/* -*- 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_MSG_HXX #define INCLUDED_SFX2_MSG_HXX #include #include #include #include #include #include #include enum class SfxSlotMode { NONE = 0x0000L, // default TOGGLE = 0x0004L, // inverted for Execute old value AUTOUPDATE = 0x0008L, // invalidated the status automatically after execute ASYNCHRON = 0x0020L, // via Post-Message NORECORD = 0x0100L, // no recording RECORDPERITEM = 0x0200L, // each item, one statement RECORDPERSET = 0x0400L, // The whole Set is a Statement, default RECORDABSOLUTE = 0x1000000L, // Recording with absolute Target STANDARD = 0x00400L, // RECORDPERSET; METHOD = 0x4000L, FASTCALL = 0x8000L, // No test if disabled before Execute MENUCONFIG = 0x20000L, // configurable Menu TOOLBOXCONFIG = 0x40000L, // configurable Toolboxen ACCELCONFIG = 0x80000L, // configurable keys CONTAINER = 0x100000L, // Operated by the container at InPlace READONLYDOC = 0x200000L, // also available for read-only Documents IMAGEROTATION = 0x400000L, // Rotate image on Vertical/Bi-directional writing IMAGEREFLECTION = 0x800000L // Mirror image on Vertical/Bi-directional writing }; namespace o3tl { template<> struct typed_flags : is_typed_flags {}; } class SfxRequest; #define SFX_EXEC_STUB( aShellClass, aExecMethod) \ void SfxStub##aShellClass##aExecMethod( \ SfxShell *pShell, SfxRequest& rReq) \ { \ static_cast(pShell)->aExecMethod( rReq ); \ } #define SFX_STATE_STUB( aShellClass, aStateMethod) \ void SfxStub##aShellClass##aStateMethod( \ SfxShell *pShell, SfxItemSet& rSet) \ { \ static_cast(pShell)->aStateMethod( rSet ); \ } #define SFX_STUB_PTR( aShellClass, aMethod ) \ &SfxStub##aShellClass##aMethod #define SFX_STUB_PTR_EXEC_NONE &SfxShell::EmptyExecStub #define SFX_STUB_PTR_STATE_NONE &SfxShell::EmptyStateStub enum class SfxSlotKind { Standard, Enum, Attribute }; struct SfxTypeAttrib { sal_uInt16 nAID; const char* pName; }; class SfxPoolItem; template SfxPoolItem* createSfxPoolItem() { return T::CreateDefault(); } struct SfxType { std::function createSfxPoolItemFunc; const std::type_info* pType; sal_uInt16 nAttribs; SfxTypeAttrib aAttrib[1]; // variable length const std::type_info* Type() const{return pType;} SfxPoolItem* CreateItem() const { return static_cast(createSfxPoolItemFunc()); } }; struct SfxType0 { std::function createSfxPoolItemFunc; const std::type_info* pType; sal_uInt16 nAttribs; const std::type_info* Type() const { return pType;} }; #define SFX_DECL_TYPE(n) struct SfxType##n \ { \ std::function createSfxPoolItemFunc; \ const std::type_info* pType; \ sal_uInt16 nAttribs; \ SfxTypeAttrib aAttrib[n]; \ } #define SFX_TYPE(Class) &a##Class##_Impl SFX_DECL_TYPE(1); SFX_DECL_TYPE(2); SFX_DECL_TYPE(3); SFX_DECL_TYPE(4); SFX_DECL_TYPE(5); SFX_DECL_TYPE(6); SFX_DECL_TYPE(7); SFX_DECL_TYPE(8); SFX_DECL_TYPE(10); // for SfxDocInfoItem SFX_DECL_TYPE(11); SFX_DECL_TYPE(13); // for SwAddPrinterItem, Sd... SFX_DECL_TYPE(14); SFX_DECL_TYPE(16); // for SwDocDisplayItem SFX_DECL_TYPE(17); // for SvxAddressItem SFX_DECL_TYPE(22); // for SvxSearchItem // all SfxTypes must be in this header #undef SFX_DECL_TYPE #define SFX_SLOT_ARG( aShellClass, id, GroupId, ExecMethodPtr, StateMethodPtr, Flags, ItemClass, nArg0, nArgs, Name, Prop ) \ { id, GroupId, Flags | Prop, \ USHRT_MAX, 0, \ ExecMethodPtr, \ StateMethodPtr, \ (const SfxType*) &a##ItemClass##_Impl, \ 0, 0, \ &a##aShellClass##Args_Impl[nArg0], nArgs, 0, Name \ } #define SFX_SLOT( aShellClass, id, GroupId, ExecMethodPtr, StateMethodPtr, Flags, ItemClass ) \ { id, GroupId, Flags, \ 0, 0, \ ExecMethodPtr, \ StateMethodPtr, \ (const SfxType*) &a##ItemClass##_Impl, \ 0, 0, 0, 0, 0 \ } #define SFX_NEW_SLOT_ARG( aShellClass, id, GroupId, pLinked, pNext, ExecMethodPtr, StateMethodPtr, Flags, DisableFlags, ItemClass, nArg0, nArgs, Prop, UnoName ) \ { id, GroupId, Flags | Prop, \ USHRT_MAX, 0, \ ExecMethodPtr, \ StateMethodPtr, \ (const SfxType*) &a##ItemClass##_Impl, \ pLinked, pNext, \ &a##aShellClass##Args_Impl[nArg0], nArgs, DisableFlags, UnoName \ } #define SFX_NEW_SLOT_ENUM( SlaveId, GroupId, pMaster, pNext, MasterId, Value, Flags, DisableFlags, UnoName ) \ { SlaveId, GroupId, Flags, \ MasterId, Value, \ 0, \ 0, \ (const SfxType*) &aSfxBoolItem_Impl, \ pMaster, \ pNext, \ 0, 0, DisableFlags, UnoName \ } struct SfxFormalArgument { const SfxType* pType; // Type of the parameter (SfxPoolItem subclass) const char* pName; // Name of the sParameters sal_uInt16 nSlotId; // Slot-Id for identification of the Parameters SfxPoolItem* CreateItem() const { return pType->createSfxPoolItemFunc(); } }; class SfxSlot { public: sal_uInt16 nSlotId; // Unique slot-ID in Shell sal_uInt16 nGroupId; // for configuration region SfxSlotMode nFlags; // arithmetic ordered Flags sal_uInt16 nMasterSlotId; // Enum-Slot for example Which-Id sal_uInt16 nValue; // Value, in case of Enum-Slot SfxExecFunc fnExec; // Function to be executed SfxStateFunc fnState; // Function for Status const SfxType* pType; // SfxPoolItem-Type (Status) const SfxSlot* pLinkedSlot; // Master-Slot for Enum value const SfxSlot* pNextSlot; // with the same Status-Method const SfxFormalArgument* pFirstArgDef; // first formal Argument-Definition sal_uInt16 nArgDefCount; // Number of formal Arguments long nDisableFlags; // DisableFlags that need to be // present, so that the Slot // can be enabled const char* pUnoName; // UnoName for the Slots public: SfxSlotKind GetKind() const; sal_uInt16 GetSlotId() const; SfxSlotMode GetMode() const; bool IsMode( SfxSlotMode nMode ) const; sal_uInt16 GetGroupId() const; sal_uInt16 GetMasterSlotId() const { return nMasterSlotId; } sal_uInt16 GetWhich( const SfxItemPool &rPool ) const; sal_uInt16 GetValue() const { return nValue; } const SfxType* GetType() const { return pType; } const char* GetUnoName() const { return pUnoName; } SFX2_DLLPUBLIC OString GetCommand() const; SFX2_DLLPUBLIC OUString GetCommandString() const; sal_uInt16 GetFormalArgumentCount() const { return nArgDefCount; } const SfxFormalArgument& GetFormalArgument( sal_uInt16 nNo ) const { return pFirstArgDef[nNo]; } SfxExecFunc GetExecFnc() const { return fnExec; } SfxStateFunc GetStateFnc() const { return fnState; } const SfxSlot* GetLinkedSlot() const { return pLinkedSlot; } const SfxSlot* GetNextSlot() const { return pNextSlot; } }; // returns the id of the function inline sal_uInt16 SfxSlot::GetSlotId() const { return nSlotId; } // returns a bitfield with flags inline SfxSlotMode SfxSlot::GetMode() const { return nFlags; } // determines if the specified mode is assigned inline bool SfxSlot::IsMode( SfxSlotMode nMode ) const { return bool(nFlags & nMode); } // returns the id of the associated group inline sal_uInt16 SfxSlot::GetGroupId() const { return nGroupId; } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */