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

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//+-------------------------------------------------------------------------
//
// Microsoft Windows
//
// Copyright (C) Microsoft Corporation, 1997 - 1998
//
// File: propmbn.cpp
//
//--------------------------------------------------------------------------
//
// PROPMBN.CPP
//
#include <basetsd.h>
#include <assert.h>
#include <string.h>
#include "gmprop.h"
#include "gmobj.h"
#include "algos.h"
GOBJMBN * GOBJPROPTYPE :: CloneNew (
MODEL & modelSelf,
MODEL & modelNew,
GOBJMBN * pgobjNew )
{
GOBJPROPTYPE * pgproptype;
if ( pgobjNew )
{
DynCastThrow( pgobjNew, pgproptype );
}
else
{
pgproptype = new GOBJPROPTYPE;
}
ASSERT_THROW( GOBJMBN::CloneNew( modelSelf, modelNew, pgproptype ),
EC_INTERNAL_ERROR,
"cloning failed to returned object pointer" );
pgproptype->_fType = _fType;
pgproptype->_zsrComment = modelNew.Mpsymtbl().intern( _zsrComment );
modelNew.Mpsymtbl().CloneVzsref( modelSelf.Mpsymtbl(),
_vzsrChoice,
pgproptype->_vzsrChoice );
return pgproptype;
}
PROPMBN :: PROPMBN ()
:_fType(0)
{
}
PROPMBN :: PROPMBN ( const PROPMBN & bnp )
{
self = bnp;
}
PROPMBN & PROPMBN :: operator = ( const PROPMBN & bnp )
{
_zsrPropType = bnp._zsrPropType;
_fType = bnp._fType;
_vzsrStrings = bnp._vzsrStrings;
_vrValues = bnp._vrValues;
return self;
}
void PROPMBN :: Init ( GOBJPROPTYPE & bnpt )
{
_zsrPropType = bnpt.ZsrefName();
_fType = bnpt.FPropType();
}
bool PROPMBN :: operator == ( const PROPMBN & bnp ) const
{
return _zsrPropType == bnp._zsrPropType;
}
bool PROPMBN :: operator < ( const PROPMBN & bnp ) const
{
return _zsrPropType < bnp._zsrPropType;
}
bool PROPMBN :: operator == ( ZSREF zsrProp ) const
{
return ZsrPropType() == zsrProp;
}
bool PROPMBN :: operator == ( SZC szcProp ) const
{
return ::strcmp( szcProp, ZsrPropType().Szc() ) == 0;
}
UINT PROPMBN :: Count () const
{
if ( _fType & fPropString )
return _vzsrStrings.size();
else
return _vrValues.size();
}
ZSREF PROPMBN :: Zsr ( UINT i ) const
{
if ( ((_fType & fPropArray) == 0 && i > 0)
|| (_fType & fPropString) == 0)
throw GMException(EC_PROP_MISUSE,"not a string property or not an array");
if ( i >= _vzsrStrings.size() )
throw GMException(EC_PROP_MISUSE,"property index out of range");
return _vzsrStrings[i];
}
REAL PROPMBN :: Real ( UINT i ) const
{
if ( ((_fType & fPropArray) == 0 && i > 0)
|| (_fType & fPropString) )
throw GMException(EC_PROP_MISUSE,"not a numeric property or not an array");
if ( i >= _vrValues.size() )
throw GMException(EC_PROP_MISUSE,"property index out of range");
return _vrValues[i];
}
void PROPMBN :: Reset ()
{
_vrValues.clear();
_vzsrStrings.clear();
}
void PROPMBN :: Set ( ZSREF zsr )
{
if ( (_fType & fPropString) == 0 )
throw GMException(EC_PROP_MISUSE,"not a string property");
Reset();
_vzsrStrings.push_back(zsr);
}
void PROPMBN :: Set ( REAL r )
{
if ( _fType & fPropString )
throw GMException(EC_PROP_MISUSE,"not a numeric property");
Reset();
_vrValues.push_back(r);
}
void PROPMBN :: Add ( ZSREF zsr )
{
if ( (_fType & (fPropArray | fPropString)) == 0 )
throw GMException(EC_PROP_MISUSE,"not a string array property");
_vzsrStrings.push_back(zsr);
}
void PROPMBN :: Add ( REAL r )
{
if ( (_fType & fPropArray) == 0 )
throw GMException(EC_PROP_MISUSE,"not a numeric array property");
_vrValues.push_back(r);
}
PROPMBN * LTBNPROP :: PFind ( ZSREF zsrProp )
{
iterator itlt = find( begin(), end(), zsrProp );
if ( itlt == end() )
return NULL;
return & (*itlt);
}
const PROPMBN * LTBNPROP :: PFind ( ZSREF zsrProp ) const
{
const_iterator itlt = find( begin(), end(), zsrProp );
if ( itlt == end() )
return NULL;
return & (*itlt);
}
bool LTBNPROP :: Update ( const PROPMBN & bnp )
{
PROPMBN * pprop = PFind( bnp.ZsrPropType() );
if ( pprop )
*pprop = bnp;
else
push_back( bnp );
return pprop != NULL;
}
// Force the list to contain only unique elements. Note that
// the act of sorting and uniquing will discard duplicates randomly.
bool LTBNPROP :: Uniqify ()
{
int cBefore = size();
sort();
unique();
return size() == cBefore;
}
// Clone from another list with another symbol table
void LTBNPROP :: Clone (
MODEL & model,
const MODEL & modelOther,
const LTBNPROP & ltbnOther )
{
for ( const_iterator itlt = ltbnOther.begin(); itlt != ltbnOther.end(); itlt++ )
{
const PROPMBN & prpOther = (*itlt);
// Note that the dynamic cast below will test for failure to
// find property type object
GOBJMBN * pgobj = model.PgobjFind( prpOther.ZsrPropType() );
ASSERT_THROW( pgobj != NULL,
EC_INTERNAL_ERROR,
"missing property type in target network during cloning" );
GOBJPROPTYPE * pgobjPropType;
DynCastThrow( pgobj, pgobjPropType );
PROPMBN prp;
prp.Init( *pgobjPropType );
model.Mpsymtbl().CloneVzsref( modelOther.Mpsymtbl(),
prpOther._vzsrStrings,
prp._vzsrStrings );
prp._vrValues = prpOther._vrValues;
push_back( prp );
}
}
static
struct MPVOIPROPSZC
{
ESTDPROP _eProp;
SZC _szcProp;
}
vVoiProp [] =
{
{ ESTDP_label, "MS_label" },
{ ESTDP_cost_fix, "MS_cost_fix" },
{ ESTDP_cost_observe, "MS_cost_observe" },
{ ESTDP_category, "MS_category" },
{ ESTDP_normalState, "MS_normalState" },
{ ESTDP_max, NULL }
};
static
struct MPLBLSZC
{
ESTDLBL _eLbl;
SZC _szcLbl;
}
vLblSzc [] =
{
{ ESTDLBL_other, "other" },
{ ESTDLBL_hypo, "hypothesis" },
{ ESTDLBL_info, "informational" },
{ ESTDLBL_problem, "problem" },
{ ESTDLBL_fixobs, "fixobs" },
{ ESTDLBL_fixunobs, "fixunobs" },
{ ESTDLBL_unfix, "unfixable" },
{ ESTDLBL_config, "configuration" },
{ ESTDLBL_max, NULL }
};
SZC PROPMGR :: SzcLbl ( int iLbl )
{
SZC szcOther = NULL;
for ( int i = 0; vLblSzc[i]._szcLbl; i++ )
{
if ( vLblSzc[i]._eLbl == iLbl )
return vLblSzc[i]._szcLbl;
if ( vLblSzc[i]._eLbl == ESTDLBL_other )
szcOther = vLblSzc[i]._szcLbl;
}
return szcOther;
}
PROPMGR :: PROPMGR ( MODEL & model )
: _model(model)
{
// Locate all the standard property types; save their
// name references whether or not they've been declared.
SZC szcProp;
for ( int i = 0; szcProp = vVoiProp[i]._szcProp ; i++ )
{
GOBJPROPTYPE * ppt = NULL;
_vzsrPropType.push_back( _model.Mpsymtbl().intern( szcProp ) );
GOBJMBN * pgobj = _model.PgobjFind( szcProp );
if ( pgobj )
{
if ( pgobj->EType() == GOBJMBN::EBNO_PROP_TYPE )
{
DynCastThrow( pgobj, ppt );
}
}
_vPropMap[i] = ppt;
}
// If we found "MS_label", prepare the correspondence table
GOBJPROPTYPE * pptLabel = _vPropMap[ESTDP_label];
if ( pptLabel && (pptLabel->FPropType() & fPropChoice) > 0 )
{
SZC szcChoice;
const VZSREF & vzsr = pptLabel->VzsrChoice();
_vUserToLbl.resize( vzsr.size() );
// Clear the user-to-standard-label map
for ( i = 0; i < _vUserToLbl.size(); )
_vUserToLbl[i++] = -1;
for ( i = 0; szcChoice = vLblSzc[i]._szcLbl; i++ )
{
int iLbl = -1;
ZSREF zsrChoice = _model.Mpsymtbl().intern( szcChoice );
for ( int j = 0; j < vzsr.size(); j++ )
{
if ( zsrChoice == vzsr[j] )
{
iLbl = j;
// Mark which standard label this user element corresponds to
_vUserToLbl[iLbl] = i;
break;
}
}
// Mark which user element this standard label corresponds to
_vLblToUser[i] = iLbl;
}
}
else
{ // Clear the correspondence information
for ( i = 0; i < ESTDLBL_max; i++ )
{
_vLblToUser[i] = -1;
}
}
}
GOBJPROPTYPE * PROPMGR :: PPropType ( ESTDPROP evp )
{
return _vPropMap[evp];
}
// Return the name of the standard property
ZSREF PROPMGR :: ZsrPropType ( ESTDPROP evp )
{
ASSERT_THROW( evp >= 0 && evp < ESTDP_max,
EC_INTERNAL_ERROR,
"invalid property type usage" );
return _vzsrPropType[evp];
}
// Find a standard property in a property list
PROPMBN * PROPMGR :: PFind ( LTBNPROP & ltprop, ESTDPROP estd )
{
return ltprop.PFind( ZsrPropType(estd) ) ;
}
// Find a standard property in the associated model's property list
PROPMBN * PROPMGR :: PFind ( ESTDPROP estd )
{
return _model.LtProp().PFind( ZsrPropType(estd) ) ;
}
// Find a standard property in a node's property list
PROPMBN * PROPMGR :: PFind ( GNODEMBN & gnd, ESTDPROP estd )
{
return gnd.LtProp().PFind( ZsrPropType(estd) ) ;
}