/* -*- 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 . */ #ifndef INCLUDED_COM_SUN_STAR_UNO_ANY_H #define INCLUDED_COM_SUN_STAR_UNO_ANY_H #include #include #include #include "cppu/unotype.hxx" #include namespace com { namespace sun { namespace star { namespace uno { /** C++ class representing an IDL any. This class is used to transport any type defined in IDL. The class inherits from the binary C representation of uno_Any. You can insert a value by either using the <<= operators or the template function makeAny(). No any can hold an any. You can extract values from an any by using the >>= operators which return true if the any contains an assignable value (no data loss), e.g. the any contains a short and you >>= it into a long variable. */ class Any : public uno_Any { public: /// @cond INTERNAL // these are here to force memory de/allocation to sal lib. inline static void * SAL_CALL operator new ( size_t nSize ) SAL_THROW(()) { return ::rtl_allocateMemory( nSize ); } inline static void SAL_CALL operator delete ( void * pMem ) SAL_THROW(()) { ::rtl_freeMemory( pMem ); } inline static void * SAL_CALL operator new ( size_t, void * pMem ) SAL_THROW(()) { return pMem; } inline static void SAL_CALL operator delete ( void *, void * ) SAL_THROW(()) {} /// @endcond /** Default constructor: Any holds no value; its type is void. */ inline Any() SAL_THROW(()); /** Templated ctor. Sets a copy of the given value. @param value value of the Any */ template explicit inline Any( T const & value ); /// Ctor support for C++ bool. explicit inline Any( bool value ); /** Copy constructor: Sets value of the given any. @param rAny another any */ inline Any( const Any & rAny ) SAL_THROW(()); /** Constructor: Sets a copy of the given data. @param pData_ value @param rType type of value */ inline Any( const void * pData_, const Type & rType ) SAL_THROW(()); /** Constructor: Sets a copy of the given data. @param pData_ value @param pTypeDescr type of value */ inline Any( const void * pData_, typelib_TypeDescription * pTypeDescr ) SAL_THROW(()); /** Constructor: Sets a copy of the given data. @param pData_ value @param pType type of value */ inline Any( const void * pData_, typelib_TypeDescriptionReference * pType ) SAL_THROW(()); /** Destructor: Destructs any content and frees memory. */ inline ~Any() SAL_THROW(()); /** Assignment operator: Sets the value of the given any. @param rAny another any (right side) @return this any */ inline Any & SAL_CALL operator = ( const Any & rAny ) SAL_THROW(()); /** Gets the type of the set value. @return a Type object of the set value */ inline const Type & SAL_CALL getValueType() const SAL_THROW(()) { return * reinterpret_cast< const Type * >( &pType ); } /** Gets the type of the set value. @return the unacquired type description reference of the set value */ inline typelib_TypeDescriptionReference * SAL_CALL getValueTypeRef() const SAL_THROW(()) { return pType; } /** Gets the type description of the set value. Provides ownership of the type description! Call an explicit typelib_typedescription_release() to release afterwards. @param ppTypeDescr a pointer to type description pointer */ inline void SAL_CALL getValueTypeDescription( typelib_TypeDescription ** ppTypeDescr ) const SAL_THROW(()) { ::typelib_typedescriptionreference_getDescription( ppTypeDescr, pType ); } /** Gets the type class of the set value. @return the type class of the set value */ inline TypeClass SAL_CALL getValueTypeClass() const SAL_THROW(()) { return (TypeClass)pType->eTypeClass; } /** Gets the type name of the set value. @return the type name of the set value */ inline ::rtl::OUString SAL_CALL getValueTypeName() const SAL_THROW(()); /** Tests if any contains a value. @return true if any has a value, false otherwise */ inline sal_Bool SAL_CALL hasValue() const SAL_THROW(()) { return (typelib_TypeClass_VOID != pType->eTypeClass); } /** Gets a pointer to the set value. @return a pointer to the set value */ inline const void * SAL_CALL getValue() const SAL_THROW(()) { return pData; } /** Provides a value of specified type, so you can easily write e.g.
        sal_Int32 myVal = myAny.get();
        
Widening conversion without data loss is taken into account. Throws a com::sun::star::uno::RuntimeException if the specified type cannot be provided. @return value of specified type @exception com::sun::star::uno::RuntimeException in case the specified type cannot be provided */ template inline T get() const; /** Sets a value. If the any already contains a value, that value will be destructed and its memory freed. @param pData_ pointer to value @param rType type of value */ inline void SAL_CALL setValue( const void * pData_, const Type & rType ) SAL_THROW(()); /** Sets a value. If the any already contains a value, that value will be destructed and its memory freed. @param pData_ pointer to value @param pType type of value */ inline void SAL_CALL setValue( const void * pData_, typelib_TypeDescriptionReference * pType ) SAL_THROW(()); /** Sets a value. If the any already contains a value, that value will be destructed and its memory freed. @param pData_ pointer to value @param pTypeDescr type description of value */ inline void SAL_CALL setValue( const void * pData_, typelib_TypeDescription * pTypeDescr ) SAL_THROW(()); /** Clears this any. If the any already contains a value, that value will be destructed and its memory freed. After this has been called, the any does not contain a value. */ inline void SAL_CALL clear() SAL_THROW(()); /** Tests whether this any is extractable to a value of given type. Widening conversion without data loss is taken into account. @param rType destination type @return true if this any is extractable to value of given type (e.g. using >>= operator) */ inline sal_Bool SAL_CALL isExtractableTo( const Type & rType ) const SAL_THROW(()); /** Tests whether this any can provide a value of specified type. Widening conversion without data loss is taken into account. @return true if this any can provide a value of specified type (e.g. using >>= operator) */ template inline bool has() const; /** Equality operator: compares two anys. The values need not be of equal type, e.g. a short integer is compared to a long integer. @param rAny another any (right side) @return true if both any contains equal values */ inline sal_Bool SAL_CALL operator == ( const Any & rAny ) const SAL_THROW(()); /** Unequality operator: compares two anys. The values need not be of equal type, e.g. a short integer is compared to a long integer. @param rAny another any (right side) @return true if both any contains unequal values */ inline sal_Bool SAL_CALL operator != ( const Any & rAny ) const SAL_THROW(()); private: // not impl: forbid use with ambiguous type (sal_Unicode, sal_uInt16) explicit Any( sal_uInt16 ); #if defined(_MSC_VER) // Omitting the following private declarations leads to an internal compiler // error on MSVC (version 1310). // not impl: forbid use with ambiguous type (sal_Unicode, sal_uInt16) template <> sal_uInt16 get() const; template <> bool has() const; #endif // defined(_MSC_VER) }; /** Template function to generically construct an any from a C++ value. @tparam C value type @param value a value @return an any */ template< class C > inline Any SAL_CALL makeAny( const C & value ) SAL_THROW(()); // additionally specialized for C++ bool template<> inline Any SAL_CALL makeAny( bool const & value ) SAL_THROW(()); class BaseReference; class Type; /** Template binary <<= operator to set the value of an any. @tparam C value type @param rAny destination any (left side) @param value source value (right side) */ template< class C > inline void SAL_CALL operator <<= ( Any & rAny, const C & value ) SAL_THROW(()); // additionally for C++ bool: inline void SAL_CALL operator <<= ( Any & rAny, bool const & value ) SAL_THROW(()); /** Template binary >>= operator to assign a value from an any. If the any does not contain a value that can be assigned without data loss, then this operation will fail returning false. @tparam C value type @param rAny source any (left side) @param value destination value (right side) @return true if assignment was possible without data loss */ template< class C > inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, C & value ) SAL_THROW(()); /** Template equality operator: compares set value of left side any to right side value. The values need not be of equal type, e.g. a short integer is compared to a long integer. This operator can be implemented as template member function, if all supported compilers can cope with template member functions. @tparam C value type @param rAny another any (left side) @param value a value (right side) @return true if values are equal, false otherwise */ template< class C > inline sal_Bool SAL_CALL operator == ( const Any & rAny, const C & value ) SAL_THROW(()); /** Template unequality operator: compares set value of left side any to right side value. The values need not be of equal type, e.g. a short integer is compared to a long integer. This operator can be implemented as template member function, if all supported compilers can cope with template member functions. @tparam C value type @param rAny another any (left side) @param value a value (right side) @return true if values are unequal, false otherwise */ template< class C > inline sal_Bool SAL_CALL operator != ( const Any & rAny, const C & value ) SAL_THROW(()); // additional specialized >>= and == operators // bool inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_Bool & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator == ( const Any & rAny, const sal_Bool & value ) SAL_THROW(()); template<> inline sal_Bool SAL_CALL operator >>= ( Any const & rAny, bool & value ) SAL_THROW(()); template<> inline sal_Bool SAL_CALL operator == ( Any const & rAny, bool const & value ) SAL_THROW(()); // byte inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_Int8 & value ) SAL_THROW(()); // short inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_Int16 & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_uInt16 & value ) SAL_THROW(()); // long inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_Int32 & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_uInt32 & value ) SAL_THROW(()); // hyper inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_Int64 & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, sal_uInt64 & value ) SAL_THROW(()); // float inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, float & value ) SAL_THROW(()); // double inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, double & value ) SAL_THROW(()); // string inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, ::rtl::OUString & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator == ( const Any & rAny, const ::rtl::OUString & value ) SAL_THROW(()); // type inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, Type & value ) SAL_THROW(()); inline sal_Bool SAL_CALL operator == ( const Any & rAny, const Type & value ) SAL_THROW(()); // any inline sal_Bool SAL_CALL operator >>= ( const Any & rAny, Any & value ) SAL_THROW(()); // interface inline sal_Bool SAL_CALL operator == ( const Any & rAny, const BaseReference & value ) SAL_THROW(()); } } } } /** Gets the meta type of IDL type any. There are cases (involving templates) where uses of getCppuType are known to not compile. Use cppu::UnoType or cppu::getTypeFavourUnsigned instead. The dummy parameter is just a typed pointer for function signature. @return type of IDL type any */ inline const ::com::sun::star::uno::Type & SAL_CALL getCppuType( SAL_UNUSED_PARAMETER const ::com::sun::star::uno::Any * ) SAL_THROW(()) { return ::cppu::UnoType< ::com::sun::star::uno::Any >::get(); } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */