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kennethreitz
9da3ac8b28
- circle_of_fifths.py — visualize keys around the circle - chord_identifier.py — identify chords from notes and fingerings - key_explorer.py — explore keys, signatures, progressions, borrowed chords - temperament_comparison.py — compare equal, Pythagorean, and meantone - chord_tension.py — analyze tension, consonance, and voice leading - world_scales.py — scales from 6 musical traditions - fretboard_explorer.py — instruments, tunings, capo transposition - midi_converter.py — MIDI ↔ note ↔ frequency reference - progression_writer.py — famous progressions, Nashville numbers, random generation - interval_trainer.py — interval names, songs, and consonance ranking - overtone_series.py — harmonics and why chords sound good - key_detection.py — detect keys from melodies and chord progressions Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
PyTheory: Music Theory for Humans
This library makes exploring music theory approachable and fun, treating Python as a musical instrument.
Installation
$ pip install pytheory
Tones
>>> from pytheory import Tone
>>> c4 = Tone.from_string("C4", system="western")
>>> c4.frequency
261.63
>>> c4 + 7 # perfect fifth
<Tone G4>
>>> c4.interval_to(c4 + 7)
'perfect 5th'
>>> c4.midi
60
>>> Tone.from_frequency(440)
<Tone A4>
>>> Tone.from_midi(69)
<Tone A4>
Scales and Modes
>>> from pytheory import TonedScale
>>> c_major = TonedScale(tonic="C4")["major"]
>>> c_major.note_names
['C', 'D', 'E', 'F', 'G', 'A', 'B', 'C']
>>> TonedScale(tonic="C4")["dorian"].note_names
['C', 'D', 'D#', 'F', 'G', 'A', 'A#', 'C']
Diatonic Harmony
>>> c_major.triad(0).identify()
'C major'
>>> c_major.seventh(4).identify()
'G dominant 7th'
>>> [c.identify() for c in c_major.harmonize()]
['C major', 'D minor', 'E minor', 'F major', 'G major', 'A minor', 'B diminished']
>>> [c.identify() for c in c_major.progression("I", "V", "vi", "IV")]
['C major', 'G major', 'A minor', 'F major']
Keys and Progressions
>>> from pytheory import Key
>>> key = Key("G", "major")
>>> key.chords
['G major', 'A minor', 'B minor', 'C major', 'D major', 'E minor', 'F# diminished']
>>> [c.identify() for c in key.progression("I", "V", "vi", "IV")]
['G major', 'D major', 'E minor', 'C major']
>>> Key.detect("C", "E", "G", "A", "D")
<Key C major>
Chord Analysis
>>> from pytheory import Chord, Tone
>>> C4 = Tone.from_string("C4", system="western")
>>> G4 = Tone.from_string("G4", system="western")
>>> g7 = Chord([G4, G4+4, G4+7, G4+10])
>>> g7.identify()
'G dominant 7th'
>>> g7.analyze("C")
'V7'
>>> g7.tension
{'score': 0.6, 'tritones': 1, 'minor_seconds': 0, 'has_dominant_function': True}
>>> g7.transpose(-7).identify()
'C dominant 7th'
Six Musical Systems
>>> from pytheory import TonedScale
>>> TonedScale(tonic="Sa4", system="indian")["bhairav"].note_names
['Sa', 'komal Re', 'Ga', 'Ma', 'Pa', 'komal Dha', 'Ni', 'Sa']
>>> TonedScale(tonic="Do4", system="arabic")["hijaz"].note_names
['Do', 'Reb', 'Mi', 'Fa', 'Sol', 'Solb', 'Sib', 'Do']
>>> TonedScale(tonic="C4", system="japanese")["hirajoshi"].note_names
['C', 'D', 'D#', 'G', 'G#', 'C']
>>> TonedScale(tonic="C4", system="blues")["blues"].note_names
['C', 'D#', 'F', 'F#', 'G', 'A#', 'C']
25 Instrument Presets
>>> from pytheory import Fretboard, CHARTS
>>> Fretboard.guitar() # standard tuning
>>> Fretboard.guitar("drop d") # 8 alternate tunings
>>> Fretboard.mandolin() # + mandola, octave mandolin, mandocello
>>> Fretboard.violin() # + viola, cello, double bass
>>> Fretboard.ukulele() # + banjo, harp, charango, erhu...
>>> Fretboard.keyboard() # 88-key piano
>>> Fretboard.keyboard(25, "C3") # 25-key MIDI controller
>>> CHARTS['western']['Am'].fingering(fretboard=Fretboard.guitar())
Fingering(e=0, B=1, G=2, D=2, A=0, E=0)
>>> Fretboard.guitar().fingering(0, 1, 0, 2, 3, 0).identify()
'C major'
Audio Playback
>>> from pytheory import play, Synth, Tone
>>> tone = Tone.from_string("A4", system="western")
>>> play(tone, t=1_000) # sine wave, 1 second
>>> play(tone, synth=Synth.SAW, t=1_000) # sawtooth wave
Features
- 6 musical systems: Western, Indian (Hindustani), Arabic (Maqam), Japanese, Blues/Pentatonic, Javanese Gamelan
- 40+ scales: major, minor, harmonic minor, 7 modes, 10 thaats, 10 maqamat, pentatonic, blues, hirajoshi, pelog, slendro, and more
- Chord analysis: identification (17 types), Roman numeral analysis, tension scoring, voice leading, Plomp-Levelt dissonance, beat frequencies
- Diatonic harmony: triads, seventh chords, harmonize entire scales, build progressions from Roman numerals
- 25 instrument presets: guitar (8 tunings), 12-string, bass, mandolin family, violin family, banjo, harp, oud, sitar, shamisen, erhu, charango, pipa, balalaika, lute, pedal steel, keyboard
- Pitch tools: frequency ↔ tone conversion, MIDI ↔ tone, interval naming, circle of fifths, overtone series, transposition
- 3 temperaments: equal, Pythagorean, quarter-comma meantone
- Audio synthesis: sine, sawtooth, and triangle wave playback
Documentation
Full documentation with music theory guides: pytheory.kennethreitz.org