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380 lines
10 KiB
C++
380 lines
10 KiB
C++
//
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// LogReg.cpp
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//
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// Created by Marc Melikyan on 10/2/20.
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//
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#include "log_reg.h"
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#include "../activation/activation.h"
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#include "../cost/cost.h"
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#include "../lin_alg/lin_alg.h"
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#include "../regularization/reg.h"
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#include "../utilities/utilities.h"
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#include <iostream>
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#include <random>
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/*
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Ref<MLPPMatrix> MLPPLogReg::get_input_set() {
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return _input_set;
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}
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void MLPPLogReg::set_input_set(const Ref<MLPPMatrix> &val) {
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_input_set = val;
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_initialized = false;
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}
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Ref<MLPPVector> MLPPLogReg::get_output_set() {
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return _output_set;
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}
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void MLPPLogReg::set_output_set(const Ref<MLPPVector> &val) {
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_output_set = val;
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_initialized = false;
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}
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MLPPReg::RegularizationType MLPPLogReg::get_reg() {
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return _reg;
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}
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void MLPPLogReg::set_reg(const MLPPReg::RegularizationType val) {
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_reg = val;
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_initialized = false;
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}
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real_t MLPPLogReg::get_lambda() {
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return _lambda;
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}
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void MLPPLogReg::set_lambda(const real_t val) {
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_lambda = val;
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_initialized = false;
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}
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real_t MLPPLogReg::get_alpha() {
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return _alpha;
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}
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void MLPPLogReg::set_alpha(const real_t val) {
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_alpha = val;
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_initialized = false;
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}
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*/
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Ref<MLPPVector> MLPPLogReg::model_set_test(const Ref<MLPPMatrix> &X) {
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ERR_FAIL_COND_V(!_initialized, Ref<MLPPVector>());
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return evaluatem(X);
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}
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real_t MLPPLogReg::model_test(const Ref<MLPPVector> &x) {
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ERR_FAIL_COND_V(!_initialized, 0);
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return evaluatev(x);
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}
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void MLPPLogReg::gradient_descent(real_t learning_rate, int max_epoch, bool ui) {
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ERR_FAIL_COND(!_initialized);
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MLPPLinAlg alg;
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MLPPReg regularization;
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real_t cost_prev = 0;
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int epoch = 1;
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forward_pass();
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while (true) {
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cost_prev = cost(_y_hat, _output_set);
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Ref<MLPPVector> error = alg.subtractionnv(_y_hat, _output_set);
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// Calculating the weight gradients
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_weights = alg.subtractionnv(_weights, alg.scalar_multiplynv(learning_rate / _n, alg.mat_vec_multnv(alg.transposenm(_input_set), error)));
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_weights = regularization.reg_weightsv(_weights, _lambda, _alpha, _reg);
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// Calculating the bias gradients
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_bias -= learning_rate * alg.sum_elementsv(error) / _n;
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forward_pass();
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if (ui) {
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MLPPUtilities::cost_info(epoch, cost_prev, cost(_y_hat, _output_set));
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MLPPUtilities::print_ui_vb(_weights, _bias);
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}
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epoch++;
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if (epoch > max_epoch) {
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break;
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}
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}
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}
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void MLPPLogReg::mle(real_t learning_rate, int max_epoch, bool ui) {
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ERR_FAIL_COND(!_initialized);
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MLPPLinAlg alg;
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MLPPReg regularization;
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real_t cost_prev = 0;
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int epoch = 1;
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forward_pass();
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while (true) {
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cost_prev = cost(_y_hat, _output_set);
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Ref<MLPPVector> error = alg.subtractionnv(_output_set, _y_hat);
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// Calculating the weight gradients
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_weights = alg.additionnv(_weights, alg.scalar_multiplynv(learning_rate / _n, alg.mat_vec_multnv(alg.transposenm(_input_set), error)));
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_weights = regularization.reg_weightsv(_weights, _lambda, _alpha, _reg);
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// Calculating the bias gradients
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_bias += learning_rate * alg.sum_elementsv(error) / _n;
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forward_pass();
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if (ui) {
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MLPPUtilities::cost_info(epoch, cost_prev, cost(_y_hat, _output_set));
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MLPPUtilities::print_ui_vb(_weights, _bias);
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}
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epoch++;
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if (epoch > max_epoch) {
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break;
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}
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}
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}
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void MLPPLogReg::sgd(real_t learning_rate, int max_epoch, bool ui) {
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ERR_FAIL_COND(!_initialized);
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MLPPLinAlg alg;
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MLPPReg regularization;
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real_t cost_prev = 0;
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int epoch = 1;
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std::random_device rd;
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std::default_random_engine generator(rd());
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std::uniform_int_distribution<int> distribution(0, int(_n - 1));
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Ref<MLPPVector> input_row_tmp;
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input_row_tmp.instance();
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input_row_tmp->resize(_input_set->size().x);
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Ref<MLPPVector> y_hat_tmp;
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y_hat_tmp.instance();
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y_hat_tmp->resize(1);
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Ref<MLPPVector> output_set_element_tmp;
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output_set_element_tmp.instance();
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output_set_element_tmp->resize(1);
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while (true) {
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int output_index = distribution(generator);
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_input_set->get_row_into_mlpp_vector(output_index, input_row_tmp);
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real_t output_set_element = _output_set->get_element(output_index);
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output_set_element_tmp->set_element(0, output_set_element);
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real_t y_hat = evaluatev(input_row_tmp);
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y_hat_tmp->set_element(0, y_hat);
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cost_prev = cost(y_hat_tmp, output_set_element_tmp);
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real_t error = y_hat - output_set_element;
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// Weight updation
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_weights = alg.subtractionnv(_weights, alg.scalar_multiplynv(learning_rate * error, input_row_tmp));
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_weights = regularization.reg_weightsv(_weights, _lambda, _alpha, _reg);
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// Bias updation
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_bias -= learning_rate * error;
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y_hat = evaluatev(input_row_tmp);
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if (ui) {
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MLPPUtilities::cost_info(epoch, cost_prev, cost(y_hat_tmp, output_set_element_tmp));
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MLPPUtilities::print_ui_vb(_weights, _bias);
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}
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epoch++;
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if (epoch > max_epoch) {
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break;
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}
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}
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forward_pass();
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}
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void MLPPLogReg::mbgd(real_t learning_rate, int max_epoch, int mini_batch_size, bool UI) {
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ERR_FAIL_COND(!_initialized);
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MLPPLinAlg alg;
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MLPPReg regularization;
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real_t cost_prev = 0;
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int epoch = 1;
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// Creating the mini-batches
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int n_mini_batch = _n / mini_batch_size;
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MLPPUtilities::CreateMiniBatchMVBatch bacthes = MLPPUtilities::create_mini_batchesmv(_input_set, _output_set, n_mini_batch);
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while (true) {
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for (int i = 0; i < n_mini_batch; i++) {
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Ref<MLPPMatrix> current_mini_batch_input_entry = bacthes.input_sets[i];
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Ref<MLPPVector> current_mini_batch_output_entry = bacthes.output_sets[i];
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Ref<MLPPVector> y_hat = evaluatem(current_mini_batch_input_entry);
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cost_prev = cost(y_hat, current_mini_batch_output_entry);
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Ref<MLPPVector> error = alg.subtractionnv(y_hat, current_mini_batch_output_entry);
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// Calculating the weight gradients
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_weights = alg.subtractionnv(_weights, alg.scalar_multiplynv(learning_rate / current_mini_batch_output_entry->size(), alg.mat_vec_multnv(alg.transposenm(current_mini_batch_input_entry), error)));
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_weights = regularization.reg_weightsv(_weights, _lambda, _alpha, _reg);
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// Calculating the bias gradients
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_bias -= learning_rate * alg.sum_elementsv(error) / current_mini_batch_output_entry->size();
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y_hat = evaluatem(current_mini_batch_input_entry);
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if (UI) {
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MLPPUtilities::cost_info(epoch, cost_prev, cost(y_hat, current_mini_batch_output_entry));
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MLPPUtilities::print_ui_vb(_weights, _bias);
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}
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}
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epoch++;
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if (epoch > max_epoch) {
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break;
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}
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}
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forward_pass();
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}
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real_t MLPPLogReg::score() {
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ERR_FAIL_COND_V(!_initialized, 0);
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MLPPUtilities util;
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return util.performance_vec(_y_hat, _output_set);
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}
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void MLPPLogReg::save(std::string file_name) {
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//ERR_FAIL_COND(!_initialized);
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//MLPPUtilities util;
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//util.saveParameters(file_name, _weights, _bias);
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}
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bool MLPPLogReg::is_initialized() {
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return _initialized;
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}
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void MLPPLogReg::initialize() {
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if (_initialized) {
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return;
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}
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//ERR_FAIL_COND(!_input_set.is_valid() || !_output_set.is_valid());
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_initialized = true;
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}
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MLPPLogReg::MLPPLogReg(const Ref<MLPPMatrix> &p_input_set, const Ref<MLPPVector> &p_output_set, MLPPReg::RegularizationType p_reg, real_t p_lambda, real_t p_alpha) {
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_input_set = p_input_set;
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_output_set = p_output_set;
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_n = p_input_set->size().y;
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_k = p_input_set->size().x;
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_reg = p_reg;
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_lambda = p_lambda;
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_alpha = p_alpha;
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_y_hat.instance();
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_y_hat->resize(_n);
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_weights.instance();
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_weights->resize(_k);
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MLPPUtilities utils;
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utils.weight_initializationv(_weights);
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_bias = utils.bias_initializationr();
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_initialized = true;
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}
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MLPPLogReg::MLPPLogReg() {
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_initialized = false;
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}
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MLPPLogReg::~MLPPLogReg() {
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}
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real_t MLPPLogReg::cost(const Ref<MLPPVector> &y_hat, const Ref<MLPPVector> &y) {
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MLPPReg regularization;
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class MLPPCost cost;
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return cost.log_lossv(y_hat, y) + regularization.reg_termv(_weights, _lambda, _alpha, _reg);
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}
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real_t MLPPLogReg::evaluatev(const Ref<MLPPVector> &x) {
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MLPPLinAlg alg;
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MLPPActivation avn;
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return avn.sigmoid_normr(alg.dotnv(_weights, x) + _bias);
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}
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Ref<MLPPVector> MLPPLogReg::evaluatem(const Ref<MLPPMatrix> &X) {
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MLPPLinAlg alg;
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MLPPActivation avn;
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return avn.sigmoid_normv(alg.scalar_addnv(_bias, alg.mat_vec_multnv(X, _weights)));
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}
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// sigmoid ( wTx + b )
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void MLPPLogReg::forward_pass() {
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_y_hat = evaluatem(_input_set);
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}
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void MLPPLogReg::_bind_methods() {
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/*
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ClassDB::bind_method(D_METHOD("get_input_set"), &MLPPLogReg::get_input_set);
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ClassDB::bind_method(D_METHOD("set_input_set", "val"), &MLPPLogReg::set_input_set);
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ADD_PROPERTY(PropertyInfo(Variant::OBJECT, "input_set", PROPERTY_HINT_RESOURCE_TYPE, "MLPPMatrix"), "set_input_set", "get_input_set");
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ClassDB::bind_method(D_METHOD("get_output_set"), &MLPPLogReg::get_output_set);
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ClassDB::bind_method(D_METHOD("set_output_set", "val"), &MLPPLogReg::set_output_set);
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ADD_PROPERTY(PropertyInfo(Variant::OBJECT, "output_set", PROPERTY_HINT_RESOURCE_TYPE, "MLPPVector"), "set_output_set", "get_output_set");
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ClassDB::bind_method(D_METHOD("get_reg"), &MLPPLogReg::get_reg);
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ClassDB::bind_method(D_METHOD("set_reg", "val"), &MLPPLogReg::set_reg);
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ADD_PROPERTY(PropertyInfo(Variant::INT, "reg"), "set_reg", "get_reg");
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ClassDB::bind_method(D_METHOD("get_lambda"), &MLPPLogReg::get_lambda);
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ClassDB::bind_method(D_METHOD("set_lambda", "val"), &MLPPLogReg::set_lambda);
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ADD_PROPERTY(PropertyInfo(Variant::REAL, "lambda"), "set_lambda", "get_lambda");
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ClassDB::bind_method(D_METHOD("get_alpha"), &MLPPLogReg::get_alpha);
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ClassDB::bind_method(D_METHOD("set_alpha", "val"), &MLPPLogReg::set_alpha);
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ADD_PROPERTY(PropertyInfo(Variant::REAL, "alpha"), "set_alpha", "get_alpha");
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ClassDB::bind_method(D_METHOD("model_test", "x"), &MLPPLogReg::model_test);
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ClassDB::bind_method(D_METHOD("model_set_test", "X"), &MLPPLogReg::model_set_test);
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ClassDB::bind_method(D_METHOD("gradient_descent", "learning_rate", "max_epoch", "ui"), &MLPPLogReg::gradient_descent, false);
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ClassDB::bind_method(D_METHOD("sgd", "learning_rate", "max_epoch", "ui"), &MLPPLogReg::sgd, false);
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ClassDB::bind_method(D_METHOD("mbgd", "learning_rate", "max_epoch", "mini_batch_size", "ui"), &MLPPLogReg::mbgd, false);
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ClassDB::bind_method(D_METHOD("score"), &MLPPLogReg::score);
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ClassDB::bind_method(D_METHOD("save", "file_name"), &MLPPLogReg::save);
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ClassDB::bind_method(D_METHOD("is_initialized"), &MLPPLogReg::is_initialized);
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ClassDB::bind_method(D_METHOD("initialize"), &MLPPLogReg::initialize);
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*/
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}
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