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/* -*- 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>
#include <tools/solar.h>
#include <accel.h>
#include <vcl/accel.hxx>
#include <map>
#include <vector>
typedef ::std::map< sal_uLong, ImplAccelEntry* > ImplAccelMap;
typedef ::std::vector< std::unique_ptr<ImplAccelEntry> > ImplAccelList;
#define ACCELENTRY_NOTFOUND (sal_uInt16(0xFFFF))
class ImplAccelData
{
public:
ImplAccelMap maKeyMap; // for keycodes, generated with a code
ImplAccelList maIdList; // Id-List
};
static sal_uInt16 ImplAccelEntryGetIndex( ImplAccelList* pList, sal_uInt16 nId,
sal_uInt16* pIndex = nullptr )
{
size_t nLow;
size_t nHigh;
size_t nMid;
size_t nCount = pList->size();
sal_uInt16 nCompareId;
// check if first key is larger then the key to compare
if ( !nCount || (nId < (*pList)[ 0 ]->mnId) )
{
if ( pIndex )
*pIndex = 0;
return ACCELENTRY_NOTFOUND;
}
// Binary search
nLow = 0;
nHigh = nCount-1;
do
{
nMid = (nLow + nHigh) / 2;
nCompareId = (*pList)[ nMid ]->mnId;
if ( nId < nCompareId )
nHigh = nMid-1;
else
{
if ( nId > nCompareId )
nLow = nMid + 1;
else
return static_cast<sal_uInt16>(nMid);
}
}
while ( nLow <= nHigh );
if ( pIndex )
{
if ( nId > nCompareId )
*pIndex = static_cast<sal_uInt16>(nMid+1);
else
*pIndex = static_cast<sal_uInt16>(nMid);
}
return ACCELENTRY_NOTFOUND;
}
static void ImplAccelEntryInsert( ImplAccelList* pList, std::unique_ptr<ImplAccelEntry> pEntry )
{
sal_uInt16 nInsIndex(0);
std::vector<ImplAccelEntry *>::size_type nIndex = ImplAccelEntryGetIndex( pList, pEntry->mnId, &nInsIndex );
if ( nIndex != ACCELENTRY_NOTFOUND )
{
do
{
nIndex++;
ImplAccelEntry* pTempEntry = nullptr;
if ( nIndex < pList->size() )
pTempEntry = (*pList)[ nIndex ].get();
if ( !pTempEntry || (pTempEntry->mnId != pEntry->mnId) )
break;
}
while ( nIndex < pList->size() );
if ( nIndex < pList->size() ) {
pList->insert( pList->begin() + nIndex, std::move(pEntry) );
} else {
pList->push_back( std::move(pEntry) );
}
}
else {
if ( nInsIndex < pList->size() ) {
pList->insert( pList->begin() + nInsIndex, std::move(pEntry) );
} else {
pList->push_back( std::move(pEntry) );
}
}
}
void Accelerator::ImplInit()
{
mnCurId = 0;
mpDel = nullptr;
}
ImplAccelEntry* Accelerator::ImplGetAccelData( const vcl::KeyCode& rKeyCode ) const
{
ImplAccelMap::iterator it = mpData->maKeyMap.find( rKeyCode.GetFullCode() );
if( it != mpData->maKeyMap.end() )
return it->second;
else
return nullptr;
}
void Accelerator::ImplCopyData( ImplAccelData& rAccelData )
{
// copy table
for (std::unique_ptr<ImplAccelEntry>& i : rAccelData.maIdList)
{
std::unique_ptr<ImplAccelEntry> pEntry(new ImplAccelEntry( *i ));
// sequence accelerator, then copy also
if ( pEntry->mpAccel )
{
pEntry->mpAccel = new Accelerator( *(pEntry->mpAccel) );
pEntry->mpAutoAccel = pEntry->mpAccel;
}
else
pEntry->mpAutoAccel = nullptr;
mpData->maKeyMap.insert( std::make_pair( pEntry->maKeyCode.GetFullCode(), pEntry.get() ) );
mpData->maIdList.push_back( std::move(pEntry) );
}
}
void Accelerator::ImplDeleteData()
{
// delete accelerator-entries using the id-table
for (const std::unique_ptr<ImplAccelEntry>& pEntry : mpData->maIdList) {
delete pEntry->mpAutoAccel;
}
mpData->maIdList.clear();
}
void Accelerator::ImplInsertAccel( sal_uInt16 nItemId, const vcl::KeyCode& rKeyCode,
bool bEnable, Accelerator* pAutoAccel )
{
SAL_WARN_IF( !nItemId, "vcl", "Accelerator::InsertItem(): ItemId == 0" );
if ( rKeyCode.IsFunction() )
{
sal_uInt16 nCode1;
sal_uInt16 nCode2;
sal_uInt16 nCode3;
sal_uInt16 nCode4;
ImplGetKeyCode( rKeyCode.GetFunction(), nCode1, nCode2, nCode3, nCode4 );
if ( nCode1 )
ImplInsertAccel( nItemId, vcl::KeyCode( nCode1, nCode1 ), bEnable, pAutoAccel );
if ( nCode2 )
{
if ( pAutoAccel )
pAutoAccel = new Accelerator( *pAutoAccel );
ImplInsertAccel( nItemId, vcl::KeyCode( nCode2, nCode2 ), bEnable, pAutoAccel );
if ( nCode3 )
{
if ( pAutoAccel )
pAutoAccel = new Accelerator( *pAutoAccel );
ImplInsertAccel( nItemId, vcl::KeyCode( nCode3, nCode3 ), bEnable, pAutoAccel );
}
}
return;
}
// fetch and fill new entries
std::unique_ptr<ImplAccelEntry> pEntry(new ImplAccelEntry);
pEntry->mnId = nItemId;
pEntry->maKeyCode = rKeyCode;
pEntry->mpAccel = pAutoAccel;
pEntry->mpAutoAccel = pAutoAccel;
pEntry->mbEnabled = bEnable;
// now into the tables
sal_uLong nCode = rKeyCode.GetFullCode();
if ( !nCode )
{
OSL_FAIL( "Accelerator::InsertItem(): KeyCode with KeyCode 0 not allowed" );
}
else if ( !mpData->maKeyMap.insert( std::make_pair( nCode, pEntry.get() ) ).second )
{
SAL_WARN( "vcl", "Accelerator::InsertItem(): KeyCode (Key: " << nCode << ") already exists" );
}
else
ImplAccelEntryInsert( &(mpData->maIdList), std::move(pEntry) );
}
Accelerator::Accelerator()
{
ImplInit();
mpData.reset(new ImplAccelData);
}
Accelerator::Accelerator(const Accelerator& rAccel)
{
ImplInit();
mpData.reset(new ImplAccelData);
ImplCopyData(*rAccel.mpData);
}
Accelerator::~Accelerator()
{
// inform AccelManager about deleting the Accelerator
if ( mpDel )
*mpDel = true;
ImplDeleteData();
}
void Accelerator::Activate()
{
maActivateHdl.Call( *this );
}
void Accelerator::Select()
{
maSelectHdl.Call( *this );
}
void Accelerator::InsertItem( sal_uInt16 nItemId, const vcl::KeyCode& rKeyCode )
{
ImplInsertAccel( nItemId, rKeyCode, true, nullptr );
}
sal_uInt16 Accelerator::GetItemCount() const
{
return static_cast<sal_uInt16>(mpData->maIdList.size());
}
sal_uInt16 Accelerator::GetItemId( sal_uInt16 nPos ) const
{
ImplAccelEntry* pEntry = ( nPos < mpData->maIdList.size() ) ? mpData->maIdList[ nPos ].get() : nullptr;
if ( pEntry )
return pEntry->mnId;
else
return 0;
}
Accelerator* Accelerator::GetAccel( sal_uInt16 nItemId ) const
{
sal_uInt16 nIndex = ImplAccelEntryGetIndex( &(mpData->maIdList), nItemId );
if ( nIndex != ACCELENTRY_NOTFOUND )
return mpData->maIdList[ nIndex ]->mpAccel;
else
return nullptr;
}
Accelerator& Accelerator::operator=( const Accelerator& rAccel )
{
if(this == &rAccel)
return *this;
// assign new data
mnCurId = 0;
// delete and copy tables
ImplDeleteData();
mpData->maKeyMap.clear();
ImplCopyData(*rAccel.mpData);
return *this;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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