From claude-code-settings
Guides feature development from idea to implementation: creates EARS requirements, design documents, and task lists in .kiro/specs/.
How this skill is triggered — by the user, by Claude, or both
Slash command
/claude-code-settings:kiro-skillThis skill is limited to the following tools:
The summary Claude sees in its skill listing — used to decide when to auto-load this skill
An interactive workflow that transforms ideas into comprehensive feature specifications, design documents, and actionable implementation plans.
An interactive workflow that transforms ideas into comprehensive feature specifications, design documents, and actionable implementation plans.
When you mention creating a feature spec, design document, or implementation plan, this skill helps guide you through:
Storage: Creates files in .kiro/specs/{feature-name}/ directory (kebab-case naming)
Kiro is your coding partner - knowledgeable but not instructive, supportive not authoritative.
Tone:
Code Philosophy:
Language: Reply in user's preferred language when possible
Transform a rough idea into structured requirements with user stories and EARS acceptance criteria.
Generate Initial Requirements
.kiro/specs/{feature-name}/requirements.mdRequirements Structure
# Requirements Document
## Introduction
[Feature summary - what problem does this solve?]
## Requirements
### Requirement 1
**User Story:** As a [role], I want [feature], so that [benefit]
#### Acceptance Criteria
1. WHEN [event] THEN [system] SHALL [response]
2. IF [precondition] THEN [system] SHALL [response]
3. WHEN [event] AND [condition] THEN [system] SHALL [response]
### Requirement 2
**User Story:** As a [role], I want [feature], so that [benefit]
#### Acceptance Criteria
1. WHEN [event] THEN [system] SHALL [response]
Easy Approach to Requirements Syntax - structured acceptance criteria:
WHEN [event] THEN [system] SHALL [response] - Event-drivenIF [condition] THEN [system] SHALL [response] - ConditionalWHILE [state] [system] SHALL [response] - State-drivenWHERE [feature] [system] SHALL [response] - Ubiquitous[system] SHALL [response] - UnconditionalIf clarification stalls:
Create comprehensive design document based on approved requirements, conducting research during the design process.
.kiro/specs/{feature-name}/requirements.mdIdentify Research Needs
Conduct Research
Create .kiro/specs/{feature-name}/design.md with:
Overview
Architecture
Components and Interfaces
Data Models
Error Handling
Testing Strategy
# Feature Design
## Overview
[High-level approach and key decisions]
## Architecture
```mermaid
graph TD
A[Component A] --> B[Component B]
B --> C[Component C]
interface UserModel {
id: string;
email: string;
role: UserRole;
}
[Continue with other sections...]
If design becomes too complex:
Convert approved design into actionable, test-driven implementation tasks.
Core Principle: Convert design into prompts for code-generation LLM to implement each step in test-driven manner.
Focus:
Exclude:
Create .kiro/specs/{feature-name}/tasks.md with:
# Implementation Plan
- [ ] 1. Set up project structure and core interfaces
- Create directory structure for models, services, repositories
- Define interfaces that establish system boundaries
- _Requirements: 1.1_
- [ ] 2. Implement data models and validation
- [ ] 2.1 Create core data model interfaces and types
- Write TypeScript interfaces for all data models
- Implement validation functions for data integrity
- _Requirements: 2.1, 3.3, 1.2_
- [ ] 2.2 Implement User model with validation
- Write User class with validation methods
- Create unit tests for User model validation
- _Requirements: 1.2_
- [ ] 3. Create storage mechanism
- [ ] 3.1 Implement database connection utilities
- Write connection management code
- Create error handling utilities
- _Requirements: 2.1, 3.3_
[Additional tasks...]
Structure:
Each Task Must Include:
Quality Standards:
Important: This workflow is ONLY for creating planning artifacts.
Implement specific tasks from the feature specification with precision and focus.
ALWAYS read spec files first:
.kiro/specs/{feature-name}/requirements.md.kiro/specs/{feature-name}/design.md.kiro/specs/{feature-name}/tasks.mdNever execute tasks without understanding full context.
Task Selection
Implementation
Completion Protocol
For implementation requests:
For information requests:
stateDiagram-v2
[*] --> Requirements
Requirements --> ReviewReq : Complete
ReviewReq --> Requirements : Changes
ReviewReq --> Design : Approved
Design --> ReviewDesign : Complete
ReviewDesign --> Design : Changes
ReviewDesign --> Tasks : Approved
Tasks --> ReviewTasks : Complete
ReviewTasks --> Tasks : Changes
ReviewTasks --> [*] : Approved
Execute : Execute Single Task
[*] --> Execute : Task Request
Execute --> [*] : Complete
Determine current state by checking:
# Check for .kiro directory
if [ -d ".kiro/specs" ]; then
# List features
ls .kiro/specs/
# For specific feature, check phase
FEATURE="$1"
if [ -f ".kiro/specs/$FEATURE/requirements.md" ]; then
echo "Requirements exists"
fi
if [ -f ".kiro/specs/$FEATURE/design.md" ]; then
echo "Design exists"
fi
if [ -f ".kiro/specs/$FEATURE/tasks.md" ]; then
echo "Tasks exists - ready for execution"
fi
fi
Kiro provides a structured, iterative approach to feature development:
Each phase requires explicit user approval before proceeding, ensuring alignment and quality throughout the development process.
For additional context and reference:
npx claudepluginhub mvandermeulen/claude-code-settings7plugins reuse this skill
First indexed Jul 8, 2026
Showing the 6 earliest of 7 plugins
Guides feature development from idea to implementation by creating structured requirements (EARS format), design documents, and actionable task lists.
Generates detailed product specifications from minimal input using EARS notation, Mermaid diagrams, and TypeScript interfaces. Trigger via 'write a spec', 'define requirements', or 'create functional spec'.
Orchestrates spec-driven development workflow (Requirements → Design → Tasks → Implementation) with approval gates. Activates for structured feature planning or 'use spec-driven'.