public void BlauSpaceLatticeSerializationTest()
{
Console.WriteLine("BlauSpaceLatticeSerializationTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 200.0, 300.0
};
IBlauSpace bs = BlauSpace.create(dim, names, mins, maxs);
int [] steps1 = new int [3] {
10, 10, 10
};
IBlauSpaceLattice bsl1a = BlauSpaceLattice.create(bs, steps1);
IBlauSpaceLattice bsl1b = BlauSpaceLattice.create(bs, steps1);
Assert.AreEqual(bsl1a == bsl1b, true);
int [] steps2 = new int [3] {
20, 20, 20
};
IBlauSpaceLattice bsl2 = BlauSpaceLattice.create(bs, steps2);
Assert.AreEqual(bsl1a == bsl2, false);
FileStream fs = new FileStream("bsl1.xml", FileMode.Create);
SoapFormatter formatter = new SoapFormatter();
formatter.Serialize(fs, bsl1a);
fs.Flush();
fs.Close();
SingletonLogger.Instance().DebugLog(typeof(blau_tests), "bsl1a => " + bsl1a.ToString());
FileStream fs2 = new FileStream("bsl1.xml", FileMode.Open);
BlauSpaceLattice bsl1read = (BlauSpaceLattice)formatter.Deserialize(fs2);
fs2.Close();
SingletonLogger.Instance().DebugLog(typeof(blau_tests), "bs1read => " + bsl1read.ToString());
IBlauSpaceLattice bsl3 = BlauSpaceLatticeRegistry.Instance().validate(bsl1read);
Assert.AreEqual(bsl1a == bsl3, true);
SingletonLogger.Instance().DebugLog(typeof(blau_tests), "bs1a agrees with validated bs1read");
Assert.AreEqual(bsl1a == bsl1read, true);
SingletonLogger.Instance().DebugLog(typeof(blau_tests), "bs1a agrees with bs1read");
}
public void QuantizedBlauPointTest()
{
Console.WriteLine("QuantizedBlauPointTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int[] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauSpaceLattice bsl2 = BlauSpaceLattice.create(s, STEPSarray);
IBlauPoint bp = new QuantizedBlauPoint(s, bsl);
IBlauPoint bp2 = new QuantizedBlauPoint(s, bsl2);
IBlauPoint bp3 = new QuantizedBlauPoint(s, bsl);
bp.setCoordinate(0, 10.0);
bp.setCoordinate(1, 20.0);
bp.setCoordinate(2, 30.0);
bp2.setCoordinate(0, 9.99);
bp2.setCoordinate(1, 19.99);
bp2.setCoordinate(2, 29.99);
bp3.setCoordinate(0, 10.01);
bp3.setCoordinate(1, 20.01);
bp3.setCoordinate(2, 30.01);
Assert.AreEqual(bp.CompareTo(bp2), 0);
Assert.AreEqual(bp.CompareTo(bp3), 0);
Assert.AreEqual(bp2.CompareTo(bp), 0);
Assert.AreEqual(bp.CompareTo(bp), 0);
Assert.AreEqual(bp3.CompareTo(bp), 0);
Assert.AreEqual(bp3.CompareTo(bp2), 0);
}
public IBlauSpaceLattice getLattice(IDistribution d, IAgentEvaluationBundle aeb)
{
IAgentEvaluationFactory aef = null;;
foreach (IAgentEvaluation iae in aeb.Evaluations)
{
aef = iae.Creator;
break;
}
int[] steps = new int[d.SampleSpace.Dimension];
for (int j = 0; j < d.SampleSpace.Dimension; j++)
{
steps[j] = getAgentEvaluationConfig(aef).BlauSpaceGridding;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(d.SampleSpace, steps);
return(bsl);
}
public void BlauSpaceLatticeTest()
{
Console.WriteLine("BlauSpaceLatticeTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int[] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
Assert.AreEqual(bsl.getStepSize(0), 100.0 / (double)STEPS);
Assert.AreEqual(bsl.getStepSize(1), 100.0 / (double)STEPS);
Assert.AreEqual(bsl.getStepSize(2), 100.0 / (double)STEPS);
Assert.AreEqual(bsl.getSteps(0), STEPS);
Assert.AreEqual(bsl.getSteps(1), STEPS);
Assert.AreEqual(bsl.getSteps(2), STEPS);
IBlauPoint bp = new BlauPoint(s);
bp.setCoordinate(0, 11.0);
bp.setCoordinate(1, 22.0);
bp.setCoordinate(2, 33.0);
IBlauPoint bpq = bsl.quantize(bp);
Assert.AreNotEqual(bp.CompareTo(bpq), 0);
IBlauPoint bp2 = new BlauPoint(s);
bp2.setCoordinate(0, 10.0);
bp2.setCoordinate(1, 20.0);
bp2.setCoordinate(2, 30.0);
IBlauPoint bpq2 = bsl.quantize(bp2);
Assert.AreEqual(bp2.CompareTo(bpq2), 0);
Assert.AreEqual(bpq.CompareTo(bp2), 0);
Assert.AreEqual(bpq.CompareTo(bpq2), 0);
IBlauPoint bp3 = new BlauPoint(s);
bp3.setCoordinate(0, 9.0);
bp3.setCoordinate(1, 19.0);
bp3.setCoordinate(2, 29.0);
IBlauPoint bpq3 = bsl.quantize(bp3);
Assert.AreEqual(bpq3.CompareTo(bpq), 0);
Assert.AreEqual(bpq3.CompareTo(bp2), 0);
Assert.AreEqual(bpq3.CompareTo(bpq2), 0);
}
public void QuantizedBlauPointSerializationTest()
{
Console.WriteLine("QuantizedBlauPointSerializationTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 200.0, 300.0
};
IBlauSpace bs = BlauSpace.create(dim, names, mins, maxs);
SoapFormatter formatter = new SoapFormatter();
// BinaryFormatter formatter = new BinaryFormatter();
BlauPoint p1 = new BlauPoint(bs);
p1.setCoordinate(0, 11.0);
p1.setCoordinate(1, 21.0);
p1.setCoordinate(2, 31.0);
BlauPoint p2 = new BlauPoint(bs);
p2.setCoordinate(0, 21.0);
p2.setCoordinate(1, 31.0);
p2.setCoordinate(2, 41.0);
int [] steps = new int[3]; steps[0] = 10; steps[1] = 20; steps[2] = 30;
IBlauSpaceLattice bsl = BlauSpaceLattice.create(bs, steps);
IBlauPoint qp1 = bsl.quantize(p1);
IBlauPoint qp2 = bsl.quantize(p2);
FileStream fs = new FileStream("p1.xml", FileMode.Create);
formatter.Serialize(fs, p1);
fs.Close();
fs = new FileStream("p2.xml", FileMode.Create);
formatter.Serialize(fs, p2);
fs.Close();
fs = new FileStream("qp1.xml", FileMode.Create);
formatter.Serialize(fs, qp1);
fs.Close();
fs = new FileStream("qp2.xml", FileMode.Create);
formatter.Serialize(fs, qp2);
fs.Close();
fs = new FileStream("qp1.xml", FileMode.Open);
IBlauPoint p1r = (IBlauPoint)formatter.Deserialize(fs);
fs.Close();
fs = new FileStream("qp2.xml", FileMode.Open);
IBlauPoint p2r = (IBlauPoint)formatter.Deserialize(fs);
fs.Close();
Assert.AreEqual(p1r.Space == p1.Space, true);
Assert.AreEqual(p2r.Space == p2.Space, true);
Assert.AreEqual(p1r.Space == p2r.Space, true);
Assert.AreEqual(p1.Space == p2.Space, true);
Assert.AreEqual(qp1 is QuantizedBlauPoint, true);
Assert.AreEqual(qp2 is QuantizedBlauPoint, true);
Assert.AreEqual(qp2.Space == p2.Space, true);
Assert.AreEqual(qp1.Space == p1.Space, true);
Assert.AreEqual(qp1.CompareTo(p1r), 0);
Assert.AreEqual(qp2.CompareTo(p2r), 0);
Assert.AreNotEqual(qp1.CompareTo(p1), 0);
Assert.AreNotEqual(qp2.CompareTo(p2), 0);
SingletonLogger.Instance().DebugLog(typeof(blau_tests), "Quantized points are as expected");
}
public void Agent0x1Simulation_TrajectoryBundles()
{
Console.WriteLine("Agent0x1Simulation_TrajectoryBundles");
LoggerInitialization.SetThreshold(typeof(sim_tests), LogLevel.Debug);
//LoggerInitialization.SetThreshold(typeof(Agent0x1), LogLevel.Info);
//LoggerInitialization.SetThreshold(typeof(AbstractAgent), LogLevel.Info);
//LoggerInitialization.SetThreshold(typeof(SimulationBundle), LogLevel.Debug);
//LoggerInitialization.SetThreshold(typeof(Scheduler), LogLevel.Debug);
//LoggerInitialization.SetThreshold(typeof(Trajectory), LogLevel.Debug);
int dim = 0;
string [] names = new string [0];
double [] mins = new double [0];
double [] maxs = new double [0];
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
IBlauPoint mean = new BlauPoint(s);
IBlauPoint std = new BlauPoint(s);
IDistribution d = new Distribution_Gaussian(s, mean, std);
IAgentFactory afact = new Agent0x0_Factory(d);
int NUMAGENTS = 25;
IPopulation pop = PopulationFactory.Instance().create(afact, NUMAGENTS);
foreach (IAgent ag in pop)
{
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "agent: " + ag);
}
string PATH = "" + ApplicationConfig.EXECDIR + "orderbooks/orderbook.csv";
AgentOrderbookLoader loader = MakeAgentOrderbookLoader(PATH);
pop.addAgent(loader);
IOrderbook_Observable ob = new Orderbook();
string PROPERTY = "NetWorth";
// 1 hours
ISimulationBundle simb = new SimulationBundle(pop, ob, 0.0, 3600.0);
IAgentEvaluationFactory metricEF = new NamedMetricAgentEvaluationFactory(PROPERTY);
simb.add(metricEF);
ITrajectoryFactory priceTF = new TrajectoryFactory_Price(10.0, 0.8);
simb.add(priceTF);
ITrajectoryFactory spreadTF = new TrajectoryFactory_Spread(10.0, 0.0);
simb.add(spreadTF);
int NUMTRIALS = 25;
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "Running Simulation");
ISimulationResultsBundle resb = simb.run(NUMTRIALS);
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "Stopping Simulation");
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "resb: " + resb.ToString());
int STEPS = 1;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
foreach (IAgentEvaluationBundle aeb in resb.getAgentEvaluationBundles())
{
IBlauSpaceEvaluation meanEval = aeb.MeanEvaluation(bsl);
IBlauSpaceEvaluation stdEval = aeb.StdEvaluation(bsl);
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "meanEval: " + meanEval.ToStringLong());
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "stdEval: " + stdEval.ToStringLong());
}
foreach (ITrajectoryBundle tb in resb.getTrajectoryBundles())
{
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "Computing meanTraj");
ITrajectory meanTraj = tb.MeanTrajectory;
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "Computing stdTraj");
ITrajectory stdTraj = tb.StdTrajectory;
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "meanTraj: " + meanTraj.ToStringLong());
SingletonLogger.Instance().DebugLog(typeof(sim_tests), "stdTraj: " + stdTraj.ToStringLong());
}
Assert.AreEqual(resb.Valid, true);
}
public void NamedMetricAgentEvaluationFactoryTest()
{
Console.WriteLine("NamedMetricAgentEvaluationFactoryTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauPoint mean = new BlauPoint(s);
mean.setCoordinate(0, 10.0);
mean.setCoordinate(1, 20.0);
mean.setCoordinate(2, 30.0);
IBlauPoint std = new BlauPoint(s);
std.setCoordinate(0, 2.0);
std.setCoordinate(1, 4.0);
std.setCoordinate(2, 6.0);
IDistribution d = new Distribution_Gaussian(s, mean, std);
IAgentFactory afact = new AgentDummy_Factory(d);
int NUMAGENTS = 100;
IPopulation pop = PopulationFactory.Instance().create(afact, NUMAGENTS);
IOrderbook_Observable ob = new Orderbook();
foreach (IAgent ag in pop)
{
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "agent: " + ag);
}
string PROPERTY = "NetWorth";
IAgentEvaluationBundle aeb = new AgentEvaluationBundle(PROPERTY);
int NUMTRIALS = 100;
for (int trial = 0; trial < NUMTRIALS; trial++)
{
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "*** Trial " + trial);
ISimulation sim = new Simulation(pop.clone(), ob.clone(), 0.0, 100.0);
NamedMetricAgentEvaluationFactory metricEF = new NamedMetricAgentEvaluationFactory(PROPERTY);
sim.add(metricEF);
sim.broadcast(new SimulationStart());
sim.broadcast(new SimulationEnd());
IAgentEvaluation ae = metricEF.create();
aeb.addAgentEvaluation(ae);
}
IBlauSpaceEvaluation meanEval = aeb.MeanEvaluation(bsl);
IBlauSpaceEvaluation stdEval = aeb.StdEvaluation(bsl);
foreach (IBlauPoint p in meanEval.AssignedLatticePoints)
{
double meanval = meanEval.eval(p);
double stdval = stdEval.eval(p);
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "Scores binned to Blaupoint: " + p + " ===> mean:" + meanval + ", std:" + stdval);
Assert.Less(Math.Abs(meanval - AgentDummy.MEANWORTH), 0.1);
Assert.Less(stdval, 0.1);
}
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "aeb: " + aeb.ToString());
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "meanEval: " + meanEval.ToStringLong());
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "stdEval: " + stdEval.ToStringLong());
}
public void AgentEvaluationBundleCollapsingTest()
{
Console.WriteLine("AgentEvaluationBundleCollapsingTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauPoint mean = new BlauPoint(s);
mean.setCoordinate(0, 10.0);
mean.setCoordinate(1, 20.0);
mean.setCoordinate(2, 30.0);
IBlauPoint std = new BlauPoint(s);
std.setCoordinate(0, 2.0);
std.setCoordinate(1, 4.0);
std.setCoordinate(2, 6.0);
IDistribution d = new Distribution_Gaussian(s, mean, std);
IAgentFactory afact = new AgentDummy_Factory(d);
int NUMAGENTS = 100;
IAgent[] agents = new IAgent[NUMAGENTS];
for (int i = 0; i < NUMAGENTS; i++)
{
agents[i] = afact.create();
}
string PROPERTY = "NetWorth";
IAgentEvaluationBundle aeb = new AgentEvaluationBundle(PROPERTY);
int NUMTRIALS = 1000;
double MEANVAL = 1.0;
for (int trial = 0; trial < NUMTRIALS; trial++)
{
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "*** Trial " + trial);
IAgentEvaluation ae = new AgentEvaluation(PROPERTY, null);
for (int i = 0; i < NUMAGENTS; i++)
{
ae.set(agents[i], SingletonRandomGenerator.Instance.NextGaussian(MEANVAL, 0.2));
}
aeb.addAgentEvaluation(ae);
}
IBlauSpaceEvaluation meanEval = aeb.MeanEvaluation(bsl);
IBlauSpaceEvaluation stdEval = aeb.StdEvaluation(bsl);
foreach (IBlauPoint p in meanEval.AssignedLatticePoints)
{
double meanval = meanEval.eval(p);
double stdval = stdEval.eval(p);
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "Scores binned to Blaupoint: " + p + " ===> mean:" + meanval + ", std:" + stdval);
Assert.Less(Math.Abs(meanval - MEANVAL), 0.1);
Assert.Less(stdval, 0.1);
}
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "aeb: " + aeb.ToString());
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "meanEval: " + meanEval.ToStringLong());
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "stdEval: " + stdEval.ToStringLong());
}
public void BlauSpaceMultiEvaluationConstructionTest()
{
Console.WriteLine("BlauSpaceMultiEvaluationConstructionTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauPoint mean = new BlauPoint(s);
mean.setCoordinate(0, 10.0);
mean.setCoordinate(1, 20.0);
mean.setCoordinate(2, 30.0);
IBlauPoint std = new BlauPoint(s);
std.setCoordinate(0, 2.0);
std.setCoordinate(1, 4.0);
std.setCoordinate(2, 6.0);
IDistribution d = new Distribution_Gaussian(s, mean, std);
IAgentFactory afact = new AgentDummy_Factory(d);
int NUMAGENTS = 100;
IAgent[] agents = new IAgent[NUMAGENTS];
for (int i = 0; i < NUMAGENTS; i++)
{
agents[i] = afact.create();
}
string PROPERTY = "NetWorth";
BlauSpaceMultiEvaluation mev = new BlauSpaceMultiEvaluation(PROPERTY, bsl);
int NUMTRIALS = 10;
for (int trial = 0; trial < NUMTRIALS; trial++)
{
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "*** Trial " + trial);
IAgentEvaluation ae = new AgentEvaluation(PROPERTY, null);
for (int i = 0; i < NUMAGENTS; i++)
{
ae.set(agents[i], SingletonRandomGenerator.Instance.NextGaussian(1.0, 0.2));
}
ae.AddToBlauSpaceMultiEvaluation(mev);
int count = 0;
foreach (IBlauPoint p in mev.AssignedLatticePoints)
{
LinkedList <IScore> scores = mev.eval(p);
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "" + scores.Count + " Readings binned to Blaupoint: " + p);
count += scores.Count;
}
Assert.AreEqual(count, NUMAGENTS * (trial + 1));
}
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "mev: " + mev.ToStringLong());
}
public void BlauSpaceEvaluationTest()
{
Console.WriteLine("BlauSpaceEvaluationTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauSpaceMultiEvaluation mev = new BlauSpaceMultiEvaluation("net worth", bsl);
IBlauPoint bp = new BlauPoint(s);
bp.setCoordinate(0, 11.0);
bp.setCoordinate(1, 22.0);
bp.setCoordinate(2, 33.0);
mev.set(bp, 10.0);
mev.set(bp, 20.0);
IBlauPoint bp2 = bp.clone();
mev.set(bp2, 30.0);
mev.set(bp2, 40.0);
IBlauPoint bp3 = new BlauPoint(s);
bp3.setCoordinate(0, 12.0);
bp3.setCoordinate(1, 23.0);
bp3.setCoordinate(2, 34.0);
mev.set(bp3, 50.0);
IBlauPoint bpX = new BlauPoint(s);
bpX.setCoordinate(0, 22.0);
bpX.setCoordinate(1, 33.0);
bpX.setCoordinate(2, 44.0);
mev.set(bpX, 100.0);
IBlauSpaceEvaluation bse = new BlauSpaceEvaluation("net worth", bsl);
foreach (IBlauPoint p in mev.AssignedLatticePoints)
{
LinkedList <IScore> scores = mev.eval(p);
double total = 0.0;
double count = 0.0;
foreach (IScore sc in scores)
{
total += sc.Value;
count += 1.0;
}
if (p.CompareTo(bp) == 0)
{
Assert.AreEqual(total, 150.0);
Assert.AreEqual(count, 5.0);
}
if (p.CompareTo(bpX) == 0)
{
Assert.AreEqual(total, 100.0);
Assert.AreEqual(count, 1.0);
}
double ave = total / count;
bse.set(p, ave);
Assert.Throws <Exception>(delegate { bse.set(p, ave); });
Assert.Throws <Exception>(delegate { bse.set(p.clone(), ave); });
Assert.AreEqual(bse.eval(p), ave);
Assert.AreEqual(bse.eval(p.clone()), ave);
}
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "bse: " + bse.ToStringLong());
}
public void BlauSpaceMultiEvaluationTest()
{
Console.WriteLine("BlauSpaceMultiEvaluationTest");
int dim = 3;
string [] names = new string [3] {
"x", "y", "z"
};
double [] mins = new double [3] {
0.0, 0.0, 0.0
};
double [] maxs = new double [3] {
100.0, 100.0, 100.0
};
IBlauSpace s = BlauSpace.create(dim, names, mins, maxs);
int STEPS = 10;
int [] STEPSarray = new int[s.Dimension]; for (int j = 0; j < s.Dimension; j++)
{
STEPSarray[j] = STEPS;
}
IBlauSpaceLattice bsl = BlauSpaceLattice.create(s, STEPSarray);
IBlauSpaceMultiEvaluation mev = new BlauSpaceMultiEvaluation("net worth", bsl);
IBlauPoint bp = new BlauPoint(s);
bp.setCoordinate(0, 11.0);
bp.setCoordinate(1, 22.0);
bp.setCoordinate(2, 33.0);
mev.set(bp, 10.0);
Assert.AreEqual(mev.eval(bp).Count, 1);
mev.set(bp, 20.0);
Assert.AreEqual(mev.eval(bp).Count, 2);
IBlauPoint bp2 = bp.clone();
mev.set(bp2, 30.0);
Assert.AreEqual(mev.eval(bp).Count, 3);
Assert.AreEqual(mev.eval(bp2).Count, 3);
mev.set(bp2, 40.0);
Assert.AreEqual(mev.eval(bp).Count, 4);
Assert.AreEqual(mev.eval(bp2).Count, 4);
Assert.AreEqual(mev.AssignedLatticePoints.Count, 1);
IBlauPoint bp3 = new BlauPoint(s);
bp3.setCoordinate(0, 12.0);
bp3.setCoordinate(1, 23.0);
bp3.setCoordinate(2, 34.0);
mev.set(bp3, 50.0);
Assert.AreEqual(mev.eval(bp).Count, 5);
Assert.AreEqual(mev.eval(bp2).Count, 5);
Assert.AreEqual(mev.eval(bp3).Count, 5);
Assert.AreEqual(mev.AssignedLatticePoints.Count, 1);
IBlauPoint bpX = new BlauPoint(s);
bpX.setCoordinate(0, 22.0);
bpX.setCoordinate(1, 33.0);
bpX.setCoordinate(2, 44.0);
mev.set(bpX, 100.0);
Assert.AreEqual(mev.eval(bp).Count, 5);
Assert.AreEqual(mev.eval(bp2).Count, 5);
Assert.AreEqual(mev.eval(bp3).Count, 5);
Assert.AreEqual(mev.eval(bpX).Count, 1);
Assert.AreEqual(mev.AssignedLatticePoints.Count, 2);
SingletonLogger.Instance().DebugLog(typeof(metrics_tests), "mev: " + mev.ToStringLong());
}