--- name: init-guidelines description: Interactive wizard to fill project-guidelines.json based on project analysis argument-hint: "[--reset]" examples: - /workflow:init-guidelines - /workflow:init-guidelines --reset --- # Workflow Init Guidelines Command (/workflow:init-guidelines) ## Overview Interactive multi-round wizard that analyzes the current project (via `project-tech.json`) and asks targeted questions to populate `.workflow/project-guidelines.json` with coding conventions, constraints, and quality rules. **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 `/workflow:init` after initialization. Upon completion, return to the calling workflow if applicable. ## Usage ```bash /workflow:init-guidelines # Fill guidelines interactively (skip if already populated) /workflow:init-guidelines --reset # Reset and re-fill guidelines from scratch ``` ## Execution Process ``` Input Parsing: └─ Parse --reset flag → reset = true | false Step 1: Check Prerequisites ├─ project-tech.json must exist (run /workflow:init first) ├─ project-guidelines.json: check if populated or scaffold-only └─ If populated + no --reset → Ask: "Guidelines already exist. Overwrite or append?" Step 2: Load Project Context └─ Read project-tech.json → extract tech stack, architecture, patterns Step 3: Multi-Round Interactive Questionnaire ├─ 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 4: Write project-guidelines.json Step 5: Display Summary ``` ## Implementation ### Step 1: Check Prerequisites ```bash bash(test -f .workflow/project-tech.json && echo "TECH_EXISTS" || echo "TECH_NOT_FOUND") bash(test -f .workflow/project-guidelines.json && echo "GUIDELINES_EXISTS" || echo "GUIDELINES_NOT_FOUND") ``` **If TECH_NOT_FOUND**: Exit with message ``` Project tech analysis not found. Run /workflow:init first. ``` **Parse --reset flag**: ```javascript const reset = $ARGUMENTS.includes('--reset') ``` **If GUIDELINES_EXISTS and not --reset**: Check if guidelines are populated (not just scaffold) ```javascript const guidelines = JSON.parse(Read('.workflow/project-guidelines.json')) const isPopulated = guidelines.conventions.coding_style.length > 0 || guidelines.conventions.naming_patterns.length > 0 || guidelines.constraints.architecture.length > 0 || guidelines.constraints.tech_stack.length > 0 if (isPopulated) { 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 } ``` ### Step 2: Load Project Context ```javascript const projectTech = JSON.parse(Read('.workflow/project-tech.json')) // Extract key info for generating smart questions const languages = projectTech.technology_analysis?.technology_stack?.languages || projectTech.overview?.technology_stack?.languages || [] const primaryLang = languages.find(l => l.primary)?.name || languages[0]?.name || 'Unknown' const frameworks = projectTech.technology_analysis?.technology_stack?.frameworks || projectTech.overview?.technology_stack?.frameworks || [] const testFrameworks = projectTech.technology_analysis?.technology_stack?.test_frameworks || projectTech.overview?.technology_stack?.test_frameworks || [] const archStyle = projectTech.technology_analysis?.architecture?.style || projectTech.overview?.architecture?.style || 'Unknown' const archPatterns = projectTech.technology_analysis?.architecture?.patterns || projectTech.overview?.architecture?.patterns || [] const buildTools = projectTech.technology_analysis?.technology_stack?.build_tools || projectTech.overview?.technology_stack?.build_tools || [] ``` ### Step 3: Multi-Round Interactive 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 4: Write project-guidelines.json ```javascript // Build the final guidelines object const finalGuidelines = { conventions: { coding_style: existingCodingStyle.concat(newCodingStyle), naming_patterns: existingNamingPatterns.concat(newNamingPatterns), file_structure: existingFileStructure.concat(newFileStructure), documentation: existingDocumentation.concat(newDocumentation) }, constraints: { architecture: existingArchitecture.concat(newArchitecture), tech_stack: existingTechStack.concat(newTechStack), performance: existingPerformance.concat(newPerformance), security: existingSecurity.concat(newSecurity) }, quality_rules: existingQualityRules.concat(newQualityRules), learnings: existingLearnings, // Preserve existing learnings _metadata: { created_at: existingMetadata?.created_at || new Date().toISOString(), version: "1.0.0", last_updated: new Date().toISOString(), updated_by: "workflow:init-guidelines" } } Write('.workflow/project-guidelines.json', JSON.stringify(finalGuidelines, null, 2)) ``` ### Step 5: Display Summary ```javascript const countConventions = finalGuidelines.conventions.coding_style.length + finalGuidelines.conventions.naming_patterns.length + finalGuidelines.conventions.file_structure.length + finalGuidelines.conventions.documentation.length const countConstraints = finalGuidelines.constraints.architecture.length + finalGuidelines.constraints.tech_stack.length + finalGuidelines.constraints.performance.length + finalGuidelines.constraints.security.length const countQuality = finalGuidelines.quality_rules.length console.log(` ✓ Project guidelines configured ## Summary - Conventions: ${countConventions} rules (coding: ${cs}, naming: ${np}, files: ${fs}, docs: ${doc}) - Constraints: ${countConstraints} rules (arch: ${ar}, tech: ${ts}, perf: ${pf}, security: ${sc}) - Quality rules: ${countQuality} File: .workflow/project-guidelines.json Next steps: - Use /workflow:session:solidify to add individual rules later - Guidelines will be auto-loaded by /workflow:plan for task generation `) ``` ## 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 ## Error Handling - **No project-tech.json**: Exit with instruction to run `/workflow:init` first - **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:init` - Creates scaffold; optionally calls this command - `/workflow:session:solidify` - Add individual rules one at a time