melodically 0.0.7

A python module that contains various tools to handle melodic representation and parsing.

Introduction

This python module is designed to offer a collection of functions, classes and data structures that can be used to represent notes, rhythmic figures and melodies. Various parser are available to give a meaningful interpretation of a succession of midi note messages, together with a tool to monitor the evolution of an harmonic state of a musical performance.

The developement of this project started with the main idea of offering a series of useful tools that can be used to track external midi note messages that form melodies, generating sequences and harmonic information, that could be further processed by some machine learning algorithm (based on Markov models, grammars or similar techniques).

The output symbols of the parsing are based on the Impro-Visor software notation (https://www.cs.hmc.edu/~keller/jazz/improvisor/) and the theory supporting it can be found at this link https://www.cs.hmc.edu/~keller/jazz/improvisor/papers.html .

Installation

The package can easily be installed using the pip package manager.

pip install melodically

MidiNoteQueue

To parse note_on/note_off messages, a particular data structure called MidiQueue is used. This queue stores midi note messages with a timestamp, that is needed to parse the rhythmic structure of a melody. This data structure is supposed to collect only melodies, chords are not supported, if multiple note_on messages are pushed into it with timestamps too close with each other, only the first one will be mantained.

import melodically as m

note_queue = m.MidiNoteQueue()
note_queue.push(msg_type='note_on', note=47)
# some temporal delay...
note_queue.push(msg_type='note_off', note=47)

Some other methods are exposed for extra flexibility.

msg = note_queue.pop() # gets the oldest note message removing it from the queue
list_of_msg = note_queue.get_container() # to deal directly with the data container
musical_notes = note_queue.get_notes() # to obtain a list of notes in std notation
note_queue.clean_unclosed_note_ons() # removes note_on messages that don't have a corrisponding note_off
note_queue.clear() # clears the queue

The use of the MidiQueue for the melodic and rhythic parsing will be explained in the following sections.

HarmonicState

The HarmonicState class allows to track the harmonic relations of an input melody notes.

harmonic_state = m.HarmonicState(buffer_size=20)

The internal buffer is used to store input notes, in order to analyze them when it will be needed.

doric_melody = ['C#', 'C#', 'D#', 'E', 'F#', 'G#', 'A#', 'B']
harmonic_state.push_notes(doric_melody)

The HarmonicState can be sampled, to return the notes of the closest modal scale, depending on the notes in the input buffer.

current_scale = harmonic_state.get_mode_notes()

In order to compute the most affine scale, the notes in the input buffer are compared with a distance function to each possible sequence of notes that composes a modal scale. The modal scale that minimizes this distance is then chosen.

The state update can also be forced manually if needed.

harmonic_state.update_scale()

Parsing single notes

The note parsing allows to translate a midi note number in a abstract melody notation. This parser supports three different abstract melody symbols.

c: chord tone
l: color tone
x: random tone

An abstract melody can be realized in a particular chord; in order to obtain the correct abstract melody symbol, is necessary to input both a note in standard notation, and a chord. To obtain a note in standard notation from a midi note value, an additional parsing function is needed.

note = 'G'
chord = 'CM' # C major chord
abstract_note = m.parse_musical_note(note, chord) # from std note notation to abstract note notation

The notes in standard notation are uppercase letters, and a sharp symbol can be present (an alternative version with flats is also present).

musical_notes = ['C', 'C#', 'D', 'D#', 'E', 'F', 'F#', 'G', 'G#', 'A', 'A#', 'B']
musical_notes_b = ['C', 'Db', 'D', 'Eb', 'E', 'F', 'Gb', 'G', 'Ab', 'A', 'Bb', 'B']

The chord_dict dictionary contains the lists of chord/color tones of each chord. At the moment only few families of chords are supported

# chord notation
CM: major
Cm: minor
C7: dominant

Example on how to extract the lists of chord/color tones

# chord and color tones for the chord C7
chord_tones = chord_dictionary['C7']['c']
color_tones = chord_dictionary['C7']['l']

Parsing rhythm

The rhythmic parsing process, allows to translate a series of notes composing a melody, in multiple symbols describing the duration of each note. These are the symbol used to represent the rhythm, they are related to a certain bpm and they refer to a 4/4 rhythmic signature.

1: whole note
2: half note
4: quarter note
4dot: quarter note dotted
4t: quarter note triplet
8: eight note
8t: eight note triplet
16: sixteenth note
16t: sixteenth note triplet

the rests are indicated with an "r" prefix
ex: r4 (quarter note rest)

To define a rhythmic frame for the analysis, a duration dictionary must be created and updated every time the bpm changes.

bpm = 120.5
durations = amp.get_durations(bpm)

After defining the durations from the bpm, the parsing can follow. It will return a list of symbols for all the notes in the melody.

rhythmic_symbols = amp.parse_rhythm(note_queue, durations)

Parsing entire melodies

Sometimes the informative content of a melody can only be found in the rhythm or in the armonic relations between the notes and a chord, but in many other occasions, is the underlying relation between the two that really expresses the message that a musitian is trying to share with his/her performance. Following this perspective, it can be useful to perform both melodic and rhythmic parsing from a single MidiQueue, and read the resulting symbols as pairs. Let's suppose to parse a MidiQueue that contains a melody playing on a Dm chord

current_chord = 'Dm'
bpm = 125
durations = m.get_durations(bpm)
full_melody = m.parse_melody(midi_queue, current_chord, durations)

The output symbols of a melodic parsing, are just a combination of the abstract note symbols and the rhythmic symbols.

# example melody
['c4', 'c4', 'x8', 'x8', 'r4', 'l2', 'r2', 'l1']