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918 | /* -*- 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/config.h>
#include <cassert>
#include <cstddef>
#include <limits>
#ifdef SAL_UNX
#include <sal/alloca.h>
#endif
#include <o3tl/any.hxx>
#include <typelib/typedescription.hxx>
#include <uno/data.h>
#include "base.hxx"
#include <com/sun/star/lang/WrappedTargetRuntimeException.hpp>
#include <com/sun/star/reflection/XIdlField2.hpp>
#include <com/sun/star/uno/RuntimeException.hpp>
#include <cppuhelper/queryinterface.hxx>
#include <cppuhelper/exc_hlp.hxx>
#include <cppuhelper/typeprovider.hxx>
using namespace css::lang;
using namespace css::reflection;
using namespace css::uno;
namespace {
std::size_t multipleOf16(std::size_t n) {
assert(n <= std::numeric_limits<std::size_t>::max() - 15);
return (n + 15) & ~std::size_t(15);
}
}
namespace stoc_corefl
{
namespace {
class IdlAttributeFieldImpl
: public IdlMemberImpl
, public XIdlField
, public XIdlField2
{
public:
typelib_InterfaceAttributeTypeDescription * getAttributeTypeDescr() const
{ return reinterpret_cast<typelib_InterfaceAttributeTypeDescription *>(getTypeDescr()); }
IdlAttributeFieldImpl( IdlReflectionServiceImpl * pReflection, const OUString & rName,
typelib_TypeDescription * pTypeDescr, typelib_TypeDescription * pDeclTypeDescr )
: IdlMemberImpl( pReflection, rName, pTypeDescr, pDeclTypeDescr )
{}
// XInterface
virtual Any SAL_CALL queryInterface( const Type & rType ) override;
virtual void SAL_CALL acquire() throw() override;
virtual void SAL_CALL release() throw() override;
// XTypeProvider
virtual Sequence< Type > SAL_CALL getTypes() override;
virtual Sequence< sal_Int8 > SAL_CALL getImplementationId() override;
// XIdlMember
virtual Reference< XIdlClass > SAL_CALL getDeclaringClass() override;
virtual OUString SAL_CALL getName() override;
// XIdlField
virtual Reference< XIdlClass > SAL_CALL getType() override;
virtual FieldAccessMode SAL_CALL getAccessMode() override;
virtual Any SAL_CALL get( const Any & rObj ) override;
virtual void SAL_CALL set( const Any & rObj, const Any & rValue ) override;
// XIdlField2: getType, getAccessMode and get are equal to XIdlField
virtual void SAL_CALL set( Any & rObj, const Any & rValue ) override;
private:
void checkException(
uno_Any * exception, Reference< XInterface > const & context) const;
};
}
// XInterface
Any IdlAttributeFieldImpl::queryInterface( const Type & rType )
{
Any aRet( ::cppu::queryInterface( rType,
static_cast< XIdlField * >( this ),
static_cast< XIdlField2 * >( this ) ) );
return (aRet.hasValue() ? aRet : IdlMemberImpl::queryInterface( rType ));
}
void IdlAttributeFieldImpl::acquire() throw()
{
IdlMemberImpl::acquire();
}
void IdlAttributeFieldImpl::release() throw()
{
IdlMemberImpl::release();
}
// XTypeProvider
Sequence< Type > IdlAttributeFieldImpl::getTypes()
{
static cppu::OTypeCollection s_aTypes(
cppu::UnoType<XIdlField2>::get(),
cppu::UnoType<XIdlField>::get(),
IdlMemberImpl::getTypes() );
return s_aTypes.getTypes();
}
Sequence< sal_Int8 > IdlAttributeFieldImpl::getImplementationId()
{
return css::uno::Sequence<sal_Int8>();
}
// XIdlMember
Reference< XIdlClass > IdlAttributeFieldImpl::getDeclaringClass()
{
if (! _xDeclClass.is())
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _xDeclClass.is())
{
OUString aName(getAttributeTypeDescr()->aBase.aBase.pTypeName);
sal_Int32 i = aName.indexOf(':');
OSL_ASSERT(i >= 0);
_xDeclClass = getReflection()->forName(aName.copy(0, i));
}
}
return _xDeclClass;
}
OUString IdlAttributeFieldImpl::getName()
{
return IdlMemberImpl::getName();
}
// XIdlField
Reference< XIdlClass > IdlAttributeFieldImpl::getType()
{
return getReflection()->forType(
getAttributeTypeDescr()->pAttributeTypeRef );
}
FieldAccessMode IdlAttributeFieldImpl::getAccessMode()
{
return (getAttributeTypeDescr()->bReadOnly
? FieldAccessMode_READONLY : FieldAccessMode_READWRITE);
}
Any IdlAttributeFieldImpl::get( const Any & rObj )
{
uno_Interface * pUnoI = getReflection()->mapToUno(
rObj, reinterpret_cast<typelib_InterfaceTypeDescription *>(getDeclTypeDescr()) );
OSL_ENSURE( pUnoI, "### illegal destination object given!" );
if (pUnoI)
{
TypeDescription aTD( getAttributeTypeDescr()->pAttributeTypeRef );
typelib_TypeDescription * pTD = aTD.get();
uno_Any aExc;
uno_Any * pExc = &aExc;
void * pReturn = alloca( pTD->nSize );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
(*pUnoI->pDispatcher)( pUnoI, getTypeDescr(), pReturn, nullptr, &pExc );
(*pUnoI->release)( pUnoI );
checkException(pExc, *o3tl::doAccess<Reference<XInterface>>(rObj));
Any aRet;
uno_any_destruct(
&aRet, reinterpret_cast< uno_ReleaseFunc >(cpp_release) );
uno_any_constructAndConvert( &aRet, pReturn, pTD, getReflection()->getUno2Cpp().get() );
uno_destructData( pReturn, pTD, nullptr );
return aRet;
}
throw IllegalArgumentException(
"illegal object given!",
static_cast<XWeak *>(static_cast<OWeakObject *>(this)), 0 );
}
void IdlAttributeFieldImpl::set( Any & rObj, const Any & rValue )
{
if (getAttributeTypeDescr()->bReadOnly)
{
throw IllegalAccessException(
"cannot set readonly attribute!",
static_cast<XWeak *>(static_cast<OWeakObject *>(this)) );
}
uno_Interface * pUnoI = getReflection()->mapToUno(
rObj, reinterpret_cast<typelib_InterfaceTypeDescription *>(getDeclTypeDescr()) );
OSL_ENSURE( pUnoI, "### illegal destination object given!" );
if (pUnoI)
{
TypeDescription aTD( getAttributeTypeDescr()->pAttributeTypeRef );
typelib_TypeDescription * pTD = aTD.get();
// construct uno value to be set
void * pArgs[1];
void * pArg = pArgs[0] = alloca( pTD->nSize );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
bool bAssign;
if (pTD->eTypeClass == typelib_TypeClass_ANY)
{
uno_copyAndConvertData( pArg, const_cast< Any * >(&rValue),
pTD, getReflection()->getCpp2Uno().get() );
bAssign = true;
}
else if (typelib_typedescriptionreference_equals( rValue.getValueTypeRef(), pTD->pWeakRef ))
{
uno_copyAndConvertData( pArg, const_cast< void * >(rValue.getValue()),
pTD, getReflection()->getCpp2Uno().get() );
bAssign = true;
}
else if (pTD->eTypeClass == typelib_TypeClass_INTERFACE)
{
Reference< XInterface > xObj;
bAssign = extract(
rValue, reinterpret_cast<typelib_InterfaceTypeDescription *>(pTD), xObj,
getReflection() );
if (bAssign)
{
*static_cast<void **>(pArg) = getReflection()->getCpp2Uno().mapInterface(
xObj.get(), reinterpret_cast<typelib_InterfaceTypeDescription *>(pTD) );
}
}
else
{
typelib_TypeDescription * pValueTD = nullptr;
TYPELIB_DANGER_GET( &pValueTD, rValue.getValueTypeRef() );
// construct temp uno val to do proper assignment: todo opt
void * pTemp = alloca( pValueTD->nSize );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
uno_copyAndConvertData(
pTemp, const_cast<void *>(rValue.getValue()), pValueTD, getReflection()->getCpp2Uno().get() );
uno_constructData(
pArg, pTD );
// assignment does simple conversion
bAssign = uno_assignData(
pArg, pTD, pTemp, pValueTD, nullptr, nullptr, nullptr );
uno_destructData(
pTemp, pValueTD, nullptr );
TYPELIB_DANGER_RELEASE( pValueTD );
}
if (bAssign)
{
uno_Any aExc;
uno_Any * pExc = &aExc;
(*pUnoI->pDispatcher)( pUnoI, getTypeDescr(), nullptr, pArgs, &pExc );
(*pUnoI->release)( pUnoI );
uno_destructData( pArg, pTD, nullptr );
checkException(pExc, *o3tl::doAccess<Reference<XInterface>>(rObj));
return;
}
(*pUnoI->release)( pUnoI );
throw IllegalArgumentException(
"illegal value given!",
*o3tl::doAccess<Reference<XInterface>>(rObj), 1 );
}
throw IllegalArgumentException(
"illegal destination object given!",
static_cast<XWeak *>(static_cast<OWeakObject *>(this)), 0 );
}
void IdlAttributeFieldImpl::set( const Any & rObj, const Any & rValue )
{
IdlAttributeFieldImpl::set( const_cast< Any & >( rObj ), rValue );
}
void IdlAttributeFieldImpl::checkException(
uno_Any * exception, Reference< XInterface > const & context) const
{
if (exception == nullptr)
return;
Any e;
uno_any_destruct(&e, reinterpret_cast< uno_ReleaseFunc >(cpp_release));
uno_type_any_constructAndConvert(
&e, exception->pData, exception->pType,
getReflection()->getUno2Cpp().get());
uno_any_destruct(exception, nullptr);
if (!e.isExtractableTo(
cppu::UnoType<RuntimeException>::get()))
{
throw WrappedTargetRuntimeException(
"non-RuntimeException occurred when accessing an"
" interface type attribute",
context, e);
}
cppu::throwException(e);
}
namespace {
class IdlInterfaceMethodImpl
: public IdlMemberImpl
, public XIdlMethod
{
std::unique_ptr<Sequence< Reference< XIdlClass > >> _pExceptionTypes;
std::unique_ptr<Sequence< Reference< XIdlClass > >> _pParamTypes;
std::unique_ptr<Sequence< ParamInfo >> _pParamInfos;
public:
typelib_InterfaceMethodTypeDescription * getMethodTypeDescr() const
{ return reinterpret_cast<typelib_InterfaceMethodTypeDescription *>(getTypeDescr()); }
IdlInterfaceMethodImpl( IdlReflectionServiceImpl * pReflection, const OUString & rName,
typelib_TypeDescription * pTypeDescr, typelib_TypeDescription * pDeclTypeDescr )
: IdlMemberImpl( pReflection, rName, pTypeDescr, pDeclTypeDescr )
{}
// XInterface
virtual Any SAL_CALL queryInterface( const Type & rType ) override;
virtual void SAL_CALL acquire() throw() override;
virtual void SAL_CALL release() throw() override;
// XTypeProvider
virtual Sequence< Type > SAL_CALL getTypes() override;
virtual Sequence< sal_Int8 > SAL_CALL getImplementationId() override;
// XIdlMember
virtual Reference< XIdlClass > SAL_CALL getDeclaringClass() override;
virtual OUString SAL_CALL getName() override;
// XIdlMethod
virtual Reference< XIdlClass > SAL_CALL getReturnType() override;
virtual Sequence< Reference< XIdlClass > > SAL_CALL getParameterTypes() override;
virtual Sequence< ParamInfo > SAL_CALL getParameterInfos() override;
virtual Sequence< Reference< XIdlClass > > SAL_CALL getExceptionTypes() override;
virtual MethodMode SAL_CALL getMode() override;
virtual Any SAL_CALL invoke( const Any & rObj, Sequence< Any > & rArgs ) override;
};
}
// XInterface
Any IdlInterfaceMethodImpl::queryInterface( const Type & rType )
{
Any aRet( ::cppu::queryInterface( rType, static_cast< XIdlMethod * >( this ) ) );
return (aRet.hasValue() ? aRet : IdlMemberImpl::queryInterface( rType ));
}
void IdlInterfaceMethodImpl::acquire() throw()
{
IdlMemberImpl::acquire();
}
void IdlInterfaceMethodImpl::release() throw()
{
IdlMemberImpl::release();
}
// XTypeProvider
Sequence< Type > IdlInterfaceMethodImpl::getTypes()
{
static cppu::OTypeCollection s_aTypes(
cppu::UnoType<XIdlMethod>::get(),
IdlMemberImpl::getTypes() );
return s_aTypes.getTypes();
}
Sequence< sal_Int8 > IdlInterfaceMethodImpl::getImplementationId()
{
return css::uno::Sequence<sal_Int8>();
}
// XIdlMember
Reference< XIdlClass > IdlInterfaceMethodImpl::getDeclaringClass()
{
if (! _xDeclClass.is())
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _xDeclClass.is())
{
OUString aName(getMethodTypeDescr()->aBase.aBase.pTypeName);
sal_Int32 i = aName.indexOf(':');
OSL_ASSERT(i >= 0);
_xDeclClass = getReflection()->forName(aName.copy(0, i));
}
}
return _xDeclClass;
}
OUString IdlInterfaceMethodImpl::getName()
{
return IdlMemberImpl::getName();
}
// XIdlMethod
Reference< XIdlClass > SAL_CALL IdlInterfaceMethodImpl::getReturnType()
{
return getReflection()->forType( getMethodTypeDescr()->pReturnTypeRef );
}
Sequence< Reference< XIdlClass > > IdlInterfaceMethodImpl::getExceptionTypes()
{
if (! _pExceptionTypes)
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pExceptionTypes)
{
sal_Int32 nExc = getMethodTypeDescr()->nExceptions;
std::unique_ptr<Sequence< Reference< XIdlClass > >> pTempExceptionTypes(
new Sequence< Reference< XIdlClass > >( nExc ));
Reference< XIdlClass > * pExceptionTypes = pTempExceptionTypes->getArray();
typelib_TypeDescriptionReference ** ppExc =
getMethodTypeDescr()->ppExceptions;
IdlReflectionServiceImpl * pRefl = getReflection();
while (nExc--)
pExceptionTypes[nExc] = pRefl->forType( ppExc[nExc] );
_pExceptionTypes = std::move(pTempExceptionTypes);
}
}
return *_pExceptionTypes;
}
Sequence< Reference< XIdlClass > > IdlInterfaceMethodImpl::getParameterTypes()
{
if (! _pParamTypes)
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pParamTypes)
{
sal_Int32 nParams = getMethodTypeDescr()->nParams;
std::unique_ptr<Sequence< Reference< XIdlClass > > > pTempParamTypes(
new Sequence< Reference< XIdlClass > >( nParams ));
Reference< XIdlClass > * pParamTypes = pTempParamTypes->getArray();
typelib_MethodParameter * pTypelibParams =
getMethodTypeDescr()->pParams;
IdlReflectionServiceImpl * pRefl = getReflection();
while (nParams--)
pParamTypes[nParams] = pRefl->forType( pTypelibParams[nParams].pTypeRef );
_pParamTypes = std::move(pTempParamTypes);
}
}
return *_pParamTypes;
}
Sequence< ParamInfo > IdlInterfaceMethodImpl::getParameterInfos()
{
if (! _pParamInfos)
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pParamInfos)
{
sal_Int32 nParams = getMethodTypeDescr()->nParams;
std::unique_ptr<Sequence< ParamInfo > > pTempParamInfos( new Sequence< ParamInfo >( nParams ) );
ParamInfo * pParamInfos = pTempParamInfos->getArray();
typelib_MethodParameter * pTypelibParams =
getMethodTypeDescr()->pParams;
if (_pParamTypes) // use param types
{
const Reference< XIdlClass > * pParamTypes = _pParamTypes->getConstArray();
while (nParams--)
{
const typelib_MethodParameter & rParam = pTypelibParams[nParams];
ParamInfo & rInfo = pParamInfos[nParams];
rInfo.aName = rParam.pName;
if (rParam.bIn)
rInfo.aMode = (rParam.bOut ? ParamMode_INOUT : ParamMode_IN);
else
rInfo.aMode = ParamMode_OUT;
rInfo.aType = pParamTypes[nParams];
}
}
else // make also param types sequence if not already initialized
{
std::unique_ptr<Sequence< Reference< XIdlClass > > > pTempParamTypes(
new Sequence< Reference< XIdlClass > >( nParams ));
Reference< XIdlClass > * pParamTypes = pTempParamTypes->getArray();
IdlReflectionServiceImpl * pRefl = getReflection();
while (nParams--)
{
const typelib_MethodParameter & rParam = pTypelibParams[nParams];
ParamInfo & rInfo = pParamInfos[nParams];
rInfo.aName = rParam.pName;
if (rParam.bIn)
rInfo.aMode = (rParam.bOut ? ParamMode_INOUT : ParamMode_IN);
else
rInfo.aMode = ParamMode_OUT;
rInfo.aType = pParamTypes[nParams] = pRefl->forType( rParam.pTypeRef );
}
_pParamTypes = std::move(pTempParamTypes);
}
_pParamInfos = std::move(pTempParamInfos);
}
}
return *_pParamInfos;
}
MethodMode SAL_CALL IdlInterfaceMethodImpl::getMode()
{
return
getMethodTypeDescr()->bOneWay ? MethodMode_ONEWAY : MethodMode_TWOWAY;
}
Any SAL_CALL IdlInterfaceMethodImpl::invoke( const Any & rObj, Sequence< Any > & rArgs )
{
if (auto ifc = o3tl::tryAccess<css::uno::Reference<css::uno::XInterface>>(
rObj))
{
// acquire()/ release()
if (rtl_ustr_ascii_compare( getTypeDescr()->pTypeName->buffer,
"com.sun.star.uno.XInterface::acquire" ) == 0)
{
(*ifc)->acquire();
return Any();
}
else if (rtl_ustr_ascii_compare( getTypeDescr()->pTypeName->buffer,
"com.sun.star.uno.XInterface::release" ) == 0)
{
(*ifc)->release();
return Any();
}
}
uno_Interface * pUnoI = getReflection()->mapToUno(
rObj, reinterpret_cast<typelib_InterfaceTypeDescription *>(getDeclTypeDescr()) );
OSL_ENSURE( pUnoI, "### illegal destination object given!" );
if (pUnoI)
{
sal_Int32 nParams = getMethodTypeDescr()->nParams;
if (rArgs.getLength() != nParams)
{
(*pUnoI->release)( pUnoI );
throw IllegalArgumentException(
"expected " + OUString::number(nParams) +
" arguments, got " + OUString::number(rArgs.getLength()),
*o3tl::doAccess<Reference<XInterface>>(rObj), 1 );
}
Any * pCppArgs = rArgs.getArray();
typelib_MethodParameter * pParams = getMethodTypeDescr()->pParams;
typelib_TypeDescription * pReturnType = nullptr;
TYPELIB_DANGER_GET(
&pReturnType, getMethodTypeDescr()->pReturnTypeRef );
// C/C++ ABIs typically assume that structs are padded at the end, and
// that those padding bytes may be written to (e.g., to write into the
// end of a "short" struct by writing the full contents of a "long"
// register); so create enough space here (assuming that no ABI requires
// padding larger than 16 byte boundaries):
void * pUnoReturn = (pReturnType->nSize == 0) ? nullptr : alloca( multipleOf16(pReturnType->nSize) );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
void ** ppUnoArgs = static_cast<void **>(alloca( sizeof(void *) * nParams *2 ));<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
typelib_TypeDescription ** ppParamTypes = reinterpret_cast<typelib_TypeDescription **>(ppUnoArgs + nParams);
// convert arguments
for ( sal_Int32 nPos = 0; nPos < nParams; ++nPos )
{
ppParamTypes[nPos] = nullptr;
TYPELIB_DANGER_GET( ppParamTypes + nPos, pParams[nPos].pTypeRef );
typelib_TypeDescription * pTD = ppParamTypes[nPos];
ppUnoArgs[nPos] = alloca( pTD->nSize );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
if (pParams[nPos].bIn)
{
bool bAssign;
if (typelib_typedescriptionreference_equals(
pCppArgs[nPos].getValueTypeRef(), pTD->pWeakRef ))
{
uno_type_copyAndConvertData(
ppUnoArgs[nPos], const_cast<void *>(pCppArgs[nPos].getValue()),
pCppArgs[nPos].getValueTypeRef(), getReflection()->getCpp2Uno().get() );
bAssign = true;
}
else if (pTD->eTypeClass == typelib_TypeClass_ANY)
{
uno_type_any_constructAndConvert(
static_cast<uno_Any *>(ppUnoArgs[nPos]), const_cast<void *>(pCppArgs[nPos].getValue()),
pCppArgs[nPos].getValueTypeRef(), getReflection()->getCpp2Uno().get() );
bAssign = true;
}
else if (pTD->eTypeClass == typelib_TypeClass_INTERFACE)
{
Reference< XInterface > xDest;
bAssign = extract(
pCppArgs[nPos], reinterpret_cast<typelib_InterfaceTypeDescription *>(pTD),
xDest, getReflection() );
if (bAssign)
{
*static_cast<void **>(ppUnoArgs[nPos]) = getReflection()->getCpp2Uno().mapInterface(
xDest.get(), reinterpret_cast<typelib_InterfaceTypeDescription *>(pTD) );
}
}
else
{
typelib_TypeDescription * pValueTD = nullptr;
TYPELIB_DANGER_GET( &pValueTD, pCppArgs[nPos].getValueTypeRef() );
// construct temp uno val to do proper assignment: todo opt
void * pTemp = alloca( pValueTD->nSize );<--- Obsolete function 'alloca' called. [+]The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons (http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).
uno_copyAndConvertData(
pTemp, const_cast<void *>(pCppArgs[nPos].getValue()), pValueTD,
getReflection()->getCpp2Uno().get() );
uno_constructData(
ppUnoArgs[nPos], pTD );
// assignment does simple conversion
bAssign = uno_assignData(
ppUnoArgs[nPos], pTD, pTemp, pValueTD, nullptr, nullptr, nullptr );
uno_destructData(
pTemp, pValueTD, nullptr );
TYPELIB_DANGER_RELEASE( pValueTD );
}
if (! bAssign)
{
IllegalArgumentException aExc(
"cannot coerce argument type during corereflection call:"
"\narg no.: " + OUString::number(nPos)
+ " expected: \"" + OUString::unacquired(&pTD->pTypeName)
+ "\" actual: \"" + OUString::unacquired(&pCppArgs[nPos].getValueTypeRef()->pTypeName)
+ "\"",
*o3tl::doAccess<Reference<XInterface>>(rObj), static_cast<sal_Int16>(nPos) );
// cleanup
while (nPos--)
{
if (pParams[nPos].bIn)
uno_destructData( ppUnoArgs[nPos], ppParamTypes[nPos], nullptr );
TYPELIB_DANGER_RELEASE( ppParamTypes[nPos] );
}
TYPELIB_DANGER_RELEASE( pReturnType );
(*pUnoI->release)( pUnoI );
throw aExc;
}
}
}
uno_Any aUnoExc;
uno_Any * pUnoExc = &aUnoExc;
(*pUnoI->pDispatcher)(
pUnoI, getTypeDescr(), pUnoReturn, ppUnoArgs, &pUnoExc );
(*pUnoI->release)( pUnoI );
Any aRet;
if (pUnoExc)
{
// cleanup
while (nParams--)
{
if (pParams[nParams].bIn)
uno_destructData( ppUnoArgs[nParams], ppParamTypes[nParams], nullptr );
TYPELIB_DANGER_RELEASE( ppParamTypes[nParams] );
}
TYPELIB_DANGER_RELEASE( pReturnType );
InvocationTargetException aExc;
aExc.Context = *o3tl::doAccess<Reference<XInterface>>(rObj);
aExc.Message = "exception occurred during invocation!";
uno_any_destruct(
&aExc.TargetException,
reinterpret_cast< uno_ReleaseFunc >(cpp_release) );
uno_type_copyAndConvertData(
&aExc.TargetException, pUnoExc, cppu::UnoType<Any>::get().getTypeLibType(),
getReflection()->getUno2Cpp().get() );
uno_any_destruct( pUnoExc, nullptr );
throw aExc;
}
else
{
// reconvert arguments and cleanup
while (nParams--)
{
if (pParams[nParams].bOut) // write back
{
uno_any_destruct(
&pCppArgs[nParams],
reinterpret_cast< uno_ReleaseFunc >(cpp_release) );
uno_any_constructAndConvert(
&pCppArgs[nParams], ppUnoArgs[nParams], ppParamTypes[nParams],
getReflection()->getUno2Cpp().get() );
}
uno_destructData( ppUnoArgs[nParams], ppParamTypes[nParams], nullptr );
TYPELIB_DANGER_RELEASE( ppParamTypes[nParams] );
}
uno_any_destruct(
&aRet, reinterpret_cast< uno_ReleaseFunc >(cpp_release) );
uno_any_constructAndConvert(
&aRet, pUnoReturn, pReturnType,
getReflection()->getUno2Cpp().get() );
uno_destructData( pUnoReturn, pReturnType, nullptr );
TYPELIB_DANGER_RELEASE( pReturnType );
}
return aRet;
}
throw IllegalArgumentException(
"illegal destination object given!",
static_cast<XWeak *>(static_cast<OWeakObject *>(this)), 0 );
}
InterfaceIdlClassImpl::~InterfaceIdlClassImpl()
{
for ( sal_Int32 nPos = _nMethods + _nAttributes; nPos--; )
typelib_typedescription_release( _pSortedMemberInit[nPos].second );
}
Sequence< Reference< XIdlClass > > InterfaceIdlClassImpl::getSuperclasses()
{
::osl::MutexGuard aGuard(getMutexAccess());
if (!_xSuperClasses.hasElements()) {
typelib_InterfaceTypeDescription * pType = getTypeDescr();
_xSuperClasses.realloc(pType->nBaseTypes);
for (sal_Int32 i = 0; i < pType->nBaseTypes; ++i) {
_xSuperClasses[i] = getReflection()->forType(
&pType->ppBaseTypes[i]->aBase);
OSL_ASSERT(_xSuperClasses[i].is());
}
}
return _xSuperClasses;
}
void InterfaceIdlClassImpl::initMembers()
{
sal_Int32 nAll = getTypeDescr()->nAllMembers;
std::unique_ptr<MemberInit[]> pSortedMemberInit(new MemberInit[nAll]);
typelib_TypeDescriptionReference ** ppAllMembers = getTypeDescr()->ppAllMembers;
for ( sal_Int32 nPos = 0; nPos < nAll; ++nPos )
{
sal_Int32 nIndex;
if (ppAllMembers[nPos]->eTypeClass == typelib_TypeClass_INTERFACE_METHOD)
{
// methods to front
nIndex = _nMethods;
++_nMethods;
}
else
{
++_nAttributes;
nIndex = (nAll - _nAttributes);
// attributes at the back
}
typelib_TypeDescription * pTD = nullptr;
typelib_typedescriptionreference_getDescription( &pTD, ppAllMembers[nPos] );
assert(pTD && "### cannot get type description!");
pSortedMemberInit[nIndex].first = reinterpret_cast<typelib_InterfaceMemberTypeDescription *>(pTD)->pMemberName;
pSortedMemberInit[nIndex].second = pTD;
}
_pSortedMemberInit = std::move(pSortedMemberInit);
}
sal_Bool InterfaceIdlClassImpl::isAssignableFrom( const Reference< XIdlClass > & xType )
{
if (xType.is() && xType->getTypeClass() == TypeClass_INTERFACE)
{
if (equals( xType ))
return true;
else
{
const Sequence< Reference< XIdlClass > > & rSeq = xType->getSuperclasses();
if (std::any_of(rSeq.begin(), rSeq.end(),
[this](const Reference<XIdlClass>& rType){ return isAssignableFrom(rType); }))
return true;
}
}
return false;
}
Uik InterfaceIdlClassImpl::getUik()
{
return Uik(0, 0, 0, 0, 0);
// Uiks are deprecated and this function must not be called
}
Sequence< Reference< XIdlMethod > > InterfaceIdlClassImpl::getMethods()
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pSortedMemberInit)
initMembers();
// create methods sequence
Sequence< Reference< XIdlMethod > > aRet( _nMethods );
Reference< XIdlMethod > * pRet = aRet.getArray();
for ( sal_Int32 nPos = _nMethods; nPos--; )
{
/*_aName2Method[_pSortedMemberInit[nPos].first] = */pRet[nPos] = new IdlInterfaceMethodImpl(
getReflection(), _pSortedMemberInit[nPos].first,
_pSortedMemberInit[nPos].second, IdlClassImpl::getTypeDescr() );
}
return aRet;
}
Sequence< Reference< XIdlField > > InterfaceIdlClassImpl::getFields()
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pSortedMemberInit)
initMembers();
// create fields sequence
Sequence< Reference< XIdlField > > aRet( _nAttributes );
Reference< XIdlField > * pRet = aRet.getArray();
for ( sal_Int32 nPos = _nAttributes; nPos--; )
{
/*_aName2Field[_pSortedMemberInit[_nMethods+nPos].first] = */pRet[_nAttributes-nPos-1] =
new IdlAttributeFieldImpl(
getReflection(), _pSortedMemberInit[_nMethods+nPos].first,
_pSortedMemberInit[_nMethods+nPos].second, IdlClassImpl::getTypeDescr() );
}
return aRet;
}
Reference< XIdlMethod > InterfaceIdlClassImpl::getMethod( const OUString & rName )
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pSortedMemberInit)
initMembers();
Reference< XIdlMethod > xRet;
// try weak map
const OUString2Method::const_iterator iFind( _aName2Method.find( rName ) );
if (iFind != _aName2Method.end())
xRet = (*iFind).second; // harden ref
if (! xRet.is())
{
for ( sal_Int32 nPos = _nMethods; nPos--; )
{
if (_pSortedMemberInit[nPos].first == rName)
{
_aName2Method[rName] = xRet = new IdlInterfaceMethodImpl(
getReflection(), rName,
_pSortedMemberInit[nPos].second, IdlClassImpl::getTypeDescr() );
break;
}
}
}
return xRet;
}
Reference< XIdlField > InterfaceIdlClassImpl::getField( const OUString & rName )
{
::osl::MutexGuard aGuard( getMutexAccess() );
if (! _pSortedMemberInit)
initMembers();
Reference< XIdlField > xRet;
// try weak map
const OUString2Field::const_iterator iFind( _aName2Field.find( rName ) );
if (iFind != _aName2Field.end())
xRet = (*iFind).second; // harden ref
if (! xRet.is())
{
for ( sal_Int32 nPos = _nAttributes; nPos--; )
{
if (_pSortedMemberInit[_nMethods+nPos].first == rName)
{
_aName2Field[rName] = xRet = new IdlAttributeFieldImpl(
getReflection(), rName,
_pSortedMemberInit[_nMethods+nPos].second, IdlClassImpl::getTypeDescr() );
break;
}
}
}
return xRet;
}
void InterfaceIdlClassImpl::createObject( Any & rObj )
{
// interfaces cannot be constructed
rObj.clear();
}
}
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