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use std::io::Write;
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#[allow(unused_imports)]
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use nalgebra::{dvector, DVector};
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#[allow(unused_imports)]
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use neuramethyst::derivable::activation::{LeakyRelu, Linear, Relu, Tanh};
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use neuramethyst::derivable::loss::CrossEntropy;
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use neuramethyst::derivable::regularize::NeuraL1;
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use neuramethyst::{one_hot, plot_losses, prelude::*};
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use rand::Rng;
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fn main() {
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let mut network = neura_sequential![
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neura_layer!("dense", 8).regularization(NeuraL1(0.001)),
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neura_layer!("dropout", 0.25),
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neura_layer!("dense", 2)
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.activation(Linear)
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.regularization(NeuraL1(0.001)),
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neura_layer!("softmax"),
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]
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.construct(NeuraShape::Vector(2))
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.unwrap();
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let inputs = (0..1).cycle().map(move |_| {
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let mut rng = rand::thread_rng();
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let category = rng.gen_bool(0.5) as usize;
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let (x, y) = if category == 0 {
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let radius: f32 = rng.gen_range(0.0..2.0);
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let angle = rng.gen_range(0.0..std::f32::consts::TAU);
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(angle.cos() * radius, angle.sin() * radius)
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} else {
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let radius: f32 = rng.gen_range(3.0..5.0);
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let angle = rng.gen_range(0.0..std::f32::consts::TAU);
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(angle.cos() * radius, angle.sin() * radius)
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};
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(dvector![x, y], one_hot(category, 2))
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});
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let test_inputs: Vec<_> = inputs.clone().take(10).collect();
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if std::env::args().any(|arg| arg == "draw") {
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for epoch in 0..200 {
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let mut trainer = NeuraBatchedTrainer::new(0.03, 10);
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trainer.batch_size = 10;
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trainer.train(
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&NeuraBackprop::new(CrossEntropy),
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&mut network,
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inputs.clone(),
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&test_inputs,
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);
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let network_trimmed = network.clone().trim_tail().trim_tail();
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draw_neuron_activation(
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|input| {
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let output = network.eval(&dvector![input[0] as f32, input[1] as f32]);
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let estimation = output[0] / (output[0] + output[1]);
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let color = network_trimmed.eval(&dvector![input[0] as f32, input[1] as f32]);
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(&color / color.map(|x| x * x).sum() * estimation)
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.into_iter()
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.map(|x| x.abs() as f64)
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.collect::<Vec<_>>()
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},
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6.0,
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);
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println!("{}", epoch);
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std::thread::sleep(std::time::Duration::new(0, 50_000_000));
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}
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} else {
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let mut trainer = NeuraBatchedTrainer::new(0.03, 20 * 50);
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trainer.batch_size = 10;
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trainer.log_iterations = 20;
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plot_losses(
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trainer.train(
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&NeuraBackprop::new(CrossEntropy),
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&mut network,
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inputs.clone(),
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&test_inputs,
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),
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128,
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48,
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);
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// println!("{}", String::from("\n").repeat(64));
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// draw_neuron_activation(|input| network.eval(&input).into_iter().collect(), 6.0);
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}
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let mut file = std::fs::File::create("target/bivariate.csv").unwrap();
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for (input, _target) in test_inputs {
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let guess = neuramethyst::argmax(network.eval(&input).as_slice());
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writeln!(&mut file, "{},{},{}", input[0], input[1], guess).unwrap();
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}
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}
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// TODO: move this to the library?
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fn draw_neuron_activation<F: Fn([f64; 2]) -> Vec<f64>>(callback: F, scale: f64) {
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use viuer::Config;
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const WIDTH: u32 = 64;
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const HEIGHT: u32 = 64;
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let mut image = image::RgbImage::new(WIDTH, HEIGHT);
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fn sigmoid(x: f64) -> f64 {
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1.9 / (1.0 + (-x * 3.0).exp()) - 0.9
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}
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for y in 0..HEIGHT {
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let y2 = 2.0 * y as f64 / HEIGHT as f64 - 1.0;
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for x in 0..WIDTH {
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let x2 = 2.0 * x as f64 / WIDTH as f64 - 1.0;
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let activation = callback([x2 * scale, y2 * scale]);
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let r = (sigmoid(activation.get(0).copied().unwrap_or(-1.0)) * 255.0).floor() as u8;
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let g = (sigmoid(activation.get(1).copied().unwrap_or(-1.0)) * 255.0).floor() as u8;
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let b = (sigmoid(activation.get(2).copied().unwrap_or(-1.0)) * 255.0).floor() as u8;
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*image.get_pixel_mut(x, y) = image::Rgb([r, g, b]);
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}
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}
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let config = Config {
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use_kitty: false,
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truecolor: true,
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// absolute_offset: false,
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..Default::default()
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};
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viuer::print(&image::DynamicImage::ImageRgb8(image), &config).unwrap();
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}
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