Line data Source code
1 : // ***************************************************************
2 : // SPDX-FileCopyrightText: Copyright 2024 Ricardo Montañana Gómez
3 : // SPDX-FileType: SOURCE
4 : // SPDX-License-Identifier: MIT
5 : // ***************************************************************
6 :
7 : #include "TANLd.h"
8 :
9 : namespace bayesnet {
10 17 : TANLd::TANLd() : TAN(), Proposal(dataset, features, className) {}
11 5 : TANLd& TANLd::fit(torch::Tensor& X_, torch::Tensor& y_, const std::vector<std::string>& features_, const std::string& className_, map<std::string, std::vector<int>>& states_)
12 : {
13 5 : checkInput(X_, y_);
14 5 : features = features_;
15 5 : className = className_;
16 5 : Xf = X_;
17 5 : y = y_;
18 : // Fills std::vectors Xv & yv with the data from tensors X_ (discretized) & y
19 5 : states = fit_local_discretization(y);
20 : // We have discretized the input data
21 : // 1st we need to fit the model to build the normal TAN structure, TAN::fit initializes the base Bayesian network
22 5 : TAN::fit(dataset, features, className, states);
23 5 : states = localDiscretizationProposal(states, model);
24 5 : return *this;
25 :
26 : }
27 4 : torch::Tensor TANLd::predict(torch::Tensor& X)
28 : {
29 4 : auto Xt = prepareX(X);
30 8 : return TAN::predict(Xt);
31 4 : }
32 1 : std::vector<std::string> TANLd::graph(const std::string& name) const
33 : {
34 1 : return TAN::graph(name);
35 : }
36 : }
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