/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2019-2020, William McPherson * Copyright (c) 2021, JJ Roberts-White * * SPDX-License-Identifier: BSD-2-Clause */ #include "TrackManager.h" TrackManager::TrackManager() { add_track(); } TrackManager::~TrackManager() { } void TrackManager::time_forward(int amount) { int new_value = (static_cast(m_time) + amount) % roll_length; if (new_value < 0) { // If the new time value is negative add roll_length to wrap around m_time = roll_length + new_value; } else { m_time = new_value; } } void TrackManager::fill_buffer(Span buffer) { memset(buffer.data(), 0, buffer_size); for (size_t i = 0; i < buffer.size(); ++i) { for (auto& track : m_tracks) track->fill_sample(buffer[i]); if (++m_time >= roll_length) { m_time = 0; if (!m_should_loop) break; } } memcpy(m_current_back_buffer.data(), buffer.data(), buffer_size); swap(m_current_front_buffer, m_current_back_buffer); } void TrackManager::reset() { memset(m_front_buffer.data(), 0, buffer_size); memset(m_back_buffer.data(), 0, buffer_size); m_current_front_buffer = m_front_buffer.span(); m_current_back_buffer = m_back_buffer.span(); m_time = 0; for (auto& track : m_tracks) track->reset(); } void TrackManager::set_note_current_octave(int note, Switch switch_note) { current_track().set_note(note + octave_base(), switch_note); } void TrackManager::set_octave(Direction direction) { if (direction == Up) { if (m_octave < octave_max) ++m_octave; } else { if (m_octave > octave_min) --m_octave; } } void TrackManager::set_octave(int octave) { if (octave <= octave_max && octave >= octave_min) { m_octave = octave; } } void TrackManager::add_track() { m_tracks.append(make(m_time)); } void TrackManager::next_track() { if (++m_current_track >= m_tracks.size()) m_current_track = 0; }