public static ArrayList<PitchCandidate> harmonicChecksSuperBasic( ArrayList<PitchCandidate> pitch_candidates, MelodicNote CF_note, Boolean CFnoteRoot, MelodicNote CP_note) { // begin Harmonic checks // Will need to evaluate each CP pitch candidate against the counterpoint notes // in each previously built voice // Evaluate Pitch Candidates Against these checke for (PitchCandidate myPC : pitch_candidates) { int this_interval = abs(myPC.getPitch() - CF_note.getPitch()) % 12; System.out.println("this interval = " + this_interval); // compute interval whether consonant boolean this_interval_consonant = false; boolean root_interval_consonant = false; for (Integer consonance : consonances) { if (this_interval == consonance) this_interval_consonant = true; } if (this_interval_consonant) { System.out.println("this interval consonant"); } else { if (CP_note.getAccent()) { // if (CP_note.getAccent() && CP_note.getStartTime() <= CF_note.getStartTime()) { myPC.decrementRank(Decrements.accented_dissonance); System.out.println("dissonant accent2"); } } } return pitch_candidates; }
public static void main(String[] args) { int number_of_voices = voice_array.length; Random my_roll = new Random(); Pattern[] rhythm_patterns = james.generate(piece_length, number_of_voices); for (int i = 0; i < number_of_voices; i++) { MelodicVoice this_voice = new MelodicVoice(); this_voice.setRange(voice_array[i]); AccentListener my_accent_listener = new AccentListener(); this_voice.setNoteArray(my_accent_listener.listen(rhythm_patterns[i])); System.out.println("adding voice " + i + " to unbuiltvoices"); unbuilt_voices.add(this_voice); } int ub_size = unbuilt_voices.size(); for (int i = 0; i < number_of_voices; i++) { // int voice_index = my_roll.nextInt(unbuilt_voices.size()); int voice_index = i; System.out.println(" about to build voice pitches for " + voice_index); MelodicVoice nextVoice = buildVoicePitches(unbuilt_voices.get(voice_index), number_of_voices, my_mode_module); ArrayList<MelodicNote> verify_array = nextVoice.getNoteArray(); System.out.println("Return Me: "); for (MelodicNote verify : verify_array) { if (verify.getRest()) System.out.println("rest " + verify.getDuration() + " "); else System.out.println(verify.getPitch() + " " + verify.getDuration() + " "); } if (i == 0) { harmonic_prog = nextVoice; harmonic_prog_built = true; } else built_voices.add(nextVoice); // unbuilt_voices.remove(voice_index); } unbuilt_voices.clear(); Pattern music_output = new Pattern(); music_output.addElement(new Tempo(tempo_bpm)); for (byte i = 0; i < built_voices.size(); i++) { // create a jfugue musicstring from the built voice MelodicVoice final_voice = built_voices.get(i); ArrayList<MelodicNote> final_note_array = final_voice.getNoteArray(); Voice jf_voice = new Voice(i); music_output.addElement(jf_voice); for (MelodicNote final_note : final_note_array) { int jf_int = 0; Note jf_note = new Note(); jf_note.setDecimalDuration(final_note.getDuration()); if (final_note.getPitch() != null && final_note.getRest() == false) { jf_int = final_note.getPitch(); byte jf_note_byte = (byte) jf_int; jf_note.setValue(jf_note_byte); if (!final_note.getAccent()) jf_note.setAttackVelocity((byte) 40); } else { // System.out.println("setting jf note to rest"); jf_note.setRest(true); jf_note.setAttackVelocity((byte) 0); jf_note.setDecayVelocity((byte) 0); } music_output.addElement(jf_note); } // add the musicstring to a pattern } // save and play the pattern System.out.println(music_output.getMusicString()); Player my_player = new Player(); my_player.play(music_output); Date today = new Date(System.currentTimeMillis()); // Date format: "yyyy-MM-dd_HH:mm:ss" SimpleDateFormat DATE_FORMAT = new SimpleDateFormat("MM-dd-yyyy-HH-mm"); String dateString = DATE_FORMAT.format(today); try { my_player.saveMidi( music_output, new File( "C:\\Documents and Settings\\alyssa\\Desktop\\Species Midi\\species-" + tempo_bpm + "-" + dateString + ".mid")); } catch (IOException ex) { } }
public static ArrayList<PitchCandidate> harmonicChecks( ArrayList<PitchCandidate> pitch_candidates, MelodicNote CF_note, Boolean CFnoteRoot, Integer previous_cf_pitch, Integer previous_cp_pitch, MelodicNote CP_note, int voice_pitch_count, int cf_voice_index) { // begin Harmonic checks boolean cand_prev_cf_diss = true; // Will need to evaluate each CP pitch candidate against the counterpoint notes // in each previously built voice // Evaluate Pitch Candidates Against these checke for (PitchCandidate myPC : pitch_candidates) { Integer cand_pitch = myPC.getPitch(); Integer cf_pitch = CF_note.getPitch(); if (previous_cp_pitch == 9999) previous_cp_pitch = cand_pitch; // 9999 means the CP is held over to multiple cfs Integer melody_motion_to_cand = cand_pitch - previous_cp_pitch; int this_interval = abs(myPC.getPitch() - CF_note.getPitch()) % 12; // if (myPC.getLatestInterval(cf_voice_index) != null) previous_cf_pitch = // myPC.getLatestInterval(cf_voice_index); //NEW System.out.println("this interval = " + this_interval); Integer melodic_motion_to_ = cf_pitch - previous_cf_pitch; Integer previous_interval = abs(previous_cp_pitch - previous_cf_pitch) % 12; System.out.println("previous interval = " + previous_interval); Double cp_start_time = CP_note.getStartTime(); Double cf_start_time = CF_note.getStartTime(); // compute interval whether consonant boolean this_interval_consonant = false; for (Integer consonance : consonances) { if (this_interval == consonance) { this_interval_consonant = true; System.out.println( "this_interval == " + consonance + " means this_interval_consonant == " + this_interval_consonant); break; } } if (this_interval_consonant) { System.out.println("this interval consonant"); if (this_interval == 0) { myPC.decrementRank(Decrements.octave); System.out.println("octave"); } } else { if (this_interval == 1 && (abs(myPC.getPitch() - CF_note.getPitch()) < 14 || large_dissonance_bad)) { myPC.decrementRank(Decrements.minor_9th); System.out.println("minor 9th"); } if (CP_note.getAccent() && (abs(myPC.getPitch() - CF_note.getPitch()) < 36 || large_dissonance_bad)) { // if (CP_note.getAccent() && CP_note.getStartTime()<= CF_note.getStartTime() ) { myPC.decrementRank(Decrements.accented_dissonance); System.out.println("dissonant accent"); } } // compute previous_interval consonant boolean previous_interval_consonant = false; for (Integer consonance : consonances) { if (previous_interval == consonance) previous_interval_consonant = true; } if (previous_interval_consonant) System.out.println("previous interval consonant"); if (cp_start_time > cf_start_time) { System.out.println("CP starts after CF"); if (melody_motion_to_cand == 0) { myPC.decrementRank(Decrements.seq_of_same_cons); } if (previous_interval_consonant) { if (!this_interval_consonant && abs(melody_motion_to_cand) > 2) { myPC.decrementRank(Decrements.bad_diss_approach_from_cons); } } else if (this_interval_consonant) { if (abs(melody_motion_to_cand) > 2) { myPC.decrementRank(Decrements.bad_cons_approach_from_diss); } } else { if (abs(melody_motion_to_cand) > 4) { // New_Interval is dissonant myPC.decrementRank(Decrements.bad_diss_approach_from_diss); } } } else if (cp_start_time < cf_start_time) { System.out.println("CP starts before CF"); if (previous_interval_consonant) { if (previous_interval == this_interval) { myPC.decrementRank(Decrements.seq_same_type_cons); } } else { // ie Previous_Interval is dissonant if (this_interval_consonant) { if (abs(melodic_motion_to_) > 2) myPC.decrementRank(Decrements.bad_cons_approach_from_diss); } else // New_Interval is dissonant if (abs(melodic_motion_to_) > 4) myPC.decrementRank(Decrements.bad_diss_approach_from_diss); } } else { System.out.println("CP and CF start at the same time"); if (previous_interval_consonant) { if (this_interval_consonant) { for (Integer consonance : consonances) { if ((cand_pitch - previous_cf_pitch) % 12 == consonance) { cand_prev_cf_diss = false; } } if (cand_prev_cf_diss == true) myPC.decrementRank(Decrements.diss_cp_previous_cf); if (previous_interval == this_interval) { same_consonant_count++; if (same_consonant_count > same_consonant_threshold) myPC.decrementRank(Decrements.seq_of_same_cons); } // Too many of same type of interval for (Integer perfect_consonance : perfect_consonances) { if (this_interval == perfect_consonance) { if (this_interval == previous_interval) { myPC.decrementRank(Decrements.seq_same_type_cons); if (melody_motion_to_cand > 0) if (melodic_motion_to_ > 0) myPC.decrementRank(Decrements.parallel_perf_consonance); if (melody_motion_to_cand < 0) if (melodic_motion_to_ < 0) myPC.decrementRank(Decrements.parallel_perf_consonance); } } else { if (melody_motion_to_cand > 0) if (melodic_motion_to_ > 0) myPC.decrementRank(Decrements.direct_motion_perf_cons); if (melody_motion_to_cand < 0) if (melodic_motion_to_ < 0) myPC.decrementRank(Decrements.direct_motion_perf_cons); } } // If dissonance between CP1 and CF2 is this resolved? } else // New_Interval is dissonant myPC.decrementRank(Decrements.motion_into_diss_both_voices_change); } else // ie Previous_Interval is dissonant if (this_interval_consonant) { for (Integer consonance : consonances) { if ((cand_pitch - previous_cp_pitch) % 12 == consonance) { cand_prev_cf_diss = false; } } if (cand_prev_cf_diss == true) myPC.decrementRank(Decrements.diss_cp_previous_cf); if (melody_motion_to_cand > 0) if (melodic_motion_to_ > 0) myPC.decrementRank(Decrements.direct_motion_perf_cons); if (melody_motion_to_cand < 0) if (melodic_motion_to_ < 0) myPC.decrementRank(Decrements.direct_motion_perf_cons); } else { // this interval is dissonant myPC.decrementRank(Decrements.motion_into_diss_both_voices_change); myPC.decrementRank(Decrements.seq_of_diss); if (this_interval == previous_interval) { myPC.decrementRank(Decrements.seq_same_type_diss); if (melody_motion_to_cand > 0) if (melodic_motion_to_ > 0) myPC.decrementRank(Decrements.direct_motion_into_diss); if (melody_motion_to_cand < 0) if (melodic_motion_to_ < 0) myPC.decrementRank(Decrements.direct_motion_into_diss); } } } myPC.setLatestInterval(cf_pitch, cf_voice_index); } return pitch_candidates; }
public static MelodicVoice buildVoicePitches( MelodicVoice alter_me, int number_of_voices, ModeModule my_mode_module) { MelodicVoice return_me = new MelodicVoice(); int previous_cp_pitch = -13; int previous_melodic_interval = 0; trough = 200; trough_count = 0; peak = 0; peak_count = 0; same_consonant_count = 0; int voice_pitch_count = 0; LinkedList<MelodicNote> chord_prog_stack = new LinkedList<>(); System.out.println( "voiceRange min " + alter_me.getRangeMin() + " voicerange max " + alter_me.getRangeMax()); Integer pitch_center = my_mode_module.getPitchCenter(alter_me.getRangeMin(), alter_me.getRangeMax()); System.out.println("pitchcenter = " + pitch_center); if (harmonic_prog_built) { ArrayList<MelodicNote> chord_prog_temp = harmonic_prog.getNoteArray(); for (MelodicNote b_voice_note : chord_prog_temp) { chord_prog_stack.add(b_voice_note); } } if (!built_voices.isEmpty()) for (MelodicVoice built_voice : built_voices) { LinkedList<MelodicNote> cf_stack = new LinkedList<>(); ArrayList<MelodicNote> temp = built_voice.getNoteArray(); for (MelodicNote b_voice_note : temp) { cf_stack.add(b_voice_note); } built_voice_queues.add(cf_stack); System.out.println("created stack of melodic notes for each previously built voice "); } else { System.out.println("built voices Empty - start first melody"); } ArrayList<MelodicNote> current_cf = new ArrayList(); MelodicNote[] holdover_cf = new MelodicNote[built_voice_queues.size()]; Integer[] previous_cf_pitch = new Integer[built_voice_queues.size()]; for (int h = 0; h < built_voice_queues.size(); h++) previous_cf_pitch[h] = 1111; ArrayList<MelodicNote> pending_rests = new ArrayList(); Integer current_cp_index = -13; ArrayList<Integer> pitch_candidate_values = new ArrayList(); ArrayList<PitchCandidate> pitch_candidates = new ArrayList(); MelodicNote this_cf = null; Integer melodic_prev_cp = 0; for (int i = 0; i < alter_me.getVoiceLength(); i++) { // for each melodic note in the CP voice System.out.println("assigning pitch to note " + i + " of " + alter_me.getVoiceLength()); MelodicNote CP_note = alter_me.getMelodicNote(i); if (!CP_note.getRest()) { if (current_cp_index >= 0) { if (previous_cp_pitch == 9999) previous_cp_pitch = melodic_prev_cp; System.out.println( "starting melody check on current cp" + current_cp_index + " of " + alter_me.getVoiceLength()); Boolean got_accent = alter_me.getMelodicNote(current_cp_index).getAccent(); System.out.println("the current cp note's accent value is " + got_accent); // MELODICALLY EVALUATE Pitch Candiates for Previous Note - Choose CP WinnerS - Previous // CP = CP Winner pitch_candidates = melodicCheck( pitch_candidates, my_mode_module, alter_me, pitch_center, voice_pitch_count, previous_cp_pitch, previous_melodic_interval, got_accent); Integer cp_winner = pickWinner(pitch_candidates); // re-assign variables and move on to next CP note pitch_candidates.clear(); System.out.println("CP winner" + cp_winner + " to note " + current_cp_index); MelodicNote current_cp = alter_me.getMelodicNote(current_cp_index); current_cp.setPitch(cp_winner); return_me.addMelodicNote(current_cp); if (!pending_rests.isEmpty()) for (MelodicNote my_rest : pending_rests) { return_me.addMelodicNote(my_rest); } pending_rests.clear(); // Calculating Peaks and Troughs and note counts and save variables if (previous_cp_pitch != -13) { if (voice_pitch_count > 1) { if (previous_melodic_interval < 0 && cp_winner - previous_cp_pitch > 0) { // will there be a change in direction from - to + ie trough? if (previous_cp_pitch == trough) { trough_count++; } else if (previous_cp_pitch != trough) { trough = previous_cp_pitch; trough_count = 1; System.out.println("setting new trough = " + previous_cp_pitch); } } if (previous_melodic_interval > 0 && cp_winner - previous_cp_pitch < 0) { // will there be a change in direction from - to + ie trough? if (previous_cp_pitch == peak) peak_count++; else { if (previous_cp_pitch > peak) { peak = previous_cp_pitch; peak_count = 1; System.out.println("setting new peak = " + previous_cp_pitch); } } } } previous_melodic_interval = cp_winner - previous_cp_pitch; System.out.println("previous melodic interval = " + previous_melodic_interval); boolean add_pitch = true; for (int pc = 0; pc < pitch_counts.size(); pc++) { if (pitch_counts.get(pc).getPitch() == previous_cp_pitch % 12) { pitch_counts.get(pc).incrementCount(); add_pitch = false; } } if (add_pitch == true) { PitchCount my_pitch_count = new PitchCount(previous_cp_pitch % 12); pitch_counts.add(my_pitch_count); } boolean add_motn = true; for (int mc = 0; mc < motion_counts.size(); mc++) { if (motion_counts.get(mc).getPreviousPitch() == previous_cp_pitch % 12 && motion_counts.get(mc).getSucceedingPitch() == cp_winner % 12) { motion_counts.get(mc).incrementCount(); add_motn = false; } } if (add_motn == true) { MotionCount my_motionCount = new MotionCount(previous_cp_pitch % 12, cp_winner % 12); motion_counts.add(my_motionCount); } } previous_cp_pitch = cp_winner; melodic_prev_cp = cp_winner; voice_pitch_count++; } // get pitch_candidate pitches for this note from mode_module if (harmonic_prog_built) { do { MelodicNote prog_stack_note = (MelodicNote) chord_prog_stack.pop(); if (prog_stack_note.getPitch() != 0) this_key.setPitch(prog_stack_note.getPitch()); this_key.setTotalVoiceDuration(prog_stack_note.getPreviousDuration()); System.out.println("this key = " + this_key.getPitch()); System.out.println("this key prevduration = " + this_key.getPreviousDuration()); if (this_key.getPreviousDuration() >= CP_note.getStartTime()) { key_transpose = this_key.getPitch() % 12; } } while (this_key.getPreviousDuration() < CP_note.getPreviousDuration()); } if (voice_pitch_count == 0) { // If there is no previous pitch ie this is the first note pitch_candidate_values = my_mode_module.getFirstNotePitchCandidates( alter_me.getRangeMin(), alter_me.getRangeMax(), key_transpose); System.out.println("using first note pitch candidates"); } else { System.out.println("getting pitch candidates from my modemodule"); pitch_candidate_values = my_mode_module.getPitchCandidates(previous_cp_pitch, key_transpose); if (pitch_candidate_values.isEmpty()) System.out.println("EMPTY ARRAY!!!!"); } System.out.println("voice_pitch_count" + voice_pitch_count); System.out.print("pitch candidates: "); // build pitch_candidate object array with info from rhythm patterns and mode module for (Integer pitch_candidate_value : pitch_candidate_values) { System.out.print(pitch_candidate_value + " "); PitchCandidate myPC = new PitchCandidate(); myPC.setPitch(pitch_candidate_value); pitch_candidates.add(myPC); } System.out.println(); // Reset Current CP index current_cp_index = i; } // If note is a Rest add it to the voice else { System.out.println(" is rest "); if (current_cp_index == -13) { return_me.addMelodicNote(CP_note); System.out.println("adding rest to beginning of voice"); continue; } else { pending_rests.add(CP_note); System.out.println("adding rest to pending rest array"); } } /* Regardless if note or rest run HARMONIC CHECKS on the current cp If a rest, then we are still deciding the counterpoint for the immediately previous place in the melody. If this is the very first voice, then there are no prebuilt voices so skip this section */ if (!built_voice_queues.isEmpty()) { for (int b = 0; b < built_voice_queues.size(); b++) { do { boolean CF_root = false; if (b == 0) CF_root = true; boolean skip_me = false; if (!built_voice_queues.get(b).isEmpty()) { if (holdover_cf[b] != null) this_cf = holdover_cf[b]; else this_cf = (MelodicNote) built_voice_queues.get(b).pop(); // pop from builtvoicequeues[b]; System.out.println(" pitch = " + this_cf.getPitch()); System.out.println(" rest = " + this_cf.getRest()); System.out.println(" duration up to = " + this_cf.getPreviousDuration()); } else { System.out.println("cf voice is empty"); break; } if (this_cf.getRest()) { if (this_cf.getDuration() > .5 || previous_cf_pitch[b] == -1 || CP_note.getRest()) skip_me = true; } if (!skip_me) { // HARMONICALLY EVALUATE cp candidates against this_cf if (previous_cf_pitch[b] != 1111) pitch_candidates = harmonicChecks( pitch_candidates, this_cf, CF_root, previous_cf_pitch[b], previous_cp_pitch, CP_note, voice_pitch_count, b); else pitch_candidates = harmonicChecksSuperBasic( pitch_candidates, this_cf, CF_root, alter_me.getMelodicNote(current_cp_index)); previous_cp_pitch = 9999; // 9999 is assigned in case CP might hold over into next CF note } // in which case the while loop repeats. When you break out // of while loop previous_cp_pitch will be checked and re-assigned above else { System.out.println("current cf index" + b + "is null"); break; } if (this_cf.getPreviousDuration() > CP_note.getPreviousDuration()) holdover_cf[b] = this_cf; else holdover_cf[b] = null; if (!skip_me) previous_cf_pitch[b] = this_cf.getPitch(); } while (this_cf.getPreviousDuration() < CP_note.getPreviousDuration()); } } /* If this is the last melodic placeholder, run some closing procedures */ if (i == alter_me.getVoiceLength() - 1) { // MELODICALLY EVALUATE Current CP System.out.println("Last note of voice"); Boolean last_accent = true; if (!CP_note.getRest()) { pitch_candidates = melodicCheck( pitch_candidates, my_mode_module, alter_me, pitch_center, voice_pitch_count, previous_cp_pitch, previous_melodic_interval, last_accent); Integer cp_winner = pickWinner(pitch_candidates); System.out.println("CP winner" + cp_winner); pitch_candidates.clear(); CP_note.setPitch(cp_winner); return_me.addMelodicNote(CP_note); } else { Boolean got_accent = alter_me.getMelodicNote(current_cp_index).getAccent(); System.out.println("this note's accent value is " + got_accent); // MELODICALLY EVALUATE Current CP - Choose CP WinnerS - Previous CP = CP Winner pitch_candidates = melodicCheck( pitch_candidates, my_mode_module, alter_me, pitch_center, voice_pitch_count, previous_cp_pitch, previous_melodic_interval, got_accent); Integer cp_winner = pickWinner(pitch_candidates); pitch_candidates.clear(); System.out.println("CP winner" + cp_winner + " to note " + current_cp_index); MelodicNote current_cp = alter_me.getMelodicNote(current_cp_index); current_cp.setPitch(cp_winner); return_me.addMelodicNote(current_cp); if (!pending_rests.isEmpty()) for (MelodicNote my_rest : pending_rests) { return_me.addMelodicNote(my_rest); } pending_rests.clear(); } } } // loop through next CP note return return_me; } // end method