P4BridgeClient.cpp #1

/*******************************************************************************

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*******************************************************************************/

/*******************************************************************************
 * Name		: P4BridgeClient.cpp
 *
 * Author	: dbb
 *
 * Description	:  P4BridgeClient is a class derived from the ClientUser in the 
 *  p4api. It provides the "UI" hooks for the p4api to return send output to the
 *  client app. It collects the output as a command is run so that the entire
 *  output can be retrieved when the command completes. Optionally, the client
 *  the client can register call back function to receive any or all of the 
 *  output as it is generated by the p4api.
 *
 ******************************************************************************/
#include "StdAfx.h"
#include "ClientManager.h"
#include "P4BridgeClient.h"
#include "P4BridgeServer.h"
#include "P4Connection.h"

#include <strtable.h>
#include <strarray.h>

#include <diff.h>

class DiffObj : public Diff
{};

/*******************************************************************************
 *
 *  P4BridgeClient
 *
 *  Class derived from the ClientUser in the p4api. It provides the "UI" hooks 
 *      for the p4api to return send output to the  *  client app. It collects 
 *      the output as a command is run so that the entire  *  output can be 
 *      retrieved when the command completes. Optionally, the client the client 
 *      can register call back function to receive any or all of the output as 
 *      it is generated by the p4api.
 *
 ******************************************************************************/

/*******************************************************************************
 *
 *  Constructor
 *
 *  Initialize all the pointers to NULL. Space for storage will be created later
 *      when it is needed.
 *
 ******************************************************************************/

P4BridgeClient::P4BridgeClient(P4BridgeServer* pserver, P4Connection* pcon)
	: p4base(Type())
{
	pCon = pcon;
	pFirstError = NULL;
	pLastError = NULL;

	pFirstInfo = NULL;
	pLastInfo = NULL;

	results_dictionary_head = NULL;
	results_dictionary_tail = NULL;
	data_set = NULL;
//	info_results = NULL;
	text_results = NULL;
	Binary_results = NULL;

	objId = 0;

	if (pCon)
	{
		pCon->ui = this;
	}
	pServer = pserver;
}


/*******************************************************************************
 *
 *  Constructor
 *
 *  Free any storage that till being used.
 *
 ******************************************************************************/

P4BridgeClient::~P4BridgeClient(void)
{
	clear_results();
}

/*******************************************************************************
 *
 *  HandleException
 *
 *  Handle any platform exceptions. The Microsoft Structured Exception Handler
 *      allows software to catch platform exceptions such as array overrun. The
 *      exception is logged, but the application will continue to run.
 *
 ******************************************************************************/

//int P4BridgeClient::HandleException(unsigned int c, struct _EXCEPTION_POINTERS *e)
//{
//	unsigned int code = c;
//	struct _EXCEPTION_POINTERS *ep = e;
//
//	// Log the exception
//	char * exType = "Unknown";
//
// #if _WIN32
//	switch (code)
//	{
//	case EXCEPTION_ACCESS_VIOLATION:
//		exType = "EXCEPTION_ACCESS_VIOLATION\r\n";
//		break;
//	case EXCEPTION_DATATYPE_MISALIGNMENT:
//		exType = "EXCEPTION_DATATYPE_MISALIGNMENT\r\n";
//		break;
//	case EXCEPTION_BREAKPOINT:
//		exType = "EXCEPTION_BREAKPOINT\r\n";
//		break;
//	case EXCEPTION_SINGLE_STEP:
//		exType = "EXCEPTION_SINGLE_STEP\r\n";
//		break;
//	case EXCEPTION_ARRAY_BOUNDS_EXCEEDED:
//		exType = "EXCEPTION_ARRAY_BOUNDS_EXCEEDED\r\n";
//		break;
//	case EXCEPTION_FLT_DENORMAL_OPERAND:
//		exType = "EXCEPTION_FLT_DENORMAL_OPERAND\r\n";
//		break;
//	case EXCEPTION_FLT_DIVIDE_BY_ZERO:
//		exType = "EXCEPTION_FLT_DIVIDE_BY_ZERO\r\n";
//		break;
//	case EXCEPTION_FLT_INEXACT_RESULT:
//		exType = "EXCEPTION_FLT_INEXACT_RESULT\r\n";
//		break;
//	case EXCEPTION_FLT_INVALID_OPERATION:
//		exType = "EXCEPTION_FLT_INVALID_OPERATION\r\n";
//		break;
//	case EXCEPTION_FLT_OVERFLOW:
//		exType = "EXCEPTION_FLT_OVERFLOW\r\n";
//		break;
//	case EXCEPTION_FLT_STACK_CHECK:
//		exType = "EXCEPTION_FLT_STACK_CHECK\r\n";
//		break;
//	case EXCEPTION_FLT_UNDERFLOW:
//		exType = "EXCEPTION_FLT_UNDERFLOW\r\n";
//		break;
//	case EXCEPTION_INT_DIVIDE_BY_ZERO:
//		exType = "EXCEPTION_INT_DIVIDE_BY_ZERO\r\n";
//		break;
//	case EXCEPTION_INT_OVERFLOW:
//		exType = "EXCEPTION_INT_OVERFLOW\r\n";
//		break;
//	case EXCEPTION_PRIV_INSTRUCTION:
//		exType = "EXCEPTION_PRIV_INSTRUCTION\r\n";
//		break;
//	case EXCEPTION_IN_PAGE_ERROR:
//		exType = "EXCEPTION_IN_PAGE_ERROR\r\n";
//		break;
//	case EXCEPTION_ILLEGAL_INSTRUCTION:
//		exType = "EXCEPTION_ILLEGAL_INSTRUCTION\r\n";
//		break;
//	case EXCEPTION_NONCONTINUABLE_EXCEPTION:
//		exType = "EXCEPTION_NONCONTINUABLE_EXCEPTION\r\n";
//		break;
//	case EXCEPTION_STACK_OVERFLOW:
//		exType = "EXCEPTION_STACK_OVERFLOW\r\n";
//		break;
//	case EXCEPTION_INVALID_DISPOSITION:
//		exType = "EXCEPTION_INVALID_DISPOSITION\r\n";
//		break;
//	case EXCEPTION_GUARD_PAGE:
//		exType = "EXCEPTION_GUARD_PAGE\r\n";
//		break;
//	case EXCEPTION_INVALID_HANDLE:
//		exType = "EXCEPTION_INVALID_HANDLE\r\n";
//		break;
//	//case EXCEPTION_POSSIBLE_DEADLOCK:
//	//    exType = "EXCEPTION_POSSIBLE_DEADLOCK\r\n");
//	//    break;
//	default:
//		printf("UNKOWN EXCEPTION\r\n");
//		break;
//	}
// #endif
//	if (ExceptionError != NULL)
//		delete ExceptionError;
//		
//	ExceptionError = new StrBuf();
//
//	ExceptionError->Append("Exception Detected in callback function: ");
//	ExceptionError->Append(exType);
//
//	return EXCEPTION_EXECUTE_HANDLER;
//}

/*******************************************************************************
 *
 *  Message
 *
 *  ClientUser override function that is called by the p4api. If the P4 server
 *      is not Unicode enabled, the default implementation will process the 
 *      message by sending it's contents to HandleError() or OutputInfo(). For
 *      Unicode servers, this function must be overridden to provide the same
 *      functionality.
 *
 ******************************************************************************/

void P4BridgeClient::Message( Error *err )
{
	if (err->GetSeverity() >= E_WARN)
	{
		// This is an error
		HandleError( err );
		return; // no error
	}
	// not an error
	
	//StrDict * eDict = err->GetDict();
	//OutputStat( eDict );
	//err->Dump(":dump:");

	if (err->GetSeverity() == E_INFO)
	{
		// This is an info message
		ErrorId    *id = err->GetId(0);
		if (id == NULL)
			return;

		// Grab the  text
		StrBuf buf;

		if( pServer->unicodeServer())
			err->Fmt( buf, EF_PLAIN );
		else
			err->Fmt( buf, EF_PLAIN | EF_NOXLATE );

		//int ss = id->Subsystem();
		//int sc = id->SubCode();

		int msgCode = ErrorOf( id->Subsystem(), id->SubCode(), 0, 0, 0 );

		HandleInfoMsg( id->code, (char)(err->GetGeneric() + '0'), buf.Text() );
		return; // no error
	}
}

/*******************************************************************************
 *
 *  CallTextResultsCallbackFn
 *
 *  Simple wrapper to call the callback function (if it has been set) within a
 *      SEH __try block to catch any platform exception. SEH __try blocks must
 *      be contained in simple functions or you will get Compiler Error C2712,
 *      "cannot use __try in functions that require object unwinding"
 *
 ******************************************************************************/

void P4BridgeClient::CallTextResultsCallbackFn(const char *data)
{
	pServer->CallTextResultsCallbackFn(pCon->Id, data);
}

/*******************************************************************************
 *
 *  OutputText
 *
 *  ClientUser override function that is called when a P4 command produces text
 *      output. Calls the callback function if set and adds the new text to the
 *      existing results if any.
 *
 ******************************************************************************/

void P4BridgeClient::OutputText( const char *data, int length )
{
	CallTextResultsCallbackFn( data );

	if( !text_results )
		text_results = new StrBuf();

	// length might not have been sent for null terminated string
	if (data && (length < 0)) 
		text_results->Append( data );
	else
		text_results->Append( data, length );
}

/*******************************************************************************
 *
 *  CallInfoResultsCallbackFn
 *
 *  Simple wrapper to call the callback function (if it has been set) within a
 *      SEH __try block to catch any platform exception. SEH __try blocks must
 *      be contained in simple functions or you will get Compiler Error C2712,
 *      "cannot use __try in functions that require object unwinding"
 *
 ******************************************************************************/

void P4BridgeClient::CallInfoResultsCallbackFn( int msgId, char level, const char *data )
{
	pServer->CallInfoResultsCallbackFn( pCon->Id, msgId, level, data );
}

/*******************************************************************************
 *
 *  OutputInfo
 *
 *  ClientUser override function that is called when a P4 command produces 
 *      information output (message severity level is E_INFO). Calls the callback 
 *      function if set and adds the new text to the existing results if any.
 *
 ******************************************************************************/

//void P4BridgeClient::OutputInfo( char level, const char *data )
//{
//	CallInfoResultsCallbackFn( level, data );
//
//	if( !info_results )
//		info_results = new StrBuf;
//
//	char * lvl = new char[3];
//	lvl[0] = level;
//	lvl[1] = ':' ;
//	lvl[2] = '\0' ;
//	info_results->Append( lvl );
//	info_results->Append( data );
//	info_results->Append( "\r\n" );
//
//	delete[] lvl;
//}

/*******************************************************************************
 *
 *  CallTaggedOutputCallbackFn
 *
 *  Simple wrapper to call the callback function (if it has been set) within a
 *      SEH __try block to catch any platform exception. SEH __try blocks must
 *      be contained in simple functions or you will get Compiler Error C2712,
 *      "cannot use __try in functions that require object unwinding"
 *
 ******************************************************************************/

void P4BridgeClient::CallTaggedOutputCallbackFn( int objId, const char *pKey, const char * pVal )
{
	pServer->CallTaggedOutputCallbackFn( pCon->Id, objId, pKey, pVal );
}

/*******************************************************************************
 *
 *  OutputStat
 *
 *  ClientUser override function that is called when a P4 command produces 
 *      tagged output. Calls the callback function if set and adds the new 
 *      StrDict to the existing results if any.
 *
 ******************************************************************************/

void P4BridgeClient::OutputStat( StrDict *dict )
{
	StrDictList * pNew = new StrDictList();

	if( results_dictionary_head == NULL )
	{
		// first item, so set as head and tail
		results_dictionary_head = pNew;
		results_dictionary_tail = pNew;
		// set the object id
		objId = 0;
	}
	else
	{
		// add item to tail item and move tail pointer
		results_dictionary_tail->Next(pNew);
		results_dictionary_tail = pNew;

		objId++;
	}

	StrRef var, val;
	for( int i = 0; dict->GetVar( i, var, val ); i++ )
	{
		char * pVal = new char[val.Length() + 2];
		memcpy((void*)pVal, (void*) val.Text(), val.Length());
		pVal[val.Length()] = '\0';
		pVal[val.Length()+1] = '\0'; // if Unicode
		pServer->CallTaggedOutputCallbackFn( pCon->Id, objId, var.Text(), pVal );
		delete[] pVal;

		pNew->Data()->SetVar( var, val );
	}
	// flag the end of the object
	CallTaggedOutputCallbackFn( objId, NULL, NULL );
	return;
}

/*******************************************************************************
 *
 *  CallErrorCallbackFn
 *
 *  Simple wrapper to call the callback function (if it has been set) within a
 *      SEH __try block to catch any platform exception. SEH __try blocks must
 *      be contained in simple functions or you will get Compiler Error C2712,
 *      "cannot use __try in functions that require object unwinding"
 *
 ******************************************************************************/

void P4BridgeClient::CallErrorCallbackFn( int severity, int errorId, const char * errMsg )
{
	pServer->CallErrorCallbackFn(pCon->Id, severity, errorId, errMsg);
}

/*******************************************************************************
 *
 *  HandleError
 *
 *  ClientUser override function that is called when a P4 command causes an 
 *      error. Calls the callback function if set and adds the new error message 
 *      to the existing errors for this command if any.
 *
 ******************************************************************************/

void P4BridgeClient::HandleError( Error *err )
{
	if (err->GetSeverity() == E_EMPTY)
		return; // no error

	StrBuf buf;
	err->Fmt( buf, EF_NEWLINE );

	// iterate through the ErrorIds in this Error
	for(int i = 0; ; ++i) 
	{
		ErrorId    *id = err->GetId(i);
		if (id == NULL)
			break;

		//int ss = id->Subsystem();
		//int sc = id->SubCode();

		int eCode = ErrorOf( id->Subsystem(), id->SubCode(), 0, 0, 0 );

		HandleError( id->Severity(), id->code, buf.Text() );
	}
}

/*******************************************************************************
 *
 *  HandleError
 *
 *  Internal function that is called when an error that needs to be reported to 
 *      the client is generated in the bridge code. Calls the callback function 
 *      if set and adds the new error message to the existing errors for this 
 *      command if any.
 *
 ******************************************************************************/

void P4BridgeClient::HandleError( int severity, int	errorCode, const char *errMsg )
{
	//LOG_DEBUG3(4,"P4BridgeClient::HandleError %d %x %s",severity, errorCode, errMsg);

	P4ClientError * pNewError = new P4ClientError(severity, errorCode, errMsg );

	HandleError( pNewError );
}

void P4BridgeClient::HandleError( P4ClientError * pNewError )
{

	if( !pFirstError )
	{
		// first error so use it to start the list
		pFirstError = pNewError;
		pLastError = pNewError;
	}
	else
	{
		// Add it to the end of the list
		pLastError->Next = pNewError;
		pLastError = pNewError;
   }

	CallErrorCallbackFn( pNewError->Severity, pNewError->ErrorCode, pNewError->Message );
}

/*******************************************************************************
 *
 *  HandleInfoMsg
 *
 *  Function that is called when an info message is received and reported to 
 *      the client. Calls the callback function if set and adds the new info 
 *      message to the existing info output for this command if any.
 *
 ******************************************************************************/

void P4BridgeClient::HandleInfoMsg( int msgCode, char level, const char *infMsg )
{
	P4ClientInfoMsg * pNewMsg = new P4ClientInfoMsg(msgCode, level, infMsg );

	HandleInfoMsg( pNewMsg );
}

void P4BridgeClient::HandleInfoMsg( P4ClientInfoMsg * pNewMsg )
{

	if( !pFirstInfo )
	{
		// first error so use it to start the list
		pFirstInfo = pNewMsg;
		pLastInfo = pNewMsg;
	}
	else
	{
		// Add it to the end of the list
		pLastInfo->Next = pNewMsg;
		pLastInfo = pNewMsg;
   }

	CallInfoResultsCallbackFn( pNewMsg->MsgCode, pNewMsg->Level, pNewMsg->Message );
}

/*******************************************************************************
 *
 *  OutputError
 *
 *  ClientUser override function that is called when an old P4 command causes an 
 *      error. Calls the callback function if set and adds the new error message 
 *      to the existing errors for this command if any.
 *
 ******************************************************************************/

void P4BridgeClient::OutputError( const char *err )// For broken servers
{
	HandleError( -1, 0, err );
}

void P4BridgeClient::Diff( FileSys *f1, FileSys *f2, int doPage, 
				char *diffFlags, Error *e )
{
	//
	// Duck binary files. Much the same as ClientUser::Diff, we just
	// put the output into Ruby space rather than stdout.
	//
	if( !f1->IsTextual() || !f2->IsTextual() )
	{
		if ( f1->Compare( f2, e ) )
			OutputText(  "(... files differ ...)", -1 );
		return;
	}

	// Time to diff the two text files. Need to ensure that the
	// files are in binary mode, so we have to create new FileSys
	// objects to do this.

	FileSys *f1_bin = FileSys::Create( FST_BINARY );
	FileSys *f2_bin = FileSys::Create( FST_BINARY );
	FileSys *t = FileSys::CreateGlobalTemp( f1->GetType() );

	f1_bin->Set( f1->Name() );
	f2_bin->Set( f2->Name() );

	{
	//
		// In its own block to make sure that the diff object is deleted
		// before we delete the FileSys objects.
		//
		DiffObj d;

		d.SetInput( f1_bin, f2_bin, diffFlags, e );
		if ( ! e->Test() ) d.SetOutput( t->Name(), e );
		if ( ! e->Test() ) d.DiffWithFlags( diffFlags );
		d.CloseOutput( e );

		// OK, now we have the diff output, read it in and add it to 
		// the output.
		if ( ! e->Test() ) t->Open( FOM_READ, e );
		if ( ! e->Test() ) 
		{
			StrBuf 	b;
			while( t->ReadLine( &b, e ) )
			{
				OutputText( b.Text(), b.Length() );
				OutputText( "\r\n", -1 );
			}
		}
	}

	delete t;
	delete f1_bin;
	delete f2_bin;

	if ( e->Test() ) HandleError( e );
}


/*******************************************************************************
 *
 *  CallErrorCallbackFn
 *
 *  Simple wrapper to call the callback function (if it has been set) within a
 *      SEH __try block to catch any platform exception. SEH __try blocks must
 *      be contained in simple functions or you will get Compiler Error C2712,
 *      "cannot use __try in functions that require object unwinding"
 *
 ******************************************************************************/

void P4BridgeClient::CallBinaryResultsCallbackFn(void * data, int length )
{
	pServer->CallBinaryResultsCallbackFn( pCon->Id, data,  length );
}

/*******************************************************************************
 *
 *  OutputBinary
 *
 *  ClientUser override function that is called when a P4 command produces  
 *      binary data. Calls the callback function if set and adds the new data 
 *      to the existing binary data for this command if any.
 *
 ******************************************************************************/

void P4BridgeClient::OutputBinary( const char *data, int length )
{
	CallBinaryResultsCallbackFn((void *) data, length );

	if (Binary_results)
	{
		char * oldResults = Binary_results;
	
		Binary_results = AddStrBuff(Binary_results, Binary_results_Count, data, length);
		Binary_results_Count += length;

		delete[] oldResults; // need to delete the old buffer for results

		return;
	}
	Binary_results = CpyStrBuff(data, length );
	Binary_results_Count = length;
}

/*******************************************************************************
 *
 *  GetErrorResults
 *
 *  Gets the first error in the list of errors produced since the error list was
 *      last cleared. Returns null if there are no errors in the list. The 
 *      P4ClientError object returned contains a pointer to the next error in
 *      the list, so the entire list can be obtained.
 *
 ******************************************************************************/

P4ClientError* P4BridgeClient::GetErrorResults()
{
	return pFirstError;
}

/*******************************************************************************
 *
 *  GetInfoResults
 *
 *  Gets the first info results collected since the results were last cleared. 
 *      Returns null if there are no results available. The results are 
 *      returned as a single string.
 *
 ******************************************************************************/

P4ClientInfoMsg * P4BridgeClient::GetInfoResults()
{
	return pFirstInfo;
}

/*******************************************************************************
 *
 *  GetTextResults
 *
 *  Gets the first text results collected since the results were last cleared. 
 *      Returns null if there are no results available. The results are 
 *      returned as a single string.
 *
 ******************************************************************************/

StrBuf* P4BridgeClient::GetTextResults()
{
	return text_results;
}

/*******************************************************************************
 *
 *  GetTaggedOutput
 *
 *  Gets the first tagged output collected since the results were last cleared. 
 *      Returns null if there are no results available. The StrDictListIterator 
 *      object returned can be used to iterate through all of the objects and
 *      their values.
 *
 ******************************************************************************/

StrDictListIterator* P4BridgeClient::GetTaggedOutput()
{
	if (results_dictionary_head)
	{
		return new StrDictListIterator(results_dictionary_head);
	}
	return NULL;
}

/*******************************************************************************
 *
 *  GetBinaryResults
 *
 *  Gets the first info results collected since the results were last cleared. 
 *      Returns null if there are no  results available.  The results are 
 *      returned as a single buffer.
 *
 ******************************************************************************/

void * P4BridgeClient::GetBinaryResults()
{
	return Binary_results;
}

/*******************************************************************************
 *
 *  SetDataSet
 *
 *  Called to set the Input Data which will be used by a command. The data must 
 *      be set before the command is run
 *
 ******************************************************************************/

void P4BridgeClient::SetDataSet(const char * data)
{
	 if (!data_set)
		 data_set = new StrBuf();
	 data_set->Set(data);
}

/*******************************************************************************
 *
 *  GetDataSet
 *
 *  Get the Input Data which will be used by a command. 
 *
 ******************************************************************************/

StrPtr * P4BridgeClient::GetDataSet( void )
{
	 return data_set;
}


void P4BridgeClient::Prompt( const StrPtr &msg, StrBuf &rsp, 
				int noEcho, Error *e )
{
	pServer->Prompt(pCon->Id, msg, rsp, noEcho, e);
}

/*******************************************************************************
 *
 *  InputData
 *
 *  ClientUser override function that is called when a P4 command requires
 *       additional text based data such as a workspace specification.
 *
 ******************************************************************************/

void P4BridgeClient::InputData( StrBuf *buf, Error *err )
{
	buf->Clear();
	if (data_set)
		buf->Set( data_set );
	buf->Terminate();
}

/*******************************************************************************
 *
 *  clear_results
 *
 *  Clear all the stored results in preparation for running a command.
 *
 ******************************************************************************/

#define DELETE_OBJECT(obj) if( obj != NULL ) { delete obj; obj = NULL; }

void P4BridgeClient::clear_results()
{
	// Cleanup the output buffers
	DELETE_OBJECT( pFirstError )
	pLastError = NULL;
	DELETE_OBJECT( text_results )
	DELETE_OBJECT( pFirstInfo )
	pLastInfo = NULL;
	DELETE_OBJECT( results_dictionary_head )
	results_dictionary_tail = NULL;
	DELETE_OBJECT( Binary_results );
	Binary_results_Count = 0;

	// Other Data
//    DELETE_OBJECT( data_set )
//	DELETE_OBJECT( ExceptionError);
}

int	P4BridgeClient::Resolve( ClientMerge *m, Error *e )
{
	return pServer->Resolve( pCon->Id, m, e );
}

int	P4BridgeClient::Resolve( ClientResolveA *r, int preview, Error *e )
{
	//Error er = r->GetType();
	////const Error& er = r->GetType();
	//StrBuf msg;
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetMergeAction();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetYoursAction();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetTheirAction();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetMergePrompt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetYoursPrompt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetTheirPrompt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetMergeOpt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetYoursOpt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetTheirOpt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetSkipOpt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetHelpOpt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetAutoOpt() ;
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetPrompt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetTypePrompt();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetUsageError();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();
	//er = r->GetHelp();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();

	//er = r->GetType();
	//if( isUnicode )
	//	er.Fmt( msg, EF_PLAIN );
	//else
	//	er.Fmt( msg, EF_PLAIN | EF_NOXLATE );

	//Error er2 = r->GetHelp();
	////const Error& er = r->GetType();
	//StrBuf msg2;
	//if( isUnicode )
	//	er2.Fmt( msg2, EF_PLAIN );
	//else
	//	er2.Fmt( msg2, EF_PLAIN | EF_NOXLATE );

	//Error er3 = r->GetType();
	////const Error& er = r->GetType();
	//StrBuf msg3;
	//if( isUnicode )
	//	er3.Fmt( msg3, EF_PLAIN );
	//else
	//	er3.Fmt( msg3, EF_PLAIN | EF_NOXLATE );

	//msg.Clear();
	//er.Clear();

	return pServer->Resolve(pCon->Id, r, preview, e );
}

/*******************************************************************************
 * 
 * StrDictList
 *
 * Class used to keep a list of StrDict objects when collecting the tagged
 *      output of a command
 *
 ******************************************************************************/

/*******************************************************************************
 * Constructor
 ******************************************************************************/

StrDictList::StrDictList() 
	: p4base(Type()) 
{ 
	pStrDict = new StrBufDict(); 
	pNext = NULL;
}

/*******************************************************************************
 * 
 * StrDictListIterator
 *
 * Class used to iterate a list of StrDict objects when retrieving the tagged
 *      output of a command. See comments in p4bridge-api.cpp for a detailed 
 *      usage explanation.
 *
 ******************************************************************************/

/*******************************************************************************
 * Constructor
 ******************************************************************************/

StrDictListIterator::StrDictListIterator()
	: p4base(Type())
{
	curEntry = NULL;
}

/*******************************************************************************
 * Constructor
 ******************************************************************************/

StrDictListIterator::StrDictListIterator(StrDictList* ndict)
 : p4base(Type())
{
	curEntry = NULL;
	Init(ndict);
}

/*******************************************************************************
 * Destructor
 *******************************************************************************
 * Note: this destructor uses an iterative while loop to delete the list
 *       instead of recusion because a long list (> ~2000) can cause stack
 *       overflow with a recursive destructor. 
 ******************************************************************************/
StrDictList::~StrDictList()
{ 
	if (pStrDict != NULL)
		delete pStrDict;
	  
	if (pNext == NULL)
	{
		return;
	}

	StrDictList* pCur = this->pNext;
	while (pCur != NULL)
	{
		pNext = pCur->pNext;
		pCur->pNext = NULL;
		delete pCur;
		pCur = this->pNext;
	}

};

/*******************************************************************************
 * Destructor
 ******************************************************************************/

StrDictListIterator::~StrDictListIterator()
{
	Reset();
}

/*******************************************************************************
 * 
 * Init
 *
 * Initialize the iterator to the beginning of the list before starting the 
 *      iteration.
 *
 ******************************************************************************/

int StrDictListIterator::Init(StrDictList* ndict)
{
	dict = ndict;

	Reset();

	return (curItem == NULL);
}

/*******************************************************************************
 * 
 * GetNextItem
 *
 * Get the next StrDict object in the list.
 *
 ******************************************************************************/

StrDictList* StrDictListIterator::GetNextItem()
{
	if (curItem == NULL)
	{
		curItem = dict;
	}
	else
	{
		curItem = curItem->Next();
	}
	// Start with the first entry of the new dictionary
	idx = 0;

	return curItem;
}

/*******************************************************************************
 * 
 * GetEntry
 *
 * Get the nth key:value pair for the current StrDict object.
 *
 ******************************************************************************/

KeyValuePair* StrDictListIterator::GetEntry(int idx)
{
	if (curItem == NULL)
	{
		return NULL;
	}
	if (curEntry != NULL)
	{
		delete curEntry;
		curEntry = NULL;
	}
	StrRef var, val;

	if (curItem->Data()->GetVar( idx, var, val ))
		curEntry = new KeyValuePair(var.Text(), var.Length(), val.Text(), val.Length());

	return curEntry;
}

/*******************************************************************************
 * 
 * GetNextEntry
 *
 * Get the next key:value pair for the current StrDict object.
 *
 ******************************************************************************/

KeyValuePair* StrDictListIterator::GetNextEntry()
{
	if (curItem == NULL)
	{
		return NULL;
	}
	return GetEntry(idx++);
}

/*******************************************************************************
 * 
 * Reset
 *
 * Reset the iterator.
 *
 ******************************************************************************/

void StrDictListIterator::Reset()
{
	curItem = NULL;
	idx = 0;

	if (curEntry != NULL)
	{
		delete curEntry;
		curEntry = NULL;
	}
}

/*******************************************************************************
 * KeyValuePair
 ******************************************************************************/

/*******************************************************************************
 * Constructor
 ******************************************************************************/

KeyValuePair::KeyValuePair(const char * k, int kSz, const char * v, int vSz)
	: p4base(Type()), keyLength(kSz), valLength(vSz)
{
	key = CopyStr(k);
	value = CopyStr(v);
}

/*******************************************************************************
 * Destructor
 ******************************************************************************/

KeyValuePair::~KeyValuePair()
{
	if (key) delete[] key;
	if (value) delete[] value;
}

/*******************************************************************************
 *
 *  P4ClientError
 *
 *  This simple class is used to return the data elements of an error message.
 *
 ******************************************************************************/

/*******************************************************************************
 * Constructor
 ******************************************************************************/

P4ClientError::P4ClientError(int severity, int	errorCode, const char * msg)
	: p4base(Type())
{
	Severity = severity;
	ErrorCode = errorCode;
	Message = CopyStr(msg);

	Next = NULL;
}

P4ClientError::P4ClientError(P4ClientError * err)
	: p4base(Type())
{
	Severity = err->Severity;
	ErrorCode = err->ErrorCode;
	Message = CopyStr(err->Message);

	Next = NULL;
}

/*******************************************************************************
 * Destructor
 *******************************************************************************
 * Note: this destructor uses an iterative while loop to delete the list
 *       instead of recursion because a long list (> ~2000) can cause stack
 *       overflow with a recursive destructor. 
 ******************************************************************************/
P4ClientError::~P4ClientError()
{ 
	if (Message != NULL)
		delete[] Message;
	  
	if (Next == NULL)
	{
		return;
	}

	P4ClientError* pCur = this->Next;
	while (pCur != NULL)
	{
		this->Next = pCur->Next;
		pCur->Next = NULL;
		delete pCur;
		pCur = this->Next;
	}

};

/*******************************************************************************
 * Destructor
 ******************************************************************************/

//P4ClientError::~P4ClientError()
//{
//    if (Message) delete Message;
//
//    if (Next) delete Next;
//}

int P4ClientError::MaxSeverity()
{
	P4ClientError *pNext = Next;
	int maxSeverity = Severity;

	while (pNext != NULL)
	{
		int nextSeverity = pNext->Severity;
		if (nextSeverity > maxSeverity)
		{
			maxSeverity =  nextSeverity;
		}
		pNext = pNext->Next;
	}
	return maxSeverity;
}

/*******************************************************************************
 *
 *  P4ClientInfoMsg
 *
 *  This simple class is used to return the data elements of an info message.
 *
 ******************************************************************************/

/*******************************************************************************
 * Constructor
 ******************************************************************************/

P4ClientInfoMsg::P4ClientInfoMsg(int msgCode, char level, const char * msg)
	: p4base(Type())
{
	Level = level;
	MsgCode = msgCode;
	Message = CopyStr(msg);

	Next = NULL;
}

P4ClientInfoMsg::P4ClientInfoMsg(P4ClientInfoMsg * err)
	: p4base(Type())
{
	Level = err->Level;
	MsgCode = err->MsgCode;
	Message = CopyStr(err->Message);

	Next = NULL;
}

/*******************************************************************************
 * Destructor
 *******************************************************************************
 * Note: this destructor uses an iterative while loop to delete the list
 *       instead of recursion because a long list (> ~2000) can cause stack
 *       overflow with a recursive destructor. 
 ******************************************************************************/
P4ClientInfoMsg::~P4ClientInfoMsg()
{ 
	if (Message != NULL)
		delete[] Message;
	  
	if (Next == NULL)
	{
		return;
	}

	P4ClientInfoMsg* pCur = this->Next;
	while (pCur != NULL)
	{
		Next = pCur->Next;
		pCur->Next = NULL;
		delete pCur;
		pCur = this->Next;
	}

};

/*******************************************************************************
 *
 *  P4ClientMerge
 *
 *  This simple class is a wrapper for ClientMerge object.
 *
 ******************************************************************************/

	P4ClientMerge::P4ClientMerge(ClientMerge * merger)
	: p4base(Type())
	{
		lastError = NULL;
		Merger = merger;
	}

	P4ClientMerge::~P4ClientMerge()
	{
		if (lastError != NULL)
			delete lastError;
	}

	P4ClientError *P4ClientMerge::GetLastError()
	{
		if (lastError != NULL)
		{
			delete lastError;
			lastError = NULL;
		}
		if (err.GetSeverity() == E_EMPTY)
			return NULL; // no error

		StrBuf buf;
		err.Fmt( buf, EF_NEWLINE );

		lastError =  new P4ClientError(err.GetSeverity(), err.GetGeneric(), buf.Text());
		return lastError;
	}

	MergeStatus P4ClientMerge::AutoResolve( MergeForce forceMerge )
	{
		if (Merger == NULL)
			return CMS_QUIT;

		return Merger->AutoResolve(forceMerge);
	}
	
	MergeStatus P4ClientMerge::Resolve()
	{
		if (Merger == NULL)
			return CMS_QUIT;

		return Merger->Resolve(&err);
	}
	
	MergeStatus P4ClientMerge::DetectResolve()
	{
		if (Merger == NULL)
			return CMS_QUIT;

		return Merger->DetectResolve();
	}
	
	int	P4ClientMerge::IsAcceptable()
	{
		if (Merger == NULL)
			return false;

		return Merger->IsAcceptable();
	}

	StrPtr *P4ClientMerge::GetBaseFile()
	{
		if (Merger == NULL)
			return NULL;

		FileSys *f = Merger->GetBaseFile();
		if (f == NULL)
			return NULL;

		return f->Path();
	}

	StrPtr *P4ClientMerge::GetYourFile()
	{
		if (Merger == NULL)
			return NULL;

		FileSys *f = Merger->GetYourFile();
		if (f == NULL)
			return NULL;

		return f->Path();
	}

	StrPtr *P4ClientMerge::GetTheirFile()
	{
		if (Merger == NULL)
			return NULL;

		FileSys *f = Merger->GetTheirFile();
		if (f == NULL)
			return NULL;

		return f->Path();
	}

	StrPtr *P4ClientMerge::GetResultFile()
	{
		if (Merger == NULL)
			return NULL;

		FileSys *f = Merger->GetResultFile();
		if (f == NULL)
			return NULL;

		return f->Path();
	}

	int	P4ClientMerge::GetYourChunks()
	{
		if (Merger == NULL)
			return -1;

		return Merger->GetYourChunks();
	}
	int	P4ClientMerge::GetTheirChunks()
	{
		if (Merger == NULL)
			return -1;

		return Merger->GetTheirChunks();
	}
	int	P4ClientMerge::GetBothChunks()
	{
		if (Merger == NULL)
			return -1;

		return Merger->GetBothChunks();
	}
	int	P4ClientMerge::GetConflictChunks()
	{
		if (Merger == NULL)
			return -1;

		return Merger->GetConflictChunks();
	}

	const StrPtr *P4ClientMerge::GetMergeDigest()
	{
		if (Merger == NULL)
			return NULL;

		return Merger->GetMergeDigest();
	}

	const StrPtr *P4ClientMerge::GetYourDigest()
	{
		if (Merger == NULL)
			return NULL;

		return Merger->GetYourDigest();
	}

	const StrPtr *P4ClientMerge::GetTheirDigest()
	{
		if (Merger == NULL)
			return NULL;

		return Merger->GetTheirDigest();
	}

/*******************************************************************************
 *
 *  P4ClientResolve
 *
 *  This simple class is a wrapper for ClientResolve object.
 *
 ******************************************************************************/

	const Error P4ClientResolve::_INVALID_API_REFERENCE = Error();

	P4ClientResolve::P4ClientResolve(ClientResolveA * resolver, int isUnicode) : p4base(Type()) 
	{
		lastError = NULL;
		//lastValue = NULL;

		Resolver = resolver;

		if (resolver != NULL)
		{
			Error er;

			type.Clear();
			er.Clear();
			er = resolver->GetType();
			if( isUnicode )
				er.Fmt( type, EF_PLAIN );
			else
				er.Fmt( type, EF_PLAIN | EF_NOXLATE );

			mergeAction.Clear();
			er.Clear();
			er = resolver->GetMergeAction();
			if( isUnicode )
				er.Fmt( mergeAction, EF_PLAIN );
			else
				er.Fmt( mergeAction, EF_PLAIN | EF_NOXLATE );

			yoursAction.Clear();
			er.Clear();
			er = resolver->GetYoursAction();
			if( isUnicode )
				er.Fmt( yoursAction, EF_PLAIN );
			else
				er.Fmt( yoursAction, EF_PLAIN | EF_NOXLATE );
			
			theirAction.Clear();
			er.Clear();
			er = resolver->GetTheirAction();
			if( isUnicode )
				er.Fmt( theirAction, EF_PLAIN );
			else
				er.Fmt( theirAction, EF_PLAIN | EF_NOXLATE );

			mergePrompt.Clear();
			er.Clear();
			er = resolver->GetMergePrompt();
			if( isUnicode )
				er.Fmt( mergePrompt, EF_PLAIN );
			else
				er.Fmt( mergePrompt, EF_PLAIN | EF_NOXLATE );

			yoursPrompt.Clear();
			er.Clear();
			er = resolver->GetYoursPrompt();
			if( isUnicode )
				er.Fmt( yoursPrompt, EF_PLAIN );
			else
				er.Fmt( yoursPrompt, EF_PLAIN | EF_NOXLATE );

			theirPrompt.Clear();
			er.Clear();
			er = resolver->GetTheirPrompt();
			if( isUnicode )
				er.Fmt( theirPrompt, EF_PLAIN );
			else
				er.Fmt( theirPrompt, EF_PLAIN | EF_NOXLATE );

			mergeOpt.Clear();
			er.Clear();
			er = resolver->GetMergeOpt();
			if( isUnicode )
				er.Fmt( mergeOpt, EF_PLAIN );
			else
				er.Fmt( mergeOpt, EF_PLAIN | EF_NOXLATE );

			yoursOpt.Clear();
			er.Clear();
			er = resolver->GetYoursOpt();
			if( isUnicode )
				er.Fmt( yoursOpt, EF_PLAIN );
			else
				er.Fmt( yoursOpt, EF_PLAIN | EF_NOXLATE );

			theirOpt.Clear();
			er.Clear();
			er = resolver->GetTheirOpt();
			if( isUnicode )
				er.Fmt( theirOpt, EF_PLAIN );
			else
				er.Fmt( theirOpt, EF_PLAIN | EF_NOXLATE );

			skipOpt.Clear();
			er.Clear();
			er = resolver->GetSkipOpt();
			if( isUnicode )
				er.Fmt( skipOpt, EF_PLAIN );
			else
				er.Fmt( skipOpt, EF_PLAIN | EF_NOXLATE );

			helpOpt.Clear();
			er.Clear();
			er = resolver->GetHelpOpt();
			if( isUnicode )
				er.Fmt( helpOpt, EF_PLAIN );
			else
				er.Fmt( helpOpt, EF_PLAIN | EF_NOXLATE );

			autoOpt.Clear();
			er.Clear();
			er = resolver->GetAutoOpt();
			if( isUnicode )
				er.Fmt( autoOpt, EF_PLAIN );
			else
				er.Fmt( autoOpt, EF_PLAIN | EF_NOXLATE );

			prompt.Clear();
			er.Clear();
			er = resolver->GetPrompt();
			if( isUnicode )
				er.Fmt( prompt, EF_PLAIN );
			else
				er.Fmt( prompt, EF_PLAIN | EF_NOXLATE );

			typePrompt.Clear();
			er.Clear();
			er = resolver->GetTypePrompt();
			if( isUnicode )
				er.Fmt( typePrompt, EF_PLAIN );
			else
				er.Fmt( typePrompt, EF_PLAIN | EF_NOXLATE );

			usageError.Clear();
			er.Clear();
			er = resolver->GetUsageError();
			if( isUnicode )
				er.Fmt( usageError, EF_PLAIN );
			else
				er.Fmt( usageError, EF_PLAIN | EF_NOXLATE );

			help.Clear();
			er.Clear();
			er = resolver->GetHelp();
			if( isUnicode )
				er.Fmt( help, EF_PLAIN );
			else
				er.Fmt( help, EF_PLAIN | EF_NOXLATE );
		}
	}

	P4ClientResolve::~P4ClientResolve()
	{
		if (lastError != NULL)
			delete lastError;

		//if (lastValue != NULL)
		//	delete lastValue;
	}

	P4ClientError *P4ClientResolve::GetLastError()
	{
		if (lastError != NULL)
		{
			delete lastError;
			lastError = NULL;
		}
		if (err.GetSeverity() == E_EMPTY)
			return NULL; // no error

		StrBuf buf;
		err.Fmt( buf, EF_NEWLINE );

		lastError =  new P4ClientError(err.GetSeverity(), err.GetGeneric(), buf.Text());
		return lastError;
	}

	MergeStatus P4ClientResolve::AutoResolve( MergeForce force ) const
	{
		if (Resolver == NULL)
		{
			return CMS_SKIP;
		}
		return Resolver->AutoResolve( force );
	}

	MergeStatus P4ClientResolve::Resolve( int preview )
	{
		if (Resolver == NULL)
		{
			return CMS_SKIP;
		}
		return Resolver->Resolve( preview, &err );
	}

	//P4ClientError *P4ClientResolve::GetType() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetType(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}

	//P4ClientError *P4ClientResolve::GetMergeAction() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetMergeAction(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetYoursAction() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetYoursAction(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}

	//P4ClientError *P4ClientResolve::GetTheirAction()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetTheirAction(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}

	//// For the CLI interface, probably not of interest to others

	//P4ClientError *P4ClientResolve::GetMergePrompt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetMergePrompt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetYoursPrompt()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetYoursPrompt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetTheirPrompt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetTheirPrompt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}

	//P4ClientError *P4ClientResolve::GetMergeOpt()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetMergeOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetYoursOpt()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetYoursOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetTheirOpt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetTheirOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetSkipOpt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetSkipOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetHelpOpt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetHelpOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetAutoOpt() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetAutoOpt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}

	//P4ClientError *P4ClientResolve::GetPrompt()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetPrompt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetTypePrompt()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetTypePrompt(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetUsageError()
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetUsageError(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}
	//P4ClientError *P4ClientResolve::GetHelp() 
	//{
	//	if (lastValue != NULL)
	//	{
	//		delete lastValue;
	//		lastValue = NULL;
	//	}
	//	if (Resolver == NULL)
	//	{
	//		return NULL;
	//	}
	//	const Error &value = Resolver->GetHelp(); 

	//	if (value.GetSeverity() == E_EMPTY)
	//		return NULL; // no error

	//	StrBuf buf;
	//	value.Fmt( buf, EF_NEWLINE );

	//	lastValue =  new P4ClientError(value.GetSeverity(), buf.Text());
	//	return lastValue;
	//}