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πŸ¦€ ClawHub

ChatDev 2.0 Multi-Agent Team

by @na-wen

Invoke ChatDev ability units (workflows) via local API (port 6400). Use when the user needs specialized agent workflows like data visualization (from CSV), o...

Versionv0.1.0
Downloads693
Installs2
TERMINAL
clawhub install chatdev

πŸ“– About This Skill


name: chatdev description: Invoke ChatDev ability units (workflows) via local API (port 6400). Use when the user needs specialized agent workflows like data visualization (from CSV), or when they mention "ChatDev", "ability units", or "workflows" at http://127.0.0.1:6400.

ChatDev Ability Units

Ability units represent capability units. You can browse what's available, inspect required args, run them, or upload new ones. Use these endpoints when you need to invoke a predefined ability unit (e.g., paper review, data visualization) via the local API.

Run ability units via the local API and return final_message from the JSON response.

API endpoints

1) Browse ability units
  • Method: GET
  • URL: http://127.0.0.1:6400/api/workflows
  • Example:
  •   curl --noproxy 127.0.0.1 -v http://127.0.0.1:6400/api/workflows
      

    2) Get ability unit raw content

  • Method: GET
  • URL: http://127.0.0.1:6400/api/workflows//get
  • Purpose: fetch the raw YAML content for an ability unit file.
  • Example:
  •   curl --noproxy 127.0.0.1 -v \
        http://127.0.0.1:6400/api/workflows/test.yaml/get
      

    3) Get ability unit args

  • Method: GET
  • URL: http://127.0.0.1:6400/api/workflows/.yaml/args
  • Purpose: fetch input parameter schema for an ability unit.
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X GET \
        http://127.0.0.1:6400/api/workflows/test.yaml/args
      

    4) Run ability unit

  • Method: POST
  • URL: http://127.0.0.1:6400/api/workflow/run
  • Content-Type: application/json
  • SSE support: set Accept: text/event-stream to stream events (started, log,
  • completed, error). Omit the header to get the normal JSON response.
  • Output: parse JSON and return final_message. If missing, report failure and
  • include any error fields. After you get output_dir, move it to your working directory.
  • Available ability units:
  • 1) Paper Review - yaml_file: yaml_instance/paper_review.yaml - task_prompt: arXiv URL/ID or paper title. - Purpose: fetch content and deliver technical + writing reviews. - Example:
        curl --noproxy 127.0.0.1 -v -X POST http://127.0.0.1:6400/api/workflow/run \
          -H "Content-Type: application/json" \
          -H "Accept: text/event-stream" \
          -d '{
            "yaml_file": "yaml_instance/paper_review.yaml",
            "task_prompt": "https://arxiv.org/abs/1706.03762"
          }'
        

    2) Data Visualization - yaml_file: yaml_instance/data_visualization_basic.yaml - task_prompt: dataset description + analysis goals. - attachments: absolute paths to CSV files. - Purpose: profile, clean, plan 4-6 charts, iterate visualizations. - Example:

        curl --noproxy 127.0.0.1 -v -X POST http://127.0.0.1:6400/api/workflow/run \
          -H "Content-Type: application/json" \
          -d '{
            "yaml_file": "yaml_instance/data_visualization_basic.yaml",
            "task_prompt": "please analyze and visualize the data",
             "attachments": ["/Users/yufan/Projects/bugfix/ChatDev/sample_sales.csv"]
          }'
        

    5) Upload ability unit

  • Method: POST
  • URL: http://127.0.0.1:6400/api/workflows/upload/content
  • Content-Type: application/json
  • Format notes: filename should end with .yaml; content must be a valid YAML
  • string that includes version, vars, and a graph with id, start, nodes, and edges (as in the example).
  • Tip: if uploads keep failing with format errors, call the "get ability unit raw content" endpoint to inspect
  • an existing ability unit's structure and copy its format.
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X POST \
        http://127.0.0.1:6400/api/workflows/upload/content \
        -H "Content-Type: application/json" \
        -d @- <<'EOF'
      {
        "filename": "test.yaml",
        "content": "version: 0.4.0\nvars: {}\ngraph:\n  id: paper_review\n  description: Three agents collaboratively review academic papers from different perspectives. Input can be an arxiv URL or paper title.\n  is_majority_voting: false\n  start:\n    - Paper Fetcher\n  nodes:\n    - id: Paper Fetcher\n      type: agent\n      config:\n        name: gpt-4o\n        provider: openai\n        role: |\n          You are a paper content fetcher.\n        base_url: ${BASE_URL}\n        api_key: ${API_KEY}\n      description: Fetches paper content from arxiv\n      context_window: 0\n  edges: []"
      }
      EOF
      

    6) Update ability unit

  • Method: PUT
  • URL: http://127.0.0.1:6400/api/workflows//update
  • Content-Type: application/json
  • Format notes: same payload as upload (filename + YAML content string).
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X PUT \
        http://127.0.0.1:6400/api/workflows/test.yaml/update \
        -H "Content-Type: application/json" \
        -d @- <<'EOF'
      {
        "filename": "test.yaml",
        "content": "version: 0.4.0\nvars: {}\ngraph:\n  id: paper_review\n  description: Update example.\n  is_majority_voting: false\n  start:\n    - Paper Fetcher\n  nodes:\n    - id: Paper Fetcher\n      type: agent\n      config:\n        name: gpt-4o\n        provider: openai\n        role: |\n          You are a paper content fetcher.\n        base_url: ${BASE_URL}\n        api_key: ${API_KEY}\n      description: Fetches paper content from arxiv\n      context_window: 0\n  edges: []"
      }
      EOF
      

    7) Rename ability unit

  • Method: POST
  • URL: http://127.0.0.1:6400/api/workflows//rename
  • Content-Type: application/json
  • Body: { "new_filename": "new_name.yaml" }
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X POST \
        http://127.0.0.1:6400/api/workflows/test.yaml/rename \
        -H "Content-Type: application/json" \
        -d '{"new_filename":"renamed.yaml"}'
      

    8) Copy ability unit

  • Method: POST
  • URL: http://127.0.0.1:6400/api/workflows//copy
  • Content-Type: application/json
  • Body: { "new_filename": "copy.yaml" }
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X POST \
        http://127.0.0.1:6400/api/workflows/test.yaml/copy \
        -H "Content-Type: application/json" \
        -d '{"new_filename":"test-copy.yaml"}'
      

    9) Delete ability unit

  • Method: DELETE
  • URL: http://127.0.0.1:6400/api/workflows//delete
  • Example:
  •   curl --noproxy 127.0.0.1 -v -X DELETE \
        http://127.0.0.1:6400/api/workflows/test.yaml/delete
      

    10) List local tools (function_calling)

  • Method: GET
  • URL: http://127.0.0.1:6400/api/tools/local
  • Example:
  •   curl --noproxy 127.0.0.1 -X GET http://127.0.0.1:6400/api/tools/local
      

    Tools hot updates

    Local function tools are managed via the same backend (port 6400).

    Endpoints:

  • List local tools: GET http://127.0.0.1:6400/api/tools/local
  • Create/overwrite local tool file: POST http://127.0.0.1:6400/api/tools/local
  • Create example:

    curl --noproxy 127.0.0.1 -X POST http://127.0.0.1:6400/api/tools/local \
      -H "Content-Type: application/json" \
      -d '{
        "filename": "add.py",
        "content": "def add(a: int, b: int) -> dict:\n    return {\"result\": a + b}\n",
        "overwrite": true
      }'
    

    YAML example (local function_calling):

    tooling:
      - type: function
        config:
          tools:
            - name: add
    

    Common scenarios and tool suggestions

  • If the agent needs to search the web, use web_search.
  • If the agent needs to fetch a URL's content, use read_webpage_content.
  • If the agent needs to inspect local files, use describe_available_files and list_directory.
  • If the agent needs to read a file snippet, use read_text_file_snippet or read_file_segment.
  • If the agent needs to write output files, use save_file.
  • Advanced Workflow Templates

    Below are advanced YAML templates you can copy and adapt. They cover debate loops, subgraph reuse, conditional edges, and selective payload routing.

    1) Two-Agent Debate Loop with Judge Stop Criteria

    version: 0.4.0
    vars: {}
    graph:
      id: debate_loop
      description: Two agents debate until the judge outputs "Verdict: STOP".
      is_majority_voting: false
      start:
        - Topic
      nodes:
        - id: Topic
          type: passthrough
          config: {}
        - id: Pro
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              You are the PRO debater. Respond with arguments and counterpoints.
        - id: Con
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              You are the CON debater. Respond with arguments and counterpoints.
        - id: Judge
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Evaluate the debate. Output:
              Score: <0-1>
              Notes: 
              Verdict: CONTINUE|STOP
        - id: Final
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Produce the final summary of the debate and recommendation.
      edges:
        - from: Topic
          to: Pro
          keep_message: true
        - from: Topic
          to: Con
          keep_message: true
        - from: Pro
          to: Judge
        - from: Con
          to: Judge
        - from: Judge
          to: Pro
          condition: need_reflection_loop
        - from: Judge
          to: Con
          condition: need_reflection_loop
        - from: Judge
          to: Final
          condition: should_stop_loop
    

    2) Subgraph Reuse + Selective Payload Passing

    version: 0.4.0
    vars: {}
    graph:
      id: parent_with_subgraph
      description: Uses a subgraph and only forwards the "Summary" section.
      start:
        - Request
      nodes:
        - id: Request
          type: passthrough
          config: {}
        - id: ResearchSubgraph
          type: subgraph
          config:
            type: file
            config:
              path: "subgraphs/deep_research_executor_sub.yaml"
        - id: Writer
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Write the final report using only the provided Summary.
      edges:
        - from: Request
          to: ResearchSubgraph
          keep_message: true
        - from: ResearchSubgraph
          to: Writer
          process:
            type: regex_extract
            config:
              pattern: "Summary:\\s*(.*)"
              group: 1
              multiline: true
              dotall: true
              on_no_match: pass
    

    3) Conditional Routing + Minimal Payload

    version: 0.4.0
    vars: {}
    graph:
      id: router_with_conditions
      description: Route to different nodes based on tags; forward only CONTENT block.
      start:
        - Router
      nodes:
        - id: Router
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Decide the route. Output exactly:
              ROUTE: QA|REPORT
              CONTENT: 
        - id: QA
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Answer the question concisely.
        - id: REPORT
          type: agent
          config:
            provider: openai
            base_url: ${BASE_URL}
            api_key: ${API_KEY}
            name: gpt-4o
            role: |
              Write a structured report.
      edges:
        - from: Router
          to: QA
          condition:
            type: keyword
            config:
              any: ["ROUTE: QA"]
          process:
            type: regex_extract
            config:
              pattern: "CONTENT:\\s*(.*)"
              group: 1
              dotall: true
              on_no_match: drop
        - from: Router
          to: REPORT
          condition:
            type: keyword
            config:
              any: ["ROUTE: REPORT"]
          process:
            type: regex_extract
            config:
              pattern: "CONTENT:\\s*(.*)"
              group: 1
              dotall: true
              on_no_match: drop
    

    Tips

  • Any workflow YAML can be used as a subgraph to compose more complex tasks, including existing ability units/workflows. Example:
  •   - id: Research Subgraph
        type: subgraph
        config:
          type: file
          config:
            path: "yaml_instance/deep_research_v1.yaml"
      
  • Ensure that all generated artifacts are output to your workspace file paths whenever possible
  • Ensure that all agents’ roles are concise, sophisticated, and equipped with sufficient tools
  • πŸ“‹ Tips & Best Practices

  • Any workflow YAML can be used as a subgraph to compose more complex tasks, including existing ability units/workflows. Example:
  •   - id: Research Subgraph
        type: subgraph
        config:
          type: file
          config:
            path: "yaml_instance/deep_research_v1.yaml"
      
  • Ensure that all generated artifacts are output to your workspace file paths whenever possible
  • Ensure that all agents’ roles are concise, sophisticated, and equipped with sufficient tools