Clojure多核编程 (Clojure Multiccore Programming)

原文

⚠️ Alpha Software - Work in Progress

This project is in early development and rapidly evolving. While I've found it invaluable for working with Clojure projects and it has significantly improved my development workflow, expect breaking changes, rough edges, and incomplete documentation.

🤝 Help Wanted! If you find this useful, please consider contributing:

Report bugs and issues you encounter

Suggest improvements or new features

Submit pull requests for fixes or enhancements

Share your configuration patterns and workflows

Help improve documentation and examples

Your feedback and contributions will help make this tool better for the entire Clojure community!

A Model Context Protocol (MCP) server for Clojure that provides a complete set of tools to aid in the development of Clojure projects.

This project implements an MCP server that connects AI models to a Clojure nREPL, and Specialized Clojure editing tools enabling a unique Clojure develop experience.

Clojure MCP provides a superset of the tools that Claude Code uses, so you can use it to work on Clojure without any other tools. I highly recommend using it with Claude Desktop to start. It's prettier and there are no api charges! Claude Desktop also let's you have quick access to your own prompts and other resources provided by the clojure-mcp server. Having a stack of your own prompts available in a UI menu is pretty nice.

Clojure REPL Connection
Clojure Aware editing - Using clj-kondo, parinfer, cljfmt, and clj-rewrite
Optimized set of tools for Clojure Development superset of Claude Code
Emacs edit highlighting - alpha

Why REPL-Driven Development with AI?

This approach enables:

Immediate feedback - Validate code by running it in a stateful REPL, not just statically analyzing it
Incremental development - Build solutions in small, verified steps
Human oversight - Keep the programmer in the loop for guidance
Functional approach - Encourage pure functions that are easier to understand and test

Step 1: Get the Clojure MCP Server

Clone this repository to your development machine

git clone https://github.com/bhauman/clojure-mcp.git

or use it as git dep in your deps.edn

{:deps {bhauman/clojure-mcp {:git/url "https://github.com/bhauman/clojure-mcp.git"
                             :git/sha "latest-main-branch-sha"}}

Step 2: Configure Your Target Project

In the Clojure project where you want AI assistance, add MCP server configuration to your deps.edn:

{:aliases {
  ;; nREPL server for AI to connect to
  :nrepl {:extra-paths ["test"] 
          :extra-deps {nrepl/nrepl {:mvn/version "1.3.1"}
                       ch.qos.logback/logback-classic {:mvn/version "1.4.14"}}
          :jvm-opts ["-Djdk.attach.allowAttachSelf"]						 
          :main-opts ["-m" "nrepl.cmdline" "--port" "7888"]}
  
  ;; MCP server configuration (for reference)
  :mcp {:extra-deps {org.slf4j/slf4j-nop {:mvn/version "2.0.16"}
                     clojure-mcp/clojure-mcp {:local/root "/path/to/clojure-mcp"}}
        :exec-fn clojure-mcp.main/start-mcp-server
        :exec-args {:port 7888}}}}

Important: Replace /path/to/clojure-mcp with the actual path to your cloned repository.

IMPORTANT NOTE: the mcp server can run in any directory and DOES NOT have to run in your project. The mcp server looks to the nREPL connection for context. The root directory of the project that is running the nREPL server becomes the root directory of all the mcp tool invocations. Currently the nREPL must run on the same machine as the MCP server as there is an assumption of a shared file system between the nREPL server and the MCP server.

Step 3: Configure Claude Desktop

Edit your Claude Desktop configuration file:

Location: ~/Library/Application Support/Claude/claude_desktop_config.json

{
    "mcpServers": {
        "clojure-mcp": {
            "command": "/bin/sh",
            "args": [
                "-c",
                "cd /path/to/your/clojure/project && PATH=/your/bin-or-nix/path:$PATH && clojure -X:mcp :port 7888"
            ]
        }
    }
}

Replace these paths:

/path/to/clojure-mcp → Your cloned repository location
/your/bin/path → Your system's binary path (e.g., /Users/username/.nix-profile/bin)

Start nREPL in your target project:
```
cd /path/to/your/project
clojure -M:nrepl
```
You should see: nREPL server started on port 7888...
Restart Claude Desktop (required after config changes)
Verify connection: In Claude Desktop, click the + button in the chat area. You should see "Add from clojure-mcp" in the menu.

Starting a new conversation

In Claude Desktop click the + tools and optionally add

resource PROJECT_SUMMARY.md - (have the LLM create this) see below
resource Clojure Project Info - which introspects the nREPL connected project
resource LLM_CODE_STYLE.md - Which is your personal coding style instructions (copy the one in this repo)
prompt clojure_repl_system_prompt - instructions on how to code - cribbed a bunch from Clod Code

Then start the chat.

I would start by stating a problem and then chatting with the LLM to interactively design a solution. You can ask Claude to "propose" a solution to a problem.

Iterate on that a bit then have it either:

A. code and validate the idea in the REPL.

Don't underestimate LLMs abilities to use the REPL! Current LLMs are absolutely fantastic at using the Clojure REPL.

B. ask the LLM to make the changes to the source code and then have it validate the code in the REPL after file editing.

C. ask to run the tests. D. ask to commit the changes.

Make a branch and have the LLM commit often so that it doesn't ruin good work by going in a bad direction.

Project Summary Management

This project includes a workflow for maintaining an LLM-friendly PROJECT_SUMMARY.md that helps assistants quickly understand the codebase structure.

Creating the Summary: To generate or update the PROJECT_SUMMARY.md file, use the MCP prompt in the + > clojure-mcp menu create-project-summary. This prompt will:
- Analyze the codebase structure
- Document key files, dependencies, and available tools
- Generate comprehensive documentation in a format optimized for LLM assistants
Using the Summary: When starting a new conversation with an assistant:
- The "Project Summary" resource automatically loads PROJECT_SUMMARY.md
- This gives the assistant immediate context about the project structure
- The assistant can provide more accurate help without lengthy exploration
Keeping It Updated: At the end of a productive session where new features or components were added:
- Invoke the create-project-summary prompt again
- The system will update the PROJECT_SUMMARY.md with newly added functionality
- This ensures the summary stays current with ongoing development

This workflow creates a virtuous cycle where each session builds on the accumulated knowledge of previous sessions, making the assistant increasingly effective as your project evolves.

This is NOT required to use the Clojure MCP server.

There are a few MCP tools provided that are agents unto themselves and they need API keys to function.

To use the agent tools, you'll need API keys from one or more of these providers:

GEMINI_API_KEY - For Google Gemini models
OPENAI_API_KEY - For GPT models
ANTHROPIC_API_KEY - For Claude models

Setting Environment Variables

Option 1: Export in your shell

export ANTHROPIC_API_KEY="your-anthropic-api-key-here"
export OPENAI_API_KEY="your-openai-api-key-here"
export GEMINI_API_KEY="your-gemini-api-key-here"

Option 2: Add to your shell profile (.bashrc, .zshrc, etc.)

# Add these lines to your shell profile
export ANTHROPIC_API_KEY="your-anthropic-api-key-here"
export OPENAI_API_KEY="your-openai-api-key-here"
export GEMINI_API_KEY="your-gemini-api-key-here"

Configuring Claude Desktop

When setting up Claude Desktop, ensure it can access your environment variables by updating your config.

{
    "mcpServers": {
        "clojure-mcp": {
            "command": "/bin/sh",
            "args": [
                "-c",
                "cd /path/to/your/workspace/project && PATH=/your/bin/path:$PATH && clojure -X:mcp :port 7888"
            ],
            "env": {
                "ANTHROPIC_API_KEY": "$ANTHROPIC_API_KEY",
                "OPENAI_API_KEY": "$OPENAI_API_KEY", 
                "GEMINI_API_KEY": "$GEMINI_API_KEY"
            }
        }
    }
}

Personally I source them right in bash command:

{
    "mcpServers": {
        "clojure-mcp": {
            "command": "/bin/sh",
            "args": [
                "-c",
                "source ~/.api_credentials.sh && cd /path/to/your/mcp-server/home && PATH=/your/bin/path:$PATH && clojure -X:mcp :port 7888"
            ]
        }
    }
}

Note: The agent tools will work with any available API key. You don't need all three - just set up the ones you have access to. The tools will automatically select from available models. For now the ANTHROPIC API is limited to the displatch_agent.

This tool has a learning curve. You may in practice have to remind the LLM to develop in the REPL. You may also have to remind the LLM to use the clojure_edit family of tools which have linters build in to prevent unbalanced parens and the like.

The default tools included in main.clj are organized by category to support different workflows:

Tool Name	Description	Example Usage
`LS`	Returns a recursive tree view of files and directories	Exploring project structure
`read_file`	Smart file reader with pattern-based exploration for Clojure files	Reading files with collapsed view, pattern matching
`fs_grep`	Fast content search using regular expressions	Finding files containing specific patterns
`glob_files`	Pattern-based file finding	Finding files by name patterns like `*.clj`
`think`	Log thoughts for complex reasoning and brainstorming	Planning approaches, organizing thoughts

Tool Name	Description	Example Usage
`clojure_eval`	Evaluates Clojure code in the current namespace	Testing expressions like `(+ 1 2)`
`bash`	Execute shell commands on the host system	Running tests, git commands, file operations

Tool Name	Description	Example Usage
`clojure_edit`	Structure-aware editing of Clojure forms	Replacing/inserting functions, handling defmethod
`clojure_edit_replace_sexp`	Modify expressions within functions	Changing specific s-expressions
`file_edit`	Edit files by replacing text strings	Simple text replacements
`file_write`	Write complete files with safety checks	Creating new files, overwriting with validation

Agent Tools (Require API Keys)

Tool Name	Description	Example Usage
`dispatch_agent`	Launch agents with read-only tools for complex searches	Multi-step file exploration and analysis
`architect`	Technical planning and implementation guidance	System design, architecture decisions

Tool Name	Description	Example Usage
`code_critique`	Interactive code review and improvement suggestions	Iterative code quality improvement

Smart File Reading (`read_file`)

Collapsed View: Shows only function signatures for large Clojure files
Pattern Matching: Use name_pattern to find functions by name, content_pattern to search content
defmethod Support: Handles dispatch values like "area :rectangle" or vector dispatches
Multi-language: Clojure files get smart features, other files show raw content

Structure-Aware Editing (`clojure_edit`)

Form-based Operations: Target functions by type and identifier, not text matching
Multiple Operations: Replace, insert_before, insert_after
Syntax Validation: Built-in linting prevents unbalanced parentheses
defmethod Handling: Works with qualified names and dispatch values

Code Evaluation (`clojure_eval`)

REPL Integration: Executes in the connected nREPL session
Helper Functions: Built-in namespace and symbol exploration tools
Multiple Expressions: Evaluates and partitions multiple expressions

Agent System (`dispatch_agent`)

Autonomous Search: Handles complex, multi-step exploration tasks
Read-only Access: Agents have read only tool access
Detailed Results: Returns analysis and findings

The Clojure MCP server is designed for easy customization. The codebase separates the core MCP server API from the specific implementation:

src/clojure_mcp/core.clj - Provides the reusable API for building MCP servers
src/clojure_mcp/main.clj - Example implementation showing how to use the API

Using main.clj as a Template

The main.clj file demonstrates the recommended patterns for creating your own customized MCP server:

1. Define Your Resources (`my-resources` function)

(defn my-resources [nrepl-client-map working-dir]
  (keep identity
    [(resources/create-file-resource
       "custom://project-summary"
       "PROJECT_SUMMARY.md"
       "Project summary for LLM context"
       "text/markdown"
       (str working-dir "/PROJECT_SUMMARY.md"))
     ;; Add more resources here
     ]))

Resources provide context documents to the AI assistant. Common resources include:

Project documentation (README, PROJECT_SUMMARY)
Code style guides
Project structure information
Configuration files

2. Define Your Prompts (`my-prompts` function)

(defn my-prompts [working-dir]
  [{:name "my_custom_prompt"
    :description "Custom prompt for specific workflows"
    :arguments []
    :prompt-fn (prompts/simple-content-prompt-fn
                "Custom Prompt"
                "Your custom prompt content here")}])

Prompts provide pre-configured instructions and workflows for the AI assistant.

3. Select Your Tools (`my-tools` function)

(defn my-tools [nrepl-client-atom]
  [;; Read-only tools
   (directory-tree-tool/directory-tree-tool nrepl-client-atom)
   (unified-read-file-tool/unified-read-file-tool nrepl-client-atom)
   
   ;; Evaluation tools
   (eval-tool/eval-code nrepl-client-atom)
   
   ;; Editing tools
   (combined-edit-tool/unified-form-edit-tool nrepl-client-atom)
   (file-write-tool/file-write-tool nrepl-client-atom)
   
   ;; Add your custom tools here
   ])

Tools are organized by category:

Read-only: File exploration, project inspection
Evaluation: Code execution and testing
Editing: File modification and code generation
Agents: Advanced AI-powered tools
Experimental: Cutting-edge features

4. Wire Everything Together (`start-mcp-server` function)

(defn start-mcp-server [nrepl-args]
  (let [nrepl-client-map (core/create-and-start-nrepl-connection nrepl-args)
        working-dir (config/get-nrepl-user-dir nrepl-client-map)
        mcp (core/mcp-server)]
    
    (reset! core/nrepl-client-atom (assoc nrepl-client-map ::mcp-server mcp))
    
    ;; Register your customizations
    (doseq [resource (my-resources nrepl-client-map working-dir)]
      (core/add-resource mcp resource))
    (doseq [tool (my-tools core/nrepl-client-atom)]
      (core/add-tool mcp tool))
    (doseq [prompt (my-prompts working-dir)]
      (core/add-prompt mcp prompt))))

Creating Your Custom Server

Copy main.clj as a starting point for your custom server
Modify the functions to include only the tools/resources/prompts you need
Add requires for any additional tools you want to include
Update your deps.edn to point to your custom server function

Example deps.edn configuration:

:mcp {:exec-fn my.custom.server/start-mcp-server
      :exec-args {:port 7888}}

To add tools not included in the default set:

Find the tool namespace in src/clojure_mcp/tools/
Add the require to your namespace
Add the tool function call to your my-tools function

Example:

(:require [clojure-mcp.tools.my-new-tool.tool :as my-new-tool])

;; In my-tools function:
(my-new-tool/my-new-tool nrepl-client-atom)

Tool Categories and Selection

Choose tools based on your workflow needs:

For exploration only: Include read-only and evaluation tools
For active development: Add editing and file manipulation tools
For AI-assisted workflows: Include agent and experimental tools
For testing: Include bash tool for running tests

This modular approach lets you create focused, efficient MCP servers tailored to specific development workflows.

🔧 Extending with Custom Tools

Want to create your own MCP tools?

📖 Custom Tools Development Guide

The Clojure MCP server supports project-specific configuration through a .clojure-mcp/config.edn file in your project's root directory. This configuration provides security controls and customization options for the MCP server.

Configuration File Location

Create a .clojure-mcp/config.edn file in your project root:

your-project/
├── .clojure-mcp/
│   └── config.edn
├── src/
├── deps.edn
└── ...

Controls which directories the MCP tools can access for security. Paths can be relative (resolved from project root) or absolute.

Boolean flag to enable Emacs integration notifications.

{:allowed-directories ["."
                       "src" 
                       "test" 
                       "resources"
                       "dev"
                       "/absolute/path/to/shared/code"
                       "../sibling-project"]
 :emacs-notify false}

Path Resolution:

Relative paths (like "src", "../other-project") are resolved relative to your project root
Absolute paths (like "/home/user/shared") are used as-is
The project root directory is automatically included in allowed directories

Security:

Tools validate all file operations against the allowed directories
Attempts to access files outside allowed directories will fail with an error
This prevents accidental access to sensitive system files
the Bash tool doesn't respect these boundaries so be wary

Default Behavior:

Without a config file, only the project directory and its subdirectories are accessible
The nREPL working directory is automatically added to allowed directories

Common Configuration Patterns

{:allowed-directories ["." 
                       "src" 
                       "test" 
                       "dev" 
                       "resources"
                       "docs"]
 :emacs-notify false}

{:allowed-directories ["."
                       "../shared-utils"
                       "../common-config"
                       "/home/user/reference-code"]
 :emacs-notify false}

Restricted Mode (Extra Security)

{:allowed-directories ["src" 
                       "test"]
 :emacs-notify false}

Note: Configuration is loaded when the MCP server starts. Restart the server after making configuration changes.

📜 Development Practices

Express the problem - Clearly state what you want to solve
Develop in the REPL - Work through solutions incrementally
Validate step-by-step - Test each expression before moving on
Save to files - When the solution is working, save it properly
Reload and verify - Make sure the saved code works

Small steps - Prefer many small, valid steps over a few large steps
Human guidance - Provide feedback to keep development on track
Test early - Validate ideas directly in the REPL before committing to them

# Run tests
clojure -X:test

# Run specific test
clojure -X:test :dirs '["test"]' :include '"repl_tools_test"'

# Run linter
clojure -M:lint

The core philosophy of this project is that:

Tiny steps with rich feedback lead to better quality code
REPL-driven development provides the highest quality feedback loop
Keeping humans in the loop ensures discernment and maintainable code

GNU Affero General Public License v3.0

This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details.

You should have received a copy of the GNU Affero General Public License along with this program. If not, see https://www.gnu.org/licenses/.

✅ Use freely for personal projects, internal business tools, and development
✅ Modify and distribute - improvements and forks are welcome
✅ Commercial use - businesses can use this internally without restrictions
⚠️ Network copyleft - if you offer this as a service to others, you must open source your entire service stack
📤 Share improvements - modifications must be shared under the same license

This license ensures the project remains open source while preventing commercial exploitation without contribution back to the community.