(Industry standard: Routing Agent / Orchestrator Pattern) Primary Use Case: Analyzing an ambiguous trigger and routing it to one of the specific specialized implementations. Routes triggers to the appropriate agent-loop pattern. Use when: assessing a task, research need, or work assignment and deciding whether to run a simple learning loop, red team review, dual-loop delegation, or parallel swarm. Manages shared closure (seal, persist, retrospective, self-improvement).
From agent-loopsnpx claudepluginhub richfrem/agent-plugins-skills --plugin agent-loopsThis skill is limited to using the following tools:
acceptance-criteria.mdevals/evals.jsonevals/results.tsvfallback-tree.mdreferences/acceptance-criteria.mdreferences/agent_orchestrator.pyreferences/architect-review.mdreferences/cli-agent-executor.mdreferences/fallback-tree.mdreferences/qa-expert.mdreferences/security-auditor.mdrequirements.txtscripts/agent_orchestrator.pyscripts/closure-guard.shscripts/swarm_run.pyGuides Next.js Cache Components and Partial Prerendering (PPR) with cacheComponents enabled. Implements 'use cache', cacheLife(), cacheTag(), revalidateTag(), static/dynamic optimization, and cache debugging.
Migrates code, prompts, and API calls from Claude Sonnet 4.0/4.5 or Opus 4.1 to Opus 4.5, updating model strings on Anthropic, AWS, GCP, Azure platforms.
Deploys Linkerd service mesh on Kubernetes with patterns for installation, proxy injection, mTLS, service profiles (retries/metrics), traffic splits (canary), and authorization policies.
This skill requires Python 3.8+ and standard library only. No external packages needed.
To install this skill's dependencies:
pip-compile ./requirements.in
pip install -r ./requirements.txt
See ./requirements.txt for the dependency lockfile (currently empty — standard library only).
The Orchestrator assesses the incoming trigger, selects the right loop pattern, and manages the shared closure sequence (seal, persist, retrospective, self-improvement).
learning-loop | red-team-review | dual-loop | agent-swarm | triple-loop-learningcli-agent-executor.md — Persona configs for specialized CLI execution.Use this to select the correct loop pattern:
1. Does the trigger mention unguided friction evaluation, tests, and self-optimization?
└─ YES → Pattern 5: triple-loop-learning
└─ NO → continue
2. Is this work I can do entirely myself (research, document, iterate)?
└─ YES → Pattern 1: learning-loop
└─ NO → continue
3. Does it need adversarial review before proceeding?
└─ YES → Pattern 2: red-team-review
└─ NO → continue
4. Can the work be split into parallel independent tasks?
└─ YES → Pattern 4: agent-swarm
└─ NO → Pattern 3: dual-loop (sequential inner/outer delegation)
| Signal | Pattern | Skill |
|---|---|---|
| Research question, knowledge gap, documentation task | Simple Learning | learning-loop |
| Architecture decision, security review, high-risk change | Red Team Review | red-team-review |
| Feature implementation, bug fix, single work package | Dual-Loop | dual-loop |
| Large feature, bulk migration, multi-concern parallel work | Agent Swarm | agent-swarm |
| Systemic rules generation, autonomous meta-optimizations | Triple-Loop | triple-loop-learning |
agent-orchestrator, git, and optionally any upstream planning tool..git.You orchestrate workflows by natively executing the agent_orchestrator.py script provided by this skill (located in scripts/).
Use the scan command to inspect the state of the spec and readiness for delegation.
python ./scripts/agent_orchestrator.py scan --spec-dir <PATH>
Tip: Always ensure you have a clear plan or spec before delegating tasks.
When a task is ready for implementation, generate a Task Packet using the packet command.
python ./scripts/agent_orchestrator.py packet --wp <WP-ID> --spec-dir <PATH>
This generates a markdown file in the handoffs/ directory. You must then instruct the user/system to launch the Inner Loop with this file.
Check the Inner Loop's work against the packet using the verify command.
python ./scripts/agent_orchestrator.py verify --packet handoffs/task_packet_NNN.md --worktree <PATH>
If the work fails criteria, use the Severity-Stratified Output schema to generate a structured correction packet:
Generate the correction packet to send back to the Inner Loop:
python ./scripts/agent_orchestrator.py correct --packet handoffs/task_packet_NNN.md --feedback "Specific failure reason"
For bulk operations or partitioned tasks, use the swarm_run.py script from the agent-swarm skill.
python3 ./swarm_run.py --job <JOB_FILE> [--resume]
This is the designated route for all Pattern 4 triggers.
As the Orchestrator, you can route tasks to ANY capable CLI agent based on complexity:
flowchart LR
Router{Task Router} -->|Complex| High["High-Reasoning CLI (Opus/Ultra)"]
Router -->|Routine| Fast["Fast CLI (Haiku/Flash)"]
Router -->|Audit| Spec["Specialist CLI (Security/QA)"]
Use the bundle command to compile files for a human or 3rd-party agent review.
python ./scripts/agent_orchestrator.py bundle --files <file1> <file2> --output <OUTPUT_BUNDLE.md>
This creates a single markdown bundle ideal for "paste-to-chat" reviews.
Generate a retrospective template to close the cognitive loop with structured learning, before signaling the environment to seal.
python ./scripts/agent_orchestrator.py retro
This creates a template in the retros/ directory.
Meta-Improvement: After reviewing what went right/wrong, the orchestrator should also assess whether any loop infrastructure needs updating:
This makes each loop iteration smoother than the last.
Once the loop is complete and learning has been extracted, the Orchestrator MUST pass control to the environment's global sovereign (e.g., the primary agent plugin).
The Orchestrator explicitly DOES NOT:
context-bundler:context-bundling or update recursive language model (RLMs) summaries in caches.persist_soul or sync to HuggingFace.git commit, git push).These are environment-specific actions owned entirely by the Primary Agent.
When the Orchestrator loop is complete, it must use Chained Command Invocation to offer the user the explicit next steps to seal the ecosystem. Output this block:
## Orchestration Complete. Offer Next Steps:
The Inner Loop has successfully executed and verified the task. Please trigger the closure sequence:
- **"/sanctuary-seal"**: To capture the learning snapshot and update RLMs.
- **"/sanctuary-persist"**: To backup the soul to HuggingFace.
- **"Run Retrospective"**: If you wish to review the friction log.
claude-cli-agent has a hard stop on passing massive context bundles (~5MB+) either natively via stdin or --file. If your payload exceeds context windows, you must write a semantic chunking script instead of blindly dumping a context-bundler package into a prompt!--dangerously-skip-permissions or if the user is not authenticated natively using claude login.The orchestrator must verify these gates at each phase:
| Phase | Gate |
|---|---|
| Planning | Spec or plan is coherent and broken into tasks. |
| Execution | Packets are generated and handed off. |
| Review | Output passes verification criteria. |
| Retrospective | Post-loop learnings extracted and infrastructure improved. |
| Primary Agent Handoff | Signal the global ecosystem to run Seal, Persist, and Git closure. |
No phase may be skipped. If a gate fails, the orchestrator must resolve it before proceeding.
| Control | Description |
|---|---|
| Iteration Counter | Increment each cycle. Log "Loop iteration N of M" at orientation. |
| Max Iterations | Safety cap. When reached, force-seal as incomplete with blocking notes. |
| Completion Promise | Deterministic exit: only declare done when acceptance criteria are genuinely met. |
| Mechanism | Purpose |
|---|---|
Stop Hook (scripts/closure_guard.py) | Blocks premature session exit until Seal → Persist → Retrospective are complete. |
| Red Team Subagent | Red team review can run as a forked subagent to keep the main session context clean. |
One WP at a Time: Do not delegate multiple WPs simultaneously unless you are running a swarm.
Explicit Context: The Inner Loop only knows what is in the packet. If it needs a file, list it.
No Git in Inner Loop: This is a hard constraint to prevent state corruption.
Correction is Learning: Do not just "fix it yourself" if the Inner Loop fails. Generate a correction packet. This trains the system logic.
Never Abandon Closure: The orchestrator must shepherd Review → Accept → Retro → Merge. Stopping after delegation is a protocol violation.
Merge from Main Repo: Always merge from the project root, never from inside a worktree.
This skill implements the "Dual-Loop Agent Architecture" inspired by: