# Lbfgsb.rb [![Build Status](https://github.com/yoshoku/lbfgsb.rb/workflows/build/badge.svg)](https://github.com/yoshoku/lbfgsb.rb/actions?query=workflow%3Abuild) [![Gem Version](https://badge.fury.io/rb/lbfgsb.svg)](https://badge.fury.io/rb/lbfgsb) [![BSD 3-Clause License](https://img.shields.io/badge/License-BSD%203--Clause-orange.svg)](https://github.com/yoshoku/suika/blob/master/LICENSE.txt) [![Documentation](http://img.shields.io/badge/api-reference-blue.svg)](https://yoshoku.github.io/lbfgsb.rb/doc/) Lbfgsb.rb is a Ruby binding for [L-BFGS-B](http://users.iems.northwestern.edu/~nocedal/lbfgsb.html) that is a limited-memory algorithm for solving large nonlinear optimization problems subject to simple bounds on the variables. L-BFGS-B is written in FORTRAN. Author converted the codes into C-lang and call that with Ruby native exntesion. ## Installation Add this line to your application's Gemfile: ```ruby gem 'lbfgsb' ``` And then execute: $ bundle install Or install it yourself as: $ gem install lbfgsb ## Usage Example 1. Logistic Regression ```ruby require 'numo/narray' require 'lbfgsb' require 'rumale' ## Training: # Define objective function and its derivative. obj_fnc = proc do |w, x, y| Numo::NMath.log(1 + Numo::NMath.exp(-y * x.dot(w))).sum end d_obj_fnc = proc do |w, x, y| (y / (1 + Numo::NMath.exp(-y * x.dot(w))) - y).dot(x) end # Load dataset. x, y = Rumale::Dataset.load_libsvm_file('svmguide3') # Extend variable for intercept. xb = Numo::DFloat.hstack([x, Numo::DFloat.ones(x.shape[0]).expand_dims(1)]) # Initialize weight vector. w0 = xb.mean(0) # Optimize weight vector. res = Lbfgsb.minimize(fnc: obj_fnc, jcb: d_obj_fnc, x_init: w0, args: [xb, y]) pp res w = res[:x] ## Testing: # Load dataset. x_test, y_test = Rumale::Dataset.load_libsvm_file('svmguide3.t') xb_test = Numo::DFloat.hstack([x_test, Numo::DFloat.ones(x_test.shape[0]).expand_dims(1)]) # Predict class label. probs = 1.0 / (Numo::NMath.exp(-xb_test.dot(w)) + 1.0) predicted = Numo::Int32.zeros(x_test.shape[0]) predicted[probs >= 0.5] = 1 predicted[probs < 0.5] =-1 # Evaluate result. evaluator = Rumale::EvaluationMeasure::Accuracy.new puts("Accuracy: %.1f%%" % (100.0 * evaluator.score(predicted, y_test))) ``` ```sh $ gem install rumale $ wget https://www.csie.ntu.edu.tw/~cjlin/libsvmtools/datasets/binary/svmguide3 $ wget https://www.csie.ntu.edu.tw/~cjlin/libsvmtools/datasets/binary/svmguide3.t $ ruby example1.rb {:task=>"CONVERGENCE: REL_REDUCTION_OF_F_<=_FACTR*EPSMCH", :x=> Numo::DFloat#shape=[23] [6.36634, -86.6413, -18.9489, -11.4564, -16.6738, -23.9111, -6.19714, ...], :fnc=>512.3210359536802, :jcb=> Numo::DFloat#shape=[23] [8.01782e-05, -0.000226254, -0.00144915, 4.26451e-05, 0.000677138, ...], :n_iter=>623, :n_fev=>716, :n_jev=>716, :success=>true} Accuracy: 61.0% ``` ## Contributing Bug reports and pull requests are welcome on GitHub at https://github.com/yoshoku/lbfgsb. ## License The gem is available as open source under the terms of the [BSD-3-Clause License](https://opensource.org/licenses/BSD-3-Clause). In addition, L-BFGS-B carries the following condition for use: This software is freely available, but we expect that all publications describing work using this software , or all commercial products using it, quote at least one of the references given below. This software is released under the "New BSD License" (aka "Modified BSD License" or "3-clause license").