/* -*- 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 .
 */

#if !defined WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
#endif
#include "windows.h"
#include <ole2.h>

#include <memory>

#include "rtl/ustring.hxx"
#include "rtl/ustrbuf.hxx"
#include "uno/sequence2.h"
#include "typelib/typedescription.hxx"
#include "cli_proxy.h"
#include "cli_base.h"
#include "cli_bridge.h"

#using <cli_uretypes.dll>

#undef VOID

namespace sri = System::Runtime::InteropServices;
namespace sr = System::Reflection;
namespace st = System::Text;
namespace ucss = unoidl::com::sun::star;


namespace cli_uno
{
System::String^ mapUnoPolymorphicName(System::String^ unoName);
OUString mapCliTypeName(System::String^ typeName);
System::String^ mapCliPolymorphicName(System::String^ unoName);
System::String^ mapPolymorphicName(System::String^ unoName, bool bCliToUno);

inline std::unique_ptr< rtl_mem > seq_allocate( sal_Int32 nElements, sal_Int32 nSize )
{
    std::unique_ptr< rtl_mem > seq(
        rtl_mem::allocate( SAL_SEQUENCE_HEADER_SIZE + (nElements * nSize) ) );
    uno_Sequence * p = (uno_Sequence *)seq.get();
    p->nRefCount = 1;
    p->nElements = nElements;
    return seq;
}

System::Object^ Bridge::map_uno2cli(uno_Interface * pUnoI, typelib_InterfaceTypeDescription *pTD) const
{
    System::Object^ retVal= nullptr;
    // get oid
    rtl_uString * pOid = 0;
    (*m_uno_env->getObjectIdentifier)( m_uno_env, &pOid, pUnoI );
    OSL_ASSERT( 0 != pOid );
    OUString oid(pOid, SAL_NO_ACQUIRE);

    // see if the interface was already mapped
    System::Type^ ifaceType= mapUnoType(reinterpret_cast<typelib_TypeDescription*>(pTD));
    System::String^ sOid= mapUnoString(oid.pData);

    System::Threading::Monitor::Enter( CliEnvHolder::g_cli_env );
    try
    {
        retVal = CliEnvHolder::g_cli_env->getRegisteredInterface(sOid, ifaceType);
        if (retVal)
        {
            // There is already a registered object. It can either be a proxy
            // for the UNO object or a real cli object. In the first case we
            // tell the proxy that it shall also represent the current UNO
            // interface. If it already does that, then it does nothing
            if (srr::RemotingServices::IsTransparentProxy(retVal))
            {
                UnoInterfaceProxy^ p = static_cast<UnoInterfaceProxy^>(
                    srr::RemotingServices::GetRealProxy(retVal));
                p->addUnoInterface(pUnoI, pTD);
            }
        }
        else
        {
            retVal = UnoInterfaceProxy::create(
                (Bridge *) this, pUnoI, pTD, oid );
        }
    }
    __finally
    {
        System::Threading::Monitor::Exit( CliEnvHolder::g_cli_env );
    }

    return retVal;
}

uno_Interface* Bridge::map_cli2uno(System::Object^ cliObj, typelib_TypeDescription *pTD) const
{
    uno_Interface* retIface = NULL;
    // get oid from dot net environment
    System::String^ ds_oid = CliEnvHolder::g_cli_env->getObjectIdentifier( cliObj);
    OUString ousOid = mapCliString(ds_oid);
    // look if interface is already mapped
    m_uno_env->getRegisteredInterface(m_uno_env, (void**) &retIface, ousOid.pData,
                                      (typelib_InterfaceTypeDescription*) pTD);
    if ( ! retIface)
    {
        System::Threading::Monitor::Enter(Cli_environment::typeid);
        try
        {
            m_uno_env->getRegisteredInterface(m_uno_env, (void**) &retIface, ousOid.pData,
                                               (typelib_InterfaceTypeDescription*) pTD);
            if ( ! retIface)
            {
                retIface = CliProxy::create((Bridge*)this, cliObj, pTD, ousOid);
            }
        }
        __finally
        {
            System::Threading::Monitor::Exit(Cli_environment::typeid);
        }
    }
    return retIface;
}

inline System::Type^ loadCliType(rtl_uString * unoName)
{
     return loadCliType(mapUnoTypeName(unoName));
}

System::Type^ loadCliType(System::String ^ unoName)
{
    System::Type^ retVal= nullptr;
    try
    {
        //If unoName denotes a polymorphic type, e.g com.sun.star.beans.Defaulted<System.Char>
        //then we remove the type list, otherwise the type could not be loaded.
        bool bIsPolymorphic = false;

        System::String ^ loadName = unoName;
        int index = unoName->IndexOf('<');
        if (index != -1)
        {
            loadName = unoName->Substring(0, index);
            bIsPolymorphic = true;
        }
        System::AppDomain^  currentDomain = System::AppDomain::CurrentDomain;
        cli::array<sr::Assembly^>^  assems = currentDomain->GetAssemblies();
        for (int i = 0; i < assems->Length; i++)
        {
            retVal = assems[i]->GetType(loadName, false);
            if (retVal)
                break;
        }

        if (retVal == nullptr)
        {
            System::String ^ msg = gcnew System::String("A type could not be loaded: ");
            msg = System::String::Concat(msg, loadName);
            throw BridgeRuntimeError(mapCliString(msg));
        }

        if (bIsPolymorphic)
        {
            retVal = uno::PolymorphicType::GetType(retVal, unoName);
        }
    }
    catch( System::Exception ^ e)
    {
        OUString ouMessage(mapCliString(e->Message));
        throw BridgeRuntimeError(ouMessage);
    }
    return retVal;
}

System::Type^ mapUnoType(typelib_TypeDescription const * pTD)
{
    return mapUnoType(pTD->pWeakRef);
}

System::Type^ mapUnoType(typelib_TypeDescriptionReference const * pTD)
{
    System::Type ^ retVal = nullptr;
    switch (pTD->eTypeClass)
    {
    case typelib_TypeClass_VOID:
        retVal= void::typeid; break;
    case typelib_TypeClass_CHAR:
        retVal= System::Char::typeid; break;
    case typelib_TypeClass_BOOLEAN:
        retVal= System::Boolean::typeid; break;
    case typelib_TypeClass_BYTE:
        retVal= System::Byte::typeid; break;
    case typelib_TypeClass_SHORT:
        retVal= System::Int16::typeid; break;
    case typelib_TypeClass_UNSIGNED_SHORT:
        retVal= System::UInt16::typeid; break;
    case typelib_TypeClass_LONG:
        retVal= System::Int32::typeid; break;
    case typelib_TypeClass_UNSIGNED_LONG:
        retVal= System::UInt32::typeid; break;
    case typelib_TypeClass_HYPER:
        retVal= System::Int64::typeid; break;
    case typelib_TypeClass_UNSIGNED_HYPER:
        retVal= System::UInt64::typeid; break;
    case typelib_TypeClass_FLOAT:
        retVal= System::Single::typeid; break;
    case typelib_TypeClass_DOUBLE:
        retVal= System::Double::typeid; break;
    case typelib_TypeClass_STRING:
        retVal= System::String::typeid; break;
    case typelib_TypeClass_TYPE:
        retVal= System::Type::typeid; break;
    case typelib_TypeClass_ANY:
        retVal= uno::Any::typeid; break;
    case typelib_TypeClass_ENUM:
    case typelib_TypeClass_STRUCT:
    case typelib_TypeClass_EXCEPTION:
        retVal= loadCliType(pTD->pTypeName); break;
    case typelib_TypeClass_INTERFACE:
    {
        //special handling for XInterface, since it does not exist in cli.
        OUString usXInterface("com.sun.star.uno.XInterface");
        if (usXInterface.equals(pTD->pTypeName))
            retVal= System::Object::typeid;
        else
            retVal= loadCliType(pTD->pTypeName);
        break;
    }
    case typelib_TypeClass_SEQUENCE:
    {
        css::uno::TypeDescription seqType(
            const_cast<typelib_TypeDescriptionReference*>(pTD));
        typelib_TypeDescriptionReference* pElementTDRef=
            reinterpret_cast<typelib_IndirectTypeDescription*>(seqType.get())->pType;
        switch (pElementTDRef->eTypeClass)
        {
        case typelib_TypeClass_CHAR:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArChar)); break;
        case typelib_TypeClass_BOOLEAN:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArBoolean));
            break;
        case typelib_TypeClass_BYTE:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArByte));
            break;
        case typelib_TypeClass_SHORT:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArInt16));
            break;
        case typelib_TypeClass_UNSIGNED_SHORT:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArUInt16));
            break;
        case typelib_TypeClass_LONG:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArInt32));
            break;
        case typelib_TypeClass_UNSIGNED_LONG:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArUInt32));
            break;
        case typelib_TypeClass_HYPER:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArInt64));
            break;
        case typelib_TypeClass_UNSIGNED_HYPER:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArUInt64));
            break;
        case typelib_TypeClass_FLOAT:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArSingle));
            break;
        case typelib_TypeClass_DOUBLE:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArDouble));
            break;
        case typelib_TypeClass_STRING:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArString));
            break;
        case typelib_TypeClass_TYPE:
            retVal= System::Type::GetType(const_cast<System::String^>(Constants::sArType));
            break;
        case typelib_TypeClass_ANY:
        case typelib_TypeClass_ENUM:
        case typelib_TypeClass_EXCEPTION:
        case typelib_TypeClass_STRUCT:
        case typelib_TypeClass_INTERFACE:
        case typelib_TypeClass_SEQUENCE:
        {
            retVal= loadCliType(pTD->pTypeName);
            break;
        }
        default:
            //All cases should be handled by the case statements above
            OSL_ASSERT(0);
            break;
        }
        break;
    }
    default:
        OSL_ASSERT(false);
        break;
    }
    return retVal;
}

/** Returns an acquired td.
 */
typelib_TypeDescriptionReference* mapCliType(System::Type^ cliType)
{
    typelib_TypeDescriptionReference* retVal= NULL;
    if (cliType == nullptr)
    {
        retVal = * typelib_static_type_getByTypeClass(
            typelib_TypeClass_VOID );
        typelib_typedescriptionreference_acquire( retVal );
        return retVal;
    }
    //check for Enum first,
    //because otherwise case System::TypeCode::Int32 applies
    if (cliType->IsEnum)
    {
        OUString usTypeName= mapCliTypeName(cliType->FullName);
        css::uno::Type unoType(css::uno::TypeClass_ENUM, usTypeName);
        retVal= unoType.getTypeLibType();
        typelib_typedescriptionreference_acquire(retVal);
    }
    else
    {
        switch (System::Type::GetTypeCode(cliType))
        {
        case System::TypeCode::Boolean:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_BOOLEAN );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Char:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_CHAR );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Byte:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_BYTE );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Int16:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_SHORT );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Int32:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_LONG );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Int64:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_HYPER );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::UInt16:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_UNSIGNED_SHORT );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::UInt32:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_UNSIGNED_LONG );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::UInt64:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_UNSIGNED_HYPER );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Single:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_FLOAT );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::Double:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_DOUBLE );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        case System::TypeCode::String:
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_STRING );
            typelib_typedescriptionreference_acquire( retVal );
            break;
        default:
            break;
        }
    }
    if (retVal == NULL)
    {
        System::String^ cliTypeName= cliType->FullName;
        // Void
        if (const_cast<System::String^>(Constants::sVoid)->Equals(
                cliTypeName))
        {
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_VOID );
            typelib_typedescriptionreference_acquire( retVal );
        }
        // Type
        else if (const_cast<System::String^>(Constants::sType)->Equals(
                     cliTypeName))
        {
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_TYPE );
            typelib_typedescriptionreference_acquire( retVal );
        }
        // Any
        else if (const_cast<System::String^>(Constants::sAny)->Equals(
                     cliTypeName))
        {
            retVal = * typelib_static_type_getByTypeClass(
                typelib_TypeClass_ANY );
            typelib_typedescriptionreference_acquire( retVal );
        }
        //struct, interfaces, sequences
        else
        {
            OUString usTypeName;
            uno::PolymorphicType ^ poly = dynamic_cast<uno::PolymorphicType^>(cliType);
            if (poly != nullptr)
                usTypeName = mapCliTypeName( poly->PolymorphicName);
            else
                usTypeName = mapCliTypeName(cliTypeName);
            typelib_TypeDescription* td = NULL;
            typelib_typedescription_getByName(&td, usTypeName.pData);
            if (td)
            {
                retVal = td->pWeakRef;
                typelib_typedescriptionreference_acquire(retVal);
                typelib_typedescription_release(td);
            }
        }
    }
    if (retVal == NULL)
    {
        throw BridgeRuntimeError("[cli_uno bridge] mapCliType():could not map type: " + mapCliString(cliType->FullName));
    }
    return retVal;
}

/**
    Otherwise a leading "unoidl." is removed.
 */
System::String^ mapUnoTypeName(rtl_uString const * typeName)
{
    OUString usUnoName( const_cast< rtl_uString * >( typeName ) );
    st::StringBuilder^ buf= gcnew st::StringBuilder();
    //determine if the type is a sequence and its dimensions
    int dims= 0;
    if (usUnoName[0] == '[')
    {
        sal_Int32 index= 1;
        while (true)
        {
            if (usUnoName[index++] == ']')
                dims++;
            if (usUnoName[index++] != '[')
                break;
        }
        usUnoName = usUnoName.copy(index - 1);
    }
    System::String ^ sUnoName = mapUnoString(usUnoName.pData);
    if (sUnoName->Equals(const_cast<System::String^>(Constants::usBool)))
        buf->Append(const_cast<System::String^>(Constants::sBoolean));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usChar)))
        buf->Append(const_cast<System::String^>(Constants::sChar));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usByte)))
        buf->Append(const_cast<System::String^>(Constants::sByte));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usShort)))
        buf->Append(const_cast<System::String^>(Constants::sInt16));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usUShort)))
        buf->Append(const_cast<System::String^>(Constants::sUInt16));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usLong)))
        buf->Append(const_cast<System::String^>(Constants::sInt32));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usULong)))
        buf->Append(const_cast<System::String^>(Constants::sUInt32));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usHyper)))
        buf->Append(const_cast<System::String^>(Constants::sInt64));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usUHyper)))
        buf->Append(const_cast<System::String^>(Constants::sUInt64));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usFloat)))
        buf->Append(const_cast<System::String^>(Constants::sSingle));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usDouble)))
        buf->Append(const_cast<System::String^>(Constants::sDouble));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usString)))
        buf->Append(const_cast<System::String^>(Constants::sString));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usVoid)))
        buf->Append(const_cast<System::String^>(Constants::sVoid));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usType)))
        buf->Append(const_cast<System::String^>(Constants::sType));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usXInterface)))
        buf->Append(const_cast<System::String^>(Constants::sObject));
    else if (sUnoName->Equals(const_cast<System::String^>(Constants::usAny)))
    {
        buf->Append(const_cast<System::String^>(Constants::sAny));
    }
    else
    {
        //put "unoidl." at the beginning
        buf->Append(const_cast<System::String^>(Constants::sUnoidl));
        //for polymorphic struct types remove the brackets, e.g mystruct<bool> -> mystruct
        System::String ^ sName = mapUnoPolymorphicName(sUnoName);
        buf->Append(sName);
    }
    // append []
    for (;dims--;)
        buf->Append(const_cast<System::String^>(Constants::sBrackets));

    return buf->ToString();
}

/** For example, there is a uno type
    com.sun.star.Foo<char, long>.
    The values in the type list
    are uno types and are replaced by cli types, such as System.Char,
    System.Int32, etc.
    The prefix unoidl is not added.
 */
inline System::String^ mapUnoPolymorphicName(System::String^ unoName)
{
       return mapPolymorphicName(unoName, false);
}

/** For example, there is a type name such as
    com.sun.star.Foo<System.Char, System.Int32>.
    The values in the type list
    are CLI types and are replaced by uno types, such as char,
    long, etc.
    The prefix unoidl remains.
 */
inline System::String^ mapCliPolymorphicName(System::String^ unoName)
{
    return mapPolymorphicName(unoName, true);
}

System::String^ mapPolymorphicName(System::String^ unoName, bool bCliToUno)
{
    int index = unoName->IndexOf('<');
    if (index == -1)
        return unoName;

    System::Text::StringBuilder ^ builder = gcnew System::Text::StringBuilder(256);
    builder->Append(unoName->Substring(0, index +1 ));

    //Find the first occurrence of ','
    //If the parameter is a polymorphic struct then we need to ignore everything
    //between the brackets because it can also contain commas
    //get the type list within < and >
    int endIndex = unoName->Length - 1;
    index++;
    int cur = index;
    int countParams = 0;
    while (cur <= endIndex)
    {
        System::Char c = unoName[cur];
        if (c == ',' || c == '>')
        {
            //insert a comma if needed
            if (countParams != 0)
                builder->Append(",");
            countParams++;
            System::String ^ sParam = unoName->Substring(index, cur - index);
            //skip the comma
            cur++;
            //the index to the beginning of the next param
            index = cur;
            if (bCliToUno)
            {
                builder->Append(mapCliTypeName(sParam).getStr());
            }
            else
            {
                OUString s = mapCliString(sParam);
                builder->Append(mapUnoTypeName(s.pData));
            }
        }
        else if (c == '<')
        {
            cur++;
            //continue until the matching '>'
            int numNested = 0;
            for (;;cur++)
            {
                System::Char curChar = unoName[cur];
                if (curChar == '<')
                {
                    numNested ++;
                }
                else if (curChar == '>')
                {
                    if (numNested > 0)
                        numNested--;
                    else
                        break;
                }
            }
        }
        cur++;
    }

    builder->Append((System::Char) '>');
    return builder->ToString();
}

OUString mapCliTypeName(System::String^ typeName)
{
    int dims= 0;
    // Array? determine the "rank" (number of "[]")
    // move from the rightmost end to the left, for example
    // unoidl.PolymorphicStruct<System.Char[]>[]
    // has only a "dimension" of 1
    int cur = typeName->Length - 1;
    bool bRightBracket = false;
    while (cur >= 0)
    {
        System::Char c = typeName[cur];
        if (c == ']')
        {
            bRightBracket = true;
        }
        else if (c == '[')
        {
            if (!bRightBracket)
                throw BridgeRuntimeError(
                    "Typename is wrong. No matching brackets for sequence. Name is: " +
                    mapCliString(typeName));
            bRightBracket = false;
            dims ++;
        }
        else
        {
            if (bRightBracket)
                throw BridgeRuntimeError(
                    "Typename is wrong. No matching brackets for sequence. Name is: " +
                    mapCliString(typeName));
            break;
        }
        cur--;
    }

    if (bRightBracket || cur < 0)
        throw BridgeRuntimeError(
            "Typename is wrong. " +
            mapCliString(typeName));

    typeName = typeName->Substring(0, cur + 1);

    System::Text::StringBuilder ^ buf = gcnew System::Text::StringBuilder(512);

    //Put the "[]" at the beginning of the uno type name
    for (;dims--;)
        buf->Append(const_cast<System::String^>(Constants::usBrackets));

    if (typeName->Equals(const_cast<System::String^>(Constants::sBoolean)))
        buf->Append(const_cast<System::String^>(Constants::usBool));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sChar)))
        buf->Append(const_cast<System::String^>(Constants::usChar));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sByte)))
        buf->Append(const_cast<System::String^>(Constants::usByte));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sInt16)))
        buf->Append(const_cast<System::String^>(Constants::usShort));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sUInt16)))
        buf->Append(const_cast<System::String^>(Constants::usUShort));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sInt32)))
        buf->Append(const_cast<System::String^>(Constants::usLong));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sUInt32)))
        buf->Append(const_cast<System::String^>(Constants::usULong));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sInt64)))
        buf->Append(const_cast<System::String^>(Constants::usHyper));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sUInt64)))
        buf->Append(const_cast<System::String^>(Constants::usUHyper));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sSingle)))
        buf->Append(const_cast<System::String^>(Constants::usFloat));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sDouble)))
        buf->Append(const_cast<System::String^>(Constants::usDouble));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sString)))
        buf->Append(const_cast<System::String^>(Constants::usString));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sVoid)))
        buf->Append(const_cast<System::String^>(Constants::usVoid));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sType)))
        buf->Append(const_cast<System::String^>(Constants::usType));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sObject)))
        buf->Append(const_cast<System::String^>(Constants::usXInterface));
    else if (typeName->Equals(const_cast<System::String^>(Constants::sAny)))
        buf->Append(const_cast<System::String^>(Constants::usAny));
    else
    {
        System::String ^ sName = mapCliPolymorphicName(typeName);
        int i= sName->IndexOf(L'.');
        buf->Append(sName->Substring(i + 1));
    }
    return mapCliString(buf->ToString());
}

/** Maps uno types to dot net types.
 *  If uno_data is null then the type description is converted to System::Type
 */
inline System::String^ mapUnoString( rtl_uString const * data)
{
    OSL_ASSERT(data);
    return gcnew System::String((__wchar_t*) data->buffer, 0, data->length);
}

OUString mapCliString(System::String ^ data)
{

    if (data != nullptr)
    {
        static_assert(sizeof(wchar_t) == sizeof(sal_Unicode), "char mismatch");
        pin_ptr<wchar_t const> pdata= PtrToStringChars(data);
        return OUString(
            reinterpret_cast<sal_Unicode const *>(pdata),
            const_cast<System::String^>(data)->Length);
    }
    else
    {
        return OUString();
    }
}

// ToDo convert cli types to expected types, e.g a long to a short where the uno type
// is a sal_Int16. This could be necessary if a scripting language (typeless) is used
// @param assign the uno_data has to be destructed (in/out args)
void Bridge::map_to_uno(void * uno_data, System::Object^ cli_data,
                        typelib_TypeDescriptionReference * type,
                        bool assign) const
{
    try{
        switch (type->eTypeClass)
        {
        case typelib_TypeClass_VOID:
            break;
        case typelib_TypeClass_CHAR:
        {
            System::Char aChar= *safe_cast<System::Char^>(cli_data);
            *(sal_Unicode*) uno_data= aChar;
            break;
        }
        case typelib_TypeClass_BOOLEAN:
        {
            System::Boolean aBool= *safe_cast<System::Boolean^>(cli_data);
            *(sal_Bool*)uno_data= aBool == true ? sal_True : sal_False;
            break;
        }
        case typelib_TypeClass_BYTE:
        {
            System::Byte aByte= *safe_cast<System::Byte^>(cli_data);
            *(sal_Int8*) uno_data= aByte;
            break;
        }
        case typelib_TypeClass_SHORT:
        {
            System::Int16 aShort= *safe_cast<System::Int16^>(cli_data);
            *(sal_Int16*) uno_data= aShort;
            break;
        }
        case typelib_TypeClass_UNSIGNED_SHORT:
        {
            System::UInt16 aUShort= *safe_cast<System::UInt16^>(cli_data);
            *(sal_uInt16*) uno_data= aUShort;
            break;
        }
        case typelib_TypeClass_LONG:
        {
            System::Int32 aLong= *safe_cast<System::Int32^>(cli_data);
            *(sal_Int32*) uno_data= aLong;
            break;
        }
        case typelib_TypeClass_UNSIGNED_LONG:
        {
            System::UInt32 aULong= *safe_cast<System::UInt32^>(cli_data);
            *(sal_uInt32*) uno_data= aULong;
            break;
        }
        case typelib_TypeClass_HYPER:
        {
            System::Int64 aHyper= *safe_cast<System::Int64^>(cli_data);
            *(sal_Int64*) uno_data= aHyper;
            break;
        }
        case typelib_TypeClass_UNSIGNED_HYPER:
        {
            System::UInt64 aLong= *safe_cast<System::UInt64^>(cli_data);
            *(sal_uInt64*) uno_data= aLong;
            break;
        }
        case typelib_TypeClass_FLOAT:
        {
            System::Single aFloat= *safe_cast<System::Single^>(cli_data);
            *(float*) uno_data= aFloat;
            break;
        }
        case typelib_TypeClass_DOUBLE:
        {
            System::Double aDouble= *safe_cast<System::Double^>(cli_data);
            *(double*) uno_data= aDouble;
            break;
        }
        case typelib_TypeClass_STRING:
        {
            if (assign && *(rtl_uString**) uno_data)
                rtl_uString_release(*(rtl_uString**) uno_data);

            *(rtl_uString **)uno_data = 0;
            if (cli_data == nullptr)
            {
                 rtl_uString_new((rtl_uString**) uno_data);
            }
            else
            {
                System::String ^s= safe_cast<System::String^>(cli_data);
                pin_ptr<const wchar_t> pdata= PtrToStringChars(s);
                rtl_uString_newFromStr_WithLength(
                    reinterpret_cast<rtl_uString **>(uno_data),
                    reinterpret_cast<sal_Unicode const *>(pdata), s->Length);
            }
            break;
        }
        case typelib_TypeClass_TYPE:
        {
            typelib_TypeDescriptionReference* td= mapCliType(safe_cast<System::Type^>(
                                                                    cli_data));
            if (assign)
            {
                typelib_typedescriptionreference_release(
                    *(typelib_TypeDescriptionReference **)uno_data );
            }
            *(typelib_TypeDescriptionReference **)uno_data = td;
            break;
        }
        case typelib_TypeClass_ANY:
        {
            uno_Any * pAny = (uno_Any *)uno_data;
            if (cli_data == nullptr) // null-ref or uninitialized any maps to empty any
            {
                if (assign)
                    uno_any_destruct( pAny, 0 );
                uno_any_construct( pAny, 0, 0, 0 );
                break;
            }
            uno::Any aAny= *safe_cast<uno::Any^>(cli_data);
            css::uno::Type  value_td( mapCliType(aAny.Type), SAL_NO_ACQUIRE);

            if (assign)
                uno_any_destruct( pAny, 0 );

            try
            {
                switch (value_td.getTypeClass())
                {
                case css::uno::TypeClass_VOID:
                    pAny->pData = &pAny->pReserved;
                    break;
                case css::uno::TypeClass_CHAR:
                    pAny->pData = &pAny->pReserved;
                    *(sal_Unicode*) &pAny->pReserved = *safe_cast<System::Char^>(aAny.Value);
                    break;
                case css::uno::TypeClass_BOOLEAN:
                    pAny->pData = &pAny->pReserved;
                    *(sal_Bool *) &pAny->pReserved = *safe_cast<System::Boolean^>(aAny.Value);
                    break;
                case css::uno::TypeClass_BYTE:
                    pAny->pData = &pAny->pReserved;
                    *(sal_Int8*) &pAny->pReserved =  *safe_cast<System::Byte^>(aAny.Value);
                    break;
                case css::uno::TypeClass_SHORT:
                    pAny->pData = &pAny->pReserved;
                    *(sal_Int16*) &pAny->pReserved =  *safe_cast<System::Int16^>(aAny.Value);
                    break;
                case css::uno::TypeClass_UNSIGNED_SHORT:
                    pAny->pData = &pAny->pReserved;
                    *(sal_uInt16*) &pAny->pReserved =  *safe_cast<System::UInt16^>(aAny.Value);
                    break;
                case css::uno::TypeClass_LONG:
                    pAny->pData = &pAny->pReserved;
                    *(sal_Int32*) &pAny->pReserved =  *safe_cast<System::Int32^>(aAny.Value);
                    break;
                case css::uno::TypeClass_UNSIGNED_LONG:
                    pAny->pData = &pAny->pReserved;
                    *(sal_uInt32*) &pAny->pReserved =  *safe_cast<System::UInt32^>(aAny.Value);
                    break;
                case css::uno::TypeClass_HYPER:
                    if (sizeof (sal_Int64) <= sizeof (void *))
                    {
                        pAny->pData = &pAny->pReserved;
                        *(sal_Int64*) &pAny->pReserved = *safe_cast<System::Int64^>(aAny.Value);
                    }
                    else
                    {
                        std::unique_ptr< rtl_mem > mem( rtl_mem::allocate( sizeof (sal_Int64) ) );
                        *(sal_Int64 *) mem.get()=  *safe_cast<System::Int64^>(aAny.Value);
                        pAny->pData = mem.release();
                    }
                    break;
                case css::uno::TypeClass_UNSIGNED_HYPER:
                    if (sizeof (sal_uInt64) <= sizeof (void *))
                    {
                        pAny->pData = &pAny->pReserved;
                        *(sal_uInt64*) &pAny->pReserved = *safe_cast<System::UInt64^>(aAny.Value);
                    }
                    else
                    {
                        std::unique_ptr< rtl_mem > mem( rtl_mem::allocate( sizeof (sal_uInt64) ) );
                        *(sal_uInt64 *) mem.get()=  *safe_cast<System::UInt64^>(aAny.Value);
                        pAny->pData = mem.release();
                    }
                    break;
                case css::uno::TypeClass_FLOAT:
                    if (sizeof (float) <= sizeof (void *))
                    {
                        pAny->pData = &pAny->pReserved;
                        *(float*) &pAny->pReserved = *safe_cast<System::Single^>(aAny.Value);
                    }
                    else
                    {
                        std::unique_ptr< rtl_mem > mem( rtl_mem::allocate( sizeof (float) ) );
                        *(float*) mem.get() = *safe_cast<System::Single^>(aAny.Value);
                        pAny->pData = mem.release();
                    }
                    break;
                case css::uno::TypeClass_DOUBLE:
                    if (sizeof (double) <= sizeof (void *))
                    {
                        pAny->pData = &pAny->pReserved;
                        *(double*) &pAny->pReserved= *safe_cast<System::Double^>(aAny.Value);
                    }
                    else
                    {
                        std::unique_ptr< rtl_mem > mem( rtl_mem::allocate( sizeof (double) ) );
                        *(double*) mem.get()= *safe_cast<System::Double^>(aAny.Value);
                        pAny->pData= mem.release();
                    }
                    break;
                case css::uno::TypeClass_STRING: // anies often contain strings; copy string directly
                {
                    pAny->pData= &pAny->pReserved;
                    OUString _s = mapCliString(static_cast<System::String^>(aAny.Value));
                    pAny->pReserved= _s.pData;
                    rtl_uString_acquire(_s.pData);
                    break;
                }
                case css::uno::TypeClass_TYPE:
                case css::uno::TypeClass_ENUM:  //ToDo copy enum direct
                case css::uno::TypeClass_SEQUENCE:
                case css::uno::TypeClass_INTERFACE:
                    pAny->pData = &pAny->pReserved;
                    pAny->pReserved = 0;
                    map_to_uno(
                        &pAny->pReserved, aAny.Value, value_td.getTypeLibType(),
                                                  false /* no assign */);
                    break;
                case css::uno::TypeClass_STRUCT:
                case css::uno::TypeClass_EXCEPTION:
                {
                    css::uno::Type anyType(value_td);
                    typelib_TypeDescription* td= NULL;
                    anyType.getDescription(&td);
                    std::unique_ptr< rtl_mem > mem(rtl_mem::allocate(td->nSize));
                    typelib_typedescription_release(td);
                    map_to_uno(
                        mem.get(), aAny.Value, value_td.getTypeLibType(),
                        false /* no assign */);
                    pAny->pData = mem.release();
                    break;
                }
                default:
                {
                    throw BridgeRuntimeError("[map_to_uno():" + value_td.getTypeName() + "] unsupported value type of any!");
                }
                }
            }
            catch(System::InvalidCastException^ )
            {
// ToDo check this
                if (assign)
                    uno_any_construct( pAny, 0, 0, 0 ); // restore some valid any
                OUString str = "[map_to_uno():Any" + value_td.getTypeName() + "]The Any type " + value_td.getTypeName() + " does not correspond to its value type: ";
                if(aAny.Value != nullptr)
                {
                    css::uno::Type td(mapCliType(aAny.Value->GetType()), SAL_NO_ACQUIRE);
                    str += td.getTypeName();
                }
                if (assign)
                    uno_any_construct( pAny, 0, 0, 0 ); // restore some valid any
                throw BridgeRuntimeError(str);
            }
            catch (BridgeRuntimeError& )
            {
                if (assign)
                    uno_any_construct( pAny, 0, 0, 0 ); // restore some valid any
                throw;
            }
            catch (...)
            {
                if (assign)
                    uno_any_construct( pAny, 0, 0, 0 ); // restore some valid any
                throw;
            }

            pAny->pType = value_td.getTypeLibType();
            typelib_typedescriptionreference_acquire(pAny->pType);
            break;
        }
        case typelib_TypeClass_ENUM:
        {
            // InvalidCastException is caught at the end of this method
            System::Int32 aEnum= System::Convert::ToInt32((cli_data));
            *(sal_Int32*) uno_data = aEnum;
            break;
        }
        case typelib_TypeClass_STRUCT:
        case typelib_TypeClass_EXCEPTION:
        {
            css::uno::TypeDescription td(type);
            typelib_CompoundTypeDescription * comp_td =
                (typelib_CompoundTypeDescription*) td.get();

            typelib_StructTypeDescription * struct_td = NULL;
            if (type->eTypeClass == typelib_TypeClass_STRUCT)
                struct_td = (typelib_StructTypeDescription*) td.get();

            if ( ! ((typelib_TypeDescription*) comp_td)->bComplete)
                ::typelib_typedescription_complete(
                    (typelib_TypeDescription**) & comp_td );

            sal_Int32 nMembers = comp_td->nMembers;
            boolean bException= false;
            System::Type^ cliType = nullptr;
            if (cli_data)
                cliType = cli_data->GetType();

            if (0 != comp_td->pBaseTypeDescription)
            {
                map_to_uno(
                    uno_data, cli_data,
                    ((typelib_TypeDescription *)comp_td->pBaseTypeDescription)->pWeakRef,
                    assign);
            }
            sal_Int32 nPos = 0;
            try
            {
                OUString usUnoException("com.sun.star.uno.Exception");
                for (; nPos < nMembers; ++nPos)
                {
                    typelib_TypeDescriptionReference * member_type= comp_td->ppTypeRefs[nPos];
                    System::Object^ val= nullptr;
                    if (cli_data != nullptr)
                    {
                        sr::FieldInfo^ aField= cliType->GetField(
                            mapUnoString(comp_td->ppMemberNames[nPos]));
                        // special case for Exception.Message property
                        // The com.sun.star.uno.Exception.Message field is mapped to the
                        // System.Exception property. Type.GetField("Message") returns null
                        if ( ! aField && usUnoException.equals(td.get()->pTypeName))
                        {// get Exception.Message property
                            OUString usMessageMember("Message");
                            if (usMessageMember.equals(comp_td->ppMemberNames[nPos]))
                            {
                                sr::PropertyInfo^ pi= cliType->GetProperty(
                                    mapUnoString(comp_td->ppMemberNames[nPos]));
                                val= pi->GetValue(cli_data, nullptr);
                            }
                            else
                            {
                                throw BridgeRuntimeError("[map_to_uno(): Member: " + OUString::unacquired(&comp_td->ppMemberNames[nPos]));
                            }
                        }
                        else
                        {
                            val= aField->GetValue(cli_data);
                        }
                    }
                    void * p = (char *) uno_data + comp_td->pMemberOffsets[ nPos ];
                    //When using polymorphic structs then the parameterized members can be null.
                    //Then we set a default value.
                    bool bDefault = (struct_td != NULL
                                     && struct_td->pParameterizedTypes != NULL
                                     && struct_td->pParameterizedTypes[nPos] == sal_True
                                     && val == nullptr)
                                    || cli_data == nullptr;
                    switch (member_type->eTypeClass)
                    {
                    case typelib_TypeClass_CHAR:
                        if (bDefault)
                            *(sal_Unicode*) p = 0;
                        else
                            *(sal_Unicode*) p = *safe_cast<System::Char^>(val);
                        break;
                    case typelib_TypeClass_BOOLEAN:
                        if (bDefault)
                            *(sal_Bool*) p = sal_False;
                        else
                            *(sal_Bool*) p = *safe_cast<System::Boolean^>(val);
                        break;
                    case typelib_TypeClass_BYTE:
                        if (bDefault)
                            *(sal_Int8*) p = 0;
                        else
                            *(sal_Int8*) p = *safe_cast<System::Byte^>(val);
                        break;
                    case typelib_TypeClass_SHORT:
                        if (bDefault)
                            *(sal_Int16*) p = 0;
                        else
                            *(sal_Int16*) p = *safe_cast<System::Int16^>(val);
                        break;
                    case typelib_TypeClass_UNSIGNED_SHORT:
                        if (bDefault)
                            *(sal_uInt16*) p = 0;
                        else
                            *(sal_uInt16*) p = *safe_cast<System::UInt16^>(val);
                        break;
                    case typelib_TypeClass_LONG:
                        if (bDefault)
                            *(sal_Int32*) p = 0;
                        else
                            *(sal_Int32*) p = *safe_cast<System::Int32^>(val);
                        break;
                    case typelib_TypeClass_UNSIGNED_LONG:
                        if (bDefault)
                            *(sal_uInt32*) p = 0;
                        else
                            *(sal_uInt32*) p = *safe_cast<System::UInt32^>(val);
                        break;
                    case typelib_TypeClass_HYPER:
                        if (bDefault)
                            *(sal_Int64*) p = 0;
                        else
                            *(sal_Int64*) p = *safe_cast<System::Int64^>(val);
                        break;
                    case typelib_TypeClass_UNSIGNED_HYPER:
                        if (bDefault)
                            *(sal_uInt64*) p = 0;
                        else
                            *(sal_uInt64*) p= *safe_cast<System::UInt64^>(val);
                        break;
                    case typelib_TypeClass_FLOAT:
                        if (bDefault)
                            *(float*) p = 0.;
                        else
                            *(float*) p = *safe_cast<System::Single^>(val);
                        break;
                    case typelib_TypeClass_DOUBLE:
                        if (bDefault)
                            *(double*) p = 0.;
                        else
                            *(double*) p = *safe_cast<System::Double^>(val);
                        break;
                    default:
                    {   // ToDo enum, should be converted here
                         map_to_uno(p, val, member_type, assign);
                        break;
                    }
                    }
                }
            }
            catch (BridgeRuntimeError& e)
            {
                bException= true;
                OUString str = "[map_to_uno():";
                if (cliType)
                {
                    str += mapCliString(cliType->FullName) + "." + OUString::unacquired(&comp_td->ppMemberNames[nPos]) + " ";
                }
                str += e.m_message;
                throw BridgeRuntimeError(str);
            }
            catch (System::InvalidCastException^ )
            {
                bException= true;
                OUString str = "[map_to_uno():";
                if (cliType)
                {
                    str += mapCliString(cliType->FullName) + "." + OUString::unacquired(&comp_td->ppMemberNames[nPos]);
                }
                str += "] Value has not the required type.";
                throw BridgeRuntimeError(str);
            }
            catch (...)
            {
                OSL_ASSERT(0);
                bException= true;
                throw;
            }
            __finally
            {
                if (bException && !assign) // if assign then caller cleans up
                {
                    // cleanup the members which we have converted so far
                    for ( sal_Int32 nCleanup = 0; nCleanup < nPos; ++nCleanup )
                    {
                        uno_type_destructData(
                            uno_data, comp_td->ppTypeRefs[ nCleanup ], 0 );
                    }
                    if (0 != comp_td->pBaseTypeDescription)
                    {
                        uno_destructData(
                            uno_data, (typelib_TypeDescription *)comp_td->pBaseTypeDescription, 0 );
                    }
                }
            }
            break;
        }
        case typelib_TypeClass_SEQUENCE:
        {
            TypeDescr td( type );
            typelib_TypeDescriptionReference * element_type =
                ((typelib_IndirectTypeDescription *)td.get())->pType;

            std::unique_ptr< rtl_mem > seq;

            System::Array^ ar = nullptr;
            if (cli_data != nullptr)
            {
                ar = safe_cast<System::Array^>(cli_data);
                sal_Int32 nElements = ar->GetLength(0);

                try
                {
                    switch (element_type->eTypeClass)
                    {
                    case typelib_TypeClass_CHAR:
                        seq = seq_allocate(nElements, sizeof (sal_Unicode));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Char>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_BOOLEAN:
                        seq = seq_allocate(nElements, sizeof (sal_Bool));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Char>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_BYTE:
                        seq = seq_allocate( nElements, sizeof (sal_Int8) );
                        sri::Marshal::Copy(safe_cast<cli::array<System::Byte>^>(cli_data), 0,
                                       IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                    break;
                    case typelib_TypeClass_SHORT:
                        seq = seq_allocate(nElements, sizeof (sal_Int16));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Int16>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_UNSIGNED_SHORT:
                        seq = seq_allocate( nElements, sizeof (sal_uInt16) );
                        sri::Marshal::Copy(dynamic_cast<cli::array<System::Int16>^>(
                                           safe_cast<cli::array<System::UInt16>^>(cli_data)), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_LONG:
                        seq = seq_allocate(nElements, sizeof (sal_Int32));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Int32>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_UNSIGNED_LONG:
                        seq = seq_allocate( nElements, sizeof (sal_uInt32) );
                        sri::Marshal::Copy(dynamic_cast<cli::array<System::Int32>^>(
                                           safe_cast<cli::array<System::UInt32>^>(cli_data)), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_HYPER:
                        seq = seq_allocate(nElements, sizeof (sal_Int64));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Int64>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_UNSIGNED_HYPER:
                        seq = seq_allocate(nElements, sizeof (sal_uInt64));
                        sri::Marshal::Copy(dynamic_cast<cli::array<System::Int64>^>(
                                           safe_cast<cli::array<System::UInt64>^>(cli_data)), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_FLOAT:
                        seq = seq_allocate(nElements, sizeof (float));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Single>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_DOUBLE:
                        seq = seq_allocate(nElements, sizeof (double));
                        sri::Marshal::Copy(safe_cast<cli::array<System::Double>^>(cli_data), 0,
                                           IntPtr(& ((uno_Sequence*) seq.get())->elements), nElements);
                        break;
                    case typelib_TypeClass_STRING:
                    {
                        seq = seq_allocate(nElements, sizeof (rtl_uString*));
                        cli::array<System::String^>^ arStr= safe_cast<cli::array<System::String^>^>(cli_data);
                        for (int i= 0; i < nElements; i++)
                        {
                            pin_ptr<const wchar_t> pdata= PtrToStringChars(arStr[i]);
                            rtl_uString** pStr=  & ((rtl_uString**) &
                                                    ((uno_Sequence*) seq.get())->elements)[i];
                            *pStr= NULL;
                            rtl_uString_newFromStr_WithLength(
                                pStr,
                                reinterpret_cast<sal_Unicode const *>(pdata),
                                arStr[i]->Length);
                        }
                        break;
                    }
                    case typelib_TypeClass_ENUM:
                        seq = seq_allocate(nElements, sizeof (sal_Int32));
                        for (int i= 0; i < nElements; i++)
                        {
                            ((sal_Int32*) &((uno_Sequence*) seq.get())->elements)[i]=
                                System::Convert::ToInt32(ar->GetValue(i));
                        }
                        break;
                    case typelib_TypeClass_TYPE:
                    case typelib_TypeClass_ANY:
                    case typelib_TypeClass_STRUCT:
                    case typelib_TypeClass_EXCEPTION:
                    case typelib_TypeClass_SEQUENCE:
                    case typelib_TypeClass_INTERFACE:
                    {
                        TypeDescr element_td( element_type );
                        seq = seq_allocate( nElements, element_td.get()->nSize );

                        for (sal_Int32 nPos = 0; nPos < nElements; ++nPos)
                        {
                            try
                            {
                                void * p= ((uno_Sequence *) seq.get())->elements +
                                    (nPos * element_td.get()->nSize);
                                System::Object^ elemData= safe_cast<System::Array^>(cli_data)->GetValue(System::Int32(nPos));
                                map_to_uno(
                                    p, elemData, element_td.get()->pWeakRef,
                                    false /* no assign */);
                            }
                            catch (...)
                            {
                                // cleanup
                                for ( sal_Int32 nCleanPos = 0; nCleanPos < nPos; ++nCleanPos )
                                {
                                    void * p =
                                        ((uno_Sequence *)seq.get())->elements +
                                        (nCleanPos * element_td.get()->nSize);
                                    uno_destructData( p, element_td.get(), 0 );
                                }
                                throw;
                            }
                        }
                        break;
                    }
                    default:
                    {
                        throw BridgeRuntimeError("[map_to_uno():" + OUString::unacquired( &type->pTypeName ) +
                            "] unsupported sequence element type: " + OUString::unacquired( &element_type->pTypeName ));
                    }
                    }
                }
                catch (BridgeRuntimeError& e)
                {
                    throw BridgeRuntimeError("[map_to_uno():" + OUString::unacquired( &type->pTypeName ) + "] conversion failed\n " + e.m_message);
                }
                catch (System::InvalidCastException^ )
                {
                    // Ok, checked
                    throw BridgeRuntimeError("[map_to_uno():" + OUString::unacquired( &type->pTypeName) +
                        "] could not convert sequence element type: " + OUString::unacquired( &element_type->pTypeName ));
                }
                catch (...)
                {
                    OSL_ASSERT(0);
                    throw;
                }
                __finally
                    {
                        if (assign)
                            uno_destructData( uno_data, td.get(), 0 );
                    }
            }
            else
            {
                seq = seq_allocate(0, sizeof (sal_Int32));
            }
            *(uno_Sequence **)uno_data = (uno_Sequence *)seq.release();
            break;
        }
        case typelib_TypeClass_INTERFACE:
        {
            if (assign)
            {
                uno_Interface * p = *(uno_Interface **)uno_data;
                if (0 != p)
                    (*p->release)( p );
            }
            if (nullptr == cli_data) // null-ref
            {
                *(uno_Interface **)uno_data = 0;
            }
            else
            {
                TypeDescr td( type );
                uno_Interface * pUnoI = map_cli2uno(cli_data, td.get());
                *(uno_Interface **)uno_data = pUnoI;
            }
            break;
        }
        default:
        {
            //ToDo check
            throw BridgeRuntimeError("[map_to_uno():" + OUString::unacquired( &type->pTypeName ) + "] unsupported type!");
        }
        }
    }
    // BridgeRuntimeError are allowed to be thrown
    catch (System::InvalidCastException^ )
    {
        //ToDo check
        throw BridgeRuntimeError("[map_to_uno():" + OUString::unacquired( &type->pTypeName ) + "] could not convert type!");
    }
    catch (System::NullReferenceException ^ e)
    {
        throw BridgeRuntimeError("[map_to_uno()] Illegal null reference passed!\n" + mapCliString(e->StackTrace));
    }
    catch (BridgeRuntimeError& )
    {
        throw;
    }
    catch (...)
    {
        OSL_ASSERT(0);
        throw;
    }
}

/**
   @param info
       The expected target type. Currently info is provided when this method is called
       to convert the in/out and out parameters of a call from cli to uno. Then info
       is always a byref type, e.g. "System.String&". info is used for Any and Enum conversion.
   @param bDontCreateObj
       false - a new object is created which holds the mapped uno value and is assigned to
       cli_data.
       true - cli_data already contains the newly constructed object. This is the case if
       a struct is converted then on the first call to map_to_cli the new object is created.
       If the struct inherits another struct then this function is called recursively while the
       newly created object is passed in cli_data.
 */
void Bridge::map_to_cli(
    System::Object^ *cli_data, void const * uno_data,
    typelib_TypeDescriptionReference * type, System::Type^ info,
    bool bDontCreateObj) const
{
    switch (type->eTypeClass)
    {
    case typelib_TypeClass_CHAR:
        *cli_data= *(__wchar_t const*)uno_data;
        break;
    case typelib_TypeClass_BOOLEAN:
        *cli_data = (*(bool const*)uno_data) == sal_True;
        break;
    case typelib_TypeClass_BYTE:
        *cli_data = *(unsigned char const*) uno_data;
        break;
    case typelib_TypeClass_SHORT:
        *cli_data= *(short const*) uno_data;
        break;
    case typelib_TypeClass_UNSIGNED_SHORT:
        *cli_data= *(unsigned short const*) uno_data;
        break;
    case typelib_TypeClass_LONG:
        *cli_data= *(int const*) uno_data;
        break;
    case typelib_TypeClass_UNSIGNED_LONG:
        *cli_data= *(unsigned int const*) uno_data;
        break;
    case typelib_TypeClass_HYPER:
        *cli_data= *(__int64 const*) uno_data;
        break;
    case typelib_TypeClass_UNSIGNED_HYPER:
        *cli_data= *(unsigned __int64 const*) uno_data;
        break;
    case typelib_TypeClass_FLOAT:
        *cli_data= *(float const*) uno_data;
        break;
    case typelib_TypeClass_DOUBLE:
        *cli_data= *(double const*) uno_data;
        break;
    case typelib_TypeClass_STRING:
    {
        rtl_uString const* sVal= NULL;
        sVal= *(rtl_uString* const*) uno_data;
        *cli_data= gcnew System::String((__wchar_t*) sVal->buffer,0, sVal->length);
        break;
    }
    case typelib_TypeClass_TYPE:
    {
         *cli_data= mapUnoType( *(typelib_TypeDescriptionReference * const *)uno_data );
         break;
    }
    case typelib_TypeClass_ANY:
    {
        uno_Any const * pAny = (uno_Any const *)uno_data;
        if (typelib_TypeClass_VOID != pAny->pType->eTypeClass)
        {
            System::Object^ objCli= nullptr;
            map_to_cli(
                &objCli, pAny->pData, pAny->pType, nullptr,
                false);

            uno::Any anyVal(mapUnoType(pAny->pType), objCli);
            *cli_data= anyVal;
        }
        else
        { // void any
            *cli_data= uno::Any::VOID;
        }
        break;
    }
    case typelib_TypeClass_ENUM:
    {
         if (info != nullptr)
         {
             OSL_ASSERT(info->IsByRef);
             info= info->GetElementType();
             *cli_data= System::Enum::ToObject(info, *(System::Int32*) uno_data);
         }
         else
             *cli_data= System::Enum::ToObject(
                 mapUnoType(type), *(System::Int32*) uno_data);
        break;
    }
    case typelib_TypeClass_STRUCT:
    case typelib_TypeClass_EXCEPTION:
    {
        TypeDescr td( type );
        typelib_CompoundTypeDescription * comp_td =
            (typelib_CompoundTypeDescription *) td.get();
        if ( ! ((typelib_TypeDescription*) comp_td)->bComplete)
                ::typelib_typedescription_complete(
                    (typelib_TypeDescription**) & comp_td );


        //create the type
        System::Type^ cliType= loadCliType(td.get()->pTypeName);
        //detect if we recursively convert inherited structures
        //If this point is reached because of a recursive call during covering a
        //struct then we must not create a new object rather we use the one in
        // cli_data argument.
        System::Object^ cliObj;
        if (bDontCreateObj)
            cliObj = *cli_data; // recursive call
        else
        {
            //Special handling for Exception conversion. We must call constructor System::Exception
            //to pass the message string
            if (ucss::uno::Exception::typeid->IsAssignableFrom(cliType))
            {
                //We need to get the Message field. Therefore we must obtain the offset from
                //the typedescription. The base interface of all exceptions is
                //com::sun::star::uno::Exception which contains the message
                typelib_CompoundTypeDescription* pCTD = comp_td;
                while (pCTD->pBaseTypeDescription)
                    pCTD = pCTD->pBaseTypeDescription;
                int nPos = -1;

                OUString usMessageMember("Message");
                for (int i = 0; i < pCTD->nMembers; i ++)
                {
                    if (usMessageMember.equals(pCTD->ppMemberNames[i]))
                    {
                        nPos = i;
                        break;
                    }
                }
                OSL_ASSERT (nPos != -1);
                int offset = pCTD->pMemberOffsets[nPos];
                //With the offset within the exception we can get the message string
                System::String^ sMessage = mapUnoString(*(rtl_uString**)
                                                        ((char*) uno_data + offset));
                //We need to find a constructor for the exception that takes the message string
                //We assume that the first argument is the message string
                cli::array<sr::ConstructorInfo^>^ arCtorInfo = cliType->GetConstructors();
                sr::ConstructorInfo^ ctorInfo = nullptr;
                int numCtors = arCtorInfo->Length;
                //Constructor must at least have 2 params for the base
                //unoidl.com.sun.star.uno.Exception (String, Object);
                cli::array<sr::ParameterInfo^>^ arParamInfo;
                for (int i = 0; i < numCtors; i++)
                {
                    arParamInfo = arCtorInfo[i]->GetParameters();
                    if (arParamInfo->Length < 2)
                        continue;
                    ctorInfo = arCtorInfo[i];
                    break;
                }
                OSL_ASSERT(arParamInfo[0]->ParameterType->Equals(System::String::typeid)
                    && arParamInfo[1]->ParameterType->Equals(System::Object::typeid)
                    && arParamInfo[0]->Position == 0
                    && arParamInfo[1]->Position == 1);
                //Prepare parameters for constructor
                int numArgs = arParamInfo->Length;
                cli::array<System::Object^>^ args = gcnew cli::array<System::Object^>(numArgs);
                //only initialize the first argument with the message
                args[0] = sMessage;
                cliObj = ctorInfo->Invoke(args);
            }
            else
                cliObj = System::Activator::CreateInstance(cliType);
        }
        sal_Int32 * pMemberOffsets = comp_td->pMemberOffsets;

        if (comp_td->pBaseTypeDescription)
        {
            //convert inherited struct
            //cliObj is passed inout (args in_param, out_param are true), hence the passed
            // cliObj is used by the callee instead of a newly created struct
            map_to_cli(
                &cliObj, uno_data,
                ((typelib_TypeDescription *)comp_td->pBaseTypeDescription)->pWeakRef, nullptr,
                true);
        }
        OUString usUnoException("com.sun.star.uno.Exception");
        for (sal_Int32 nPos = comp_td->nMembers; nPos--; )
        {
            typelib_TypeDescriptionReference * member_type = comp_td->ppTypeRefs[ nPos ];
            System::String^ sMemberName= mapUnoString(comp_td->ppMemberNames[nPos]);
            sr::FieldInfo^ aField= cliType->GetField(sMemberName);
            // special case for Exception.Message. The field has already been
            // set while constructing cli object
            if ( ! aField && usUnoException.equals(td.get()->pTypeName))
            {
                continue;
            }
            void const * p = (char const *)uno_data + pMemberOffsets[ nPos ];
            switch (member_type->eTypeClass)
            {
            case typelib_TypeClass_CHAR:
                aField->SetValue(cliObj, *(System::Char*) p);
                break;
            case typelib_TypeClass_BOOLEAN:
                aField->SetValue(cliObj, *(System::Boolean*) p);
                break;
            case typelib_TypeClass_BYTE:
                aField->SetValue(cliObj, *(System::Byte*) p);
                break;
            case typelib_TypeClass_SHORT:
                aField->SetValue(cliObj, *(System::Int16*) p);
                break;
            case typelib_TypeClass_UNSIGNED_SHORT:
                aField->SetValue(cliObj, *(System::UInt16*) p);
                break;
            case typelib_TypeClass_LONG:
                aField->SetValue(cliObj, *(System::Int32*) p);
                break;
            case typelib_TypeClass_UNSIGNED_LONG:
                aField->SetValue(cliObj, *(System::UInt32*) p);
                break;
            case typelib_TypeClass_HYPER:
                aField->SetValue(cliObj, *(System::Int64*) p);
                break;
            case typelib_TypeClass_UNSIGNED_HYPER:
                aField->SetValue(cliObj, *(System::UInt64*) p);
                break;
            case typelib_TypeClass_FLOAT:
                aField->SetValue(cliObj, *(System::Single*) p);
                break;
            case typelib_TypeClass_DOUBLE:
                aField->SetValue(cliObj, *(System::Double*) p);
                break;
            default:
            {
                System::Object^ cli_val;
                map_to_cli(
                    &cli_val, p, member_type, nullptr,
                    false);
                aField->SetValue(cliObj, cli_val);
                break;
            }
            }
        }
        *cli_data= cliObj;
        break;
    }
    case typelib_TypeClass_SEQUENCE:
    {
        sal_Int32 nElements;
        uno_Sequence const * seq = 0;
        seq = *(uno_Sequence * const *)uno_data;
        nElements = seq->nElements;

        TypeDescr td( type );
        typelib_TypeDescriptionReference * element_type =
            ((typelib_IndirectTypeDescription *)td.get())->pType;

        switch (element_type->eTypeClass)
        {
        case typelib_TypeClass_CHAR:
        {
            cli::array<System::Char>^ arChar= gcnew cli::array<System::Char>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arChar, 0, nElements);
            *cli_data= arChar;
            break;
        }
        case typelib_TypeClass_BOOLEAN:
        {
            cli::array<System::Byte>^ arBool= gcnew cli::array<System::Byte>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arBool, 0, nElements);
            *cli_data= dynamic_cast<cli::array<System::Boolean>^>(arBool);
            break;
        }
        case typelib_TypeClass_BYTE:
        {
            cli::array<System::Byte>^ arByte= gcnew cli::array<System::Byte>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arByte, 0, nElements);
            *cli_data= arByte;
            break;
        }
        case typelib_TypeClass_SHORT:
        {
            cli::array<System::Int16>^ arShort= gcnew cli::array<System::Int16>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arShort, 0, nElements);
            *cli_data= arShort;
            break;
        }
        case typelib_TypeClass_UNSIGNED_SHORT:
        {
            cli::array<System::UInt16>^ arUInt16= gcnew cli::array<System::UInt16>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), dynamic_cast<cli::array<System::Int16>^>(arUInt16),
                                0, nElements);
            *cli_data= arUInt16;
            break;
        }
        case typelib_TypeClass_LONG:
        {
            cli::array<System::Int32>^ arInt32= gcnew cli::array<System::Int32>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arInt32, 0, nElements);
            *cli_data= arInt32;
            break;
        }
        case typelib_TypeClass_UNSIGNED_LONG:
        {
            cli::array<System::UInt32>^ arUInt32= gcnew cli::array<System::UInt32>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), dynamic_cast<cli::array<System::Int32>^>(arUInt32),
                                0, nElements);
            *cli_data= arUInt32;
            break;
        }
        case typelib_TypeClass_HYPER:
        {
            cli::array<System::Int64>^ arInt64= gcnew cli::array<System::Int64>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arInt64, 0, nElements);
            *cli_data= arInt64;
            break;
        }
        //FIXME: Marshal::Copy of UInt64?
        case typelib_TypeClass_UNSIGNED_HYPER:
        {
            cli::array<System::IntPtr>^ arUInt64= gcnew cli::array<System::IntPtr>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arUInt64, 0, nElements);
            *cli_data= dynamic_cast<cli::array<System::UInt64>^>(arUInt64);
            break;
        }
        case typelib_TypeClass_FLOAT:
        {
            cli::array<System::Single>^ arSingle= gcnew cli::array<System::Single>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arSingle, 0, nElements);
            *cli_data= arSingle;
            break;
        }
        case typelib_TypeClass_DOUBLE:
        {
            cli::array<System::Double>^ arDouble= gcnew cli::array<System::Double>(nElements);
            sri::Marshal::Copy( IntPtr((void*) &seq->elements), arDouble, 0, nElements);
            *cli_data= arDouble;
            break;
        }
        case typelib_TypeClass_STRING:
        {
            cli::array<System::String^>^ arString= gcnew cli::array<System::String^>(nElements);
            for (int i= 0; i < nElements; i++)
            {
                rtl_uString *aStr= ((rtl_uString**)(&seq->elements))[i];
                arString[i]= gcnew System::String( (__wchar_t *) &aStr->buffer, 0, aStr->length);
            }
            *cli_data= arString;
            break;
        }
        case typelib_TypeClass_TYPE:
        {
            cli::array<System::Type^>^ arType= gcnew cli::array<System::Type^>(nElements);
            for (int i= 0; i < nElements; i++)
            {
                arType[i]=
                    mapUnoType( ((typelib_TypeDescriptionReference**) seq->elements)[i]);
            }
            *cli_data= arType;
            break;
        }
        case typelib_TypeClass_ANY:
        {
            cli::array<uno::Any>^ arCli= gcnew cli::array<uno::Any>(nElements);
            uno_Any const * p = (uno_Any const *)seq->elements;
            for (sal_Int32 nPos = 0; nPos < nElements; ++nPos )
            {
                System::Object^ cli_obj = nullptr;
                map_to_cli(
                    &cli_obj, &p[ nPos ], element_type, nullptr, false);
                arCli[nPos]= *safe_cast<uno::Any^>(cli_obj);
            }
            *cli_data= arCli;
            break;
        }
        case typelib_TypeClass_ENUM:
        {
            //get the Enum type
            System::Type^ enumType= nullptr;
            if (info != nullptr)
            {
                //info is EnumType[]&, remove &
                OSL_ASSERT(info->IsByRef);
                enumType = info->GetElementType();
                //enumType is EnumType[], remove []
                enumType = enumType->GetElementType();
            }
            else
                enumType= mapUnoType(element_type);

            System::Array^ arEnum = System::Array::CreateInstance(
                enumType, nElements);
            for (int i= 0; i < nElements; i++)
            {
                arEnum->SetValue(System::Enum::ToObject(enumType,
                   System::Int32(((sal_Int32*) seq->elements)[i])), i);
            }
            *cli_data = arEnum;
            break;
        }
        case typelib_TypeClass_STRUCT:
        case typelib_TypeClass_EXCEPTION:
        {
            TypeDescr element_td( element_type );
            System::Array^ ar= System::Array::CreateInstance(
                mapUnoType(element_type),nElements);
            if (0 < nElements)
            {
                // ToDo check this
                char * p = (char *) &seq->elements;
                sal_Int32 nSize = element_td.get()->nSize;
                for ( sal_Int32 nPos = 0; nPos < nElements; ++nPos )
                {
                    System::Object^ val;
                    map_to_cli(
                        &val, p + (nSize * nPos), element_type, nullptr, false);
                    ar->SetValue(val, System::Int32(nPos));
                }
            }
            *cli_data = ar;
            break;
        }
// ToDo, verify
        case typelib_TypeClass_SEQUENCE:
        {
            System::Array ^ar= System::Array::CreateInstance(
                mapUnoType(element_type), nElements);
            if (0 < nElements)
            {
                TypeDescr element_td( element_type );
                uno_Sequence ** elements = (uno_Sequence**) seq->elements;
                for ( sal_Int32 nPos = 0; nPos < nElements; ++nPos )
                {
                    System::Object^ val;
                    map_to_cli(
                        &val, &elements[nPos], element_type, nullptr, false);
                    ar->SetValue(val, System::Int32(nPos));
                }
            }
            *cli_data = ar;
            break;
        }
        case typelib_TypeClass_INTERFACE:
        {
            TypeDescr element_td( element_type );
            System::Type ^ ifaceType= mapUnoType(element_type);
            System::Array^ ar= System::Array::CreateInstance(ifaceType, nElements);

            char * p = (char *)seq->elements;
            sal_Int32 nSize = element_td.get()->nSize;
            for ( sal_Int32 nPos = 0; nPos < nElements; ++nPos )
            {
                System::Object^ val;
                map_to_cli(
                    &val, p + (nSize * nPos), element_type, nullptr, false);

                ar->SetValue(val, System::Int32(nPos));
            }
            *cli_data= ar;
            break;
        }
        default:
        {
            throw BridgeRuntimeError("[map_to_cli():" + OUString::unacquired( &type->pTypeName ) +
                "] unsupported element type: " + OUString::unacquired( &element_type->pTypeName ));
        }
        }
        break;
    }
    case typelib_TypeClass_INTERFACE:
    {
        uno_Interface * pUnoI = *(uno_Interface * const *)uno_data;
        if (0 != pUnoI)
        {
            TypeDescr td( type );
            *cli_data= map_uno2cli( pUnoI, reinterpret_cast<
                                          typelib_InterfaceTypeDescription*>(td.get())) ;
        }
        else
            *cli_data= nullptr;
        break;
    }
    default:
    {
        //ToDo check this exception. The String is probably crippled
        throw BridgeRuntimeError("[map_to_cli():" + OUString::unacquired( &type->pTypeName ) + "] unsupported type!");
    }
    } //switch
} // method
} // namespace

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