shep-kit-new-feature-fast

name: shep-kit:new-feature-fast description: Fast-track feature creation that collapses new-feature, research, and planning into a single autonomous pass. Produces all spec YAMLs (spec, research, plan, tasks, feature) in one go with minimal user interaction. Triggers include "quick feature", "fast feature", "rapid spec", or explicit /shep-kit:new-feature-fast invocation. Part of the Shep autonomous SDLC platform — https://shep.bot metadata: version: '1.0.0' author: Shep AI (https://shep.bot) homepage: https://shep.bot repository: https://github.com/shep-ai/shep

Fast-Track Feature Specification

Collapse the full new-feature → research → plan pipeline into a single autonomous pass. Produces all the same YAML artifacts as the full pipeline but with minimal user interaction (0-2 clarifying questions max).

Full workflow guide: docs/development/spec-driven-workflow.md

When to Use

• Feature scope is well-understood from the one-liner description
• You want to skip the multi-step interactive flow
• You want to get to implementation quickly

When NOT to Use

• Highly ambiguous features requiring extensive discovery
• Features with many open questions or unknowns
• When you specifically need deep library evaluation with benchmarks

Input

The user provides a feature description inline:

/shep-kit:new-feature-fast add unit tests to backend services

If no description is provided, ask for a one-liner description. That is the only mandatory question.

Workflow

Phase 1: Scaffold

1.1 Derive Feature Name

Extract a kebab-case feature name from the user's description. Do NOT ask — infer it.

Examples:

• "add unit tests to backend" → backend-unit-tests
• "implement dark mode toggle" → dark-mode-toggle
• "fix memory leak in agent runner" → agent-runner-memory-fix

1.2 Create Branch & Directory

# Determine next spec number
NEXT_NUM=$(ls -d specs/[0-9][0-9][0-9]-* 2>/dev/null | sort | tail -1 | grep -oP '^\d{3}' | xargs -I{} printf "%03d" $(({} + 1)))
# If no specs exist, use 001
[ -z "$NEXT_NUM" ] && NEXT_NUM="001"

FEATURE_NAME="<derived-kebab-case>"

# Create branch from main
git checkout main && git pull
git checkout -b "feat/${NEXT_NUM}-${FEATURE_NAME}"

# Run scaffolding (creates all template files)
.claude/skills/shep-kit-new-feature/scripts/init-feature.sh "$NEXT_NUM" "$FEATURE_NAME"

This reuses the existing init script — same templates, same directory structure.

Phase 2: Deep Analysis (Silent)

Before writing any YAML, perform thorough codebase analysis. This is the foundation for ALL subsequent YAML files. Do NOT show analysis to user — go straight to writing.

Analyze:

• Architecture: Read CLAUDE.md, AGENTS.md, key source directories
• Existing specs: Read specs/*/spec.yaml for dependencies and landscape
• Affected code: Identify files, modules, patterns relevant to the feature
• Testing patterns: Check existing test structure, frameworks, conventions
• Domain models: Check TypeSpec definitions if relevant (tsp/)

Clarifying Questions (0-2 max)

After analysis, if something is genuinely ambiguous and would lead to a fundamentally different spec, ask at most 1-2 quick questions. Use AskUserQuestion with concrete options inferred from the codebase.

Do NOT ask about:

• Things you can infer from codebase analysis
• Style/naming preferences (follow existing conventions)
• Technology choices that are already decided by the stack

Examples of valid questions:

• "Should this cover only unit tests or also integration tests?" (scope ambiguity)
• "Should this target the agent system or the CLI layer?" (area ambiguity)

Phase 3: Write All YAMLs

Write all YAML files in sequence. Each file should be concise but complete — no placeholder values, no {{TEMPLATE}} markers, no TBD entries.

3.1 Write spec.yaml

Fill in ALL fields with real values:

• name, number, branch, oneLiner, summary — from user input + analysis
• phase: Requirements
• sizeEstimate — inferred from scope (S/M/L/XL)
• relatedFeatures — from scanning existing specs
• technologies — from codebase analysis
• openQuestions: [] — MUST be empty (resolve everything inline)
• content section with:
  • Problem Statement — concise, from user description
  • Success Criteria — 3-6 measurable criteria
  • Affected Areas — table with area, impact level, reasoning
  • Dependencies — on other features or external systems
  • Size Estimate — with reasoning

3.2 Write research.yaml

Fill in ALL fields:

• summary — one-line research summary
• decisions[] — each with title, chosen, rejected[], rationale
• technologies — libraries/tools involved
• openQuestions: [] — MUST be empty
• content section with:
  • Technology Decisions — each decision with options considered, chosen, rationale
  • Library Analysis — table if new libraries are involved (skip if using existing stack only)
  • Security Considerations — or "No security implications identified"
  • Performance Implications — or "No performance implications identified"

Keep it focused: If the feature uses only existing stack/patterns, the research section can be brief. Don't fabricate decisions where none exist.

3.3 Write plan.yaml

Fill in ALL fields:

• phases[] — each with id, name, parallel, taskIds
• filesToCreate[] — new files with paths
• filesToModify[] — existing files to change
• openQuestions: [] — MUST be empty
• content section with:
  • Architecture Overview — ASCII diagram or description of how components connect
  • Implementation Strategy — high-level walkthrough of phases and their ordering rationale
  • Files to Create/Modify — tables
  • Testing Strategy (TDD: Tests FIRST) — what tests at each layer
  • Risk Mitigation — table of risks and mitigations

MANDATORY TDD: Every implementation phase with executable code MUST define RED-GREEN-REFACTOR cycles.

NO duplication with tasks.yaml: plan.yaml covers architecture and strategy. Task-level detail lives only in tasks.yaml.

3.4 Write tasks.yaml

Fill in ALL fields:

• tasks[] — each task with:
  • id — task-1, task-2, etc.
  • title — clear, actionable title
  • description — what this task accomplishes
  • state: Todo
  • dependencies[] — task IDs this depends on
  • acceptanceCriteria[] — specific, verifiable criteria
  • tdd — for implementation tasks:
    • red[] — tests to write first
    • green[] — minimal implementation
    • refactor[] — cleanup steps
  • tdd: null — for foundational/config tasks without tests
  • estimatedEffort — S/M/L
• totalEstimate — overall effort
• openQuestions: []
• content section — brief summary + acceptance checklist only

3.5 Update feature.yaml

Update to reflect planning-complete state:

feature:
  id: '<FEATURE_ID>'
  name: '<FEATURE_NAME>'
  number: <NUMBER>
  branch: 'feat/<NNN>-<FEATURE_NAME>'
  lifecycle: 'implementation'
  createdAt: '<TIMESTAMP>'

status:
  phase: 'ready-to-implement'
  progress:
    completed: 0
    total: <task_count> # count from tasks.yaml tasks[] array
    percentage: 0
  currentTask: null
  lastUpdated: '<TIMESTAMP>'
  lastUpdatedBy: 'shep-kit:new-feature-fast'

validation:
  lastRun: null
  gatesPassed: []
  autoFixesApplied: []

tasks:
  current: null
  blocked: []
  failed: []

checkpoints:
  - phase: 'feature-created'
    completedAt: '<TIMESTAMP>'
    completedBy: 'shep-kit:new-feature-fast'
  - phase: 'research-complete'
    completedAt: '<TIMESTAMP>'
    completedBy: 'shep-kit:new-feature-fast'
  - phase: 'plan-complete'
    completedAt: '<TIMESTAMP>'
    completedBy: 'shep-kit:new-feature-fast'

errors:
  current: null
  history: []

Phase 4: Commit

# Stage and commit everything
git add specs/<NNN>-<FEATURE_NAME>/
git commit -m "feat(specs): add <NNN>-<FEATURE_NAME> fast-track specification"

Phase 5: Summary & Next Steps

Display a concise summary:

Fast-track spec complete for <NNN>-<FEATURE_NAME>!

Artifacts created:
  - spec.yaml     — requirements & success criteria
  - research.yaml — technical decisions
  - plan.yaml     — architecture & TDD phases
  - tasks.yaml    — <N> tasks across <M> phases
  - feature.yaml  — ready-to-implement

Branch: feat/<NNN>-<FEATURE_NAME>

Then ask the user:

Continue to /shep-kit:implement to start autonomous implementation?

• If yes: invoke /shep-kit:implement
• If no: stop here, user reviews first

Quality Requirements

Even though this is "fast", the output MUST meet these standards:

1. No placeholders — every field has a real, inferred value
2. No open questions — all openQuestions arrays are empty []
3. TDD cycles defined — every implementation task has red/green/refactor
4. Acceptance criteria — every task has specific, verifiable criteria
5. Dependencies mapped — task dependencies and feature relationships identified
6. Files identified — filesToCreate and filesToModify are populated
7. Consistent — task IDs in tasks.yaml match taskIds in plan.yaml phases

What This Skill Does NOT Do

• Skip TDD requirements (still mandatory)
• Produce lower-quality specs (same schema, same required fields)
• Replace the full pipeline for complex/ambiguous features
• Run implementation (that's /shep-kit:implement)

Key Differences from Full Pipeline

Template & Script Reuse

This skill reuses assets from shep-kit:new-feature:

• Init script: .claude/skills/shep-kit-new-feature/scripts/init-feature.sh
• Templates: .claude/skills/shep-kit-new-feature/templates/ No additional templates or scripts needed.