Music Theory for Humans
Project description
PyTheory: Music Theory for Humans
Explore music theory, compose multi-part arrangements, and export to MIDI — all in Python.
$ pip install pytheory
Sketch Ideas Fast
from pytheory import Score, Pattern, Key, Duration, Chord
from pytheory.play import play_score
score = Score("4/4", bpm=140)
score.drums("bossa nova", repeats=4)
chords = score.part("chords", synth="fm", envelope="pad", reverb=0.4)
lead = score.part("lead", synth="saw", envelope="pluck", delay=0.3, lowpass=3000)
bass = score.part("bass", synth="sine", lowpass=500)
for sym in ["Am", "Dm", "E7", "Am"]:
chords.add(Chord.from_symbol(sym), Duration.WHOLE)
chords.add(Chord.from_symbol(sym), Duration.WHOLE)
lead.arpeggio("Am", bars=2, pattern="updown", octaves=2)
lead.arpeggio("Dm", bars=2, pattern="updown", octaves=2)
lead.set(lowpass=5000, reverb=0.4)
lead.arpeggio("E7", bars=2, pattern="up", octaves=2)
lead.arpeggio("Am", bars=2, pattern="updown", octaves=2)
for n in ["A2", "E2", "A2", "C3"] * 4:
bass.add(n, Duration.QUARTER)
play_score(score) # hear it now
score.save_midi("sketch.mid") # open in your DAW
Hear It Instantly
$ pytheory demo
Music Theory
>>> from pytheory import Key, Chord, Tone
>>> Key("C", "major").chords
['C major', 'D minor', 'E minor', 'F major', 'G major', 'A minor', 'B diminished']
>>> [c.symbol for c in Key("G", "major").progression("I", "V", "vi", "IV")]
['G', 'D', 'Em', 'C']
>>> Chord.from_symbol("F#m7b5").identify()
'F# half-diminished 7th'
>>> Tone.from_string("C4").interval_to(Tone.from_string("G4"))
'perfect 5th'
>>> Key("C", "major").pivot_chords(Key("G", "major"))
['A minor', 'B minor', 'C major', 'D major', 'E minor', 'G major']
>>> Chord.from_tones("C", "E", "G").forte_number
'3-11'
>>> from pytheory.scales import Scale
>>> Scale.recommend("C", "Eb", "F", "Gb", "G", "Bb", top=3)
[('C', 'blues', 1.0), ...]
Composition
score = Score("4/4", bpm=124)
score.drums("house", repeats=16, fill="house", fill_every=8)
pad = score.part("pad", synth="supersaw", envelope="pad",
reverb=0.5, chorus=0.3, sidechain=0.85)
lead = score.part("lead", synth="saw", envelope="pluck",
legato=True, glide=0.03, humanize=0.3)
bass = score.part("bass", synth="sine", lowpass=300, sidechain=0.7)
# Song structure
score.section("verse")
# ... add notes ...
score.section("chorus")
lead.set(lowpass=5000, reverb=0.3)
# ... add notes ...
score.end_section()
score.repeat("verse")
score.repeat("chorus", times=2)
10 Synth Waveforms
sine, saw, triangle, square, pulse, FM, noise, supersaw, PWM slow, PWM fast — with detune, stereo pan, and spread.
58 Drum Patterns
rock, jazz, bebop, bossa nova, salsa, samba, afrobeat, funk, reggae, house, trap, metal, drum and bass — and 45 more. Plus 21 fill presets. Stereo panned like a real kit.
6 Effects with Automation
lead = score.part("lead", synth="saw",
distortion=0.7, lowpass=1000, lowpass_q=5.0,
delay=0.3, reverb=0.4, reverb_type="plate",
chorus=0.3)
# Automate mid-song
lead.set(lowpass=4000, distortion=0.9)
# LFO modulation
lead.lfo("lowpass", rate=0.5, min=400, max=3000, bars=8)
Signal chain: distortion → chorus → lowpass → delay → reverb. Sidechain compression. Master bus compressor/limiter. Stereo output.
Convolution Reverb
7 synthetic impulse responses: Taj Mahal (12s), cathedral, plate, spring, cave, parking garage, canyon.
pad = score.part("pad", synth="supersaw",
reverb=0.85, reverb_type="taj_mahal")
6 Musical Systems
Western, Indian (Hindustani), Arabic (Maqam), Japanese, Blues/Pentatonic, Javanese Gamelan — 40+ scales.
25 Instrument Presets
Guitar (8 tunings), bass, ukulele, mandolin family, violin family, banjo, harp, oud, sitar, erhu, and more — with chord fingering generation.
Command Line
$ pytheory repl # interactive scratchpad
$ pytheory demo # hear a generated track
$ pytheory key G major # explore a key
$ pytheory identify Cmaj7 # analyze a chord symbol
$ pytheory progression C major I V vi IV # build a progression
$ pytheory midi C major I V vi IV -o out.mid
$ pytheory play Am7 --synth saw --envelope pluck
$ pytheory modes C # show all modes
$ pytheory circle C # circle of fifths
Why Python?
A DAW is great for tweaking sounds. But when you're thinking about music — code is faster than clicking. Sketch ideas, hear them instantly, export MIDI, finish in your DAW.
Tools like Claude Code can use PyTheory to prototype musical ideas from natural language — "write a bossa nova in A minor with a saw lead and reverb" becomes real, playable music.
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