/* This file is part of Machina. Copyright 2007-2013 David Robillard Machina is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or any later version. Machina is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Machina. If not, see . */ #ifndef MACHINA_PROBLEM_HPP #define MACHINA_PROBLEM_HPP #include #include "machina/Machine.hpp" #include "eugene/Problem.hpp" #include "MIDISink.hpp" namespace machina { class Problem : public Eugene::Problem { public: Problem(TimeUnit unit, const std::string& target_midi, SPtr seed = SPtr()); virtual ~Problem() {} void seed(SPtr parent) { _seed = parent; } float fitness(const Machine& machine) const; bool fitness_less_than(float a, float b) const { return a < b; } void clear_fitness_cache() { _fitness.clear(); } boost::shared_ptr initial_population(size_t gene_size, size_t pop_size) const; private: size_t distance(const std::vector& source, const std::vector& target) const; // count /*struct FreqEvaluator : public Raul::MIDISink { Evaluator(const Problem& problem) : _problem(problem), _n_notes(0), _length(0) { for (uint8_t i=0; i < 128; ++i) _note_frequency[i] = 0; } void write_event(Raul::BeatTime time, size_t ev_size, const uint8_t* ev) throw (std::logic_error); void compute(); const Problem& _problem; size_t n_notes() const { return _n_notes; } float _note_frequency[128]; size_t _n_notes; double _length; };*/ // distance /*struct Evaluator : public Raul::MIDISink { Evaluator(const Problem& problem) : _problem(problem) {} void write_event(Raul::BeatTime time, size_t ev_size, const uint8_t* ev) throw (std::logic_error); void compute(); const Problem& _problem; size_t n_notes() const { return _notes.size(); } std::vector _notes; float _counts[128]; };*/ struct Evaluator : public Raul::MIDISink { Evaluator(const Problem& problem) : _problem(problem), _order(4), _n_notes(0), _first_note(0) { for (uint8_t i=0; i < 128; ++i) _counts[i] = 0; } void write_event(TimeStamp time, size_t ev_size, const uint8_t* ev) throw (std::logic_error); void compute(); const Problem& _problem; size_t n_notes() const { return _n_notes; } uint8_t first_note() const { return _first_note; } const uint32_t _order; std::string _read; typedef std::map Patterns; Patterns _patterns; uint32_t _counts[128]; size_t _n_notes; uint8_t _first_note; }; TimeUnit _unit; Evaluator _target; SPtr _seed; /// for levenshtein distance mutable std::vector< std::vector > _matrix; /// memoization mutable std::map _fitness; }; } // namespace machina #endif // MACHINA_PROBLEM_HPP