---

name: rpi description: Use when implementing features from Jira tickets, PRDs, or user requirements. Orchestrates Research-Plan-Implement workflow with quality gates for hallucination, overengineering, and underengineering detection.

RPI - Research, Plan, Implement (Orchestrator)

Full workflow orchestrator that invokes individual skills in sequence with quality gates.

┌─────────────────────────────────────────────────────────────────────────────┐
│                           RPI WORKFLOW                                       │
├─────────────────────────────────────────────────────────────────────────────┤
│                                                                             │
│   INPUT              RESEARCH           AUDIT            PLAN               │
│  ┌──────┐           ┌──────┐          ┌──────┐         ┌──────┐            │
│  │ Jira │──────────▶│      │─────────▶│      │────────▶│      │            │
│  │ PRD  │           │      │  PASS?   │      │  PASS?  │      │            │
│  │Prompt│           │      │          │      │         │      │            │
│  └──────┘           └──────┘          └──────┘         └──────┘            │
│                         │                                  │                │
│                         ▼                                  ▼                │
│                    research.md                         plan.md              │
│                                                                             │
│                     AUDIT             IMPLEMENT         REVIEW              │
│                    ┌──────┐          ┌──────┐         ┌──────┐             │
│               ────▶│      │─────────▶│      │────────▶│      │             │
│                    │      │  PASS?   │      │         │      │             │
│                    │      │          │      │         │      │             │
│                    └──────┘          └──────┘         └──────┘             │
│                                          │                │                 │
│                                          ▼                ▼                 │
│                                       CODE            APPROVED              │
│                                                                             │
└─────────────────────────────────────────────────────────────────────────────┘

---

Agent Compatibility

• OUTPUT_DIR: .claude/output for Claude Code, .codex/output for Codex CLI.
• Slash commands like /rpi and "Use Skill tool" are Claude Code syntax; in Codex CLI, invoke the skill by name in the prompt.
• TodoWrite: use the tool in Claude Code; in Codex CLI, use update_plan or a simple checklist.

When to Use

Use this skill when:

• User provides a Jira issue key (e.g., KB-1234)
• User provides a Confluence PRD URL
• User describes a feature to implement
• User says "implement", "build", "create feature", or similar

---

Workflow - Skill Invocations

The RPI orchestrator invokes individual skills in sequence:

/rpi {input}
    │
    ├── Step 0: Create Session (automatic)
    │   └── Generate session ID: rpi-{feature}-{YYYYMMDD}-{hash}
    │   └── Initialize session tracking
    │
    ├── Step 1: Invoke /research {input}
    │   └── Output: research-{feature}.md
    │
    ├── Step 2: Invoke /audit research
    │   └── Gate: Confidence ≥60%, Hallucination ≤20%
    │   └── If FAIL: Stop and request clarification
    │
    ├── Step 3: Invoke /plan
    │   └── Output: plan-{feature}.md
    │
    ├── Step 4: Invoke /audit plan
    │   └── Gate: Traceability 100%, Balance ≥70%
    │   └── If FAIL: Revise plan
    │
    ├── Step 5: User Approval
    │   └── Present plan summary
    │   └── Wait for explicit approval
    │
    ├── Step 6: Invoke /implement
    │   └── Output: Code changes
    │
    └── Step 7: Invoke /code-review
        └── Output: Review with P0/P1/P2 findings

---

Instructions

Step 0: Session Creation (MANDATORY - DO THIS FIRST)

CRITICAL: You MUST execute these steps BEFORE any other processing. Do NOT skip this step.

If --session resume {id} is passed, skip to "Resume Existing Session" below. Otherwise, create a new session:

0.1 Parse Input & Generate Session ID

First, derive the feature name from the input:

• Jira key (e.g., KB-1234) → feature = kb-1234 (lowercase)
• Confluence URL → feature = sanitized page title (lowercase, spaces to hyphens)
• Direct prompt → feature = short slug (e.g., "export-feature", max 30 chars)

Then generate a 6-character random hash and create the session ID:

rpi-{feature-slug}-{YYYYMMDD}-{6-char-hash}

Example: rpi-kb-1234-20260104-a1b2c3

0.2 Create Session Directory

Use the Bash tool:

mkdir -p ~/.claude/sessions/{session-id}

0.3 Create session.json

Use the Write tool to create ~/.claude/sessions/{session-id}/session.json with this content (replace placeholders):

{
  "id": "{session-id}",
  "version": "1.0",
  "created_at": "{current ISO timestamp}",
  "updated_at": "{current ISO timestamp}",
  "agent": "claude-code",
  "input": {
    "type": "{jira|confluence|prompt}",
    "source": "{original input}",
    "feature_name": "{feature-slug}"
  },
  "phase": {
    "current": "research",
    "research": { "status": "pending" },
    "plan": { "status": "pending" },
    "implement": { "status": "pending", "current_task": null, "tasks_completed": [], "tasks_remaining": [] },
    "review": { "status": "pending" }
  },
  "progress": {
    "percentage": 0,
    "tasks_total": 0,
    "tasks_done": 0,
    "quality_gates": {
      "research_audit": { "passed": null, "score": null },
      "plan_audit": { "passed": null, "score": null },
      "code_review": { "passed": null, "score": null }
    }
  },
  "artifacts": {},
  "context": { "key_decisions": [], "blockers": [], "notes": "" },
  "continuation": {
    "last_action": "Session created",
    "next_action": "Start research phase",
    "resume_prompt": "Continue RPI session {session-id}. Phase: research. Progress: 0%"
  }
}

0.4 Update Session Registry

Use the Read tool to read ~/.claude/sessions/index.json.

Use the Edit tool to update it:

1. Add "{session-id}" to the sessions array
2. Set active_session to "{session-id}"

If index.json doesn't exist, use the Write tool to create it:

{
  "version": "1.0",
  "sessions": ["{session-id}"],
  "active_session": "{session-id}"
}

0.5 Announce Session

Output to the user:

✓ Session created: {session-id}
  Proceeding with research phase...

Only after completing steps 0.1-0.5, proceed to Step 1.

---

Resume Existing Session

If --session resume or --session resume {id} is used:

1. Read ~/.claude/sessions/index.json to get active_session (if no ID provided)
2. Read ~/.claude/sessions/{session-id}/session.json
3. Check phase.current to determine where to resume
4. Announce: Resuming session: {session-id} at phase: {phase}
5. Skip to the appropriate step based on phase.current

---

Step 1: Input Detection & Feature Naming

Detect input source and derive feature name:

Input Sources:
├── Jira Issue (KB-1234)
│   └── Use mcp__atlassian__getJiraIssue to fetch
│   └── Feature name = ticket key (e.g., "kb-1234")
│
├── Confluence Page (URL)
│   └── Use mcp__atlassian__getConfluencePage to fetch
│   └── Feature name = sanitized page title
│
└── Direct Prompt ("Add export feature")
    └── Parse requirements from message
    └── Feature name = short slug (e.g., "export-feature")

Store feature name for all subsequent skill invocations.

Step 2: Research Phase

Invoke the /research skill:

Use Skill tool:
  skill: "research"
  args: "{input}" (the original Jira key, URL, or prompt)

Wait for research skill to complete. It will produce:

• OUTPUT_DIR/research-{feature}.md

Step 3: Research Audit

Invoke the /audit skill for research:

Use Skill tool:
  skill: "audit"
  args: "research"

Quality Gate Check:

Metric	Threshold	Action if FAIL
Confidence	≥ 60%	Ask user for clarification
Hallucination	≤ 20%	Remove phantom requirements
Coverage	≥ 80%	Identify missing information

If audit FAILS:

STOP the workflow.
Report findings to user.
Ask for clarification or additional information.
Re-run /research after user provides info.

If audit PASSES:

Proceed to Step 4.

Step 4: Plan Phase

Invoke the /plan skill:

Use Skill tool:
  skill: "plan"

Wait for plan skill to complete. It will produce:

• OUTPUT_DIR/plan-{feature}.md

Step 5: Plan Audit

Invoke the /audit skill for plan:

Use Skill tool:
  skill: "audit"
  args: "plan"

Quality Gate Check:

Metric	Threshold	Action if FAIL
Traceability	100%	Map missing requirements to tasks
Balance Score	≥ 70%	Reduce over/underengineering
Pattern Compliance	≥ 90%	Fix pattern violations

If audit FAILS:

Report specific issues.
Revise plan to address findings.
Re-run /audit plan.

If audit PASSES:

Proceed to Step 6.

Step 6: User Approval

Present plan summary and request approval:

## Implementation Plan Summary

**Feature**: {feature name}
**Tasks**: {count} tasks
**Files**: {new count} new, {modified count} modified
**Complexity**: {low/medium/high}

### Key Decisions
{List architectural decisions}

### Task Overview
{List of tasks in sequence}

### Quality Gates Passed
- Research Audit: PASS (Confidence: X%, Hallucination: Y%)
- Plan Audit: PASS (Traceability: 100%, Balance: Z%)

---

**Proceed with implementation?** (yes/no)

Wait for explicit user approval before proceeding.

If user says "no" or requests changes:

• Address feedback
• Re-run relevant phase
• Present updated summary

Step 7: Implementation Phase

Invoke the /implement skill:

Use Skill tool:
  skill: "implement"

The implement skill will:

• Read AGENTS.md and project patterns
• Execute tasks in dependency order
• Track progress with TodoWrite (Claude Code) or update_plan (Codex CLI)
• Run flutter analyze after changes
• Produce code changes

Step 8: Code Review

Invoke the /code-review skill:

Use Skill tool:
  skill: "code-review"

The code-review skill will:

• Review all new/modified files
• Report P0/P1/P2 findings
• Check AGENTS.md compliance

Handle Review Findings:

Severity	Action
P0 (Critical)	MUST fix before completing
P1 (Important)	SHOULD fix, discuss with user
P2 (Nice-to-have)	Note for future improvement

If P0 issues found:

Fix all P0 issues.
Re-run /code-review to verify fixes.

---

Quality Gates Summary

Gate	Phase	Metrics	Threshold
Gate 1	Research	Confidence	≥ 60%
Gate 1	Research	Hallucination	≤ 20%
Gate 1	Research	Coverage	≥ 80%
Gate 2	Plan	Traceability	100%
Gate 2	Plan	Balance Score	≥ 70%
Gate 2	Plan	Pattern Compliance	≥ 90%
Gate 3	Implementation	Lint	PASS
Gate 3	Implementation	P0 Issues	0

---

Output Files

All outputs saved to OUTPUT_DIR:

File	Produced By	Description
research-{feature}.md	/research	Research findings
audit-{feature}.md	/audit	Audit reports (multiple)
plan-{feature}.md	/plan	Implementation plan
review-{feature}.md	/code-review	Code review report

---

Error Handling

Research Fails Audit

1. Report specific findings (hallucinations, low confidence)
2. Ask user for clarification
3. Re-invoke /research with additional context
4. Re-invoke /audit research

Plan Fails Audit

1. Report specific findings (missing coverage, overengineering)
2. Revise plan based on findings
3. Re-invoke /audit plan

Implementation Fails

1. Stop at failing task
2. Diagnose issue
3. Options:
   a. Fix and continue (minor issue)
   b. Re-invoke /plan (design issue)
   c. Re-invoke /research (fundamental issue)

Code Review Finds P0

1. List all P0 issues
2. Fix each P0 issue
3. Re-invoke /code-review
4. Repeat until P0 count = 0

---

Example Execution

User: /rpi KB-1234

Agent: Starting RPI workflow for KB-1234...

## Step 1: Input Detection
Detected: Jira Issue
Fetching KB-1234...
Feature name: kb-1234

## Step 2: Research
Invoking /research KB-1234...
[Research skill executes]
Created: OUTPUT_DIR/research-kb-1234.md

## Step 3: Research Audit
Invoking /audit research...
[Audit skill executes]

Results:
- Confidence: 75% ✓
- Hallucination: 12% ✓
- Coverage: 85% ✓

Gate 1: PASSED

## Step 4: Plan
Invoking /plan...
[Plan skill executes]
Created: OUTPUT_DIR/plan-kb-1234.md

## Step 5: Plan Audit
Invoking /audit plan...
[Audit skill executes]

Results:
- Traceability: 100% ✓
- Balance: 78% ✓
- Pattern Compliance: 95% ✓

Gate 2: PASSED

## Step 6: User Approval
[Present plan summary]

Proceed with implementation? (yes/no)

User: yes

## Step 7: Implementation
Invoking /implement...
[Implement skill executes]
Code changes complete.

## Step 8: Code Review
Invoking /code-review...
[Code review skill executes]

Results:
- P0: 0 ✓
- P1: 2
- P2: 3

Gate 3: PASSED

## Workflow Complete

Feature KB-1234 has been implemented successfully.

Summary:
- Research: PASSED
- Plan: PASSED
- Implementation: COMPLETE
- Code Review: APPROVED

Files changed:
- Created: 5 files
- Modified: 3 files

P1 issues noted for follow-up:
1. {issue}
2. {issue}

---

Quick Reference

Full Workflow (Auto-creates session)

/rpi KB-1234              # From Jira (auto-creates new session)
/rpi {confluence-url}     # From Confluence (auto-creates new session)
/rpi Add export feature   # From prompt (auto-creates new session)

Session Commands

/rpi --session resume {id}      # Resume by session ID
/rpi --session resume           # Resume active session
/rpi --session list             # List all sessions
/rpi --session status           # Show current session status (CLI tracker)

Resume/Retry Commands

/rpi --resume             # Resume from last checkpoint
/rpi --from research      # Restart from research
/rpi --from plan          # Restart from plan
/rpi --from implement     # Restart from implementation

---

Session Tracking System

Sessions enable cross-session continuity and progress tracking.

Session ID Format

rpi-{feature-slug}-{YYYYMMDD}-{short-hash}
Example: rpi-kb-4149-20260103-a1b2c3

Session Storage (Global)

~/.claude/sessions/               # Global location (works from any project)
  index.json                      # Session registry
  {session-id}/
    session.json                  # Core session data
    context-summary.md            # Human-readable context

Session Schema

{
  "id": "rpi-{feature}-{date}-{hash}",
  "version": "1.0",
  "created_at": "ISO timestamp",
  "updated_at": "ISO timestamp",
  "agent": "claude-code",

  "input": {
    "type": "jira|confluence|prompt",
    "source": "KB-1234",
    "feature_name": "kb-1234"
  },

  "phase": {
    "current": "research|plan|implement|review|complete",
    "research": { "status": "pending|in_progress|complete|failed" },
    "plan": { "status": "..." },
    "implement": {
      "status": "...",
      "current_task": "T3",
      "tasks_completed": ["T1", "T2"],
      "tasks_remaining": ["T4", "T5"]
    },
    "review": { "status": "..." }
  },

  "progress": {
    "percentage": 45,
    "tasks_total": 5,
    "tasks_done": 2,
    "quality_gates": {
      "research_audit": { "passed": true, "score": 95 },
      "plan_audit": { "passed": true, "score": 88 },
      "security_audit": { "passed": null },
      "performance_audit": { "passed": null },
      "code_review": { "passed": null }
    }
  },

  "artifacts": {
    "research": ".claude/output/research-{feature}.md",
    "plan": ".claude/output/plan-{feature}.md"
  },

  "context": {
    "key_decisions": [],
    "blockers": [],
    "notes": ""
  },

  "continuation": {
    "last_action": "Completed T2: Create domain model",
    "next_action": "Start T3: Create service layer",
    "resume_prompt": "Continue RPI session {id}. Last: T2. Next: T3."
  }
}

Session Management Instructions

Starting a New Session (Automatic with any /rpi {input}):

Sessions are automatically created when running /rpi with any input.
No need for --session new flag.

1. Generate session ID: rpi-{feature-slug}-{YYYYMMDD}-{6-char-hash}
2. Create directory: ~/.claude/sessions/{session-id}/
3. Initialize session.json with input details
4. Update index.json: add to sessions[], set active_session
5. Announce session creation to user
6. Proceed with normal RPI workflow
7. Update session.json after each phase completion

Resuming a Session:

1. If ID provided: Load ~/.claude/sessions/{id}/session.json
2. If no ID: Load active_session from index.json
3. Read continuation.resume_prompt for context
4. Resume from phase.current
5. Continue tracking progress

Session Auto-Save Points:

- After research completion
- After audit pass/fail
- After plan completion
- After each implementation task
- After code review
- On any error or blocker

Displaying Session Status:

Run: skills/scripts/rpi-tracker.sh [session-id]
Or:  skills/scripts/rpi-status.sh (one-liner)

---

Progress Tracking (MANDATORY)

CRITICAL: You MUST update progress after EVERY phase transition and task completion.

Progress Formula

Phase	Action	Progress
Research	Phase started	5%
Research	Research complete	10%
Research	Audit PASS	15%
Plan	Plan started	20%
Plan	Plan complete	25%
Plan	Audit PASS	30%
Approval	User approved	35%
Implement	Per task	35% + (55% / tasks_total) per task
Review	Review started	90%
Complete	Review PASS	100%

Update Commands

Use Bash to run the progress update script:

# When starting a phase
~/.claude/skills/scripts/rpi-progress.sh --phase research --status in_progress

# When completing a phase
~/.claude/skills/scripts/rpi-progress.sh --phase research --status complete

# When audit passes
~/.claude/skills/scripts/rpi-progress.sh --audit research --passed true --score 85

# When setting total tasks (before implementation)
~/.claude/skills/scripts/rpi-progress.sh --tasks-total 5

# When starting a task
~/.claude/skills/scripts/rpi-progress.sh --task-start T1 --last "Starting T1" --next "Complete T1"

# When completing a task
~/.claude/skills/scripts/rpi-progress.sh --task-done T1 --last "Completed T1" --next "Start T2"

# When moving to implementation
~/.claude/skills/scripts/rpi-progress.sh --phase implement --tasks-total 5

Progress Update Checkpoints

You MUST run progress updates at these exact points:

1. After Step 0 (Session Created)

   ~/.claude/skills/scripts/rpi-progress.sh --phase research --status pending
   

2. After Step 2 (Research Complete)

   ~/.claude/skills/scripts/rpi-progress.sh --phase research --status complete
   

3. After Step 3 (Research Audit)

   ~/.claude/skills/scripts/rpi-progress.sh --audit research --passed true --score {score}
   

4. After Step 4 (Plan Complete)

   ~/.claude/skills/scripts/rpi-progress.sh --phase plan --status complete
   

5. After Step 5 (Plan Audit)

   ~/.claude/skills/scripts/rpi-progress.sh --audit plan --passed true --score {score}
   

6. After Step 6 (User Approval)

   ~/.claude/skills/scripts/rpi-progress.sh --set 35 --last "User approved plan" --next "Start implementation"
   

7. Before Step 7 (Implementation Start)

   ~/.claude/skills/scripts/rpi-progress.sh --phase implement --tasks-total {count}
   

8. After EACH task in Step 7

   ~/.claude/skills/scripts/rpi-progress.sh --task-done T{n} --last "Completed T{n}" --next "Start T{n+1}"
   

9. After Step 8 (Code Review)

   ~/.claude/skills/scripts/rpi-progress.sh --audit code_review --passed true --score {score}
   ~/.claude/skills/scripts/rpi-progress.sh --phase complete
   

---

Integration with Individual Skills

This orchestrator uses these skills (each can also be run standalone):

Skill	Trigger	Use Case
Research	/research	Explore before committing to implementation
Audit	/audit	Validate any artifact independently
Plan	/plan	Create plan when scope is clear
Implement	/implement	Execute when plan is ready
Code Review	/code-review	Review any code changes

When to use individual skills vs /rpi:

• Use /rpi for complete feature implementation
• Use individual skills for targeted tasks or exploration