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392 lines
12 KiB
392 lines
12 KiB
#![allow(non_snake_case)]
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mod utils;
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use utils::*;
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use ndarray::{arr1, arr2, arr3};
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use reCTBN::ctbn::*;
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use reCTBN::network::Network;
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use reCTBN::params;
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use reCTBN::structure_learning::score_function::*;
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use reCTBN::structure_learning::{score_based_algorithm::*, StructureLearningAlgorithm};
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use reCTBN::structure_learning::hypothesis_test::*;
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use reCTBN::tools::*;
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use std::collections::BTreeSet;
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#[macro_use]
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extern crate approx;
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#[test]
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fn simple_score_test() {
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let mut net = CtbnNetwork::new();
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let n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 2))
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.unwrap();
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let trj = Trajectory::new(arr1(&[0.0, 0.1, 0.3]), arr2(&[[0], [1], [1]]));
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let dataset = Dataset::new(vec![trj]);
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let ll = LogLikelihood::new(1, 1.0);
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assert_abs_diff_eq!(
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0.04257,
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ll.call(&net, n1, &BTreeSet::new(), &dataset),
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epsilon = 1e-3
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);
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}
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#[test]
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fn simple_bic() {
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let mut net = CtbnNetwork::new();
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let n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 2))
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.unwrap();
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let trj = Trajectory::new(arr1(&[0.0, 0.1, 0.3]), arr2(&[[0], [1], [1]]));
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let dataset = Dataset::new(vec![trj]);
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let bic = BIC::new(1, 1.0);
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assert_abs_diff_eq!(
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-0.65058,
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bic.call(&net, n1, &BTreeSet::new(), &dataset),
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epsilon = 1e-3
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);
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}
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fn check_compatibility_between_dataset_and_network<T: StructureLearningAlgorithm>(sl: T) {
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let mut net = CtbnNetwork::new();
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let n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 3))
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.unwrap();
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let n2 = net
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.add_node(generate_discrete_time_continous_node(String::from("n2"), 3))
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.unwrap();
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net.add_edge(n1, n2);
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match &mut net.get_node_mut(n1) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[[
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[-3.0, 2.0, 1.0],
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[1.5, -2.0, 0.5],
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[0.4, 0.6, -1.0]
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]]))
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);
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}
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}
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match &mut net.get_node_mut(n2) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[
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[[-1.0, 0.5, 0.5], [3.0, -4.0, 1.0], [0.9, 0.1, -1.0]],
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[[-6.0, 2.0, 4.0], [1.5, -2.0, 0.5], [3.0, 1.0, -4.0]],
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[[-1.0, 0.1, 0.9], [2.0, -2.5, 0.5], [0.9, 0.1, -1.0]],
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]))
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);
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}
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}
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let data = trajectory_generator(&net, 100, 20.0, Some(6347747169756259));
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let mut net = CtbnNetwork::new();
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let _n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 3))
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.unwrap();
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let _net = sl.fit_transform(net, &data);
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}
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#[test]
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#[should_panic]
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pub fn check_compatibility_between_dataset_and_network_hill_climbing() {
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let ll = LogLikelihood::new(1, 1.0);
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let hl = HillClimbing::new(ll, None);
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check_compatibility_between_dataset_and_network(hl);
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}
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fn learn_ternary_net_2_nodes<T: StructureLearningAlgorithm>(sl: T) {
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let mut net = CtbnNetwork::new();
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let n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 3))
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.unwrap();
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let n2 = net
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.add_node(generate_discrete_time_continous_node(String::from("n2"), 3))
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.unwrap();
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net.add_edge(n1, n2);
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match &mut net.get_node_mut(n1) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[[
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[-3.0, 2.0, 1.0],
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[1.5, -2.0, 0.5],
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[0.4, 0.6, -1.0]
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]]))
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);
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}
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}
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match &mut net.get_node_mut(n2) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[
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[[-1.0, 0.5, 0.5], [3.0, -4.0, 1.0], [0.9, 0.1, -1.0]],
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[[-6.0, 2.0, 4.0], [1.5, -2.0, 0.5], [3.0, 1.0, -4.0]],
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[[-1.0, 0.1, 0.9], [2.0, -2.5, 0.5], [0.9, 0.1, -1.0]],
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]))
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);
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}
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}
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let data = trajectory_generator(&net, 100, 20.0, Some(6347747169756259));
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let net = sl.fit_transform(net, &data);
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assert_eq!(BTreeSet::from_iter(vec![n1]), net.get_parent_set(n2));
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assert_eq!(BTreeSet::new(), net.get_parent_set(n1));
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}
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#[test]
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pub fn learn_ternary_net_2_nodes_hill_climbing_ll() {
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let ll = LogLikelihood::new(1, 1.0);
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let hl = HillClimbing::new(ll, None);
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learn_ternary_net_2_nodes(hl);
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}
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#[test]
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pub fn learn_ternary_net_2_nodes_hill_climbing_bic() {
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let bic = BIC::new(1, 1.0);
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let hl = HillClimbing::new(bic, None);
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learn_ternary_net_2_nodes(hl);
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}
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fn get_mixed_discrete_net_3_nodes_with_data() -> (CtbnNetwork, Dataset) {
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let mut net = CtbnNetwork::new();
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let n1 = net
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.add_node(generate_discrete_time_continous_node(String::from("n1"), 3))
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.unwrap();
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let n2 = net
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.add_node(generate_discrete_time_continous_node(String::from("n2"), 3))
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.unwrap();
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let n3 = net
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.add_node(generate_discrete_time_continous_node(String::from("n3"), 4))
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.unwrap();
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net.add_edge(n1, n2);
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net.add_edge(n1, n3);
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net.add_edge(n2, n3);
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match &mut net.get_node_mut(n1) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[[
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[-3.0, 2.0, 1.0],
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[1.5, -2.0, 0.5],
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[0.4, 0.6, -1.0]
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]]))
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);
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}
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}
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match &mut net.get_node_mut(n2) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[
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[[-1.0, 0.5, 0.5], [3.0, -4.0, 1.0], [0.9, 0.1, -1.0]],
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[[-6.0, 2.0, 4.0], [1.5, -2.0, 0.5], [3.0, 1.0, -4.0]],
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[[-1.0, 0.1, 0.9], [2.0, -2.5, 0.5], [0.9, 0.1, -1.0]],
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]))
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);
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}
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}
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match &mut net.get_node_mut(n3) {
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params::Params::DiscreteStatesContinousTime(param) => {
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assert_eq!(
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Ok(()),
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param.set_cim(arr3(&[
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[
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[-1.0, 0.5, 0.3, 0.2],
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[0.5, -4.0, 2.5, 1.0],
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[2.5, 0.5, -4.0, 1.0],
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[0.7, 0.2, 0.1, -1.0]
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],
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[
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[-6.0, 2.0, 3.0, 1.0],
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[1.5, -3.0, 0.5, 1.0],
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[2.0, 1.3, -5.0, 1.7],
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[2.5, 0.5, 1.0, -4.0]
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],
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[
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[-1.3, 0.3, 0.1, 0.9],
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[1.4, -4.0, 0.5, 2.1],
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[1.0, 1.5, -3.0, 0.5],
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[0.4, 0.3, 0.1, -0.8]
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],
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[
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[-2.0, 1.0, 0.7, 0.3],
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[1.3, -5.9, 2.7, 1.9],
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[2.0, 1.5, -4.0, 0.5],
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[0.2, 0.7, 0.1, -1.0]
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],
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[
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[-6.0, 1.0, 2.0, 3.0],
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[0.5, -3.0, 1.0, 1.5],
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[1.4, 2.1, -4.3, 0.8],
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[0.5, 1.0, 2.5, -4.0]
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],
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[
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[-1.3, 0.9, 0.3, 0.1],
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[0.1, -1.3, 0.2, 1.0],
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[0.5, 1.0, -3.0, 1.5],
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[0.1, 0.4, 0.3, -0.8]
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],
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[
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[-2.0, 1.0, 0.6, 0.4],
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[2.6, -7.1, 1.4, 3.1],
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[5.0, 1.0, -8.0, 2.0],
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[1.4, 0.4, 0.2, -2.0]
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],
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[
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[-3.0, 1.0, 1.5, 0.5],
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[3.0, -6.0, 1.0, 2.0],
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[0.3, 0.5, -1.9, 1.1],
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[5.0, 1.0, 2.0, -8.0]
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],
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[
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[-2.6, 0.6, 0.2, 1.8],
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[2.0, -6.0, 3.0, 1.0],
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[0.1, 0.5, -1.3, 0.7],
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[0.8, 0.6, 0.2, -1.6]
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],
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]))
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);
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}
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}
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let data = trajectory_generator(&net, 300, 30.0, Some(6347747169756259));
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return (net, data);
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}
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fn learn_mixed_discrete_net_3_nodes<T: StructureLearningAlgorithm>(sl: T) {
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let (net, data) = get_mixed_discrete_net_3_nodes_with_data();
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let net = sl.fit_transform(net, &data);
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assert_eq!(BTreeSet::new(), net.get_parent_set(0));
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assert_eq!(BTreeSet::from_iter(vec![0]), net.get_parent_set(1));
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assert_eq!(BTreeSet::from_iter(vec![0, 1]), net.get_parent_set(2));
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}
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#[test]
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pub fn learn_mixed_discrete_net_3_nodes_hill_climbing_ll() {
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let ll = LogLikelihood::new(1, 1.0);
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let hl = HillClimbing::new(ll, None);
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learn_mixed_discrete_net_3_nodes(hl);
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}
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#[test]
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pub fn learn_mixed_discrete_net_3_nodes_hill_climbing_bic() {
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let bic = BIC::new(1, 1.0);
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let hl = HillClimbing::new(bic, None);
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learn_mixed_discrete_net_3_nodes(hl);
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}
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fn learn_mixed_discrete_net_3_nodes_1_parent_constraint<T: StructureLearningAlgorithm>(sl: T) {
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let (net, data) = get_mixed_discrete_net_3_nodes_with_data();
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let net = sl.fit_transform(net, &data);
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assert_eq!(BTreeSet::new(), net.get_parent_set(0));
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assert_eq!(BTreeSet::from_iter(vec![0]), net.get_parent_set(1));
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assert_eq!(BTreeSet::from_iter(vec![0]), net.get_parent_set(2));
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}
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#[test]
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pub fn learn_mixed_discrete_net_3_nodes_hill_climbing_ll_1_parent_constraint() {
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let ll = LogLikelihood::new(1, 1.0);
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let hl = HillClimbing::new(ll, Some(1));
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learn_mixed_discrete_net_3_nodes_1_parent_constraint(hl);
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}
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#[test]
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pub fn learn_mixed_discrete_net_3_nodes_hill_climbing_bic_1_parent_constraint() {
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let bic = BIC::new(1, 1.0);
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let hl = HillClimbing::new(bic, Some(1));
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learn_mixed_discrete_net_3_nodes_1_parent_constraint(hl);
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}
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#[test]
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pub fn chi_square_compare_matrices () {
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let i: usize = 1;
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let M1 = arr3(&[
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 7, 8, 0]],
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[[0, 12, 90],
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[ 3, 0, 40],
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[ 6, 40, 0]],
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 44, 66, 0]]
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]);
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let j: usize = 0;
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let M2 = arr3(&[
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[[ 0, 200, 300],
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[ 400, 0, 600],
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[ 700, 800, 0]]
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]);
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let chi_sq = ChiSquare::new(0.1);
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assert!(!chi_sq.compare_matrices( i, &M1, j, &M2));
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}
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#[test]
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pub fn chi_square_compare_matrices_2 () {
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let i: usize = 1;
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let M1 = arr3(&[
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 7, 8, 0]],
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[[0, 20, 30],
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[ 40, 0, 60],
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[ 70, 80, 0]],
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 44, 66, 0]]
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]);
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let j: usize = 0;
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let M2 = arr3(&[
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[[ 0, 200, 300],
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[ 400, 0, 600],
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[ 700, 800, 0]]
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]);
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let chi_sq = ChiSquare::new(0.1);
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assert!(chi_sq.compare_matrices( i, &M1, j, &M2));
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}
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#[test]
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pub fn chi_square_compare_matrices_3 () {
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let i: usize = 1;
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let M1 = arr3(&[
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 7, 8, 0]],
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[[0, 21, 31],
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[ 41, 0, 59],
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[ 71, 79, 0]],
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[[ 0, 2, 3],
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[ 4, 0, 6],
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[ 44, 66, 0]]
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]);
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let j: usize = 0;
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let M2 = arr3(&[
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[[ 0, 200, 300],
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[ 400, 0, 600],
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[ 700, 800, 0]]
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]);
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let chi_sq = ChiSquare::new(0.1);
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assert!(chi_sq.compare_matrices( i, &M1, j, &M2));
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}
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