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Found 223 Skills
Master Active Job framework for asynchronous background job processing. Use when building background workers, handling async operations, managing job queues, scheduling recurring tasks, or processing long-running operations. Covers job definition, Solid Queue backend, error handling, and advanced patterns.
Expert guide for the payload-reserve plugin — a Payload CMS 3.x reservation/booking system. Use when working with: reservation systems, booking systems, appointment scheduling, calendar views, availability checks, conflict detection, double-booking prevention, status workflows (pending/confirmed/completed/cancelled/no-show), buffer times, cancellation policies, schedule management, service/resource configuration, customer management, walk-in bookings, or integrating payments (Stripe) and notifications with a Payload CMS reservation plugin. Triggers on: "payload-reserve", "payloadReserve", "reservation plugin", "booking plugin", "appointment plugin", "schedule plugin", "availability overview", "calendar view", "reservation conflict", "double booking", "booking status", "cancellation policy".
Post and schedule content to X/Twitter. Use when batch processing social posts, promoting podcasts/blogs, or scheduling content. Handles guest tagging, template matching, and getlate.dev API integration.
Master Bevy's Entity Component System (ECS) in Rust, covering Systems, Queries, Resources, and parallel scheduling.
Use when determining optimal posting times on Xiaohongshu, scheduling content for maximum engagement, analyzing audience activity patterns, or testing different publish times to improve content performance
Guide to using the Syncfusion WPF CalendarEdit control for date selection and navigation. Use this skill whenever the user needs to implement calendar functionality, select dates, restrict date ranges, customize calendar appearance, or work with multi-date selection. Essential for building date picker interfaces, booking systems, scheduling applications, and any WPF project requiring calendar controls.
X/Twitter messaging management via API. Read tweets, post tweets, reply, send DMs, search, and view analytics. Use when the user wants to interact with X/Twitter: (1) posting or scheduling tweets, (2) reading timeline/mentions/DMs, (3) replying to tweets, (4) searching tweets/users/hashtags, (5) checking engagement analytics. Requires Twitter API credentials (API key, API secret, access token, access secret) or Bearer token.
Use this skill whenever writing, reviewing, debugging, or refactoring TypeScript code that uses the Effect-TS library. Trigger when you see imports from `effect`, `effect/*`, or any `@effect/*` scoped package (schema, platform, sql, opentelemetry, cli, cluster, rpc, vitest). Trigger on Effect-specific constructs: Effect.gen generators, Schema.Struct/Schema.Class definitions, Layer/Context.Tag/Service patterns, Effect.pipe pipelines, Data.TaggedError/Data.Class error types, Ref/Queue/PubSub/Deferred concurrency primitives, Match module, Config providers, Scope/Exit/Cause/Runtime patterns, or any code using Effect's typed error channel (E parameter). Also trigger when the user asks about Effect patterns, migration from Promises/fp-ts/neverthrow to Effect, or how to structure an Effect application. Covers the full ecosystem: core Effect type, Schema validation, error management, concurrency (fibers, queues, semaphores, pools), streams/sinks, services and layers (DI), resource management, scheduling, observability, platform APIs, and AI integration. Do NOT trigger for React's useEffect, Redux side effects, or general English usage of "effect" unless the context clearly involves the Effect-TS library.
Rust async internals skill for understanding and debugging async Rust. Use when understanding the Future trait and poll model, Pin and Unpin, tokio task scheduling, debugging async stack traces with tokio-console, tracking waker leaks, using select! and join!, or avoiding blocking in async contexts. Activates on queries about Rust async internals, Future poll, Pin, Unpin, tokio-console, waker, async stack traces, select!, join!, or blocking in async.
When the user wants to plan production or distribution capacity, analyze capacity requirements, optimize resource utilization, or balance capacity with demand. Also use when the user mentions "capacity analysis," "resource planning," "bottleneck analysis," "capacity expansion," "load balancing," "throughput planning," "utilization optimization," or "capacity modeling." For production scheduling, see master-production-scheduling. For long-term network capacity, see network-design.
Use when scheduling Xiaohongshu posts, maintaining consistent posting frequency, planning content around events or seasons, or organizing content production workflow
Workflow for learning CuTe Python DSL by reading, importing, profiling, and extracting reusable patterns from CUTLASS Blackwell example kernels. Use when: (1) studying CUTLASS CuTe DSL reference implementations, (2) importing CUTLASS examples into the project runtime infrastructure, (3) building CuTe DSL knowledge base entries from profiling experiments, (4) understanding CuTe DSL API patterns, TMA pipelining, warpgroup scheduling, or persistent kernel structure.