/*************************************************************************/ /* cp_player_data_notes.cpp */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2018 Juan Linietsky, Ariel Manzur. */ /* Copyright (c) 2014-2018 Godot Engine contributors (cf. AUTHORS.md) */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /*************************************************************************/ #include "cp_player_data.h" #include "cp_sample_manager.h" #define RANDOM_MAX 2147483647 static inline int32_t cp_random_generate(int32_t *seed) { int32_t k; int32_t s = (int32_t)(*seed); if (s == 0) s = 0x12345987; k = s / 127773; s = 16807 * (s - k * 127773) - 2836 * k; if (s < 0) s += 2147483647; (*seed) = (int32_t)s; return (int32_t)(s & RANDOM_MAX); } void CPPlayer::process_new_note(int p_track, uint8_t p_note) { // if there's really a new note.... if (control.channel[p_track].real_note != 255) { control.channel[p_track].old_note = control.channel[p_track].real_note; } control.channel[p_track].real_note = p_note; control.channel[p_track].kick = KICK_NOTE; control.channel[p_track].sample_start_index = -1; control.channel[p_track].sliding = 0; control.channel[p_track].row_has_note = true; control.channel[p_track].last_event_usecs = song_usecs; if (control.channel[p_track].panbrello_type) control.channel[p_track].panbrello_position = 0; } bool CPPlayer::process_new_instrument(int p_track, uint8_t p_instrument) { // bool different_instrument=false; ERR_FAIL_INDEX_V(p_instrument, CPSong::MAX_INSTRUMENTS, false); if (song->has_instruments()) { control.channel[p_track].instrument_ptr = song->get_instrument(p_instrument); } else { control.channel[p_track].instrument_ptr = NULL; } control.channel[p_track].retrig_counter = 0; control.channel[p_track].tremor_position = 0; control.channel[p_track].sample_offset_fine = 0; int old_instr_index = control.channel[p_track].instrument_index; control.channel[p_track].instrument_index = p_instrument; return (old_instr_index != p_instrument); } // returns if it was able to process bool CPPlayer::process_note_and_instrument(int p_track, int p_note, int p_instrument) { bool aux_result; aux_result = false; CPSample *aux_sample = 0; // current sample int dest_sample_index; bool new_instrument = false; control.channel[p_track].row_has_note = false; // wise man says.. "we dont have a note... until we really know we have a note". control.channel[p_track].new_instrument = false; if ((p_note < 0) && (p_instrument < 0)) return aux_result; // nothing to do here if ((p_note == 255) && (p_instrument == 255)) return aux_result; if ((p_note >= 0) && (p_note < 120)) { process_new_note(p_track, p_note); } else if (p_note == CPNote::CUT) { control.channel[p_track].aux_volume = 0; control.channel[p_track].note_end_flags |= END_NOTE_OFF; control.channel[p_track].note_end_flags |= END_NOTE_KILL; return aux_result; } else if ((p_note == CPNote::OFF) && (song->has_instruments())) { if (control.channel[p_track].instrument_ptr != NULL) { control.channel[p_track].note_end_flags |= END_NOTE_OFF; if (!control.channel[p_track].instrument_ptr->get_volume_envelope()->is_enabled() || control.channel[p_track].instrument_ptr->get_volume_envelope()->is_loop_enabled()) { control.channel[p_track].note_end_flags |= END_NOTE_FADE; } } return aux_result; } else return aux_result; // invalid note! if ((p_instrument >= 0) && (p_instrument < CPSong::MAX_INSTRUMENTS)) { new_instrument = process_new_instrument(p_track, p_instrument); if (song->has_instruments()) { // If we're in instrument mode... if (control.channel[p_track].instrument_ptr->get_sample_number(control.channel[p_track].real_note) >= CPSong::MAX_SAMPLES) { control.channel[p_track].kick = KICK_NOTHING; return aux_result; } else { dest_sample_index = control.channel[p_track].instrument_ptr->get_sample_number(control.channel[p_track].real_note); control.channel[p_track].note = control.channel[p_track].instrument_ptr->get_note_number(control.channel[p_track].real_note); } } else { // If we're in sample mode... dest_sample_index = control.channel[p_track].instrument_index; control.channel[p_track].note = control.channel[p_track].real_note; } control.channel[p_track].sample_index = dest_sample_index; aux_sample = song->get_sample(dest_sample_index); if (!CPSampleManager::get_singleton()->check(aux_sample->get_sample_data())) { /* INVALID SAMPLE */ control.channel[p_track].kick = KICK_NOTHING; return aux_result; } aux_sample = song->get_sample(dest_sample_index); } else { if (!control.channel[p_track].sample_ptr) return aux_result; if (song->has_instruments()) { if (!control.channel[p_track].instrument_ptr) return aux_result; control.channel[p_track].note = control.channel[p_track].instrument_ptr->get_note_number(control.channel[p_track].real_note); } else { control.channel[p_track].note = control.channel[p_track].real_note; } aux_sample = control.channel[p_track].sample_ptr; } if (p_instrument >= CPSong::MAX_INSTRUMENTS && control.channel[p_track].sample_ptr != aux_sample) { control.channel[p_track].new_instrument = (control.channel[p_track].period > 0); } control.channel[p_track].sample_ptr = aux_sample; /* channel or instrument determined panning ? */ control.channel[p_track].panning = control.channel[p_track].channel_panning; /* set filter,if any ? */ if (aux_sample->is_pan_enabled()) { control.channel[p_track].panning = (int)aux_sample->get_pan() * 255 / 64; } else if (song->has_instruments() && (control.channel[p_track].instrument_ptr->is_pan_default_enabled())) { control.channel[p_track].panning = (int)control.channel[p_track].instrument_ptr->get_pan_default_amount() * 255 / 64; } if (song->has_instruments()) { /* Pitch-Pan Separation */ if ((control.channel[p_track].instrument_ptr->get_pan_pitch_separation() != 0) && (control.channel[p_track].channel_panning != PAN_SURROUND)) { control.channel[p_track].panning += ((control.channel[p_track].real_note - control.channel[p_track].instrument_ptr->get_pan_pitch_center()) * control.channel[p_track].instrument_ptr->get_pan_pitch_separation()) / 8; if (control.channel[p_track].panning < PAN_LEFT) control.channel[p_track].panning = PAN_LEFT; if (control.channel[p_track].panning > PAN_RIGHT) control.channel[p_track].panning = PAN_RIGHT; } /* Random Volume Variation */ if (control.channel[p_track].instrument_ptr->get_volume_random_variation() > 0) { control.channel[p_track].random_volume_variation = 100 - (cp_random_generate(&control.random_seed) % control.channel[p_track].instrument_ptr->get_volume_random_variation()); } else { control.channel[p_track].random_volume_variation = 100; } /* Random Pan Variation */ if ((control.channel[p_track].instrument_ptr->get_pan_random_variation() > 0) && (control.channel[p_track].panning != PAN_SURROUND)) { int aux_pan_modifier; aux_pan_modifier = (cp_random_generate(&control.random_seed) % (control.channel[p_track].instrument_ptr->get_pan_random_variation() << 2)); if ((cp_random_generate(&control.random_seed) % 2) == 1) aux_pan_modifier = 0 - aux_pan_modifier; /* it's 5am, let me sleep :) */ control.channel[p_track].panning += aux_pan_modifier; if (control.channel[p_track].panning < PAN_LEFT) control.channel[p_track].panning = PAN_LEFT; if (control.channel[p_track].panning > PAN_RIGHT) control.channel[p_track].panning = PAN_RIGHT; } /*filter*/ if (control.channel[p_track].instrument_ptr->filter_use_default_cutoff()) { control.channel[p_track].filter.it_cutoff = control.channel[p_track].instrument_ptr->get_filter_default_cutoff() * 2; } if (control.channel[p_track].instrument_ptr->filter_use_default_resonance()) { control.channel[p_track].filter.it_reso = control.channel[p_track].instrument_ptr->get_filter_default_resonance() * 2; } /*envelopes*/ control.channel[p_track].volume_envelope_on = control.channel[p_track].instrument_ptr->get_volume_envelope()->is_enabled(); control.channel[p_track].panning_envelope_on = control.channel[p_track].instrument_ptr->get_pan_envelope()->is_enabled(); control.channel[p_track].pitch_envelope_on = control.channel[p_track].instrument_ptr->get_pitch_filter_envelope()->is_enabled(); control.channel[p_track].NNA_type = control.channel[p_track].instrument_ptr->get_NNA_type(); control.channel[p_track].duplicate_check_type = control.channel[p_track].instrument_ptr->get_DC_type(); control.channel[p_track].duplicate_check_action = control.channel[p_track].instrument_ptr->get_DC_action(); } else { control.channel[p_track].NNA_type = CPInstrument::NNA_NOTE_CUT; control.channel[p_track].duplicate_check_type = CPInstrument::DCT_DISABLED; control.channel[p_track].duplicate_check_action = CPInstrument::DCA_NOTE_CUT; } if (p_instrument < CPSong::MAX_INSTRUMENTS) { // instrument change control.channel[p_track].volume = control.channel[p_track].aux_volume = aux_sample->get_default_volume(); } control.channel[p_track].slide_to_period = control.channel[p_track].aux_period = get_period((uint16_t)(control.channel[p_track].note) << 1, CPSampleManager::get_singleton()->get_c5_freq((aux_sample->get_sample_data()))); control.channel[p_track].note_end_flags = END_NOTE_NOTHING; /* clears flags */ return true; } void CPPlayer::process_volume_column(int p_track, uint8_t p_volume) { control.channel[p_track].current_volume_command = CPNote::EMPTY; control.channel[p_track].current_volume_parameter = CPNote::EMPTY; if (p_volume < 65) { // VOLUME control.channel[p_track].aux_volume = p_volume; } else if (p_volume < 125) { // Volume Command control.channel[p_track].current_volume_command = (p_volume - 65) / 10; control.channel[p_track].current_volume_parameter = (p_volume - 65) % 10; } else if (p_volume < 193) { // PAN control.channel[p_track].channel_panning = (p_volume - 128) * PAN_RIGHT / 64; control.channel[p_track].panning = control.channel[p_track].channel_panning; } else if (p_volume < 213) { //More volume Commands control.channel[p_track].current_volume_command = ((p_volume - 193) / 10) + 6; control.channel[p_track].current_volume_parameter = (p_volume - 193) % 10; } } void CPPlayer::process_note(int p_track, CPNote p_note) { if (p_note.note != CPNote::SCRIPT) { process_note_and_instrument(p_track, p_note.note, p_note.instrument); process_volume_column(p_track, p_note.volume); control.channel[p_track].current_command = p_note.command; control.channel[p_track].current_parameter = p_note.parameter; } else { CPNote n = song->get_pattern(control.position.current_pattern)->get_transformed_script_note(p_track, control.position.current_row); process_note(p_track, n); song->get_pattern(control.position.current_pattern)->scripted_clone(p_track, control.position.current_row); } }