Functional programming patterns that promote testability, composability, and maintainability.
/plugin marketplace add DoubleslashSE/claude-marketplace/plugin install node-tdd@doubleslash-pluginsThis skill inherits all available tools. When active, it can use any tool Claude has access to.
Functional programming patterns that promote testability, composability, and maintainability.
A pure function:
// Pure: Deterministic, no side effects
const add = (a: number, b: number): number => a + b;
const calculateTotal = (items: OrderItem[]): number =>
items.reduce((sum, item) => sum + item.price * item.quantity, 0);
const filterActiveUsers = (users: User[]): User[] =>
users.filter((user) => user.isActive);
// Impure: Has side effects
const saveUser = async (user: User): Promise<void> => {
await database.save(user); // I/O side effect
};
const logMessage = (msg: string): void => {
console.log(msg); // Side effect
};
const generateId = (): string => {
return crypto.randomUUID(); // Non-deterministic
};
// Pure core - all business logic
const validateOrder = (order: Order): Result<Order, ValidationError> => {
if (!order.items.length) return Result.fail({ code: 'EMPTY_ORDER' });
if (order.total < 0) return Result.fail({ code: 'INVALID_TOTAL' });
return Result.ok(order);
};
const calculateDiscount = (order: Order, user: User): number => {
const baseDiscount = user.isPremium ? 0.15 : 0;
const volumeDiscount = order.items.length > 10 ? 0.05 : 0;
return baseDiscount + volumeDiscount;
};
const applyDiscount = (order: Order, discountRate: number): Order => ({
...order,
total: order.total * (1 - discountRate),
});
// Impure shell - handles I/O
const processOrderHandler = (deps: Dependencies) => async (order: Order) => {
const validation = validateOrder(order);
if (validation.isFailure) return validation;
const user = await deps.userRepo.findById(order.userId); // I/O
const discount = calculateDiscount(validation.value, user);
const discounted = applyDiscount(validation.value, discount);
await deps.orderRepo.save(discounted); // I/O
await deps.notifier.send(user.email, 'Order confirmed'); // I/O
return Result.ok(discounted);
};
// Bad: Mutation
const addItemToCart = (cart: Cart, item: Item) => {
cart.items.push(item);
cart.total += item.price;
return cart;
};
// Good: Immutable update
const addItemToCart = (cart: Cart, item: Item): Cart => ({
...cart,
items: [...cart.items, item],
total: cart.total + item.price,
});
// Good: Nested immutable update
const updateUserAddress = (user: User, address: Partial<Address>): User => ({
...user,
address: {
...user.address,
...address,
},
});
// Good: Using readonly types
type ReadonlyUser = {
readonly id: string;
readonly email: string;
readonly addresses: readonly Address[];
};
// Good: Immutable array operations
const addItem = <T>(arr: readonly T[], item: T): readonly T[] => [...arr, item];
const removeAt = <T>(arr: readonly T[], index: number): readonly T[] =>
arr.filter((_, i) => i !== index);
const updateAt = <T>(arr: readonly T[], index: number, item: T): readonly T[] =>
arr.map((existing, i) => (i === index ? item : existing));
// Pipe: left to right
type Fn<A, B> = (a: A) => B;
const pipe = <A, B, C>(
f: Fn<A, B>,
g: Fn<B, C>
): Fn<A, C> => (a) => g(f(a));
const pipe3 = <A, B, C, D>(
f: Fn<A, B>,
g: Fn<B, C>,
h: Fn<C, D>
): Fn<A, D> => (a) => h(g(f(a)));
// Usage
const processInput = pipe3(
trim,
toLowerCase,
validateEmail
);
// Variadic pipe
const pipeAll = <T>(...fns: Array<(x: T) => T>) =>
(initial: T): T => fns.reduce((acc, fn) => fn(acc), initial);
const processString = pipeAll(
(s: string) => s.trim(),
(s: string) => s.toLowerCase(),
(s: string) => s.replace(/\s+/g, '-')
);
// Function that returns a function
const withLogging = <T extends (...args: any[]) => any>(fn: T) =>
(...args: Parameters<T>): ReturnType<T> => {
console.log('Calling with:', args);
const result = fn(...args);
console.log('Result:', result);
return result;
};
// Function that takes a function
const retry = <T>(
fn: () => Promise<T>,
attempts: number = 3
): Promise<T> =>
fn().catch((error) =>
attempts > 1 ? retry(fn, attempts - 1) : Promise.reject(error)
);
// Currying
const multiply = (a: number) => (b: number): number => a * b;
const double = multiply(2);
const triple = multiply(3);
// Partial application
const createLogger = (prefix: string) =>
(message: string): void => console.log(`[${prefix}] ${message}`);
const infoLog = createLogger('INFO');
const errorLog = createLogger('ERROR');
type Result<T, E> =
| { readonly _tag: 'Ok'; readonly value: T }
| { readonly _tag: 'Err'; readonly error: E };
const ok = <T>(value: T): Result<T, never> => ({ _tag: 'Ok', value });
const err = <E>(error: E): Result<never, E> => ({ _tag: 'Err', error });
const isOk = <T, E>(result: Result<T, E>): result is { _tag: 'Ok'; value: T } =>
result._tag === 'Ok';
const isErr = <T, E>(result: Result<T, E>): result is { _tag: 'Err'; error: E } =>
result._tag === 'Err';
// Map: transform success value
const map = <T, U, E>(
result: Result<T, E>,
fn: (value: T) => U
): Result<U, E> =>
isOk(result) ? ok(fn(result.value)) : result;
// MapError: transform error value
const mapError = <T, E, F>(
result: Result<T, E>,
fn: (error: E) => F
): Result<T, F> =>
isErr(result) ? err(fn(result.error)) : result;
// FlatMap (chain): compose Result-returning functions
const flatMap = <T, U, E>(
result: Result<T, E>,
fn: (value: T) => Result<U, E>
): Result<U, E> =>
isOk(result) ? fn(result.value) : result;
// Match: exhaustive handling
const match = <T, E, R>(
result: Result<T, E>,
handlers: { ok: (value: T) => R; err: (error: E) => R }
): R =>
isOk(result) ? handlers.ok(result.value) : handlers.err(result.error);
type ValidationError = { field: string; message: string };
type ProcessingError = { code: string; details: string };
type AppError = ValidationError | ProcessingError;
const validateInput = (input: unknown): Result<ValidInput, ValidationError> => {
// ...
};
const processData = (input: ValidInput): Result<ProcessedData, ProcessingError> => {
// ...
};
const formatOutput = (data: ProcessedData): Output => {
// ...
};
// Compose the pipeline
const handleRequest = (input: unknown): Result<Output, AppError> => {
const validated = validateInput(input);
if (isErr(validated)) return validated;
const processed = processData(validated.value);
if (isErr(processed)) return processed;
return ok(formatOutput(processed.value));
};
// Or with flatMap
const handleRequestFunctional = (input: unknown): Result<Output, AppError> =>
flatMap(validateInput(input), (valid) =>
map(processData(valid), formatOutput)
);
type Option<T> =
| { readonly _tag: 'Some'; readonly value: T }
| { readonly _tag: 'None' };
const some = <T>(value: T): Option<T> => ({ _tag: 'Some', value });
const none: Option<never> = { _tag: 'None' };
const isSome = <T>(opt: Option<T>): opt is { _tag: 'Some'; value: T } =>
opt._tag === 'Some';
const isNone = <T>(opt: Option<T>): opt is { _tag: 'None' } =>
opt._tag === 'None';
// Operations
const mapOption = <T, U>(opt: Option<T>, fn: (value: T) => U): Option<U> =>
isSome(opt) ? some(fn(opt.value)) : none;
const getOrElse = <T>(opt: Option<T>, defaultValue: T): T =>
isSome(opt) ? opt.value : defaultValue;
const fromNullable = <T>(value: T | null | undefined): Option<T> =>
value != null ? some(value) : none;
// Usage
const findUser = (id: string): Option<User> => {
const user = users.find((u) => u.id === id);
return fromNullable(user);
};
const getUserEmail = (id: string): string =>
getOrElse(
mapOption(findUser(id), (user) => user.email),
'unknown@example.com'
);
// Define dependencies as a type
type Dependencies = {
userRepo: UserRepository;
orderRepo: OrderRepository;
logger: Logger;
clock: () => Date; // Even time can be injected
};
// Create service factory
const createOrderService = (deps: Dependencies) => ({
createOrder: async (data: CreateOrderData): Promise<Result<Order, OrderError>> => {
const user = await deps.userRepo.findById(data.userId);
if (!user) {
return err({ code: 'USER_NOT_FOUND', userId: data.userId });
}
const order: Order = {
id: generateId(),
...data,
createdAt: deps.clock(),
status: 'pending',
};
deps.logger.info({ orderId: order.id }, 'Creating order');
await deps.orderRepo.save(order);
return ok(order);
},
});
// Test with fake dependencies
describe('OrderService', () => {
it('should create order', async () => {
const deps: Dependencies = {
userRepo: { findById: jest.fn().mockResolvedValue({ id: '1' }) },
orderRepo: { save: jest.fn() },
logger: { info: jest.fn() },
clock: () => new Date('2024-01-01'),
};
const service = createOrderService(deps);
const result = await service.createOrder({ userId: '1', items: [] });
expect(isOk(result)).toBe(true);
});
});
This skill should be used when the user asks to "create a slash command", "add a command", "write a custom command", "define command arguments", "use command frontmatter", "organize commands", "create command with file references", "interactive command", "use AskUserQuestion in command", or needs guidance on slash command structure, YAML frontmatter fields, dynamic arguments, bash execution in commands, user interaction patterns, or command development best practices for Claude Code.
This skill should be used when the user asks to "create an agent", "add an agent", "write a subagent", "agent frontmatter", "when to use description", "agent examples", "agent tools", "agent colors", "autonomous agent", or needs guidance on agent structure, system prompts, triggering conditions, or agent development best practices for Claude Code plugins.
This skill should be used when the user asks to "create a hook", "add a PreToolUse/PostToolUse/Stop hook", "validate tool use", "implement prompt-based hooks", "use ${CLAUDE_PLUGIN_ROOT}", "set up event-driven automation", "block dangerous commands", or mentions hook events (PreToolUse, PostToolUse, Stop, SubagentStop, SessionStart, SessionEnd, UserPromptSubmit, PreCompact, Notification). Provides comprehensive guidance for creating and implementing Claude Code plugin hooks with focus on advanced prompt-based hooks API.