--- name: setup description: Initialize project-level state and configure specs via interactive questionnaire using cli-explore-agent argument-hint: "[--regenerate] [--skip-specs] [--reset]" examples: - /workflow:spec:setup - /workflow:spec:setup --regenerate - /workflow:spec:setup --skip-specs - /workflow:spec:setup --reset --- # Workflow Spec Setup Command (/workflow:spec:setup) ## Overview Initialize `.workflow/project-tech.json` and `.ccw/specs/*.md` with comprehensive project understanding by delegating analysis to **cli-explore-agent**, then interactively configure project guidelines through a multi-round questionnaire. **Dual File System**: - `project-tech.json`: Auto-generated technical analysis (stack, architecture, components) - `specs/*.md`: User-maintained rules and constraints (created and populated interactively) **Design Principle**: Questions are dynamically generated based on the project's tech stack, architecture, and patterns — not generic boilerplate. **Note**: This command may be called by other workflow commands. Upon completion, return immediately to continue the calling workflow without interrupting the task flow. ## Usage ```bash /workflow:spec:setup # Initialize (skip if exists) /workflow:spec:setup --regenerate # Force regeneration of project-tech.json /workflow:spec:setup --skip-specs # Initialize project-tech only, skip spec initialization and questionnaire /workflow:spec:setup --reset # Reset specs content before questionnaire ``` ## Execution Process ``` Input Parsing: ├─ Parse --regenerate flag → regenerate = true | false ├─ Parse --skip-specs flag → skipSpecs = true | false └─ Parse --reset flag → reset = true | false Decision: ├─ BOTH_EXIST + no --regenerate + no --reset → Exit: "Already initialized" ├─ EXISTS + --regenerate → Backup existing → Continue analysis ├─ EXISTS + --reset → Reset specs, keep project-tech → Skip to questionnaire └─ NOT_FOUND → Continue full flow Full Flow: ├─ Step 1: Parse input and check existing state ├─ Step 2: Get project metadata (name, root) ├─ Step 3: Invoke cli-explore-agent │ ├─ Structural scan (get_modules_by_depth.sh, find, wc) │ ├─ Semantic analysis (Gemini CLI) │ ├─ Synthesis and merge │ └─ Write .workflow/project-tech.json ├─ Step 4: Initialize Spec System (if not --skip-specs) │ ├─ Check if specs/*.md exist │ ├─ If NOT_FOUND → Run ccw spec init │ └─ Run ccw spec rebuild ├─ Step 5: Multi-Round Interactive Questionnaire (if not --skip-specs) │ ├─ Check if guidelines already populated → Ask: "Append / Reset / Cancel" │ ├─ Load project context from project-tech.json │ ├─ Round 1: Coding Conventions (coding_style, naming_patterns) │ ├─ Round 2: File & Documentation Conventions (file_structure, documentation) │ ├─ Round 3: Architecture & Tech Constraints (architecture, tech_stack) │ ├─ Round 4: Performance & Security Constraints (performance, security) │ └─ Round 5: Quality Rules (quality_rules) ├─ Step 6: Write specs/*.md (if not --skip-specs) └─ Step 7: Display Summary Output: ├─ .workflow/project-tech.json (+ .backup if regenerate) └─ .ccw/specs/*.md (scaffold or configured, unless --skip-specs) ``` ## Implementation ### Step 1: Parse Input and Check Existing State **Parse flags**: ```javascript const regenerate = $ARGUMENTS.includes('--regenerate') const skipSpecs = $ARGUMENTS.includes('--skip-specs') const reset = $ARGUMENTS.includes('--reset') ``` **Check existing state**: ```bash bash(test -f .workflow/project-tech.json && echo "TECH_EXISTS" || echo "TECH_NOT_FOUND") bash(test -f .ccw/specs/coding-conventions.md && echo "SPECS_EXISTS" || echo "SPECS_NOT_FOUND") ``` **If BOTH_EXIST and no --regenerate and no --reset**: Exit early ``` Project already initialized: - Tech analysis: .workflow/project-tech.json - Guidelines: .ccw/specs/*.md Use /workflow:spec:setup --regenerate to rebuild tech analysis Use /workflow:spec:setup --reset to reconfigure guidelines Use /workflow:spec:add to add individual rules Use /workflow:status --project to view state ``` ### Step 2: Get Project Metadata ```bash bash(basename "$(git rev-parse --show-toplevel 2>/dev/null || pwd)") bash(git rev-parse --show-toplevel 2>/dev/null || pwd) bash(mkdir -p .workflow) ``` ### Step 3: Invoke cli-explore-agent **For --regenerate**: Backup and preserve existing data ```bash bash(cp .workflow/project-tech.json .workflow/project-tech.json.backup) ``` **Delegate analysis to agent**: ```javascript Task( subagent_type="cli-explore-agent", run_in_background=false, description="Deep project analysis", prompt=` Analyze project for workflow initialization and generate .workflow/project-tech.json. ## MANDATORY FIRST STEPS 1. Execute: cat ~/.ccw/workflows/cli-templates/schemas/project-tech-schema.json (get schema reference) 2. Execute: ccw tool exec get_modules_by_depth '{}' (get project structure) ## Task Generate complete project-tech.json following the schema structure: - project_name: "${projectName}" - initialized_at: ISO 8601 timestamp - overview: { description: "Brief project description", technology_stack: { languages: [{name, file_count, primary}], frameworks: ["string"], build_tools: ["string"], test_frameworks: ["string"] }, architecture: {style, layers: [], patterns: []}, key_components: [{name, path, description, importance}] } - features: [] - development_index: ${regenerate ? 'preserve from backup' : '{feature: [], enhancement: [], bugfix: [], refactor: [], docs: []}'} - statistics: ${regenerate ? 'preserve from backup' : '{total_features: 0, total_sessions: 0, last_updated: ISO timestamp}'} - _metadata: {initialized_by: "cli-explore-agent", analysis_timestamp: ISO timestamp, analysis_mode: "deep-scan"} ## Analysis Requirements **Technology Stack**: - Languages: File counts, mark primary - Frameworks: From package.json, requirements.txt, go.mod, etc. - Build tools: npm, cargo, maven, webpack, vite - Test frameworks: jest, pytest, go test, junit **Architecture**: - Style: MVC, microservices, layered (from structure & imports) - Layers: presentation, business-logic, data-access - Patterns: singleton, factory, repository - Key components: 5-10 modules {name, path, description, importance} ## Execution 1. Structural scan: get_modules_by_depth.sh, find, wc -l 2. Semantic analysis: Gemini for patterns/architecture 3. Synthesis: Merge findings 4. ${regenerate ? 'Merge with preserved development_index and statistics from .workflow/project-tech.json.backup' : ''} 5. Write JSON: Write('.workflow/project-tech.json', jsonContent) 6. Report: Return brief completion summary Project root: ${projectRoot} ` ) ``` ### Step 4: Initialize Spec System (if not --skip-specs) ```javascript // Skip spec initialization if --skip-specs flag is provided if (!skipSpecs) { // Initialize spec system if not already initialized const specsCheck = Bash('test -f .ccw/specs/coding-conventions.md && echo EXISTS || echo NOT_FOUND') if (specsCheck.includes('NOT_FOUND')) { console.log('Initializing spec system...') Bash('ccw spec init') Bash('ccw spec rebuild') } } else { console.log('Skipping spec initialization and questionnaire (--skip-specs)') } ``` If `--skip-specs` is provided, skip directly to Step 7 (Display Summary) with limited output. ### Step 5: Multi-Round Interactive Questionnaire (if not --skip-specs) #### Step 5.0: Check Existing Guidelines If guidelines already have content, ask the user how to proceed: ```javascript // Check if specs already have content via ccw spec list const specsList = Bash('ccw spec list --json 2>/dev/null || echo "{}"') const specsData = JSON.parse(specsList) const isPopulated = (specsData.total || 0) > 5 // More than seed docs if (isPopulated && !reset) { AskUserQuestion({ questions: [{ question: "Project guidelines already contain entries. How would you like to proceed?", header: "Mode", multiSelect: false, options: [ { label: "Append", description: "Keep existing entries and add new ones from the wizard" }, { label: "Reset", description: "Clear all existing entries and start fresh" }, { label: "Cancel", description: "Exit without changes" } ] }] }) // If Cancel → exit // If Reset → clear all arrays before proceeding // If Append → keep existing, wizard adds to them } // If --reset flag was provided, clear existing entries before proceeding if (reset) { // Reset specs content console.log('Resetting existing guidelines...') } ``` #### Step 5.1: Load Project Context ```javascript // Load project context via ccw spec load for planning context const projectContext = Bash('ccw spec load --category planning 2>/dev/null || echo "{}"') const specData = JSON.parse(projectContext) // Extract key info from loaded specs for generating smart questions const languages = specData.overview?.technology_stack?.languages || [] const primaryLang = languages.find(l => l.primary)?.name || languages[0]?.name || 'Unknown' const frameworks = specData.overview?.technology_stack?.frameworks || [] const testFrameworks = specData.overview?.technology_stack?.test_frameworks || [] const archStyle = specData.overview?.architecture?.style || 'Unknown' const archPatterns = specData.overview?.architecture?.patterns || [] const buildTools = specData.overview?.technology_stack?.build_tools || [] ``` #### Step 5.2: Multi-Round Questionnaire Each round uses `AskUserQuestion` with project-aware options. The user can always select "Other" to provide custom input. **CRITICAL**: After each round, collect the user's answers and convert them into guideline entries. Do NOT batch all rounds — process each round's answers before proceeding to the next. --- ##### Round 1: Coding Conventions Generate options dynamically based on detected language/framework: ```javascript // Build language-specific coding style options const codingStyleOptions = [] if (['TypeScript', 'JavaScript'].includes(primaryLang)) { codingStyleOptions.push( { label: "Strict TypeScript", description: "Use strict mode, no 'any' type, explicit return types for public APIs" }, { label: "Functional style", description: "Prefer pure functions, immutability, avoid class-based patterns where possible" }, { label: "Const over let", description: "Always use const; only use let when reassignment is truly needed" } ) } else if (primaryLang === 'Python') { codingStyleOptions.push( { label: "Type hints", description: "Use type hints for all function signatures and class attributes" }, { label: "Functional style", description: "Prefer pure functions, list comprehensions, avoid mutable state" }, { label: "PEP 8 strict", description: "Strict PEP 8 compliance with max line length 88 (Black formatter)" } ) } else if (primaryLang === 'Go') { codingStyleOptions.push( { label: "Error wrapping", description: "Always wrap errors with context using fmt.Errorf with %w" }, { label: "Interface first", description: "Define interfaces at the consumer side, not the provider" }, { label: "Table-driven tests", description: "Use table-driven test pattern for all unit tests" } ) } // Add universal options codingStyleOptions.push( { label: "Early returns", description: "Prefer early returns / guard clauses over deep nesting" } ) AskUserQuestion({ questions: [ { question: `Your project uses ${primaryLang}. Which coding style conventions do you follow?`, header: "Coding Style", multiSelect: true, options: codingStyleOptions.slice(0, 4) // Max 4 options }, { question: `What naming conventions does your ${primaryLang} project use?`, header: "Naming", multiSelect: true, options: [ { label: "camelCase variables", description: "Variables and functions use camelCase (e.g., getUserName)" }, { label: "PascalCase types", description: "Classes, interfaces, type aliases use PascalCase (e.g., UserService)" }, { label: "UPPER_SNAKE constants", description: "Constants use UPPER_SNAKE_CASE (e.g., MAX_RETRIES)" }, { label: "Prefix interfaces", description: "Prefix interfaces with 'I' (e.g., IUserService)" } ] } ] }) ``` **Process Round 1 answers** -> add to `conventions.coding_style` and `conventions.naming_patterns` arrays. --- ##### Round 2: File Structure & Documentation ```javascript AskUserQuestion({ questions: [ { question: `Your project has a ${archStyle} architecture. What file organization rules apply?`, header: "File Structure", multiSelect: true, options: [ { label: "Co-located tests", description: "Test files live next to source files (e.g., foo.ts + foo.test.ts)" }, { label: "Separate test dir", description: "Tests in a dedicated __tests__ or tests/ directory" }, { label: "One export per file", description: "Each file exports a single main component/class/function" }, { label: "Index barrels", description: "Use index.ts barrel files for clean imports from directories" } ] }, { question: "What documentation standards does your project follow?", header: "Documentation", multiSelect: true, options: [ { label: "JSDoc/docstring public APIs", description: "All public functions and classes must have JSDoc/docstrings" }, { label: "README per module", description: "Each major module/package has its own README" }, { label: "Inline comments for why", description: "Comments explain 'why', not 'what' — code should be self-documenting" }, { label: "No comment requirement", description: "Code should be self-explanatory; comments only for non-obvious logic" } ] } ] }) ``` **Process Round 2 answers** -> add to `conventions.file_structure` and `conventions.documentation`. --- ##### Round 3: Architecture & Tech Stack Constraints ```javascript // Build architecture-specific options const archOptions = [] if (archStyle.toLowerCase().includes('monolith')) { archOptions.push( { label: "No circular deps", description: "Modules must not have circular dependencies" }, { label: "Layer boundaries", description: "Strict layer separation: UI → Service → Data (no skipping layers)" } ) } else if (archStyle.toLowerCase().includes('microservice')) { archOptions.push( { label: "Service isolation", description: "Services must not share databases or internal state" }, { label: "API contracts", description: "All inter-service communication through versioned API contracts" } ) } archOptions.push( { label: "Stateless services", description: "Service/business logic must be stateless (state in DB/cache only)" }, { label: "Dependency injection", description: "Use dependency injection for testability, no hardcoded dependencies" } ) AskUserQuestion({ questions: [ { question: `Your ${archStyle} architecture uses ${archPatterns.join(', ') || 'various'} patterns. What architecture constraints apply?`, header: "Architecture", multiSelect: true, options: archOptions.slice(0, 4) }, { question: `Tech stack: ${frameworks.join(', ')}. What technology constraints apply?`, header: "Tech Stack", multiSelect: true, options: [ { label: "No new deps without review", description: "Adding new dependencies requires explicit justification and review" }, { label: "Pin dependency versions", description: "All dependencies must use exact versions, not ranges" }, { label: "Prefer native APIs", description: "Use built-in/native APIs over third-party libraries when possible" }, { label: "Framework conventions", description: `Follow official ${frameworks[0] || 'framework'} conventions and best practices` } ] } ] }) ``` **Process Round 3 answers** -> add to `constraints.architecture` and `constraints.tech_stack`. --- ##### Round 4: Performance & Security Constraints ```javascript AskUserQuestion({ questions: [ { question: "What performance requirements does your project have?", header: "Performance", multiSelect: true, options: [ { label: "API response time", description: "API endpoints must respond within 200ms (p95)" }, { label: "Bundle size limit", description: "Frontend bundle size must stay under 500KB gzipped" }, { label: "Lazy loading", description: "Large modules/routes must use lazy loading / code splitting" }, { label: "No N+1 queries", description: "Database access must avoid N+1 query patterns" } ] }, { question: "What security requirements does your project enforce?", header: "Security", multiSelect: true, options: [ { label: "Input sanitization", description: "All user input must be validated and sanitized before use" }, { label: "No secrets in code", description: "No API keys, passwords, or tokens in source code — use env vars" }, { label: "Auth on all endpoints", description: "All API endpoints require authentication unless explicitly public" }, { label: "Parameterized queries", description: "All database queries must use parameterized/prepared statements" } ] } ] }) ``` **Process Round 4 answers** -> add to `constraints.performance` and `constraints.security`. --- ##### Round 5: Quality Rules ```javascript AskUserQuestion({ questions: [ { question: `Testing with ${testFrameworks.join(', ') || 'your test framework'}. What quality rules apply?`, header: "Quality", multiSelect: true, options: [ { label: "Min test coverage", description: "Minimum 80% code coverage for new code; no merging below threshold" }, { label: "No skipped tests", description: "Tests must not be skipped (.skip/.only) in committed code" }, { label: "Lint must pass", description: "All code must pass linter checks before commit (enforced by pre-commit)" }, { label: "Type check must pass", description: "Full type checking (tsc --noEmit) must pass with zero errors" } ] } ] }) ``` **Process Round 5 answers** -> add to `quality_rules` array as `{ rule, scope, enforced_by }` objects. ### Step 6: Write specs/*.md (if not --skip-specs) For each category of collected answers, append rules to the corresponding spec MD file. Each spec file uses YAML frontmatter with `readMode`, `priority`, `category`, and `keywords`. **Category Assignment**: Based on the round and question type: - Round 1-2 (conventions): `category: general` (applies to all stages) - Round 3 (architecture/tech): `category: planning` (planning phase) - Round 4 (performance/security): `category: execution` (implementation phase) - Round 5 (quality): `category: execution` (testing phase) ```javascript // Helper: append rules to a spec MD file with category support // Uses .ccw/specs/ directory (same as frontend/backend spec-index-builder) function appendRulesToSpecFile(filePath, rules, defaultCategory = 'general') { if (rules.length === 0) return // Ensure .ccw/specs/ directory exists const specDir = path.dirname(filePath) if (!fs.existsSync(specDir)) { fs.mkdirSync(specDir, { recursive: true }) } // Check if file exists if (!file_exists(filePath)) { // Create file with frontmatter including category const frontmatter = `--- title: ${filePath.includes('conventions') ? 'Coding Conventions' : filePath.includes('constraints') ? 'Architecture Constraints' : 'Quality Rules'} readMode: optional priority: medium category: ${defaultCategory} scope: project dimension: specs keywords: [${defaultCategory}, ${filePath.includes('conventions') ? 'convention' : filePath.includes('constraints') ? 'constraint' : 'quality'}] --- # ${filePath.includes('conventions') ? 'Coding Conventions' : filePath.includes('constraints') ? 'Architecture Constraints' : 'Quality Rules'} ` Write(filePath, frontmatter) } const existing = Read(filePath) // Append new rules as markdown list items after existing content const newContent = existing.trimEnd() + '\n' + rules.map(r => `- ${r}`).join('\n') + '\n' Write(filePath, newContent) } // Write conventions (general category) - use .ccw/specs/ (same as frontend/backend) appendRulesToSpecFile('.ccw/specs/coding-conventions.md', [...newCodingStyle, ...newNamingPatterns, ...newFileStructure, ...newDocumentation], 'general') // Write constraints (planning category) appendRulesToSpecFile('.ccw/specs/architecture-constraints.md', [...newArchitecture, ...newTechStack, ...newPerformance, ...newSecurity], 'planning') // Write quality rules (execution category) if (newQualityRules.length > 0) { const qualityPath = '.ccw/specs/quality-rules.md' if (!file_exists(qualityPath)) { Write(qualityPath, `--- title: Quality Rules readMode: required priority: high category: execution scope: project dimension: specs keywords: [execution, quality, testing, coverage, lint] --- # Quality Rules `) } appendRulesToSpecFile(qualityPath, newQualityRules.map(q => `${q.rule} (scope: ${q.scope}, enforced by: ${q.enforced_by})`), 'execution') } // Rebuild spec index after writing Bash('ccw spec rebuild') ``` #### Answer Processing Rules When converting user selections to guideline entries: 1. **Selected option** -> Use the option's `description` as the guideline string (it's more precise than the label) 2. **"Other" with custom text** -> Use the user's text directly as the guideline string 3. **Deduplication** -> Skip entries that already exist in the guidelines (exact string match) 4. **Quality rules** -> Convert to `{ rule: description, scope: "all", enforced_by: "code-review" }` format ### Step 7: Display Summary ```javascript const projectTech = JSON.parse(Read('.workflow/project-tech.json')); if (skipSpecs) { // Minimal summary for --skip-specs mode console.log(` Project initialized successfully (tech analysis only) ## Project Overview Name: ${projectTech.project_name} Description: ${projectTech.overview.description} ### Technology Stack Languages: ${projectTech.overview.technology_stack.languages.map(l => l.name).join(', ')} Frameworks: ${projectTech.overview.technology_stack.frameworks.join(', ')} ### Architecture Style: ${projectTech.overview.architecture.style} Components: ${projectTech.overview.key_components.length} core modules --- Files created: - Tech analysis: .workflow/project-tech.json - Specs: (skipped via --skip-specs) ${regenerate ? '- Backup: .workflow/project-tech.json.backup' : ''} Next steps: - Use /workflow:spec:setup (without --skip-specs) to configure guidelines - Use /workflow:spec:add to create individual specs - Use workflow-plan skill to start planning `); } else { // Full summary with guidelines stats const countConventions = newCodingStyle.length + newNamingPatterns.length + newFileStructure.length + newDocumentation.length const countConstraints = newArchitecture.length + newTechStack.length + newPerformance.length + newSecurity.length const countQuality = newQualityRules.length // Get updated spec list const specsList = Bash('ccw spec list --json 2>/dev/null || echo "{}"') console.log(` Project initialized and guidelines configured ## Project Overview Name: ${projectTech.project_name} Description: ${projectTech.overview.description} ### Technology Stack Languages: ${projectTech.overview.technology_stack.languages.map(l => l.name).join(', ')} Frameworks: ${projectTech.overview.technology_stack.frameworks.join(', ')} ### Architecture Style: ${projectTech.overview.architecture.style} Components: ${projectTech.overview.key_components.length} core modules ### Guidelines Summary - Conventions: ${countConventions} rules added to coding-conventions.md - Constraints: ${countConstraints} rules added to architecture-constraints.md - Quality rules: ${countQuality} rules added to quality-rules.md Spec index rebuilt. Use \`ccw spec list\` to view all specs. --- Files created: - Tech analysis: .workflow/project-tech.json - Specs: .ccw/specs/ (configured) ${regenerate ? '- Backup: .workflow/project-tech.json.backup' : ''} Next steps: - Use /workflow:spec:add to add individual rules later - Specs are auto-loaded via hook on each prompt - Use workflow-plan skill to start planning `); } ``` ## Error Handling **Agent Failure**: Fall back to basic initialization with placeholder overview **Missing Tools**: Agent uses Qwen fallback or bash-only **Empty Project**: Create minimal JSON with all gaps identified **No project-tech.json** (when --reset without prior init): Run full flow from Step 2 **User cancels mid-wizard**: Save whatever was collected so far (partial is better than nothing) **File write failure**: Report error, suggest manual edit ## Related Commands - `/workflow:spec:add` - Interactive wizard to create individual specs with scope selection - `/workflow:session:sync` - Quick-sync session work to specs and project-tech - `workflow-plan` skill - Start planning with initialized project context - `/workflow:status --project` - View project state and guidelines