golang-samber-ro

bởi samber

Luồng phản ứng và lập trình hướng sự kiện trong Golang sử dụng samber/ro — triển khai ReactiveX với hơn 150 toán tử an toàn kiểu, observable lạnh/nóng, 5 loại subject (Publish, Behavior, Replay, Async, Unicast), pipeline khai báo qua Pipe, hơn 40 plugin (HTTP, cron, fsnotify, JSON, logging), backpressure tự động, lan truyền lỗi và tích hợp context Go. Áp dụng khi sử dụng hoặc áp dụng samber/ro, khi codebase import github.com/samber/ro, hoặc khi xây dựng bất đồng bộ...

npx skills add https://github.com/samber/cc-skills-golang --skill golang-samber-ro

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Persona: You are a Go engineer who reaches for reactive streams when data flows asynchronously or infinitely. You use samber/ro to build declarative pipelines instead of manual goroutine/channel wiring, but you know when a simple slice + samber/lo is enough.

Thinking mode: Use ultrathink when designing advanced reactive pipelines or choosing between cold/hot observables, subjects, and combining operators. Wrong architecture leads to resource leaks or missed events.

samber/ro — Reactive Streams for Go

Go implementation of ReactiveX. Generics-first, type-safe, composable pipelines for asynchronous data streams with automatic backpressure, error propagation, context integration, and resource cleanup. 150+ operators, 5 subject types, 40+ plugins.

Official Resources:

This skill is not exhaustive. Please refer to library documentation and code examples for more information. Context7 can help as a discoverability platform.

Why samber/ro (Streams vs Slices)

Go channels + goroutines become unwieldy for complex async pipelines: manual channel closures, verbose goroutine lifecycle, error propagation across nested selects, and no composable operators. samber/ro solves this with declarative, chainable stream operators.

When to use which tool:

Scenario	Tool	Why
Transform a slice (map, filter, reduce)	`samber/lo`	Finite, synchronous, eager — no stream overhead needed
Simple goroutine fan-out with error handling	`errgroup`	Standard lib, lightweight, sufficient for bounded concurrency
Infinite event stream (WebSocket, tickers, file watcher)	`samber/ro`	Declarative pipeline with backpressure, retry, timeout, combine
Real-time data enrichment from multiple async sources	`samber/ro`	CombineLatest/Zip compose dependent streams without manual select
Pub/sub with multiple consumers sharing one source	`samber/ro`	Hot observables (Share/Subjects) handle multicast natively

Key differences: lo vs ro

Aspect	`samber/lo`	`samber/ro`
Data	Finite slices	Infinite streams
Execution	Synchronous, blocking	Asynchronous, non-blocking
Evaluation	Eager (allocates intermediate slices)	Lazy (processes items as they arrive)
Timing	Immediate	Time-aware (delay, throttle, interval, timeout)
Error model	Return `(T, error)` per call	Error channel propagates through pipeline
Use case	Collection transforms	Event-driven, real-time, async pipelines

Installation

go get github.com/samber/ro

Core Concepts

Four building blocks:

Observable — a data source that emits values over time. Cold by default: each subscriber triggers independent execution from scratch
Observer — a consumer with three callbacks: onNext(T), onError(error), onComplete()
Operator — a function that transforms an observable into another observable, chained via Pipe
Subscription — the connection between observable and observer. Call .Wait() to block or .Unsubscribe() to cancel

observable := ro.Pipe2(
    ro.RangeWithInterval(0, 5, 1*time.Second),
    ro.Filter(func(x int) bool { return x%2 == 0 }),
    ro.Map(func(x int) string { return fmt.Sprintf("even-%d", x) }),
)

observable.Subscribe(ro.NewObserver(
    func(s string) { fmt.Println(s) },      // onNext
    func(err error) { log.Println(err) },    // onError
    func() { fmt.Println("Done!") },         // onComplete
))
// Output: "even-0", "even-2", "even-4", "Done!"

// Or collect synchronously:
values, err := ro.Collect(observable)

Cold vs Hot Observables

Cold (default): each .Subscribe() starts a new independent execution. Safe and predictable — use by default.

Hot: multiple subscribers share a single execution. Use when the source is expensive (WebSocket, DB poll) or subscribers must see the same events.

Convert with	Behavior
`Share()`	Cold → hot with reference counting. Last unsubscribe tears down
`ShareReplay(n)`	Same as Share + buffers last N values for late subscribers
`Connectable()`	Cold → hot, but waits for explicit `.Connect()` call
Subjects	Natively hot — call `.Send()`, `.Error()`, `.Complete()` directly

Subject	Constructor	Replay behavior
`PublishSubject`	`NewPublishSubject[T]()`	None — late subscribers miss past events
`BehaviorSubject`	`NewBehaviorSubject[T](initial)`	Replays last value to new subscribers
`ReplaySubject`	`NewReplaySubject[T](bufferSize)`	Replays last N values
`AsyncSubject`	`NewAsyncSubject[T]()`	Emits only last value, only on complete
`UnicastSubject`	`NewUnicastSubject[T](bufferSize)`	Single subscriber only

For subject details and hot observable patterns, see Subjects Guide.

Operator Quick Reference

Category	Key operators	Purpose
Creation	`Just`, `FromSlice`, `FromChannel`, `Range`, `Interval`, `Defer`, `Future`	Create observables from various sources
Transform	`Map`, `MapErr`, `FlatMap`, `Scan`, `Reduce`, `GroupBy`	Transform or accumulate stream values
Filter	`Filter`, `Take`, `TakeLast`, `Skip`, `Distinct`, `Find`, `First`, `Last`	Selectively emit values
Combine	`Merge`, `Concat`, `Zip2`–`Zip6`, `CombineLatest2`–`CombineLatest5`, `Race`	Merge multiple observables
Error	`Catch`, `OnErrorReturn`, `OnErrorResumeNextWith`, `Retry`, `RetryWithConfig`	Recover from errors
Timing	`Delay`, `DelayEach`, `Timeout`, `ThrottleTime`, `SampleTime`, `BufferWithTime`	Control emission timing
Side effect	`Tap`/`Do`, `TapOnNext`, `TapOnError`, `TapOnComplete`	Observe without altering stream
Terminal	`Collect`, `ToSlice`, `ToChannel`, `ToMap`	Consume stream into Go types

Use typed Pipe2, Pipe3 ... Pipe25 for compile-time type safety across operator chains. The untyped Pipe uses any and loses type checking.

For the complete operator catalog (150+ operators with signatures), see Operators Guide.

Common Mistakes

Mistake	Why it fails	Fix
Using `ro.OnNext()` without error handler	Errors are silently dropped — bugs hide in production	Use `ro.NewObserver(onNext, onError, onComplete)` with all 3 callbacks
Using untyped `Pipe()` instead of `Pipe2`/`Pipe3`	Loses compile-time type safety, errors surface at runtime	Use `Pipe2`, `Pipe3`...`Pipe25` for typed operator chains
Forgetting `.Unsubscribe()` on infinite streams	Goroutine leak — the observable runs forever	Use `TakeUntil(signal)`, context cancellation, or explicit `Unsubscribe()`
Using `Share()` when cold is sufficient	Unnecessary complexity, harder to reason about lifecycle	Use hot observables only when multiple consumers need the same stream
Using `samber/ro` for finite slice transforms	Stream overhead (goroutines, subscriptions) for a synchronous operation	Use `samber/lo` — it's simpler, faster, and purpose-built for slices
Not propagating context for cancellation	Streams ignore shutdown signals, causing resource leaks on termination	Chain `ContextWithTimeout` or `ThrowOnContextCancel` in the pipeline

Best Practices

Always handle all three events — use NewObserver(onNext, onError, onComplete), not just OnNext. Unhandled errors cause silent data loss
Use Collect() for synchronous consumption — when the stream is finite and you need []T, Collect blocks until complete and returns the slice + error
Prefer typed Pipe functions — Pipe2, Pipe3...Pipe25 catch type mismatches at compile time. Reserve untyped Pipe for dynamic operator chains
Bound infinite streams — use Take(n), TakeUntil(signal), Timeout(d), or context cancellation. Unbounded streams leak goroutines
Use Tap/Do for observability — log, trace, or meter emissions without altering the stream. Chain TapOnError for error monitoring
Prefer samber/lo for simple transforms — if the data is a finite slice and you need Map/Filter/Reduce, use lo. Reach for ro when data arrives over time, from multiple sources, or needs retry/timeout/backpressure

Plugin Ecosystem

40+ plugins extend ro with domain-specific operators:

Category	Plugins	Import path prefix
Encoding	JSON, CSV, Base64, Gob	`plugins/encoding/...`
Network	HTTP, I/O, FSNotify	`plugins/http`, `plugins/io`, `plugins/fsnotify`
Scheduling	Cron, ICS	`plugins/cron`, `plugins/ics`
Observability	Zap, Slog, Zerolog, Logrus, Sentry, Oops	`plugins/observability/...`, `plugins/samber/oops`
Rate limiting	Native, Ulule	`plugins/ratelimit/...`
Data	Bytes, Strings, Sort, Strconv, Regexp, Template	`plugins/bytes`, `plugins/strings`, etc.
System	Process, Signal	`plugins/proc`, `plugins/signal`

For the full plugin catalog with import paths and usage examples, see Plugin Ecosystem.

For real-world reactive patterns (retry+timeout, WebSocket fan-out, graceful shutdown, stream combination), see Patterns.

If you encounter a bug or unexpected behavior in samber/ro, open an issue at github.com/samber/ro/issues.

Cross-References

→ See samber/cc-skills-golang@golang-samber-lo skill for finite slice transforms (Map, Filter, Reduce, GroupBy) — use lo when data is already in a slice
→ See samber/cc-skills-golang@golang-samber-mo skill for monadic types (Option, Result, Either) that compose with ro pipelines
→ See samber/cc-skills-golang@golang-samber-hot skill for in-memory caching (also available as an ro plugin)
→ See samber/cc-skills-golang@golang-concurrency skill for goroutine/channel patterns when reactive streams are overkill
→ See samber/cc-skills-golang@golang-observability skill for monitoring reactive pipelines in production