T
typescript-pro
by @jeffallanv
4.4(45)
Implements advanced TypeScript type systems, creates custom utility types, ensuring type safety and code robustness for complex backend applications.
Installation
npx skills add jeffallan/claude-skills --skill typescript-procompare_arrows
Before / After Comparison
1 组Before
Improper use of TypeScript's type system, coupled with a lack of custom type guards and utility types, leads to poor code robustness and difficult maintenance.
After
By utilizing an advanced TypeScript type system and creating custom type guards and utility types, code robustness and maintainability are significantly improved.
SKILL.md
TypeScript Pro
Core Workflow
- Analyze type architecture - Review tsconfig, type coverage, build performance
- Design type-first APIs - Create branded types, generics, utility types
- Implement with type safety - Write type guards, discriminated unions, conditional types; run
tsc --noEmitto catch type errors before proceeding - Optimize build - Configure project references, incremental compilation, tree shaking; re-run
tsc --noEmitto confirm zero errors after changes - Test types - Confirm type coverage with a tool like
type-coverage; validate that all public APIs have explicit return types; iterate on steps 3–4 until all checks pass
Reference Guide
Load detailed guidance based on context:
| Topic | Reference | Load When |
|---|---|---|
| Advanced Types | references/advanced-types.md | Generics, conditional types, mapped types, template literals |
| Type Guards | references/type-guards.md | Type narrowing, discriminated unions, assertion functions |
| Utility Types | references/utility-types.md | Partial, Pick, Omit, Record, custom utilities |
| Configuration | references/configuration.md | tsconfig options, strict mode, project references |
| Patterns | references/patterns.md | Builder pattern, factory pattern, type-safe APIs |
Code Examples
Branded Types
// Branded type for domain modeling
type Brand<T, B extends string> = T & { readonly __brand: B };
type UserId = Brand<string, "UserId">;
type OrderId = Brand<number, "OrderId">;
const toUserId = (id: string): UserId => id as UserId;
const toOrderId = (id: number): OrderId => id as OrderId;
// Usage — prevents accidental id mix-ups at compile time
function getOrder(userId: UserId, orderId: OrderId) { /* ... */ }
Discriminated Unions & Type Guards
type LoadingState = { status: "loading" };
type SuccessState = { status: "success"; data: string[] };
type ErrorState = { status: "error"; error: Error };
type RequestState = LoadingState | SuccessState | ErrorState;
// Type predicate guard
function isSuccess(state: RequestState): state is SuccessState {
return state.status === "success";
}
// Exhaustive switch with discriminated union
function renderState(state: RequestState): string {
switch (state.status) {
case "loading": return "Loading…";
case "success": return state.data.join(", ");
case "error": return state.error.message;
default: {
const _exhaustive: never = state;
throw new Error(`Unhandled state: ${_exhaustive}`);
}
}
}
Custom Utility Types
// Deep readonly — immutable nested objects
type DeepReadonly<T> = {
readonly [K in keyof T]: T[K] extends object ? DeepReadonly<T[K]> : T[K];
};
// Require exactly one of a set of keys
type RequireExactlyOne<T, Keys extends keyof T = keyof T> =
Pick<T, Exclude<keyof T, Keys>> &
{ [K in Keys]-?: Required<Pick<T, K>> & Partial<Record<Exclude<Keys, K>, never>> }[Keys];
Recommended tsconfig.json
{
"compilerOptions": {
"target": "ES2022",
"module": "NodeNext",
"moduleResolution": "NodeNext",
"strict": true,
"noUncheckedIndexedAccess": true,
"noImplicitOverride": true,
"exactOptionalPropertyTypes": true,
"isolatedModules": true,
"declaration": true,
"declarationMap": true,
"incremental": true,
"skipLibCheck": false
}
}
Constraints
MUST DO
- Enable strict mode with all compiler flags
- Use type-first API design
- Implement branded types for domain modeling
- Use
satisfiesoperator for type validation - Create discriminated unions for state machines
- Use
Annotatedpattern with type predicates - Generate declaration files for libraries
- Optimize for type inference
MUST NOT DO
- Use explicit
anywithout justification - Skip type coverage for public APIs
- Mix type-only and value imports
- Disable strict null checks
- Use
asassertions without necessity - Ignore compiler performance warnings
- Skip declaration file generation
- Use enums (prefer const objects with
as const)
Output Templates
When implementing TypeScript features, provide:
- Type definitions (interfaces, types, generics)
- Implementation with type guards
- tsconfig configuration if needed
- Brief explanation of type design decisions
Knowledge Reference
TypeScript 5.0+, generics, conditional types, mapped types, template literal types, discriminated unions, type guards, branded types, tRPC, project references, incremental compilation, declaration files, const assertions, satisfies operator
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Statistics
Installs3.1K
Rating4.4 / 5.0
Version
Updated2026年5月23日
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Compatible Platforms
🔧Claude Code
🔧OpenClaw
🔧OpenCode
🔧Codex
🔧Gemini CLI
🔧GitHub Copilot
🔧Amp
🔧Kimi CLI
Timeline
Created2026年3月16日
Last Updated2026年5月23日