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561 lines
14 KiB
561 lines
14 KiB
//+-------------------------------------------------------------------------
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//
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// Microsoft Windows
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//
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// Copyright (C) Microsoft Corporation, 1997 - 1998
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//
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// File: gnodembn.cpp
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//
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//--------------------------------------------------------------------------
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//
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// GNODEMBN.CPP
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//
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#include <basetsd.h>
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#include <typeinfo.h>
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#include "gmobj.h"
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#include "cliqset.h"
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#include "clique.h"
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#include "algos.h"
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#include "domain.h"
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/*****************************************************************************************
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Cloning and cloning functions.
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There are two types of cloning member functions:
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1) functions named "Clone", in which the new object is being
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asked to initialize itself from another existing object.
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This is not a copy constructor due to the complexity of timing
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chained construcions.
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2) functions named "CloneNew", in which an existing object is being
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asked to participate in the construction of a new object.
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Functions of type #1 are straightforward, such as
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virtual void MODEL :: Clone ( MODEL & model );
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Here, a MODEL is being asked to clone or copy information from an existing
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network into itself. The object can place whatever restrictions it would like
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on such functions. For example, the MODEL class requires that the new MODEL
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object be entirely empty.
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Functions of type #2 are more complex, such as
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virtual GOBJMBN * GOBJMBN :: CloneNew ( MBNET & mbnetSelf,
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MBNET & mbnetNew,
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GOBJMBN * pgobjNew = NULL );
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In this case, there are references to the original and clone networks (MBNETs),
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and a pointer to the newly constructed object, which may be NULL. Consider a
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chain of inheritance such as:
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class OBJ;
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class SUB_OBJ : public OBJ;
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class SUB_SUB_OBJ : public SUB_OBJ;
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If a new SUB_SUB_OBJ is to be cloned from an existing one, an empty object must
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be constructed first. Then the CloneNew() function the original SUB_SUB_OBJ is
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called. At this point, there's a choice: does the SUB_SUB_OBJ perform all the
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initialization for all base classes, or should it defer data member cloning
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to its base classes? We use the latter approach, as C++ itself does for
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construction and destruction.
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So, at the top level of object cloning, the initial invocation of CloneNew() will
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usually have a NULL object pointer. Each CloneNew() function must check for this,
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and either create a new object, if allowed, or throw an exception. It will
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then call the CloneNew() function for its immediate ancestral base class using the
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new pointer. The ancestral CloneNew() function will see that there already is a
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pointer and simply use it.
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In other words, the Clone() member functions are simple "build yourself from
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another" commands. The CloneNew() functions collaborate with all ancestral base
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classes to correctly construct an object with interdependencies. Note that
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the semantics (source vs. target) are reversed.
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The bulk of the complexity in cloning an MBNET or MODEL (or subclass) arises from
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the internal string symbol table and the storage of references to strings throughout
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the set of associated objects.
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*****************************************************************************************/
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// MSRDEVBUG: This should not be required since it's pure virtual, but VC++ 5.0 gets confused.
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GOBJMBN :: ~ GOBJMBN ()
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{
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}
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GOBJMBN * GOBJMBN :: CloneNew (
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MODEL & modelSelf,
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MODEL & modelNew,
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GOBJMBN * pgobjNew )
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{
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// If we're expected to create the object, that's a no-no; throw an exception
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if ( pgobjNew == NULL )
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{
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ThrowInvalidClone( self );
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}
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// Update class-specific member variables
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pgobjNew->IMark() = IMark();
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pgobjNew->IType() = IType();
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// Convert and assign the name, if any
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if ( ZsrefName()->length() > 0 )
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{
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pgobjNew->SetName( modelNew.Mpsymtbl().intern( ZsrefName().Szc() ) ) ;
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}
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// Handle other variables
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pgobjNew->_vFlags = _vFlags;
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return pgobjNew;
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}
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GNODEMBN :: GNODEMBN()
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:_iTopLevel(-1)
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{
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IType() = 0;
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}
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GNODEMBN :: ~ GNODEMBN()
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{
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}
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GOBJMBN * GNODEMBN :: CloneNew (
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MODEL & modelSelf,
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MODEL & modelNew,
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GOBJMBN * pgobjNew )
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{
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GNODEMBN * pgnd = NULL;
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if ( pgobjNew == NULL )
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{
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pgnd = new GNODEMBN;
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}
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else
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{
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DynCastThrow( pgobjNew, pgnd );
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}
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ASSERT_THROW( GOBJMBN::CloneNew( modelSelf, modelNew, pgnd ),
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EC_INTERNAL_ERROR,
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"cloning failed to returned object pointer" );
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// Update class-specific member variables
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pgnd->_iTopLevel = _iTopLevel;
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pgnd->_ltProp.Clone( modelNew, modelSelf, _ltProp );
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pgnd->_ptPos = _ptPos;
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pgnd->_zsFullName = _zsFullName;
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pgnd->_clampIface = _clampIface;
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return pgnd;
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}
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GOBJMBN * GNODEMBND :: CloneNew (
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MODEL & modelSelf,
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MODEL & modelNew,
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GOBJMBN * pgobjNew )
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{
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GNODEMBND * pgndd = NULL;
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if ( pgobjNew == NULL )
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{
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pgndd = new GNODEMBND;
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}
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else
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{
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DynCastThrow( pgobjNew, pgndd );
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}
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ASSERT_THROW( GNODEMBN::CloneNew( modelSelf, modelNew, pgndd ),
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EC_INTERNAL_ERROR,
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"cloning failed to returned object pointer" );
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// Update class-specific member variables
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modelNew.Mpsymtbl().CloneVzsref( modelSelf.Mpsymtbl(), _vzsrState, pgndd->_vzsrState );
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return pgndd;
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}
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void GNODEMBN :: Visit ( bool bUpwards /* = true */ )
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{
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if ( IMark() )
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return;
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INT iMarkMax = 0;
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GNODENUM<GNODEMBN> benum( bUpwards );
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benum.SetETypeFollow( GEDGEMBN::ETPROB );
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for ( benum.Set( this );
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benum.PnodeCurrent();
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benum++ )
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{
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GNODEMBN * pgndbn = *benum;
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pgndbn->Visit( bUpwards );
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if ( pgndbn->IMark() > iMarkMax )
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iMarkMax = pgndbn->IMark();
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}
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IMark() = iMarkMax + 1;
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}
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//
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// Fill array with parent pointers (follow directed arcs)
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//
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// About network "expansion". When CI expansion occurs, nodes
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// affected are marked with the flag "EIBF_Expanded". This routine
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// normally does one of two things:
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//
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// If the node is expanded, only parents marked as "EIBF_Expansion"
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// are considered as real parents.
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//
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// If the node is not marked, only parents which are not marked as
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// "expansion" are considered.
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//
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// This can be overridden with the "bUseExpansion" flag, in which case
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// the original (pre-expansion) parents will be delivered.
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//
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void GNODEMBN :: GetParents (
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VPGNODEMBN & vpgnode, // Result array
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bool bIncludeSelf, // If true, place self as last entry in list
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bool bUseExpansion ) // If true, consider expansion information
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{
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// If requested, and if this node is part of network expansion, only
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// consider expansion parents. Otherwise, ignore them and only use real
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// parents.
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bool bOnlyUseExpansionParents =
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bUseExpansion && BFlag( EIBF_Expanded ) ;
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// Prepare to iterate over the parents
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GNODENUM<GNODEMBN> benumparent(true);
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benumparent.SetETypeFollow( GEDGEMBN::ETPROB );
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for ( benumparent.Set( this );
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benumparent.PnodeCurrent();
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benumparent++ )
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{
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GNODEMBN * pgndParent = *benumparent;
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bool bExpansion = pgndParent->BFlag( EIBF_Expansion );
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if ( bOnlyUseExpansionParents ^ bExpansion )
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continue;
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vpgnode.push_back( pgndParent );
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}
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if ( bIncludeSelf )
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vpgnode.push_back( this );
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}
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// Return the discrete dimension vector of this node if possible;
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// return false if any parent is not discrete.
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bool GNODEMBND :: BGetVimd (
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VIMD & vimd, // Array to fill
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bool bIncludeSelf, // Place self as last entry in list
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bool bUseExpansion ) // If expanded, use expansion only
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{
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// Get the parents according to the flags
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VPGNODEMBN vpgndParents;
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GetParents( vpgndParents, bIncludeSelf, bUseExpansion );
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// Prepare the result array
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vimd.resize( vpgndParents.size() );
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for ( int i = 0; i < vimd.size(); i++ )
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{
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// See if the next node is discrete; return false if not
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GNODEMBND * pgnddParent = dynamic_cast<GNODEMBND *> (vpgndParents[i]);
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if ( pgnddParent == NULL )
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return false;
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// Add to the dimension array
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assert( pgnddParent->IType() & FND_Discrete );
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vimd[i] = pgnddParent->CState();
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}
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return true;
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}
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// Fill array with child pointers (follow directed arcs)
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void GNODEMBN :: GetChildren ( VPGNODEMBN & vpgnode, bool bIncludeSelf )
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{
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// Prepare to iterate over the children
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GNODENUM<GNODEMBN> benumchild(false);
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benumchild.SetETypeFollow( GEDGEMBN::ETPROB );
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for ( benumchild.Set( this );
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benumchild.PnodeCurrent();
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benumchild++ )
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{
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vpgnode.push_back( *benumchild );
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}
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if ( bIncludeSelf )
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vpgnode.push_back( this );
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}
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// Fill array with neighbors (follow undirected arcs)
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void GNODEMBN :: GetNeighbors ( VPGNODEMBN & vpgnode, bool bIncludeSelf )
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{
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// Iterate over all connections to the source node.
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// That is, arcs in either direction.
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GNODENUM_UNDIR gnenumUndir;
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// Initialize the iterator
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for ( gnenumUndir = this;
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gnenumUndir.PnodeCurrent();
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gnenumUndir++ )
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{
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vpgnode.push_back( *gnenumUndir );
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}
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if ( bIncludeSelf )
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vpgnode.push_back( this );
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}
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int GNODEMBN :: IParent ( GNODEMBN * pgndmb, bool bReverse )
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{
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// Prepare to iterate over the parents
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GNODENUM<GNODEMBN> benumparent( true, ! bReverse );
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benumparent.SetETypeFollow( GEDGEMBN::ETPROB );
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int iParent = 0;
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for ( benumparent.Set(this);
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benumparent.PnodeCurrent();
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benumparent++, iParent++ )
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{
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if ( *benumparent == pgndmb )
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return iParent;
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}
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return -1;
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}
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int GNODEMBN :: IChild ( GNODEMBN * pgndmb, bool bReverse )
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{
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// Prepare to iterate over the children
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GNODENUM<GNODEMBN> benumchild( false, ! bReverse );
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benumchild.SetETypeFollow( GEDGEMBN::ETPROB );
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int iChild = 0;
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for ( benumchild.Set(this);
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benumchild.PnodeCurrent();
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benumchild++ )
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{
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if ( *benumchild == pgndmb )
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return iChild;
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}
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return -1;
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}
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bool GNODEMBN :: BIsNeighbor ( GNODEMBN * pgndmb )
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{
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GNODENUM_UNDIR gnenumUndir;
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for ( gnenumUndir = this;
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gnenumUndir.PnodeCurrent();
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gnenumUndir++ )
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{
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if ( *gnenumUndir == pgndmb )
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return true;
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}
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return false;
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}
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void GNODEMBN :: GetVtknpd ( VTKNPD & vtknpd, bool bUseExpansion )
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{
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VPGNODEMBN vpgnodeParent;
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GetParents(vpgnodeParent, false, bUseExpansion);
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vtknpd.clear();
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vtknpd.push_back( TKNPD(DTKN_PD) );
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vtknpd.push_back( TKNPD( ZsrefName() ) );
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for ( int ip = 0; ip < vpgnodeParent.size(); ip++ )
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{
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if ( ip > 0 )
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vtknpd.push_back( TKNPD(DTKN_AND) );
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else
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vtknpd.push_back( TKNPD(DTKN_COND) );
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vtknpd.push_back( TKNPD(vpgnodeParent[ip]->ZsrefName()) );
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}
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}
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bool GNODEMBN :: BMatchTopology (
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MBNET & mbnet,
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const VTKNPD & vtknpd,
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VPGNODEMBN * pvpgnode )
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{
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// Guarantee that the descriptor is of the form "p(X|...)"
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if ( vtknpd.size() < 2
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|| vtknpd[0] != TKNPD(DTKN_PD)
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|| ! vtknpd[1].BStr() )
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throw GMException( EC_INV_PD, "invalid token description on PD");
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VTKNPD vtknpdSelf;
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GetVtknpd( vtknpdSelf );
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if ( vtknpdSelf == vtknpd )
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return true;
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#ifdef _DEBUG
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{
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ZSTR zs1 = vtknpd.ZstrSignature(0);
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ZSTR zs2 = vtknpdSelf.ZstrSignature(0);
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cout << "\nGNODEMBN::BMatchTopology mismatch: "
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<< "\n\tExpected "
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<< zs1
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<< "\n\tComputed "
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<< zs2
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;
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}
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#endif
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return false;
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}
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void GNODEMBN :: Dump ()
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{
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cout << "\t(toplev: "
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<< ITopLevel()
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<< "): "
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<< ZsrefName().Szc();
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int iParent = 0;
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GNODENUM<GNODEMBN> benumparent(true);
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benumparent.SetETypeFollow( GEDGEMBN::ETPROB );
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for ( benumparent.Set(this);
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benumparent.PnodeCurrent();
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benumparent++ )
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{
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GNODEMBN * pgndbnParent = *benumparent;
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if ( iParent++ == 0 )
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cout << ", parents: ";
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cout << pgndbnParent->ZsrefName().Szc()
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<< ',';
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}
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}
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GNODEMBND :: GNODEMBND ()
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{
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IType() = FND_Valid | FND_Discrete ;
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}
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GNODEMBND :: ~ GNODEMBND ()
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{
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ClearDist();
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}
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void GNODEMBND :: Dump ()
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{
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GNODEMBN::Dump();
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if ( BHasDist() && Bndist().Edist() != BNDIST::ED_NONE )
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{
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cout << "\n\tprobability distribution of "
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<< ZsrefName().Szc()
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<< ": ";
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Bndist().Dump();
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}
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}
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// Find the distribution for this node recorded in the belief network's
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// distribution map.
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void GNODEMBND :: SetDist ( MBNET & mbnet )
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{
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ClearDist();
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// Construct the token array describing the distribution
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VTKNPD vtknpd;
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GetVtknpd( vtknpd );
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// Locate that distribution in the belief network's map
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MPPD::iterator itmppd = mbnet.Mppd().find( vtknpd );
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ASSERT_THROW( itmppd != mbnet.Mppd().end(),
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EC_INTERNAL_ERROR,
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"missing distribution for node" );
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// Set this node to use that distribution
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_refbndist = (*itmppd).second;
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assert( BHasDist() );
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}
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// Bind the given distribution this node
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void GNODEMBND :: SetDist ( BNDIST * pbndist )
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{
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#ifdef _DEBUG
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if ( pbndist )
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{
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// Check that the last dimension is the correct size.
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int cDims = pbndist->VimdDim().size();
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assert( pbndist->VimdDim()[cDims-1] == CState() );
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}
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#endif
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_refbndist = pbndist;
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}
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// Check that the dimensionality of the distribution matches that of
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// the node itself according to the dag topology.
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bool GNODEMBND :: BCheckDistDense ()
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{
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// Get the array of parents
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VPGNODEMBN vpgndParents;
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GetParents( vpgndParents );
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VIMD vimd( vpgndParents.size() + 1 );
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for ( int idim = 0; idim < vimd.size() - 1; idim++ )
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{
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GNODEMBND * pgndd;
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assert( vpgndParents[idim] );
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DynCastThrow( vpgndParents[idim], pgndd );
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vimd[idim] = pgndd->CState();
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}
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vimd[idim] = CState();
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MDVCPD & mdv = Bndist().Mdvcpd();
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return mdv.VimdDim() == vimd;
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}
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void GNODEMBND :: SetDomain ( const GOBJMBN_DOMAIN & gobjrdom )
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{
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// Copy the state names from the domain to the variable
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const RDOMAIN & rdom = gobjrdom.Domain();
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RDOMAIN::const_iterator itdm = rdom.begin();
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_vzsrState.resize( rdom.size() );
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for ( int i = 0; itdm != rdom.end(); itdm++ )
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{
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const RANGEDEF & rdef = *itdm;
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_vzsrState[i++] = rdef.ZsrName();
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}
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_zsrDomain = gobjrdom.ZsrefName();
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}
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//
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// Usage of this function without a new object implies that the
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// subclassed target object does not correctly support "CloneNew".
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// Throw a cloning exception in this case.
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//
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GEDGEMBN * GEDGEMBN :: CloneNew (
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MODEL & modelSelf,
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MODEL & modelNew,
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GOBJMBN * pgobjmbnSource,
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GOBJMBN * pgobjmbnSink,
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GEDGEMBN * pgedgeNew )
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{
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if ( pgedgeNew == NULL )
|
|
{
|
|
ThrowInvalidClone( self );
|
|
}
|
|
pgedgeNew->_vFlags = _vFlags;
|
|
return pgedgeNew;
|
|
}
|
|
|
|
|
|
GEDGEMBN * GEDGEMBN_PROB :: CloneNew (
|
|
MODEL & modelSelf,
|
|
MODEL & modelNew,
|
|
GOBJMBN * pgobjmbnSource,
|
|
GOBJMBN * pgobjmbnSink,
|
|
GEDGEMBN * pgdegeNew )
|
|
{
|
|
assert( EType() == ETPROB );
|
|
GNODEMBN * pgndSource;
|
|
GNODEMBN * pgndSink;
|
|
|
|
DynCastThrow( pgobjmbnSource, pgndSource );
|
|
DynCastThrow( pgobjmbnSink, pgndSink );
|
|
|
|
GEDGEMBN_PROB * pgedge = new GEDGEMBN_PROB( pgndSource, pgndSink );
|
|
ASSERT_THROW( GEDGEMBN::CloneNew( modelSelf, modelNew, pgndSource, pgndSink, pgedge ),
|
|
EC_INTERNAL_ERROR,
|
|
"cloning failed to returned object pointer" );
|
|
return pgedge;
|
|
}
|
|
|
|
bool BNWALKER :: BSelect ( GNODEMBN * pgn )
|
|
{
|
|
return true;
|
|
}
|
|
|
|
bool BNWALKER :: BMark ( GNODEMBN * pgn )
|
|
{
|
|
return true;
|
|
}
|
|
|