--- name: code-analysis description: Deep code analysis and debugging using CLI tools with specialized template usage: /cli:mode:code-analysis [--tool ] [--enhance] [--cd "path"] "analysis target" argument-hint: "[--tool codex|gemini|qwen] [--enhance] [--cd path] analysis target" examples: - /cli:mode:code-analysis "analyze authentication flow logic" - /cli:mode:code-analysis --tool qwen --enhance "explain data transformation pipeline" - /cli:mode:code-analysis --tool codex --cd "src/core" "trace execution path for user registration" allowed-tools: SlashCommand(*), Bash(*) model: sonnet --- # CLI Mode: Code Analysis (/cli:mode:code-analysis) ## Purpose Execute systematic code analysis and debugging using CLI tools with specialized code analysis template. **Supported Tools**: codex, gemini (default), qwen ## Execution Flow 1. **Parse tool selection**: Extract `--tool` flag (default: gemini) 2. **If `--enhance` flag present**: Execute `/enhance-prompt "[analysis-target]"` first 3. Parse analysis target (original or enhanced) 4. Detect target directory (from `--cd` or auto-infer) 5. Build command for selected tool with code-analysis template 6. Execute deep analysis 7. Save to session (if active) ## Core Rules 1. **Tool Selection**: Use `--tool` value or default to gemini 2. **Enhance First (if flagged)**: Execute `/enhance-prompt` before analysis 3. **Directory Context**: Use `cd` when `--cd` provided or auto-detected 4. **Template Required**: Always use code-analysis template 5. **Session Output**: Save to `.workflow/WFS-[id]/.chat/code-analysis-[timestamp].md` ## Analysis Capabilities The code-analysis template provides: - **Systematic Code Analysis**: Break down complex code into manageable parts - **Execution Path Tracing**: Track variable states and call stacks - **Control & Data Flow**: Understand code logic and data transformations - **Call Flow Visualization**: Diagram function calling sequences - **Logical Reasoning**: Explain "why" behind code behavior - **Debugging Insights**: Identify potential bugs or inefficiencies ## Command Templates **Core Guidelines**: @~/.claude/workflows/intelligent-tools-strategy.md ### Gemini (Default) ```bash cd [directory] && ~/.claude/scripts/gemini-wrapper --all-files -p " PURPOSE: [analysis goal from target] TASK: Deep code analysis with execution path tracing CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} [entire codebase in directory] EXPECTED: Systematic analysis, call flow diagram, data transformations, logical explanation RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on [specific aspect] " ``` ### Qwen ```bash cd [directory] && ~/.claude/scripts/qwen-wrapper --all-files -p " PURPOSE: [analysis goal from target] TASK: Architecture-level code analysis and pattern recognition CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} [entire codebase in directory] EXPECTED: Architectural insights, design patterns, code structure analysis RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on [specific aspect] " ``` ### Codex ```bash codex -C [directory] --full-auto exec " PURPOSE: [analysis goal from target] TASK: Deep code inspection with debugging insights CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} [entire codebase in directory] EXPECTED: Execution trace, bug identification, optimization opportunities RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on [specific aspect] " --skip-git-repo-check -s danger-full-access ``` ## Examples **Basic Code Analysis (Gemini)**: ```bash cd . && ~/.claude/scripts/gemini-wrapper --all-files -p " PURPOSE: Analyze authentication flow logic TASK: Trace authentication execution path and identify key functions CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} EXPECTED: Step-by-step flow, call diagram, data passing between functions RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on control flow and security " ``` **Architecture Analysis (Qwen)**: ```bash # User: /cli:mode:code-analysis --tool qwen "explain data transformation pipeline" cd . && ~/.claude/scripts/qwen-wrapper --all-files -p " PURPOSE: Explain data transformation pipeline architecture TASK: Analyze data flow and transformation patterns CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} EXPECTED: Pipeline structure, transformation stages, data format changes RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on data flow and patterns " ``` **Deep Debugging (Codex)**: ```bash # User: /cli:mode:code-analysis --tool codex --cd "src/core" "trace execution path for user registration" codex -C src/core --full-auto exec " PURPOSE: Trace execution path for user registration TASK: Deep analysis of registration flow with debugging insights CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} EXPECTED: Complete execution trace, variable states, potential issues RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on edge cases and error handling " --skip-git-repo-check -s danger-full-access ``` **With Enhancement**: ```bash # User: /cli:mode:code-analysis --enhance "why is login slow" # Step 1: Enhance /enhance-prompt "why is login slow" # Returns: # INTENT: Identify performance bottlenecks in login flow # CONTEXT: Authentication module, database queries # ACTION: Trace execution path → identify slow operations → suggest optimizations # Step 2: Analyze with enhanced context cd . && ~/.claude/scripts/gemini-wrapper --all-files -p " PURPOSE: Identify performance bottlenecks in login flow TASK: Trace login execution path and measure operation costs CONTEXT: @{CLAUDE.md,**/*CLAUDE.md} @{**/*auth*,**/*login*} EXPECTED: Performance analysis, bottleneck identification, optimization recommendations RULES: $(cat ~/.claude/prompt-templates/code-analysis.md) | Focus on performance and database queries " ``` ## Analysis Output Structure Based on code-analysis.md template, output includes: ### 1. 思考过程 (Thinking Process) - Analysis strategy and approach - Key assumptions about code behavior ### 2. 对问题的理解 (Understanding) - Restate analysis target - Confirm understanding of requirements ### 3. 核心解答 (Core Answer) - Direct, concise answer to analysis question ### 4. 详细分析与调用逻辑 (Detailed Analysis) - **代码段识别**: Relevant code sections - **执行流程**: Step-by-step execution flow - **调用图**: Visual call flow diagram with symbols: - `───►` Function call - `◄───` Return - `│` Continuation - `├─` Intermediate step - `└─` Last step in block - **数据传递**: Data passing and state changes - **逻辑解释**: Why code behaves this way ### 5. 总结 (Summary) - Key findings and recommendations ## Session Output **Location**: `.workflow/WFS-[topic]/.chat/code-analysis-[timestamp].md` **Includes**: - Analysis target - Template used - Complete structured analysis - Call flow diagrams - Debugging insights - Recommendations ## Use Cases | Use Case | Best Tool | Focus | |----------|-----------|-------| | **Understand execution flow** | gemini | Call sequences, data flow | | **Architectural patterns** | qwen | Design patterns, structure | | **Performance debugging** | codex | Bottlenecks, optimizations | | **Bug investigation** | codex | Error paths, edge cases | | **Code review** | gemini | Logic correctness, clarity | | **Refactoring planning** | qwen | Structure improvements | ## Tool Selection Guide - **Gemini**: Best for general code understanding and tracing - **Qwen**: Best for architectural analysis and pattern recognition - **Codex**: Best for deep debugging and performance analysis