extern crate rust_nn; use ndarray::array; use rust_nn::functions::{activation_functions, loss_functions}; use rust_nn::layers::activation_layer::ActivationLayer; use rust_nn::layers::fc_layer::{FCLayer, Initializer}; use rust_nn::Network; fn main() { // training data let x_train = vec![ array![0.0, 0.0], array![0.0, 1.0], array![1.0, 0.0], array![1.0, 1.0], ]; let y_train = vec![array![0.0], array![1.0], array![1.0], array![0.0]]; // test data let x_test = vec![ array![0.0, 0.0], array![0.0, 1.0], array![1.0, 0.0], array![1.0, 1.0], ]; // initialize neural network let mut network = Network::new(loss_functions::Type::MSE); // add layers network.add_layer(Box::new(FCLayer::new( 3, Initializer::Gaussian(0.0, 1.0), Initializer::Gaussian(0.0, 1.0), ))); network.add_layer(Box::new(ActivationLayer::new( activation_functions::Type::Tanh, ))); network.add_layer(Box::new(FCLayer::new( 1, Initializer::Gaussian(0.0, 1.0), Initializer::Gaussian(0.0, 1.0), ))); network.add_layer(Box::new(ActivationLayer::new( activation_functions::Type::Tanh, ))); // train network on training data network.fit(x_train, y_train, 1000, 0.1, false); // print predictions let y_test = network.predict(x_test.clone()); println!("{}", x_test.get(0).unwrap()); for i in 0..y_test.len() { print!("input: {}\t\t", x_test.get(i).unwrap()); let mut prediction = y_test.get(i).unwrap().to_owned(); // comment the following line to see the exact predictions prediction.map_mut(|x| *x = x.round()); print!("prediction: {}\n", prediction); } }