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source: branches/HeuristicLab.Problems.GrammaticalOptimization-gkr/Test/TestTunedSettings.cs @ 13401

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Last change on this file since 13401 was 12893, checked in by gkronber, 9 years ago
#2283: experiments on grammatical optimization algorithms (maxreward instead of avg reward, ...)
File size: 19.3 KB

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[12014]	1	using System;
	2	using System.Collections.Generic;
	3	using System.Globalization;
	4	using System.Linq;
	5	using System.Text;
	6	using System.Threading.Tasks;
	7	using HeuristicLab.Algorithms.Bandits;
	8	using HeuristicLab.Algorithms.Bandits.BanditPolicies;
	9	using HeuristicLab.Algorithms.Bandits.GrammarPolicies;
	10	using HeuristicLab.Algorithms.Bandits.Models;
	11	using HeuristicLab.Algorithms.GrammaticalOptimization;
	12	using HeuristicLab.Common;
[12025]	13	using HeuristicLab.Problems.GrammaticalOptimization.SymbReg;
[12014]	14	using Microsoft.VisualStudio.TestTools.UnitTesting;
	15	using RandomPolicy = HeuristicLab.Algorithms.Bandits.BanditPolicies.RandomPolicy;
	16
	17	namespace HeuristicLab.Problems.GrammaticalOptimization.Test {
	18	[TestClass]
	19	public class TestTunedSettings {
	20	private const int randSeed = 31415;
	21	internal class Configuration {
	22	public IProblem Problem;
	23	public int MaxSize;
	24	public int RandSeed;
	25
	26	public override string ToString() {
	27	return string.Format("{0} {1} {2}", RandSeed, Problem, MaxSize);
	28	}
	29	}
	30	[TestMethod]
[12025]	31	[Timeout(1000 * 60 * 60 * 12)] // 12 hours
	32	public void TestAllPoliciesArtificialAnt() {
[12014]	33	CultureInfo.DefaultThreadCurrentCulture = CultureInfo.InvariantCulture;
	34
	35	var instanceFactories = new Func<int, ISymbolicExpressionTreeProblem>[]
	36	{
	37	(randSeed) => (ISymbolicExpressionTreeProblem)new SantaFeAntProblem(),
	38	};
	39
	40	var policyFactories = new Func<IBanditPolicy>[]
	41	{
	42	() => new RandomPolicy(),
[12025]	43	() => new ActiveLearningPolicy(),
[12290]	44	// () => new EpsGreedyPolicy(0.01, (aInfo)=> aInfo.MaxReward, "max"),
	45	// () => new EpsGreedyPolicy(0.05, (aInfo)=> aInfo.MaxReward, "max"),
	46	// () => new EpsGreedyPolicy(0.1, (aInfo)=> aInfo.MaxReward, "max"),
	47	// () => new EpsGreedyPolicy(0.2, (aInfo)=> aInfo.MaxReward, "max"),
[12014]	48	//() => new GaussianThompsonSamplingPolicy(),
	49	() => new GaussianThompsonSamplingPolicy(true),
	50	() => new GenericThompsonSamplingPolicy(new GaussianModel(0.5, 10, 1)),
	51	() => new GenericThompsonSamplingPolicy(new GaussianModel(0.5, 10, 1, 1)),
	52	//() => new BernoulliThompsonSamplingPolicy(),
	53	() => new GenericThompsonSamplingPolicy(new BernoulliModel(1, 1)),
	54	() => new EpsGreedyPolicy(0.01),
	55	() => new EpsGreedyPolicy(0.05),
	56	() => new EpsGreedyPolicy(0.1),
	57	() => new EpsGreedyPolicy(0.2),
	58	() => new EpsGreedyPolicy(0.5),
	59	() => new UCTPolicy(0.01),
	60	() => new UCTPolicy(0.05),
	61	() => new UCTPolicy(0.1),
	62	() => new UCTPolicy(0.5),
	63	() => new UCTPolicy(1),
	64	() => new UCTPolicy(2),
	65	() => new UCTPolicy( 5),
	66	() => new UCTPolicy( 10),
	67	() => new ModifiedUCTPolicy(0.01),
	68	() => new ModifiedUCTPolicy(0.05),
	69	() => new ModifiedUCTPolicy(0.1),
	70	() => new ModifiedUCTPolicy(0.5),
	71	() => new ModifiedUCTPolicy(1),
	72	() => new ModifiedUCTPolicy(2),
	73	() => new ModifiedUCTPolicy( 5),
	74	() => new ModifiedUCTPolicy( 10),
	75	() => new UCB1Policy(),
	76	() => new UCB1TunedPolicy(),
	77	() => new UCBNormalPolicy(),
	78	() => new BoltzmannExplorationPolicy(1),
	79	() => new BoltzmannExplorationPolicy(10),
	80	() => new BoltzmannExplorationPolicy(20),
	81	() => new BoltzmannExplorationPolicy(100),
	82	() => new BoltzmannExplorationPolicy(200),
	83	() => new BoltzmannExplorationPolicy(500),
[12025]	84	() => new ChernoffIntervalEstimationPolicy( 0.01),
	85	() => new ChernoffIntervalEstimationPolicy( 0.05),
	86	() => new ChernoffIntervalEstimationPolicy( 0.1),
	87	() => new ChernoffIntervalEstimationPolicy( 0.2),
[12014]	88	() => new ThresholdAscentPolicy(5, 0.01),
	89	() => new ThresholdAscentPolicy(5, 0.05),
	90	() => new ThresholdAscentPolicy(5, 0.1),
	91	() => new ThresholdAscentPolicy(5, 0.2),
	92	() => new ThresholdAscentPolicy(10, 0.01),
	93	() => new ThresholdAscentPolicy(10, 0.05),
	94	() => new ThresholdAscentPolicy(10, 0.1),
	95	() => new ThresholdAscentPolicy(10, 0.2),
	96	() => new ThresholdAscentPolicy(50, 0.01),
	97	() => new ThresholdAscentPolicy(50, 0.05),
	98	() => new ThresholdAscentPolicy(50, 0.1),
	99	() => new ThresholdAscentPolicy(50, 0.2),
	100	() => new ThresholdAscentPolicy(100, 0.01),
	101	() => new ThresholdAscentPolicy(100, 0.05),
	102	() => new ThresholdAscentPolicy(100, 0.1),
	103	() => new ThresholdAscentPolicy(100, 0.2),
	104	() => new ThresholdAscentPolicy(500, 0.01),
	105	() => new ThresholdAscentPolicy(500, 0.05),
	106	() => new ThresholdAscentPolicy(500, 0.1),
	107	() => new ThresholdAscentPolicy(500, 0.2),
	108	() => new ThresholdAscentPolicy(5000, 0.01),
	109	() => new ThresholdAscentPolicy(10000, 0.01),
	110	};
	111	var maxSizes = new int[] { 17 }; // necessary size for ant programm
	112	int nReps = 20;
[12025]	113	int maxIterations = 100000;
[12014]	114	foreach (var instanceFactory in instanceFactories) {
	115	var sumBestQ = 0.0;
	116	var sumItersToBest = 0;
	117	double fractionSolved = 0.0;
	118	foreach (var conf in GenerateConfigurations(instanceFactory, nReps, maxSizes)) {
	119	foreach (var policy in policyFactories) {
	120	var prob = conf.Problem;
	121	var maxLen = conf.MaxSize;
	122	var rand = new Random(conf.RandSeed);
	123
	124	var solver = new SequentialSearch(prob, maxLen, rand, 0, new GenericGrammarPolicy(prob, policy(), true));
	125	var problemName = prob.GetType().Name;
	126	var policyName = policy().ToString();
	127	double bestQ; int itersToBest;
	128	RunSolver(solver, problemName, policyName, 1.0, maxIterations, maxLen, out bestQ, out itersToBest);
	129	sumBestQ += bestQ;
	130	sumItersToBest += itersToBest;
	131	if (bestQ.IsAlmost(1.0)) fractionSolved += 1.0 / nReps;
	132	}
	133	}
	134	// Assert.AreEqual(0.85, fractionSolved, 1E-6);
	135	// Assert.AreEqual(0.99438202247191, sumBestQ / nReps, 1E-6);
	136	// Assert.AreEqual(5461.7, sumItersToBest / (double)nReps, 1E-6);
	137	}
[12025]	138	}
[12014]	139
[12099]	140	[TestMethod]
	141	[Timeout(1000 * 60 * 60 * 30)] // 30 hours
	142	public void TestAllPoliciesPoly10() {
	143	CultureInfo.DefaultThreadCurrentCulture = CultureInfo.InvariantCulture;
[12025]	144
[12099]	145	var instanceFactories = new Func<int, ISymbolicExpressionTreeProblem>[]
	146	{
	147	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionPoly10Problem(),
	148	};
	149
	150	var policyFactories = new Func<IBanditPolicy>[]
	151	{
	152	() => new RandomPolicy(),
	153	() => new ActiveLearningPolicy(),
[12290]	154	// () => new EpsGreedyPolicy(0.01, (aInfo)=> aInfo.MaxReward, "max"),
	155	// () => new EpsGreedyPolicy(0.05, (aInfo)=> aInfo.MaxReward, "max"),
	156	// () => new EpsGreedyPolicy(0.1, (aInfo)=> aInfo.MaxReward, "max"),
	157	// () => new EpsGreedyPolicy(0.2, (aInfo)=> aInfo.MaxReward, "max"),
[12099]	158	//() => new GaussianThompsonSamplingPolicy(),
	159	() => new GaussianThompsonSamplingPolicy(true),
	160	() => new GenericThompsonSamplingPolicy(new GaussianModel(0.5, 10, 1)),
	161	() => new GenericThompsonSamplingPolicy(new GaussianModel(0.5, 10, 1, 1)),
	162	//() => new BernoulliThompsonSamplingPolicy(),
	163	() => new GenericThompsonSamplingPolicy(new BernoulliModel(1, 1)),
	164	() => new EpsGreedyPolicy(0.01),
	165	() => new EpsGreedyPolicy(0.05),
	166	() => new EpsGreedyPolicy(0.1),
	167	() => new EpsGreedyPolicy(0.2),
	168	() => new EpsGreedyPolicy(0.5),
	169	() => new UCTPolicy(0.01),
	170	() => new UCTPolicy(0.05),
	171	() => new UCTPolicy(0.1),
	172	() => new UCTPolicy(0.5),
	173	() => new UCTPolicy(1),
	174	() => new UCTPolicy(2),
	175	() => new UCTPolicy( 5),
	176	() => new UCTPolicy( 10),
	177	() => new ModifiedUCTPolicy(0.01),
	178	() => new ModifiedUCTPolicy(0.05),
	179	() => new ModifiedUCTPolicy(0.1),
	180	() => new ModifiedUCTPolicy(0.5),
	181	() => new ModifiedUCTPolicy(1),
	182	() => new ModifiedUCTPolicy(2),
	183	() => new ModifiedUCTPolicy( 5),
	184	() => new ModifiedUCTPolicy( 10),
	185	() => new UCB1Policy(),
	186	() => new UCB1TunedPolicy(),
	187	() => new UCBNormalPolicy(),
	188	() => new BoltzmannExplorationPolicy(1),
	189	() => new BoltzmannExplorationPolicy(10),
	190	() => new BoltzmannExplorationPolicy(20),
	191	() => new BoltzmannExplorationPolicy(100),
	192	() => new BoltzmannExplorationPolicy(200),
	193	() => new BoltzmannExplorationPolicy(500),
	194	() => new ChernoffIntervalEstimationPolicy( 0.01),
	195	() => new ChernoffIntervalEstimationPolicy( 0.05),
	196	() => new ChernoffIntervalEstimationPolicy( 0.1),
	197	() => new ChernoffIntervalEstimationPolicy( 0.2),
	198	() => new ThresholdAscentPolicy(5, 0.01),
	199	() => new ThresholdAscentPolicy(5, 0.05),
	200	() => new ThresholdAscentPolicy(5, 0.1),
	201	() => new ThresholdAscentPolicy(5, 0.2),
	202	() => new ThresholdAscentPolicy(10, 0.01),
	203	() => new ThresholdAscentPolicy(10, 0.05),
	204	() => new ThresholdAscentPolicy(10, 0.1),
	205	() => new ThresholdAscentPolicy(10, 0.2),
	206	() => new ThresholdAscentPolicy(50, 0.01),
	207	() => new ThresholdAscentPolicy(50, 0.05),
	208	() => new ThresholdAscentPolicy(50, 0.1),
	209	() => new ThresholdAscentPolicy(50, 0.2),
	210	() => new ThresholdAscentPolicy(100, 0.01),
	211	() => new ThresholdAscentPolicy(100, 0.05),
	212	() => new ThresholdAscentPolicy(100, 0.1),
	213	() => new ThresholdAscentPolicy(100, 0.2),
	214	() => new ThresholdAscentPolicy(500, 0.01),
	215	() => new ThresholdAscentPolicy(500, 0.05),
	216	() => new ThresholdAscentPolicy(500, 0.1),
	217	() => new ThresholdAscentPolicy(500, 0.2),
	218	() => new ThresholdAscentPolicy(5000, 0.01),
	219	() => new ThresholdAscentPolicy(10000, 0.01),
	220	};
	221	var maxSizes = new int[] { 23 }; // necessary size symb reg poly 10
	222	int nReps = 20;
	223	int maxIterations = 100000;
	224	foreach (var instanceFactory in instanceFactories) {
	225	var sumBestQ = 0.0;
	226	var sumItersToBest = 0;
	227	double fractionSolved = 0.0;
	228	foreach (var conf in GenerateConfigurations(instanceFactory, nReps, maxSizes)) {
	229	foreach (var policy in policyFactories) {
	230	var prob = conf.Problem;
	231	var maxLen = conf.MaxSize;
	232	var rand = new Random(conf.RandSeed);
	233
	234	var solver = new SequentialSearch(prob, maxLen, rand, 0, new GenericGrammarPolicy(prob, policy(), true));
	235	var problemName = prob.GetType().Name;
	236	var policyName = policy().ToString();
	237	double bestQ; int itersToBest;
	238	RunSolver(solver, problemName, policyName, 1.0, maxIterations, maxLen, out bestQ, out itersToBest);
	239	sumBestQ += bestQ;
	240	sumItersToBest += itersToBest;
	241	if (bestQ.IsAlmost(1.0)) fractionSolved += 1.0 / nReps;
	242	}
	243	}
	244	// Assert.AreEqual(0.85, fractionSolved, 1E-6);
	245	// Assert.AreEqual(0.99438202247191, sumBestQ / nReps, 1E-6);
	246	// Assert.AreEqual(5461.7, sumItersToBest / (double)nReps, 1E-6);
	247	}
	248	}
	249
[12025]	250	[TestMethod]
[12099]	251	[Timeout(1000 * 60 * 60 * 30)] // 30 hours
	252	public void TestAllSymbolicRegression() {
	253	CultureInfo.DefaultThreadCurrentCulture = CultureInfo.InvariantCulture;
	254
	255	var instanceFactories = new Func<int, ISymbolicExpressionTreeProblem>[]
	256	{
[12290]	257	//(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Nguyen F7", true), very easy?!
	258	//(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Keijzer 6", true), very easy?!
[12893]	259	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Vladislavleva-4", true), // kommenda - const opt
	260	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Spatial", true),
	261	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Friedman - II", true),
	262	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Tower", true),
[12099]	263	};
	264
	265	var policyFactories = new Func<IBanditPolicy>[]
	266	{
	267	() => new UCTPolicy(0.05),
	268	() => new UCTPolicy(0.1),
	269	() => new ModifiedUCTPolicy(0.01),
	270	() => new ModifiedUCTPolicy(0.05),
	271	() => new UCB1Policy(),
	272	() => new UCB1TunedPolicy(),
	273	};
	274	var maxSizes = new int[] { 20 }; // default limit for all problems
	275	int nReps = 20;
	276	int maxIterations = 10000;
	277	foreach (var instanceFactory in instanceFactories) {
	278	var sumBestQ = 0.0;
	279	var sumItersToBest = 0;
	280	double fractionSolved = 0.0;
	281	foreach (var conf in GenerateConfigurations(instanceFactory, nReps, maxSizes)) {
	282	foreach (var policy in policyFactories) {
	283	var prob = conf.Problem;
	284	var maxLen = conf.MaxSize;
	285	var rand = new Random(conf.RandSeed);
	286
	287	var solver = new SequentialSearch(prob, maxLen, rand, 0, new GenericGrammarPolicy(prob, policy(), true));
	288	var problemName = prob.Name;
	289	var policyName = policy().ToString();
	290	double bestQ; int itersToBest;
	291	RunSolver(solver, problemName, policyName, 1.0, maxIterations, maxLen, out bestQ, out itersToBest);
	292	sumBestQ += bestQ;
	293	sumItersToBest += itersToBest;
	294	if (bestQ.IsAlmost(1.0)) fractionSolved += 1.0 / nReps;
	295	}
	296	}
	297	// Assert.AreEqual(0.85, fractionSolved, 1E-6);
	298	// Assert.AreEqual(0.99438202247191, sumBestQ / nReps, 1E-6);
	299	// Assert.AreEqual(5461.7, sumItersToBest / (double)nReps, 1E-6);
	300	}
	301	}
	302
	303	[TestMethod]
[12025]	304	[Timeout(1000 * 60 * 60 * 12)] // 12 hours
	305	// this configuration worked especially well in the experiments
	306	public void TestPoly10WithOutConstantOpt() {
	307	CultureInfo.DefaultThreadCurrentCulture = CultureInfo.InvariantCulture;
	308
	309	var instanceFactories = new Func<int, ISymbolicExpressionTreeProblem>[]
	310	{
	311	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionPoly10Problem(),
	312	};
	313
[12099]	314	var maxSizes = new int[] { 23 };
[12025]	315	int nReps = 20;
	316	int maxIterations = 100000;
	317	foreach (var instanceFactory in instanceFactories) {
	318	var sumBestQ = 0.0;
	319	var sumItersToBest = 0;
	320	double fractionSolved = 0.0;
	321	foreach (var conf in GenerateConfigurations(instanceFactory, nReps, maxSizes)) {
	322	var prob = conf.Problem;
	323	var maxLen = conf.MaxSize;
	324	var rand = new Random(conf.RandSeed);
	325
	326	var solver = new SequentialSearch(prob, maxLen, rand, 0,
	327	new GenericFunctionApproximationGrammarPolicy(prob, true));
	328
	329	var problemName = prob.GetType().Name;
	330	double bestQ; int itersToBest;
	331	RunSolver(solver, problemName, string.Empty, 1.0, maxIterations, maxLen, out bestQ, out itersToBest);
	332	sumBestQ += bestQ;
	333	sumItersToBest += itersToBest;
	334	if (bestQ.IsAlmost(1.0)) fractionSolved += 1.0 / nReps;
	335	}
	336	// Assert.AreEqual(0.85, fractionSolved, 1E-6);
	337	// Assert.AreEqual(0.99438202247191, sumBestQ / nReps, 1E-6);
	338	// Assert.AreEqual(5461.7, sumItersToBest / (double)nReps, 1E-6);
	339	}
[12014]	340	}
	341
[12025]	342	[TestMethod]
	343	[Timeout(1000 * 60 * 60 * 12)] // 12 hours
	344	// this configuration worked especially well in the experiments
	345	public void TestPoly10WithConstantOpt() {
	346	CultureInfo.DefaultThreadCurrentCulture = CultureInfo.InvariantCulture;
	347
	348	var instanceFactories = new Func<int, ISymbolicExpressionTreeProblem>[]
	349	{
[12893]	350	(randSeed) => (ISymbolicExpressionTreeProblem)new SymbolicRegressionProblem(new Random(randSeed), "Poly-10", true ),
[12025]	351	};
	352
[12099]	353	var maxSizes = new int[] { 23 };
[12025]	354	int nReps = 20;
	355	int maxIterations = 100000;
	356	foreach (var instanceFactory in instanceFactories) {
	357	var sumBestQ = 0.0;
	358	var sumItersToBest = 0;
	359	double fractionSolved = 0.0;
	360	foreach (var conf in GenerateConfigurations(instanceFactory, nReps, maxSizes)) {
	361	var prob = conf.Problem;
	362	var maxLen = conf.MaxSize;
	363	var rand = new Random(conf.RandSeed);
	364
	365	var solver = new SequentialSearch(prob, maxLen, rand, 0,
	366	new GenericFunctionApproximationGrammarPolicy(prob, true));
	367
	368	var problemName = prob.GetType().Name;
	369	double bestQ; int itersToBest;
	370	RunSolver(solver, problemName, string.Empty, 1.0, maxIterations, maxLen, out bestQ, out itersToBest);
	371	sumBestQ += bestQ;
	372	sumItersToBest += itersToBest;
	373	if (bestQ.IsAlmost(1.0)) fractionSolved += 1.0 / nReps;
	374	}
	375	// Assert.AreEqual(0.85, fractionSolved, 1E-6);
	376	// Assert.AreEqual(0.99438202247191, sumBestQ / nReps, 1E-6);
	377	// Assert.AreEqual(5461.7, sumItersToBest / (double)nReps, 1E-6);
	378	}
	379	}
	380
[12014]	381	private IEnumerable<Configuration> GenerateConfigurations(Func<int, ISymbolicExpressionTreeProblem> problemFactory,
	382	int nReps,
	383	IEnumerable<int> maxSizes
	384	) {
	385	var seedRand = new Random(randSeed);
	386	// the problem seed is the same for all configuratons
	387	// this guarantees that we solve the _same_ problem each time
	388	// with different solvers and multiple repetitions
	389	var problemSeed = randSeed;
	390	for (int i = 0; i < nReps; i++) {
	391	// in each repetition use the same random seed for all solver configuratons
	392	// do nReps with different seeds for each configuration
	393	var solverSeed = seedRand.Next();
	394	foreach (var maxSize in maxSizes) {
	395	yield return new Configuration {
	396	MaxSize = maxSize,
	397	Problem = problemFactory(problemSeed),
	398	RandSeed = solverSeed
	399	};
	400	}
	401	}
	402	}
	403
	404
	405
	406
	407	private static void RunSolver(ISolver solver, string problemName, string policyName, double bestKnownQuality, int maxIters, int maxSize,
	408	out double bestQ, out int itersToBest) {
	409	int iterations = 0;
	410	var globalStatistics = new SentenceSetStatistics(bestKnownQuality);
	411	var solverName = solver.GetType().Name;
	412	double bestQuality = double.NegativeInfinity;
	413	int iterationsToBest = -1;
	414	solver.SolutionEvaluated += (sentence, quality) => {
	415	iterations++;
	416	globalStatistics.AddSentence(sentence, quality);
	417	if (quality > bestQuality) {
	418	bestQuality = quality;
	419	iterationsToBest = iterations;
	420	}
	421	if (iterations % 1000 == 0) {
	422	Console.WriteLine("\"{0,25}\" \"{1,25}\" {2} \"{3,25}\" {4}", solverName, policyName, maxSize, problemName, globalStatistics);
	423	}
	424	};
	425
	426
	427	solver.Run(maxIters);
	428
	429	bestQ = bestQuality;
	430	itersToBest = iterationsToBest;
	431	}
	432	}
	433	}

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