[2] | 1 | #region License Information
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| 2 | /* HeuristicLab
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| 3 | * Copyright (C) 2002-2008 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
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| 4 | *
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| 5 | * This file is part of HeuristicLab.
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| 6 | *
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| 7 | * HeuristicLab is free software: you can redistribute it and/or modify
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| 8 | * it under the terms of the GNU General Public License as published by
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| 9 | * the Free Software Foundation, either version 3 of the License, or
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| 10 | * (at your option) any later version.
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| 11 | *
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| 12 | * HeuristicLab is distributed in the hope that it will be useful,
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| 13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 15 | * GNU General Public License for more details.
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| 16 | *
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| 17 | * You should have received a copy of the GNU General Public License
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| 18 | * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
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| 19 | */
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| 20 | #endregion
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| 21 |
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| 22 | using System;
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| 23 | using System.Collections.Generic;
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| 24 | using System.Linq;
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| 25 | using System.Text;
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| 26 | using HeuristicLab.Core;
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| 27 | using HeuristicLab.Operators;
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| 28 | using HeuristicLab.Data;
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| 29 | using HeuristicLab.Random;
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| 30 | using HeuristicLab.Constraints;
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| 31 |
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| 32 | namespace HeuristicLab.StructureIdentification {
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| 33 | public class GPOperatorGroup : OperatorGroup {
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[432] | 34 | private Dictionary<IOperator, int> minTreeHeight = new Dictionary<IOperator, int>();
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| 35 | private Dictionary<IOperator, int> minTreeSize = new Dictionary<IOperator, int>();
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| 36 | private SubOperatorsConstraintAnalyser constraintAnalyser = new SubOperatorsConstraintAnalyser();
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| 37 |
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[2] | 38 | public GPOperatorGroup()
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| 39 | : base() {
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| 40 | }
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| 41 |
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| 42 | public override void AddOperator(IOperator op) {
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| 43 | base.AddOperator(op);
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| 44 | var localVariableInfos = op.VariableInfos.Where(f => f.Local);
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| 45 |
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| 46 | if(op.GetVariable(GPOperatorLibrary.MIN_TREE_HEIGHT) == null) {
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| 47 | op.AddVariable(new Variable(GPOperatorLibrary.MIN_TREE_HEIGHT, new IntData(-1)));
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| 48 | }
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| 49 | if(op.GetVariable(GPOperatorLibrary.MIN_TREE_SIZE) == null) {
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| 50 | op.AddVariable(new Variable(GPOperatorLibrary.MIN_TREE_SIZE, new IntData(-1)));
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| 51 | }
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[178] | 52 | if(op.GetVariable(GPOperatorLibrary.TICKETS) == null) {
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| 53 | op.AddVariable(new Variable(GPOperatorLibrary.TICKETS, new DoubleData(1.0)));
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| 54 | }
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[432] | 55 | foreach(IConstraint c in op.Constraints) {
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| 56 | if(c is SubOperatorTypeConstraint || c is AllSubOperatorsTypeConstraint) c.Changed += new EventHandler(UpdateTreeBounds);
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| 57 | }
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[468] | 58 | RecalculateMinimalTreeBounds();
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[2] | 59 | OnOperatorAdded(op);
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| 60 | }
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| 61 |
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[432] | 62 | void UpdateTreeBounds(object sender, EventArgs e) {
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| 63 | RecalculateMinimalTreeBounds();
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| 64 | }
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[2] | 65 |
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| 66 | private void RecalculateMinimalTreeBounds() {
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| 67 | minTreeHeight.Clear();
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| 68 | minTreeSize.Clear();
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| 69 | constraintAnalyser.AllPossibleOperators = Operators;
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| 70 |
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| 71 | foreach(IOperator op in Operators) {
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| 72 | ((IntData)op.GetVariable(GPOperatorLibrary.MIN_TREE_HEIGHT).Value).Data = RecalculateMinimalTreeHeight(op);
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| 73 | ((IntData)op.GetVariable(GPOperatorLibrary.MIN_TREE_SIZE).Value).Data = RecalculateMinimalTreeSize(op);
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| 74 | }
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| 75 | }
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| 76 |
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| 77 | private int RecalculateMinimalTreeSize(IOperator op) {
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| 78 | // check for memoized value
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[430] | 79 | if(minTreeSize.ContainsKey(op)) {
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| 80 | return minTreeSize[op];
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[2] | 81 | }
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| 82 |
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| 83 | int minArity;
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| 84 | int maxArity;
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| 85 | GetMinMaxArity(op, out minArity, out maxArity);
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| 86 | // no suboperators possible => minimalTreeSize == 1 (the current node)
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| 87 | if(minArity == 0 && maxArity == 0) {
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[430] | 88 | minTreeSize[op] = 1;
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[2] | 89 | return 1;
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| 90 | }
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| 91 |
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| 92 | // when suboperators are necessary we have to find the smallest possible tree (recursively)
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| 93 | // the minimal size of the parent is 1 + the sum of the minimal sizes of all subtrees
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| 94 | int subTreeSizeSum = 0;
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| 95 |
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| 96 | // mark the currently processed operator to prevent infinite recursions and stack overflow
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[430] | 97 | minTreeSize[op] = 9999;
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[2] | 98 | for(int i = 0; i < minArity; i++) {
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| 99 | // calculate the minTreeSize of all allowed sub-operators
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| 100 | // if the list of allowed suboperators is empty because the operator needs suboperators
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| 101 | // but there are no valid suboperators defined in the current group then we just use an impossible
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| 102 | // tree size here to indicate that there was a problem.
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| 103 | // usually as more operators are added to the group the problem will be corrected (by adding the missing operator).
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| 104 | // however if the missing operator is never added the high min tree size here has the effect that this operator
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| 105 | // will not be included in generated subtrees because the resulting size would always be higher than a reasonably set
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| 106 | // maximal tree size.
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| 107 | int minSubTreeSize = constraintAnalyser.GetAllowedOperators(op, i).Select(subOp => RecalculateMinimalTreeSize(subOp))
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| 108 | .Concat(Enumerable.Repeat(9999, 1)).Min();
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| 109 | subTreeSizeSum += minSubTreeSize;
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| 110 | }
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| 111 |
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[430] | 112 | minTreeSize[op] = subTreeSizeSum + 1;
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[2] | 113 | return subTreeSizeSum + 1;
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| 114 | }
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| 115 |
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| 116 | private int RecalculateMinimalTreeHeight(IOperator op) {
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| 117 | // check for memoized value
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[430] | 118 | if(minTreeHeight.ContainsKey(op)) {
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| 119 | return minTreeHeight[op];
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[2] | 120 | }
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| 121 |
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| 122 | int minArity;
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| 123 | int maxArity;
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| 124 | GetMinMaxArity(op, out minArity, out maxArity);
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| 125 | // no suboperators possible => minimalTreeHeight == 1
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| 126 | if(minArity == 0 && maxArity == 0) {
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[430] | 127 | minTreeHeight[op] = 1;
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[2] | 128 | return 1;
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| 129 | }
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| 130 |
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| 131 | // when suboperators are necessary we have to find the smallest possible tree (recursively)
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| 132 | // the minimal height of the parent is 1 + the height of the largest subtree
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| 133 | int maxSubTreeHeight = 0;
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| 134 |
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| 135 | // mark the currently processed operator to prevent infinite recursions leading to stack overflow
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[430] | 136 | minTreeHeight[op] = 9999;
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[2] | 137 | for(int i = 0; i < minArity; i++) {
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| 138 | // calculate the minTreeHeight of all possible sub-operators.
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| 139 | // use the smallest possible subTree as lower bound for the subTreeHeight.
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| 140 | // if the list of allowed suboperators is empty because the operator needs suboperators
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| 141 | // but there are no valid suboperators defined in the current group then we use an impossible tree height
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| 142 | // to indicate that there was a problem.
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| 143 | // usually as more operators are added to the group the problem will be corrected (by adding the missing operator).
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| 144 | // however if the missing operator is never added the high min tree height here has the effect that this operator
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| 145 | // will not be included in generated subtrees because the resulting (virtual) height would always be higher than a reasonably set
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| 146 | // maximal tree height.
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| 147 | int minSubTreeHeight = constraintAnalyser.GetAllowedOperators(op, i).Select(subOp => RecalculateMinimalTreeHeight(subOp))
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| 148 | .Concat(Enumerable.Repeat(9999, 1)).Min();
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| 149 |
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| 150 | // if the smallest height of this subtree is larger than all other subtrees before we have to update the min height of the parent
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| 151 | if(minSubTreeHeight > maxSubTreeHeight) {
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| 152 | maxSubTreeHeight = minSubTreeHeight;
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| 153 | }
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| 154 | }
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| 155 |
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[430] | 156 | minTreeHeight[op] = maxSubTreeHeight + 1;
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[2] | 157 | return maxSubTreeHeight + 1;
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| 158 | }
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| 159 |
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| 160 | private void GetMinMaxArity(IOperator op, out int minArity, out int maxArity) {
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| 161 | foreach(IConstraint constraint in op.Constraints) {
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| 162 | NumberOfSubOperatorsConstraint theConstraint = constraint as NumberOfSubOperatorsConstraint;
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| 163 | if(theConstraint != null) {
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| 164 | minArity = theConstraint.MinOperators.Data;
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| 165 | maxArity = theConstraint.MaxOperators.Data;
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| 166 | return;
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| 167 | }
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| 168 | }
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| 169 | // the default arity is 2
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| 170 | minArity = 2;
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| 171 | maxArity = 2;
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| 172 | }
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| 173 |
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| 174 | public override void AddSubGroup(IOperatorGroup group) {
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| 175 | throw new NotSupportedException();
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| 176 | }
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| 177 |
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| 178 | public override void RemoveOperator(IOperator op) {
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| 179 | base.RemoveOperator(op);
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| 180 | op.RemoveVariable(GPOperatorLibrary.MIN_TREE_SIZE);
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| 181 | op.RemoveVariable(GPOperatorLibrary.MIN_TREE_HEIGHT);
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[178] | 182 | op.RemoveVariable(GPOperatorLibrary.TICKETS);
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[432] | 183 | foreach(IConstraint c in op.Constraints) {
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| 184 | if(c is SubOperatorTypeConstraint || c is AllSubOperatorsTypeConstraint) c.Changed -= new EventHandler(UpdateTreeBounds);
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| 185 | }
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[529] | 186 |
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| 187 | // remove the operator from the allowed sub-functions of the remaining operators
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| 188 | foreach(IOperator o in Operators) {
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| 189 | if(o != op) {
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| 190 | foreach(IConstraint c in o.Constraints) {
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| 191 | if(c is SubOperatorTypeConstraint) {
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| 192 | ((SubOperatorTypeConstraint)c).RemoveOperator(op);
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| 193 | } else if(c is AllSubOperatorsTypeConstraint) {
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| 194 | ((AllSubOperatorsTypeConstraint)c).RemoveOperator(op);
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| 195 | }
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| 196 | }
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| 197 | }
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| 198 | }
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[2] | 199 | OnOperatorRemoved(op);
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| 200 | }
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| 201 |
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| 202 | public override void RemoveSubGroup(IOperatorGroup group) {
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| 203 | throw new NotSupportedException();
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| 204 | }
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| 205 |
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| 206 | public event EventHandler OperatorAdded;
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| 207 | public event EventHandler OperatorRemoved;
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| 208 |
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| 209 | protected virtual void OnOperatorAdded(IOperator op) {
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| 210 | if(OperatorAdded != null) {
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| 211 | OperatorAdded(this, new OperatorEventArgs(op));
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| 212 | }
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| 213 | }
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| 214 | protected virtual void OnOperatorRemoved(IOperator op) {
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| 215 | if(OperatorRemoved != null) {
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| 216 | OperatorRemoved(this, new OperatorEventArgs(op));
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| 217 | }
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| 218 | }
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| 219 | }
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| 220 |
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| 221 | internal class OperatorEventArgs : EventArgs {
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| 222 | public IOperator op;
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| 223 |
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| 224 | public OperatorEventArgs(IOperator op) {
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| 225 | this.op = op;
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| 226 | }
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| 227 | }
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| 228 | }
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