/*******************************************************************************
* Copyright 2013-2015 Analog Devices, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
********************************************************************************/
package com.analog.lyric.dimple.solvers.gibbs.customFactors;
import static java.util.Objects.*;
import java.util.HashSet;
import java.util.Set;
import org.eclipse.jdt.annotation.Nullable;
import com.analog.lyric.dimple.factorfunctions.ExchangeableDirichlet;
import com.analog.lyric.dimple.factorfunctions.core.FactorFunction;
import com.analog.lyric.dimple.model.core.EdgeState;
import com.analog.lyric.dimple.model.factors.Factor;
import com.analog.lyric.dimple.solvers.core.parameterizedMessages.DirichletParameters;
import com.analog.lyric.dimple.solvers.gibbs.GibbsDirichletEdge;
import com.analog.lyric.dimple.solvers.gibbs.GibbsReal;
import com.analog.lyric.dimple.solvers.gibbs.GibbsRealFactor;
import com.analog.lyric.dimple.solvers.gibbs.GibbsSolverEdge;
import com.analog.lyric.dimple.solvers.gibbs.GibbsSolverGraph;
import com.analog.lyric.dimple.solvers.gibbs.samplers.conjugate.DirichletSampler;
import com.analog.lyric.dimple.solvers.gibbs.samplers.conjugate.IRealJointConjugateSamplerFactory;
public class CustomExchangeableDirichlet extends GibbsRealFactor implements IRealJointConjugateFactor
{
private double _constantAlphaMinusOne;
private @Nullable GibbsReal _alphaVariable;
private int _dimension;
private int _numParameterEdges;
private boolean _hasConstantParameters;
private static final int PARAMETER_INDEX = 0;
public CustomExchangeableDirichlet(Factor factor, GibbsSolverGraph parent)
{
super(factor, parent);
}
@Override
public @Nullable GibbsSolverEdge<?> createEdge(EdgeState edge)
{
if (edge.getFactorToVariableEdgeNumber() >= _numParameterEdges)
{
return new GibbsDirichletEdge(_dimension);
}
return null;
}
@SuppressWarnings("null")
@Override
public void updateEdgeMessage(EdgeState modelEdge, GibbsSolverEdge<?> solverEdge)
{
final int portNum = modelEdge.getFactorToVariableEdgeNumber();
if (portNum >= _numParameterEdges)
{
// Output port must be an output variable
DirichletParameters outputMsg = (DirichletParameters)solverEdge.factorToVarMsg;
if (_hasConstantParameters)
outputMsg.fillAlphaMinusOne(_constantAlphaMinusOne);
else // Variable parameters
outputMsg.fillAlphaMinusOne(_alphaVariable.getCurrentSample() - 1);
}
else
super.updateEdgeMessage(modelEdge, solverEdge);
}
@Override
public Set<IRealJointConjugateSamplerFactory> getAvailableRealJointConjugateSamplers(int portNumber)
{
Set<IRealJointConjugateSamplerFactory> availableSamplers = new HashSet<IRealJointConjugateSamplerFactory>();
if (isPortOutputVariable(portNumber))
availableSamplers.add(DirichletSampler.factory); // Output variables have Dirichlet distribution
return availableSamplers;
}
public boolean isPortOutputVariable(int portNumber)
{
determineConstantsAndEdges(); // Call this here since initialize may not have been called yet
return (portNumber >= _numParameterEdges);
}
@Override
public void initialize()
{
super.initialize();
// Determine what parameters are constants or edges, and save the state
determineConstantsAndEdges();
}
private void determineConstantsAndEdges()
{
// Get the factor function and related state
final Factor factor = _model;
FactorFunction factorFunction = factor.getFactorFunction();
ExchangeableDirichlet specificFactorFunction = (ExchangeableDirichlet)factorFunction;
_dimension = specificFactorFunction.getDimension();
final int prevNumParameterEdges = _numParameterEdges;
// Pre-determine whether or not the parameters are constant; if so save the value; if not save reference to the variable
if (specificFactorFunction.hasConstantParameters())
{
_hasConstantParameters = true;
_numParameterEdges = 0;
_constantAlphaMinusOne = specificFactorFunction.getAlphaMinusOne();
_alphaVariable = null;
}
else // Variable or constant parameter
{
_hasConstantParameters = factor.hasConstantAtIndex(PARAMETER_INDEX);
if (_hasConstantParameters)
{
_numParameterEdges = 0;
_constantAlphaMinusOne =
requireNonNull(factor.getConstantValueByIndex(PARAMETER_INDEX)).getDouble() - 1;
_alphaVariable = null;
}
else // Parameter is a variable
{
_numParameterEdges = 1;
_constantAlphaMinusOne = 0;
_alphaVariable = (GibbsReal)getSibling(PARAMETER_INDEX);
}
}
if (_numParameterEdges != prevNumParameterEdges)
{
removeSiblingEdgeState();
}
}
}