498 lines
11 KiB
C++
498 lines
11 KiB
C++
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/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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Copyright (c) 1989-1999 Microsoft Corporation
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Module Name:
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arraygen.cxx
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Abstract:
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Implementation of array marshall and unmarshall.
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Notes:
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History:
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Nov-13-1993 VibhasC Created.
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----------------------------------------------------------------------------*/
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/****************************************************************************
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* include files
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***************************************************************************/
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#include "becls.hxx"
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#pragma hdrstop
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/****************************************************************************
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* local definitions
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***************************************************************************/
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/****************************************************************************
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* local data
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***************************************************************************/
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/****************************************************************************
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* externs
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***************************************************************************/
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/****************************************************************************/
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/*****************************************************************************
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utility
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*****************************************************************************/
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BOOL
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CG_ARRAY::IsBlockCopyPossible()
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{
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return GetBasicCGClass()->IsBlockCopyPossible();
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}
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expr_node *
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CG_ARRAY::FinalSizeExpression( CCB * pCCB )
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{
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CG_NDR * pC;
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expr_node * pFSExpr;
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if( (pC = (CG_NDR *)GetChild())->IsArray() )
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{
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pFSExpr = ((CG_ARRAY *)pC)->FinalSizeExpression( pCCB );
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pFSExpr = new expr_b_arithmetic(OP_STAR,
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pFSExpr,
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PresentedSizeExpression( pCCB ));
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}
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else
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pFSExpr = PresentedSizeExpression( pCCB );
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if( pFSExpr->IsConstant() )
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pFSExpr = new expr_constant( pFSExpr->Evaluate() );
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return pFSExpr;
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}
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expr_node *
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CG_ARRAY::FinalFirstExpression( CCB * pCCB )
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{
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CG_NDR * pC;
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expr_node * pFFExpr;
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// for an array a[ 0th ][ 1st]...[nth] the final first expression is:
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// ((First Of nth dim) * Size Nth dim ) + First N-1th dim) * Size N-1th dim
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// and so on.
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if( (pC = (CG_NDR *)GetChild())->IsArray() )
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{
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pFFExpr = ((CG_ARRAY *)pC)->FinalFirstExpression( pCCB );
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pFFExpr = new expr_b_arithmetic(OP_STAR,
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pFFExpr,
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((CG_ARRAY *)pC)->PresentedSizeExpression( pCCB ));
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pFFExpr = new expr_b_arithmetic( OP_PLUS,
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pFFExpr,
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((CG_ARRAY *)pC)->PresentedFirstExpression( pCCB ));
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}
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else
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pFFExpr = PresentedFirstExpression( pCCB );
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if( pFFExpr->IsConstant() )
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pFFExpr = new expr_constant( pFFExpr->Evaluate() );
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return pFFExpr;
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}
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expr_node *
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CG_ARRAY::FinalLengthExpression( CCB * pCCB )
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{
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CG_NDR * pC;
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expr_node * pFLExpr;
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if( (pC = (CG_NDR *)GetChild())->IsArray() )
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{
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pFLExpr = ((CG_ARRAY *)pC)->FinalLengthExpression( pCCB );
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pFLExpr = new expr_b_arithmetic(OP_STAR,
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pFLExpr,
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PresentedLengthExpression( pCCB ));
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}
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else
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pFLExpr = PresentedLengthExpression( pCCB );
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if( pFLExpr->IsConstant() )
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pFLExpr = new expr_constant( pFLExpr->Evaluate() );
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return pFLExpr;
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}
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CG_NDR *
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CG_ARRAY::GetBasicCGClass()
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{
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CG_NDR * pC = (CG_NDR *)GetChild();
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while( pC->IsArray() && (pC->GetCGID() != ID_CG_STRING_ARRAY) )
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{
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pC = (CG_NDR *)pC->GetChild();
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}
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return pC;
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}
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BOOL
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CG_ARRAY::HasPointer()
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{
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CG_NDR * pBasicCGClass = (CG_NDR *)GetBasicCGClass();
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return ( ( pBasicCGClass->IsPointer() &&
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!pBasicCGClass->IsInterfacePointer() ) ||
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pBasicCGClass->HasPointer() );
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}
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CG_STATUS
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CG_ARRAY::S_GenInitOutLocals(
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CCB * pCCB )
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{
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BOOL fFixedArrayOfXmitOrRepAs= FALSE;
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// If this is a fixed array, then the array would have been allocated
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// already. Remember, there is also a pointer associated with it.
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// Emit the initialization to the allocated array.
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// If this is a conformant array, then the size would have been
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// unmarshalled before this and so we need to allocate.
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if( IsFixedArray() )
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{
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if( ((CG_NDR *)GetChild())->IsXmitRepOrUserMarshal() )
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{
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fFixedArrayOfXmitOrRepAs = TRUE;
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}
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Out_Assign( pCCB,
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pCCB->GetSourceExpression(),
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MakeAddressExpressionNoMatterWhat( GetResource() ) );
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}
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else
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{
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CGPHASE Phase = pCCB->GetCodeGenPhase();
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expr_node * pElementSizeExpr =
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new expr_constant( GetBasicCGClass()-> GetMemorySize() );
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expr_node * pFinalSizeExpr;
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BOOL fIsSigned;
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// Get the final size expression.
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// Make array believe it is actually on the marshall side, so that the
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// presented expression comes out right.
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pCCB->SetCodeGenPhase( CGPHASE_MARSHALL );
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pFinalSizeExpr = FinalSizeExpression( pCCB );
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fIsSigned = !((node_base_type *)pFinalSizeExpr->AlwaysGetType()->GetBasicType())->IsUnsigned();
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pFinalSizeExpr = new expr_b_arithmetic( OP_STAR,
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pFinalSizeExpr,
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pElementSizeExpr );
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// Allocate the proper size.
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// If the size expression is signed and the value is less than 0, we
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// need to raise an exception.
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if( pCCB->MustCheckBounds() && fIsSigned )
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{
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expr_node * pCheckExpr;
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pCheckExpr = new expr_op_binary( OP_LESS,
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pFinalSizeExpr,
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new expr_constant(0L));
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Out_If( pCCB, pCheckExpr);
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Out_RaiseException( pCCB, "RPC_X_INVALID_BOUND" );
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Out_Endif( pCCB );
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}
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Out_Alloc( pCCB,
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pCCB->GetSourceExpression(),
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0,
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pFinalSizeExpr );
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pCCB->SetCodeGenPhase( Phase );
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}
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if( IsArrayOfRefPointers() || fFixedArrayOfXmitOrRepAs )
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{
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// Zero out this array of pointers.
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expr_proc_call * pProc = new expr_proc_call( MIDL_MEMSET_RTN_NAME );
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pProc->SetParam( new expr_param( pCCB->GetSourceExpression() ) );
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pProc->SetParam( new expr_param( new expr_constant( 0L ) ) );
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pProc->SetParam( new expr_param( new expr_sizeof( GetType())));
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pCCB->GetStream()->NewLine();
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pProc->PrintCall( pCCB->GetStream(), 0, 0 );
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}
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return CG_OK;
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}
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expr_node *
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CG_CONFORMANT_ARRAY::PresentedSizeExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetSizeResource();
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}
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else
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{
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expr_node * pExpr = GetSizeIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_VARYING_ARRAY::PresentedLengthExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetLengthResource();
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}
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else
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{
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expr_node * pExpr = GetLengthIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_VARYING_ARRAY::PresentedFirstExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetFirstResource();
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}
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else
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{
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expr_node * pExpr = GetFirstIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_CONFORMANT_VARYING_ARRAY::PresentedSizeExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetSizeResource();
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}
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else
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{
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expr_node * pExpr = GetSizeIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_CONFORMANT_VARYING_ARRAY::PresentedLengthExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetLengthResource();
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}
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else
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{
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expr_node * pExpr = GetLengthIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_CONFORMANT_VARYING_ARRAY::PresentedFirstExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetFirstResource();
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}
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else
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{
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expr_node * pExpr = GetFirstIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_FIXED_ARRAY::PresentedSizeExpression(
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CCB *)
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{
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expr_node * pExpr = new expr_constant( GetSizeIsExpr()->Evaluate() );
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return pExpr;
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}
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expr_node *
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CG_STRING_ARRAY::PresentedSizeExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetSizeResource();
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}
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else
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{
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expr_node * pExpr = GetSizeIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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expr_node *
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CG_CONFORMANT_STRING_ARRAY::PresentedSizeExpression(
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CCB * pCCB )
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{
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if( pCCB->GetCodeGenPhase() == CGPHASE_UNMARSHALL )
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{
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return GetSizeResource();
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}
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else
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{
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expr_node * pExpr = GetSizeIsExpr();
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if( pExpr->IsConstant() )
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pExpr = new expr_constant( pExpr->Evaluate() );
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return pExpr;
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}
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}
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BOOL
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CG_ARRAY::IsArrayOfRefPointers()
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{
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CG_NDR * pCG = GetBasicCGClass();
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return ( pCG->IsPointer() &&
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!pCG->IsInterfacePointer() &&
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((CG_POINTER *)pCG)->IsRef() );
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}
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BOOL
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CG_ARRAY::MustBeAllocatedOnUnMarshall(
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CCB * pCCB )
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{
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BOOL fIsTopLevelArray = (pCCB->GetCurrentEmbeddingLevel() == 0) &&
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(pCCB->GetCurrentIndirectionLevel() == 0 );
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//
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// The array must be allocated if:
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// 1. Not a top level array on client or server.
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// 2. On the server side, if it is an array of ref pointers.
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// 3. Is not fixed.
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if(!fIsTopLevelArray ||
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((pCCB->GetCodeGenSide() == CGSIDE_SERVER) && IsArrayOfRefPointers()) ||
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!IsFixedArray()
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)
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return TRUE;
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else
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return FALSE;
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}
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CG_STATUS
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CG_ARRAY::GenRefChecks(
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CCB * pCCB )
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/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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Routine Description:
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Perform ref pointer checks on an array of ref pointers.
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Arguments:
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pCCB - The code gen block.
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Return Value:
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CG_OK
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Notes:
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----------------------------------------------------------------------------*/
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{
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if( IsArrayOfRefPointers() )
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{
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pCCB->SetSourceExpression(new expr_index(
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pCCB->GetSourceExpression(),
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GetIndexResource()));
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expr_node* pLenExpr = PresentedLengthExpression( pCCB );
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expr_node* pFirstExpr = PresentedFirstExpression( pCCB );
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expr_node* pFinalVal = 0;
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if ( pLenExpr )
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{
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pFinalVal = new expr_b_arithmetic( OP_PLUS, pFirstExpr, pLenExpr );
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}
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else
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{
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pFinalVal = PresentedSizeExpression( pCCB );
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}
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Out_For( pCCB,
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GetIndexResource(),
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pFirstExpr,
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pFinalVal,
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new expr_constant( 1L )
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);
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((CG_NDR *)GetChild())->GenRefChecks( pCCB );
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Out_EndFor( pCCB );
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}
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return CG_OK;
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}
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CG_STATUS
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CG_ARRAY::S_GenInitInLocals(
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CCB * pCCB )
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/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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Routine Description:
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Arguments:
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Return Value:
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CG_OK
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Notes:
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----------------------------------------------------------------------------*/
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{
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if( IsArrayOfRefPointers() && IsFixedArray() )
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{
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expr_node * pSrc = pCCB->GetSourceExpression();
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expr_node * InLocalResource = GetInLocalResource();
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expr_node * pExpr = new expr_assign(
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pSrc,
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MakeAddressExpressionNoMatterWhat(
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InLocalResource ));
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pCCB->GetStream()->NewLine();
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pExpr->PrintCall( pCCB->GetStream(), 0, 0 );
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pCCB->GetStream()->Write(';');
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expr_proc_call * pProc = new expr_proc_call( MIDL_MEMSET_RTN_NAME );
|
||
|
|
||
|
pProc->SetParam( new expr_param( pSrc ) );
|
||
|
pProc->SetParam( new expr_param( new expr_constant( 0L ) ) );
|
||
|
pProc->SetParam( new expr_param( new expr_sizeof( GetType())));
|
||
|
pCCB->GetStream()->NewLine();
|
||
|
pProc->PrintCall( pCCB->GetStream(), 0, 0 );
|
||
|
}
|
||
|
|
||
|
return CG_OK;
|
||
|
}
|