210 lines
5.1 KiB
C++
210 lines
5.1 KiB
C++
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//+-------------------------------------------------------------------------
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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: utility.cpp
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//
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//--------------------------------------------------------------------------
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//
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// utility.cpp: utility computation
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//
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#include <basetsd.h>
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#include <math.h>
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#include "utility.h"
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#include "infer.h"
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MBNET_ENTROPIC_UTILITY :: MBNET_ENTROPIC_UTILITY ( GOBJMBN_INFER_ENGINE & inferEng )
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: MBNET_NODE_RANKER( inferEng.Model() ),
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_inferEng( inferEng ),
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_propMgr( inferEng.Model() ),
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_cHypo(0),
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_cInfo(0)
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{
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_iLblHypo = _propMgr.ILblToUser( ESTDLBL_hypo );
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_iLblInfo = _propMgr.ILblToUser( ESTDLBL_info );
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_iLblProblem = _propMgr.ILblToUser( ESTDLBL_problem );
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BuildWorkItems();
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}
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//
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// Collect all informational, problem defining and hypothesis nodes
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// into a structure with additional working data.
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//
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void MBNET_ENTROPIC_UTILITY :: BuildWorkItems ()
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{
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ZSREF zsrPropTypeLabel = _propMgr.ZsrPropType( ESTDP_label );
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MODEL::MODELENUM mdlenum( Model() );
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_dquwrk.clear();
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_cHypo = 0;
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_cInfo = 0;
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UTILWORK uwDummy;
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GELEMLNK * pgelm;
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// Collect all the nodes into a pointer array. Three node labels
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// are collected: info and probdef nodes (considered as info)
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// and hypo nodes (considered as hypo).
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while ( pgelm = mdlenum.PlnkelNext() )
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{
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if ( pgelm->EType() != GOBJMBN::EBNO_NODE )
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continue;
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// We only support discrete nodes for now.
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DynCastThrow( pgelm, uwDummy._pgndd );
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// See if this is an expansion (created) node
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if ( uwDummy._pgndd->BFlag( EIBF_Expansion ) )
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continue; // not a user-identifiable artifact; skip it
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// See if it has a label
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PROPMBN * propLbl = uwDummy._pgndd->LtProp().PFind( zsrPropTypeLabel );
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if ( ! propLbl )
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continue; // no label; skip it
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uwDummy._iLbl = propLbl->Real();
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if ( uwDummy._iLbl == _iLblHypo )
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_cHypo++;
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else
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if ( uwDummy._iLbl == _iLblInfo || uwDummy._iLbl == _iLblProblem )
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_cInfo++;
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else
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continue; // not a label of interest
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// Initialize the other member variables
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uwDummy._rUtil = 0.0;
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uwDummy._iClamp = -1;
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// Put the item on the work queue
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_dquwrk.push_back( uwDummy );
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}
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}
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REAL MBNET_ENTROPIC_UTILITY :: RComputeHypoGivenInfo (
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UTILWORK & uwHypo,
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UTILWORK & uwInfo )
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{
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assert( uwHypo._iLbl == _iLblHypo );
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assert( uwInfo._iLbl != _iLblHypo );
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// Clamped nodes are irrelevant
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if ( uwHypo._iClamp >= 0 || uwInfo._iClamp >= 0 )
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return 0.0;
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REAL rUtilOfInfoForHypo = 0.0;
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int cState = uwInfo._pgndd->CState();
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int cStateHypo = uwHypo._pgndd->CState();
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MDVCPD mdvhi;
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REAL rp_h0 = uwHypo._dd[0]; // Probability of hypo node being normal
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for ( int istInfo = 0; istInfo < cState; istInfo++ )
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{
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// Get belief of hypo node given info state
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_inferEng.EnterEvidence( uwInfo._pgndd, CLAMP( true, istInfo, true ) );
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_inferEng.GetBelief( uwHypo._pgndd, mdvhi );
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REAL rp_h0xj = mdvhi[0]; // p(h0|xj)
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REAL rLogSum = 0.0;
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for ( int istHypo = 1; istHypo < cStateHypo; istHypo++ )
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{
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REAL rp_hi = uwHypo._dd[istHypo];
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REAL rp_hixj = mdvhi[istHypo];
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rLogSum += fabs( log(rp_hixj) - log(rp_h0xj) - log(rp_hi) + log(rp_h0) );
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}
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rUtilOfInfoForHypo += rLogSum * uwInfo._dd[istInfo];
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}
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// Clear evidence against info node
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_inferEng.EnterEvidence( uwInfo._pgndd, CLAMP() );
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return rUtilOfInfoForHypo;
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}
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DEFINEVP(UTILWORK);
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void MBNET_ENTROPIC_UTILITY :: ComputeWorkItems()
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{
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CLAMP clamp;
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VPUTILWORK vpuw; // Remember pointers to hypo items
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// Get unconditional beliefs of all relevant (unclamped) nodes
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for ( DQUTILWORK::iterator itdq = _dquwrk.begin();
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itdq != _dquwrk.end();
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itdq++ )
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{
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UTILWORK & ut = *itdq;
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ut._rUtil = 0.0;
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ut._iClamp = -1;
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// Remember the indicies of the hypo nodes
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if ( ut._iLbl == _iLblHypo )
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vpuw.push_back( & (*itdq) );
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// Get the current evidence for the node
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_inferEng.GetEvidence( ut._pgndd, clamp );
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// If node is unclamped,
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if ( ! clamp.BActive() )
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{
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// get unconditional probs, else
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_inferEng.GetBelief( ut._pgndd, ut._dd );
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}
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else
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{
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// remember clamped state (serves as marker)
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ut._iClamp = clamp.Ist();
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}
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}
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for ( itdq = _dquwrk.begin();
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itdq != _dquwrk.end();
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itdq++ )
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{
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UTILWORK & utInfo = *itdq;
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if ( utInfo._iLbl == _iLblHypo )
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continue;
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utInfo._rUtil = 0.0;
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for ( int ih = 0; ih < vpuw.size(); ih++ )
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{
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utInfo._rUtil += RComputeHypoGivenInfo( *vpuw[ih], utInfo );
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}
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}
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}
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void MBNET_ENTROPIC_UTILITY :: operator () ()
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{
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// Clear any old results
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Clear();
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if ( _cHypo == 0 || _cInfo == 0 )
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return; // Nothing to do
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// Compute all utilities
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ComputeWorkItems();
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// Sort the work queue by utility
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sort( _dquwrk.begin(), _dquwrk.end() );
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// Pour the information into the output work areas
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_vzsrNodes.resize(_cInfo);
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_vlrValues.resize(_cInfo);
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int iInfo = 0;
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for ( DQUTILWORK::reverse_iterator ritdq = _dquwrk.rbegin();
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ritdq != _dquwrk.rend();
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ritdq++ )
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{
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UTILWORK & ut = *ritdq;
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if ( ut._iLbl == _iLblHypo )
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continue;
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_vzsrNodes[iInfo] = ut._pgndd->ZsrefName();
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_vlrValues[iInfo++] = ut._rUtil;
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}
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assert( iInfo == _cInfo );
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}
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