public void ArgumentCreaterDistributionsTest()
{
var trees = new List <ISymbolicExpressionTree>();
var grammar = Grammars.CreateArithmeticAndAdfGrammar();
var random = new MersenneTwister(31415);
int failedOps = 0;
for (int i = 0; i < POPULATION_SIZE; i++)
{
ISymbolicExpressionTree tree;
do
{
tree = ProbabilisticTreeCreator.Create(random, grammar, MAX_TREE_LENGTH, MAX_TREE_DEPTH);
SubroutineCreater.CreateSubroutine(random, tree, MAX_TREE_LENGTH, MAX_TREE_DEPTH, 3, 3);
} while (!TreeHasAdfWithParameter(tree, 3));
var success = ArgumentCreater.CreateNewArgument(random, tree, 60000, 100, 3, 3);
if (!success)
{
failedOps++;
}
Util.IsValid(tree);
trees.Add(tree);
}
// difficult to make sure that create argument operations succeed because trees are macro-expanded can potentially become very big
// => just test if only a small proportion fails
Assert.IsTrue(failedOps < POPULATION_SIZE * 0.05); // only 5% may fail
Console.WriteLine("ArgumentCreator: " + Environment.NewLine +
"Failed operations: " + failedOps * 100.0 / POPULATION_SIZE + " %" + Environment.NewLine +
Util.GetSizeDistributionString(trees, 200, 20) + Environment.NewLine +
Util.GetFunctionDistributionString(trees) + Environment.NewLine +
Util.GetNumberOfSubtreesDistributionString(trees) + Environment.NewLine +
Util.GetTerminalDistributionString(trees) + Environment.NewLine
);
}
public void AllArchitectureAlteringOperatorsDistributionTest()
{
var trees = new List <ISymbolicExpressionTree>();
var newTrees = new List <ISymbolicExpressionTree>();
var grammar = Grammars.CreateArithmeticAndAdfGrammar();
var random = new MersenneTwister(31415);
SymbolicExpressionTreeStringFormatter formatter = new SymbolicExpressionTreeStringFormatter();
IntValue maxTreeSize = new IntValue(MAX_TREE_LENGTH);
IntValue maxTreeHeigth = new IntValue(MAX_TREE_DEPTH);
IntValue maxDefuns = new IntValue(3);
IntValue maxArgs = new IntValue(3);
for (int i = 0; i < POPULATION_SIZE; i++)
{
var tree = ProbabilisticTreeCreator.Create(random, grammar, MAX_TREE_LENGTH, MAX_TREE_DEPTH);
Util.IsValid(tree);
trees.Add(tree);
}
Stopwatch stopwatch = new Stopwatch();
int failedEvents = 0;
for (int g = 0; g < N_ITERATIONS; g++)
{
for (int i = 0; i < POPULATION_SIZE; i++)
{
if (random.NextDouble() < 0.5)
{
// manipulate
stopwatch.Start();
var selectedTree = (ISymbolicExpressionTree)trees.SampleRandom(random).Clone();
var oldTree = (ISymbolicExpressionTree)selectedTree.Clone();
bool success = false;
int sw = random.Next(6);
switch (sw)
{
case 0: success = ArgumentCreater.CreateNewArgument(random, selectedTree, MAX_TREE_LENGTH, MAX_TREE_DEPTH, 3, 3); break;
case 1: success = ArgumentDeleter.DeleteArgument(random, selectedTree, 3, 3); break;
case 2: success = ArgumentDuplicater.DuplicateArgument(random, selectedTree, 3, 3); break;
case 3: success = SubroutineCreater.CreateSubroutine(random, selectedTree, MAX_TREE_LENGTH, MAX_TREE_DEPTH, 3, 3); break;
case 4: success = SubroutineDuplicater.DuplicateSubroutine(random, selectedTree, 3, 3); break;
case 5: success = SubroutineDeleter.DeleteSubroutine(random, selectedTree, 3, 3); break;
}
stopwatch.Stop();
if (!success)
{
failedEvents++;
}
Util.IsValid(selectedTree);
newTrees.Add(selectedTree);
}
else
{
stopwatch.Start();
// crossover
SymbolicExpressionTree par0 = null;
SymbolicExpressionTree par1 = null;
do
{
par0 = (SymbolicExpressionTree)trees.SampleRandom(random).Clone();
par1 = (SymbolicExpressionTree)trees.SampleRandom(random).Clone();
} while (par0.Length > MAX_TREE_LENGTH || par1.Length > MAX_TREE_LENGTH);
var newTree = SubtreeCrossover.Cross(random, par0, par1, 0.9, MAX_TREE_LENGTH, MAX_TREE_DEPTH);
stopwatch.Stop();
Util.IsValid(newTree);
newTrees.Add(newTree);
}
}
trees = new List <ISymbolicExpressionTree>(newTrees);
newTrees.Clear();
}
var msPerOperation = stopwatch.ElapsedMilliseconds / ((double)POPULATION_SIZE * (double)N_ITERATIONS);
Console.WriteLine("AllArchitectureAlteringOperators: " + Environment.NewLine +
"Operations / s: ~" + Math.Round(1000.0 / (msPerOperation)) + "operations / s)" + Environment.NewLine +
"Failed events: " + failedEvents * 100.0 / (double)(POPULATION_SIZE * N_ITERATIONS / 2.0) + "%" + Environment.NewLine +
Util.GetSizeDistributionString(trees, 200, 5) + Environment.NewLine +
Util.GetFunctionDistributionString(trees) + Environment.NewLine +
Util.GetNumberOfSubtreesDistributionString(trees) + Environment.NewLine +
Util.GetTerminalDistributionString(trees) + Environment.NewLine
);
Assert.IsTrue(failedEvents * 100.0 / (POPULATION_SIZE * N_ITERATIONS / 2.0) < 75.0); // 25% of architecture operations must succeed
//mkommend: commented due to performance issues on the builder
// Assert.IsTrue(Math.Round(1000.0 / (msPerOperation)) > 800); // must achieve more than 800 ops per second
}