/* -*- 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 .
*/
#include <sal/log.hxx>
#include <osl/diagnose.h>
// due to pSlotPool
#include <appdata.hxx>
#include <sfx2/msgpool.hxx>
#include <sfx2/msg.hxx>
#include <sfx2/app.hxx>
#include <sfx2/objface.hxx>
#include <sfx2/sfxresid.hxx>
#include <sfx2/module.hxx>
#include <sfx2/strings.hrc>
SfxSlotPool::SfxSlotPool(SfxSlotPool *pParent)
: _pParentPool( pParent )
, _nCurGroup(0)
, _nCurInterface(0)
, _nCurMsg(0)
{
}
SfxSlotPool::~SfxSlotPool()
{
_pParentPool = nullptr;
// swap out _vInterfaces because ~SfxInterface() might call ReleaseInterface()
std::vector<SfxInterface*> tmpInterfaces;
tmpInterfaces.swap(_vInterfaces);
for ( SfxInterface *pIF : tmpInterfaces )
delete pIF;
}
namespace
{
TranslateId getGidResId(SfxGroupId nId)
{
if (nId == SfxGroupId::Intern)
return STR_GID_INTERN;
else if (nId == SfxGroupId::Application)
return STR_GID_APPLICATION;
else if (nId == SfxGroupId::View)
return STR_GID_VIEW;
else if (nId == SfxGroupId::Document)
return STR_GID_DOCUMENT;
else if (nId == SfxGroupId::Edit)
return STR_GID_EDIT;
else if (nId == SfxGroupId::Macro)
return STR_GID_MACRO;
else if (nId == SfxGroupId::Options)
return STR_GID_OPTIONS;
else if (nId == SfxGroupId::Math)
return STR_GID_MATH;
else if (nId == SfxGroupId::Navigator)
return STR_GID_NAVIGATOR;
else if (nId == SfxGroupId::Insert)
return STR_GID_INSERT;
else if (nId == SfxGroupId::Format)
return STR_GID_FORMAT;
else if (nId == SfxGroupId::Template)
return STR_GID_TEMPLATE;
else if (nId == SfxGroupId::Text)
return STR_GID_TEXT;
else if (nId == SfxGroupId::Frame)
return STR_GID_FRAME;
else if (nId == SfxGroupId::Graphic)
return STR_GID_GRAPHIC;
else if (nId == SfxGroupId::Table)
return STR_GID_TABLE;
else if (nId == SfxGroupId::Enumeration)
return STR_GID_ENUMERATION;
else if (nId == SfxGroupId::Data)
return STR_GID_DATA;
else if (nId == SfxGroupId::Special)
return STR_GID_SPECIAL;
else if (nId == SfxGroupId::Image)
return STR_GID_IMAGE;
else if (nId == SfxGroupId::Chart)
return STR_GID_CHART;
else if (nId == SfxGroupId::Explorer)
return STR_GID_EXPLORER;
else if (nId == SfxGroupId::Connector)
return STR_GID_CONNECTOR;
else if (nId == SfxGroupId::Modify)
return STR_GID_MODIFY;
else if (nId == SfxGroupId::Drawing)
return STR_GID_DRAWING;
else if (nId == SfxGroupId::Controls)
return STR_GID_CONTROLS;
return {};
}
}
// registers the availability of the Interface of functions
void SfxSlotPool::RegisterInterface( SfxInterface& rInterface )
{
// add to the list of SfxObjectInterface instances
_vInterfaces.push_back(&rInterface);
// Stop at a (single) Null-slot (for syntactic reasons the interfaces
// always contain at least one slot)
if ( rInterface.Count() != 0 && !rInterface.pSlots[0].nSlotId )
return;
// possibly add Interface-id and group-ids of funcs to the list of groups
if ( _pParentPool )
{
// The Groups in parent Slotpool are also known here
_vGroups.insert( _vGroups.end(), _pParentPool->_vGroups.begin(), _pParentPool->_vGroups.end() );
}
for ( size_t nFunc = 0; nFunc < rInterface.Count(); ++nFunc )
{
SfxSlot &rDef = rInterface.pSlots[nFunc];
if ( rDef.GetGroupId() != SfxGroupId::NONE &&
std::find(_vGroups.begin(), _vGroups.end(), rDef.GetGroupId()) == _vGroups.end() )
{
if (rDef.GetGroupId() == SfxGroupId::Intern)
_vGroups.insert(_vGroups.begin(), rDef.GetGroupId());
else
_vGroups.push_back(rDef.GetGroupId());
}
}
}
const std::type_info* SfxSlotPool::GetSlotType( sal_uInt16 nId ) const
{
const SfxSlot* pSlot = GetSlot( nId );
return pSlot ? pSlot->GetType()->Type() : nullptr;
}
// get the first SfxMessage for a special Id (e.g. for getting check-mode)
const SfxSlot* SfxSlotPool::GetSlot( sal_uInt16 nId ) const
{
// First, search their own interfaces
for (SfxInterface* _pInterface : _vInterfaces)
{
const SfxSlot *pDef = _pInterface->GetSlot(nId);
if ( pDef )
return pDef;
}
// Then try any of the possible existing parent
return _pParentPool ? _pParentPool->GetSlot( nId ) : nullptr;
}
// skips to the next group
OUString SfxSlotPool::SeekGroup( sal_uInt16 nNo )
{
// if the group exists, use it
if ( nNo < _vGroups.size() )
{
_nCurGroup = nNo;
if ( _pParentPool )
{
// In most cases, the order of the IDs agree
sal_uInt16 nParentCount = _pParentPool->_vGroups.size();
if ( nNo < nParentCount && _vGroups[nNo] == _pParentPool->_vGroups[nNo] )
_pParentPool->_nCurGroup = nNo;
else
{
// Otherwise search. If the group is not found in the parent
// pool, _nCurGroup is set outside the valid range
sal_uInt16 i;
for ( i=1; i<nParentCount; i++ )
if ( _vGroups[nNo] == _pParentPool->_vGroups[i] )
break;
_pParentPool->_nCurGroup = i;
}
}
TranslateId pResId = getGidResId(_vGroups[_nCurGroup]);
if (!pResId)
{
OSL_FAIL( "GroupId-Name not defined in SFX!" );
return OUString();
}
return SfxResId(pResId);
}
return OUString();
}
sal_uInt16 SfxSlotPool::GetGroupCount() const
{
return _vGroups.size();
}
// internal search loop
const SfxSlot* SfxSlotPool::SeekSlot( sal_uInt16 nStartInterface )
{
// The numbering starts at the interfaces of the parent pool
sal_uInt16 nFirstInterface = _pParentPool ? _pParentPool->_vInterfaces.size() : 0;
// have reached the end of the Parent-Pools?
if ( nStartInterface < nFirstInterface &&
_pParentPool->_nCurGroup >= _pParentPool->_vGroups.size() )
nStartInterface = nFirstInterface;
// Is the Interface still in the Parent-Pool?
if ( nStartInterface < nFirstInterface )
{
SAL_WARN_IF(!_pParentPool, "sfx.control", "No parent pool!");
_nCurInterface = nStartInterface;
return _pParentPool->SeekSlot( nStartInterface );
}
// find the first func-def with the current group id
sal_uInt16 nCount = _vInterfaces.size() + nFirstInterface;
for ( _nCurInterface = nStartInterface;
_nCurInterface < nCount;
++_nCurInterface )
{
SfxInterface* pInterface = _vInterfaces[_nCurInterface-nFirstInterface];
for ( _nCurMsg = 0;
_nCurMsg < pInterface->Count();
++_nCurMsg )
{
const SfxSlot& rMsg = pInterface->pSlots[_nCurMsg];
if (rMsg.GetGroupId() == _vGroups.at(_nCurGroup))
return &rMsg;
}
}
return nullptr;
}
// skips to the next func in the current group
const SfxSlot* SfxSlotPool::NextSlot()
{
// The numbering starts at the interfaces of the parent pool
sal_uInt16 nFirstInterface = _pParentPool ? _pParentPool->_vInterfaces.size() : 0;
if ( _nCurInterface < nFirstInterface && _nCurGroup >= _pParentPool->_vGroups.size() )
_nCurInterface = nFirstInterface;
if ( _nCurInterface < nFirstInterface )
{
SAL_WARN_IF(!_pParentPool, "sfx.control", "No parent pool!");
const SfxSlot *pSlot = _pParentPool->NextSlot();
_nCurInterface = _pParentPool->_nCurInterface;
if ( pSlot )
return pSlot;
if ( _nCurInterface == nFirstInterface )
// parent pool is ready
return SeekSlot( nFirstInterface );
}
sal_uInt16 nInterface = _nCurInterface - nFirstInterface;
// possibly we are already at the end
if ( nInterface >= _vInterfaces.size() )
return nullptr;
// look for further matching func-defs within the same Interface
SfxInterface* pInterface = _vInterfaces[nInterface];
while ( ++_nCurMsg < pInterface->Count() )
{
SfxSlot& rMsg = pInterface->pSlots[_nCurMsg];
if (rMsg.GetGroupId() == _vGroups.at(_nCurGroup))
return &rMsg;
}
return SeekSlot(++_nCurInterface );
}
// Query SlotName with help text
const SfxSlot* SfxSlotPool::GetUnoSlot( const OUString& rName ) const
{
const SfxSlot *pSlot = nullptr;
for (auto const & nInterface: _vInterfaces)
{
pSlot = nInterface->GetSlot( rName );
if ( pSlot )
break;
}
if ( !pSlot && _pParentPool )
pSlot = _pParentPool->GetUnoSlot( rName );
return pSlot;
}
SfxSlotPool& SfxSlotPool::GetSlotPool( SfxViewFrame *pFrame )
{
SfxModule *pMod = SfxModule::GetActiveModule( pFrame );
if ( pMod && pMod->GetSlotPool() )
return *pMod->GetSlotPool();
else
return *SfxGetpApp()->Get_Impl()->pSlotPool;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V1029 Numeric Truncation Error. Return value of the 'size' function is written to the 16-bit variable.