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TenantAtlas/.github/agents/speckit.implement.agent.md
ahmido e35706b846 Spec 324: add UI productization coverage guardrails (#384) 
## Summary
- add the Spec 324 package for UI Productization Coverage Guardrails, including spec, plan, tasks, and requirements checklist
- update Spec Kit templates and implementation prompts so future work must record UI surface impact, including navigation and Filament panel/provider surfaces
- harden the UI productization coverage guard script and add the validation helper for lightweight guard execution
- document the proportional guardrail flow in the UI/UX enterprise audit README

## Validation
- not run in this step
- change set is docs/tooling/governance only; no product runtime implementation included

Co-authored-by: Ahmed Darrazi <ahmed.darrazi@live.de>
Reviewed-on: #384
2026-05-17 19:01:48 +00:00

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description
Execute the implementation plan by processing and executing all tasks defined in tasks.md

User Input

$ARGUMENTS

You MUST consider the user input before proceeding (if not empty).

Outline

  1. Run .specify/scripts/bash/check-prerequisites.sh --json --require-tasks --include-tasks from repo root and parse FEATURE_DIR and AVAILABLE_DOCS list. All paths must be absolute. For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'''m Groot' (or double-quote if possible: "I'm Groot").

  2. Check checklists status (if FEATURE_DIR/checklists/ exists):

    • Scan all checklist files in the checklists/ directory

    • For each checklist, count:

      • Total items: All lines matching - [ ] or - [X] or - [x]
      • Completed items: Lines matching - [X] or - [x]
      • Incomplete items: Lines matching - [ ]

    • Create a status table:

      | Checklist | Total | Completed | Incomplete | Status |
|-----------|-------|-----------|------------|--------|
| ux.md     | 12    | 12        | 0          | ✓ PASS |
| test.md   | 8     | 5         | 3          | ✗ FAIL |
| security.md | 6   | 6         | 0          | ✓ PASS |

    • Calculate overall status:

      • PASS: All checklists have 0 incomplete items
      • FAIL: One or more checklists have incomplete items

    • If any checklist is incomplete:

      • Display the table with incomplete item counts
      • STOP and ask: "Some checklists are incomplete. Do you want to proceed with implementation anyway? (yes/no)"
      • Wait for user response before continuing
      • If user says "no" or "wait" or "stop", halt execution
      • If user says "yes" or "proceed" or "continue", proceed to step 3

    • If all checklists are complete:

      • Display the table showing all checklists passed
      • Automatically proceed to step 3

  3. Load and analyze the implementation context:

    • REQUIRED: Read tasks.md for the complete task list and execution plan
    • REQUIRED: Read plan.md for tech stack, architecture, and file structure
    • IF EXISTS: Read data-model.md for entities and relationships
    • IF EXISTS: Read contracts/ for API specifications and test requirements
    • IF EXISTS: Read research.md for technical decisions and constraints
    • IF EXISTS: Read quickstart.md for integration scenarios

  4. UI/Productization Coverage Guardrail:

    • Before implementing, determine whether this spec adds, removes, renames, or materially changes any reachable UI surface.
    • A UI surface includes pages, routes, navigation entries, navigation support code, Filament panel/provider surfaces, Livewire surfaces, Blade views, tables, forms, modals, drawers, wizard steps, actions, dangerous-action confirmations, empty/loading/error states, status/evidence/review presentation, customer-facing views, workspace/environment context presentation, and operator workflow surfaces.
    • If UI is affected:
      • update the UI/UX audit inventory under docs/ui-ux-enterprise-audit/
      • assign page archetype
      • assign design depth
      • assign repo-truth level
      • link to an existing pattern or document the missing pattern/mockup need
      • review customer-safe and dangerous-action implications where applicable
      • update the coverage matrix or unresolved/manual-review ledger
    • If no reachable UI surface is affected, ensure the active spec contains exactly - [x] No UI surface impact with a short rationale.
    • Keep coverage proportional: small non-material UI changes, backend-only work, docs-only work, tooling-only work, and test-only work may use a checked no-impact rationale; strategic, customer-facing, dangerous-action-bearing, or materially new surfaces may require screenshots or page reports.
    • Re-check this decision before completion so implementation drift does not leave a changed reachable surface unclassified.
    • Do not mark the spec complete if a new or changed reachable UI surface remains unclassified.

  5. Project Setup Verification:

    • REQUIRED: Create/verify ignore files based on actual project setup:

    Detection & Creation Logic:

    • Check if the following command succeeds to determine if the repository is a git repo (create/verify .gitignore if so):

      git rev-parse --git-dir 2>/dev/null

    • Check if Dockerfile* exists or Docker in plan.md → create/verify .dockerignore

    • Check if .eslintrc* exists → create/verify .eslintignore

    • Check if eslint.config.* exists → ensure the config's ignores entries cover required patterns

    • Check if .prettierrc* exists → create/verify .prettierignore

    • Check if .npmrc or package.json exists → create/verify .npmignore (if publishing)

    • Check if terraform files (*.tf) exist → create/verify .terraformignore

    • Check if .helmignore needed (helm charts present) → create/verify .helmignore

    If ignore file already exists: Verify it contains essential patterns, append missing critical patterns only If ignore file missing: Create with full pattern set for detected technology

    Common Patterns by Technology (from plan.md tech stack):

    • Node.js/JavaScript/TypeScript: node_modules/, dist/, build/, *.log, .env*
    • Python: __pycache__/, *.pyc, .venv/, venv/, dist/, *.egg-info/
    • Java: target/, *.class, *.jar, .gradle/, build/
    • C#/.NET: bin/, obj/, *.user, *.suo, packages/
    • Go: *.exe, *.test, vendor/, *.out
    • Ruby: .bundle/, log/, tmp/, *.gem, vendor/bundle/
    • PHP: vendor/, *.log, *.cache, *.env
    • Rust: target/, debug/, release/, *.rs.bk, *.rlib, *.prof*, .idea/, *.log, .env*
    • Kotlin: build/, out/, .gradle/, .idea/, *.class, *.jar, *.iml, *.log, .env*
    • C++: build/, bin/, obj/, out/, *.o, *.so, *.a, *.exe, *.dll, .idea/, *.log, .env*
    • C: build/, bin/, obj/, out/, *.o, *.a, *.so, *.exe, Makefile, config.log, .idea/, *.log, .env*
    • Swift: .build/, DerivedData/, *.swiftpm/, Packages/
    • R: .Rproj.user/, .Rhistory, .RData, .Ruserdata, *.Rproj, packrat/, renv/
    • Universal: .DS_Store, Thumbs.db, *.tmp, *.swp, .vscode/, .idea/

    Tool-Specific Patterns:

    • Docker: node_modules/, .git/, Dockerfile*, .dockerignore, *.log*, .env*, coverage/
    • ESLint: node_modules/, dist/, build/, coverage/, *.min.js
    • Prettier: node_modules/, dist/, build/, coverage/, package-lock.json, yarn.lock, pnpm-lock.yaml
    • Terraform: .terraform/, *.tfstate*, *.tfvars, .terraform.lock.hcl
    • Kubernetes/k8s: *.secret.yaml, secrets/, .kube/, kubeconfig*, *.key, *.crt

  6. Parse tasks.md structure and extract:

    • Task phases: Setup, Tests, Core, Integration, Polish
    • Task dependencies: Sequential vs parallel execution rules
    • Task details: ID, description, file paths, parallel markers [P]
    • Execution flow: Order and dependency requirements

  7. Execute implementation following the task plan:

    • Phase-by-phase execution: Complete each phase before moving to the next
    • Respect dependencies: Run sequential tasks in order, parallel tasks [P] can run together
    • Follow TDD approach: Execute test tasks before their corresponding implementation tasks
    • File-based coordination: Tasks affecting the same files must run sequentially
    • Validation checkpoints: Verify each phase completion before proceeding

  8. Implementation execution rules:

    • Setup first: Initialize project structure, dependencies, configuration
    • Tests before code: If you need to write tests for contracts, entities, and integration scenarios
    • Core development: Implement models, services, CLI commands, endpoints
    • Integration work: Database connections, middleware, logging, external services
    • Polish and validation: Unit tests, performance optimization, documentation

  9. Progress tracking and error handling:

    • Report progress after each completed task
    • Halt execution if any non-parallel task fails
    • For parallel tasks [P], continue with successful tasks, report failed ones
    • Provide clear error messages with context for debugging
    • Suggest next steps if implementation cannot proceed
    • IMPORTANT For completed tasks, make sure to mark the task off as [X] in the tasks file.

  10. Completion validation:

  • Verify all required tasks are completed
  • Check that implemented features match the original specification
  • Validate that tests pass and coverage meets requirements
  • Confirm the implementation follows the technical plan
  • Report final status with summary of completed work

Note: This command assumes a complete task breakdown exists in tasks.md. If tasks are incomplete or missing, suggest running /speckit.tasks first to regenerate the task list.