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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 <ctype.h>
#include <stdio.h>
#include <rtl/strbuf.hxx>
#include <osl/diagnose.h>
#include <object.hxx>
#include <globals.hxx>
#include <database.hxx>
TYPEINIT1( SvClassElement, SvPersistBase );
SvClassElement::SvClassElement()
{
};
TYPEINIT1( SvMetaClass, SvMetaType );
SvMetaClass::SvMetaClass()
: aAutomation( true, false )
{
}
void SvMetaClass::ReadAttributesSvIdl( SvIdlDataBase & rBase,
SvTokenStream & rInStm )
{
SvMetaType::ReadAttributesSvIdl( rBase, rInStm );
aAutomation.ReadSvIdl( SvHash_Automation(), rInStm );
}
void SvMetaClass::ReadContextSvIdl( SvIdlDataBase & rBase,
SvTokenStream & rInStm )
{
sal_uInt32 nTokPos = rInStm.Tell();
SvToken * pTok = rInStm.GetToken_Next();
if( pTok->Is( SvHash_import() ) )
{
SvMetaClass * pClass = rBase.ReadKnownClass( rInStm );
if( pClass )
{
SvClassElementRef xEle = new SvClassElement();
xEle->SetClass( pClass );
aClassList.push_back( xEle );
if( rInStm.Read( '[' ) )
{
pTok = rInStm.GetToken_Next();
if( pTok->Is( SvHash_Automation() ) )
{
if( rInStm.Read( ']' ) )
{
if( xAutomationInterface.Is() )
{
// set error
rBase.SetError( "Automation already set",
rInStm.GetToken() );
rBase.WriteError( rInStm );
}
xAutomationInterface = pClass;
xEle->SetAutomation( true );
}
else
{
// set error
rBase.SetError( "missing ]", rInStm.GetToken() );
rBase.WriteError( rInStm );
}
}
else
{
// set error
rBase.SetError( "only attribute Automation allowed",
rInStm.GetToken() );
rBase.WriteError( rInStm );
}
}
pTok = rInStm.GetToken();
if( pTok->IsString() )
{
xEle->SetPrefix( pTok->GetString() );
rInStm.GetToken_Next();
}
return;
}
else
{
// set error
rBase.SetError( "unknown imported interface", rInStm.GetToken() );
rBase.WriteError( rInStm );
}
}
else
{
rInStm.Seek( nTokPos );
SvMetaType * pType = rBase.ReadKnownType( rInStm );
bool bOk = false;
SvMetaAttributeRef xAttr;
if( !pType || pType->IsItem() )
{
xAttr = new SvMetaSlot( pType );
if( xAttr->ReadSvIdl( rBase, rInStm ) )
bOk = xAttr->Test( rBase, rInStm );
}
else
{
xAttr = new SvMetaAttribute( pType );
if( xAttr->ReadSvIdl( rBase, rInStm ) )
bOk = xAttr->Test( rBase, rInStm );
}
if( bOk )
bOk = TestAttribute( rBase, rInStm, *xAttr );
if( bOk )
{
if( !xAttr->GetSlotId().IsSet() )
{
SvNumberIdentifier aI;
aI.SetValue( rBase.GetUniqueId() );
xAttr->SetSlotId( aI );
}
aAttrList.push_back( xAttr );
return;
}
}
rInStm.Seek( nTokPos );
}
bool SvMetaClass::ReadSvIdl( SvIdlDataBase & rBase, SvTokenStream & rInStm )
{
sal_uLong nTokPos = rInStm.Tell();
if( SvMetaType::ReadHeaderSvIdl( rBase, rInStm ) && GetType() == TYPE_CLASS )
{
bool bOk = true;
if( rInStm.Read( ':' ) )
{
aSuperClass = rBase.ReadKnownClass( rInStm );
bOk = aSuperClass.Is();
if( !bOk )
{
// set error
rBase.SetError( "unknown super class",
rInStm.GetToken() );
rBase.WriteError( rInStm );
}
}
if( bOk )
{
rBase.Write(OString('.'));
bOk = SvMetaName::ReadSvIdl( rBase, rInStm );
}
if( bOk )
return bOk;
}
rInStm.Seek( nTokPos );
return false;
}
bool SvMetaClass::TestAttribute( SvIdlDataBase & rBase, SvTokenStream & rInStm,
SvMetaAttribute & rAttr ) const
{
if ( !rAttr.GetRef() && rAttr.IsA( TYPE( SvMetaSlot ) ) )
{
OSL_FAIL( "Neuer Slot : " );
OSL_FAIL( rAttr.GetSlotId().getString().getStr() );
}
for( sal_uLong n = 0; n < aAttrList.size(); n++ )
{
SvMetaAttribute * pS = aAttrList[n];
if( pS->GetName().getString() == rAttr.GetName().getString() )
{
// values have to match
if( pS->GetSlotId().GetValue() != rAttr.GetSlotId().GetValue() )
{
OSL_FAIL( "Same Name in MetaClass : " );
OSL_FAIL( pS->GetName().getString().getStr() );
OSL_FAIL( pS->GetSlotId().getString().getStr() );
OSL_FAIL( rAttr.GetSlotId().getString().getStr() );
OStringBuffer aStr("Attribute's ");
aStr.append(pS->GetName().getString());
aStr.append(" with different id's");
rBase.SetError(aStr.makeStringAndClear(), rInStm.GetToken());
rBase.WriteError( rInStm );
return false;
}
}
else
{
sal_uInt32 nId1 = pS->GetSlotId().GetValue();
sal_uInt32 nId2 = rAttr.GetSlotId().GetValue();
if( nId1 == nId2 && nId1 != 0 )
{
OSL_FAIL( "Gleiche Id in MetaClass : " );
OSL_FAIL(OString::number(pS->GetSlotId().GetValue()).getStr());
OSL_FAIL( pS->GetSlotId().getString().getStr() );
OSL_FAIL( rAttr.GetSlotId().getString().getStr() );
OStringBuffer aStr("Attribute ");
aStr.append(pS->GetName().getString());
aStr.append(" and Attribute ");
aStr.append(rAttr.GetName().getString());
aStr.append(" with equal id's");
rBase.SetError(aStr.makeStringAndClear(), rInStm.GetToken());
rBase.WriteError( rInStm );
return false;
}
}
}
SvMetaClass * pSC = aSuperClass;
if( pSC )
return pSC->TestAttribute( rBase, rInStm, rAttr );
return true;
}
sal_uInt16 SvMetaClass::WriteSlotParamArray( SvIdlDataBase & rBase,
SvSlotElementList & rSlotList,
SvStream & rOutStm )
{
sal_uInt16 nCount = 0;
for ( size_t i = 0, n = rSlotList.size(); i < n; ++i )
{
SvSlotElement *pEle = rSlotList[ i ];
SvMetaSlot *pAttr = pEle->xSlot;
nCount = nCount + pAttr->WriteSlotParamArray( rBase, rOutStm );
}
return nCount;
}
sal_uInt16 SvMetaClass::WriteSlots( const OString& rShellName,
sal_uInt16 nCount, SvSlotElementList & rSlotList,
SvIdlDataBase & rBase,
SvStream & rOutStm )
{
sal_uInt16 nSCount = 0;
for ( size_t i = 0, n = rSlotList.size(); i < n; ++i )
{
SvSlotElement * pEle = rSlotList[ i ];
SvMetaSlot * pAttr = pEle->xSlot;
nSCount = nSCount + pAttr->WriteSlotMap( rShellName, nCount + nSCount,
rSlotList, i, rBase,
rOutStm );
}
return nSCount;
}
void SvMetaClass::InsertSlots( SvSlotElementList& rList, std::vector<sal_uLong>& rSuperList,
SvMetaClassList &rClassList,
const OString& rPrefix, SvIdlDataBase& rBase)
{
// was this class already written?
for ( size_t i = 0, n = rClassList.size(); i < n ; ++i )
if ( rClassList[ i ] == this )
return;
rClassList.push_back( this );
// write all direct attributes
sal_uLong n;
for( n = 0; n < aAttrList.size(); n++ )
{
SvMetaAttribute * pAttr = aAttrList[n];
sal_uLong nId = pAttr->GetSlotId().GetValue();
std::vector<sal_uLong>::iterator iter = std::find(rSuperList.begin(),
rSuperList.end(),nId);
if( iter == rSuperList.end() )
{
// Write only if not already written by subclass or
// imported interface.
rSuperList.push_back(nId);
pAttr->Insert(rList, rPrefix, rBase);
}
}
// All Interfaces already imported by SuperShells should not be
// written any more.
// It is prohibited that Shell and SuperShell directly import the same
//class.
if( IsShell() && aSuperClass.Is() )
aSuperClass->FillClasses( rClassList );
// Write all attributes of the imported classes, as long as they have
// not already been imported by the superclass.
for( n = 0; n < aClassList.size(); n++ )
{
SvClassElement * pEle = aClassList[n];
SvMetaClass * pCl = pEle->GetClass();
OStringBuffer rPre(rPrefix);
if( !rPre.isEmpty() && !pEle->GetPrefix().isEmpty() )
rPre.append('.');
rPre.append(pEle->GetPrefix());
// first of all write direct imported interfaces
pCl->InsertSlots( rList, rSuperList, rClassList,
rPre.makeStringAndClear(), rBase );
}
// only write superclass if no shell and not in the list
if( !IsShell() && aSuperClass.Is() )
{
aSuperClass->InsertSlots( rList, rSuperList, rClassList, rPrefix, rBase );
}
}
void SvMetaClass::FillClasses( SvMetaClassList & rList )
{
// Am I not yet in?
for ( size_t i = 0, n = rList.size(); i < n; ++i )
if ( rList[ i ] == this )
return;
rList.push_back( this );
// my imports
for( sal_uInt32 n = 0; n < aClassList.size(); n++ )
{
SvClassElement * pEle = aClassList[n];
SvMetaClass * pCl = pEle->GetClass();
pCl->FillClasses( rList );
}
// my superclass
if( aSuperClass.Is() )
aSuperClass->FillClasses( rList );
}
void SvMetaClass::WriteSlotStubs( const OString& rShellName,
SvSlotElementList & rSlotList,
ByteStringList & rList,
SvStream & rOutStm )
{
// write all attributes
for ( size_t i = 0, n = rSlotList.size(); i < n; ++i )
{
SvSlotElement *pEle = rSlotList[ i ];
SvMetaSlot *pAttr = pEle->xSlot;
pAttr->WriteSlotStubs( rShellName, rList, rOutStm );
}
}
void SvMetaClass::WriteSfx( SvIdlDataBase & rBase, SvStream & rOutStm )
{
WriteStars( rOutStm );
// define class
rOutStm.WriteCharPtr( "#ifdef " ).WriteCharPtr( GetName().getString().getStr() ) << endl;
rOutStm.WriteCharPtr( "#undef ShellClass" ) << endl;
rOutStm.WriteCharPtr( "#undef " ).WriteCharPtr( GetName().getString().getStr() ) << endl;
rOutStm.WriteCharPtr( "#define ShellClass " ).WriteCharPtr( GetName().getString().getStr() ) << endl;
// no slotmaps get written for interfaces
if( !IsShell() )
{
rOutStm.WriteCharPtr( "#endif" ) << endl << endl;
return;
}
// write parameter array
rOutStm.WriteCharPtr("static SfxFormalArgument a").WriteCharPtr(GetName().getString().getStr()).WriteCharPtr("Args_Impl[] =") << endl;
rOutStm.WriteChar('{') << endl;
std::vector<sal_uLong> aSuperList;
SvMetaClassList classList;
SvSlotElementList aSlotList;
InsertSlots(aSlotList, aSuperList, classList, OString(), rBase);
for ( size_t i = 0, n = aSlotList.size(); i < n; ++i )
{
SvSlotElement *pEle = aSlotList[ i ];
SvMetaSlot *pSlot = pEle->xSlot;
pSlot->SetListPos( i );
}
size_t nSlotCount = aSlotList.size();
// write all attributes
sal_uInt16 nArgCount = WriteSlotParamArray( rBase, aSlotList, rOutStm );
if( nArgCount )
Back2Delemitter( rOutStm );
else
{
// at leaast one dummy
WriteTab( rOutStm, 1 );
rOutStm.WriteCharPtr("{ (const SfxType*) &aSfxVoidItem_Impl, 0, 0 }" ) << endl;
}
rOutStm << endl;
rOutStm.WriteCharPtr( "};" ) << endl << endl;
ByteStringList aStringList;
WriteSlotStubs( GetName().getString(), aSlotList, aStringList, rOutStm );
for ( size_t i = 0, n = aStringList.size(); i < n; ++i )
delete aStringList[ i ];
aStringList.clear();
rOutStm << endl;
// write slotmap
rOutStm.WriteCharPtr("static SfxSlot a").WriteCharPtr(GetName().getString().getStr()).WriteCharPtr("Slots_Impl[] =") << endl;
rOutStm.WriteChar( '{' ) << endl;
// write all attributes
WriteSlots( GetName().getString(), 0, aSlotList, rBase, rOutStm );
if( nSlotCount )
Back2Delemitter( rOutStm );
else
{
// at least one dummy
WriteTab( rOutStm, 1 );
rOutStm.WriteCharPtr( "SFX_SLOT_ARG(" ).WriteCharPtr( GetName().getString().getStr() )
.WriteCharPtr( ", 0, 0, " )
.WriteCharPtr( "SFX_STUB_PTR_EXEC_NONE," )
.WriteCharPtr( "SFX_STUB_PTR_STATE_NONE," )
.WriteCharPtr( "SfxSlotMode::NONE, SfxVoidItem, 0, 0, \"\", SfxSlotMode::NONE )" ) << endl;
}
rOutStm << endl;
rOutStm.WriteCharPtr( "};" ) << endl;
rOutStm.WriteCharPtr( "#endif" ) << endl << endl;
for( size_t i = 0, n = aSlotList.size(); i < n; ++i )
{
SvSlotElement* pEle = aSlotList[ i ];
SvMetaSlot* pAttr = pEle->xSlot;
pAttr->ResetSlotPointer();
}
for( size_t i = 0, n = aSlotList.size(); i < n; ++i )
delete aSlotList[ i ];
aSlotList.clear();
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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