office-gobmx/automation/source/testtool/objtest.cxx
Kurt Zenker cc886ebe3a INTEGRATION: CWS gh11 (1.18.12); FILE MERGED
2005/09/21 10:41:02 gh 1.18.12.2: RESYNC: (1.18-1.19); FILE MERGED
2005/08/04 13:40:16 gh 1.18.12.1: #i50168#problem reusing variables
2005-10-06 11:37:43 +00:00

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/*************************************************************************
*
* OpenOffice.org - a multi-platform office productivity suite
*
* $RCSfile: objtest.cxx,v $
*
* $Revision: 1.20 $
*
* last change: $Author: kz $ $Date: 2005-10-06 12:37:43 $
*
* The Contents of this file are made available subject to
* the terms of GNU Lesser General Public License Version 2.1.
*
*
* GNU Lesser General Public License Version 2.1
* =============================================
* Copyright 2005 by Sun Microsystems, Inc.
* 901 San Antonio Road, Palo Alto, CA 94303, USA
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
************************************************************************/
/*#include <com/sun/star/devtools/XIServerProxy.hpp>
#include <com/sun/star/devtools/XInformationClient.hpp>
using namespace com::sun::star::devtools;
*/
#include "sysdir_win.hxx"
#include "registry_win.hxx"
#ifndef _OSL_FILE_HXX_
#include <osl/file.hxx>
#endif
#ifndef _MSGBOX_HXX //autogen
#include <vcl/msgbox.hxx>
#endif
#ifndef _SOUND_HXX //autogen
#include <vcl/sound.hxx>
#endif
#ifndef _CONFIG_HXX
#include <tools/config.hxx>
#endif
#ifndef _APP_HXX //autogen
#include <vcl/svapp.hxx>
#endif
#ifndef _SVTOOLS_STRINGTRANSFER_HXX_
#include <svtools/stringtransfer.hxx>
#endif
#ifndef _SFXBRDCST_HXX
#include <svtools/brdcst.hxx>
#endif
//#ifndef _SBXCLASS_HXX //autogen
#include <basic/sbx.hxx>
//#endif
#include <com/sun/star/uno/Any.hxx>
#ifndef _COM_SUN_STAR_FRAME_XDESKTOP_HXX_
#include <com/sun/star/frame/XDesktop.hpp>
#endif
#ifndef _COMPHELPER_PROCESSFACTORY_HXX_
#include <comphelper/processfactory.hxx>
#endif
#include <com/sun/star/bridge/XBridgeFactory.hpp>
#include <com/sun/star/connection/XConnector.hpp>
#include <com/sun/star/connection/XConnection.hpp>
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#include <com/sun/star/uno/XNamingService.hpp>
#include <cppuhelper/servicefactory.hxx>
using namespace com::sun::star::uno;
using namespace com::sun::star::lang;
using namespace com::sun::star::frame;
using namespace com::sun::star::bridge;
using namespace com::sun::star::connection;
using namespace rtl;
#include <svtools/svmedit.hxx>
#ifdef OS2
#define INCL_DOSPROCESS
//#include <vcl/sysdep.hxx>
#ifndef _SVPM_H
#include <tools/svpm.h>
#endif
#endif
#ifdef UNX
#include <unistd.h> // readlink
#include <errno.h>
#endif
#include <basic/sbuno.hxx>
//#include <basic/basrid.hxx>
#ifndef _BASICRT_HXX
#include <basic/basicrt.hxx>
#endif
#ifndef _BASIC_TTRESHLP_HXX
#include <basic/ttstrhlp.hxx>
#endif
#include "tcommuni.hxx"
#include "comm_bas.hxx"
#ifndef _CRETSTRM_HXX
#include <cretstrm.hxx>
#endif
#include "objtest.hxx"
#include "rcontrol.hxx"
#include <basic/testtool.hrc>
#include <basic/ttmsg.hrc>
#include <basic/mybasic.hxx>
#include <basic/testtool.hxx>
#ifndef _SB_SBSTAR_HXX
#include <basic/sbstar.hxx>
#endif
#include <algorithm>
#ifndef SBX_VALUE_DECL_DEFINED
#define SBX_VALUE_DECL_DEFINED
SV_DECL_REF(SbxValue)
#endif
SV_IMPL_REF(SbxValue)
static CommunicationFactory aComManFac;
#define cMyDelim ' '
#define P_FEHLERLISTE pFehlerListe
#define KEEP_SEQUENCES 100 // Keep Names of last 100 Calls
ControlDefLoad __READONLY_DATA Controls::arClasses [] =
#include "classes.hxx"
CNames *Controls::pClasses = NULL;
ControlDefLoad __READONLY_DATA TestToolObj::arR_Cmds [] =
#include "r_cmds.hxx"
CNames *TestToolObj::pRCommands = NULL;
DBG_NAME( ControlItem )
DBG_NAME( ControlDef )
ControlItem::ControlItem( const sal_Char *Name, SmartId aUIdP )
{
DBG_CTOR(ControlItem,0);
InitData();
pData->Kurzname.AssignAscii( Name );
pData->aUId = aUIdP;
}
ControlItem::ControlItem( const String &Name, SmartId aUIdP )
{
DBG_CTOR(ControlItem,0);
InitData();
pData->Kurzname = Name;
pData->aUId = aUIdP;
}
/*ControlItem::ControlItem( const String &Name, const String &URL, const URLType aType )
{
DBG_CTOR(ControlItem,0);
InitData();
pData->Kurzname = Name;
pData->aURL = URL;
pData->nUId = aType;
}
ControlItem::ControlItem( const String &Name, const String &URL, const ULONG nUId )
{
DBG_CTOR(ControlItem,0);
InitData();
pData->Kurzname = Name;
pData->aURL = URL;
pData->nUId = nUId;
}
ControlItem::ControlItem( const char *Name, const String &URL, const ULONG nUId )
{
DBG_CTOR(ControlItem,0);
InitData();
pData->Kurzname.AssignAscii( Name );
pData->aURL = URL;
pData->nUId = nUId;
} */
ControlItem::ControlItem( ControlData *pDataP )
{
DBG_CTOR(ControlItem,0);
pData = pDataP;
}
ControlSon::~ControlSon()
{
if (pSons)
{
delete pSons;
pSons = NULL;
}
}
ControlItemSon::ControlItemSon(const String &Name, SmartId aUIdP )
: ControlItem( Name, aUIdP )
{}
/*ControlItemSon::ControlItemSon(const String &Name, const String &URL, const URLType aType )
: ControlItem( Name, URL, aType )
{}
ControlItemSon::ControlItemSon(const String &Name, const String &URL, const ULONG nUId )
: ControlItem( Name, URL, nUId )
{}
ControlItemSon::ControlItemSon(const char *Name, const String &URL, const ULONG nUId )
: ControlItem( Name, URL, nUId )
{}*/
BOOL ControlDef::operator < (const ControlItem &rPar)
{
return pData->Kurzname.CompareIgnoreCaseToAscii(rPar.pData->Kurzname) == COMPARE_LESS;
}
BOOL ControlDef::operator == (const ControlItem &rPar)
{
return pData->Kurzname.CompareIgnoreCaseToAscii(rPar.pData->Kurzname) == COMPARE_EQUAL;
}
void ControlDef::Write( SvStream &aStream )
{
if ( pSons )
aStream.WriteByteString( String('*').Append( pData->Kurzname ), RTL_TEXTENCODING_UTF8 );
else
aStream.WriteByteString( pData->Kurzname, RTL_TEXTENCODING_UTF8 );
aStream << ((USHORT)pData->aUId.HasNumeric());
if ( pData->aUId.HasString() )
aStream.WriteByteString( pData->aUId.GetStr(), RTL_TEXTENCODING_UTF8 );
else
aStream << pData->aUId.GetNum();
if ( pSons )
for ( int i = 0 ; pSons->Count() > i ; i++ )
((ControlDef*)(*pSons)[i])->Write(aStream);
}
ControlDef::ControlDef(const String &Name, SmartId aUIdP )
: ControlItemSon( Name, aUIdP)
{
DBG_CTOR(ControlDef,0);
}
/*ControlDef::ControlDef(const String &Name, const String &URL, const URLType aType )
: ControlItemSon( Name, URL, aType )
{
DBG_CTOR(ControlDef,0);
} */
ControlDef::ControlDef(const String &aOldName, const String &aNewName, ControlDef *pOriginal, BOOL bWithSons )
: ControlItemSon("", pOriginal->pData->aUId)
{
DBG_CTOR(ControlDef,0);
if ( pOriginal->pData->Kurzname == aOldName )
pData->Kurzname = aNewName;
else
pData->Kurzname = pOriginal->pData->Kurzname;
if ( bWithSons && pOriginal->pSons )
{
pSons = new CNames();
for ( USHORT i = 0; i < pOriginal->pSons->Count() ; i++)
{
ControlDef *pNewDef;
pNewDef = new ControlDef( aOldName, aNewName, pOriginal->SonGetObject(i) ,TRUE );
if (! SonInsert(pNewDef))
{
DBG_ERROR("Name Doppelt im CopyConstructor. Neuer Name = Controlname!!");
delete pNewDef;
}
}
}
else
pSons = NULL;
}
BOOL ControlItemUId::operator < (const ControlItem &rPar)
{
return pData->aUId < rPar.pData->aUId;
}
BOOL ControlItemUId::operator == (const ControlItem &rPar)
{
return pData->aUId == rPar.pData->aUId;
}
SV_IMPL_OP_PTRARR_SORT( CNames, ControlItem* )
void CRevNames::Insert( String aName, SmartId aUId, ULONG nSeq )
{
ControlItem *pRN = new ReverseName(aName,aUId,nSeq);
USHORT nPos;
if ( Seek_Entry(pRN,&nPos) )
DeleteAndDestroy(nPos);
if ( !CNames::C40_PTR_INSERT( ControlItem, pRN) )
{
DBG_ERROR("Interner Fehler beim Speichern der Lokalen KurzNamen");
delete pRN;
}
}
String CRevNames::GetName( SmartId aUId )
{
ReverseName *pRN = new ReverseName(UniString(),aUId,0);
USHORT nPos;
BOOL bSeekOK = Seek_Entry(pRN,&nPos);
delete pRN;
if ( bSeekOK )
return GetObject(nPos)->pData->Kurzname;
else
{
if ( aUId.Matches( UID_ACTIVE ) )
return CUniString("Active");
else
return GEN_RES_STR1( S_NAME_NOT_THERE, aUId.GetText() );
}
}
void CRevNames::Invalidate ( ULONG nSeq )
{
USHORT i;
for (i = 0; i < Count() ;)
{
if (((ReverseName*)GetObject(i))->LastSequence < nSeq)
DeleteAndDestroy(i);
else
i++;
}
}
SV_IMPL_PTRARR(CErrors, ErrorEntry*)
SbxTransportMethod::SbxTransportMethod( SbxDataType DT )
: SbxMethod(CUniString("Dummy"),DT)
{
nValue = 0;
}
TestToolObj::TestToolObj( String aName, String aFilePath ) // Interner Aufruf
: SbxObject( aName )
, pControls(NULL)
, pReverseSlots(NULL)
, pReverseControls(NULL)
, pReverseControlsSon(NULL)
, pReverseUIds(NULL)
, pSIds(NULL)
, pCommunicationManager(NULL)
, bUseIPC(FALSE)
, IsBlock(FALSE)
, SingleCommandBlock(TRUE)
//, bQuietErrors(TRUE)
, bQuietErrors(FALSE)
, bReturnOK(TRUE)
, nSequence(KEEP_SEQUENCES)
, ProgPath()
, nIdleCount(0)
, nWindowHandlerCallLevel(0)
, aDialogHandlerName()
, pFehlerListe(NULL)
{
pImpl = new ImplTestToolObj;
pImpl->ProgParam = String();
pImpl->aFileBase = DirEntry(aFilePath);
// pImpl->aLogFileBase = DirEntry();
pImpl->aHIDDir = DirEntry(aFilePath);
pImpl->bIsStart = FALSE;
pImpl->pMyBasic = NULL;
pImpl->aServerTimeout = Time(0,1,00); // 1:00 Minuten fest
InitTestToolObj();
}
TestToolObj::TestToolObj( String aName, MyBasic* pBas ) // Aufruf im Testtool
: SbxObject( aName )
, pControls(NULL)
, pReverseSlots(NULL)
, pReverseControls(NULL)
, pReverseControlsSon(NULL)
, pReverseUIds(NULL)
, pSIds(NULL)
, pCommunicationManager(NULL)
, bUseIPC(TRUE)
, IsBlock(FALSE)
, SingleCommandBlock(TRUE)
//, bQuietErrors(TRUE)
, bQuietErrors(FALSE)
, bReturnOK(TRUE)
, nSequence(KEEP_SEQUENCES)
, ProgPath()
, nIdleCount(0)
, nWindowHandlerCallLevel(0)
, aDialogHandlerName()
, pFehlerListe(NULL)
{
pImpl = new ImplTestToolObj;
pImpl->ProgParam = String();
pImpl->bIsStart = FALSE;
pImpl->pMyBasic = pBas;
LoadIniFile();
InitTestToolObj();
pCommunicationManager = new CommunicationManagerClientViaSocketTT();
pCommunicationManager->SetDataReceivedHdl( LINK( this, TestToolObj, ReturnResultsLink ));
}
void TestToolObj::LoadIniFile() // Laden der IniEinstellungen, die durch den ConfigDialog ge<67>ndert werden k<>nnen
{
#define GETSET(aVar, KeyName, Dafault) \
{ \
ByteString __##aVar##__; \
__##aVar##__ = aConf.ReadKey(KeyName); \
if ( !__##aVar##__.Len() ) \
{ \
__##aVar##__ = Dafault; \
aConf.WriteKey(KeyName, __##aVar##__); \
} \
aVar = UniString( __##aVar##__, RTL_TEXTENCODING_UTF8 );\
}
#define NEWOLD( NewKey, OldKey ) \
{ \
ByteString aValue; \
if ( ( (aValue = aConf.ReadKey( OldKey )).Len() ) && !aConf.ReadKey( NewKey ).Len() ) \
aConf.WriteKey( NewKey, aValue ); \
}
Config aConf(Config::GetConfigName( Config::GetDefDirectory(), CUniString("testtool") ));
aConf.SetGroup("Misc");
ByteString aCurrentProfile = aConf.ReadKey( "CurrentProfile", "Path" );
aConf.SetGroup( aCurrentProfile );
NEWOLD( "BaseDir", "Basisverzeichnis" )
String aFB;
GETSET( aFB, "BaseDir", "" );
pImpl->aFileBase = DirEntry(aFB);
// remove old keys
if ( aConf.ReadKey("KeyCodes + Classes").Len() != 0 ||
aConf.ReadKey("KeyCodes + Classes + Res_Type").Len() != 0 )
{
aConf.DeleteKey("KeyCodes + Classes + Res_Type");
aConf.DeleteKey("KeyCodes + Classes");
}
NEWOLD( "LogBaseDir", "LogBasisverzeichnis" )
String aLFB;
GETSET( aLFB, "LogBaseDir", ByteString( aFB, RTL_TEXTENCODING_UTF8 ) );
pImpl->aLogFileBase = DirEntry(aLFB);
NEWOLD( "HIDDir", "HIDVerzeichnis" )
String aHID;
GETSET( aHID, "HIDDir", "" );
pImpl->aHIDDir = DirEntry(aHID);
aConf.SetGroup("Misc");
String aST;
GETSET( aST, "ServerTimeout", ByteString::CreateFromInt64(Time(0,0,45).GetTime()) ); // 45 Sekunden Initial
pImpl->aServerTimeout = Time(ULONG(aST.ToInt64()));
String aSOSE;
aCurrentProfile = aConf.ReadKey( "CurrentProfile", "Misc" );
aConf.SetGroup( aCurrentProfile );
GETSET( aSOSE, "StopOnSyntaxError", "0" );
pImpl->bStopOnSyntaxError = aSOSE.EqualsAscii("1");
aConf.SetGroup("GUI Platform");
String aGP;
ByteString abGP;
#ifdef WNT
abGP.Append( "501" ); // WinXP
#elif defined SOLARIS && defined SPARC
abGP.Append( "01" ); // Solaris SPARC
#elif defined SOLARIS && defined INTEL
abGP.Append( "05" ); // Solaris x86
#elif defined LINUX
abGP.Append( "03" ); // Linux
#endif
GETSET( aGP, "Current", abGP );
}
#define MAKE_TT_KEYWORD( cName, aType, aResultType, nID ) \
{ \
SbxVariableRef pMeth; \
pMeth = Make( CUniString(cName), aType, aResultType ); \
pMeth->SetUserData( nID ); \
}
#define MAKE_REMOTE_COMMAND(aName, aId) \
{\
SbxTransportMethod *pMeth = new SbxTransportMethod( SbxVARIANT ); \
pMeth->SetName( aName ); \
pMeth->SetUserData( ID_RemoteCommand ); \
pMeth->nValue = aId.GetNum(); \
Insert( pMeth ); \
StartListening( pMeth->GetBroadcaster(), TRUE ); \
}
// SetUserData mu<6D> irgendwas sein, sonst wird es im Find rausgefiltert!!!
#define MAKE_USHORT_CONSTANT(cName, nValue) \
{\
SbxProperty *pVal = new SbxProperty( CUniString( cName) , SbxINTEGER ); \
pVal->PutInteger( nValue ) ; \
pVal->SetUserData( 32000 ); \
Insert( pVal ); \
}
#define RTLNAME "@SBRTL" // copied from basic/source/classes/sb.cxx
void TestToolObj::InitTestToolObj()
{
pImpl->nNumBorders = 0; // F<>r Profiling mit k<>stchen
pImpl->nMinRemoteCommandDelay = 0;
pImpl->nMaxRemoteCommandDelay = 0;
pImpl->bDoRemoteCommandDelay = FALSE;
pImpl->bLnaguageExtensionLoaded= FALSE;
pImpl->pTTSfxBroadcaster = NULL;
pImpl->nErrorCount = 0;
pImpl->nWarningCount = 0;
pImpl->nQAErrorCount = 0;
pImpl->nIncludeFileWarningCount = 0;
pImpl->xErrorList = new SbxDimArray( SbxSTRING );
pImpl->xWarningList = new SbxDimArray( SbxSTRING );
pImpl->xQAErrorList = new SbxDimArray( SbxSTRING );
pImpl->xIncludeFileWarningList = new SbxDimArray( SbxSTRING );
pImpl->nTestCaseLineNr = 0;
pImpl->bEnableQaErrors = TRUE;
pImpl->bDebugFindNoErrors = FALSE;
pImpl->pChildEnv = new Environment;
pFehlerListe = new CErrors; // Vor allem anderen. Wer weiss, wer alles einen Fehler ausl<73>st.
In = new CmdStream();
pShortNames = new CRevNames;
// overwrite standard "wait" method, cause we can do better than that!!
// Insert Object into SbiStdObject but change listening.
SbxVariable* pRTL = pImpl->pMyBasic->Find( CUniString(RTLNAME), SbxCLASS_DONTCARE );
SbxObject* pRTLObject = PTR_CAST( SbxObject, pRTL );
if ( pRTLObject )
{
SbxVariableRef pWait;
pWait = pRTLObject->Make( CUniString("Wait"), SbxCLASS_METHOD, SbxNULL );
pWait->SetUserData( ID_Wait );
// change listener here
pRTLObject->EndListening( pWait->GetBroadcaster(), TRUE );
StartListening( pWait->GetBroadcaster(), TRUE );
}
else
{
DBG_ERROR("Testtool: Could not replace Wait method")
}
MAKE_TT_KEYWORD( "Kontext", SbxCLASS_METHOD, SbxNULL, ID_Kontext );
MAKE_TT_KEYWORD( "GetNextError", SbxCLASS_VARIABLE, SbxVARIANT, ID_GetError );
MAKE_TT_KEYWORD( "Start", SbxCLASS_METHOD, SbxSTRING, ID_Start );
// pMeth = Make( "Kill", SbxCLASS_METHOD, SbxNULL );
// pMeth->SetUserData( ID_Kill );
/* pMeth = Make( "TestReset", SbxCLASS_METHOD, SbxNULL );
pMeth->SetUserData( ID_Reset );*/
MAKE_TT_KEYWORD( "Use", SbxCLASS_METHOD, SbxNULL, ID_Use );
MAKE_TT_KEYWORD( "StartUse", SbxCLASS_METHOD, SbxNULL, ID_StartUse );
MAKE_TT_KEYWORD( "FinishUse", SbxCLASS_METHOD, SbxNULL, ID_FinishUse );
MAKE_TT_KEYWORD( "CaseLog", SbxCLASS_METHOD, SbxNULL, ID_CaseLog );
MAKE_TT_KEYWORD( "ExceptLog", SbxCLASS_METHOD, SbxNULL, ID_ExceptLog );
MAKE_TT_KEYWORD( "PrintLog", SbxCLASS_METHOD, SbxNULL, ID_PrintLog );
MAKE_TT_KEYWORD( "WarnLog", SbxCLASS_METHOD, SbxNULL, ID_WarnLog );
MAKE_TT_KEYWORD( "ErrorLog", SbxCLASS_METHOD, SbxNULL, ID_ErrorLog );
MAKE_TT_KEYWORD( "QAErrorLog", SbxCLASS_METHOD, SbxNULL, ID_QAErrorLog );
MAKE_TT_KEYWORD( "EnableQaErrors", SbxCLASS_PROPERTY, SbxBOOL, ID_EnableQaErrors );
MAKE_TT_KEYWORD( "MaybeAddErr", SbxCLASS_METHOD, SbxNULL, ID_MaybeAddErr );
MAKE_TT_KEYWORD( "ClearError", SbxCLASS_METHOD, SbxNULL, ID_ClearError );
MAKE_TT_KEYWORD( "SaveIDs", SbxCLASS_METHOD, SbxBOOL, ID_SaveIDs );
MAKE_TT_KEYWORD( "AutoExecute", SbxCLASS_PROPERTY, SbxBOOL, ID_AutoExecute ); // Achtung! PROPERTY Also eine Variable
MAKE_TT_KEYWORD( "Execute", SbxCLASS_METHOD, SbxNULL, ID_Execute );
MAKE_TT_KEYWORD( "StopOnSyntaxError", SbxCLASS_PROPERTY, SbxBOOL, ID_StopOnSyntaxError );
/* Dialog Handler werden gebraucht, wenn im internen Testtool ein Dialog
hochgerissen wird. Nach versenden der Remote-Kommandos wird IdleHandler aktiviert.
Er testet, ob das Reschedule zum WaitForAnswer zur<75>ckkehrt. Bleibt das aus, so
wird erst der RemoteHandler zur<75>ckgesetzt und dann die Handler-Sub im Basic
gerufen.(Entkoppelt <20>ber PostUserEvent.)
In returndaten_verarbeiten wird flag f<>r ausf<73>hrung des n<>chsten remote-befehls
r<>ckgesetzt. Der Handler wird damit auch entwertet. Er gilt also nur f<>r den
n<>chsten Remotebefehl.
*/
MAKE_TT_KEYWORD( "DialogHandler", SbxCLASS_METHOD, SbxNULL, ID_DialogHandler );
MAKE_TT_KEYWORD( "GetUnoApp", SbxCLASS_METHOD, SbxOBJECT, ID_GetUnoApp );
MAKE_TT_KEYWORD( "GetIServer", SbxCLASS_METHOD, SbxOBJECT, ID_GetIServer );
MAKE_TT_KEYWORD( "RemoteCommandDelay", SbxCLASS_METHOD, SbxNULL, ID_RemoteCommandDelay );
MAKE_TT_KEYWORD( "GetApplicationPath", SbxCLASS_METHOD, SbxSTRING, ID_GetApplicationPath );
MAKE_TT_KEYWORD( "GetCommonApplicationPath", SbxCLASS_METHOD, SbxSTRING, ID_GetCommonApplicationPath );
MAKE_TT_KEYWORD( "MakeIniFileName", SbxCLASS_METHOD, SbxSTRING, ID_MakeIniFileName );
/// active constants returning error and warning count
MAKE_TT_KEYWORD( "GetErrorCount", SbxCLASS_METHOD, SbxULONG, ID_GetErrorCount );
MAKE_TT_KEYWORD( "GetWarningCount", SbxCLASS_METHOD, SbxULONG, ID_GetWarningCount );
MAKE_TT_KEYWORD( "GetQAErrorCount", SbxCLASS_METHOD, SbxULONG, ID_GetQAErrorCount );
MAKE_TT_KEYWORD( "GetUseFileWarningCount", SbxCLASS_METHOD, SbxULONG, ID_GetUseFileWarningCount );
MAKE_TT_KEYWORD( "GetErrorList", SbxCLASS_METHOD, SbxOBJECT, ID_GetErrorList );
MAKE_TT_KEYWORD( "GetWarningList", SbxCLASS_METHOD, SbxOBJECT, ID_GetWarningList );
MAKE_TT_KEYWORD( "GetQAErrorList", SbxCLASS_METHOD, SbxOBJECT, ID_GetQAErrorList );
MAKE_TT_KEYWORD( "GetUseFileWarningList", SbxCLASS_METHOD, SbxOBJECT, ID_GetUseFileWarningList );
MAKE_TT_KEYWORD( "GetTestCaseName", SbxCLASS_METHOD, SbxSTRING, ID_GetTestCaseName );
MAKE_TT_KEYWORD( "GetTestCaseFileName", SbxCLASS_METHOD, SbxSTRING, ID_GetTestCaseFileName );
MAKE_TT_KEYWORD( "GetTestCaseLineNr", SbxCLASS_METHOD, SbxUSHORT, ID_GetTestCaseLineNr );
MAKE_TT_KEYWORD( "SetChildEnv", SbxCLASS_METHOD, SbxNULL, ID_SetChildEnv );
MAKE_TT_KEYWORD( "GetChildEnv", SbxCLASS_METHOD, SbxSTRING, ID_GetChildEnv );
MAKE_TT_KEYWORD( "GetLinkDestination", SbxCLASS_METHOD, SbxSTRING, ID_GetLinkDestination );
MAKE_TT_KEYWORD( "GetRegistryValue", SbxCLASS_METHOD, SbxSTRING, ID_GetRegistryValue );
MAKE_TT_KEYWORD( "KillApp", SbxCLASS_METHOD, SbxNULL, ID_KillApp );
// Load the Remote Commands from list
if ( !pRCommands ) // Ist static, wird also nur einmal geladen
ReadFlatArray( arR_Cmds, pRCommands );
USHORT i;
for ( i = 0 ; i < pRCommands->Count() ; i++ )
MAKE_REMOTE_COMMAND( pRCommands->GetObject( i )->pData->Kurzname, pRCommands->GetObject( i )->pData->aUId );
// Konstanten f<>r SetControlType
MAKE_USHORT_CONSTANT("CTBrowseBox",CONST_CTBrowseBox);
MAKE_USHORT_CONSTANT("CTValueSet",CONST_CTValueSet);
// Konstanten f<>r das Alignment des gesuchten Splitters
MAKE_USHORT_CONSTANT("AlignLeft",CONST_ALIGN_LEFT);
MAKE_USHORT_CONSTANT("AlignTop",CONST_ALIGN_TOP);
MAKE_USHORT_CONSTANT("AlignRight",CONST_ALIGN_RIGHT);
MAKE_USHORT_CONSTANT("AlignBottom",CONST_ALIGN_BOTTOM);
/// What dialog to use in RC_CloseSysDialog or RC_ExistsSysDialog
MAKE_USHORT_CONSTANT("FilePicker",CONST_FilePicker);
MAKE_USHORT_CONSTANT("FolderPicker",CONST_FolderPicker);
/// NodeTypes of the SAX Parser
MAKE_USHORT_CONSTANT("NodeTypeCharacter",CONST_NodeTypeCharacter);
MAKE_USHORT_CONSTANT("NodeTypeElement",CONST_NodeTypeElement);
MAKE_USHORT_CONSTANT("NodeTypeComment",CONST_NodeTypeComment);
pImpl->pControlsObj = new Controls( CUniString("GetNextCloseWindow") );
pImpl->pControlsObj -> SetType( SbxVARIANT );
pImpl->pControlsObj->SetUserData( ID_GetNextCloseWindow );
Insert( pImpl->pControlsObj ); // Hier so umst<73>ndlich wegen Compilerfehlers
pImpl->pControlsObj->ChangeListener();
for ( i=0;i<VAR_POOL_SIZE;i++)
{
/* pMyVar = new SbxObject( "Dummy" );
pMyVar -> SetType( SbxVARIANT );*/
// pMyVar = new SbxMethod( "Dummy", SbxVARIANT );
pImpl->pMyVars[i] = new SbxTransportMethod( SbxVARIANT );
pImpl->pMyVars[i] -> SetName( CUniString("VarDummy").Append(String::CreateFromInt32(i) ) );
Insert( pImpl->pMyVars[i] );
// StartListening( pMyVars[i]->GetBroadcaster(), TRUE );
pImpl->pControlsObj = new Controls( CUniString("ControlDummy").Append(String::CreateFromInt32(i) ) );
pImpl->pControlsObj -> SetType( SbxOBJECT );
Insert( pImpl->pControlsObj ); // Hier so umst<73>ndlich wegen Compilerfehlers
pImpl->pControlsObj->ChangeListener();
pImpl->pControlsObjs[i] = pImpl->pControlsObj;
}
pControls = new CNames();
pSIds = new CNames();
pNameKontext = pControls;
nMyVar = 0;
nControlsObj = 0;
pImpl->pMyBasic->AddFactory( &aComManFac );
// Das ist zum testen des IPC
/* int sent = 0;
ModelessDialog *pDlg = new ModelessDialog(NULL);
pDlg->SetOutputSizePixel(Size(100,30));
Edit *pMyEd = new Edit(pDlg,WB_CENTER | WB_BORDER);
pMyEd->SetSizePixel(Size(100,30));
pDlg->Show();
pMyEd->Show();
Time aTime;
String VollePackung;
VollePackung.Fill(32760,'*');
BeginBlock(); // zum warm werden
EndBlock();
ResetError();
while ( pDlg->IsVisible() && !IsError() )
{
BeginBlock();
In->GenCmdFlow (124,VollePackung);
EndBlock();
pMyEd->SetText(String("Test Nr. ") + String(++sent));
while ( aTime.Get100Sec() / 10 == Time().Get100Sec() / 10 );
aTime = Time();
}
delete pMyEd;
delete pDlg;
*/
// Test ende
}
TestToolObj::~TestToolObj()
{
pImpl->pMyBasic->RemoveFactory( &aComManFac );
EndListening( ((StarBASIC*)GetParent())->GetBroadcaster() );
pImpl->pNextReturn.Clear();
pImpl->pControlsObj.Clear();
for ( int i = 0 ; i < VAR_POOL_SIZE ; i++ )
{
pImpl->pMyVars[i].Clear();
pImpl->pControlsObjs[i].Clear();
}
if (pControls)
delete pControls;
if (pReverseSlots)
delete pReverseSlots;
if (pReverseControls)
delete pReverseControls;
if (pReverseControlsSon)
delete pReverseControlsSon;
if (pReverseUIds)
delete pReverseUIds;
if (pSIds)
delete pSIds;
if (pFehlerListe)
{
delete pFehlerListe;
pFehlerListe = NULL; // da pFehlerListe static ist!!
}
if ( pCommunicationManager )
{
pCommunicationManager->StopCommunication();
delete pCommunicationManager;
}
delete In;
if ( pImpl->pTTSfxBroadcaster )
delete pImpl->pTTSfxBroadcaster;
delete pShortNames;
delete pImpl;
delete pImpl->pChildEnv;
}
SfxBroadcaster& TestToolObj::GetTTBroadcaster()
{
if ( !pImpl->pTTSfxBroadcaster )
pImpl->pTTSfxBroadcaster = new SfxBroadcaster;
return *pImpl->pTTSfxBroadcaster;
}
void TestToolObj::ReadNames( String Filename, CNames *&pNames, CNames *&pUIds, BOOL bIsFlat )
{
/*******************************************************************************
**
** Folgende Dateiendungen sind vorhanden
**
** hid.lst Langname UId
** *.sid Slot Ids Kurzname Langname Datei ist flach
** *.win Controlname Langname Datei mit *name und +name Notation
**
**
*******************************************************************************/
SvFileStream Stream;
String aLine,aName,aLongname;
SmartId aUId;
xub_StrLen nLineNr;
USHORT nElement;
ControlDef *pNewDef, *pNewDef2;
ControlDef *pFatherDef = NULL;
nLineNr = 0; // Wir sind ja noch vor der Datei
if (! pUIds)
{
String aName = (pImpl->aHIDDir + DirEntry(CUniString("hid.lst"))).GetFull();
{
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_READING_LONGNAMES)), aName );
GetTTBroadcaster().Broadcast( aHint );
}
ReadFlat( aName ,pUIds, TRUE );
if ( !pUIds )
return;
pNewDef = new ControlDef("Active",SmartId(0));
if (! pUIds->C40_PTR_INSERT(ControlItem, (ControlItem*&)pNewDef))
{
ADD_WARNING_LOG2( GEN_RES_STR1c( S_DOUBLE_NAME, "Active" ), Filename, nLineNr );
delete pNewDef;
}
}
ADD_MESSAGE_LOG( Filename );
Stream.Open(Filename, STREAM_STD_READ);
if (!Stream.IsOpen())
{
ADD_ERROR(ERR_NO_FILE,GEN_RES_STR1(S_CANNOT_OPEN_FILE, Filename));
return;
}
if ( bIsFlat && !pNames )
{
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_READING_SLOT_IDS)), Filename );
GetTTBroadcaster().Broadcast( aHint );
}
else
{
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_READING_CONTROLS)), Filename );
GetTTBroadcaster().Broadcast( aHint );
}
if ( !pNames )
pNames = new CNames();
{
TTExecutionStatusHint aHint( TT_EXECUTION_ENTERWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
while (!Stream.IsEof())
{
nLineNr++;
Stream.ReadByteStringLine(aLine, RTL_TEXTENCODING_IBM_850);
aLine.EraseLeadingChars();
aLine.EraseTrailingChars();
while ( aLine.SearchAscii(" ") != STRING_NOTFOUND )
aLine.SearchAndReplaceAllAscii(" ",UniString(' '));
if (aLine.Len() == 0) continue;
if (aLine.Copy(0,4).CompareIgnoreCaseToAscii("Rem ") == COMPARE_EQUAL) continue;
if (aLine.Copy(0,1).CompareToAscii("'") == COMPARE_EQUAL) continue;
if ( (aLine.GetTokenCount(cMyDelim) < 2 || aLine.GetTokenCount(cMyDelim) > 3) && aLine.CompareIgnoreCaseToAscii("*Active") != COMPARE_EQUAL )
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_INVALID_LINE, aLine ), Filename, nLineNr );
continue;
}
aName = aLine.GetToken(0,cMyDelim);
aLongname = aLine.GetToken(1,cMyDelim);
String aFirstAllowedExtra, aAllowed;
aFirstAllowedExtra.AssignAscii("+*");
aAllowed.AssignAscii("_");
xub_StrLen nIndex = 0;
BOOL bOK = TRUE;
while ( bOK && nIndex < aName.Len() )
{
sal_Unicode aChar = aName.GetChar( nIndex );
BOOL bOKThis = FALSE;
bOKThis |= ( aAllowed.Search( aChar ) != STRING_NOTFOUND );
if ( !nIndex )
bOKThis |= ( aFirstAllowedExtra.Search( aChar ) != STRING_NOTFOUND );
bOKThis |= ( aChar >= 'A' && aChar <= 'Z' );
bOKThis |= ( aChar >= 'a' && aChar <= 'z' );
bOKThis |= ( aChar >= '0' && aChar <= '9' );
bOK &= bOKThis;
nIndex++;
}
if ( !bOK )
{
ADD_WARNING_LOG2( CUniString("Zeile \"").Append(aLine).AppendAscii("\" enth<74>lt ung<6E>ltige Zeichen."), Filename, nLineNr );
continue;
}
BOOL bUnoName = ( aLongname.Copy( 0, 5 ).EqualsIgnoreCaseAscii( ".uno:" )
|| aLongname.Copy( 0, 4 ).EqualsIgnoreCaseAscii( "http" )
|| aLongname.Copy( 0, 15 ).EqualsIgnoreCaseAscii( "private:factory" )
|| aLongname.Copy( 0, 8 ).EqualsIgnoreCaseAscii( "service:" )
|| aLongname.Copy( 0, 6 ).EqualsIgnoreCaseAscii( "macro:" )
|| aLongname.Copy( 0, 8 ).EqualsIgnoreCaseAscii( ".HelpId:" ) );
BOOL bMozillaName = ( !bIsFlat && aLongname.Copy( 0, 4 ).EqualsIgnoreCaseAscii( ".moz" ) );
if ( aName.GetChar(0) == '+' ) // Kompletten Eintrag kopieren
{
aName.Erase(0,1);
ControlDef WhatName(aLongname,SmartId());
ControlDef *OldTree;
if (pNames->Seek_Entry(&WhatName,&nElement))
{
OldTree = (ControlDef*)pNames->GetObject(nElement);
pNewDef = new ControlDef(aLongname,aName,OldTree,TRUE);
if (! pNames->C40_PTR_INSERT(ControlItem, (ControlItem*&)pNewDef))
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_DOUBLE_NAME, aLine ), Filename, nLineNr );
delete pNewDef;
pFatherDef = NULL;
}
else
{
pFatherDef = pNewDef;
}
}
else
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_SHORTNAME_UNKNOWN, aLine ), Filename, nLineNr );
continue;
}
}
else
{
if (aName.CompareIgnoreCaseToAscii("*Active") == COMPARE_EQUAL)
aUId = SmartId( UID_ACTIVE );
else if ( !bUnoName && !bMozillaName )
{ // Bestimmen der ID aus der Hid.Lst
ControlDef WhatName(aLongname,SmartId());
if (pUIds->Seek_Entry(&WhatName,&nElement))
aUId = pUIds->GetObject(nElement)->pData->aUId;
else
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_LONGNAME_UNKNOWN, aLine ), Filename, nLineNr );
continue;
}
}
else
{
if ( bUnoName )
aUId = SmartId( aLongname );
else if ( bMozillaName )
aUId = SmartId( aLongname );
else
{
DBG_ERROR("Unknown URL schema")
}
}
if (aName.GetChar(0) == '*' || bIsFlat) // Globaler Kurzname (Dialogname oder SId)
{
if (!bIsFlat)
aName.Erase(0,1);
pNewDef = new ControlDef(aName,aUId);
if (!bIsFlat)
{
pNewDef->Sons( new CNames() );
pNewDef2 = new ControlDef(aName,aUId);
if (!pNewDef->SonInsert( pNewDef2 )) // Dialog in eigenen Namespace eintragen
{
delete pNewDef2;
DBG_ERROR(" !!!! ACHTUNG !!!! Fehler beim einf<6E>gen in leere Liste!");
}
}
if (! pNames->C40_PTR_INSERT(ControlItem, (ControlItem*&)pNewDef))
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_DOUBLE_NAME, aLine ), Filename, nLineNr );
delete pNewDef;
pFatherDef = NULL;
}
else
{
pFatherDef = pNewDef;
}
}
else
{
if (!pFatherDef)
{
ADD_WARNING_LOG2( GEN_RES_STR0( S_FIRST_SHORTNAME_REQ_ASTRX ), Filename, nLineNr );
}
else
{
pNewDef = new ControlDef(aName,aUId);
if (! pFatherDef->SonInsert(pNewDef))
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_DOUBLE_NAME, aLine ), Filename, nLineNr );
delete pNewDef;
}
}
}
}
GetpApp()->Reschedule();
}
{
TTExecutionStatusHint aHint( TT_EXECUTION_LEAVEWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
{
TTExecutionStatusHint aHint( TT_EXECUTION_HIDE_ACTION );
GetTTBroadcaster().Broadcast( aHint );
}
Stream.Close();
}
void TestToolObj::AddName(String &aBisher, String &aNeu )
{
String aSl( '/' );
if ( UniString(aSl).Append(aBisher).Append(aSl).ToUpperAscii().Search( UniString(aSl).Append(aNeu).Append(aSl).ToUpperAscii() ) == STRING_NOTFOUND )
{
aBisher += aSl;
aBisher += aNeu;
}
}
void TestToolObj::ReadFlat( String Filename, CNames *&pNames, BOOL bSortByName )
// Wenn bSortByName == FALSE, dann nach UId Sortieren (ControlItemUId statt ControlDef)
{
SvFileStream Stream;
String aLine,aName;
SmartId aUId;
xub_StrLen nLineNr;
ControlItem *pNewItem;
USHORT nDoubleCount = 0;
Stream.Open(Filename, STREAM_STD_READ);
if (!Stream.IsOpen())
{
ADD_ERROR(ERR_NO_FILE,GEN_RES_STR1(S_CANNOT_OPEN_FILE, Filename));
return;
}
nLineNr = 0; // Wir sind ja noch vor der Datei
if ( !pNames )
pNames = new CNames();
{
TTExecutionStatusHint aHint( TT_EXECUTION_ENTERWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
ADD_MESSAGE_LOG( Filename );
while (!Stream.IsEof())
{
nLineNr++;
Stream.ReadByteStringLine(aLine, RTL_TEXTENCODING_IBM_850);
aLine.EraseLeadingChars();
aLine.EraseTrailingChars();
while ( aLine.SearchAscii(" ") != STRING_NOTFOUND )
aLine.SearchAndReplaceAllAscii(" ",UniString(' '));
if (aLine.Len() == 0) continue;
if ( (aLine.GetTokenCount(cMyDelim) < 2 || aLine.GetTokenCount(cMyDelim) > 3) && aLine.CompareIgnoreCaseToAscii("*Active") != COMPARE_EQUAL )
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_INVALID_LINE, aLine ), Filename, nLineNr );
continue;
}
aName = aLine.GetToken(0,cMyDelim);
aUId = SmartId( (ULONG)aLine.GetToken(1,cMyDelim).ToInt64() );
if ( bSortByName )
pNewItem = new ControlDef( aName, aUId );
else
pNewItem = new ControlItemUId( aName, aUId );
if ( !pNames->C40_PTR_INSERT( ControlItem, pNewItem ) )
{
if ( bSortByName )
{
if ( nDoubleCount++ < 10 )
{
ADD_WARNING_LOG2( GEN_RES_STR1( S_DOUBLE_NAME, aLine ), Filename, nLineNr );
}
}
else
{
USHORT nNr;
pNames->Seek_Entry( pNewItem, &nNr );
AddName( pNames->GetObject(nNr)->pData->Kurzname, pNewItem->pData->Kurzname );
}
delete pNewItem;
}
GetpApp()->Reschedule();
}
{
TTExecutionStatusHint aHint( TT_EXECUTION_LEAVEWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
Stream.Close();
#ifdef DBG_UTIL
// int i;
// for ( i = 0 ; i < pNames->Count() ; i++ )
// {
// DBG_ERROR( pNames->GetObject(i)->pData->Kurzname );
// }
#endif
}
void ReadFlatArray( const ControlDefLoad arWas [], CNames *&pNames )
{
USHORT nIndex = 0;
if ( !pNames )
pNames = new CNames();
while ( String::CreateFromAscii(arWas[nIndex].Kurzname).Len() > 0 )
{
SmartId aUId (arWas[nIndex].nUId);
const ControlItem *pX = new ControlDef( arWas[nIndex].Kurzname, aUId);
pNames->C40_PTR_INSERT(ControlItem, pX);
nIndex++;
}
}
void TestToolObj::WaitForAnswer ()
{
if ( bUseIPC )
{
#ifdef DBG_UTILx
USHORT nSysWinModeMemo = GetpApp()->GetSystemWindowMode();
GetpApp()->SetSystemWindowMode( 0 );
ModelessDialog aDlg(NULL);
aDlg.SetOutputSizePixel(Size(200,0));
aDlg.SetText(CUniString("Waiting for Answer"));
aDlg.Show( TRUE, SHOW_NOFOCUSCHANGE | SHOW_NOACTIVATE );
GetpApp()->SetSystemWindowMode( nSysWinModeMemo );
#endif
BOOL bWasRealWait = !bReturnOK;
BasicRuntime aRun( NULL );
if ( BasicRuntimeAccess::HasRuntime() )
aRun = BasicRuntimeAccess::GetRuntime();
// this timer to terminate Yield below
Timer aTimer;
aTimer.SetTimeout( pImpl->aServerTimeout.GetMSFromTime() );
aTimer.Start();
while ( !bReturnOK && aTimer.IsActive() && pCommunicationManager->IsCommunicationRunning()
&& aRun.IsValid() && aRun.IsRun() )
{
#ifdef OS2
DosSleep(100);
#endif
GetpApp()->Yield();
if ( BasicRuntimeAccess::HasRuntime() )
aRun = BasicRuntimeAccess::GetRuntime();
else
aRun = BasicRuntime( NULL );
}
if ( bWasRealWait && aDialogHandlerName.Len() > 0 ) // Damit das ganze auch im Testtool l<>uft
CallDialogHandler(GetpApp());
}
else
{
Time Ende;
Ende += pImpl->aServerTimeout;
SvStream *pTemp = NULL;
while ( !bReturnOK && Ende > Time() )
{
// pTemp = PlugInApplication::GetPlugInApp()->GetReturnFromExecute();
if ( pTemp )
{
ReturnResults( pTemp );
bReturnOK = TRUE;
}
else
{
GetpApp()->Reschedule();
}
nIdleCount = 0;
}
}
if ( !bReturnOK )
{
ADD_ERROR(ERR_EXEC_TIMEOUT,GEN_RES_STR1(S_TIMOUT_WAITING, String::CreateFromInt64(nSequence)));
bReturnOK = TRUE;
nSequence++;
}
}
IMPL_LINK( TestToolObj, IdleHdl, Application*, pApp )
{
if ( !bReturnOK )
nIdleCount++;
if ( nIdleCount > 10 ) // d.h. Schon 10 mal hier gewesen und noch keinmal im WaitForAnswer
{
GetpApp()->RemoveIdleHdl( LINK( this, TestToolObj, IdleHdl ) );
GetpApp()->PostUserEvent( LINK( this, TestToolObj, CallDialogHandler ) );
}
return 0;
}
IMPL_LINK( TestToolObj, CallDialogHandler, Application*, pApp )
{
nWindowHandlerCallLevel++;
String aName(aDialogHandlerName);
aDialogHandlerName.Erase();
ULONG nRememberSequence = nSequence; // Da sich die Sequence im DialogHandler <20>ndert
((StarBASIC*)GetParent())->Call( aName );
nSequence = nRememberSequence;
// Die Sequenznummern werden dann zwar doppelt vergeben, aber wen k<>mmerts.
nWindowHandlerCallLevel--;
return 0;
}
void TestToolObj::BeginBlock()
{
WaitForAnswer();
if ( IsError() )
return;
DBG_ASSERT(!IsBlock,"BeginBlock innerhalb eines Blockes")
In->Reset(nSequence);
IsBlock = TRUE;
}
void TestToolObj::SendViaSocket()
{
if ( !pCommunicationManager )
{
DBG_ERROR("Kein CommunicationManager vorhanden!!")
return;
}
if ( !pCommunicationManager->IsCommunicationRunning() )
if ( !pCommunicationManager->StartCommunication( ProgPath, pImpl->ProgParam, pImpl->pChildEnv ) )
{
ADD_ERROR(ERR_RESTART_FAIL,GEN_RES_STR1(S_APPLICATION_START_FAILED, ProgPath));
}
else
{
if ( !pImpl->bIsStart )
{
ADD_ERROR(ERR_RESTART,GEN_RES_STR0(S_APPLICATION_RESTARTED));
}
}
bReturnOK = FALSE;
if ( pCommunicationManager->GetLastNewLink() )
{
if ( !pCommunicationManager->GetLastNewLink()->TransferDataStream( In->GetStream() ) )
{
ADD_ERROR(ERR_SEND_TIMEOUT,GEN_RES_STR1(S_TIMOUT_SENDING, String::CreateFromInt64(nSequence)));
nSequence++;
bReturnOK = TRUE; // Kein Return zu erwarten
}
}
else
{
ADD_ERROR(ERR_SEND_TIMEOUT,GEN_RES_STR1(S_NO_CONNECTION, String::CreateFromInt64(nSequence)));
nSequence++;
bReturnOK = TRUE; // Kein Return zu erwarten
}
}
void TestToolObj::EndBlock()
{
if (IsBlock)
{
pImpl->LocalStarttime = Time::GetSystemTicks(); // Setzen der Anfangszeit f<>r Performancemessung
In->GenCmdFlow (F_EndCommandBlock);
if ( pImpl->bDoRemoteCommandDelay )
{
ULONG nTimeWait = pImpl->nMinRemoteCommandDelay;
if ( pImpl->nMaxRemoteCommandDelay != pImpl->nMinRemoteCommandDelay )
nTimeWait += Time::GetSystemTicks() % ( pImpl->nMaxRemoteCommandDelay - pImpl->nMinRemoteCommandDelay );
Timer aTimer;
aTimer.SetTimeout( nTimeWait );
aTimer.Start();
while ( aTimer.IsActive() && pCommunicationManager->IsCommunicationRunning() )
{
#ifdef OS2
DosSleep(100);
#endif
GetpApp()->Yield();
}
}
if ( bUseIPC )
SendViaSocket();
else
{
// PlugInApplication::GetPlugInApp()->ExecuteRemoteStatements( In->GetStream() );
bReturnOK = FALSE;
if ( aDialogHandlerName.Len() > 0 )
GetpApp()->InsertIdleHdl( LINK( this, TestToolObj, IdleHdl ), 1 );
}
IsBlock = FALSE;
}
else
{
DBG_ERROR("EndBlock au<61>erhalb eines Blockes")
}
}
BOOL TestToolObj::Load( String aName, SbModule *pMod )
{
BOOL bOk = TRUE;
SvFileStream aStrm( aName, STREAM_STD_READ );
if( aStrm.IsOpen() )
{
String aText, aLine;
BOOL bIsFirstLine = TRUE;
rtl_TextEncoding aFileEncoding = RTL_TEXTENCODING_IBM_850;
while( !aStrm.IsEof() && bOk )
{
aStrm.ReadByteStringLine( aLine, aFileEncoding );
if ( bIsFirstLine && IsTTSignatureForUnicodeTextfile( aLine ) )
aFileEncoding = RTL_TEXTENCODING_UTF8;
else
{
if ( !bIsFirstLine )
aText += '\n';
aText += aLine;
bIsFirstLine = FALSE;
}
if( aStrm.GetError() != SVSTREAM_OK )
bOk = FALSE;
}
aText.ConvertLineEnd();
pMod->SetName(CUniString("--").Append(aName));
pMod->SetComment( GetRevision( aText ) );
SbModule* pOldModule = MyBasic::GetCompileModule();
MyBasic::SetCompileModule( pMod );
pMod->SetSource( PreCompile( aText ) );
MyBasic::SetCompileModule( pOldModule );
if ( WasPrecompilerError() )
bOk = FALSE;
}
else
bOk = FALSE;
return bOk;
}
BOOL TestToolObj::ReadNamesBin( String Filename, CNames *&pSIds, CNames *&pControls )
{
SvFileStream aStream;
String aName,aURL;
SmartId aUId;
ControlDef *pNewDef, *pNewDef2;
ControlDef *pFatherDef = NULL;
aStream.Open(Filename, STREAM_STD_READ);
if (!aStream.IsOpen())
{
ADD_ERROR(ERR_NO_FILE,GEN_RES_STR1(S_CANNOT_OPEN_FILE, Filename));
return FALSE;
}
if ( !pSIds )
pSIds = new CNames();
if ( !pControls )
pControls = new CNames();
{
TTExecutionStatusHint aHint( TT_EXECUTION_ENTERWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
USHORT nAnz;
aStream >> nAnz;
CNames *pNames = pSIds; // first read all the slots
BOOL bIsFlat = TRUE; // Slots do not have children
while ( nAnz && !aStream.IsEof() )
{
aStream.ReadByteString( aName, RTL_TEXTENCODING_UTF8 );
USHORT nType;
aStream >> nType;
if ( !nType /* HasNumeric() */)
{
String aStrId;
aStream.ReadByteString( aStrId, RTL_TEXTENCODING_UTF8 );
aUId = SmartId( aStrId );
}
else
{
ULONG nUId;
aStream >> nUId;
aUId = SmartId( nUId );
}
if (aName.GetChar(0) == '*' || bIsFlat ) // Globaler Kurzname (Dialogname oder SId)
{
if (!bIsFlat)
aName.Erase(0,1);
pNewDef = new ControlDef(aName,aUId);
if (!bIsFlat)
{
pNewDef->Sons(new CNames());
pNewDef2 = new ControlDef(aName,aUId); // Noch einen machen
if (!pNewDef->SonInsert(pNewDef2)) // Dialog in eigenen Namespace eintragen
{
delete pNewDef2;
DBG_ERROR(" !!!! ACHTUNG !!!! Fehler beim einf<6E>gen in leere Liste!");
}
}
if (! pNames->C40_PTR_INSERT(ControlItem, (ControlItem*&)pNewDef))
{
DBG_ERROR(" !!!! ACHTUNG !!!! Fehler beim einf<6E>gen eines namens!");
delete pNewDef;
pFatherDef = NULL;
}
else
{
pFatherDef = pNewDef;
}
}
else
{
if (!pFatherDef)
{
DBG_ERROR( "Internal Error: Erster Kurzname mu<6D> mit * beginnen. <20>berspringe." );
}
else
{
pNewDef = new ControlDef(aName,aUId);
if (! pFatherDef->SonInsert(pNewDef))
{
delete pNewDef;
DBG_ERROR(" !!!! ACHTUNG !!!! Fehler beim einf<6E>gen eines namens!");
}
}
}
nAnz--;
if ( !nAnz && bIsFlat ) // We have read all slots
{
aStream >> nAnz;
pNames = pControls; // Now read the controls
bIsFlat = FALSE; // Controls *do* have children
}
GetpApp()->Reschedule();
}
{
TTExecutionStatusHint aHint( TT_EXECUTION_LEAVEWAIT );
GetTTBroadcaster().Broadcast( aHint );
}
aStream.Close();
return TRUE;
return FALSE;
}
BOOL TestToolObj::WriteNamesBin( String Filename, CNames *pSIds, CNames *pControls )
{
BOOL bOk = TRUE;
SvFileStream aStrm( String(Filename).AppendAscii(".bin"), STREAM_STD_WRITE );
if( aStrm.IsOpen() )
{
int i;
if ( pSIds )
{
aStrm << pSIds->Count();
for ( i = 0 ; pSIds->Count() > i && bOk ; i++ )
{
((ControlDef*)(*pSIds)[i])->Write(aStrm);
if( aStrm.GetError() != SVSTREAM_OK )
bOk = FALSE;
}
}
else
aStrm << USHORT( 0 );
if ( pControls )
{
aStrm << pControls->Count();
for ( i = 0 ; pControls->Count() > i && bOk ; i++ )
{
((ControlDef*)(*pControls)[i])->Write(aStrm);
if( aStrm.GetError() != SVSTREAM_OK )
bOk = FALSE;
}
}
else
aStrm << USHORT( 0 );
}
else
bOk = FALSE;
return bOk;
}
void TestToolObj::SFX_NOTIFY( SfxBroadcaster&, const TypeId&,
const SfxHint& rHint, const TypeId& )
{
static CNames *pUIds = NULL; // Halten der hid.lst
const SbxHint* p = PTR_CAST(SbxHint,&rHint);
if( p )
{
SbxVariable* pVar = p->GetVar();
SbxArray* rPar = pVar->GetParameters();
ULONG nHintId = p->GetId();
ULONG nUserData = pVar->GetUserData();
if( nHintId == SBX_HINT_DATAWANTED )
{
nMyVar = 0;
nControlsObj = 0;
switch( nUserData )
{
case ID_Kontext:
if ( !rPar )
{
pNameKontext = pControls;
// So da<64> nicht immer mal wieder was aus einem alten Kontext dazwischenhaut
for (USHORT i=0;i<VAR_POOL_SIZE;i++)
{
pImpl->pMyVars[i] -> SetName( CUniString("VarDummy").Append(UniString::CreateFromInt32(i)) );
pImpl->pControlsObjs[i] -> SetName( CUniString("ControlDummy").Append(UniString::CreateFromInt32(i)) );
}
}
else if ( rPar && rPar->Count() == 2 )
{
USHORT nElement;
SbxVariableRef pArg = rPar->Get( 1 );
String aKontext = pArg->GetString();
ControlDef WhatName(aKontext,SmartId());
if (pControls && pControls->Seek_Entry(&WhatName,&nElement))
{
pNameKontext = ((ControlDef*)pControls->GetObject(nElement))->GetSons();
// So da<64> nicht immer mal wieder was aus einem alten Kontext dazwischenhaut
for (USHORT i=0;i<VAR_POOL_SIZE;i++)
{
pImpl->pMyVars[i] -> SetName( CUniString("VarDummy").Append(UniString::CreateFromInt32(i)) );
pImpl->pControlsObjs[i] -> SetName( CUniString("ControlDummy").Append(UniString::CreateFromInt32(i)) );
}
}
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_Start:
if ( rPar && rPar->Count() >= 2 )
{
SbxVariableRef pArg = rPar->Get( 1 );
ProgPath = pArg->GetString();
if ( rPar && rPar->Count() >= 3 )
{
pArg = rPar->Get( 2 );
pImpl->ProgParam = pArg->GetString();
}
else
pImpl->ProgParam.Erase();
String aTmpStr(ProgPath);
aTmpStr += ' ';
aTmpStr += pImpl->ProgParam;
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_STARTING_APPLICATION)), aTmpStr );
GetTTBroadcaster().Broadcast( aHint );
pImpl->bIsStart = TRUE;
BeginBlock();
EndBlock();
pImpl->bIsStart = FALSE;
{
TTExecutionStatusHint aHint( TT_EXECUTION_HIDE_ACTION );
GetTTBroadcaster().Broadcast( aHint );
}
}
break;
case ID_KillApp:
pCommunicationManager->KillApplication();
break;
case ID_SaveIDs:
if ( rPar && rPar->Count() >= 2 ) // Genau ein Parameter
{
SbxVariableRef pArg = rPar->Get( 1 );
DirEntry FilePath = pImpl->aFileBase + DirEntry(pArg->GetString(),FSYS_STYLE_VFAT);
WriteNamesBin( FilePath.GetFull(), pSIds, pControls );
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_AutoExecute:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
pVar->PutBool(SingleCommandBlock);
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_Execute:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
EndBlock();
BeginBlock();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_DialogHandler:
if ( rPar && rPar->Count() >= 2 ) // Genau ein Parameter
{
SbxVariableRef pArg = rPar->Get( 1 );
aDialogHandlerName = pArg->GetString();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_GetError:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
WaitForAnswer();
if ( IS_ERROR() )
{
// pVar->PutULong( GET_ERROR()->nError );
pVar->PutString( GET_ERROR()->aText );
POP_ERROR();
}
else
{
// pVar->PutULong( 0 );
pVar->PutString( String() );
}
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_StartUse:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
BasicRuntime aRun = BasicRuntimeAccess::GetRuntime();
aLogFileName = DirEntry(aRun.GetModuleName(SbxNAME_NONE)).GetBase().AppendAscii(".res");
ADD_RUN_LOG();
ADD_CASE_LOG(GEN_RES_STR0(S_READING_FILE));
pCommunicationManager->StopCommunication();
// Wait for asynchronous events to be processed, so communication will be restarted properly
while ( pCommunicationManager->IsCommunicationRunning() )
Application::Reschedule();
SingleCommandBlock = TRUE; // Bug 57188
IsBlock = FALSE;
// pCommunicationManager->StartCommunication();
for (USHORT i=0;i<VAR_POOL_SIZE;i++)
{
pImpl->pMyVars[i] -> SetName( CUniString("VarDummy").Append(UniString::CreateFromInt32(i)) );
pImpl->pControlsObjs[i] -> SetName( CUniString("ControlDummy").Append(UniString::CreateFromInt32(i)) );
}
nMyVar = 0;
nControlsObj = 0;
if (pControls)
{
delete pControls;
pControls = NULL;
}
if (pReverseSlots)
{
delete pReverseSlots;
pReverseSlots = NULL;
}
if (pReverseControls)
{
delete pReverseControls;
pReverseControls = NULL;
}
if (pReverseControlsSon)
{
delete pReverseControlsSon;
pReverseControlsSon = NULL;
}
if (pSIds)
{
delete pSIds;
pSIds = NULL;
}
if (pUIds)
{
delete pUIds;
pUIds = NULL;
}
if (pReverseUIds)
{
delete pReverseUIds;
pReverseUIds = NULL;
}
pNameKontext = pControls;
pImpl->bLnaguageExtensionLoaded = FALSE;
SfxSimpleHint aHint( SBX_HINT_LANGUAGE_EXTENSION_LOADED );
GetTTBroadcaster().Broadcast( aHint );
pImpl->nMinRemoteCommandDelay = 0;
pImpl->nMaxRemoteCommandDelay = 0;
pImpl->bDoRemoteCommandDelay = FALSE;
pImpl->aTestCaseName.Erase();
pImpl->aTestCaseFileName.Erase();
pImpl->nTestCaseLineNr = 0;
pImpl->bEnableQaErrors = TRUE;
pImpl->bDebugFindNoErrors = FALSE;
pImpl->pChildEnv->clear();
String aName( CUniString( "StopOnSyntaxError" ) );
SbxVariableRef xStopOnSyntaxError = SbxObject::Find( aName, SbxCLASS_PROPERTY );
if ( xStopOnSyntaxError.Is() )
xStopOnSyntaxError->PutBool( pImpl->bStopOnSyntaxError );
else
SetError( SbxERR_BAD_ACTION );
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_Use:
if ( rPar && rPar->Count() >= 2 )
{
SbxVariableRef pArg = rPar->Get( 1 );
DirEntry FilePath(pArg->GetString(),FSYS_STYLE_VFAT);
if ( !FilePath.IsAbs() )
FilePath = pImpl->aFileBase + FilePath;
String Ext = FilePath.GetExtension();
if ( Ext.CompareIgnoreCaseToAscii("Win") == COMPARE_EQUAL )
{
ReadNames( FilePath.GetFull(),pControls,pUIds);
pImpl->bLnaguageExtensionLoaded = TRUE;
SfxSimpleHint aHint( SBX_HINT_LANGUAGE_EXTENSION_LOADED );
GetTTBroadcaster().Broadcast( aHint );
}
else if ( Ext.CompareIgnoreCaseToAscii("Sid") == COMPARE_EQUAL )
{
ReadNames( FilePath.GetFull(),pSIds,pUIds,FLAT);
pImpl->bLnaguageExtensionLoaded = TRUE;
SfxSimpleHint aHint( SBX_HINT_LANGUAGE_EXTENSION_LOADED );
GetTTBroadcaster().Broadcast( aHint );
}
else if ( Ext.CompareIgnoreCaseToAscii("Bin") == COMPARE_EQUAL )
{
ReadNamesBin( FilePath.GetFull(), pSIds, pControls );
pImpl->bLnaguageExtensionLoaded = TRUE;
SfxSimpleHint aHint( SBX_HINT_LANGUAGE_EXTENSION_LOADED );
GetTTBroadcaster().Broadcast( aHint );
}
else if ( Ext.CompareIgnoreCaseToAscii("Inc") == COMPARE_EQUAL )
{
{
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_READING_BASIC_MODULE)), FilePath.GetFull() );
GetTTBroadcaster().Broadcast( aHint );
}
String aFullPathname = FilePath.GetFull();
StarBASIC *pBasic = (StarBASIC*)GetParent();
if ( !aModuleWinExistsHdl.Call( &aFullPathname ) &&
!pBasic->FindModule( CUniString( "--" ).Append(aFullPathname) ) )
{
SbModule *pMod;
pMod = pBasic->MakeModule( CUniString("--"), String() );
pMod->Clear();
if ( Load( aFullPathname, pMod ) )
{
if ( !IS_ERROR() )
{
pBasic->Compile( pMod );
pMod->RunInit();
}
}
else
{
ADD_ERROR( SbxERR_CANNOT_LOAD, FilePath.GetFull() );
}
}
{
TTExecutionStatusHint aHint( TT_EXECUTION_HIDE_ACTION );
GetTTBroadcaster().Broadcast( aHint );
}
}
else
{
ADD_ERROR(SbxERR_CANNOT_LOAD,FilePath.GetFull());
}
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_FinishUse:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
ADD_CASE_LOG( String() ); // Case abschliessen
if (!pControls)
pControls = new CNames();
if (!pSIds)
pSIds = new CNames();
if (pUIds)
{ // save some memory
delete pUIds;
pUIds = NULL;
}
pNameKontext = pControls;
if ( pImpl->bLnaguageExtensionLoaded )
{
SfxSimpleHint aHint( SBX_HINT_LANGUAGE_EXTENSION_LOADED );
GetTTBroadcaster().Broadcast( aHint );
}
pImpl->nIncludeFileWarningCount = pImpl->nWarningCount;
pImpl->nWarningCount = 0;
*pImpl->xIncludeFileWarningList = *pImpl->xWarningList;
pImpl->xWarningList->SbxArray::Clear();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_CaseLog:
if ( rPar ) // rPar != NULL <=> Es gibt Parameter
{
USHORT n;
String aX;
for ( n = 1; n < rPar->Count(); n++ )
{
SbxVariableRef pArg = rPar->Get( n );
aX += pArg->GetString();
}
pImpl->aTestCaseName = aX;
if ( pImpl->aTestCaseName.Len() && BasicRuntimeAccess::HasRuntime() )
{
BasicRuntime aRun = BasicRuntimeAccess::GetRuntime();
pImpl->aTestCaseFileName = aRun.GetModuleName(SbxNAME_SHORT_TYPES);
if ( pImpl->aTestCaseFileName.Copy(0,2).CompareToAscii( "--" ) == COMPARE_EQUAL )
pImpl->aTestCaseFileName.Erase(0,2);
pImpl->nTestCaseLineNr = aRun.GetLine();
}
else
{
pImpl->aTestCaseFileName.Erase();
pImpl->nTestCaseLineNr = 0;
}
ADD_CASE_LOG( aX );
}
break;
case ID_ExceptLog:
if ( IS_ERROR() )
{
BasicRuntime aRun = BasicRuntimeAccess::GetRuntime();
BOOL bWasNewError = FALSE;
if ( BasicRuntimeAccess::HasStack() )
{
for ( USHORT i = 0 ; i < BasicRuntimeAccess::GetStackEntryCount() -1 ; i++ )
{
BasicErrorStackEntry aThisEntry = BasicRuntimeAccess::GetStackEntry(i);
if ( !bWasNewError )
{
bWasNewError = TRUE;
ADD_ERROR_LOG( GET_ERROR()->aText, aThisEntry.GetModuleName(SbxNAME_SHORT_TYPES),
aThisEntry.GetLine(), aThisEntry.GetCol1(), aThisEntry.GetCol2(), aThisEntry.GetSourceRevision() );
}
ADD_CALL_STACK_LOG( String(aThisEntry.GetModuleName(SbxNAME_SHORT_TYPES))
.AppendAscii(": ").Append(aThisEntry.GetMethodName(SbxNAME_SHORT_TYPES)),
aThisEntry.GetModuleName(SbxNAME_SHORT_TYPES),
aThisEntry.GetLine(), aThisEntry.GetCol1(), aThisEntry.GetCol2() );
}
BasicRuntimeAccess::DeleteStack();
}
BOOL bIsFirst = TRUE;
while ( aRun.IsValid() )
{
xub_StrLen nErrLn;
xub_StrLen nCol1;
xub_StrLen nCol2;
if ( bIsFirst )
{
bIsFirst = FALSE;
nErrLn = GET_ERROR()->nLine;
nCol1 = GET_ERROR()->nCol1;
nCol2 = GET_ERROR()->nCol2;
}
else
{
nErrLn = aRun.GetLine();
nCol1 = aRun.GetCol1();
nCol2 = aRun.GetCol2();
}
if ( !bWasNewError )
{
bWasNewError = TRUE;
ADD_ERROR_LOG( GET_ERROR()->aText, aRun.GetModuleName(SbxNAME_SHORT_TYPES),
nErrLn, nCol1, nCol2, aRun.GetSourceRevision() );
}
ADD_CALL_STACK_LOG( String(aRun.GetModuleName(SbxNAME_SHORT_TYPES))
.AppendAscii(": ").Append(aRun.GetMethodName(SbxNAME_SHORT_TYPES)),
aRun.GetModuleName(SbxNAME_SHORT_TYPES),
nErrLn, nCol1, nCol2 );
aRun = aRun.GetNextRuntime();
}
}
break;
case ID_ErrorLog:
if ( IS_ERROR() )
{
BasicRuntime aRun = BasicRuntimeAccess::GetRuntime();
if ( BasicRuntimeAccess::HasStack() )
{
BasicErrorStackEntry aThisEntry = BasicRuntimeAccess::GetStackEntry( 0 );
ADD_ERROR_LOG( GET_ERROR()->aText, aThisEntry.GetModuleName(SbxNAME_SHORT_TYPES),
aThisEntry.GetLine(), aThisEntry.GetCol1(), aThisEntry.GetCol2(), aThisEntry.GetSourceRevision() );
BasicRuntimeAccess::DeleteStack();
}
else
{
ADD_ERROR_LOG( GET_ERROR()->aText, aRun.GetModuleName(SbxNAME_SHORT_TYPES),
StarBASIC::GetErl(), aRun.GetCol1(), aRun.GetCol2(), aRun.GetSourceRevision() );
}
}
break;
case ID_QAErrorLog:
if ( rPar ) // rPar != NULL <=> Es gibt Parameter
{
USHORT n;
String aSammel;
for ( n = 1; n < rPar->Count(); n++ )
{
SbxVariableRef pArg = rPar->Get( n );
aSammel += pArg->GetString();
}
ADD_QA_ERROR_LOG( aSammel );
}
break;
case ID_PrintLog:
if ( rPar ) // rPar != NULL <=> Es gibt Parameter
{
USHORT n;
String aSammel;
for ( n = 1; n < rPar->Count(); n++ )
{
SbxVariableRef pArg = rPar->Get( n );
aSammel += pArg->GetString();
}
ADD_MESSAGE_LOG( aSammel );
}
break;
case ID_WarnLog:
if ( rPar ) // rPar != NULL <=> Es gibt Parameter
{
USHORT n;
String aSammel;
for ( n = 1; n < rPar->Count(); n++ )
{
SbxVariableRef pArg = rPar->Get( n );
aSammel += pArg->GetString();
}
ADD_WARNING_LOG( aSammel );
}
break;
case ID_ClearError:
while ( IS_ERROR() )
{
POP_ERROR();
}
break;
case ID_MaybeAddErr:
if ( ((StarBASIC*)GetParent())->GetErr() && ( !IS_ERROR() ||
pFehlerListe->GetObject(pFehlerListe->Count()-1)->nError != ((StarBASIC*)GetParent())->GetErr() ) )
{
((StarBASIC*)GetParent())->MakeErrorText(((StarBASIC*)GetParent())->GetErr(),String());
ADD_ERROR_QUIET(((StarBASIC*)GetParent())->GetErr() , ((StarBASIC*)GetParent())->GetErrorText())
}
break;
case ID_GetNextCloseWindow:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
SetError( SbxERR_NOTIMP );
break;
// Das ist total rotten und mu<6D> wohl komplett neu!!
BOOL bWasBlock = IsBlock;
if ( !IsBlock ) // Impliziter call bei Aufruf mit Methode
if ( SingleCommandBlock )
BeginBlock();
// if ( !IsError() )
// In->GenCmdSlot (128,rPar);
// ((Controls*)pVar)->pMethodVar->nValue = 128;
ULONG nOldValue = ((Controls*)pVar)->GetULong();
// Setzen, so da<64> beim Return der Wert stimmt
((Controls*)pVar)->PutULong( 128 );
pImpl->pNextReturn = ((Controls*)pVar)->pMethodVar;
if ( SingleCommandBlock )
EndBlock();
WaitForAnswer();
if ( bWasBlock )
if ( SingleCommandBlock )
BeginBlock();
((Controls*)pVar)->PutULong( nOldValue );
// R<>cksetzen, so da<64> beim n<>chsten Aufruf alles klappt
// ((Controls*)pVar)->SetUserData( 128 );
// ((Controls*)pVar)->SetName("xxx");
// Setzen und r<>cksetzen der ID, so dass der Notify ohne Wirkung bleibt.
((Controls*)pVar)->pMethodVar->SetUserData(ID_ErrorDummy);
((Controls*)pVar)->PutULong( ((Controls*)pVar)->pMethodVar->GetULong() );
((Controls*)pVar)->pMethodVar->SetUserData(ID_Control);
pShortNames->Insert( CUniString("xxx"), SmartId( ((Controls*)pVar)->pMethodVar->nValue ), nSequence );
nOldValue = ((Controls*)pVar)->GetULong();
SbxVariable *pMember;
if ( ! (pMember = ((Controls*)pVar)->Find(CUniString("ID"),SbxCLASS_DONTCARE)) )
{
pMember = new SbxProperty(CUniString("ID"),SbxVARIANT);
((Controls*)pVar)->Insert(pMember);
}
pMember->PutULong(((Controls*)pVar)->pMethodVar->nValue);
if ( ! (pMember = ((Controls*)pVar)->Find(CUniString("name"),SbxCLASS_DONTCARE)) )
{
pMember = NULL;
}
else
pMember->PutString(CUniString("xxx"));
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_RemoteCommand:
{
if ( SingleCommandBlock )
BeginBlock();
else
if ( ((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
SetError( SbxERR_NOTIMP );
}
if ( !IsError() )
In->GenCmdCommand ((USHORT)(((SbxTransportMethod*)pVar)->nValue),rPar);
if ( !IsError() && ((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
pImpl->pNextReturn = ((SbxTransportMethod*)pVar);
aNextReturnId = SmartId( ((SbxTransportMethod*)pVar)->nValue );
}
if ( SingleCommandBlock )
EndBlock();
if ( !IsError() && (USHORT)((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
WaitForAnswer();
}
// f<>r einige noch etwas Nachbehandlung
switch ( ((SbxTransportMethod*)pVar)->nValue )
{
case RC_WinTree:
// ::svt::OStringTransfer::CopyString(pVar->GetString(), pSomeWindowIDontHave );
break;
}
}
break;
case ID_Dispatch:
if ( !rPar || (rPar->Count() % 2) == 1 ) // rPar = NULL <=> Kein Parameter ansonsten Gerade Anzahl(Ungerade, da immer Anzahl+1
{
if ( SingleCommandBlock )
BeginBlock();
if ( !IsError() )
In->GenCmdSlot ( (USHORT)((SbxTransportMethod*)pVar)->nValue, rPar );
pVar->PutInteger( (USHORT)((SbxTransportMethod*)pVar)->nValue );
if ( SingleCommandBlock )
EndBlock();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_UNODispatch:
if ( !rPar ) // rPar = NULL <=> Kein Parameter ansonsten Gerade Anzahl(Ungerade, da immer Anzahl+1
{
if ( SingleCommandBlock )
BeginBlock();
if ( !IsError() )
In->GenCmdUNOSlot ( ((SbxTransportMethod*)pVar)->aUnoSlot );
pVar->PutString( ((SbxTransportMethod*)pVar)->aUnoSlot );
if ( SingleCommandBlock )
EndBlock();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_Control:
case ID_StringControl:
if ( SingleCommandBlock )
BeginBlock();
else
if ( ((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
SetError( SbxERR_NOTIMP );
}
if ( !IsError() )
{
SbxVariable *pMember = NULL;
if ( !( pVar->GetParent() && (pMember = pVar->GetParent()->Find(CUniString("ID"),SbxCLASS_DONTCARE)) ) )
{
SetError( SbxERR_NAMED_NOT_FOUND );
}
else
{
if ( nUserData == ID_Control )
{
In->GenCmdControl (pMember->GetULong(),
(USHORT)((SbxTransportMethod*)pVar)->nValue, rPar);
aNextReturnId = SmartId( pMember->GetULong() );
}
else
{
In->GenCmdControl (pMember->GetString(),
(USHORT)((SbxTransportMethod*)pVar)->nValue, rPar);
aNextReturnId = SmartId( pMember->GetString() );
}
}
if ( !IsError() && ((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
pImpl->pNextReturn = ((SbxTransportMethod*)pVar);
}
else
{
pImpl->pNextReturn = NULL;
aNextReturnId = SmartId();
}
}
if ( SingleCommandBlock )
EndBlock();
if ( !IsError() && (USHORT)((SbxTransportMethod*)pVar)->nValue & M_WITH_RETURN )
{
WaitForAnswer();
}
break;
case ID_GetUnoApp:
{
// Hier wird der Remote UNO Kram gestartet
// Eintrag in die Konfiguration unter
// org.openoffice.Office.Common/Start/Connection
// socket,host=0,port=12345;iiop;XBla
// oder
// socket,host=0,port=12345;urp;;XBla
String aString;
aString.AppendAscii( "socket,host=" );
aString += GetHostConfig();
aString.AppendAscii( ",port=" );
aString += String::CreateFromInt32( GetUnoPortConfig() );
Reference< XMultiServiceFactory > smgr_xMultiserviceFactory;
try
{
Reference< XMultiServiceFactory > xSMgr = comphelper::getProcessServiceFactory();
// is allways there
/* if ( ! xSMgr.is() )
{
xSMgr = ::cppu::createRegistryServiceFactory(OUString(RTL_CONSTASCII_USTRINGPARAM("applicat.rdb")), sal_True );
if ( xSMgr.is() )
comphelper::setProcessServiceFactory( xSMgr );
}*/
OUString aURL( aString );
Reference< XConnector > xConnector( xSMgr->createInstance(
OUString( RTL_CONSTASCII_USTRINGPARAM("com.sun.star.connection.Connector") ) ), UNO_QUERY );
Reference< XConnection > xConnection( xConnector->connect( aURL ) );
Reference< XBridgeFactory > xBridgeFactory( xSMgr->createInstance(
OUString( RTL_CONSTASCII_USTRINGPARAM("com.sun.star.bridge.BridgeFactory") ) ), UNO_QUERY );
Reference< XBridge > xBridge( xBridgeFactory->createBridge(
OUString(), OUString( RTL_CONSTASCII_USTRINGPARAM("urp") ),
xConnection, Reference< XInstanceProvider >() ) );
// Reference< XInterface > xRet( xBridge->getInstance( OUString( RTL_CONSTASCII_USTRINGPARAM("com.sun.star.frame.Desktop")) ) );
Reference< XInterface > xRet( xBridge->getInstance( OUString( RTL_CONSTASCII_USTRINGPARAM("StarOffice.ServiceManager")) ) );
// Reference< XNamingService > xNamingService(xRet, UNO_QUERY);
// Reference< XInterface > smgr = xNamingService->getRegisteredObject( OUString( RTL_CONSTASCII_USTRINGPARAM("StarOffice.ServiceManager" ) ) );
smgr_xMultiserviceFactory = Reference< XMultiServiceFactory >(xRet, UNO_QUERY);
//MBA fragen!!
}
catch( class Exception & rEx)
{
ADD_ERROR(SbxERR_BAD_ACTION, String( rEx.Message ) );
}
catch( ... )
{
ADD_ERROR(SbxERR_BAD_ACTION, CUniString( "Unknown Error" ) );
}
if( smgr_xMultiserviceFactory.is() )
{
Any aAny;
// aAny <<= xBridge;
aAny <<= smgr_xMultiserviceFactory;
SbxObjectRef xMySbxObj = GetSbUnoObject( CUniString("RemoteUnoAppFuerTesttool"), aAny );
if ( xMySbxObj.Is() )
pVar->PutObject( xMySbxObj );
}
}
break;
case ID_GetIServer:
{
// Hier wird der Remote UNO Kram gestartet
String aString;
// aString += GetHostConfig();
// aString.AppendAscii( ":" );
// aString += String::CreateFromInt32( GetUnoPortConfig() );
Reference< XMultiServiceFactory > xSMgr /* = comphelper::getProcessServiceFactory()*/;
// if ( ! xSMgr.is() )
{
xSMgr = ::cppu::createRegistryServiceFactory(OUString(RTL_CONSTASCII_USTRINGPARAM("g:\\iserverproxy.rdb")), sal_True);
// comphelper::setProcessServiceFactory( xSMgr );
}
OUString aURL( aString );
Reference< XConnector > xConnector( xSMgr->createInstance(
OUString( RTL_CONSTASCII_USTRINGPARAM("com.sun.star.connection.Connector") ) ), UNO_QUERY );
Reference< XConnection > xConnection( xConnector->connect( OUString( RTL_CONSTASCII_USTRINGPARAM("socket,host=grande,port=7453")) ) );
Reference< XBridgeFactory > xBridgeFactory( xSMgr->createInstance(
OUString( RTL_CONSTASCII_USTRINGPARAM("com.sun.star.bridge.BridgeFactory") ) ), UNO_QUERY );
Reference< XBridge > xBridge( xBridgeFactory->createBridge(
OUString(), OUString( RTL_CONSTASCII_USTRINGPARAM("urp") ),
xConnection, Reference< XInstanceProvider >() ) );
Reference< XInterface > xRet( xBridge->getInstance( OUString( RTL_CONSTASCII_USTRINGPARAM("XIServerProxy")) ) );
/* Reference< XIServerProxy > xIS( xRet, UNO_QUERY );
if ( xIS.is() )
{
String aHost( xIS->getIServerHost() );
// Reference < XInformationClient > xIC = xIS->createIServerClient( "XInformationClient" );
Reference < XInformationClient > xIC = xIS->createInformationClient();
xIC->getTree(OUString::createFromAscii("r:\\b_server\\config\\stand.lst"), OUString() );
Reference< XTypeProvider > xTP( xRet, UNO_QUERY );
Sequence < com::sun::star::uno::Type > s = xTP->getTypes();
}
*/
if( xRet.is() )
{
Any aAny;
aAny <<= xRet;
SbxObjectRef xMySbxObj = GetSbUnoObject( CUniString("IServerProxy"), aAny );
if ( xMySbxObj.Is() )
pVar->PutObject( xMySbxObj );
}
// In Basic:
// msgbox dbg_SupportedInterfaces
// msgbox dbg_Properties
// msgbox dbg_Methods
}
break;
case ID_RemoteCommandDelay:
if ( rPar && rPar->Count() >= 2 && rPar->Count() <=3 )
{
switch (rPar->Get( 1 )->GetType())
{
case SbxLONG: // alles immer als Short <20>bertragen
case SbxULONG:
case SbxLONG64:
case SbxULONG64:
case SbxDOUBLE:
case SbxINTEGER:
case SbxBYTE:
case SbxUSHORT:
case SbxINT:
case SbxUINT:
case SbxSINGLE:
pImpl->nMinRemoteCommandDelay = rPar->Get( 1 )->GetULong();
if ( rPar->Count() == 3 )
pImpl->nMaxRemoteCommandDelay = rPar->Get( 2 )->GetULong();
else
pImpl->nMaxRemoteCommandDelay = pImpl->nMinRemoteCommandDelay;
break;
case SbxBOOL:
pImpl->bDoRemoteCommandDelay = rPar->Get( 1 )->GetBool();
break;
default:
SbxBase::SetError( SbxERR_WRONG_ARGS );
break;
}
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_GetApplicationPath:
if ( !rPar )
{
OUString aUrl = Config::GetDefDirectory();
OUString aPath;
osl::FileBase::getSystemPathFromFileURL( aUrl, aPath );
pVar->PutString( String( aPath ) );
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_GetCommonApplicationPath:
if ( !rPar )
{
#ifdef WNT
//////// adapted this from setup2\win\source\system\winos.cxx
String aSysPath;
aSysPath = _SHGetSpecialFolder_COMMON_APPDATA();
if ( aSysPath.Len() )
{
pVar->PutString( aSysPath );
}
else // default to ID_GetApplicationPath (same as in setup)
{
OUString aUrl = Config::GetDefDirectory();
OUString aPath;
osl::FileBase::getSystemPathFromFileURL( aUrl, aPath );
pVar->PutString( String( aPath ) );
}
#else
#if UNX
pVar->PutString( CUniString( "/etc" ) );
#else
#error not implemented
#endif
#endif
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_MakeIniFileName:
if ( rPar && rPar->Count() == 2 )
{
OUString aUrl = Config::GetConfigName( String(), rPar->Get( 1 )->GetString() );
OUString aPath;
osl::FileBase::getSystemPathFromFileURL( aUrl, aPath );
pVar->PutString( String( aPath ) );
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_Wait:
{
if( rPar && rPar->Count() == 2 )
{
long nWait = rPar->Get(1)->GetLong();
if( nWait >= 0 )
{
#ifdef DEBUG
Time aStart;
#endif
Timer aTimer;
aTimer.SetTimeout( nWait );
aTimer.Start();
while ( aTimer.IsActive() )
Application::Yield();
#ifdef DEBUG
Time aEnd;
Time aDiff = aEnd - aStart;
ULONG aMS = aDiff.GetMSFromTime();
if ( Abs( aDiff.GetMSFromTime() - nWait ) > 100 )
{
DBG_ERROR1("Wait was off limit by %i", aDiff.GetMSFromTime() - nWait )
}
#endif
}
}
else
SetError( SbERR_BAD_ARGUMENT );
}
break;
case ID_GetErrorCount:
{
pVar->PutULong( pImpl->nErrorCount );
}
break;
case ID_GetWarningCount:
{
pVar->PutULong( pImpl->nWarningCount );
}
break;
case ID_GetQAErrorCount:
{
pVar->PutULong( pImpl->nQAErrorCount );
}
break;
case ID_GetUseFileWarningCount:
{
pVar->PutULong( pImpl->nIncludeFileWarningCount );
}
break;
case ID_GetErrorList:
{
if ( ! pImpl->xErrorList->GetDims() )
pImpl->xErrorList->AddDim( 1, 32000 );
pVar->PutObject( pImpl->xErrorList );
}
break;
case ID_GetWarningList:
{
if ( ! pImpl->xWarningList->GetDims() )
pImpl->xWarningList->AddDim( 1, 32000 );
pVar->PutObject( pImpl->xWarningList );
}
break;
case ID_GetQAErrorList:
{
if ( ! pImpl->xQAErrorList->GetDims() )
pImpl->xQAErrorList->AddDim( 1, 32000 );
pVar->PutObject( pImpl->xQAErrorList );
}
break;
case ID_GetUseFileWarningList:
{
if ( ! pImpl->xIncludeFileWarningList->GetDims() )
pImpl->xIncludeFileWarningList->AddDim( 1, 32000 );
pVar->PutObject( pImpl->xIncludeFileWarningList );
}
break;
case ID_GetTestCaseName:
{
pVar->PutString( pImpl->aTestCaseName );
}
break;
case ID_GetTestCaseFileName:
{
pVar->PutString( pImpl->aTestCaseFileName );
}
break;
case ID_GetTestCaseLineNr:
{
pVar->PutUShort( pImpl->nTestCaseLineNr );
}
break;
case ID_SetChildEnv:
{
if( rPar && rPar->Count() == 3 )
{
pImpl->pChildEnv->erase( rPar->Get(1)->GetString() );
pImpl->pChildEnv->insert( EnvironmentVariable( rPar->Get(1)->GetString(), rPar->Get(2)->GetString() ) );
}
else
SetError( SbERR_BAD_ARGUMENT );
}
break;
case ID_GetChildEnv:
{
if( rPar && rPar->Count() == 2 )
{
Environment::const_iterator aIter = pImpl->pChildEnv->find( rPar->Get(1)->GetString() );
if ( aIter != pImpl->pChildEnv->end() )
pVar->PutString( (*aIter).second );
else
pVar->PutString( String() );
}
else
SetError( SbERR_BAD_ARGUMENT );
}
break;
case ID_GetLinkDestination:
{
if( rPar && rPar->Count() == 2 )
{
String aSource,aDest;
aSource = rPar->Get(1)->GetString();
#ifdef UNX
ByteString aByteSource( aSource, osl_getThreadTextEncoding() );
char cDest[1024];
int nLen = 0;
if ( ( nLen = readlink( aByteSource.GetBuffer(), cDest, sizeof(cDest) ) ) >= 0 )
{
aDest = String( cDest, nLen, osl_getThreadTextEncoding() );
}
else
{
int nErr = errno;
switch ( nErr )
{
case EINVAL: aDest = aSource;
break;
default:
SetError( SbERR_ACCESS_ERROR );
}
}
#else
aDest = aSource;
#endif
pVar->PutString( aDest );
}
else
SetError( SbERR_BAD_ARGUMENT );
}
break;
case ID_GetRegistryValue:
{
if( rPar && rPar->Count() == 3 )
{
String aValue;
#ifdef WNT
aValue = ReadRegistry( rPar->Get(1)->GetString(), rPar->Get(2)->GetString() );
#endif
pVar->PutString( aValue );
}
else
SetError( SbERR_BAD_ARGUMENT );
}
break;
} // switch( nUserData )
} // if( nHintId == SBX_HINT_DATAWANTED )
else if( nHintId == SBX_HINT_DATACHANGED )
{
switch( nUserData )
{
case ID_AutoExecute:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
{
SingleCommandBlock = pVar->GetBool();
if ( SingleCommandBlock )
EndBlock();
else
BeginBlock();
}
else
SetError( SbxERR_WRONG_ARGS );
break;
case ID_EnableQaErrors:
if ( !rPar ) // rPar = NULL <=> Kein Parameter
pImpl->bEnableQaErrors = pVar->GetBool();
else
SetError( SbxERR_WRONG_ARGS );
break;
}
} // if( nHintId == SBX_HINT_DATACHANGED )
else if( nHintId == SBX_HINT_BASICSTART )
{
pImpl->nErrorCount = 0;
pImpl->nWarningCount = 0;
pImpl->nQAErrorCount = 0;
pImpl->nIncludeFileWarningCount = 0;
pImpl->xErrorList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xWarningList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xQAErrorList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xIncludeFileWarningList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
if (pFehlerListe)
delete pFehlerListe;
pFehlerListe = new CErrors;
} // if( nHintId == SBX_HINT_BASICSTART )
else if( nHintId == SBX_HINT_BASICSTOP )
{
// Log summary to journal
ADD_CASE_LOG( String() ); // Case abschliessen
ADD_MESSAGE_LOG( CUniString("***************************************************") );
if ( pImpl->nErrorCount )
{
ADD_WARNING_LOG( GEN_RES_STR1( S_ERRORS_DETECTED, String::CreateFromInt32( pImpl->nErrorCount ) ) );
pImpl->nWarningCount--; // Anpassen, da diese Warnung nicht in die Statistik soll
}
else
ADD_MESSAGE_LOG( GEN_RES_STR0( S_NO_ERRORS_DETECTED ) );
if ( pImpl->nWarningCount )
ADD_WARNING_LOG( GEN_RES_STR1( S_WARNINGS_DETECTED, String::CreateFromInt32( pImpl->nWarningCount ) ) )
else
ADD_MESSAGE_LOG( GEN_RES_STR0( S_NO_WARNINGS_DETECTED ) );
if ( pImpl->nIncludeFileWarningCount )
ADD_WARNING_LOG( GEN_RES_STR1( S_INCLUDE_FILE_WARNINGS_DETECTED, String::CreateFromInt32( pImpl->nIncludeFileWarningCount ) ) )
else
ADD_MESSAGE_LOG( GEN_RES_STR0( S_NO_INCLUDE_FILE_WARNINGS_DETECTED ) );
ADD_MESSAGE_LOG( CUniString("***************************************************") );
pImpl->nErrorCount = 0;
pImpl->nWarningCount = 0;
pImpl->nQAErrorCount = 0;
pImpl->nIncludeFileWarningCount = 0;
pImpl->xErrorList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xWarningList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xQAErrorList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
pImpl->xIncludeFileWarningList->SbxArray::Clear(); // call SbxArray::Clear because SbxVarArray::Clear only clears dimensions but no content
} // if( nHintId == SBX_HINT_BASICSTOP )
WaitForAnswer();
if ( IsError() && ( !IS_ERROR() || GET_ERROR()->nError != GetError() ) )
{
((StarBASIC*)GetParent())->MakeErrorText(GetError(),String());
ADD_ERROR_QUIET(GetError(),String(pVar->GetName()).AppendAscii(": ").
Append(((StarBASIC*)GetParent())->GetErrorText()));
if ( bQuietErrors )
ResetError();
}
}
}
void TestToolObj::DebugFindNoErrors( BOOL bDebugFindNoErrors )
{
pImpl->bDebugFindNoErrors = bDebugFindNoErrors;
}
SbxVariable* TestToolObj::Find( const String& Str, SbxClassType Type)
{
if ( BasicRuntimeAccess::IsRunInit() ) // wegen Find im "Global" Befehl des Basic
return NULL;
SbxVariableRef Old = SbxObject::Find(Str, Type );
// do not return any objects from pControlsObjs[] or pMyVars[]
if (Old && Old->GetUserData() != ID_Dispatch
&& Old->GetUserData() != ID_UNODispatch
&& Old->GetUserData() != ID_Control
&& Old->GetUserData() != ID_StringControl
&& Old->GetUserData() != ID_ErrorDummy
&& Old->GetUserData() != 0 )
return Old;
else
{
USHORT nElement;
ControlDef *pWhatName = new ControlDef(Str,SmartId());
/// nach Controls suchen
if (pNameKontext && pNameKontext->Seek_Entry(pWhatName,&nElement))
{
delete pWhatName;
pWhatName = ((ControlDef*)pNameKontext->GetObject(nElement));
pImpl->pControlsObj = pImpl->pControlsObjs[nControlsObj++];
pImpl->pControlsObj->SetName(pWhatName->pData->Kurzname);
// Will be set on method-child further down
if ( pWhatName->pData->aUId.HasNumeric() )
pImpl->pControlsObj->SetUserData( ID_Control );
else
pImpl->pControlsObj->SetUserData( ID_StringControl );
pShortNames->Insert(pWhatName->pData->Kurzname,pWhatName->pData->aUId,nSequence);
SbxVariable *pMember;
if ( ! (pMember = pImpl->pControlsObj->Find(CUniString("ID"),SbxCLASS_DONTCARE)) )
{
SbxProperty* pID = new SbxProperty(CUniString("ID"),SbxVARIANT);
pImpl->pControlsObj->Insert(pID);
pImpl->pControlsObj->SetDfltProperty(pID);
pMember = pID;
}
if ( pWhatName->pData->aUId.HasNumeric() )
pMember->PutULong(pWhatName->pData->aUId.GetNum());
else
pMember->PutString(pWhatName->pData->aUId.GetStr());
if ( ! (pMember = pImpl->pControlsObj->Find(CUniString("name"),SbxCLASS_DONTCARE)) )
{
pMember = NULL;
}
else
pMember->PutString(pWhatName->pData->Kurzname);
return pImpl->pControlsObj;
}
/// Nach slots suchen
if (pSIds && pSIds->Seek_Entry(pWhatName,&nElement))
{
SbxTransportMethodRef pMyVar;
pMyVar = pImpl->pMyVars[nMyVar++];
if ( nMyVar >= VAR_POOL_SIZE )
nMyVar = 0;
delete pWhatName;
pWhatName = ( (ControlDef*)pSIds->GetObject( nElement ) );
pMyVar->SetName( pWhatName->pData->Kurzname );
if ( pWhatName->pData->aUId.HasNumeric() )
{
pMyVar->SetUserData( ID_Dispatch );
pMyVar->nValue = pWhatName->pData->aUId.GetNum();
pShortNames->Insert( Str, pWhatName->pData->aUId, nSequence );
}
else
{
pMyVar->SetUserData( ID_UNODispatch );
pMyVar->aUnoSlot = pWhatName->pData->aUId.GetStr();
}
return pMyVar;
}
/// es kann sich noch um eine SlotID handeln, die numerisch abgefragt wird, statt ausgef<65>hrt zu werden
if ( Str.Copy( Str.Len()-3, 3 ).CompareIgnoreCaseToAscii("_ID") == COMPARE_EQUAL && pSIds )
{
delete pWhatName;
pWhatName = new ControlDef( Str.Copy( 0, Str.Len()-3 ), SmartId() );
if ( pSIds->Seek_Entry( pWhatName, &nElement ) )
{ // Nach slots suchen
SbxVariable *pReturn = new SbxVariable;
delete pWhatName;
pWhatName = ( (ControlDef*)pSIds->GetObject( nElement ) );
pReturn->SetName( pWhatName->pData->Kurzname );
if ( pWhatName->pData->aUId.HasNumeric() )
pReturn->PutULong(pWhatName->pData->aUId.GetNum());
else
pReturn->PutString(pWhatName->pData->aUId.GetStr());
return pReturn;
}
}
if ( !pImpl->bDebugFindNoErrors )
{
ADD_ERROR(SbxERR_PROC_UNDEFINED,GEN_RES_STR1(S_UNKNOWN_SLOT_CONTROL, Str) );
if ( bQuietErrors )
{ // Vorsichtshalber Control, falls noch <20>ne Methode Folgt.
pImpl->pControlsObj->SetName(Str);
pImpl->pControlsObj->SetUserData( ID_ErrorDummy );
return pImpl->pControlsObj;
}
}
}
return NULL;
}
String TestToolObj::GetRevision( String const &aSourceIn )
{
// search $Revision: 1.20 $
xub_StrLen nPos;
if ( ( nPos = aSourceIn.SearchAscii( "$Revision:" ) ) != STRING_NOTFOUND )
return aSourceIn.Copy( nPos+ 10, aSourceIn.SearchAscii( "$", nPos+10 ) -nPos-10);
else
return String::CreateFromAscii("No Revision found");
}
BOOL TestToolObj::CError( ULONG code, const String& rMsg, xub_StrLen l, xub_StrLen c1, xub_StrLen c2 )
{
bWasPrecompilerError = TRUE;
if ( aCErrorHdl.IsSet() )
{
ErrorEntry aErrorEntry( code, rMsg, l, c1, c2 );
return (BOOL)aCErrorHdl.Call( &aErrorEntry );
}
else
{
ADD_ERROR( code, rMsg )
return TRUE;
}
}
void TestToolObj::CalcPosition( String const &aSource, xub_StrLen nPos, xub_StrLen &l, xub_StrLen &c )
{
l = 1;
xub_StrLen nAkt = 0;
xub_StrLen nNext;
while ( (nNext = aSource.Search( '\n', nAkt )) != STRING_NOTFOUND && nNext < nPos )
{
l++;
nAkt = nNext+1;
}
c = nPos - nAkt;
}
#define CATCH_LABEL CUniString( "ctch" )
#define CATCHRES_LABEL CUniString( "ctchres" )
#define ENDCATCH_LABEL CUniString( "endctch" )
BOOL IsAlphaChar( sal_Unicode cChar )
{
return ( cChar >= 'a' && cChar <= 'z' ) ||
( cChar >= 'A' && cChar <= 'Z' );
}
BOOL IsInsideString( const String& aSource, const xub_StrLen nStart )
{
BOOL bInside = FALSE;
xub_StrLen nPos = nStart-1;
while ( nPos && aSource.GetChar(nPos) != _CR && aSource.GetChar(nPos) != _LF )
{
if ( aSource.GetChar(nPos) == '"' )
bInside = !bInside;
nPos--;
}
return bInside;
}
BOOL IsValidHit( const String& aSource, const xub_StrLen nStart, const xub_StrLen nEnd )
{
return !IsAlphaChar( aSource.GetChar(nStart-1) ) && !IsAlphaChar( aSource.GetChar(nEnd+1))
&& !IsInsideString( aSource, nStart );
}
xub_StrLen TestToolObj::ImplSearch( const String &aSource, const xub_StrLen nStart, const xub_StrLen nEnd, const String &aSearch, const xub_StrLen nSearchStart )
{
xub_StrLen nPos = aSource.Search( aSearch, std::max( nSearchStart, nStart ) );
if ( nPos > nEnd - aSearch.Len() || nPos == STRING_NOTFOUND )
return STRING_NOTFOUND;
else
{
if ( IsValidHit( aSource, nPos, nPos+aSearch.Len()-1 ) )
return nPos;
else
return ImplSearch( aSource, nStart, nEnd, aSearch, nPos+aSearch.Len() );
}
}
xub_StrLen TestToolObj::PreCompilePart( String &aSource, xub_StrLen nStart, xub_StrLen nEnd, String aFinalErrorLabel, USHORT &nLabelCount )
{
xub_StrLen nTry,nCatch,nEndcatch;
xub_StrLen nTry2;
if( (nTry = ImplSearch( aSource, nStart, nEnd, CUniString("try"), nStart )) == STRING_NOTFOUND )
return nEnd;
if ( (nCatch = ImplSearch( aSource, nStart, nEnd, CUniString("catch"), nTry )) == STRING_NOTFOUND )
{
xub_StrLen l,c;
CalcPosition( aSource, nTry, l, c );
CError( SbERR_BAD_BLOCK, CUniString("catch"), l, c, c+2 );
return nEnd;
}
if ( (nEndcatch = ImplSearch( aSource, nStart, nEnd, CUniString("endcatch"), nCatch )) == STRING_NOTFOUND )
{
xub_StrLen l,c;
CalcPosition( aSource, nCatch, l, c );
CError( SbERR_BAD_BLOCK, CUniString("endcatch"), l, c, c+4 );
return nEnd;
}
nLabelCount++;
String aStr = String::CreateFromInt32( nLabelCount );
String aCatchLabel(CATCH_LABEL);
aCatchLabel += aStr;
String aCatchresLabel(CATCHRES_LABEL);
aCatchresLabel += aStr;
String aEndcatchLabel( ENDCATCH_LABEL);
aEndcatchLabel += aStr;
while ( !WasPrecompilerError() && (nTry2 = ImplSearch( aSource, nStart, nEnd, CUniString("try"), nTry+1 )) != STRING_NOTFOUND )
{ // Wir rekursieren erstmal mit dem 2. Try
if ( nTry2 < nCatch )
nEnd += PreCompilePart( aSource, nTry2, nEndcatch+8, aCatchLabel, nLabelCount ) - nEndcatch-8;
else
nEnd = PreCompilePart( aSource, nTry2, nEnd, aFinalErrorLabel, nLabelCount );
if ( (nCatch = ImplSearch( aSource, nStart, nEnd, CUniString("catch"), nTry )) == STRING_NOTFOUND )
{
xub_StrLen l,c;
CalcPosition( aSource, nTry, l, c );
CError( SbERR_BAD_BLOCK, CUniString("catch"), l, c, c+2 );
return nEnd;
}
if ( (nEndcatch = ImplSearch( aSource, nStart, nEnd, CUniString("endcatch"), nCatch )) == STRING_NOTFOUND )
{
xub_StrLen l,c;
CalcPosition( aSource, nCatch, l, c );
CError( SbERR_BAD_BLOCK, CUniString("endcatch"), l, c, c+4 );
return nEnd;
}
}
String aReplacement;
int nTotalLength = -3 -5 -8; // try, catch und endcatch fallen raus
aReplacement.AppendAscii( "on error goto " );
aReplacement += aCatchLabel;
aSource.SearchAndReplaceAscii( "try", aReplacement, nTry );
nTotalLength += aReplacement.Len();
// on error goto endcse
// goto endctchXX
// ctchXX:
// if err = 35 or err = 18 then : resume : endif :
// MaybeAddErr
// on error goto endcse
// resume ctchresXX
// ctchresXX:
aReplacement.Erase();
aReplacement.AppendAscii( "on error goto " );
aReplacement += aFinalErrorLabel;
aReplacement.AppendAscii( " : goto " );
aReplacement += aEndcatchLabel;
aReplacement.AppendAscii( " : " );
aReplacement += aCatchLabel;
aReplacement.AppendAscii( ": if err = 35 or err = 18 then : on error goto 0 : resume : endif" );
aReplacement.AppendAscii( " : MaybeAddErr : on error goto " );
aReplacement += aFinalErrorLabel;
aReplacement.AppendAscii( " : resume " );
aReplacement += aCatchresLabel;
aReplacement.AppendAscii( " : " );
aReplacement += aCatchresLabel;
aReplacement.AppendAscii( ": " );
aSource.SearchAndReplaceAscii( "catch", aReplacement, nCatch );
nTotalLength += aReplacement.Len();
aReplacement.Erase();
aReplacement.AppendAscii("ClearError : ");
aReplacement += aEndcatchLabel;
aReplacement.AppendAscii(": ");
aSource.SearchAndReplaceAscii( "endcatch", aReplacement, nEndcatch );
nTotalLength += aReplacement.Len();
if ( aSource.Len() >= STRING_MAXLEN )
{
xub_StrLen l,c;
CalcPosition( aSource, nEndcatch, l, c );
CError( SbERR_PROG_TOO_LARGE, CUniString("endcatch"), l, c, c+2 );
}
return nEnd + nTotalLength;
}
void TestToolObj::PreCompileDispatchParts( String &aSource, String aStart, String aEnd, String aFinalLable )
{
USHORT nLabelCount = 0;
xub_StrLen nPartPos = 0;
while ( !WasPrecompilerError() && (nPartPos = ImplSearch( aSource, nPartPos, aSource.Len(), aStart )) != STRING_NOTFOUND )
{
xub_StrLen nEndPart = ImplSearch( aSource, nPartPos, aSource.Len(), aEnd );
if ( nEndPart == STRING_NOTFOUND )
return;
nPartPos = PreCompilePart( aSource, nPartPos, nEndPart, aFinalLable, nLabelCount );
nPartPos += aEnd.Len();
}
}
BOOL TestToolObj::WasPrecompilerError()
{
return bWasPrecompilerError;
}
String TestToolObj::PreCompile( String const &aSourceIn )
{
// Im CTOR zu fr<66>h, und hier grade nicg rechtzeitig. Start und Stop von Programmausf<73>hrung
StartListening( ((StarBASIC*)GetParent())->GetBroadcaster(), TRUE );
xub_StrLen nTestCase;
xub_StrLen nEndCase;
xub_StrLen nStartPos = 0;
String aSource(aSourceIn);
bWasPrecompilerError = FALSE;
HACK("Ich gestehe alles: Ich war zu faul das richtig zu machen.")
aSource = String(' ').Append( aSource ); // Da Schl<68>sselworte an Position 0 sonst nicht gefunden werden
// Erstmal alle "'" Kommentare raus
xub_StrLen nComment;
while ( (nComment = aSource.SearchAscii("'",nStartPos)) != STRING_NOTFOUND )
{
USHORT nStringEndCount = 0;
xub_StrLen nIndex = nComment;
while ( nIndex && aSource.GetChar(nIndex) != '\n' )
{
if ( aSource.GetChar(nIndex) == '"' )
nStringEndCount++;
nIndex--;
}
if ( (nStringEndCount & 1) == 0 ) // Wir waren also nicht innerhalb eines Strings
{
xub_StrLen nComEnd = aSource.SearchAscii("\n",nComment);
while ( aSource.GetChar(nComEnd) == _CR || aSource.GetChar(nComEnd) == _LF )
nComEnd--;
nComEnd++;
aSource.Erase(nComment,nComEnd-nComment);
}
else
nComment++;
nStartPos = nComment;
}
PreCompileDispatchParts( aSource, CUniString("sub"), CUniString("end sub"), CUniString("0") );
PreCompileDispatchParts( aSource, CUniString("function"), CUniString("end function"), CUniString("0") );
PreCompileDispatchParts( aSource, CUniString("testcase"), CUniString("endcase"), CUniString("endcse") );
xub_StrLen nMainPos = ImplSearch( aSource, 0, aSource.Len(), CUniString("sub main") );
aSource.SearchAndReplaceAscii("sub main",CUniString("Sub Main StartUse : LoadIncludeFiles : FinishUse "), nMainPos );
if ( aSource.Len() >= STRING_MAXLEN )
{
xub_StrLen l,c;
CalcPosition( aSource, nMainPos, l, c );
CError( SbERR_PROG_TOO_LARGE, CUniString("endcatch"), l, c, c+2 );
}
while ( (nTestCase = ImplSearch( aSource, 0, aSource.Len(), CUniString("testcase") ) ) != STRING_NOTFOUND )
{
xub_StrLen nTcEnd = aSource.SearchAscii("\n",nTestCase);
while ( aSource.GetChar(nTcEnd) == _CR || aSource.GetChar(nTcEnd) == _LF )
nTcEnd--;
nTcEnd++;
if ( aSource.SearchAscii(":",nTestCase) < nTcEnd )
nTcEnd = aSource.SearchAscii(":",nTestCase) -1;
String aSuffix = aSource.Copy(nTestCase+8,nTcEnd-nTestCase-8);
USHORT nOldLen;
do
{
nOldLen = aSuffix.Len();
aSuffix.EraseLeadingAndTrailingChars( ' ' );
aSuffix.EraseLeadingAndTrailingChars( 0x09 );
} while ( nOldLen != aSuffix.Len() );
aSource.Erase(nTestCase,nTcEnd-nTestCase);
aSource.Insert(CUniString("Sub ").Append(aSuffix).AppendAscii(" CaseLog \"").Append(aSuffix).AppendAscii("\" : on error goto endcse : TestEnter "),nTestCase);
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////
// Attention!!! The lable endsub is officially used to exit a sub instead of using 'exit sub' or 'return'
/////////////////////////////////////////////////////////////////////////////////////////////////////////
while ( (nEndCase = ImplSearch( aSource, 0, aSource.Len(), CUniString("endcase") ) ) != STRING_NOTFOUND )
aSource.SearchAndReplaceAscii("endcase",CUniString("goto endsub : endcse: if ( err = 35 and StopOnSyntaxError ) or err = 18 then : on error goto 0 : resume : endif : MaybeAddErr : ExceptLog : resume endcse_res : endcse_res: on error goto 0 : endsub: TestExit : ClearError : CaseLog \"\" : end sub "), nEndCase );
if ( aSource.Len() >= STRING_MAXLEN )
{
xub_StrLen l,c;
CalcPosition( aSource, 0, l, c );
CError( SbERR_PROG_TOO_LARGE, CUniString("endcatch"), l, c, c+2 );
}
return aSource;
}
void TestToolObj::AddToListByNr( CNames *&pControls, ControlItemUId *&pNewItem )
{
USHORT nNr;
if ( pControls->Seek_Entry( pNewItem, &nNr ) )
{
AddName( pControls->GetObject(nNr)->pData->Kurzname, pNewItem->pData->Kurzname );
delete pNewItem;
pNewItem = (ControlItemUId*)pControls->GetObject(nNr); // f<>r einf<6E>gen der S<>hne
}
else
{
ControlItem* pNI = pNewItem;
pControls->C40_PTR_INSERT(ControlItem,pNI);
}
}
IMPL_LINK( TestToolObj, ReturnResultsLink, CommunicationLink*, pCommLink )
{
return ReturnResults( pCommLink->GetServiceData() );
}
void TestToolObj::ReadHidLstByNumber()
{
// Die Hid.Lst nach Nummern sortiert einlesen
if ( !pReverseUIds )
{
String aName = (pImpl->aHIDDir + DirEntry(CUniString("hid.lst"))).GetFull();
TTExecutionStatusHint aHint( TT_EXECUTION_SHOW_ACTION, String(ResId(S_READING_LONGNAMES)), aName );
GetTTBroadcaster().Broadcast( aHint );
ReadFlat( aName, pReverseUIds, FALSE );
{
TTExecutionStatusHint aHint( TT_EXECUTION_HIDE_ACTION );
GetTTBroadcaster().Broadcast( aHint );
}
}
}
void TestToolObj::SortControlsByNumber( BOOL bIncludeActive )
{
// Die Controls einmal hirarchisch und einmal alle flach nach nummer sortiert
if ( !pReverseControls && !pReverseControlsSon && pControls )
{
pReverseControls = new CNames;
pReverseControlsSon = new CNames;
USHORT nWin,nCont;
const String aSl('/');
for ( nWin = 0 ; nWin < pControls->Count() ; nWin++ )
{
String aFatherName( pControls->GetObject(nWin)->pData->Kurzname );
ControlItemUId *pNewFather = new ControlItemUIdSon(aFatherName,pControls->GetObject(nWin)->pData->aUId);
AddToListByNr( pReverseControlsSon, pNewFather );
if (! ((ControlItemUIdSon*)pNewFather)->GetSons() )
((ControlItemUIdSon*)pNewFather)->Sons( new CNames );
// Existieren S<>hne, diese in beide Listen eintragen
CNames *pControlList = ((ControlItemSon*)pControls->GetObject(nWin))->GetSons();
if ( pControlList )
for ( nCont = 0 ; nCont < pControlList->Count() ; nCont++ )
{
ControlItemUId *pNewItem;
String aCombinedName( aFatherName );
aCombinedName.AppendAscii( ":" );
aCombinedName.Append( pControlList->GetObject(nCont)->pData->Kurzname );
pNewItem = new ControlItemUId( aCombinedName, pControlList->GetObject(nCont)->pData->aUId );
AddToListByNr( pReverseControls, pNewItem );
pNewItem = new ControlItemUId( pControlList->GetObject(nCont)->pData->Kurzname, pControlList->GetObject(nCont)->pData->aUId );
AddToListByNr( ((ControlItemUIdSon*)pNewFather)->GetSons(), pNewItem );
}
}
if ( !bIncludeActive )
{
ControlItem *pZeroItem = new ControlItemUId( UniString(), SmartId(0) );
USHORT nNr;
if ( pReverseControls->Seek_Entry( pZeroItem, &nNr ) )
{
pReverseControls->DeleteAndDestroy( nNr );
// um VorlagenLaden/UntergeordneteIniDatei/SpeichernDlg/OrdnerDlg/OeffnenDlg/MessageBox/LetzteVersion/GrafikEinfuegenDlg/FarbeDlg/ExportierenDlg/DruckerEinrichten/DruckenDlg/DateiEinfuegenDlg/Active zu verhindern
}
/* if ( pReverseControlsSon->Seek_Entry( pZeroItem, &nNr ) )
{
pReverseControlsSon->DeleteAndDestroy( nNr );
// um VorlagenLaden/UntergeordneteIniDatei/SpeichernDlg/OrdnerDlg/OeffnenDlg/MessageBox/LetzteVersion/GrafikEinfuegenDlg/FarbeDlg/ExportierenDlg/DruckerEinrichten/DruckenDlg/DateiEinfuegenDlg/Active zu verhindern
}*/
delete pZeroItem;
}
}
}
BOOL TestToolObj::ReturnResults( SvStream *pIn )
{
USHORT nId;
ULONG nClearSequence = 0;
BOOL bSequenceOK = TRUE;
CNames *pReverseControlsKontext = NULL;
CRetStream *pRetStream = new CRetStream(pIn);
pRetStream->Read( nId );
while( !pIn->IsEof() )
{
switch( nId )
{
case SIReturn:
{
USHORT nRet,nParams;
SmartId aUId;
pRetStream->Read(nRet);
if ( pRetStream->GetNextType() == BinString )
{
String aUStrId; // UniqueStringID Used for Mozilla Integration
pRetStream->Read( aUStrId );
aUId = SmartId( aUStrId );
}
else
{
ULONG nUId;
pRetStream->Read( nUId ); // bei Sequence einfach die Sequence
aUId = SmartId( nUId );
}
pRetStream->Read(nParams);
USHORT nNr1 = 0;
ULONG nLNr1 = 0;
String aString1;
BOOL bBool1 = FALSE;
SbxValueRef xValue1 = new SbxValue;
if( nParams & PARAM_USHORT_1 )
pRetStream->Read( nNr1 );
if( nParams & PARAM_ULONG_1 )
pRetStream->Read( nLNr1 );
if( nParams & PARAM_STR_1 )
{
pRetStream->Read( aString1 );
ReplaceNumbers ( aString1 );
}
else
aString1.Erase();
if( nParams & PARAM_BOOL_1 )
pRetStream->Read( bBool1 );
if( nParams & PARAM_SBXVALUE_1 )
pRetStream->Read( *xValue1 );
switch (nRet)
{
case RET_Sequence:
{
ULONG nUId = aUId.GetNum();
if ( nSequence != nUId )
{
bSequenceOK = FALSE;
ADD_ERROR(SbxERR_BAD_ACTION, GEN_RES_STR2(S_RETURN_SEQUENCE_MISSMATCH, String::CreateFromInt64(nUId), String::CreateFromInt64(nSequence)) );
}
else
{
nClearSequence = nUId;
}
}
break;
case RET_Value:
if ( pImpl->pNextReturn )
{
// ULONG nUserData = pImpl->pNextReturn->GetParent()->GetUserData();
// pImpl->pNextReturn->GetParent()->SetUserData(0);
// if ( nUId == pImpl->pNextReturn->GetParent()->GetULong() )
if ( aNextReturnId.Matches( aUId ) )
{
if( nParams & PARAM_ULONG_1 ) pImpl->pNextReturn->PutULong( nLNr1 );
if( nParams & PARAM_USHORT_1 ) pImpl->pNextReturn->PutUShort( nNr1 );
if( nParams & PARAM_STR_1 ) pImpl->pNextReturn->PutString( aString1 );
if( nParams & PARAM_BOOL_1 ) pImpl->pNextReturn->PutBool( bBool1 );
if( nParams & PARAM_SBXVALUE_1 )
{
SbxValues aValues( SbxDATE );
xValue1->Get( aValues );
pImpl->pNextReturn->Put( aValues );
}
}
else
{
ADD_ERROR(SbxERR_BAD_ACTION, GEN_RES_STR0(S_RETURNED_VALUE_ID_MISSMATCH) )
}
// pImpl->pNextReturn->GetParent()->SetUserData(nUserData);
pImpl->pNextReturn = NULL;
}
else
{
ADD_ERROR(SbxERR_BAD_ACTION, GEN_RES_STR0(S_RETURNED_VALUE_NO_RECEIVER) )
}
break;
case RET_WinInfo:
{
if ( !pReverseControls && !pReverseControlsSon )
pReverseControlsKontext = NULL;
ReadHidLstByNumber();
SortControlsByNumber();
// Alle Slots nach Nummer Sortiert
if ( !pReverseSlots && pSIds )
{
pReverseSlots = new CNames;
USHORT nWin;
const String aSl('/');
for ( nWin = 0 ; nWin < pSIds->Count() ; nWin++ )
{
ControlItemUId *pNewItem = new ControlItemUId(pSIds->GetObject(nWin)->pData->Kurzname,pSIds->GetObject(nWin)->pData->aUId);
AddToListByNr( pReverseSlots, pNewItem );
}
}
WinInfoRec *pWinInfo = new WinInfoRec;
pWinInfo->aUId = aUId.GetText();
pWinInfo->nRType = (USHORT)nLNr1; // just ULONG for Transport, data is always USHORT
pWinInfo->aRName = aString1;
pWinInfo->bIsReset = bBool1;
pWinInfo->aKurzname.Erase();
pWinInfo->aSlotname.Erase();
// eventuell den Kontext feststellen. Passiert nur beim ersten Eintrag nach reset
if ( !pReverseControlsKontext && pReverseControlsSon )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), aUId );
if ( pReverseControlsSon->Seek_Entry(pNewItem,&nNr) )
{
pReverseControlsKontext = ((ControlItemUIdSon*)pReverseControlsSon->GetObject(nNr))->GetSons();
pWinInfo->aKurzname = CUniString("*");
}
else
pReverseControlsKontext = pReverseControls;
delete pNewItem;
}
// Reset. Mu<4D> nach bestimmen des Kontext stehen, da sonst mit dem reset-record
// der Kontext falsch gesetzt wird.
if ( pWinInfo->bIsReset )
pReverseControlsKontext = NULL; // Reihenfolge wichtig!
// Kurzname feststellen
if ( pReverseControlsKontext )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), aUId );
if ( pReverseControlsKontext->Seek_Entry(pNewItem,&nNr) )
{
// SmartId aID = pReverseControlsKontext->GetObject(nNr)->pData->aUId;
pWinInfo->aKurzname += pReverseControlsKontext->GetObject(nNr)->pData->Kurzname;
}
delete pNewItem;
}
// Slotname feststellen
if ( pReverseSlots )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), aUId );
if ( pReverseSlots->Seek_Entry(pNewItem,&nNr) )
pWinInfo->aSlotname = pReverseSlots->GetObject(nNr)->pData->Kurzname;
delete pNewItem;
}
// Langname feststellen
if ( aUId.HasString() )
{ // use the String ID since there is no LongName in hid.lst
pWinInfo->aLangname = aUId.GetStr();
}
else
{
if ( pReverseUIds )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), aUId );
if ( pReverseUIds->Seek_Entry(pNewItem,&nNr) )
pWinInfo->aLangname = pReverseUIds->GetObject(nNr)->pData->Kurzname;
delete pNewItem;
}
}
aWinInfoHdl.Call( pWinInfo );
delete pWinInfo;
}
break;
case RET_ProfileInfo:
{
ULONG nUId = aUId.GetNum();
if ( nParams & PARAM_STR_1 )
{
DirEntry FilePath = pImpl->aLogFileBase + DirEntry(DirEntry(aLogFileName).GetBase().AppendAscii(".prf"));
SvFileStream aStrm( FilePath.GetFull(), STREAM_STD_WRITE );
if( aStrm.IsOpen() )
{
aString1.ConvertLineEnd(LINEEND_CRLF);
aStrm.Seek(STREAM_SEEK_TO_END);
aStrm << ByteString( aString1, RTL_TEXTENCODING_UTF8 ).GetBuffer();
aStrm.Close();
}
}
if ( nParams & PARAM_ULONG_1 )
{
switch ( nUId )
{
case S_ProfileReset: // nLNr1 = Anzahl Borders
{
pImpl->nNumBorders = (USHORT)nLNr1; // Borders are 0 to 4
USHORT i;
for ( i=0 ; i<4 ; i++ )
pImpl->naValBorders[i] = 0;
for ( i=0 ; i<5 ; i++ )
{
pImpl->naNumEntries[i] = 0;
pImpl->naRemoteTime[i] = 0;
pImpl->naLocalTime[i] = 0;
}
break;
}
case S_ProfileBorder1: // nLNr1 = Border1 in ms
case S_ProfileBorder2: // nLNr1 = Border2 in ms
case S_ProfileBorder3: // nLNr1 = Border3 in ms
case S_ProfileBorder4: // nLNr1 = Border4 in ms
{
pImpl->naValBorders[ nUId - S_ProfileBorder1 ] = nLNr1;
break;
}
case S_ProfileTime: // nLNr1 = remote Zeit des Befehls
{
USHORT i;
for ( i=0 ; i<pImpl->nNumBorders &&
pImpl->naValBorders[i] <= nLNr1 ; i++ ) {};
pImpl->naNumEntries[ i ]++;
pImpl->naRemoteTime[ i ] += nLNr1;
pImpl->naLocalTime[ i ] += Time::GetSystemTicks() - pImpl->LocalStarttime;
#if OSL_DEBUG_LEVEL > 1
if ( nLNr1 > (Time::GetSystemTicks() - pImpl->LocalStarttime) )
{
String aLine = CUniString("Testtoolzeit(").Append(String::CreateFromInt64(Time::GetSystemTicks() - pImpl->LocalStarttime)).AppendAscii(") kleiner Officezeit(").Append(String::CreateFromInt64(nLNr1)).AppendAscii(")\n");
DirEntry FilePath = pImpl->aLogFileBase + DirEntry(DirEntry(aLogFileName).GetBase().AppendAscii(".prf"));
SvFileStream aStrm( FilePath.GetFull(), STREAM_STD_WRITE );
if( aStrm.IsOpen() )
{
aLine.ConvertLineEnd(LINEEND_CRLF);
aStrm.Seek(STREAM_SEEK_TO_END);
aStrm << ByteString( aLine, RTL_TEXTENCODING_UTF8 ).GetBuffer();
aStrm.Close();
}
}
#endif
break;
}
case S_ProfileDump: // Gibt die daten aus.
{
if ( pImpl->nNumBorders == 0 ) // Also keine alte R<>ckmeldung vom Office
break;
DirEntry FilePath = pImpl->aLogFileBase + DirEntry(DirEntry(aLogFileName).GetBase().AppendAscii(".prf"));
SvFileStream aStrm( FilePath.GetFull(), STREAM_STD_WRITE );
if( aStrm.IsOpen() )
{
String aProfile;
USHORT i;
aProfile += String().Expand(15);
for ( i=0 ; i<pImpl->nNumBorders ; i++ )
aProfile += (CUniString("< ").Append(String::CreateFromInt64(pImpl->naValBorders[i]))).Expand(20);
aProfile += (CUniString(">= ").Append(TTFormat::ms2s(pImpl->naValBorders[pImpl->nNumBorders-1])));
aProfile += '\n';
aProfile += CUniString("Ereignisse").Expand(15);
for ( i=0 ; i<=pImpl->nNumBorders ; i++ )
aProfile += TTFormat::ms2s(pImpl->naNumEntries[i]).Expand(20);
aProfile += '\n';
aProfile += CUniString("Server Zeit").Expand(15);
for ( i=0 ; i<=pImpl->nNumBorders ; i++ )
aProfile += TTFormat::ms2s(pImpl->naRemoteTime[i]).Expand(20);
aProfile += '\n';
aProfile += CUniString("Testtool Zeit").Expand(15);
for ( i=0 ; i<=pImpl->nNumBorders ; i++ )
aProfile += TTFormat::ms2s(pImpl->naLocalTime[i]).Expand(20);
aProfile += '\n';
aProfile += CUniString("Overhead p.e.").Expand(15);
for ( i=0 ; i<=pImpl->nNumBorders ; i++ )
{
if ( pImpl->naNumEntries[i] > 0 )
aProfile += TTFormat::ms2s((pImpl->naLocalTime[i]-pImpl->naRemoteTime[i])/pImpl->naNumEntries[i]).Expand(20);
else
aProfile += CUniString( "??" ).Expand(20);
}
aProfile += '\n';
aProfile.ConvertLineEnd(LINEEND_CRLF);
aStrm.Seek(STREAM_SEEK_TO_END);
aStrm << ByteString( aProfile, RTL_TEXTENCODING_UTF8 ).GetBuffer();
aStrm.Close();
}
break;
}
default:
DBG_ERROR1("Unbekannter Sub Return Code bei Profile: %hu", nUId );
break;
}
}
}
break;
case RET_DirectLoging:
{
ULONG nUId = aUId.GetNum();
switch ( nUId )
{
case S_AssertError:
{
ADD_ASSERTION_LOG( aString1 );
// ADD_ERROR_LOG( aString1, aRun.GetModuleName(SbxNAME_SHORT_TYPES),
// aRun.GetLine(), aRun.GetCol1(), aRun.GetCol2() );
}
break;
case S_QAError:
{
ADD_QA_ERROR_LOG( aString1 );
}
break;
default:
;
}
}
break;
case RET_MacroRecorder:
{
SortControlsByNumber( TRUE );
String aCommand,aControls,aControl,aULongNames,aULongName;
BOOL bWriteNewKontext = FALSE;
aControls.Erase();
// Kurzname feststellen
if ( pReverseControls )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), aUId );
if ( pReverseControls->Seek_Entry(pNewItem,&nNr) )
aControls = pReverseControls->GetObject(nNr)->pData->Kurzname;
delete pNewItem;
}
if ( !aControls.Len() )
{
aControls = String::CreateFromAscii("UnknownControl:UnknownControl");
Sound::Beep( SOUND_WARNING );
}
aULongNames.Erase();
if( (nParams & PARAM_ULONG_1) && (nNr1 & M_RET_NUM_CONTROL) )
{
if ( pReverseControls )
{
USHORT nNr;
ControlItem *pNewItem = new ControlItemUId( String(), SmartId( nLNr1 ) );
if ( pReverseControls->Seek_Entry(pNewItem,&nNr) )
aULongNames = pReverseControls->GetObject(nNr)->pData->Kurzname;
delete pNewItem;
}
if ( !aULongNames.Len() )
{
aULongNames = String::CreateFromAscii("Unknown:Unknown");
Sound::Beep( SOUND_WARNING );
}
// now determin the best common kontext
USHORT i,j;
BOOL bFoundUlongName = FALSE, bFoundControl = FALSE;
// check for current kontext
for ( i = 0 ; !bFoundUlongName && i < aULongNames.GetTokenCount('/') ; i++ )
bFoundUlongName = aLastRecordedKontext.Equals( aULongNames.GetToken(i,'/').GetToken( 0,':') );
for ( j = 0 ; !bFoundControl && j < aControls.GetTokenCount('/') ; j++ )
bFoundControl = aLastRecordedKontext.Equals( aControls.GetToken(j,'/').GetToken( 0,':') );
if ( bFoundUlongName && bFoundControl )
{
aULongName = aULongNames.GetToken(i-1,'/').GetToken( 1,':');
aControl = aControls.GetToken(j-1,'/').GetToken( 1,':');
}
else
{ // see if we can find common kontext
BOOL bFound = FALSE;
String aCurrentKontext;
for ( i = 0 ; !bFound && i < aULongNames.GetTokenCount('/') ; i++ )
{
aCurrentKontext = aULongNames.GetToken(i,'/').GetToken( 0,':');
for ( j = 0 ; !bFound && j < aControls.GetTokenCount('/') ; j++ )
{
if ( aCurrentKontext.Equals( aControls.GetToken(j,'/').GetToken( 0,':') ) )
{
bFound = TRUE;
aULongName = aULongNames.GetToken(i,'/').GetToken( 1,':');
aControl = aControls.GetToken(j,'/').GetToken( 1,':');
aLastRecordedKontext = aCurrentKontext;
bWriteNewKontext = TRUE;
}
}
}
if ( !bFound )
{
// check if both contain toplevel
bFoundUlongName = FALSE;
bFoundControl = FALSE;
for ( i = 0 ; !bFoundUlongName && i < aULongNames.GetTokenCount('/') ; i++ )
bFoundUlongName = aULongNames.GetToken(i,'/').GetToken( 0,':').Equals( aULongNames.GetToken(i,'/').GetToken( 1,':') );
for ( j = 0 ; !bFoundControl && j < aControls.GetTokenCount('/') ; j++ )
bFoundControl = aControls.GetToken(j,'/').GetToken( 0,':').Equals( aControls.GetToken(j,'/').GetToken( 1,':') );
if ( bFoundUlongName && bFoundControl )
{
aULongName = aULongNames.GetToken(i-1,'/').GetToken( 1,':');
aControl = aControls.GetToken(j-1,'/').GetToken( 1,':');
if ( aLastRecordedKontext.Len() )
{
aLastRecordedKontext.Erase();
bWriteNewKontext = TRUE;
}
}
else
{
String aComment;
aComment = CUniString( "'could not Determin common kontext\n" );
Sound::Beep( SOUND_WARNING );
aWriteStringHdl.Call( &aComment );
aULongName = aULongNames.GetToken(i,'/');
aControl = aControls.GetToken(j,'/');
}
}
}
}
else
{ // we only have a Control
USHORT i;
BOOL bFoundControl = FALSE;
// check for current kontext
for ( i = 0 ; !bFoundControl && i < aControls.GetTokenCount('/') ; i++ )
bFoundControl = aLastRecordedKontext.Equals( aControls.GetToken(i,'/').GetToken( 0,':') );
if ( bFoundControl )
aControl = aControls.GetToken(i-1,'/').GetToken( 1,':');
else
{
aLastRecordedKontext = aControls.GetToken(0,'/').GetToken( 0,':');
bWriteNewKontext = TRUE;
aControl = aControls.GetToken(0,'/').GetToken( 1,':');
}
}
if ( bWriteNewKontext )
{
String aCommand = CUniString( "Kontext" );
if ( aLastRecordedKontext.Len() )
{
aCommand.AppendAscii ( " \"" );
aCommand += aLastRecordedKontext;
aCommand.AppendAscii ( "\"" );
}
aCommand.AppendAscii( "\n" );
aWriteStringHdl.Call( &aCommand );
}
aCommand = aControl;
// Add Method name
String aMethod = GetMethodName( nNr1 & ~M_RET_NUM_CONTROL );
aCommand += '.';
aCommand += aMethod;
BOOL bWasParam = FALSE;
if( nParams & PARAM_STR_1 )
{
bWasParam = TRUE;
aCommand.AppendAscii( " \"" );
if ( nNr1 & M_KEY_STRING )
{
USHORT nModify = 0;
USHORT nNewModify = 0;
BOOL bIsProsa = FALSE;
xub_StrLen i;
for ( i = 0; i < aString1.Len(); i++ )
{
if ( ((USHORT)aString1.GetChar(i)) == 1 ) // we have a spechial char
{
i++;
if ( !bIsProsa )
{
aCommand.AppendAscii( "<" );
bIsProsa = TRUE;
}
else
aCommand.AppendAscii( " " );
USHORT nKeyCode = (USHORT)aString1.GetChar(i) & KEY_CODE;
USHORT nNewModify = (USHORT)aString1.GetChar(i) & KEY_MODTYPE;
if ( nNewModify != nModify )
{ // generate modifiers
USHORT nChanged = ( nNewModify ^ nModify );
if ( nChanged & KEY_SHIFT )
{
aCommand += GetKeyName( KEY_SHIFT );
aCommand.AppendAscii( " " );
}
if ( nChanged & KEY_MOD1 )
{
aCommand += GetKeyName( KEY_MOD1 );
aCommand.AppendAscii( " " );
}
if ( nChanged & KEY_MOD2 )
{
aCommand += GetKeyName( KEY_MOD2 );
aCommand.AppendAscii( " " );
}
}
aCommand += GetKeyName( nKeyCode );
nModify = nNewModify;
}
else
{
if ( bIsProsa )
{
aCommand.AppendAscii( ">" );
bIsProsa = FALSE;
}
aCommand += aString1.GetChar(i);
nModify = 0;
}
}
if ( bIsProsa )
{
aCommand.AppendAscii( ">" );
bIsProsa = FALSE;
}
}
else
{
aCommand += aString1;
}
aCommand.AppendAscii( "\"" );
}
if( nParams & PARAM_ULONG_1 )
{
if ( bWasParam )
aCommand.AppendAscii( ", " );
else
aCommand.AppendAscii( " " );
bWasParam = TRUE;
if ( nNr1 & M_RET_NUM_CONTROL )
{
aCommand.Append( aULongName );
}
else
{
aCommand.Append( String::CreateFromInt64( nLNr1 ) );
}
}
if( nParams & PARAM_BOOL_1 )
{
if ( bWasParam )
aCommand.AppendAscii( ", " );
else
aCommand.AppendAscii( " " );
bWasParam = TRUE;
if ( bBool1 )
aCommand.AppendAscii( "true" );
else
aCommand.AppendAscii( "false" );
}
aCommand.AppendAscii( "\n" );
aWriteStringHdl.Call( &aCommand );
}
break;
default:
DBG_ERROR1( "Unbekannter Return Code: %iu", nRet );
break;
}
break;
}
case SIReturnError:
{
String aString;
SmartId aUId;
if ( pRetStream->GetNextType() == BinString )
{
String aUStrId; // UniqueStringID Used for Mozilla Integration
pRetStream->Read( aUStrId );
aUId = SmartId( aUStrId );
}
else
{
ULONG nUId;
pRetStream->Read( nUId ); // bei Sequence einfach die Sequence
aUId = SmartId( nUId );
}
pRetStream->Read( aString );
ReplaceNumbers (aString);
String aShortName;
aShortName = pShortNames->GetName(aUId);
aShortName.AppendAscii( " : " );
String aTmpStr(aShortName);
aTmpStr += aString;
ADD_ERROR(SbxERR_BAD_ACTION, aTmpStr/*, nNr*/);
break;
}
default:
DBG_ERROR1( "Unbekannter Request im Return Stream Nr: %iu", nId );
break;
}
if( !pIn->IsEof() )
pRetStream->Read( nId );
else
{
DBG_ERROR( "truncated input stream" );
}
}
delete pRetStream;
if ( bSequenceOK )
{
nSequence++;
pShortNames->Invalidate( nClearSequence - KEEP_SEQUENCES );
}
bReturnOK = TRUE;
return TRUE;
} // RetService::Request()
String TestToolObj::GetMethodName( ULONG nMethodId )
{
USHORT nElement;
if ( !Controls::pClasses ) // Ist static, wird also nur einmal geladen
ReadFlatArray( Controls::arClasses, Controls::pClasses );
if ( Controls::pClasses )
{
for ( nElement = 0 ; nElement < Controls::pClasses->Count() ; nElement++ )
if ( Controls::pClasses->GetObject(nElement)->pData->aUId.Matches( nMethodId ) )
return Controls::pClasses->GetObject(nElement)->pData->Kurzname;
}
return String();
}
String TestToolObj::GetKeyName( USHORT nKeyCode )
{
USHORT nElement;
if ( !CmdStream::pKeyCodes ) // Ist static, wird also nur einmal geladen
ReadFlatArray( CmdStream::arKeyCodes, CmdStream::pKeyCodes );
if ( CmdStream::pKeyCodes )
{
for ( nElement = 0 ; nElement < CmdStream::pKeyCodes->Count() ; nElement++ )
if ( CmdStream::pKeyCodes->GetObject(nElement)->pData->aUId.Matches( nKeyCode ) )
return CmdStream::pKeyCodes->GetObject(nElement)->pData->Kurzname;
}
return CUniString( "UnknownKeyCode" );
}
void TestToolObj::ReplaceNumbers(String &aText)
{
static ControlDefLoad __READONLY_DATA arRes_Type [] =
#include "res_type.hxx"
static CNames *pRTypes = NULL;
xub_StrLen nStart;
xub_StrLen nGleich;
xub_StrLen nEnd;
xub_StrLen nStartPos = 0;
ULONG nNumber;
String aType;
String aResult;
BOOL bFound;
while ( (nStart = aText.Search(StartKenn,nStartPos)) != STRING_NOTFOUND &&
(nGleich = aText.SearchAscii("=",nStart+StartKenn.Len())) != STRING_NOTFOUND &&
(nEnd = aText.Search(EndKenn,nGleich+1)) != STRING_NOTFOUND)
{
aType = aText.Copy(nStart,nGleich-nStart);
nNumber = (ULONG)aText.Copy(nGleich+1,nEnd-nGleich-1).ToInt64();
bFound = FALSE;
if ( aType.CompareTo(UIdKenn) == COMPARE_EQUAL )
{
aResult = pShortNames->GetName(SmartId(nNumber));
bFound = TRUE;
}
if ( aType.CompareTo(MethodKenn ) == COMPARE_EQUAL )
{
bFound = TRUE;
aResult = GetMethodName( nNumber );
}
if ( aType.CompareTo(RcKenn ) == COMPARE_EQUAL )
{
bFound = TRUE;
if ( !pRCommands ) // Ist static, wird also nur einmal geladen
ReadFlatArray( arR_Cmds, pRCommands );
USHORT nElement;
if ( pRCommands )
{
for ( nElement = 0 ; nElement < pRCommands->Count() ; nElement++ )
if ( pRCommands->GetObject(nElement)->pData->aUId.Matches( nNumber ) )
{
aResult = pRCommands->GetObject(nElement)->pData->Kurzname;
nElement = pRCommands->Count();
}
}
}
if ( aType.CompareTo(TypeKenn ) == COMPARE_EQUAL )
{
bFound = TRUE;
if ( !pRTypes ) // Ist static, wird also nur einmal geladen
ReadFlatArray( arRes_Type, pRTypes );
USHORT nElement;
if ( pRTypes )
{
for ( nElement = 0 ; nElement < pRTypes->Count() ; nElement++ )
if ( pRTypes->GetObject(nElement)->pData->aUId.Matches( nNumber ) )
{
aResult = pRTypes->GetObject(nElement)->pData->Kurzname;
nElement = pRTypes->Count();
}
}
}
if ( aType.CompareTo(SlotKenn ) == COMPARE_EQUAL )
{
aResult = pShortNames->GetName(SmartId(nNumber));
bFound = TRUE;
}
if ( aType.CompareTo(TabKenn ) == COMPARE_EQUAL )
{
if ( nNumber > nStart )
aResult.Fill( (USHORT)nNumber - nStart +1 );
else
aResult = CUniString(" ");
bFound = TRUE;
}
nStartPos = nStart;
if ( bFound )
{
aText.Erase(nStart,nEnd+EndKenn.Len()-nStart);
aText.Insert(aResult,nStart);
nStartPos += aResult.Len();
}
else
nStartPos += StartKenn.Len();
}
}
SbTextType TestToolObj::GetSymbolType( const String &rSymbol, BOOL bWasControl )
{
if ( rSymbol.CompareToAscii( "try" ) == COMPARE_EQUAL
|| rSymbol.CompareToAscii( "catch" ) == COMPARE_EQUAL
|| rSymbol.CompareToAscii( "endcatch" ) == COMPARE_EQUAL
|| rSymbol.CompareToAscii( "testcase" ) == COMPARE_EQUAL
|| rSymbol.CompareToAscii( "endcase" ) == COMPARE_EQUAL )
{
return TT_KEYWORD;
}
ControlDef WhatName( rSymbol, SmartId() );
if ( bWasControl )
{
if ( !Controls::pClasses ) // Ist static, wird also nur einmal geladen
ReadFlatArray( Controls::arClasses, Controls::pClasses );
if ( Controls::pClasses && Controls::pClasses->Seek_Entry( &WhatName )
|| rSymbol.EqualsIgnoreCaseAscii( "ID" )
|| rSymbol.EqualsIgnoreCaseAscii( "Name" ) )
return TT_METHOD;
else
return TT_NOMETHOD;
}
// Die Controls durchsuchen
if ( pControls )
{
USHORT nWin;
for ( nWin = 0 ; nWin < pControls->Count() ; nWin++ )
{
if ( ((ControlDef*)pControls->GetObject( nWin ))->SonSeek_Entry( &WhatName ) )
return TT_CONTROL;
}
}
// Die Slots durchsuchen
if ( pSIds && pSIds->Seek_Entry( &WhatName ) )
return TT_SLOT;
// Ist es ein RemoteCommand
if ( !pRCommands ) // Ist static, wird also nur einmal geladen
ReadFlatArray( arR_Cmds, pRCommands );
if ( pRCommands && pRCommands->Seek_Entry( &WhatName ) )
return TT_REMOTECMD;
// Wenns sonst nix war, dann vielleicht ein Lokales Kommando
SbxVariable *pVar = SbxObject::Find( rSymbol, SbxCLASS_DONTCARE );
if ( pVar && ( pVar->ISA(SbxMethod) || pVar->ISA(SbxProperty) ) )
{
return TT_LOCALCMD;
}
return SB_SYMBOL; // Alles was hier landet ist vom Typ SB_SYMBOL und bleibt es auch
}
#undef P_FEHLERLISTE
#define P_FEHLERLISTE ((TestToolObj*)(GetParent()))->GetFehlerListe()
Controls::Controls( String aName )
: SbxObject( aName)
{
pMethodVar = new SbxTransportMethod( SbxVARIANT );
pMethodVar -> SetName( CUniString("Dummy") );
Insert( pMethodVar );
// pMethodVar = Make( CUniString("Dummy"), SbxCLASS_PROPERTY, SbxULONG );
}
Controls::~Controls()
{}
void Controls::ChangeListener()
{
EndListening( pMethodVar->GetBroadcaster(), TRUE );
GetParent()->StartListening( pMethodVar->GetBroadcaster(), TRUE );
}
void Controls::SFX_NOTIFY( SfxBroadcaster&, const TypeId&,
const SfxHint& rHint, const TypeId& )
{}
SbxVariable* Controls::Find( const String& Str, SbxClassType Type)
{
if ( !pClasses ) // Ist static, wird also nur einmal geladen
ReadFlatArray( arClasses, pClasses );
if ( GetUserData() == ID_ErrorDummy )
{
pMethodVar->SetName(UniString(GetName()).AppendAscii(".").Append(Str));
pMethodVar->SetUserData( ID_ErrorDummy );
return pMethodVar;
}
USHORT nElement;
ControlDef WhatName(Str,SmartId());
if (pClasses && pClasses->Seek_Entry(&WhatName,&nElement))
{
pMethodVar->SetName(Str);
ULONG nUId = pClasses->GetObject(nElement)->pData->aUId.GetNum();
pMethodVar->nValue = nUId;
pMethodVar->SetUserData( GetUserData() );
return pMethodVar;
}
else
{ // mainly for ID and name
SbxVariableRef Old = SbxObject::Find(Str, Type );
if (Old)
return Old;
else if ( Str.CompareIgnoreCaseToAscii("ID") == COMPARE_EQUAL )
return NULL; // suppress generation of error in this case
}
ADD_ERROR(SbxERR_BAD_METHOD,GEN_RES_STR2(S_UNKNOWN_METHOD, GetName(), Str));
if ( ((TestToolObj*)(GetParent()))->bQuietErrors )
{
pMethodVar->SetName(UniString(GetName()).AppendAscii(".").Append(Str));
pMethodVar->SetUserData( ID_ErrorDummy );
pMethodVar->nValue = 0;
return pMethodVar;
}
return NULL;
}
String TTFormat::ms2s( ULONG nMilliSeconds )
{
if ( nMilliSeconds < 100000 ) // 100 Sekunden
return String::CreateFromInt64( nMilliSeconds );
if ( nMilliSeconds < 100000*60 ) // 100 Minuten
return String::CreateFromInt32( nMilliSeconds / 1000 ).AppendAscii("Sec");
return String::CreateFromInt32( nMilliSeconds / 1000 / 60 ).AppendAscii("Min");
}