Implement event emitter with once and off
Build event emitter with once and off. The interviewer expects a small, reusable utility with clear behavior under repeated calls and invalid inputs.
Answer Strategy
For event emitter with once and off, start by stating the public contract before writing code: argument shape, return shape, mutation rules, error behavior, and whether work is synchronous, timed, cached, or cancellable.
A senior solution uses boring names for hidden state. If the function stores a timer, cache entry, listener, or in-flight promise, say who owns that state and how it is cleaned up.
After the baseline passes, harden the edge cases: empty input, repeated calls, invalid values, thrown callbacks, stable ordering, and memory lifetime. The reference below is written to be narrated line by line.
Reference Implementation: Event Emitter
Emitter correctness is listener lifetime: subscribe, unsubscribe, once, and safe iteration while listeners mutate.
type Listener<T> = (payload: T) => void;
function createEventEmitter<T>() {
const listeners = new Set<Listener<T>>();
return {
on(listener: Listener<T>) {
listeners.add(listener);
return () => listeners.delete(listener);
},
once(listener: Listener<T>) {
const unsubscribe = this.on((payload) => {
unsubscribe();
listener(payload);
});
return unsubscribe;
},
emit(payload: T) {
for (const listener of [...listeners]) {
listener(payload);
}
},
size() {
return listeners.size;
},
};
}Runnable Playground
Edit the implementation and run the tests directly in the browser. For system design questions, the playground focuses on the core state/data logic that the UI would call.
type Listener<T> = (payload: T) => void;
function createEventEmitter<T>() {
const listeners = new Set<Listener<T>>();
return {
on(listener: Listener<T>) {
listeners.add(listener);
return () => listeners.delete(listener);
},
once(listener: Listener<T>) {
const unsubscribe = this.on((payload) => {
unsubscribe();
listener(payload);
});
return unsubscribe;
},
emit(payload: T) {
for (const listener of [...listeners]) {
listener(payload);
}
},
size() {
return listeners.size;
},
};
}Testing Strategy
Convert the answer into observable behavior. In a mid-senior interview, say which behaviors are covered by unit tests, interaction tests, accessibility checks, and one browser smoke path.
test('event emitter supports unsubscribe and once', () => {
const emitter = createEventEmitter<string>();
const calls: string[] = [];
const off = emitter.on((value) => calls.push('on:' + value));
emitter.once((value) => calls.push('once:' + value));
emitter.emit('ready');
emitter.emit('again');
off();
emitter.emit('after-off');
expect(calls).toEqual(['on:ready', 'once:ready', 'on:again']);
expect(emitter.size()).toBe(0);
});Interviewer Signal
Tests whether you can turn a familiar utility into a precise contract instead of coding only the happy path.
Constraints
- Define the function signature before coding.
- Do not rely on global mutable state unless it is part of the returned closure.
- Explain time and space cost for the common path.
Model Answer Shape
- Write the smallest public contract first.
- Cover empty input, repeated calls, thrown errors, and cleanup behavior.
- Keep implementation readable enough to narrate under interview pressure.
Tradeoffs
- A compact implementation is attractive, but explicit state names are easier to debug live.
- Supporting every possible input can distract from the core contract; state the scope before coding.
Edge Cases
- No arguments or undefined callbacks.
- Synchronous throw inside the wrapped function.
- Repeated calls before the previous result settles.
Testing And Proof
- Happy path with representative inputs.
- Boundary input and repeated invocation.
- Cleanup or cancellation if timers or promises are involved.
Follow-Ups
- How would you expose cancellation?
- How would the API change for React usage?