#region License Information
/* HeuristicLab
* Copyright (C) Heuristic and Evolutionary Algorithms Laboratory (HEAL)
*
* This file is part of HeuristicLab.
*
* HeuristicLab is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* HeuristicLab is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HeuristicLab. If not, see .
*/
#endregion
using System;
using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding;
namespace HeuristicLab.Problems.DataAnalysis.Symbolic {
public class TransformationToSymbolicTreeMapper : ITransformationMapper {
private ITransformation transformation;
private string column;
#region ITransformationMapper Members
public ISymbolicExpressionTreeNode GenerateModel(ITransformation transformation) {
InitComponents(transformation);
if (transformation is LinearTransformation) {
return GenerateModelForLinearTransformation();
} else if (transformation is ExponentialTransformation) {
return GenerateModelForExponentialTransformation();
} else if (transformation is LogarithmicTransformation) {
return GenerateModelForLogarithmicTransformation();
} else if (transformation is PowerTransformation) {
return GenerateModelForPowerTransformation();
} else if (transformation is ReciprocalTransformation) {
return GenerateModelForReciprocalTransformation();
} else if (transformation is ShiftStandardDistributionTransformation) {
return GenerateModelForShiftStandardDistributionTransformation();
} else if (transformation is CopyColumnTransformation) {
return GenerateTreeNodeForCopyColumnTransformation();
}
throw new NotImplementedException();
}
public ISymbolicExpressionTreeNode GenerateInverseModel(ITransformation transformation) {
InitComponents(transformation);
if (transformation is LinearTransformation) {
return GenerateInverseModelForLinearTransformation();
} else if (transformation is ExponentialTransformation) {
return GenerateInverseModelForExponentialTransformation();
} else if (transformation is LogarithmicTransformation) {
return GenerateInverseModelForLogarithmicTransformation();
} else if (transformation is PowerTransformation) {
return GenerateInverseModelForPowerTransformation();
} else if (transformation is ReciprocalTransformation) {
return GenerateInverseModelForReciprocalTransformation();
} else if (transformation is ShiftStandardDistributionTransformation) {
GenerateInverseModelForShiftStandardDistributionTransformation();
} else if (transformation is CopyColumnTransformation) {
return GenerateTreeNodeForCopyColumnTransformation();
}
throw new NotImplementedException();
}
#endregion
// helper
private ISymbolicExpressionTreeNode GenerateModelForLinearTransformation() {
var linearTransformation = (LinearTransformation)transformation;
var kValue = linearTransformation.Multiplier;
var dValue = linearTransformation.Addend;
// k * x
var multiplicationNode = new Multiplication().CreateTreeNode();
var kNode = CreateConstantTreeNode("k", kValue);
var xNode = CreateVariableTreeNode(column, "x");
multiplicationNode.AddSubtree(kNode);
multiplicationNode.AddSubtree(xNode);
// ( k * x ) + d
var additionNode = new Addition().CreateTreeNode();
var dNode = CreateConstantTreeNode("d", dValue);
additionNode.AddSubtree(multiplicationNode);
additionNode.AddSubtree(dNode);
return additionNode;
}
private ISymbolicExpressionTreeNode GenerateInverseModelForLinearTransformation() {
var linearTransformation = (LinearTransformation)transformation;
var kValue = linearTransformation.Multiplier;
var dValue = linearTransformation.Addend;
// x - d
var substractionNode = new Subtraction().CreateTreeNode();
var dNode = CreateConstantTreeNode("d", dValue);
var xNode = CreateVariableTreeNode(column, "x");
substractionNode.AddSubtree(xNode);
substractionNode.AddSubtree(dNode);
// ( x - d ) / k
var divisionNode = new Division().CreateTreeNode();
var kNode = CreateConstantTreeNode("k", kValue);
divisionNode.AddSubtree(substractionNode);
divisionNode.AddSubtree(kNode);
return divisionNode;
}
private ISymbolicExpressionTreeNode GenerateModelForExponentialTransformation() {
var exponentialTransformation = (ExponentialTransformation)transformation;
var bValue = exponentialTransformation.Base;
return GenTreePow_b_x(bValue);
}
private ISymbolicExpressionTreeNode GenerateInverseModelForExponentialTransformation() {
var exponentialTransformation = (ExponentialTransformation)transformation;
var bValue = exponentialTransformation.Base;
return GenTreeLog_x_b(bValue);
}
private ISymbolicExpressionTreeNode GenerateModelForLogarithmicTransformation() {
var logarithmicTransformation = (LogarithmicTransformation)transformation;
var bValue = logarithmicTransformation.Base;
return GenTreeLog_x_b(bValue);
}
private ISymbolicExpressionTreeNode GenerateInverseModelForLogarithmicTransformation() {
var logarithmicTransformation = (LogarithmicTransformation)transformation;
var bValue = logarithmicTransformation.Base;
return GenTreePow_b_x(bValue);
}
private ISymbolicExpressionTreeNode GenerateModelForPowerTransformation() {
var powerTransformation = (PowerTransformation)transformation;
var expValue = powerTransformation.Exponent;
// x ^ exp
var powerNode = new Power().CreateTreeNode();
var xNode = CreateVariableTreeNode(column, "x");
var expNode = CreateConstantTreeNode("exp", expValue);
powerNode.AddSubtree(xNode);
powerNode.AddSubtree(expNode);
return powerNode;
}
private ISymbolicExpressionTreeNode GenerateInverseModelForPowerTransformation() {
var powerTransformation = (PowerTransformation)transformation;
var expValue = powerTransformation.Exponent;
// rt(x, b)
var rootNode = new Root().CreateTreeNode();
var xNode = CreateVariableTreeNode(column, "x");
var bNode = CreateConstantTreeNode("b", expValue);
rootNode.AddSubtree(xNode);
rootNode.AddSubtree(bNode);
return rootNode;
}
private ISymbolicExpressionTreeNode GenerateModelForReciprocalTransformation() {
return GenTreeDiv_1_x();
}
private ISymbolicExpressionTreeNode GenerateInverseModelForReciprocalTransformation() {
return GenTreeDiv_1_x();
}
private ISymbolicExpressionTreeNode GenerateModelForShiftStandardDistributionTransformation() {
var shiftStandardDistributionTransformation = (ShiftStandardDistributionTransformation)transformation;
var m_orgValue = shiftStandardDistributionTransformation.OriginalMean;
var s_orgValue = shiftStandardDistributionTransformation.OriginalStandardDeviation;
var m_tarValue = shiftStandardDistributionTransformation.Mean;
var s_tarValue = shiftStandardDistributionTransformation.StandardDeviation;
return GenTreeShiftStdDist(column, m_orgValue, s_orgValue, m_tarValue, s_tarValue);
}
private ISymbolicExpressionTreeNode GenerateInverseModelForShiftStandardDistributionTransformation() {
var shiftStandardDistributionTransformation = (ShiftStandardDistributionTransformation)transformation;
var m_orgValue = shiftStandardDistributionTransformation.OriginalMean;
var s_orgValue = shiftStandardDistributionTransformation.OriginalStandardDeviation;
var m_tarValue = shiftStandardDistributionTransformation.Mean;
var s_tarValue = shiftStandardDistributionTransformation.StandardDeviation;
return GenTreeShiftStdDist(column, m_tarValue, s_tarValue, m_orgValue, s_orgValue);
}
private ISymbolicExpressionTreeNode GenerateTreeNodeForCopyColumnTransformation() {
var copyColumnTransformation = (CopyColumnTransformation)transformation;
var copiedColumnName = copyColumnTransformation.CopiedColumnName;
return CreateVariableTreeNode(copiedColumnName, copiedColumnName + "(original)");
}
// helper's helper:
private ISymbolicExpressionTreeNode GenTreeLog_x_b(double b) {
// log(x, b)
var logNode = new Logarithm().CreateTreeNode();
var bNode = CreateConstantTreeNode("b", b);
var xNode = CreateVariableTreeNode(column, "x");
logNode.AddSubtree(xNode);
logNode.AddSubtree(bNode);
return logNode;
}
private ISymbolicExpressionTreeNode GenTreePow_b_x(double b) {
// b ^ x
var powerNode = new Power().CreateTreeNode();
var bNode = CreateConstantTreeNode("b", b);
var xNode = CreateVariableTreeNode(column, "x");
powerNode.AddSubtree(bNode);
powerNode.AddSubtree(xNode);
return powerNode;
}
private ISymbolicExpressionTreeNode GenTreeDiv_1_x() {
// 1 / x
var divNode = new Division().CreateTreeNode();
var oneNode = CreateConstantTreeNode("1", 1.0);
var xNode = CreateVariableTreeNode(column, "x");
divNode.AddSubtree(oneNode);
divNode.AddSubtree(xNode);
return divNode;
}
private ISymbolicExpressionTreeNode GenTreeShiftStdDist(string variable, double m_org, double s_org, double m_tar, double s_tar) {
// x - m_org
var substractionNode = new Subtraction().CreateTreeNode();
var xNode = CreateVariableTreeNode(variable, "x");
var m_orgNode = CreateConstantTreeNode("m_org", m_org);
substractionNode.AddSubtree(xNode);
substractionNode.AddSubtree(m_orgNode);
// (x - m_org) / s_org
var divisionNode = new Division().CreateTreeNode();
var s_orgNode = CreateConstantTreeNode("s_org", s_org);
divisionNode.AddSubtree(substractionNode);
divisionNode.AddSubtree(s_orgNode);
// ((x - m_org) / s_org ) * s_tar
var multiplicationNode = new Multiplication().CreateTreeNode();
var s_tarNode = CreateConstantTreeNode("s_tar", s_tar);
multiplicationNode.AddSubtree(divisionNode);
multiplicationNode.AddSubtree(s_tarNode);
// ((x - m_org) / s_org ) * s_tar + m_tar
var additionNode = new Addition().CreateTreeNode();
var m_tarNode = CreateConstantTreeNode("m_tar", m_tar);
additionNode.AddSubtree(multiplicationNode);
additionNode.AddSubtree(m_tarNode);
return additionNode;
}
private ConstantTreeNode CreateConstantTreeNode(string description, double value) {
return new ConstantTreeNode(new Constant()) { Value = value };
}
private VariableTreeNode CreateVariableTreeNode(string name, string description) {
return new VariableTreeNode(new Variable(name, description)) { VariableName = name, Weight = 1.0 };
}
private void InitComponents(ITransformation transformation) {
this.transformation = transformation;
column = transformation.Column;
}
}
}