NeuralNetworkLib/tests/optical_backpropagation.cpp

#include <NeuralNetwork/FeedForward/Network.h>

#include <NeuralNetwork/Learning/OpticalBackPropagation.h>

#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Weffc++"

#include <gtest/gtest.h>

#pragma GCC diagnostic pop

TEST(OpticalBackPropagation,XOR) {
	NeuralNetwork::FeedForward::Network n(2);
	NeuralNetwork::ActivationFunction::Sigmoid a(-1);
	n.appendLayer(2,a);
	n.appendLayer(1,a);

	n.randomizeWeights();

	NeuralNetwork::Learning::OpticalBackPropagation prop(n);

	for(int i=0;i<10000;i++) {
		prop.teach({1,0},{1});
		prop.teach({1,1},{0});
		prop.teach({0,0},{0});
		prop.teach({0,1},{1});
	}

	{
		std::vector<float> ret =n.computeOutput({1,1});
		ASSERT_LT(ret[0], 0.1);
	}

	{
		std::vector<float> ret =n.computeOutput({0,1});
		ASSERT_GT(ret[0], 0.9);
	}

	{
		std::vector<float> ret =n.computeOutput({1,0});
		ASSERT_GT(ret[0], 0.9);
	}

	{
		std::vector<float> ret =n.computeOutput({0,0});
		ASSERT_LT(ret[0], 0.1);
	}
}

TEST(OpticalBackPropagation,AND) {
	NeuralNetwork::FeedForward::Network n(2);
	NeuralNetwork::ActivationFunction::Sigmoid a(-1);
	n.appendLayer(2,a);
	n.appendLayer(1,a);

	n.randomizeWeights();

	NeuralNetwork::Learning::OpticalBackPropagation prop(n);

	for(int i=0;i<10000;i++) {
		prop.teach({1,1},{1});
		prop.teach({0,0},{0});
		prop.teach({0,1},{0});
		prop.teach({1,0},{0});
	}

	{
	std::vector<float> ret =n.computeOutput({1,1});
	ASSERT_GT(ret[0], 0.9);
	}

	{
	std::vector<float> ret =n.computeOutput({0,1});
	ASSERT_LT(ret[0], 0.1);
	}

	{
	std::vector<float> ret =n.computeOutput({1,0});
	ASSERT_LT(ret[0], 0.1);
	}

	{
	std::vector<float> ret =n.computeOutput({0,0});
	ASSERT_LT(ret[0], 0.1);
	}
}

TEST(OpticalBackPropagation,NOTAND) {
	NeuralNetwork::FeedForward::Network n(2);
	NeuralNetwork::ActivationFunction::Sigmoid a(-1);
	n.appendLayer(2,a);
	n.appendLayer(1,a);

	n.randomizeWeights();

	NeuralNetwork::Learning::OpticalBackPropagation prop(n);

	for(int i=0;i<10000;i++) {
		prop.teach({1,1},{0});
		prop.teach({0,0},{1});
		prop.teach({0,1},{1});
		prop.teach({1,0},{1});
	}

	{
	std::vector<float> ret =n.computeOutput({1,1});
	ASSERT_LT(ret[0], 0.1);
	}

	{
	std::vector<float> ret =n.computeOutput({0,1});
	ASSERT_GT(ret[0], 0.9);
	}

	{
	std::vector<float> ret =n.computeOutput({1,0});
	ASSERT_GT(ret[0], 0.9);
	}

	{
	std::vector<float> ret =n.computeOutput({0,0});
	ASSERT_GT(ret[0], 0.9);
	}
}