windows-nt/Source/XPSP1/NT/enduser/troubleshoot/bn/bndist.new.cpp

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2020-09-26 03:20:57 -05:00
//+-------------------------------------------------------------------------
//
// Microsoft Windows
//
// Copyright (C) Microsoft Corporation, 1997 - 1999
//
// File: bndist.cpp
//
//--------------------------------------------------------------------------
//
// BNDIST.CPP
//
#include <basetsd.h>
#include <iostream>
#include <fstream>
#include "symtmbn.h"
LEAK_VAR_DEF(BNDIST)
static void dumpVimd ( const VIMD & vimd )
{
for ( int i = 0 ; i < vimd.size(); i++ )
{
cout << vimd[i];
if ( i + 1 < vimd.size() )
cout << ",";
}
}
static void dumpVlr ( const VLREAL & vlr )
{
for ( int i = 0 ; i < vlr.size(); i++ )
{
cout << vlr[i];
if ( i + 1 < vlr.size() )
cout << ",";
}
}
static void dumpSlice ( const MDVSLICE & mslice, bool bStrides = true)
{
VIMD vimdLengths = mslice.size();
VIMD vimdStrides = mslice.stride();
size_t iStart = mslice.start();
cout << "\nslice start="
<< (UINT) iStart
<< "\tlengths=";
dumpVimd( vimdLengths );
if ( bStrides )
{
cout << "\tstrides=" ;
dumpVimd( vimdStrides );
}
cout << "\ttotlen="
<< (UINT) mslice._Totlen();
}
static void dumpMdv ( MDVCPD & mdv, const MDVSLICE * pslice = NULL )
{
if ( pslice == NULL )
pslice = & mdv.Slice();
dumpSlice( *pslice );
MDVCPD::Iterator itmd(mdv, *pslice );
while (itmd.BNext())
{
size_t icurr = itmd.ICurr();
cout << "\n";
dumpVimd( itmd.Vitmd() );
REAL & r = itmd.Next();
cout << "\t["
<< (UINT) icurr
<< "] = "
<< r ;
}
cout << "\n";
}
BNDIST :: BNDIST ()
:_edist(ED_NONE),
_pmdvcpd(NULL),
_mpcpdd(NULL)
{
LEAK_VAR_UPD(1)
}
BNDIST :: ~ BNDIST ()
{
Clear();
LEAK_VAR_UPD(-1)
}
void BNDIST :: NoRef ()
{
delete this;
}
BNDIST & BNDIST :: operator = ( const BNDIST & bnd )
{
Clear();
switch ( _edist = bnd._edist )
{
default:
case ED_NONE:
break;
case ED_DENSE:
_pmdvcpd = new MDVCPD( bnd.Mdvcpd() );
assert( _pmdvcpd->first.size() == bnd.Mdvcpd().first.size() );
break;
case ED_CI_MAX:
case ED_CI_PLUS:
case ED_SPARSE:
_mpcpdd = new MPCPDD( bnd.Mpcpdd() ) ;
assert( _mpcpdd->size() == bnd.Mpcpdd().size() );
break;
}
return self;
}
BNDIST :: BNDIST ( const BNDIST & bnd )
:_edist(ED_NONE),
_pmdvcpd(NULL),
_mpcpdd(NULL)
{
(*this) = bnd;
LEAK_VAR_UPD(1)
}
bool BNDIST :: BChangeSubtype ( EDIST edist )
{
if ( BDenseType(edist) ^ BDense() )
return false;
_edist = edist;
return true;
}
void BNDIST :: Dump ()
{
if ( _pmdvcpd )
{
cout << "\n\tDense version:";
DumpDense();
}
if ( _mpcpdd )
{
cout << "\n\tSparse version:";
DumpSparse();
}
cout << "\n\n";
}
void BNDIST :: DumpSparse ()
{
assert( _mpcpdd );
MPCPDD & dmap = *_mpcpdd;
int i = 0;
for ( MPCPDD::iterator itdm = dmap.begin();
itdm != dmap.end();
++itdm, ++i )
{
const VIMD & vimd = (*itdm).first;
const VLREAL & vlr = (*itdm).second;
cout << "\n["
<< i
<< "] (";
dumpVimd(vimd);
cout << ")\t";
dumpVlr(vlr);
}
}
void BNDIST :: DumpDense ()
{
assert( _pmdvcpd );
dumpMdv( *_pmdvcpd );
}
void BNDIST :: ConvertToDense ( const VIMD & vimd )
{
assert( _edist == ED_NONE || _edist == ED_SPARSE );
if ( _edist == ED_NONE )
{
assert( ! _mpcpdd );
return;
}
// See if there is a sparse distribution to convert
if ( ! _mpcpdd )
throw GMException( EC_DIST_MISUSE, "no prior sparse distribution to convert" );
int cParent = vimd.size() - 1;
int cState = vimd[cParent];
MPCPDD & dmap = *_mpcpdd;
VIMD vimdMt; // Empty subscript array
VLREAL vlrDefault(cState); // Default value array
// First, try to find the default entry; use -1 if not found
MPCPDD::iterator itdm = dmap.find(vimdMt);
if ( itdm != dmap.end() )
vlrDefault = (*itdm).second;
else
vlrDefault = -1; // fill the array with -1.
assert( vlrDefault.size() == cState );
// Allocate the new dense m-d array
delete _pmdvcpd;
_pmdvcpd = new MDVCPD( vimd );
MDVCPD & mdv = *_pmdvcpd;
// Fill each DPI with the appropriate default value
MDVCPD::Iterator itmdv(mdv);
for ( int iState = 0; itmdv.BNext() ; iState++ )
{
itmdv.Next() = vlrDefault[ iState % cState ];
}
//
// Now, iterate over the sparse array and store in the appropriate locations.
// Each entry in the sparse map is a complete state set for the target node.
// Since the child (target) node probabilities are the fastest varying subscript,
// each entry in sparse map is spread across "cState" entries in the dense map.
//
// Of course, this could be more efficient, but we're just testing for now.
//
VIMD vimdDense(vimd.size());
for ( itdm = dmap.begin(); itdm != dmap.end() ; ++itdm )
{
const VIMD & vimdSub = (*itdm).first;
VLREAL & vlrNext = (*itdm).second;
for ( int ip = 0 ; ip < cParent; ip++ )
{
vimdDense[ip] = vimdSub[ip];
}
for ( int ist = 0 ; ist < cState; ++ist )
{
vimdDense[cParent] = ist;
mdv[vimdDense] = vlrNext[ist];
}
}
// Finally, nuke the old sparse distribution
delete _mpcpdd;
_mpcpdd = NULL;
// Set distribution type
_edist = ED_DENSE;
}
// Set distribution to "dense"
void BNDIST :: SetDense ( const VIMD & vimd )
{
Clear();
_vimdDim = vimd;
_pmdvcpd = new MDVCPD( vimd );
_edist = ED_DENSE;
}
// Set distribution to sparse
void BNDIST :: SetSparse ( const VIMD & vimd )
{
Clear();
_vimdDim = vimd;
_mpcpdd = new MPCPDD;
_edist = ED_SPARSE;
}
// Return the "leak" or "default" vector from a sparse distribution
const VLREAL * BNDIST :: PVlrLeak () const
{
assert( BSparse() );
const MPCPDD & dmap = Mpcpdd();
const VIMD & vimdDim = VimdDim();
VIMD vimdLeak;
// First try to find the dimensionless "default" vector.
const VLREAL * pvlrDefault = dmap.PVlrDefault();
// Now try to find a specific zeroth vector; note that valarray<T>::resize
// stores all zeroes into the valarray by default. Also, skip the
// loweest dimension, since that's the size of each vector in the
// sparse map.
vimdLeak.resize( vimdDim.size() - 1 );
VLREAL * pvlrLeak = NULL;
//MPCPDD::iterator itdm = dmap.find( vimdLeak );
MPCPDD::const_iterator itdm = dmap.find( vimdLeak );
if ( itdm != dmap.end() )
//pvlrLeak = & (*itdm).second;
pvlrLeak = (VLREAL*)& (*itdm).second;
return pvlrLeak
? pvlrLeak
: pvlrDefault;
}
void BNDIST :: Clone ( const BNDIST & bndist )
{
ASSERT_THROW( _edist == ED_NONE,
EC_INVALID_CLONE,
"cannot clone into non-empty structure" );
self = bndist;
}