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package jcgp.backend.resources;
import java.util.Random;
import jcgp.backend.function.Function;
import jcgp.backend.function.FunctionSet;
import jcgp.backend.modules.problem.BestFitness;
import jcgp.backend.parameters.IntegerParameter;
/**
*
* Encapsulates all of the resources based on which the program operates.
* Each instance of JCGP contains a single instance of {@code Resources}.
* <br><br>
* The experiment's {@code Resources} object is passed to modules as the program operates, and
* the actual parameter values can be obtained using getter methods. Note that, for code brevity,
* this class's getters do not start with the word "get". For instance, to get the number of rows,
* one would use {@code rows()} instead of {@code getRows()} which doesn't exist.
* The fitness orientation of the problem being solved can also be retrieved using {@code fitnessOrientation()}.
* Evolutionary strategies will typically use this to perform selection.
* <br><br>
* In addition to parameters, this class also offers utility methods. Any necessary random numbers
* should be obtained using {@code getRandomInt()} and {@code getRandomDouble()} as these methods
* use a particular {@code Random} object guaranteed to generate random numbers based on the seed
* parameter. Functions from the selected function set can be obtained through this class as well.
* Finally, printing to the console should be done via the resources using the report and print
* methods, so that these prints also get sent to the GUI console (if one is present).
*
* @see jcgp.backend.parameters.Parameter
* @author Eduardo Pedroni
*
*/
public class Resources {
protected IntegerParameter rows, columns, inputs, outputs, populationSize,
levelsBack, currentGeneration, generations, currentRun, runs,
arity, seed, reportInterval;
protected Random numberGenerator = new Random();
protected FunctionSet functionSet;
protected Console console;
protected BestFitness fitnessOrientation;
/**
* @return the number of rows.
*/
public int rows() {
return rows.get();
}
/**
* @return the number of columns.
*/
public int columns() {
return columns.get();
}
/**
* @return the number of inputs.
*/
public int inputs() {
return inputs.get();
}
/**
* @return the number of outputs.
*/
public int outputs() {
return outputs.get();
}
/**
* @return the population size.
*/
public int populationSize() {
return populationSize.get();
}
/**
* @return the levels back value.
*/
public int levelsBack() {
return levelsBack.get();
}
/**
* @return the total number of nodes.
*/
public int nodes() {
return columns.get() * rows.get();
}
/**
* @return the current generation.
*/
public int currentGeneration() {
return currentGeneration.get();
}
/**
* @return the total number of generations.
*/
public int generations() {
return generations.get();
}
/**
* @return the current run.
*/
public int currentRun() {
return currentRun.get();
}
/**
* @return the total number of runs.
*/
public int runs() {
return runs.get();
}
/**
* @return the maximum arity out of the function set.
*/
public int arity() {
return arity.get();
}
/**
* @return the random seed being used.
*/
public int seed() {
return seed.get();
}
/**
* @return the report interval.
*/
public int reportInterval() {
return reportInterval.get();
}
/**
* @return the fitness orientation.
*/
public BestFitness fitnessOrientation() {
return fitnessOrientation;
}
/*
* Utility functions
*/
/**
* Gets the next random integer using the experiment's random
* number generator. The integer returned will be between 0 (inclusive)
* and limit (exclusive).
*
* @param limit the limit value.
* @return a random integer between 0 and limit.
*/
public int getRandomInt(int limit) {
return numberGenerator.nextInt(limit);
}
/**
* Gets the next random double using the experiment's random
* number generator. The double returned will be between 0 (inclusive)
* and limit (exclusive).
*
* @param limit the limit value.
* @return a random double between 0 and limit.
*/
public double getRandomDouble(int limit) {
return numberGenerator.nextDouble() * limit;
}
/**
* Gets the next random integer using the experiment's random
* number generator. The integer returned will be between 0 (inclusive)
* and 1 (exclusive).
*
* @return a random integer between 0 and 1.
*/
public double getRandomDouble() {
return numberGenerator.nextDouble();
}
/*
* FunctionSet functions
*/
/**
* Gets a random allowed function from the problem function set.
* This function uses {@code getRandomInt()} to choose the random
* function.
*
* @return a random allowed function.
*/
public Function getRandomFunction() {
Function f = functionSet.getAllowedFunction(numberGenerator.nextInt(functionSet.getAllowedFunctionCount()));
return f;
}
/**
* Gets the indexed function out of the
* complete set of functions.
*
* @param index the function to return.
* @return the indexed function.
*/
public Function getFunction(int index) {
return functionSet.getFunction(index);
}
/**
* @return the problem's function set.
*/
public FunctionSet getFunctionSet() {
return functionSet;
}
/**
* Returns the index of a specified function. If the function is not found,
* -1 is returned.
*
* @param function the function with unknown index.
* @return the index of the function, or -1 if it was not found.
*/
public int getFunctionIndex(Function function) {
for (int i = 0; i < functionSet.getTotalFunctionCount(); i++) {
if (function == functionSet.getFunction(i)) {
return i;
}
}
// not found, default to -1
return -1;
}
/*
* Console functionality
* These are affected by parameter report interval
*/
/**
* Prints a message to the consoles taking into account the
* report interval parameter. If no reports are allowed in
* the current generation, this does nothing.
* <br>
* This method automatically appends a line break to the message
* being printed.
*
* @param message the message to print.
*/
public void reportln(String message) {
if (reportInterval.get() > 0) {
if (currentGeneration.get() % reportInterval.get() == 0) {
System.out.println(message);
if (console != null) {
console.println(message);
}
}
}
}
/**
* Prints a message to the consoles taking into account the
* report interval parameter. If no reports are allowed in
* the current generation, this does nothing.
* <br>
* This method does not append a line break to the message
* being printed.
*
* @param message the message to print.
*/
public void report(String message) {
if (reportInterval.get() > 0) {
if (currentGeneration.get() % reportInterval.get() == 0) {
System.out.print(message);
if (console != null) {
console.print(message);
}
}
}
}
/*
* Console functionality
* These are not affected by parameter report interval
*/
/**
* Prints a message to the consoles ignoring
* report interval. In other words, messages printed
* using this method will always appear (though the
* GUI console will still need to be flushed).
* <br>
* This method automatically appends a line break to the message
* being printed.
*
* @param message the message to print.
*/
public void println(String message) {
System.out.println(message);
if (console != null) {
console.println(message);
}
}
/**
* Prints a message to the consoles ignoring
* report interval. In other words, messages printed
* using this method will always appear (though the
* GUI console will still need to be flushed).
* <br>
* This method does not append a line break to the message
* being printed.
*
* @param message the message to print.
*/
public void print(String message) {
System.out.print(message);
if (console != null) {
console.print(message);
}
}
}
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