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.
Documentation
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
Filter files by name, interpreter, ABI, and platform.
If you're not sure about the file name format, learn more about wheel file names.
Copy a direct link to the current filters
File details
Details for the file pytheory-0.39.2.tar.gz.
File metadata
- Download URL: pytheory-0.39.2.tar.gz
- Upload date:
- Size: 157.5 kB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: uv/0.10.8 {"installer":{"name":"uv","version":"0.10.8","subcommand":["publish"]},"python":null,"implementation":{"name":null,"version":null},"distro":{"name":"macOS","version":null,"id":null,"libc":null},"system":{"name":null,"release":null},"cpu":null,"openssl_version":null,"setuptools_version":null,"rustc_version":null,"ci":null}
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 |
245c790934bed854509814e5dd2259cd73d8b9b569c6385a55ee05990e7d1446
|
|
| MD5 |
96fe7208c8136c9a4668e89d5942b609
|
|
| BLAKE2b-256 |
f459aeb9bcda41be6f41b2d07aaf46b7ffc25b57c5729048af29e33fdff0a1f7
|
File details
Details for the file pytheory-0.39.2-py3-none-any.whl.
File metadata
- Download URL: pytheory-0.39.2-py3-none-any.whl
- Upload date:
- Size: 160.5 kB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: uv/0.10.8 {"installer":{"name":"uv","version":"0.10.8","subcommand":["publish"]},"python":null,"implementation":{"name":null,"version":null},"distro":{"name":"macOS","version":null,"id":null,"libc":null},"system":{"name":null,"release":null},"cpu":null,"openssl_version":null,"setuptools_version":null,"rustc_version":null,"ci":null}
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 |
16c878de7846b60766dc1c0c1dab41502d180e65e0921c7306debc71becea633
|
|
| MD5 |
cff2fb401c0860a24ec93fc163a3b1dc
|
|
| BLAKE2b-256 |
135eda6375b9fbd7936442c11ae30cf4d40a189acaa592102e9ccc44ecbe7dfc
|
