/* -*- 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 _COM_SUN_STAR_UNO_REFERENCE_H_ #define _COM_SUN_STAR_UNO_REFERENCE_H_ #include namespace com { namespace sun { namespace star { namespace uno { class RuntimeException; class XInterface; class Type; class Any; /** Enum defining UNO_REF_NO_ACQUIRE for setting reference without acquiring a given interface. Deprecated, please use SAL_NO_ACQUIRE. @deprecated */ enum UnoReference_NoAcquire { /** This enum value can be used for creating a reference granting a given interface, i.e. transferring ownership to it. */ UNO_REF_NO_ACQUIRE }; /** This base class serves as a base class for all template reference classes and has been introduced due to compiler problems with templated operators ==, =!. */ class BaseReference { protected: /** the interface pointer */ XInterface * _pInterface; /** Queries given interface for type rType. @param pInterface interface pointer @param rType interface type @return interface of demanded type (may be null) */ inline static XInterface * SAL_CALL iquery( XInterface * pInterface, const Type & rType ) SAL_THROW( (RuntimeException) ); #ifndef EXCEPTIONS_OFF /** Queries given interface for type rType. Throws a RuntimeException if the demanded interface cannot be queried. @param pInterface interface pointer @param rType interface type @return interface of demanded type */ inline static XInterface * SAL_CALL iquery_throw( XInterface * pInterface, const Type & rType ) SAL_THROW( (RuntimeException) ); #endif public: /** Gets interface pointer. This call does not acquire the interface. @return UNacquired interface pointer */ inline XInterface * SAL_CALL get() const SAL_THROW(()) { return _pInterface; } /** Checks if reference is null. @return true if reference acquires an interface, i.e. true if it is not null */ inline sal_Bool SAL_CALL is() const SAL_THROW(()) { return (0 != _pInterface); } /** Equality operator: compares two interfaces Checks if both references are null or refer to the same object. @param pInterface another interface @return true if both references are null or refer to the same object, false otherwise */ inline sal_Bool SAL_CALL operator == ( XInterface * pInterface ) const SAL_THROW(()); /** Unequality operator: compares two interfaces Checks if both references are null or refer to the same object. @param pInterface another interface @return false if both references are null or refer to the same object, true otherwise */ inline sal_Bool SAL_CALL operator != ( XInterface * pInterface ) const SAL_THROW(()); /** Equality operator: compares two interfaces Checks if both references are null or refer to the same object. @param rRef another reference @return true if both references are null or refer to the same object, false otherwise */ inline sal_Bool SAL_CALL operator == ( const BaseReference & rRef ) const SAL_THROW(()); /** Unequality operator: compares two interfaces Checks if both references are null or refer to the same object. @param rRef another reference @return false if both references are null or refer to the same object, true otherwise */ inline sal_Bool SAL_CALL operator != ( const BaseReference & rRef ) const SAL_THROW(()); /** Needed by some STL containers. @param rRef another reference @return true, if this reference is less than rRef */ inline sal_Bool SAL_CALL operator < ( const BaseReference & rRef ) const SAL_THROW(()); }; /** Enum defining UNO_QUERY for implicit interface query. */ enum UnoReference_Query { /** This enum value can be used for implicit interface query. */ UNO_QUERY, }; #ifndef EXCEPTIONS_OFF /** Enum defining UNO_QUERY_THROW for implicit interface query. If the demanded interface is unavailable, then a RuntimeException is thrown. */ enum UnoReference_QueryThrow { /** This enum value can be used for implicit interface query. */ UNO_QUERY_THROW, }; /** Enum defining UNO_SET_THROW for throwing if attempts are made to assign a null interface @since UDK 3.2.8 */ enum UnoReference_SetThrow { UNO_SET_THROW }; #endif /// @cond INTERNAL namespace detail { // A mechanism to enable up-casts, used by the Reference conversion constructor, // but at the same time disable up-casts to XInterface, so that the conversion // operator for that special case is used in an expression like // Reference< XInterface >(x); heavily borrowed from boost::is_base_and_derived // (which manages to avoid compilation problems with ambiguous bases and cites // comp.lang.c++.moderated mail "SuperSubclass // (is_base_and_derived) complete implementation!" by Rani Sharoni and cites // Aleksey Gurtovoy for the workaround for MSVC), to avoid including Boost // headers in URE headers (could ultimately be based on C++11 std::is_base_of): template< typename T1, typename T2 > struct UpCast { private: template< bool, typename U1, typename > struct C { typedef U1 t; }; template< typename U1, typename U2 > struct C< false, U1, U2 > { typedef U2 t; }; struct S { char c[2]; }; #if defined _MSC_VER static char f(T2 *, long); static S f(T1 * const &, int); #else template< typename U > static char f(T2 *, U); static S f(T1 *, int); #endif struct H { H(); // avoid C2514 "class has no constructors" from MSVC 2008 #if defined _MSC_VER operator T1 * const & () const; #else operator T1 * () const; #endif operator T2 * (); }; public: typedef typename C< sizeof (f(H(), 0)) == 1, void *, void >::t t; }; template< typename T2 > struct UpCast< XInterface, T2 > {}; } /// @endcond /** Template reference class for interface type derived from BaseReference. A special constructor given the UNO_QUERY identifier queries interfaces for reference type. */ template< class interface_type > class Reference : public BaseReference { /** Queries given interface for type interface_type. @param pInterface interface pointer @return interface of demanded type (may be null) */ inline static XInterface * SAL_CALL iquery( XInterface * pInterface ) SAL_THROW( (RuntimeException) ); #ifndef EXCEPTIONS_OFF /** Queries given interface for type interface_type. Throws a RuntimeException if the demanded interface cannot be queried. @param pInterface interface pointer @return interface of demanded type */ inline static XInterface * SAL_CALL iquery_throw( XInterface * pInterface ) SAL_THROW( (RuntimeException) ); /** Returns the given interface if it is not , throws a RuntimeException otherwise. @param pInterface interface pointer @return pInterface */ inline static interface_type * SAL_CALL iset_throw( interface_type * pInterface ) SAL_THROW( (RuntimeException) ); #endif /** Cast from an "interface pointer" (e.g., BaseReference::_pInterface) to a pointer to this interface_type. To work around ambiguities in the case of multiple-inheritance interface types (which inherit XInterface more than once), use reinterpret_cast (resp. a sequence of two static_casts, to avoid warnings about reinterpret_cast used between related classes) to switch from a pointer to XInterface to a pointer to this derived interface_type. In principle, this is not guaranteed to work. In practice, it seems to work on all supported platforms. */ static inline interface_type * castFromXInterface(XInterface * p) { return static_cast< interface_type * >(static_cast< void * >(p)); } /** Cast from a pointer to this interface_type to an "interface pointer" (e.g., BaseReference::_pInterface). To work around ambiguities in the case of multiple-inheritance interface types (which inherit XInterface more than once), use reinterpret_cast (resp. a sequence of two static_casts, to avoid warnings about reinterpret_cast used between related classes) to switch from a pointer to this derived interface_type to a pointer to XInterface. In principle, this is not guaranteed to work. In practice, it seems to work on all supported platforms. */ static inline XInterface * castToXInterface(interface_type * p) { return static_cast< XInterface * >(static_cast< void * >(p)); } 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 /** Destructor: Releases interface if set. */ inline ~Reference() SAL_THROW(()); /** Default Constructor: Sets null reference. */ inline Reference() SAL_THROW(()); /** Copy constructor: Copies interface reference. @param rRef another reference */ inline Reference( const Reference< interface_type > & rRef ) SAL_THROW(()); /** Up-casting conversion constructor: Copies interface reference. Does not work for up-casts to ambiguous bases. For the special case of up-casting to Reference< XInterface >, see the corresponding conversion operator. @param rRef another reference */ template< class derived_type > inline Reference( const Reference< derived_type > & rRef, typename detail::UpCast< interface_type, derived_type >::t = 0 ) SAL_THROW(()); /** Constructor: Sets given interface pointer. @param pInterface an interface pointer */ inline Reference( interface_type * pInterface ) SAL_THROW(()); /** Constructor: Sets given interface pointer without acquiring it. @param pInterface another reference @param dummy SAL_NO_ACQUIRE to force obvious distinction to other constructors */ inline Reference( interface_type * pInterface, __sal_NoAcquire dummy) SAL_THROW(()); /** Constructor: Sets given interface pointer without acquiring it. Deprecated, please use SAL_NO_ACQUIRE version. @deprecated @param pInterface another reference @param dummy UNO_REF_NO_ACQUIRE to force obvious distinction to other constructors */ inline Reference( interface_type * pInterface, UnoReference_NoAcquire dummy ) SAL_THROW(()); /** Constructor: Queries given interface for reference interface type (interface_type). @param rRef another reference @param dummy UNO_QUERY to force obvious distinction to other constructors */ inline Reference( const BaseReference & rRef, UnoReference_Query dummy ) SAL_THROW( (RuntimeException) ); /** Constructor: Queries given interface for reference interface type (interface_type). @param pInterface an interface pointer @param dummy UNO_QUERY to force obvious distinction to other constructors */ inline Reference( XInterface * pInterface, UnoReference_Query dummy) SAL_THROW( (RuntimeException) ); /** Constructor: Queries given any for reference interface type (interface_type). @param rAny an any @param dummy UNO_QUERY to force obvious distinction to other constructors */ inline Reference( const Any & rAny, UnoReference_Query dummy) SAL_THROW( (RuntimeException) ); #ifndef EXCEPTIONS_OFF /** Constructor: Queries given interface for reference interface type (interface_type). Throws a RuntimeException if the demanded interface cannot be queried. @param rRef another reference @param dummy UNO_QUERY_THROW to force obvious distinction to other constructors */ inline Reference( const BaseReference & rRef, UnoReference_QueryThrow dummy ) SAL_THROW( (RuntimeException) ); /** Constructor: Queries given interface for reference interface type (interface_type). Throws a RuntimeException if the demanded interface cannot be queried. @param pInterface an interface pointer @param dummy UNO_QUERY_THROW to force obvious distinction to other constructors */ inline Reference( XInterface * pInterface, UnoReference_QueryThrow dummy ) SAL_THROW( (RuntimeException) ); /** Constructor: Queries given any for reference interface type (interface_type). Throws a RuntimeException if the demanded interface cannot be queried. @param rAny an any @param dummy UNO_QUERY_THROW to force obvious distinction to other constructors */ inline Reference( const Any & rAny, UnoReference_QueryThrow dummy ) SAL_THROW( (RuntimeException) ); /** Constructor: assigns from the given interface of the same type. Throws a RuntimeException if the source interface is NULL. @param rRef another interface reference of the same type @param dummy UNO_SET_THROW to distinguish from default copy constructor @since UDK 3.2.8 */ inline Reference( const Reference< interface_type > & rRef, UnoReference_SetThrow dummy ) SAL_THROW( (RuntimeException) ); /** Constructor: assigns from the given interface of the same type. Throws a RuntimeException if the source interface is NULL. @param pInterface an interface pointer @param dummy UNO_SET_THROW to distinguish from default assignment constructor @since UDK 3.2.8 */ inline Reference( interface_type * pInterface, UnoReference_SetThrow dummy ) SAL_THROW( (RuntimeException) ); #endif /** Cast operator to Reference< XInterface >: Reference objects are binary compatible and any interface must be derived from com.sun.star.uno.XInterface. This a useful direct cast possibility. */ inline SAL_CALL operator const Reference< XInterface > & () const SAL_THROW(()) { return * reinterpret_cast< const Reference< XInterface > * >( this ); } /** Dereference operator: Used to call interface methods. @return UNacquired interface pointer */ inline interface_type * SAL_CALL operator -> () const SAL_THROW(()) { return castFromXInterface(_pInterface); } /** Gets interface pointer. This call does not acquire the interface. @return UNacquired interface pointer */ inline interface_type * SAL_CALL get() const SAL_THROW(()) { return castFromXInterface(_pInterface); } /** Clears reference, i.e. releases interface. Reference is null after clear() call. */ inline void SAL_CALL clear() SAL_THROW(()); /** Sets the given interface. An interface already set will be released. @param rRef another reference @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( const Reference< interface_type > & rRef ) SAL_THROW(()); /** Sets the given interface. An interface already set will be released. @param pInterface another interface @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( interface_type * pInterface ) SAL_THROW(()); /** Sets interface pointer without acquiring it. An interface already set will be released. @param pInterface an interface pointer @param dummy SAL_NO_ACQUIRE to force obvious distinction to set methods @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( interface_type * pInterface, __sal_NoAcquire dummy) SAL_THROW(()); /** Sets interface pointer without acquiring it. An interface already set will be released. Deprecated, please use SAL_NO_ACQUIRE version. @deprecated @param pInterface an interface pointer @param dummy UNO_REF_NO_ACQUIRE to force obvious distinction to set methods @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( interface_type * pInterface, UnoReference_NoAcquire dummy) SAL_THROW(()); /** Queries given interface for reference interface type (interface_type) and sets it. An interface already set will be released. @param pInterface an interface pointer @param dummy UNO_QUERY to force obvious distinction to set methods @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( XInterface * pInterface, UnoReference_Query dummy ) SAL_THROW( (RuntimeException) ); /** Queries given interface for reference interface type (interface_type) and sets it. An interface already set will be released. @param rRef another reference @param dummy UNO_QUERY to force obvious distinction to set methods @return true, if non-null interface was set */ inline sal_Bool SAL_CALL set( const BaseReference & rRef, UnoReference_Query dummy) SAL_THROW( (RuntimeException) ); /** Queries given any for reference interface type (interface_type) and sets it. An interface already set will be released. @param rAny an Any containing an interface @param dummy UNO_QUERY to force obvious distinction to set methods @return true, if non-null interface was set */ inline bool set( Any const & rAny, UnoReference_Query dummy ); #ifndef EXCEPTIONS_OFF /** Queries given interface for reference interface type (interface_type) and sets it. An interface already set will be released. Throws a RuntimeException if the demanded interface cannot be set. @param pInterface an interface pointer @param dummy UNO_QUERY_THROW to force obvious distinction to set methods */ inline void SAL_CALL set( XInterface * pInterface, UnoReference_QueryThrow dummy ) SAL_THROW( (RuntimeException) ); /** Queries given interface for reference interface type (interface_type) and sets it. An interface already set will be released. Throws a RuntimeException if the demanded interface cannot be set. @param rRef another reference @param dummy UNO_QUERY_THROW to force obvious distinction to set methods */ inline void SAL_CALL set( const BaseReference & rRef, UnoReference_QueryThrow dummy ) SAL_THROW( (RuntimeException) ); /** Queries given any for reference interface type (interface_type) and sets it. An interface already set will be released. Throws a RuntimeException if the demanded interface cannot be set. @param rAny an Any containing an interface @param dummy UNO_QUERY_THROW to force obvious distinction to set methods */ inline void set( Any const & rAny, UnoReference_QueryThrow dummy); /** sets the given interface An interface already set will be released. Throws a RuntimeException if the source interface is @b NULL. @param pInterface an interface pointer @param dummy UNO_SET_THROW to force obvious distinction to other set methods @since UDK 3.2.8 */ inline void SAL_CALL set( interface_type * pInterface, UnoReference_SetThrow dummy) SAL_THROW( (RuntimeException) ); /** sets the given interface An interface already set will be released. Throws a RuntimeException if the source interface is @b NULL. @param rRef an interface reference @param dummy UNO_SET_THROW to force obvious distinction to other set methods @since UDK 3.2.8 */ inline void SAL_CALL set( const Reference< interface_type > & rRef, UnoReference_SetThrow dummy) SAL_THROW( (RuntimeException) ); #endif /** Assignment operator: Acquires given interface pointer and sets reference. An interface already set will be released. @param pInterface an interface pointer @return this reference */ inline Reference< interface_type > & SAL_CALL operator = ( interface_type * pInterface ) SAL_THROW(()); /** Assignment operator: Acquires given interface reference and sets reference. An interface already set will be released. @param rRef an interface reference @return this reference */ inline Reference< interface_type > & SAL_CALL operator = ( const Reference< interface_type > & rRef ) SAL_THROW(()); /** Queries given interface reference for type interface_type. @param rRef interface reference @return interface reference of demanded type (may be null) */ inline static Reference< interface_type > SAL_CALL query( const BaseReference & rRef ) SAL_THROW( (RuntimeException) ); /** Queries given interface for type interface_type. @param pInterface interface pointer @return interface reference of demanded type (may be null) */ inline static Reference< interface_type > SAL_CALL query( XInterface * pInterface ) SAL_THROW( (RuntimeException) ); }; /// @cond INTERNAL /** Enables boost::mem_fn and boost::bind to recognize Reference. */ template inline T * get_pointer( Reference const& r ) { return r.get(); } /// @endcond } } } } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */