Identifies and prevents common SQL database design mistakes across logical design, physical design, query construction, and application development. Use when designing database schemas, writing SQL queries, reviewing data models, or implementing database-backed features. Covers 25 named antipatterns with detection signals, solutions, and exception cases. For code-level security (input validation, XSS, OWASP), use securing-code instead. For database model selection and data architecture decisions, use understanding-database-internals instead. For positive relational database design methodology (entity modeling, normalization process), use designing-relational-databases instead.
Identifies and prevents common SQL database design mistakes and query antipatterns during schema design and code review.
npx claudepluginhub sumik5/sumik-claude-pluginThis skill inherits all available tools. When active, it can use any tool Claude has access to.
INSTRUCTIONS.mdreferences/APPLICATION-DEV.mdreferences/FOREIGN-KEYS.mdreferences/LOGICAL-DESIGN.mdreferences/NORMALIZATION.mdreferences/PHYSICAL-DESIGN.mdreferences/QUERY-PATTERNS.md詳細な手順・ガイドラインは INSTRUCTIONS.md を参照してください。
Expert guidance for Next.js Cache Components and Partial Prerendering (PPR). **PROACTIVE ACTIVATION**: Use this skill automatically when working in Next.js projects that have `cacheComponents: true` in their next.config.ts/next.config.js. When this config is detected, proactively apply Cache Components patterns and best practices to all React Server Component implementations. **DETECTION**: At the start of a session in a Next.js project, check for `cacheComponents: true` in next.config. If enabled, this skill's patterns should guide all component authoring, data fetching, and caching decisions. **USE CASES**: Implementing 'use cache' directive, configuring cache lifetimes with cacheLife(), tagging cached data with cacheTag(), invalidating caches with updateTag()/revalidateTag(), optimizing static vs dynamic content boundaries, debugging cache issues, and reviewing Cache Component implementations.
Creating algorithmic art using p5.js with seeded randomness and interactive parameter exploration. Use this when users request creating art using code, generative art, algorithmic art, flow fields, or particle systems. Create original algorithmic art rather than copying existing artists' work to avoid copyright violations.