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Fast dependency graph analysis and visualization for Python, JavaScript/TypeScript, and Rust projects

Project description

Serpentine

Serpentine

See every reference between every named entity in your codebase — functions, classes, modules, variables — resolved down to the definition.

Serpentine UI

Serpentine builds a code reference graph for Python, JavaScript/TypeScript, and Rust projects. A code reference is when one named entity mentions another by name — a function call, a type annotation, an assignment, an inheritance declaration. Serpentine resolves each reference through the language's scoping rules down to the exact definition it points to, then visualizes the result as an interactive graph that updates in real time as you edit.


Features

  • Multi-language: Python, JavaScript, TypeScript, and Rust
  • Full reference resolution: Traces calls, type annotations, assignments, and inheritance — not just import edges
  • Interactive graph: Expandable nodes, search, pan/zoom, collapsible modules
  • Real-time updates: File watcher pushes changes via WebSocket
  • Agent-ready CLI: Structured JSON output with selectors for use in AI agent workflows

What counts as a code reference?

Serpentine tracks every place one named entity statically mentions another by name, resolved through the language's scoping rules to the specific definition it refers to.

Reference type Example Edge
Function call result = parse(data) result --calls--> parse
Constructor loader = CSVLoader(path) loader --has-a--> CSVLoader
Name reference default = MISSING default --references--> MISSING
Inheritance class Stats(Base) Stats --is-a--> Base
Expression total = a + b total --references--> a, total --references--> b

All four edge types (calls, has-a, references, is-a) resolve through imports — so a reference to an imported name traces all the way back to its definition in the source module.


Installation

PyPI (recommended)

pip install serpentine-parser

Or with uv:

uv tool install serpentine-parser

From source

Prerequisites: Python 3.12+, Rust toolchain, Node.js 18+

git clone https://github.com/serpentine-parser/serpentine.git
cd serpentine

# 1. Build the frontend
cd frontend && npm install && npm run build && cd ..

# 2. Build the Rust extension and install the CLI
make install

This installs the serpentine CLI globally via uv tool, which you will need to install separately.


Quick Start

Navigate to any Python, JavaScript/TypeScript, or Rust project and run:

serpentine serve

Serpentine will analyze the project, start a local server at http://127.0.0.1:8765, and open the visualization in your browser. File changes are detected automatically and the graph updates in real time.


CLI Reference

serpentine serve

Start the visualization server with live file watching.

serpentine serve [PATH] [OPTIONS]

Arguments:
  PATH    Directory to analyze (default: current directory)

Options:
  -p, --port INT        Port to run the server on (default: 8765)
  -h, --host TEXT       Host to bind to (default: 127.0.0.1)
  --no-browser          Don't open browser automatically
  --no-watch            Disable file watching (static analysis only)

serpentine analyze

Analyze a project and output the code reference graph. Default format is text (one edge per line as caller --type--> callee); use --format json for structured output.

serpentine analyze [PATH] [OPTIONS]

Options:
  -o, --output PATH           Write output to file instead of stdout
  --format TEXT               Output format: text (default) or json
  --pretty                    Pretty-print JSON output
  --select TEXT               Selector expression to filter nodes (see below)
  --exclude TEXT              Exclusion pattern (same syntax as --select)
  --no-cfg                    Strip control-flow graph data from nodes
  --edges-only                Output only the edges array (compact, json only)
  --source                    Include source code blocks in text output
  --include-assignments       Include variable/assignment nodes in text output
  --include-standard          Include stdlib nodes (default: off)
  --include-third-party       Include third-party nodes (default: off)
  --state TEXT                Filter by change state: modified,added,deleted

serpentine catalog

Flat list of all nodes. Default format is text (file-grouped hierarchy); use --format json to see node IDs for selector expressions.

serpentine catalog [PATH] [OPTIONS]

Options:
  --filter TEXT               Glob pattern matched against node id and name
                              (repeatable; multiple patterns = union)
  --format TEXT               Output format: text (default) or json
  --include-assignments       Include variable/assignment nodes (default: excluded)
  -o, --output PATH           Write output to file instead of stdout
  --pretty                    Pretty-print JSON output
  --include-standard          Include stdlib nodes
  --include-third-party       Include third-party nodes

serpentine stats

Quick summary of project scale: node/edge counts by type and origin.

serpentine stats [PATH] [OPTIONS]

Options:
  --pretty                    Pretty-print JSON
  --include-standard          Include stdlib nodes
  --include-third-party       Include third-party nodes

serpentine init

Set up Serpentine in an existing project.

serpentine init [PATH]

Arguments:
  PATH    Project directory (default: current directory)

Creates .serpentine.yml with default configuration, adds .serpentine to .gitignore, installs Claude Code skills (serpentine-check and serpentine-orient) to .claude/skills/, and appends a ## Serpentine section to CLAUDE.md with navigation instructions. Already-existing files are skipped rather than overwritten.


Querying the Graph

serpentine analyze and serpentine catalog accept --select and --exclude to slice the graph down to just the nodes you care about. This is useful for large codebases where the full graph is too noisy, or for piping results into other tools.

Step 1 — Find your node IDs

Every node has a dotted ID that reflects its location in the codebase. Use catalog with --format json to discover them:

serpentine catalog . --format json --pretty

This outputs a flat list of every module, class, and function with its ID:

{
  "nodes": [
    { "id": "src.auth.models.User", "name": "User", "type": "class", ... },
    { "id": "src.auth.views.login", "name": "login", "type": "function", ... },
    { "id": "src.payments.stripe.charge", "name": "charge", "type": "function", ... }
  ]
}

Narrow it down with --filter (glob matched against both ID and name):

# Find everything related to auth
serpentine catalog . --filter "*auth*" --format json --pretty

# Find by name across modules
serpentine catalog . --filter "*User*" --format json --pretty

Step 2 — Select nodes and their dependencies

Once you have IDs, use --select with serpentine analyze. The selector controls which nodes (and their relationships) appear in the output.

Plain pattern — just the matching nodes:

serpentine analyze --select "src.auth.*" --no-cfg --pretty

+pattern — the matching nodes plus everything they depend on (upstream):

# What does the login view need to work?
serpentine analyze --select "+src.auth.views.login" --no-cfg --pretty

pattern+ — the matching nodes plus everything that depends on them (downstream):

# What breaks if I change the User model?
serpentine analyze --select "src.auth.models.User+" --no-cfg --pretty

+pattern+ — both directions (full blast radius):

serpentine analyze --select "+src.payments.*+" --no-cfg --pretty

@pattern — the full connected component (everything reachable in any direction):

serpentine analyze --select "@src.auth.*" --no-cfg --pretty

Bounded hops — limit how many levels to traverse:

# 2 levels of dependencies upstream, 1 level downstream
serpentine analyze --select "2+src.auth.views.login+1" --no-cfg --pretty

Multiple selectors — comma-separated, combined as a union:

serpentine analyze --select "+src.auth.*,+src.payments.*" --no-cfg --pretty

Step 3 — Exclude noise

--exclude removes nodes from the result (including their descendants):

# Show auth and its deps, but skip test files
serpentine analyze --select "+src.auth.*" --exclude "*test*" --no-cfg --pretty

Glob pattern rules

* in a selector matches any characters including dots, so it crosses module boundaries:

You want Use
All nodes whose ID contains "auth" *auth*
All children of a specific module src.auth.*
A class anywhere in the project *.User
All test files *test*

Tip: ** is equivalent to * — both match across dots.

Compact output for large graphs

Use --edges-only to get just the edge list (much smaller than the full node tree):

serpentine analyze --select "+src.auth.*+" --edges-only --pretty

Each edge has a from and to field with node IDs, and a type field:

Type Meaning
calls One entity calls another as a function
has-a A variable holds an instance of a class (constructor call)
references One entity names another without calling it (assignment, annotation, expression)
is-a Inheritance — one class extends another

Configuration

Serpentine looks for .serpentine.yml or serpentine.yml in the project root. All settings are optional.

analysis:
  # File extensions to analyze (default: all supported)
  extensions: [".py", ".js", ".jsx", ".ts", ".tsx", ".rs"]

  # Directories to skip
  exclude_dirs:
    - node_modules
    - .venv
    - dist
    - build

  # Glob patterns for files to skip
  exclude_patterns:
    - "**/*.test.ts"
    - "**/generated/**"

Using Serpentine with AI Agents

Serpentine's CLI is designed to be consumed by AI coding agents (Claude, Cursor, Copilot, etc.). The structured output, selector syntax, and --edges-only flag exist specifically to give agents precise, low-noise subgraphs without requiring file reads.

The problem it solves

When an agent starts a non-trivial task, it faces a cold-start problem: it doesn't know which files are relevant, how components relate, or what the blast radius of a change might be. The usual approach — grep, glob, read files one at a time — is expensive in tokens and often incomplete.

Serpentine collapses that exploration into 2-3 CLI calls. The agent gets a structural picture of the relevant code before it starts reading files or writing a plan. In practice this means:

  • Plans are scoped to the right files and boundaries from the start
  • Less back-and-forth between reading files to trace call chains
  • Fewer surprises mid-implementation when a dependency was missed

Recommended workflow for agents

# 1. Get the lay of the land — module names, rough scale
serpentine stats .

# 2. Find relevant node IDs by name
serpentine catalog . --filter "*auth*" --format json --pretty

# 3. Get the subgraph for the relevant area
serpentine analyze . --select "+src.auth.*+" --no-cfg --edges-only --pretty

Read the edges to understand what connects to what, then read only the files that are actually relevant.

Scenarios where this pays off

Before refactoring a module Use --select "module+" to map everything that depends on the module before writing a plan. This ensures the plan accounts for every callsite and doesn't discover new dependents halfway through.

Before adding a feature that spans modules Use --select "+moduleA.*,+moduleB.*" to get the combined subgraph of two areas and understand exactly where they intersect. The boundaries of the work become clear before any code is written.

Orienting to an unfamiliar codebase serpentine stats gives you the top-level module list and scale. serpentine catalog . gives a flat index of every class and function. Together these give structural orientation without reading a single file.

Before deleting code Use --select "*.TargetFunction+" to get all downstream dependents. An empty result confirms the code is truly unused.

Tracing a call chain Use --select "+*.entrypoint+3" to get 3 hops downstream from an entry point and understand the execution path before adding instrumentation or fixing a bug.

Claude Code skill

Run serpentine init in any project to install the Claude Code skill and configure Serpentine. This installs the code-analysis skill to .claude/skills/, which instructs Claude to use Serpentine's CLI instead of reading files or grepping — running stats, catalog, and analyze to get source code and structural context in a single token-efficient pass.


Development

Project Structure

serpentine/
├── rust/                       # Rust analyzer (tree-sitter + PyO3)
│   └── src/
│       ├── lib.rs              # PyO3 module entry point
│       ├── python/             # Python parser
│       ├── javascript/         # JS/TS parser
│       ├── rust_lang/          # Rust parser
│       ├── subscribers/        # Event processors (imports, calls, defs)
│       └── graph/              # Graph builder and resolvers
├── src/serpentine/             # Python package
│   ├── cli.py                  # CLI commands
│   ├── state.py                # Graph state management
│   ├── watcher.py              # File watcher
│   ├── selector.py             # Graph selector engine
│   ├── config.py               # Config loading
│   └── server/                 # Starlette web server + WebSocket
├── frontend/                   # React frontend (Vite + TypeScript)
│   └── src/
├── Makefile                    # Build targets
└── pyproject.toml

Building for Development

Tilt is recommended for development — it rebuilds the Rust extension and frontend in parallel when files change:

tilt up

Or manually:

# Build Rust extension (rerun after changes to rust/src/)
uv run maturin develop

# Build frontend (rerun after changes to frontend/src/)
cd frontend && npm run build

# Run server
uv run serpentine serve --no-browser

Adding a Language

  1. Create a parser module in rust/src/<language>/
  2. Walk the AST and emit three event types via the message bus:
    • ImportStatement — records what names are imported from which modules
    • UseName — fires for every identifier in expression position (not definition position)
    • CallExpression — fires for every function or constructor invocation
  3. Register the parser in rust/src/lib.rs

These three events are the minimum required for the graph builder to resolve all code references in your language. See rust/src/python/ for a complete reference implementation and CONTRIBUTING.md for full details.


License

Apache 2.0

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