bug-health-inline
Inline orchestration workflow for automated bug detection and fixing. Provides step-by-step phases for bug-hunter detection, priority-based fixing with bug-fixer, and verification cycles.
$ Instalar
git clone https://github.com/maslennikov-ig/claude-code-orchestrator-kit /tmp/claude-code-orchestrator-kit && cp -r /tmp/claude-code-orchestrator-kit/.claude/skills/bug-health-inline ~/.claude/skills/claude-code-orchestrator-kit// tip: Run this command in your terminal to install the skill
name: bug-health-inline description: Inline orchestration workflow for automated bug detection and fixing. Provides step-by-step phases for bug-hunter detection, priority-based fixing with bug-fixer, and verification cycles. version: 2.0.0
Bug Health Check (Inline Orchestration)
You ARE the orchestrator. Execute this workflow directly without spawning a separate orchestrator agent.
Workflow Overview
Detection → Validate → Fix by Priority → Verify → Repeat if needed
Max iterations: 3 Priorities: critical → high → medium → low
Phase 1: Pre-flight
-
Setup directories:
mkdir -p .tmp/current/{plans,changes,backups} -
Validate environment:
- Check
package.jsonexists - Check
type-checkandbuildscripts exist
- Check
-
Initialize TodoWrite:
[ {"content": "Bug detection", "status": "in_progress", "activeForm": "Detecting bugs"}, {"content": "Fix critical bugs", "status": "pending", "activeForm": "Fixing critical bugs"}, {"content": "Fix high priority bugs", "status": "pending", "activeForm": "Fixing high bugs"}, {"content": "Fix medium priority bugs", "status": "pending", "activeForm": "Fixing medium bugs"}, {"content": "Fix low priority bugs", "status": "pending", "activeForm": "Fixing low bugs"}, {"content": "Verification scan", "status": "pending", "activeForm": "Verifying fixes"} ]
Phase 2: Detection
Invoke bug-hunter via Task tool:
subagent_type: "bug-hunter"
description: "Detect all bugs"
prompt: |
Scan the entire codebase for bugs:
- Run type-check and build
- Check for security vulnerabilities
- Find dead code and debug statements
- Categorize by priority (critical/high/medium/low)
Generate: bug-hunting-report.md
Return summary with bug counts per priority.
After bug-hunter returns:
- Read
bug-hunting-report.md - Parse bug counts by priority
- If zero bugs → skip to Final Summary
- Update TodoWrite: mark detection complete
Phase 3: Quality Gate (Detection)
Run inline validation:
pnpm type-check
pnpm build
- If both pass → proceed to fixing
- If fail → report to user, exit
Phase 4: Fixing Loop
For each priority (critical → high → medium → low):
-
Check if bugs exist for this priority
- If zero → skip to next priority
-
Update TodoWrite: mark current priority in_progress
-
Invoke bug-fixer via Task tool:
subagent_type: "bug-fixer" description: "Fix {priority} bugs" prompt: | Read bug-hunting-report.md and fix all {priority} priority bugs. For each bug: 1. Backup file before editing 2. Implement fix 3. Log change to .tmp/current/changes/bug-changes.json Generate/update: bug-fixes-implemented.md Return: count of fixed bugs, count of failed fixes. -
Quality Gate (inline):
pnpm type-check pnpm build- If FAIL → report error, suggest rollback, exit
- If PASS → continue
-
Update TodoWrite: mark priority complete
-
Repeat for next priority
Phase 5: Verification
After all priorities fixed:
-
Update TodoWrite: mark verification in_progress
-
Invoke bug-hunter (verification mode):
subagent_type: "bug-hunter" description: "Verification scan" prompt: | Re-scan codebase after fixes. Compare with previous bug-hunting-report.md. Report: - Bugs fixed (count) - Bugs remaining (count) - New bugs introduced (count) -
Decision:
- If bugs_remaining == 0 → Final Summary
- If iteration < 3 AND bugs_remaining > 0 → Go to Phase 2
- If iteration >= 3 → Final Summary with remaining bugs
Phase 6: Final Summary
Generate summary for user:
## Bug Health Check Complete
**Iterations**: {count}/3
**Status**: {SUCCESS/PARTIAL}
### Results
- Found: {total} bugs
- Fixed: {fixed} ({percentage}%)
- Remaining: {remaining}
### By Priority
- Critical: {fixed}/{total}
- High: {fixed}/{total}
- Medium: {fixed}/{total}
- Low: {fixed}/{total}
### Validation
- Type Check: {status}
- Build: {status}
### Artifacts
- Detection: `bug-hunting-report.md`
- Fixes: `bug-fixes-implemented.md`
Error Handling
If quality gate fails:
Rollback available: .tmp/current/changes/bug-changes.json
To rollback:
1. Read changes log
2. Restore files from .tmp/current/backups/
3. Re-run workflow
If worker fails:
- Report error to user
- Suggest manual intervention
- Exit workflow
Key Differences from Old Approach
| Old (Orchestrator Agent) | New (Inline Skill) |
|---|---|
| 9+ orchestrator calls | 0 orchestrator calls |
| ~1400 lines (cmd + agent) | ~150 lines |
| Context reload each call | Single session context |
| Plan files for each phase | Direct execution |
| ~10,000+ tokens overhead | ~500 tokens |
Worker Prompts
See references/worker-prompts.md for detailed prompts.
Repository
