/* -*- 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_SFX2_CONTROLWRAPPER_HXX #define INCLUDED_SFX2_CONTROLWRAPPER_HXX #include #include #include #include #include #include #include #include #include #include namespace sfx { /** List position type of VCL ListBox. */ typedef sal_uInt16 ListBoxPosType; /** List position type of SVTOOLS ValueSet. */ typedef sal_uInt16 ValueSetPosType; // Helpers /** A helper class for mapping list positions from/to represented values. Deriving from this helper class adds the two functions GetValueFromPos() and GetPosFromValue(). The constructor receives an array of MapEntryType structures that represents the table of positions and values. It is possible to pass a null pointer, this results in a direct mapping between list positions and values. If the map exists, it MUST be terminated with an entry containing the special "not found" list position passed to the constructor. The value contained in this last entry is used as default value in case of an error. */ template< typename PosT, typename ValueT > class PosValueMapper { public: typedef PosT PosType; typedef ValueT ValueType; typedef PosValueMapper< PosT, ValueT > MapperType; /** A helper struct that contains a list position - value pair. */ struct MapEntryType { PosT mnPos; /// Position in the list. ValueT mnValue; /// Corresponding value. }; /** Constructs the map helper with the passed map. @param nNFPos This list position is used to represent the "not found" or "not existing" state. @param pMap The map of list positions/values. If 0, a direct mapping is used (simply casting between list position and values). If the map exists, it *MUST* be terminated by an entry containing the special "not found" list position. */ explicit PosValueMapper( PosT nNFPos, const MapEntryType* pMap ) : mpMap( pMap ), mnNFPos( nNFPos ) {} /** Returns the value at the specified list position. @return The found value, or the value of the last map entry on error. */ ValueT GetValueFromPos( PosT nPos ) const; /** Returns the list position of the specified value. @return The position, or the special "not found" position on error. */ PosT GetPosFromValue( ValueT nValue ) const; /** Returns the special "not found" list position. */ PosT GetNotFoundPos() const { return mnNFPos; } private: const MapEntryType* mpMap; /// The list position/value map. PosT mnNFPos; /// Special "not found" list position. }; // Base control wrapper classes /** Base class for all control wrappers. Control wrappers are used to have an equal interface for various functions used in connections for different types of controls. The current tree of base classes/templates and standard control wrappers: ControlWrapperBase | +- SingleControlWrapper< ControlT, ValueT > | | | +- DummyWindowWrapper [1] | +- CheckBoxWrapper [1] | +- EditWrapper [1] | +- SvxColorListBoxWrapper [1] | | | +- MetricFieldWrapper< ValueT > [1] | | | | | +- [ValueType]MetricFieldWrapper [1] [2] | | | +- ListBoxWrapper< ValueT > [1] | | | | | +- [ValueType]ListBoxWrapper [1] [2] | | | +- ValueSetWrapper< ValueT > [1] | | | +- [ValueType]ValueSetWrapper [1] [2] | +- MultiControlWrapperHelper | +- MultiControlWrapper< ValueT > Notes: [1] Standard wrappers ready to use. [2] [ValueType] is one of Int16, UInt16, Int32, UInt32, UShort, ULong. See documentation of class ItemConnectionBase (itemconnect.hxx) for more details. */ class SFX2_DLLPUBLIC ControlWrapperBase { public: explicit ControlWrapperBase() {} virtual ~ControlWrapperBase(); /** Derived classes enable, disable, show, or hide control(s). @descr Will do nothing, if the corresponding parameter is TRISTATE_INDET. */ virtual void ModifyControl( TriState eShow ) = 0; /** Derived classes return true if the control is in "don't know" state. */ virtual bool IsControlDontKnow() const = 0; /** Derived classes set the control to "don't know" state. */ virtual void SetControlDontKnow( bool bSet ) = 0; private: ControlWrapperBase( const ControlWrapperBase& ) = delete; ControlWrapperBase& operator=( const ControlWrapperBase& ) = delete; }; // Single control wrappers /** Base class template for control wrappers containing one single control. Classes created from this template store the reference to a single control object. It is not required that the control is derived from VCL's Window class. Derived classes have to implement the abstract functions ShowControl(), EnableControl(), IsControlDontKnow(), SetControlDontKnow(), GetControlValue(), and SetControlValue(). As already stated, it is not required for ControlT to be a VCL Window. Anyway, ControlT must support the following functions: - void ControlT::Enable( bool ) - void ControlT::Show( bool ) */ template< typename ControlT, typename ValueT > class SingleControlWrapper : public ControlWrapperBase { public: typedef ControlT ControlType; typedef ValueT ControlValueType; typedef SingleControlWrapper< ControlT, ValueT > SingleControlWrapperType; explicit SingleControlWrapper( ControlT& rControl ) : mrControl( rControl ) {} /** Returns a reference to the control this connection works on. */ const ControlT& GetControl() const { return mrControl; } /** Returns a reference to the control this connection works on. */ ControlT& GetControl() { return mrControl; } /** Enables, disables, shows, or hides the control. @descr Does nothing, if the corresponding parameter is TRISTATE_INDET. */ virtual void ModifyControl( TriState eShow ) override; /** Derived classes return the value the control contains. */ virtual ValueT GetControlValue() const = 0; /** Derived classes set the contents of the control to the passed value. */ virtual void SetControlValue( ValueT aValue ) = 0; private: ControlT& mrControl; /// The control of this wrapper. }; /** A dummy wrapper for a VCL Window that does nothing special. This wrapper is used to implement the DummyItemConnection. It does not connect an item to a control, but handles the special flags to disable or hide a control, if an item is unknown. */ class SFX2_DLLPUBLIC DummyWindowWrapper: public SingleControlWrapper< vcl::Window, void* > { public: explicit DummyWindowWrapper( vcl::Window& rWindow ); virtual bool IsControlDontKnow() const override; virtual void SetControlDontKnow( bool ) override; virtual void* GetControlValue() const override; virtual void SetControlValue( void* ) override; }; /** A wrapper for the VCL CheckBox. */ class SFX2_DLLPUBLIC CheckBoxWrapper: public SingleControlWrapper< CheckBox, bool > { public: explicit CheckBoxWrapper( CheckBox& rCheckBox ); virtual bool IsControlDontKnow() const override; virtual void SetControlDontKnow( bool bSet ) override; virtual bool GetControlValue() const override; virtual void SetControlValue( bool bValue ) override; }; /** A wrapper for the VCL MetricField. Adds support for field units during accessing the control value. The wrapper respects the field unit set at the control itself and converts it from/to the field unit passed to the constructor. */ template< typename ValueT > class MetricFieldWrapper : public SingleControlWrapper< MetricField, ValueT > { public: explicit MetricFieldWrapper( MetricField& rField, FieldUnit eUnit ) : SingleControlWrapper< MetricField, ValueT >( rField ), meUnit( eUnit ) {} virtual bool IsControlDontKnow() const SAL_OVERRIDE; virtual void SetControlDontKnow( bool bSet ) SAL_OVERRIDE; virtual ValueT GetControlValue() const SAL_OVERRIDE; virtual void SetControlValue( ValueT nValue ) SAL_OVERRIDE; private: FieldUnit meUnit; }; #define WRAPPER_LISTBOX_ENTRY_NOTFOUND 0xFFFF /* XXX was value of LISTBOX_ENTRY_NOTFOUND */ /** A wrapper for the VCL ListBox. If a position<->value map is passed to the constructor, it MUST be terminated with an entry containing WRAPPER_LISTBOX_ENTRY_NOTFOUND as list position. See documentation of the PosValueMapper template for details. */ template< typename ValueT > class ListBoxWrapper : public SingleControlWrapper< ListBox, ValueT >, public PosValueMapper< ListBoxPosType, ValueT > { typedef PosValueMapper< ListBoxPosType, ValueT > MapperType; public: typedef typename MapperType::MapEntryType MapEntryType; /** @param pMap Optional list position <-> value map. See PosValueMapper documentation for details. */ explicit ListBoxWrapper( ListBox& rListBox, const MapEntryType* pMap ) : SingleControlWrapper< ListBox, ValueT >( rListBox ), MapperType( WRAPPER_LISTBOX_ENTRY_NOTFOUND, pMap ) {} virtual bool IsControlDontKnow() const SAL_OVERRIDE { return this->GetControl().GetSelectedEntryCount() == 0; } virtual void SetControlDontKnow( bool bSet ) SAL_OVERRIDE { if( bSet ) this->GetControl().SetNoSelection(); } virtual ValueT GetControlValue() const SAL_OVERRIDE; virtual void SetControlValue( ValueT nValue ) SAL_OVERRIDE; }; #define WRAPPER_VALUESET_ITEM_NOTFOUND 0xFFFF /* XXX was value of VALUESET_ITEM_NOTFOUND */ /** A wrapper for the SVTOOLS ValueSet. If a position<->value map is passed to the constructor, it MUST be terminated with an entry containing WRAPPER_VALUESET_ITEM_NOTFOUND as list position. See documentation of the PosValueMapper template for details. */ template< typename ValueT > class ValueSetWrapper : public SingleControlWrapper< ValueSet, ValueT >, public PosValueMapper< ValueSetPosType, ValueT > { typedef PosValueMapper< ValueSetPosType, ValueT > MapperType; public: typedef typename MapperType::MapEntryType MapEntryType; /** @param pMap Optional position <-> value map. See PosValueMapper documentation for details. */ explicit ValueSetWrapper( ValueSet& rValueSet, const MapEntryType* pMap ) : SingleControlWrapper< ValueSet, ValueT >( rValueSet ), MapperType( WRAPPER_VALUESET_ITEM_NOTFOUND, pMap ) {} virtual bool IsControlDontKnow() const SAL_OVERRIDE { return this->GetControl().IsNoSelection(); } virtual void SetControlDontKnow( bool bSet ) SAL_OVERRIDE { if( bSet ) this->GetControl().SetNoSelection(); } virtual ValueT GetControlValue() const SAL_OVERRIDE; virtual void SetControlValue( ValueT nValue ) SAL_OVERRIDE; }; // Multi control wrappers struct MultiControlWrapperHelper_Impl; /** A container of control wrappers. Derived classes should define control wrapper members and register them in their constructor, using the function RegisterControlWrapper(). This wrapper implements the abstract functions of the ControlWrapperBase base class by calling the functions of all registered wrappers. */ class SFX2_DLLPUBLIC MultiControlWrapperHelper : public ControlWrapperBase { public: explicit MultiControlWrapperHelper(); virtual ~MultiControlWrapperHelper() override; /** Registers a control wrapper (should be a member of a derived class). */ void RegisterControlWrapper( ControlWrapperBase& rWrapper ); /** Enables, disables, shows, or hides the registered controls. */ virtual void ModifyControl( TriState eShow ) override; /** Returns true if all registered controls are in "don't know" state. */ virtual bool IsControlDontKnow() const override; /** Sets all registered controls to "don't know" state. */ virtual void SetControlDontKnow( bool bSet ) override; private: std::unique_ptr< MultiControlWrapperHelper_Impl > mxImpl; }; /** A multi control wrapper with extended interface. This template class extends the MultiControlWrapperHelper class by the functions GetControlValue() and SetControlValue(), known from the SingleControlWrapper template. This makes it possible to use this template in item connections expecting a single control wrapper. The type ValueT should be able to contain the values of all controls handled in this wrapper. In most cases, the easiest way to achieve this is to use the related item type directly, using the IdentItemWrapper template (itemwrapper.hxx). */ template< typename ValueT > class MultiControlWrapper : public MultiControlWrapperHelper { public: typedef MultiControlWrapperHelper ControlType; typedef ValueT ControlValueType; typedef MultiControlWrapper< ValueT > MultiControlWrapperType; MultiControlWrapper() : maDefValue( 0 ){} /** Returns the default value that can be used in GetControlValue(). */ const ValueT& GetDefaultValue() const { return maDefValue; } /** Sets a default value that can be used in GetControlValue(). */ void SetDefaultValue( const ValueT& rDefValue ) { maDefValue = rDefValue; } /** Derived classes return the value the control contains. */ virtual ValueT GetControlValue() const = 0; /** Derived classes set the contents of the control to the passed value. */ virtual void SetControlValue( ValueT aValue ) = 0; private: ValueT maDefValue; }; // *** Implementation of template functions *** // Helpers template< typename PosT, typename ValueT > ValueT PosValueMapper< PosT, ValueT >::GetValueFromPos( PosT nPos ) const { ValueT nValue; if( mpMap ) { const MapEntryType* pEntry = mpMap; while( (pEntry->mnPos != nPos) && (pEntry->mnPos != mnNFPos) ) ++pEntry; nValue = pEntry->mnValue; } else /* if( nPos != mnNFPos ) */ { DBG_ASSERT( nPos != mnNFPos, "sfx2::PosValueMapper< PosT, ValueT >::GetValueFromPos(), previously uninitialized value found!" ); nValue = static_cast< ValueT >( nPos ); } return nValue; } template< typename PosT, typename ValueT > PosT PosValueMapper< PosT, ValueT >::GetPosFromValue( ValueT nValue ) const { PosT nPos = mnNFPos; if( mpMap ) { const MapEntryType* pEntry = mpMap; while( (pEntry->mnValue != nValue) && (pEntry->mnPos != mnNFPos) ) ++pEntry; nPos = pEntry->mnPos; } else if( nValue >= static_cast< ValueT >(0) ) nPos = static_cast< PosT >( nValue ); return nPos; } // Single control wrappers template< typename ControlT, typename ValueT > inline void SingleControlWrapper< ControlT, ValueT >::ModifyControl( TriState eShow ) { if( eShow != TRISTATE_INDET ) mrControl.Show( eShow == TRISTATE_TRUE ); } template< typename ValueT > bool MetricFieldWrapper< ValueT >::IsControlDontKnow() const { return this->GetControl().GetText().isEmpty(); } template< typename ValueT > void MetricFieldWrapper< ValueT >::SetControlDontKnow( bool bSet ) { if( bSet ) this->GetControl().SetText( OUString() ); } template< typename ValueT > ValueT MetricFieldWrapper< ValueT >::GetControlValue() const { return static_cast< ValueT >( this->GetControl().Denormalize( this->GetControl().GetValue( meUnit ) ) ); } template< typename ValueT > void MetricFieldWrapper< ValueT >::SetControlValue( ValueT nValue ) { this->GetControl().SetValue( this->GetControl().Normalize( static_cast< sal_Int64 >( nValue ) ), meUnit ); } template< typename ValueT > ValueT ListBoxWrapper< ValueT >::GetControlValue() const { return this->GetValueFromPos( this->GetControl().GetSelectedEntryPos() ); } template< typename ValueT > void ListBoxWrapper< ValueT >::SetControlValue( ValueT nValue ) { sal_uInt16 nPos = this->GetPosFromValue( nValue ); if( nPos != this->GetNotFoundPos() ) this->GetControl().SelectEntryPos( nPos ); } template< typename ValueT > ValueT ValueSetWrapper< ValueT >::GetControlValue() const { return this->GetValueFromPos( this->GetControl().GetSelectItemId() ); } template< typename ValueT > void ValueSetWrapper< ValueT >::SetControlValue( ValueT nValue ) { sal_uInt16 nPos = this->GetPosFromValue( nValue ); if( nPos != this->GetNotFoundPos() ) this->GetControl().SelectItem( nPos ); } } // namespace sfx #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */