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Music21

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Exposes 16 music21 MIDI analysis and editing tools to AI agents, enabling them to read, edit, generate, and analyze MIDI files through natural language.

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Описание

Exposes 16 music21 MIDI analysis and editing tools to AI agents, enabling them to read, edit, generate, and analyze MIDI files through natural language.

README

Symbolic music analysis and editing tools exposed through MCP, built on music21. The server works with user-supplied MIDI and supports analysis, transformation, and basic accompaniment generation.

The current implementation registers 16 MCP tools and has 120 automated tests.

What it does

Give an AI agent a MIDI file and it can:

  • Read — parse MIDI, detect key, analyze chord progressions
  • Edit — transpose, change velocity, filter notes, replace chords, merge files, quantize timings
  • Generate — reharmonize progressions, harmonize melodies
  • Analyze — detect modulations, extract melody, identify song form, search for patterns

Tools

The MCP-facing names currently use an mcp_ prefix, such as mcp_analyze_key and mcp_transpose_midi. The underlying Python functions use the unprefixed names shown below.

Phase Tool What it does
1a parse_midi_file Load a .mid file into a music21 stream
1a analyze_key Detect key, mode, and confidence
1a export_midi Write a stream to a .mid file
1c transpose_midi Transpose by semitones or to a target key
1c change_velocity Scale, set, or offset note velocities (clamped 1–127)
1c modify_notes Remove/select notes by pitch range, shift octaves
1c replace_chord_at Replace a chord at a specific bar/beat
1c merge_midi Overlay two streams (flat or multi-part score)
1c quantize_midi Snap note timings to quarter/eighth/sixteenth grid
2 reharmonize Replace chords with diatonic or jazz substitutions
2 harmonize_melody Generate block chord accompaniment from a melody
3 analyze_chord_progression Identify chords + Roman numerals in a progression
3 extract_melody Isolate the melody line (highest pitch per offset)
3 detect_modulations Find key changes via sliding window analysis
3 analyze_form Identify song sections (A, B, A') by register changes
3 search_pattern Find melodic patterns by exact pitch or interval sequence

Getting started

Prerequisites

  • Python 3.11+
  • A virtual environment (recommended)

Install

cd music21-mcp

# Create and activate venv
python3 -m venv venv
source venv/bin/activate

# Install the package and test dependencies in editable mode
pip install -e ".[dev]"

Run tests

# All 120 tests
pytest -v

# Just one tool's tests
pytest tests/test_transpose_midi.py -v

Use as MCP server

The server runs over stdio and is intended for MCP clients that support local stdio servers.

# Start the server
python -m music21_mcp.server

To configure in an MCP client, add to your client's MCP config:

{
  "mcpServers": {
    "music21-mcp": {
      "command": "python",
      "args": ["-m", "music21_mcp.server"],
      "cwd": "/path/to/music21-mcp"
    }
  }
}

Or if using the project venv:

{
  "mcpServers": {
    "music21-mcp": {
      "command": "/path/to/music21-mcp/venv/bin/python",
      "args": ["-m", "music21_mcp.server"]
    }
  }
}

Use directly in Python

Every tool is a pure function you can call without the MCP layer:

from music21_mcp.tools.parse_midi import parse_midi_file
from music21_mcp.tools.analyze_key import analyze_key
from music21_mcp.tools.transpose_midi import transpose_midi
from music21_mcp.tools.export_midi import export_midi

# Load a MIDI file
stream = parse_midi_file("song.mid")

# Detect the key
key_info = analyze_key(stream)
print(key_info)
# {'key': 'C major', 'mode': 'major', 'confidence': 0.797}

# Transpose to F major
transposed = transpose_midi(stream, target_key="F")

# Save the result
export_midi(transposed, "song_in_f.mid")

Example: the full pipeline

from music21_mcp.tools import (
    parse_midi_file, analyze_key, transpose_midi,
    change_velocity, quantize_midi, export_midi,
)

# Load
s = parse_midi_file("input.mid")

# Detect key
print(analyze_key(s))

# Transpose up 2 semitones, make 20% louder, quantize to 16th notes
s = transpose_midi(s, semitones=2)
s = change_velocity(s, scale=1.2)
s = quantize_midi(s, grid="sixteenth")

# Save
export_midi(s, "output.mid")

Example prompts for testing

Single-tool prompts to verify each tool works in isolation:

  1. Parse only — "Load song.mid with parse_midi_file and tell me how many parts and measures it has."

  2. Key detection — "Use parse_midi_file to load song.mid, then analyze_key to tell me the key, mode, and confidence."

  3. Export — "Load song.mid with parse_midi_file and export it to copy.mid with export_midi. Report the output path."

  4. Transpose — "Parse song.mid and transpose it down 3 semitones. Export to song_down.mid."

  5. Transpose to key — "Load song.mid, detect its key, then transpose it to E minor. Export to song_em.mid."

  6. Velocity — "Parse song.mid, set all velocities to a fixed value of 90. Export to song_vel90.mid."

  7. Velocity boost — "Load song.mid and scale all velocities by 1.3 (clamped to 127). Export to song_louder.mid."

  8. Filter notes — "Parse song.mid and remove all notes below C3. Export to song_no_bass.mid."

  9. Octave shift — "Load song.mid and shift everything up 1 octave. Export to song_oct_up.mid."

  10. Replace chord — "Parse song.mid and replace the chord at bar 2, beat 1 with a C major triad. Export to song_newchord.mid."

  11. Merge — "Load drums.mid and bass.mid, merge them into a single file. Export to drum_and_bass.mid."

  12. Quantize — "Parse song.mid and quantize all timings to a sixteenth-note grid. Export to song_quantized.mid."

  13. Reharmonize — "Load song.mid and reharmonize the chord progression using jazz substitutions. Export to song_jazz.mid."

  14. Harmonize — "Parse melody.mid and generate block chord accompaniment from the melody line. Export to melody_with_chords.mid."

  15. Chord analysis — "Load song.mid and analyze the chord progression. Give me the chords and Roman numerals."

  16. Extract melody — "Parse song.mid and extract just the melody line. Export to melody_only.mid."

  17. Detect modulations — "Load song.mid and find all key changes. Tell me where each modulation happens."

  18. Analyze form — "Parse song.mid and identify the song structure (A, B, A' sections)."

  19. Search pattern — "Load song.mid and search for the pitch sequence C4-E4-G4. Tell me where it occurs."

Multi-tool chains to test tool composition:

  1. Full analysis — "Load song.mid. Detect the key, analyze the chord progression, extract the melody, and analyze the song form. Give me a complete analysis report."

  2. Transpose and harmonize — "Parse song.mid, transpose up 5 semitones, then reharmonize the result with jazz substitutions. Export to song_jazz_up.mid."

  3. Clean and quantize — "Load song.mid, remove all notes below C2, quantize to an eighth-note grid, and scale velocities by 0.8. Export to song_cleaned.mid."

  4. Melody extraction pipeline — "Parse song.mid, extract the melody, harmonize it with block chords, and export to melody_harmonized.mid."

  5. Key-aware reharm — "Load song.mid, detect the key, then reharmonize using diatonic substitutions appropriate for that key. Export to song_diatonic.mid."

  6. Modulation-aware transpose — "Parse song.mid, detect all modulations, then transpose the whole piece so the first key becomes A minor. Export to song_am.mid."

  7. Pattern search — "Load song.mid and search for the interval sequence [2, 2] (two whole steps up). Report every matching offset."

  8. Form and melody analysis — "Parse song.mid, analyze its form, then extract the full melody line and export it to melody.mid."

  9. Multi-file merge and clean — "Merge drums.mid and bass.mid, then merge that result with keys.mid. Quantize the combined file to a sixteenth grid, set velocities to 100, and export to full_band.mid."

  10. End-to-end remix — "Load song.mid. Detect key, transpose down 2 semitones, quantize to eighth notes, reharmonize with jazz substitutions, boost velocity by 1.4, and export to song_remix.mid."

Architecture

src/music21_mcp/
  __init__.py          # Package entry
  server.py            # FastMCP server — 16 tool wrappers returning JSON
  tools/
    parse_midi.py      # Phase 1a
    analyze_key.py
    export_midi.py
    transpose_midi.py  # Phase 1c
    change_velocity.py
    modify_notes.py
    replace_chord_at.py
    merge_midi.py
    quantize_midi.py
    reharmonize.py     # Phase 2
    harmonize_melody.py
    analyze_chord_progression.py  # Phase 3
    extract_melody.py
    detect_modulations.py
    analyze_form.py
    search_pattern.py

tests/
    test_*.py          # One test file per tool, plus server + e2e tests

Most editing and analysis functions operate on music21 streams. Parsing and export perform file I/O, while the MCP wrappers accept file paths and return JSON strings. This keeps the domain logic independently testable.

Tech

  • music21 — MIT's music theory and analysis toolkit
  • MCP — Model Context Protocol for AI agent tool calling
  • Python 3.11+, pytest, strict TDD

License

MIT

from github.com/cclawton/music21-mcp

Установка Music21

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/cclawton/music21-mcp

FAQ

Music21 MCP бесплатный?

Да, Music21 MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Music21?

Нет, Music21 работает без API-ключей и переменных окружения.

Music21 — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Music21 в Claude Desktop, Claude Code или Cursor?

Открой Music21 на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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