LocalREPL MCP Server

A locally-running Python REPL server that integrates with Claude Desktop through the Model Context Protocol (MCP).

Features

• Local REPL: Runs a Python REPL server locally

1. System Discovery Workflow

• Purpose: Methodical exploration of the full system capabilities
• Approach: Phase-by-phase discovery with comprehensive documentation
• Output: Complete system mapping and enhancement opportunities

2. Advanced Workflow Orchestration

• Purpose: Complex multi-stage workflows with dependency management
• Features: Task execution engine, error handling, performance monitoring
• Templates: Data analysis, research, multi-agent coordination workflows

3. Strategic Capability Enhancement

• Purpose: Systematic enhancement of system capabilities
• Framework: Phase 1 (Planning) → Phase 2 (Execution) → Phase 3 (Adaptation)
• Implementation: Sample agent communication and performance monitoring systems

**4. Agent Communication and Performance Monitoring

• Persistent Agent Intelligence with JSON state storage
• Empowerment Optimization Framework with energy tracking
• Advanced Memory Systems with categorization and tagging
• Workflow Orchestration capabilities
• Evolution Database tracking agent learning
• Multi-REPL Coordination for parallel processing

5. Other Advantages

• Completely Local: Run Python code directly on your machine without any remote dependencies

• State Persistence: Maintain state between code executions (completely local)

• MCP Integration: Fully compatible with Claude Desktop through the Model Context Protocol

• No API Keys: No registration or signup required

• Privacy-Focused: Your code never leaves your machine if you use local models

• Simple & Secure: Straightforward implementation with minimal dependencies

• New Additions: See Modular-Empowerment-README.md or just try the prompts!

Potential Use Cases for LocalREPL

There are several powerful use cases for a local Python REPL integrated with Claude:

1. Interactive Learning Environment

• Perfect for teaching programming concepts with immediate feedback
• Step through algorithms with Claude explaining each part
• Build understanding iteratively without switching between tools

2. Data Analysis Workflow

• Process and analyze data with state persistence
• Incrementally build analysis pipelines with guidance from Claude
• Visualize results and refine approach without context switching

3. Secure Code Experimentation

• Experiment with sensitive code or data that shouldn't leave your machine
• Test financial algorithms, personal automation, or proprietary code
• Avoid exposing intellectual property to third-party services

4. Incremental Development

• Build solutions step-by-step with Claude's guidance
• Maintain context and state throughout development sessions
• Refine code based on immediate feedback and results

5. Local AI Integration Testing

• Test integrations with local AI models
• Process inputs and outputs for AI systems
• Build preprocessing and postprocessing pipelines

6. Automated Documentation Generation

• Generate documentation from code inspection
• Test and refine documentation examples
• Create interactive tutorials with working code examples

7. Private API Testing

• Explore internal or sensitive APIs without exposing credentials
• Build up complex API requests incrementally
• Test authentication flows and data handling

8. Local System Automation

• Control and interact with local services securely
• Build automation scripts that don't require internet access
• Test system modifications in a controlled environment

9. Continuous Computational Context

• Maintain a persistent computational environment between conversations
• Build on previous calculations without starting over
• Create complex multi-step analyses with Claude's guidance

10. Educational Demonstrations

• Create interactive coding tutorials
• Demonstrate concepts with working code examples
• Allow students to experiment safely within Claude

Installation

Prerequisites

• Python 3.10 or higher
• Claude Desktop

Setup

1. Clone this repository

   git clone https://github.com/angrysky56/local-repl-mcp.git
   

Quickstart:

You can just copy this into your mcp config json edit the path to your own, and should be good to go:

{
  "mcpServers": {
    "LocalREPL": {
      "command": "uv",
      "args": [
        "--directory",
        "/absolute/path/to/local-repl-mcp",
        "run",
        "-m",
        "local_repl"
      ]
    }
  }
}

Usage

Some of these packages will take some time to install, I suggest you do this if they take too long to install:

Optional: Install additional packages you want to use in your REPL:

cd local-repl-mcp

# Using uv (recommended)
# uv .venv/bin/activate && uv pip install <required-packages>
# If you don't have uv installed, you can install it with:
# pip install uv
# Then if not made by the server activating via Claude you can create then activate the virtual environment with:
# uv venv --python 3.12 --seed
# Then you can activate the virtual environment with:
uv .venv/bin/activate
# And install the packages with:
uv add numpy pandas matplotlib scipy scikit-learn tensorflow torch torchvision torchtext torchaudio seaborn sympy requests networkx beautifulsoup4 jupyter fastapi

Once the server is installed in Claude Desktop, you can use the following tools,

This info and much more is also available to Claude via the prompts folder and attachable by the + in the Desktop UI or /LocalREPL in others:

• create_python_repl() - Creates a new Python REPL and returns its ID
• run_python_in_repl(code, repl_id) - Runs Python code in the specified REPL
• list_active_repls() - Lists all active REPL instances
• get_repl_info(repl_id) - Shows information about a specific REPL
• delete_repl(repl_id) - Deletes a REPL instance

Shell, Streaming, and Operational Memory (v0.2)

As of v0.2 the REPL is no longer Python-only. Three modules expand it into a full CLI orchestration layer:

Shell bridge (shell_bridge.py)

Run one-shot commands with structured output. Every call auto-logs to evolution.db so past executions become queryable memory.

• run_shell(command, repl_id, timeout_seconds=30, cwd=None, use_shell=False, env_extra=None) Returns {command, cwd, stdout, stderr, exit_code, duration_ms, timed_out, truncated_stdout, truncated_stderr}. use_shell=True enables pipes/redirects via /bin/sh. Blocklist refuses sudo, rm -rf /, dd of=/dev/…, shutdown/reboot, fork bombs, and chained variants like echo x && sudo poweroff.
• set_repl_cwd(repl_id, path) / get_repl_cwd(repl_id) - track a working directory per REPL so subsequent run_shell calls start there.

Streaming (streaming.py)

Long-running processes with non-blocking output drain.

• spawn_shell(command, repl_id, cwd=None, use_shell=False) → returns proc_id (separate from OS PID to avoid reuse issues).
• tail_shell_output(proc_id, n_lines=50, stream='both', drain=False) - read recent lines without blocking. Use drain=True in polling loops so the next call sees only NEW output.
• send_to_shell(proc_id, input_text) - write to stdin for interactive REPLs/servers.
• kill_shell(proc_id, signal_name='SIGTERM') - supports SIGTERM/SIGKILL/ SIGINT/SIGHUP.
• wait_shell(proc_id, timeout_seconds=30) - block until exit.
• list_shells() / reap_exited() - inventory and cleanup.

Operational memory (evolution_memory.py)

SQLite-backed log of every shell command. Like Atuin, but queryable by the agent directly.

• query_command_history(pattern=None, repl_id=None, only_failures=False, only_timeouts=False, since=None, limit=20) - pattern uses SQL LIKE (%ripgrep%), since accepts '1h', '30m', '2d', or ISO timestamps.
• command_stats(since=None, top_n=5) - total/pass/fail, success rate, top commands, top failures, slowest runs.
• tag_command(command_id, tags) - attach ['flaky', 'solved'] etc.
• forget_command(command_id) - delete rows that captured secrets.
• vacuum_memory(keep_last_n=5000) - cap db size.

Virtual Environment Execution (venv_exec.py)

Run Python code inside isolated virtual environments with their own packages and interpreters.

• run_python_in_venv(code, venv_path, repl_id=None) - Run Python code inside a specified virtual environment path.
• find_venv(path=None) - Discover python virtual environments automatically.

Verify the install

After pulling these changes:

uv run python -m local_repl.doctor

Expects all 9 checks green before you restart Claude Desktop.

Note on unified server: The entry point modules server.py and __main__.py have been fully unified. The pyproject script command local-repl-mcp is now 100% feature-complete, containing all REPL, shell, streaming, memory, and virtual environment execution tools!

Recommended CLI Toolchain

The shell bridge shines when paired with modern CLI utilities that produce structured, predictable output (exit codes, JSON flags, counts-first patterns). The recipes below assume Pop!_OS 24.04 / Ubuntu 24.04; other distros use the same package names with their own package manager.

Tier A — apt (one sudo command)

sudo apt update
sudo apt install -y bat git-delta hyperfine

fd / bat naming fix (no sudo). Debian/Ubuntu ship fd-find / bat as fdfind / batcat to avoid name collisions. Symlink the usual names so scripts work unchanged:

mkdir -p ~/.local/bin
ln -sf "$(which fdfind)" ~/.local/bin/fd
ln -sf "$(which batcat)" ~/.local/bin/bat
echo "$PATH" | tr ':' '\n' | grep -q '\.local/bin' && echo OK

ast-grep and nvm-installed npm binaries. If you use nvm, npm installs global binaries under ~/.nvm/versions/node/<ver>/bin/. That path is added to $PATH by shell init files, which don't fire when an MCP server launches via launchd/systemd. Symlink into ~/.local/bin so it's visible to any subprocess regardless of how the parent was started:

ln -sf "$(npm root -g)/../bin/ast-grep" ~/.local/bin/ast-grep
ast-grep --version

Tier B — user-space (no sudo)

# ast-grep: structural code search/rewrite.
npm install -g @ast-grep/cli

# tokei: per-language code statistics.
cargo install tokei

# just: self-documenting command runner via uv (no sudo, no cargo compile).
uv tool install rust-just

watchexec — prebuilt .deb (skip cargo)

Don't cargo install watchexec-cli. As of watchexec 2.5.1 the crate uses fmt::from_fn, still nightly-only on Rust 1.95 (debug_closure_helpers tracking issue #117729; stabilization PR #146099 pending). Compilation fails with error[E0658]. Use the upstream .deb instead:

WATCHEXEC_VER=2.5.1
cd /tmp
curl -fsSLO "https://github.com/watchexec/watchexec/releases/download/v${WATCHEXEC_VER}/watchexec-${WATCHEXEC_VER}-x86_64-unknown-linux-gnu.deb"
echo "9bf40f223b3651e59c99ed463c44635fa71ab3f81b69927b5343b3935a4fdb14  watchexec-${WATCHEXEC_VER}-x86_64-unknown-linux-gnu.deb" | sha256sum -c -
sudo dpkg -i "watchexec-${WATCHEXEC_VER}-x86_64-unknown-linux-gnu.deb"

For future versions, grab the matching checksum from https://github.com/watchexec/watchexec/releases/download/v<VER>/watchexec-<VER>-x86_64-unknown-linux-gnu.deb.sha256.

Verify the toolchain

for cmd in rg jq fd bat delta tokei hyperfine watchexec ast-grep just; do
  printf "%-12s " "$cmd"
  command -v "$cmd" >/dev/null && echo "✓ $($cmd --version 2>/dev/null | head -1)" || echo "✗ MISSING"
done

Ten green checkmarks = ai-cli skill has its full toolkit.

Why these specific tools

ToolReplacesAI-relevant winrggrepRespects .gitignore; --json output; blazing fastfdfindSimpler syntax, parallel walks, respects .gitignoreast-grepregex for codeMatches code by AST pattern, not text — kills "old_string not unique" edit failuresjqsed/awk on JSONSafe, predictable JSON parsingtokeiwc -l + findPer-language code stats in one call — great first-touch overviewbatcatLine numbers + git change markers give the agent immediate contextdeltadiff viewerSide-by-side, syntax-aware diffshyperfinetime ...Statistical benchmarking with JSON exportwatchexecpolling loopsReactive file-change triggers instead of pollingjustbash scriptsSelf-documenting recipes; just --list shows every task

Known gotchas

• sg is not ast-grep. On Debian/Ubuntu sg is the setsid/script-grep binary from util-linux. Use the full name ast-grep — the ast-grep team dropped the sg shortname in 2024 for this exact reason.
• ast-grep pattern syntax is specific. $$$ binds to argument lists, not arbitrary bodies. To match "any function by name" use def $NAME, not def $NAME($$$): $$$ — the latter silently returns zero matches.
• use_shell=True runs under /bin/sh, not bash. No brace expansion {a,b}, no [[ ]], no process substitution. Use POSIX sh syntax or invoke bash -c '...' explicitly.
• rg and stdin. Ripgrep's is_readable_stdin heuristic hangs waiting on stdin if the parent's stdin is a pipe. The shell bridge handles this by passing stdin=DEVNULL by default.
• stdin_input parameter with JSON payloads. The MCP tool-call serializer auto-parses JSON-looking strings into dicts, failing Pydantic's str check. Workaround: pipe via use_shell=True with echo '{...}' | jq ....

Example Workflow

# First create a new REPL
repl_id = create_python_repl()

# Run some code
result = run_python_in_repl(
  code="x = 42\nprint(f'The answer is {x}')",
  repl_id=repl_id
)

# Run more code in the same REPL (with state preserved)
more_results = run_python_in_repl(
  code="import math\nprint(f'The square root of {x} is {math.sqrt(x)}')",
  repl_id=repl_id
)

# Check what variables are available in the environment
environment_info = get_repl_info(repl_id)

# When done, you can delete the REPL
delete_repl(repl_id)

Development

To run the server during development:

mcp dev server.py

Try this stuff if you need to, untested:

2. Create a virtual environment:

   # Using uv (recommended)
   uv venv --python 3.12 --seed
   
   # Or using standard venv
   python -m venv .venv
   

3. Activate the virtual environment:

   # On Linux/macOS
   . .venv/bin/activate
   
   # On Windows
   .venv\Scripts\activate
   

4. cd local-repl-mcp Install the package:

   # Using uv
   uv pip install -e .
   
   # Using pip
   pip install -e .
   

No idea if this works:

Run the following command to generate a configuration file for Claude Desktop:

mcp install server.py

Troubleshooting

• EPIPE errors: If you see EPIPE errors, restart the Claude Desktop application
• Missing packages: If your code requires specific packages, install them in the same virtual environment
• Connection issues: Ensure the server path in your configuration is correct
• MCP tools not appearing: Check your Claude Desktop configuration and restart the application

License

MIT