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source: trunk/sources/HeuristicLab.Problems.DataAnalysis/3.3/Symbolic/SymbolicSimplifier.cs @ 5593

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Last change on this file since 5593 was 5465, checked in by gkronber, 14 years ago
#1227 implemented test cases and transformation rules for root and power symbols.
File size: 37.9 KB

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[3442]	1	#region License Information
	2	/* HeuristicLab
[5445]	3	* Copyright (C) 2002-2011 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
[3442]	4	*
	5	* This file is part of HeuristicLab.
	6	*
	7	* HeuristicLab is free software: you can redistribute it and/or modify
	8	* it under the terms of the GNU General Public License as published by
	9	* the Free Software Foundation, either version 3 of the License, or
	10	* (at your option) any later version.
	11	*
	12	* HeuristicLab is distributed in the hope that it will be useful,
	13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	15	* GNU General Public License for more details.
	16	*
	17	* You should have received a copy of the GNU General Public License
	18	* along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
	19	*/
	20	#endregion
	21
	22	using System;
	23	using System.Collections.Generic;
[4068]	24	using System.Diagnostics;
[3442]	25	using System.Linq;
	26	using HeuristicLab.Common;
	27	using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding;
[3462]	28	using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding.Symbols;
[3442]	29	using HeuristicLab.Problems.DataAnalysis.Symbolic.Symbols;
	30
	31	namespace HeuristicLab.Problems.DataAnalysis.Symbolic {
	32	/// <summary>
	33	/// Simplistic simplifier for arithmetic expressions
	34	/// </summary>
	35	public class SymbolicSimplifier {
[3462]	36	private Addition addSymbol = new Addition();
[5461]	37	private Subtraction subSymbol = new Subtraction();
[3462]	38	private Multiplication mulSymbol = new Multiplication();
	39	private Division divSymbol = new Division();
	40	private Constant constSymbol = new Constant();
	41	private Variable varSymbol = new Variable();
[5455]	42	private Logarithm logSymbol = new Logarithm();
	43	private Exponential expSymbol = new Exponential();
[5465]	44	private Root rootSymbol = new Root();
	45	private Power powSymbol = new Power();
[5455]	46	private Sine sineSymbol = new Sine();
	47	private Cosine cosineSymbol = new Cosine();
	48	private Tangent tanSymbol = new Tangent();
	49	private IfThenElse ifThenElseSymbol = new IfThenElse();
	50	private And andSymbol = new And();
	51	private Or orSymbol = new Or();
	52	private Not notSymbol = new Not();
	53	private GreaterThan gtSymbol = new GreaterThan();
	54	private LessThan ltSymbol = new LessThan();
[3462]	55
[3442]	56	public SymbolicExpressionTree Simplify(SymbolicExpressionTree originalTree) {
	57	var clone = (SymbolicExpressionTreeNode)originalTree.Root.Clone();
	58	// macro expand (initially no argument trees)
	59	var macroExpandedTree = MacroExpand(clone, clone.SubTrees[0], new List<SymbolicExpressionTreeNode>());
[4477]	60	SymbolicExpressionTreeNode rootNode = (new ProgramRootSymbol()).CreateTreeNode();
	61	rootNode.AddSubTree(GetSimplifiedTree(macroExpandedTree));
	62	return new SymbolicExpressionTree(rootNode);
[3442]	63	}
	64
	65	// the argumentTrees list contains already expanded trees used as arguments for invocations
	66	private SymbolicExpressionTreeNode MacroExpand(SymbolicExpressionTreeNode root, SymbolicExpressionTreeNode node, IList<SymbolicExpressionTreeNode> argumentTrees) {
	67	List<SymbolicExpressionTreeNode> subtrees = new List<SymbolicExpressionTreeNode>(node.SubTrees);
[3985]	68	while (node.SubTrees.Count > 0) node.RemoveSubTree(0);
[3442]	69	if (node.Symbol is InvokeFunction) {
	70	var invokeSym = node.Symbol as InvokeFunction;
	71	var defunNode = FindFunctionDefinition(root, invokeSym.FunctionName);
	72	var macroExpandedArguments = new List<SymbolicExpressionTreeNode>();
	73	foreach (var subtree in subtrees) {
	74	macroExpandedArguments.Add(MacroExpand(root, subtree, argumentTrees));
	75	}
	76	return MacroExpand(root, defunNode, macroExpandedArguments);
	77	} else if (node.Symbol is Argument) {
	78	var argSym = node.Symbol as Argument;
	79	// return the correct argument sub-tree (already macro-expanded)
	80	return (SymbolicExpressionTreeNode)argumentTrees[argSym.ArgumentIndex].Clone();
	81	} else {
	82	// recursive application
	83	foreach (var subtree in subtrees) {
	84	node.AddSubTree(MacroExpand(root, subtree, argumentTrees));
	85	}
	86	return node;
	87	}
	88	}
	89
	90	private SymbolicExpressionTreeNode FindFunctionDefinition(SymbolicExpressionTreeNode root, string functionName) {
	91	foreach (var subtree in root.SubTrees.OfType<DefunTreeNode>()) {
	92	if (subtree.FunctionName == functionName) return subtree.SubTrees[0];
	93	}
	94
	95	throw new ArgumentException("Definition of function " + functionName + " not found.");
	96	}
	97
[4239]	98
	99	#region symbol predicates
[5455]	100	// arithmetic
	101	private bool IsDivision(SymbolicExpressionTreeNode node) {
	102	return node.Symbol is Division;
[4239]	103	}
	104
[5455]	105	private bool IsMultiplication(SymbolicExpressionTreeNode node) {
	106	return node.Symbol is Multiplication;
[4239]	107	}
	108
[5455]	109	private bool IsSubtraction(SymbolicExpressionTreeNode node) {
	110	return node.Symbol is Subtraction;
[4239]	111	}
	112
[5455]	113	private bool IsAddition(SymbolicExpressionTreeNode node) {
	114	return node.Symbol is Addition;
[4239]	115	}
	116
[5455]	117	private bool IsAverage(SymbolicExpressionTreeNode node) {
	118	return node.Symbol is Average;
[4239]	119	}
[5455]	120	// exponential
	121	private bool IsLog(SymbolicExpressionTreeNode node) {
	122	return node.Symbol is Logarithm;
	123	}
	124	private bool IsExp(SymbolicExpressionTreeNode node) {
	125	return node.Symbol is Exponential;
	126	}
[5465]	127	private bool IsRoot(SymbolicExpressionTreeNode node) {
	128	return node.Symbol is Root;
	129	}
	130	private bool IsPower(SymbolicExpressionTreeNode node) {
	131	return node.Symbol is Power;
	132	}
[5455]	133	// trigonometric
	134	private bool IsSine(SymbolicExpressionTreeNode node) {
	135	return node.Symbol is Sine;
	136	}
	137	private bool IsCosine(SymbolicExpressionTreeNode node) {
	138	return node.Symbol is Cosine;
	139	}
	140	private bool IsTangent(SymbolicExpressionTreeNode node) {
	141	return node.Symbol is Tangent;
	142	}
	143	// boolean
	144	private bool IsIfThenElse(SymbolicExpressionTreeNode node) {
	145	return node.Symbol is IfThenElse;
	146	}
	147	private bool IsAnd(SymbolicExpressionTreeNode node) {
	148	return node.Symbol is And;
	149	}
	150	private bool IsOr(SymbolicExpressionTreeNode node) {
	151	return node.Symbol is Or;
	152	}
	153	private bool IsNot(SymbolicExpressionTreeNode node) {
	154	return node.Symbol is Not;
	155	}
	156	// comparison
	157	private bool IsGreaterThan(SymbolicExpressionTreeNode node) {
	158	return node.Symbol is GreaterThan;
	159	}
	160	private bool IsLessThan(SymbolicExpressionTreeNode node) {
	161	return node.Symbol is LessThan;
	162	}
[4239]	163
[5461]	164	private bool IsBoolean(SymbolicExpressionTreeNode node) {
	165	return
	166	node.Symbol is GreaterThan \|\|
	167	node.Symbol is LessThan \|\|
	168	node.Symbol is And \|\|
	169	node.Symbol is Or;
	170	}
	171
[5455]	172	// terminals
	173	private bool IsVariable(SymbolicExpressionTreeNode node) {
	174	return node.Symbol is Variable;
[4239]	175	}
	176
[5455]	177	private bool IsConstant(SymbolicExpressionTreeNode node) {
	178	return node.Symbol is Constant;
[4239]	179	}
[5455]	180
[4239]	181	#endregion
	182
[3442]	183	/// <summary>
	184	/// Creates a new simplified tree
	185	/// </summary>
	186	/// <param name="original"></param>
	187	/// <returns></returns>
	188	public SymbolicExpressionTreeNode GetSimplifiedTree(SymbolicExpressionTreeNode original) {
	189	if (IsConstant(original) \|\| IsVariable(original)) {
	190	return (SymbolicExpressionTreeNode)original.Clone();
	191	} else if (IsAddition(original)) {
[4239]	192	return SimplifyAddition(original);
[3442]	193	} else if (IsSubtraction(original)) {
[4239]	194	return SimplifySubtraction(original);
[3442]	195	} else if (IsMultiplication(original)) {
[4239]	196	return SimplifyMultiplication(original);
[3442]	197	} else if (IsDivision(original)) {
[4239]	198	return SimplifyDivision(original);
[3876]	199	} else if (IsAverage(original)) {
[4239]	200	return SimplifyAverage(original);
	201	} else if (IsLog(original)) {
[5455]	202	return SimplifyLog(original);
	203	} else if (IsExp(original)) {
	204	return SimplifyExp(original);
[5465]	205	} else if (IsRoot(original)) {
	206	return SimplifyRoot(original);
	207	} else if (IsPower(original)) {
	208	return SimplifyPower(original);
[5455]	209	} else if (IsSine(original)) {
	210	return SimplifySine(original);
	211	} else if (IsCosine(original)) {
	212	return SimplifyCosine(original);
	213	} else if (IsTangent(original)) {
	214	return SimplifyTangent(original);
[4239]	215	} else if (IsIfThenElse(original)) {
[5455]	216	return SimplifyIfThenElse(original);
	217	} else if (IsGreaterThan(original)) {
	218	return SimplifyGreaterThan(original);
	219	} else if (IsLessThan(original)) {
	220	return SimplifyLessThan(original);
	221	} else if (IsAnd(original)) {
	222	return SimplifyAnd(original);
	223	} else if (IsOr(original)) {
	224	return SimplifyOr(original);
	225	} else if (IsNot(original)) {
	226	return SimplifyNot(original);
[3442]	227	} else {
[4239]	228	return SimplifyAny(original);
[3442]	229	}
	230	}
	231
[5455]	232
[4239]	233	#region specific simplification routines
	234	private SymbolicExpressionTreeNode SimplifyAny(SymbolicExpressionTreeNode original) {
	235	// can't simplify this function but simplify all subtrees
	236	List<SymbolicExpressionTreeNode> subTrees = new List<SymbolicExpressionTreeNode>(original.SubTrees);
	237	while (original.SubTrees.Count > 0) original.RemoveSubTree(0);
	238	var clone = (SymbolicExpressionTreeNode)original.Clone();
	239	List<SymbolicExpressionTreeNode> simplifiedSubTrees = new List<SymbolicExpressionTreeNode>();
	240	foreach (var subTree in subTrees) {
	241	simplifiedSubTrees.Add(GetSimplifiedTree(subTree));
	242	original.AddSubTree(subTree);
	243	}
	244	foreach (var simplifiedSubtree in simplifiedSubTrees) {
	245	clone.AddSubTree(simplifiedSubtree);
	246	}
	247	if (simplifiedSubTrees.TrueForAll(t => IsConstant(t))) {
	248	SimplifyConstantExpression(clone);
	249	}
	250	return clone;
	251	}
	252
	253	private SymbolicExpressionTreeNode SimplifyConstantExpression(SymbolicExpressionTreeNode original) {
	254	// not yet implemented
	255	return original;
	256	}
	257
	258	private SymbolicExpressionTreeNode SimplifyAverage(SymbolicExpressionTreeNode original) {
	259	if (original.SubTrees.Count == 1) {
	260	return GetSimplifiedTree(original.SubTrees[0]);
[3442]	261	} else {
[4239]	262	// simplify expressions x0..xn
	263	// make sum(x0..xn) / n
	264	Trace.Assert(original.SubTrees.Count > 1);
	265	var sum = original.SubTrees
	266	.Select(x => GetSimplifiedTree(x))
	267	.Aggregate((a, b) => MakeSum(a, b));
	268	return MakeFraction(sum, MakeConstant(original.SubTrees.Count));
[3442]	269	}
	270	}
	271
[4239]	272	private SymbolicExpressionTreeNode SimplifyDivision(SymbolicExpressionTreeNode original) {
	273	if (original.SubTrees.Count == 1) {
	274	return Invert(GetSimplifiedTree(original.SubTrees[0]));
[3442]	275	} else {
[4239]	276	// simplify expressions x0..xn
	277	// make multiplication (x0 * 1/(x1 * x1 * .. * xn))
	278	Trace.Assert(original.SubTrees.Count > 1);
	279	var simplifiedTrees = original.SubTrees.Select(x => GetSimplifiedTree(x));
	280	return
	281	MakeProduct(simplifiedTrees.First(), Invert(simplifiedTrees.Skip(1).Aggregate((a, b) => MakeProduct(a, b))));
[3442]	282	}
	283	}
	284
[4239]	285	private SymbolicExpressionTreeNode SimplifyMultiplication(SymbolicExpressionTreeNode original) {
	286	if (original.SubTrees.Count == 1) {
	287	return GetSimplifiedTree(original.SubTrees[0]);
	288	} else {
	289	Trace.Assert(original.SubTrees.Count > 1);
	290	return original.SubTrees
	291	.Select(x => GetSimplifiedTree(x))
	292	.Aggregate((a, b) => MakeProduct(a, b));
	293	}
	294	}
	295
	296	private SymbolicExpressionTreeNode SimplifySubtraction(SymbolicExpressionTreeNode original) {
	297	if (original.SubTrees.Count == 1) {
	298	return Negate(GetSimplifiedTree(original.SubTrees[0]));
	299	} else {
	300	// simplify expressions x0..xn
	301	// make addition (x0,-x1..-xn)
	302	Trace.Assert(original.SubTrees.Count > 1);
	303	var simplifiedTrees = original.SubTrees.Select(x => GetSimplifiedTree(x));
	304	return simplifiedTrees.Take(1)
	305	.Concat(simplifiedTrees.Skip(1).Select(x => Negate(x)))
	306	.Aggregate((a, b) => MakeSum(a, b));
	307	}
	308	}
	309
	310	private SymbolicExpressionTreeNode SimplifyAddition(SymbolicExpressionTreeNode original) {
	311	if (original.SubTrees.Count == 1) {
	312	return GetSimplifiedTree(original.SubTrees[0]);
	313	} else {
	314	// simplify expression x0..xn
	315	// make addition (x0..xn)
	316	Trace.Assert(original.SubTrees.Count > 1);
	317	return original.SubTrees
	318	.Select(x => GetSimplifiedTree(x))
	319	.Aggregate((a, b) => MakeSum(a, b));
	320	}
	321	}
[5455]	322
	323	private SymbolicExpressionTreeNode SimplifyNot(SymbolicExpressionTreeNode original) {
	324	return MakeNot(GetSimplifiedTree(original.SubTrees[0]));
	325	}
	326	private SymbolicExpressionTreeNode SimplifyOr(SymbolicExpressionTreeNode original) {
	327	return original.SubTrees
	328	.Select(x => GetSimplifiedTree(x))
	329	.Aggregate((a, b) => MakeOr(a, b));
	330	}
	331	private SymbolicExpressionTreeNode SimplifyAnd(SymbolicExpressionTreeNode original) {
	332	return original.SubTrees
	333	.Select(x => GetSimplifiedTree(x))
	334	.Aggregate((a, b) => MakeAnd(a, b));
	335	}
	336	private SymbolicExpressionTreeNode SimplifyLessThan(SymbolicExpressionTreeNode original) {
	337	return MakeLessThan(GetSimplifiedTree(original.SubTrees[0]), GetSimplifiedTree(original.SubTrees[1]));
	338	}
	339	private SymbolicExpressionTreeNode SimplifyGreaterThan(SymbolicExpressionTreeNode original) {
	340	return MakeGreaterThan(GetSimplifiedTree(original.SubTrees[0]), GetSimplifiedTree(original.SubTrees[1]));
	341	}
	342	private SymbolicExpressionTreeNode SimplifyIfThenElse(SymbolicExpressionTreeNode original) {
	343	return MakeIfThenElse(GetSimplifiedTree(original.SubTrees[0]), GetSimplifiedTree(original.SubTrees[1]), GetSimplifiedTree(original.SubTrees[2]));
	344	}
	345	private SymbolicExpressionTreeNode SimplifyTangent(SymbolicExpressionTreeNode original) {
	346	return MakeTangent(GetSimplifiedTree(original.SubTrees[0]));
	347	}
	348	private SymbolicExpressionTreeNode SimplifyCosine(SymbolicExpressionTreeNode original) {
	349	return MakeCosine(GetSimplifiedTree(original.SubTrees[0]));
	350	}
	351	private SymbolicExpressionTreeNode SimplifySine(SymbolicExpressionTreeNode original) {
	352	return MakeSine(GetSimplifiedTree(original.SubTrees[0]));
	353	}
	354	private SymbolicExpressionTreeNode SimplifyExp(SymbolicExpressionTreeNode original) {
	355	return MakeExp(GetSimplifiedTree(original.SubTrees[0]));
	356	}
	357
	358	private SymbolicExpressionTreeNode SimplifyLog(SymbolicExpressionTreeNode original) {
	359	return MakeLog(GetSimplifiedTree(original.SubTrees[0]));
	360	}
[5465]	361	private SymbolicExpressionTreeNode SimplifyRoot(SymbolicExpressionTreeNode original) {
	362	return MakeRoot(GetSimplifiedTree(original.SubTrees[0]), GetSimplifiedTree(original.SubTrees[1]));
	363	}
[5455]	364
[5465]	365	private SymbolicExpressionTreeNode SimplifyPower(SymbolicExpressionTreeNode original) {
	366	return MakePower(GetSimplifiedTree(original.SubTrees[0]), GetSimplifiedTree(original.SubTrees[1]));
	367	}
[4239]	368	#endregion
	369
	370	#region low level tree restructuring
[5455]	371	private SymbolicExpressionTreeNode MakeNot(SymbolicExpressionTreeNode t) {
	372	return MakeProduct(t, MakeConstant(-1.0));
	373	}
	374
	375	private SymbolicExpressionTreeNode MakeOr(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
	376	if (IsConstant(a) && IsConstant(b)) {
	377	var constA = a as ConstantTreeNode;
	378	var constB = b as ConstantTreeNode;
	379	if (constA.Value > 0.0 \|\| constB.Value > 0.0) {
	380	return MakeConstant(1.0);
	381	} else {
	382	return MakeConstant(-1.0);
	383	}
	384	} else if (IsConstant(a)) {
	385	return MakeOr(b, a);
	386	} else if (IsConstant(b)) {
	387	var constT = b as ConstantTreeNode;
	388	if (constT.Value > 0.0) {
	389	// boolean expression is necessarily true
	390	return MakeConstant(1.0);
	391	} else {
	392	// the constant value has no effect on the result of the boolean condition so we can drop the constant term
	393	var orNode = orSymbol.CreateTreeNode();
	394	orNode.AddSubTree(a);
	395	return orNode;
	396	}
	397	} else {
	398	var orNode = orSymbol.CreateTreeNode();
	399	orNode.AddSubTree(a);
	400	orNode.AddSubTree(b);
	401	return orNode;
	402	}
	403	}
	404	private SymbolicExpressionTreeNode MakeAnd(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
	405	if (IsConstant(a) && IsConstant(b)) {
	406	var constA = a as ConstantTreeNode;
	407	var constB = b as ConstantTreeNode;
	408	if (constA.Value > 0.0 && constB.Value > 0.0) {
	409	return MakeConstant(1.0);
	410	} else {
	411	return MakeConstant(-1.0);
	412	}
	413	} else if (IsConstant(a)) {
	414	return MakeAnd(b, a);
	415	} else if (IsConstant(b)) {
	416	var constB = b as ConstantTreeNode;
	417	if (constB.Value > 0.0) {
	418	// the constant value has no effect on the result of the boolean condition so we can drop the constant term
	419	var andNode = andSymbol.CreateTreeNode();
	420	andNode.AddSubTree(a);
	421	return andNode;
	422	} else {
	423	// boolean expression is necessarily false
	424	return MakeConstant(-1.0);
	425	}
	426	} else {
	427	var andNode = andSymbol.CreateTreeNode();
	428	andNode.AddSubTree(a);
	429	andNode.AddSubTree(b);
	430	return andNode;
	431	}
	432	}
	433	private SymbolicExpressionTreeNode MakeLessThan(SymbolicExpressionTreeNode leftSide, SymbolicExpressionTreeNode rightSide) {
	434	if (IsConstant(leftSide) && IsConstant(rightSide)) {
	435	var lsConst = leftSide as ConstantTreeNode;
	436	var rsConst = rightSide as ConstantTreeNode;
	437	if (lsConst.Value < rsConst.Value) return MakeConstant(1.0);
	438	else return MakeConstant(-1.0);
	439	} else {
	440	var ltNode = ltSymbol.CreateTreeNode();
	441	ltNode.AddSubTree(leftSide);
	442	ltNode.AddSubTree(rightSide);
	443	return ltNode;
	444	}
	445	}
	446	private SymbolicExpressionTreeNode MakeGreaterThan(SymbolicExpressionTreeNode leftSide, SymbolicExpressionTreeNode rightSide) {
	447	if (IsConstant(leftSide) && IsConstant(rightSide)) {
	448	var lsConst = leftSide as ConstantTreeNode;
	449	var rsConst = rightSide as ConstantTreeNode;
	450	if (lsConst.Value > rsConst.Value) return MakeConstant(1.0);
	451	else return MakeConstant(-1.0);
	452	} else {
	453	var gtNode = gtSymbol.CreateTreeNode();
	454	gtNode.AddSubTree(leftSide);
	455	gtNode.AddSubTree(rightSide);
	456	return gtNode;
	457	}
	458	}
	459	private SymbolicExpressionTreeNode MakeIfThenElse(SymbolicExpressionTreeNode condition, SymbolicExpressionTreeNode trueBranch, SymbolicExpressionTreeNode falseBranch) {
	460	if (IsConstant(condition)) {
	461	var constT = condition as ConstantTreeNode;
	462	if (constT.Value > 0.0) return trueBranch;
	463	else return falseBranch;
	464	} else {
	465	var ifNode = ifThenElseSymbol.CreateTreeNode();
[5461]	466	if (IsBoolean(condition)) {
	467	ifNode.AddSubTree(condition);
	468	} else {
	469	var gtNode = gtSymbol.CreateTreeNode();
	470	gtNode.AddSubTree(condition); gtNode.AddSubTree(MakeConstant(0.0));
	471	ifNode.AddSubTree(gtNode);
	472	}
[5455]	473	ifNode.AddSubTree(trueBranch);
	474	ifNode.AddSubTree(falseBranch);
	475	return ifNode;
	476	}
	477	}
[5461]	478
[5455]	479	private SymbolicExpressionTreeNode MakeSine(SymbolicExpressionTreeNode node) {
	480	if (IsConstant(node)) {
	481	var constT = node as ConstantTreeNode;
	482	return MakeConstant(Math.Sin(constT.Value));
	483	} else {
	484	var sineNode = sineSymbol.CreateTreeNode();
	485	sineNode.AddSubTree(node);
	486	return sineNode;
	487	}
	488	}
	489	private SymbolicExpressionTreeNode MakeTangent(SymbolicExpressionTreeNode node) {
	490	if (IsConstant(node)) {
	491	var constT = node as ConstantTreeNode;
	492	return MakeConstant(Math.Tan(constT.Value));
	493	} else {
	494	var tanNode = tanSymbol.CreateTreeNode();
	495	tanNode.AddSubTree(node);
	496	return tanNode;
	497	}
	498	}
	499	private SymbolicExpressionTreeNode MakeCosine(SymbolicExpressionTreeNode node) {
	500	if (IsConstant(node)) {
	501	var constT = node as ConstantTreeNode;
	502	return MakeConstant(Math.Cos(constT.Value));
	503	} else {
	504	var cosNode = cosineSymbol.CreateTreeNode();
	505	cosNode.AddSubTree(node);
	506	return cosNode;
	507	}
	508	}
	509	private SymbolicExpressionTreeNode MakeExp(SymbolicExpressionTreeNode node) {
	510	if (IsConstant(node)) {
	511	var constT = node as ConstantTreeNode;
	512	return MakeConstant(Math.Exp(constT.Value));
[5461]	513	} else if (IsLog(node)) {
	514	return node.SubTrees[0];
[5465]	515	} else if (IsAddition(node)) {
	516	return node.SubTrees.Select(s => MakeExp(s)).Aggregate((s, t) => MakeProduct(s, t));
	517	} else if (IsSubtraction(node)) {
	518	return node.SubTrees.Select(s => MakeExp(s)).Aggregate((s, t) => MakeProduct(s, Negate(t)));
[5455]	519	} else {
	520	var expNode = expSymbol.CreateTreeNode();
	521	expNode.AddSubTree(node);
	522	return expNode;
	523	}
	524	}
	525	private SymbolicExpressionTreeNode MakeLog(SymbolicExpressionTreeNode node) {
	526	if (IsConstant(node)) {
	527	var constT = node as ConstantTreeNode;
	528	return MakeConstant(Math.Log(constT.Value));
[5461]	529	} else if (IsExp(node)) {
	530	return node.SubTrees[0];
	531	} else if (IsMultiplication(node)) {
	532	return node.SubTrees.Select(s => MakeLog(s)).Aggregate((x, y) => MakeSum(x, y));
	533	} else if (IsDivision(node)) {
	534	var subtractionNode = subSymbol.CreateTreeNode();
	535	foreach (var subTree in node.SubTrees) {
	536	subtractionNode.AddSubTree(MakeLog(subTree));
	537	}
	538	return subtractionNode;
[5455]	539	} else {
	540	var logNode = logSymbol.CreateTreeNode();
	541	logNode.AddSubTree(node);
	542	return logNode;
	543	}
	544	}
[5465]	545	private SymbolicExpressionTreeNode MakeRoot(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
	546	if (IsConstant(a) && IsConstant(b)) {
	547	var constA = a as ConstantTreeNode;
	548	var constB = b as ConstantTreeNode;
	549	return MakeConstant(Math.Pow(constA.Value, 1.0 / Math.Round(constB.Value)));
	550	} else if (IsConstant(b)) {
	551	var constB = b as ConstantTreeNode;
	552	var constBValue = Math.Round(constB.Value);
	553	if (constBValue.IsAlmost(1.0)) {
	554	return a;
	555	} else if (constBValue.IsAlmost(0.0)) {
	556	return MakeConstant(1.0);
	557	} else if (constBValue.IsAlmost(-1.0)) {
	558	return MakeFraction(MakeConstant(1.0), a);
	559	} else if (constBValue < 0) {
	560	var rootNode = rootSymbol.CreateTreeNode();
	561	rootNode.AddSubTree(a);
	562	rootNode.AddSubTree(MakeConstant(-1.0 * constBValue));
	563	return MakeFraction(MakeConstant(1.0), rootNode);
	564	} else {
	565	var rootNode = rootSymbol.CreateTreeNode();
	566	rootNode.AddSubTree(a);
	567	rootNode.AddSubTree(MakeConstant(constBValue));
	568	return rootNode;
	569	}
	570	} else {
	571	var rootNode = rootSymbol.CreateTreeNode();
	572	rootNode.AddSubTree(a);
	573	rootNode.AddSubTree(b);
	574	return rootNode;
	575	}
	576	}
	577	private SymbolicExpressionTreeNode MakePower(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
	578	if (IsConstant(a) && IsConstant(b)) {
	579	var constA = a as ConstantTreeNode;
	580	var constB = b as ConstantTreeNode;
	581	return MakeConstant(Math.Pow(constA.Value, Math.Round(constB.Value)));
	582	} else if (IsConstant(b)) {
	583	var constB = b as ConstantTreeNode;
	584	double exponent = Math.Round(constB.Value);
	585	if (exponent.IsAlmost(0.0)) {
	586	return MakeConstant(1.0);
	587	} else if (exponent.IsAlmost(1.0)) {
	588	return a;
	589	} else if (exponent.IsAlmost(-1.0)) {
	590	return MakeFraction(MakeConstant(1.0), a);
	591	} else if (exponent < 0) {
	592	var powNode = powSymbol.CreateTreeNode();
	593	powNode.AddSubTree(a);
	594	powNode.AddSubTree(MakeConstant(-1.0 * exponent));
	595	return MakeFraction(MakeConstant(1.0), powNode);
	596	} else {
	597	var powNode = powSymbol.CreateTreeNode();
	598	powNode.AddSubTree(a);
	599	powNode.AddSubTree(MakeConstant(exponent));
	600	return powNode;
	601	}
	602	} else {
	603	var powNode = powSymbol.CreateTreeNode();
	604	powNode.AddSubTree(a);
	605	powNode.AddSubTree(b);
	606	return powNode;
	607	}
	608	}
[5455]	609
	610
[4239]	611	// MakeFraction, MakeProduct and MakeSum take two already simplified trees and create a new simplified tree
	612	private SymbolicExpressionTreeNode MakeFraction(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
[3442]	613	if (IsConstant(a) && IsConstant(b)) {
[4239]	614	// fold constants
[3442]	615	return MakeConstant(((ConstantTreeNode)a).Value / ((ConstantTreeNode)b).Value);
[4239]	616	} if (IsConstant(a) && !((ConstantTreeNode)a).Value.IsAlmost(1.0)) {
	617	return MakeFraction(MakeConstant(1.0), MakeProduct(b, Invert(a)));
[3442]	618	} else if (IsVariable(a) && IsConstant(b)) {
[4239]	619	// merge constant values into variable weights
[3442]	620	var constB = ((ConstantTreeNode)b).Value;
	621	((VariableTreeNode)a).Weight /= constB;
	622	return a;
[5461]	623	} else if (IsVariable(a) && IsVariable(b) && AreSameVariable(a, b)) {
	624	// cancel variables
	625	var aVar = a as VariableTreeNode;
	626	var bVar = b as VariableTreeNode;
	627	return MakeConstant(aVar.Weight / bVar.Weight);
[4239]	628	} else if (IsAddition(a) && IsConstant(b)) {
	629	return a.SubTrees
[4398]	630	.Select(x => GetSimplifiedTree(x))
[4239]	631	.Select(x => MakeFraction(x, b))
	632	.Aggregate((c, d) => MakeSum(c, d));
	633	} else if (IsMultiplication(a) && IsConstant(b)) {
	634	return MakeProduct(a, Invert(b));
	635	} else if (IsDivision(a) && IsConstant(b)) {
	636	// (a1 / a2) / c => (a1 / (a2 * c))
	637	Trace.Assert(a.SubTrees.Count == 2);
	638	return MakeFraction(a.SubTrees[0], MakeProduct(a.SubTrees[1], b));
	639	} else if (IsDivision(a) && IsDivision(b)) {
	640	// (a1 / a2) / (b1 / b2) =>
	641	Trace.Assert(a.SubTrees.Count == 2);
	642	Trace.Assert(b.SubTrees.Count == 2);
	643	return MakeFraction(MakeProduct(a.SubTrees[0], b.SubTrees[1]), MakeProduct(a.SubTrees[1], b.SubTrees[0]));
	644	} else if (IsDivision(a)) {
	645	// (a1 / a2) / b => (a1 / (a2 * b))
	646	Trace.Assert(a.SubTrees.Count == 2);
	647	return MakeFraction(a.SubTrees[0], MakeProduct(a.SubTrees[1], b));
	648	} else if (IsDivision(b)) {
	649	// a / (b1 / b2) => (a * b2) / b1
	650	Trace.Assert(b.SubTrees.Count == 2);
	651	return MakeFraction(MakeProduct(a, b.SubTrees[1]), b.SubTrees[0]);
[3442]	652	} else {
[3462]	653	var div = divSymbol.CreateTreeNode();
[3985]	654	div.AddSubTree(a);
	655	div.AddSubTree(b);
[3442]	656	return div;
	657	}
	658	}
	659
[4239]	660	private SymbolicExpressionTreeNode MakeSum(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
[3442]	661	if (IsConstant(a) && IsConstant(b)) {
[4239]	662	// fold constants
[3442]	663	((ConstantTreeNode)a).Value += ((ConstantTreeNode)b).Value;
	664	return a;
	665	} else if (IsConstant(a)) {
	666	// c + x => x + c
	667	// b is not constant => make sure constant is on the right
[4239]	668	return MakeSum(b, a);
[3442]	669	} else if (IsConstant(b) && ((ConstantTreeNode)b).Value.IsAlmost(0.0)) {
	670	// x + 0 => x
	671	return a;
	672	} else if (IsAddition(a) && IsAddition(b)) {
	673	// merge additions
[3462]	674	var add = addSymbol.CreateTreeNode();
[3442]	675	for (int i = 0; i < a.SubTrees.Count - 1; i++) add.AddSubTree(a.SubTrees[i]);
	676	for (int i = 0; i < b.SubTrees.Count - 1; i++) add.AddSubTree(b.SubTrees[i]);
	677	if (IsConstant(a.SubTrees.Last()) && IsConstant(b.SubTrees.Last())) {
[4239]	678	add.AddSubTree(MakeSum(a.SubTrees.Last(), b.SubTrees.Last()));
[3442]	679	} else if (IsConstant(a.SubTrees.Last())) {
	680	add.AddSubTree(b.SubTrees.Last());
	681	add.AddSubTree(a.SubTrees.Last());
	682	} else {
	683	add.AddSubTree(a.SubTrees.Last());
	684	add.AddSubTree(b.SubTrees.Last());
	685	}
[4239]	686	MergeVariablesInSum(add);
[5461]	687	if (add.SubTrees.Count == 1) {
	688	return add.SubTrees[0];
	689	} else {
	690	return add;
	691	}
[3442]	692	} else if (IsAddition(b)) {
[4239]	693	return MakeSum(b, a);
[3442]	694	} else if (IsAddition(a) && IsConstant(b)) {
[4239]	695	// a is an addition and b is a constant => append b to a and make sure the constants are merged
[3462]	696	var add = addSymbol.CreateTreeNode();
[3442]	697	for (int i = 0; i < a.SubTrees.Count - 1; i++) add.AddSubTree(a.SubTrees[i]);
	698	if (IsConstant(a.SubTrees.Last()))
[4239]	699	add.AddSubTree(MakeSum(a.SubTrees.Last(), b));
[3442]	700	else {
	701	add.AddSubTree(a.SubTrees.Last());
	702	add.AddSubTree(b);
	703	}
	704	return add;
	705	} else if (IsAddition(a)) {
[4239]	706	// a is already an addition => append b
[3462]	707	var add = addSymbol.CreateTreeNode();
[3442]	708	add.AddSubTree(b);
	709	foreach (var subTree in a.SubTrees) {
	710	add.AddSubTree(subTree);
	711	}
[4239]	712	MergeVariablesInSum(add);
[5461]	713	if (add.SubTrees.Count == 1) {
	714	return add.SubTrees[0];
	715	} else {
	716	return add;
	717	}
[3442]	718	} else {
[3462]	719	var add = addSymbol.CreateTreeNode();
[3985]	720	add.AddSubTree(a);
	721	add.AddSubTree(b);
[4239]	722	MergeVariablesInSum(add);
[5461]	723	if (add.SubTrees.Count == 1) {
	724	return add.SubTrees[0];
	725	} else {
	726	return add;
	727	}
[3442]	728	}
	729	}
	730
[4239]	731	// makes sure variable symbols in sums are combined
[5461]	732	// possible improvement: combine sums of products where the products only reference the same variable
[4239]	733	private void MergeVariablesInSum(SymbolicExpressionTreeNode sum) {
	734	var subtrees = new List<SymbolicExpressionTreeNode>(sum.SubTrees);
	735	while (sum.SubTrees.Count > 0) sum.RemoveSubTree(0);
[3442]	736	var groupedVarNodes = from node in subtrees.OfType<VariableTreeNode>()
[5377]	737	let lag = (node is LaggedVariableTreeNode) ? ((LaggedVariableTreeNode)node).Lag : 0
	738	group node by node.VariableName + lag into g
[3442]	739	select g;
	740	var unchangedSubTrees = subtrees.Where(t => !(t is VariableTreeNode));
	741
	742	foreach (var variableNodeGroup in groupedVarNodes) {
	743	var weightSum = variableNodeGroup.Select(t => t.Weight).Sum();
	744	var representative = variableNodeGroup.First();
	745	representative.Weight = weightSum;
[4239]	746	sum.AddSubTree(representative);
[3442]	747	}
	748	foreach (var unchangedSubtree in unchangedSubTrees)
[4239]	749	sum.AddSubTree(unchangedSubtree);
[3442]	750	}
	751
[4239]	752
	753	private SymbolicExpressionTreeNode MakeProduct(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
[3442]	754	if (IsConstant(a) && IsConstant(b)) {
[4239]	755	// fold constants
[3442]	756	((ConstantTreeNode)a).Value *= ((ConstantTreeNode)b).Value;
	757	return a;
	758	} else if (IsConstant(a)) {
[4239]	759	// a * $ => $ * a
	760	return MakeProduct(b, a);
[3442]	761	} else if (IsConstant(b) && ((ConstantTreeNode)b).Value.IsAlmost(1.0)) {
[4239]	762	// $ * 1.0 => $
[3442]	763	return a;
	764	} else if (IsConstant(b) && IsVariable(a)) {
[4239]	765	// multiply constants into variables weights
[3442]	766	((VariableTreeNode)a).Weight *= ((ConstantTreeNode)b).Value;
	767	return a;
	768	} else if (IsConstant(b) && IsAddition(a)) {
[4239]	769	// multiply constants into additions
	770	return a.SubTrees.Select(x => MakeProduct(x, b)).Aggregate((c, d) => MakeSum(c, d));
[4068]	771	} else if (IsDivision(a) && IsDivision(b)) {
[4239]	772	// (a1 / a2) * (b1 / b2) => (a1 * b1) / (a2 * b2)
	773	Trace.Assert(a.SubTrees.Count == 2);
	774	Trace.Assert(b.SubTrees.Count == 2);
	775	return MakeFraction(MakeProduct(a.SubTrees[0], b.SubTrees[0]), MakeProduct(a.SubTrees[1], b.SubTrees[1]));
[3442]	776	} else if (IsDivision(a)) {
[4239]	777	// (a1 / a2) * b => (a1 * b) / a2
[3442]	778	Trace.Assert(a.SubTrees.Count == 2);
[4239]	779	return MakeFraction(MakeProduct(a.SubTrees[0], b), a.SubTrees[1]);
[3442]	780	} else if (IsDivision(b)) {
[4239]	781	// a * (b1 / b2) => (b1 * a) / b2
[3442]	782	Trace.Assert(b.SubTrees.Count == 2);
[4239]	783	return MakeFraction(MakeProduct(b.SubTrees[0], a), b.SubTrees[1]);
[3442]	784	} else if (IsMultiplication(a) && IsMultiplication(b)) {
[4239]	785	// merge multiplications (make sure constants are merged)
[3462]	786	var mul = mulSymbol.CreateTreeNode();
[4239]	787	for (int i = 0; i < a.SubTrees.Count; i++) mul.AddSubTree(a.SubTrees[i]);
	788	for (int i = 0; i < b.SubTrees.Count; i++) mul.AddSubTree(b.SubTrees[i]);
	789	MergeVariablesAndConstantsInProduct(mul);
[3442]	790	return mul;
[4239]	791	} else if (IsMultiplication(b)) {
	792	return MakeProduct(b, a);
[3442]	793	} else if (IsMultiplication(a)) {
[4239]	794	// a is already an multiplication => append b
	795	a.AddSubTree(b);
	796	MergeVariablesAndConstantsInProduct(a);
	797	return a;
[3442]	798	} else {
[3462]	799	var mul = mulSymbol.CreateTreeNode();
[3442]	800	mul.SubTrees.Add(a);
	801	mul.SubTrees.Add(b);
[4239]	802	MergeVariablesAndConstantsInProduct(mul);
[3442]	803	return mul;
	804	}
	805	}
[4239]	806	#endregion
[3442]	807
[5461]	808
	809	#region helper functions
	810
	811	private bool AreSameVariable(SymbolicExpressionTreeNode a, SymbolicExpressionTreeNode b) {
	812	var aLaggedVar = a as LaggedVariableTreeNode;
	813	var bLaggedVar = b as LaggedVariableTreeNode;
	814	if (aLaggedVar != null && bLaggedVar != null) {
	815	return aLaggedVar.VariableName == bLaggedVar.VariableName &&
	816	aLaggedVar.Lag == bLaggedVar.Lag;
	817	}
	818	var aVar = a as VariableTreeNode;
	819	var bVar = b as VariableTreeNode;
	820	if (aVar != null && bVar != null) {
	821	return aVar.VariableName == bVar.VariableName;
	822	}
	823	return false;
	824	}
	825
[4239]	826	// helper to combine the constant factors in products and to combine variables (powers of 2, 3...)
	827	private void MergeVariablesAndConstantsInProduct(SymbolicExpressionTreeNode prod) {
	828	var subtrees = new List<SymbolicExpressionTreeNode>(prod.SubTrees);
	829	while (prod.SubTrees.Count > 0) prod.RemoveSubTree(0);
	830	var groupedVarNodes = from node in subtrees.OfType<VariableTreeNode>()
[5377]	831	let lag = (node is LaggedVariableTreeNode) ? ((LaggedVariableTreeNode)node).Lag : 0
	832	group node by node.VariableName + lag into g
[4239]	833	orderby g.Count()
	834	select g;
	835	var constantProduct = (from node in subtrees.OfType<VariableTreeNode>()
	836	select node.Weight)
	837	.Concat(from node in subtrees.OfType<ConstantTreeNode>()
	838	select node.Value)
	839	.DefaultIfEmpty(1.0)
	840	.Aggregate((c1, c2) => c1 * c2);
[3442]	841
[4239]	842	var unchangedSubTrees = from tree in subtrees
	843	where !(tree is VariableTreeNode)
	844	where !(tree is ConstantTreeNode)
	845	select tree;
[3442]	846
[4239]	847	foreach (var variableNodeGroup in groupedVarNodes) {
	848	var representative = variableNodeGroup.First();
	849	representative.Weight = 1.0;
	850	if (variableNodeGroup.Count() > 1) {
	851	var poly = mulSymbol.CreateTreeNode();
	852	for (int p = 0; p < variableNodeGroup.Count(); p++) {
	853	poly.AddSubTree((SymbolicExpressionTreeNode)representative.Clone());
	854	}
	855	prod.AddSubTree(poly);
	856	} else {
	857	prod.AddSubTree(representative);
	858	}
	859	}
[3442]	860
[4239]	861	foreach (var unchangedSubtree in unchangedSubTrees)
	862	prod.AddSubTree(unchangedSubtree);
[3442]	863
[4239]	864	if (!constantProduct.IsAlmost(1.0)) {
	865	prod.AddSubTree(MakeConstant(constantProduct));
	866	}
[3442]	867	}
	868
[4239]	869
	870	/// <summary>
	871	/// x => x * -1
	872	/// Doesn't create new trees and manipulates x
	873	/// </summary>
	874	/// <param name="x"></param>
	875	/// <returns>-x</returns>
	876	private SymbolicExpressionTreeNode Negate(SymbolicExpressionTreeNode x) {
	877	if (IsConstant(x)) {
	878	((ConstantTreeNode)x).Value *= -1;
	879	} else if (IsVariable(x)) {
	880	var variableTree = (VariableTreeNode)x;
	881	variableTree.Weight *= -1.0;
	882	} else if (IsAddition(x)) {
	883	// (x0 + x1 + .. + xn) * -1 => (-x0 + -x1 + .. + -xn)
[5108]	884	for (int i = 0; i < x.SubTrees.Count; i++)
	885	x.SubTrees[i] = Negate(x.SubTrees[i]);
[4239]	886	} else if (IsMultiplication(x) \|\| IsDivision(x)) {
	887	// x0 * x1 * .. * xn * -1 => x0 * x1 * .. * -xn
[5108]	888	x.SubTrees[x.SubTrees.Count - 1] = Negate(x.SubTrees.Last()); // last is maybe a constant, prefer to negate the constant
[4239]	889	} else {
	890	// any other function
	891	return MakeProduct(x, MakeConstant(-1));
	892	}
	893	return x;
[3442]	894	}
[3876]	895
[4239]	896	/// <summary>
	897	/// x => 1/x
	898	/// Doesn't create new trees and manipulates x
	899	/// </summary>
	900	/// <param name="x"></param>
	901	/// <returns></returns>
	902	private SymbolicExpressionTreeNode Invert(SymbolicExpressionTreeNode x) {
	903	if (IsConstant(x)) {
	904	return MakeConstant(1.0 / ((ConstantTreeNode)x).Value);
	905	} else if (IsDivision(x)) {
	906	Trace.Assert(x.SubTrees.Count == 2);
	907	return MakeFraction(x.SubTrees[1], x.SubTrees[0]);
	908	} else {
	909	// any other function
	910	return MakeFraction(MakeConstant(1), x);
	911	}
[3876]	912	}
[3442]	913
	914	private SymbolicExpressionTreeNode MakeConstant(double value) {
[3462]	915	ConstantTreeNode constantTreeNode = (ConstantTreeNode)(constSymbol.CreateTreeNode());
[3442]	916	constantTreeNode.Value = value;
	917	return (SymbolicExpressionTreeNode)constantTreeNode;
	918	}
	919
	920	private SymbolicExpressionTreeNode MakeVariable(double weight, string name) {
[3462]	921	var tree = (VariableTreeNode)varSymbol.CreateTreeNode();
[3442]	922	tree.Weight = weight;
	923	tree.VariableName = name;
	924	return tree;
	925	}
[4239]	926	#endregion
[3442]	927	}
	928	}

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