL setFastPropertyValue_NoBroadcast(
sal_Int32 nHandle, Any const & rValue ) override;
using OPropertySetHelper::getFastPropertyValue;
virtual void SAL_CALL getFastPropertyValue(
Any & rValue, sal_Int32 nHandle ) const override;
// OSingleFactoryHelper
Reference<XInterface > createInstanceEveryTime(
Reference< XComponentContext > const & xContext ) override;
// XSingleServiceFactory
Reference<XInterface > SAL_CALL createInstanceWithArguments(const Sequence<Any>& Arguments) override;
// XSingleComponentFactory
Reference< XInterface > SAL_CALL createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext ) override;
// XServiceInfo
Sequence< OUString > SAL_CALL getSupportedServiceNames() override;
// XUnloadingPreference
sal_Bool SAL_CALL releaseOnNotification() override;
private:
/// @throws css::uno::Exception
/// @throws css::uno::RuntimeException
Reference< XInterface > createModuleFactory();
/** The registry key of the implementation section */
Reference<XRegistryKey > xImplementationKey;
/** The factory created with the loader. */
Reference<XSingleComponentFactory > xModuleFactory;
Reference<XSingleServiceFactory > xModuleFactoryDepr;
Reference< beans::XPropertySetInfo > m_xInfo;
std::unique_ptr< IPropertyArrayHelper > m_property_array_helper;
protected:
using OPropertySetHelper::getTypes;
};
}
// XInterface
Any SAL_CALL ORegistryFactoryHelper::queryInterface(
Type const & type )
{
Any ret( OFactoryComponentHelper::queryInterface( type ) );
if (ret.hasValue())
return ret;
return OPropertySetHelper::queryInterface( type );
}
void ORegistryFactoryHelper::acquire() throw ()
{
OFactoryComponentHelper::acquire();
}
void ORegistryFactoryHelper::release() throw ()
{
OFactoryComponentHelper::release();
}
// XTypeProvider
Sequence< Type > ORegistryFactoryHelper::getTypes()
{
Sequence< Type > types( OFactoryComponentHelper::getTypes() );
sal_Int32 pos = types.getLength();
types.realloc( pos + 3 );
Type * p = types.getArray();
p[ pos++ ] = cppu::UnoType<beans::XMultiPropertySet>::get();
p[ pos++ ] = cppu::UnoType<beans::XFastPropertySet>::get();
p[ pos++ ] = cppu::UnoType<beans::XPropertySet>::get();
return types;
}
// XPropertySet
Reference< beans::XPropertySetInfo >
ORegistryFactoryHelper::getPropertySetInfo()
{
::osl::MutexGuard guard( aMutex );
if (! m_xInfo.is())
m_xInfo = createPropertySetInfo( getInfoHelper() );
return m_xInfo;
}
// OPropertySetHelper
IPropertyArrayHelper & ORegistryFactoryHelper::getInfoHelper()
{
::osl::MutexGuard guard( aMutex );
if (m_property_array_helper == nullptr)
{
beans::Property prop(
"ImplementationKey" /* name */,
0 /* handle */,
cppu::UnoType<decltype(xImplementationKey)>::get(),
beans::PropertyAttribute::READONLY |
beans::PropertyAttribute::OPTIONAL );
m_property_array_helper.reset(
new ::cppu::OPropertyArrayHelper( &prop, 1 ) );
}
return *m_property_array_helper;
}
sal_Bool ORegistryFactoryHelper::convertFastPropertyValue(
Any &, Any &, sal_Int32, Any const & )
{
OSL_FAIL( "unexpected!" );
return false;
}
void ORegistryFactoryHelper::setFastPropertyValue_NoBroadcast(
sal_Int32, Any const & )
{
throw beans::PropertyVetoException(
"unexpected: only readonly properties!",
static_cast< OWeakObject * >(this) );
}
void ORegistryFactoryHelper::getFastPropertyValue(
Any & rValue, sal_Int32 nHandle ) const
{
if (nHandle == 0)
{
rValue <<= xImplementationKey;
}
else
{
rValue.clear();
throw beans::UnknownPropertyException(
"unknown property!", static_cast< OWeakObject * >(
const_cast< ORegistryFactoryHelper * >(this) ) );
}
}
Reference<XInterface > ORegistryFactoryHelper::createInstanceEveryTime(
Reference< XComponentContext > const & xContext )
{
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
Reference< XInterface > x( createModuleFactory() );
if (x.is())
{
MutexGuard aGuard( aMutex );
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
xModuleFactory.set( x, UNO_QUERY );
xModuleFactoryDepr.set( x, UNO_QUERY );
}
}
}
if( xModuleFactory.is() )
{
return xModuleFactory->createInstanceWithContext( xContext );
}
if( xModuleFactoryDepr.is() )
{
return xModuleFactoryDepr->createInstance();
}
return Reference<XInterface >();
}
Reference<XInterface > SAL_CALL ORegistryFactoryHelper::createInstanceWithArguments(
const Sequence<Any>& Arguments )
{
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
Reference< XInterface > x( createModuleFactory() );
if (x.is())
{
MutexGuard aGuard( aMutex );
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
xModuleFactory.set( x, UNO_QUERY );
xModuleFactoryDepr.set( x, UNO_QUERY );
}
}
}
if( xModuleFactoryDepr.is() )
{
return xModuleFactoryDepr->createInstanceWithArguments( Arguments );
}
if( xModuleFactory.is() )
{
SAL_INFO("cppuhelper", "no context ORegistryFactoryHelper::createInstanceWithArgumentsAndContext()!");
return xModuleFactory->createInstanceWithArgumentsAndContext( Arguments, Reference< XComponentContext >() );
}
return Reference<XInterface >();
}
Reference< XInterface > ORegistryFactoryHelper::createInstanceWithArgumentsAndContext(
Sequence< Any > const & rArguments,
Reference< XComponentContext > const & xContext )
{
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
Reference< XInterface > x( createModuleFactory() );
if (x.is())
{
MutexGuard aGuard( aMutex );
if( !xModuleFactory.is() && !xModuleFactoryDepr.is() )
{
xModuleFactory.set( x, UNO_QUERY );
xModuleFactoryDepr.set( x, UNO_QUERY );
}
}
}
if( xModuleFactory.is() )
{
return xModuleFactory->createInstanceWithArgumentsAndContext( rArguments, xContext );
}
if( xModuleFactoryDepr.is() )
{
SAL_INFO_IF(xContext.is(), "cppuhelper", "ignoring context calling ORegistryFactoryHelper::createInstaceWithArgumentsAndContext()!");
return xModuleFactoryDepr->createInstanceWithArguments( rArguments );
}
return Reference<XInterface >();
}
// OSingleFactoryHelper
Reference< XInterface > ORegistryFactoryHelper::createModuleFactory()
{
OUString aActivatorUrl;
OUString aActivatorName;
OUString aLocation;
Reference<XRegistryKey > xActivatorKey = xImplementationKey->openKey(
"/UNO/ACTIVATOR" );
if( xActivatorKey.is() && xActivatorKey->getValueType() == RegistryValueType_ASCII )
{
aActivatorUrl = xActivatorKey->getAsciiValue();
aActivatorName = aActivatorUrl.getToken(0, ':');
Reference<XRegistryKey > xLocationKey = xImplementationKey->openKey(
"/UNO/LOCATION" );
if( xLocationKey.is() && xLocationKey->getValueType() == RegistryValueType_ASCII )
aLocation = xLocationKey->getAsciiValue();
}
else
{
// old style"url"
// the location of the program code of the implementation
Reference<XRegistryKey > xLocationKey = xImplementationKey->openKey(
"/UNO/URL" );
// is the key of the right type ?
if( xLocationKey.is() && xLocationKey->getValueType() == RegistryValueType_ASCII )
{
// one implementation found -> try to activate
aLocation = xLocationKey->getAsciiValue();
// search protocol delimiter
sal_Int32 nPos = aLocation.indexOf("://");
if( nPos != -1 )
{
aActivatorName = aLocation.copy( 0, nPos );
if( aActivatorName == "java" )
aActivatorName = "com.sun.star.loader.Java";
else if( aActivatorName == "module" )
aActivatorName = "com.sun.star.loader.SharedLibrary";
aLocation = aLocation.copy( nPos + 3 );
}
}
}
Reference< XInterface > xFactory;
if( !aActivatorName.isEmpty() )
{
Reference<XInterface > x = xSMgr->createInstance( aActivatorName );
Reference<XImplementationLoader > xLoader( x, UNO_QUERY );
if (xLoader.is())
{
xFactory = xLoader->activate( aImplementationName, aActivatorUrl, aLocation, xImplementationKey );
}
}
return xFactory;
}
// XServiceInfo
Sequence< OUString > ORegistryFactoryHelper::getSupportedServiceNames()
{
MutexGuard aGuard( aMutex );
if( !aServiceNames.hasElements() )
{
// not yet loaded
try
{
Reference<XRegistryKey > xKey = xImplementationKey->openKey( "UNO/SERVICES" );
if (xKey.is())
{
// length of prefix. +1 for the '/' at the end
sal_Int32 nPrefixLen = xKey->getKeyName().getLength() + 1;
// Full qualified names like "IMPLEMENTATIONS/TEST/UNO/SERVICES/com.sun.star..."
Sequence<OUString> seqKeys = xKey->getKeyNames();
for( OUString & key : seqKeys )
key = key.copy(nPrefixLen);
aServiceNames = seqKeys;
}
}
catch (InvalidRegistryException &)
{
}
}
return aServiceNames;
}
sal_Bool SAL_CALL ORegistryFactoryHelper::releaseOnNotification()
{
bool retVal= true;
if( isOneInstance() && isInstance())
{
retVal= false;
}
else if( ! isOneInstance())
{
// try to delegate
if( xModuleFactory.is())
{
Reference<XUnloadingPreference> xunloading( xModuleFactory, UNO_QUERY);
if( xunloading.is())
retVal= xunloading->releaseOnNotification();
}
else if( xModuleFactoryDepr.is())
{
Reference<XUnloadingPreference> xunloading( xModuleFactoryDepr, UNO_QUERY);
if( xunloading.is())
retVal= xunloading->releaseOnNotification();
}
}
return retVal;
}
namespace {
class OFactoryProxyHelper : public WeakImplHelper< XServiceInfo, XSingleServiceFactory,
XUnloadingPreference >
{
Reference<XSingleServiceFactory > xFactory;
public:
explicit OFactoryProxyHelper( const Reference<XSingleServiceFactory > & rFactory )
: xFactory( rFactory )
{}
// XSingleServiceFactory
Reference<XInterface > SAL_CALL createInstance() override;
Reference<XInterface > SAL_CALL createInstanceWithArguments(const Sequence<Any>& Arguments) override;
// XServiceInfo
OUString SAL_CALL getImplementationName() override;
sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override;
Sequence< OUString > SAL_CALL getSupportedServiceNames() override;
//XUnloadingPreference
sal_Bool SAL_CALL releaseOnNotification() override;
};
}
// XSingleServiceFactory
Reference<XInterface > OFactoryProxyHelper::createInstance()
{
return xFactory->createInstance();
}
// XSingleServiceFactory
Reference<XInterface > OFactoryProxyHelper::createInstanceWithArguments
(
const Sequence<Any>& Arguments
)
{
return xFactory->createInstanceWithArguments( Arguments );
}
// XServiceInfo
OUString OFactoryProxyHelper::getImplementationName()
{
Reference<XServiceInfo > xInfo( xFactory, UNO_QUERY );
if( xInfo.is() )
return xInfo->getImplementationName();
return OUString();
}
// XServiceInfo
sal_Bool OFactoryProxyHelper::supportsService(const OUString& ServiceName)
{
return cppu::supportsService(this, ServiceName);
}
// XServiceInfo
Sequence< OUString > OFactoryProxyHelper::getSupportedServiceNames()
{
Reference<XServiceInfo > xInfo( xFactory, UNO_QUERY );
if( xInfo.is() )
return xInfo->getSupportedServiceNames();
return Sequence< OUString >();
}
sal_Bool SAL_CALL OFactoryProxyHelper::releaseOnNotification()
{
Reference<XUnloadingPreference> pref( xFactory, UNO_QUERY);
if( pref.is())
return pref->releaseOnNotification();
return true;
}
// global function
Reference<XSingleServiceFactory > SAL_CALL createSingleFactory(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName,
ComponentInstantiation pCreateFunction,
const Sequence< OUString > & rServiceNames,
rtl_ModuleCount * )
{
return new OFactoryComponentHelper(
rServiceManager, rImplementationName, pCreateFunction, nullptr, &rServiceNames, false );
}
// global function
Reference<XSingleServiceFactory > SAL_CALL createFactoryProxy(
SAL_UNUSED_PARAMETER const Reference<XMultiServiceFactory > &,
const Reference<XSingleServiceFactory > & rFactory )
{
return new OFactoryProxyHelper( rFactory );
}
// global function
Reference<XSingleServiceFactory > SAL_CALL createOneInstanceFactory(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName,
ComponentInstantiation pCreateFunction,
const Sequence< OUString > & rServiceNames,
rtl_ModuleCount * )
{
return new OFactoryComponentHelper(
rServiceManager, rImplementationName, pCreateFunction, nullptr, &rServiceNames, true );
}
// global function
Reference<XSingleServiceFactory > SAL_CALL createSingleRegistryFactory(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName,
const Reference<XRegistryKey > & rImplementationKey )
{
return new ORegistryFactoryHelper(
rServiceManager, rImplementationName, rImplementationKey, false );
}
// global function
Reference<XSingleServiceFactory > SAL_CALL createOneInstanceRegistryFactory(
const Reference<XMultiServiceFactory > & rServiceManager,
const OUString & rImplementationName,
const Reference<XRegistryKey > & rImplementationKey )
{
return new ORegistryFactoryHelper(
rServiceManager, rImplementationName, rImplementationKey, true );
}
Reference< lang::XSingleComponentFactory > SAL_CALL createSingleComponentFactory(
ComponentFactoryFunc fptr,
OUString const & rImplementationName,
Sequence< OUString > const & rServiceNames,
rtl_ModuleCount *)
{
return new OFactoryComponentHelper(
Reference< XMultiServiceFactory >(), rImplementationName, nullptr, fptr, &rServiceNames, false );
}
Reference< lang::XSingleComponentFactory > SAL_CALL createOneInstanceComponentFactory(
ComponentFactoryFunc fptr,
OUString const & rImplementationName,
Sequence< OUString > const & rServiceNames,
rtl_ModuleCount *)
{
return new OFactoryComponentHelper(
Reference< XMultiServiceFactory >(), rImplementationName, nullptr, fptr, &rServiceNames, true );
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */