golang-samber-ro

Reactive streams and event-driven programming in Golang using samber/ro — ReactiveX implementation with 150+ type-safe operators, cold/hot observables, 5 subject types (Publish, Behavior, Replay, Async, Unicast), declarative pipelines via Pipe, 40+ plugins (HTTP, cron, fsnotify, JSON, logging), automatic backpressure, error propagation, and Go context integration. Apply when using or adopting samber/ro, when the codebase imports github.com/samber/ro, or when building asynchronous event-driven pipelines, real-time data processing, streams, or reactive architectures in Go. Not for finite slice transforms (-> See golang-samber-lo skill).

Quality

86%

Does it follow best practices?

Impact

Pending

No eval scenarios have been run

Securityby

Advisory

Suggest reviewing before use

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

Name: golang-samber-ro
Rating: 87 (1 reviews)
Author: samber

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

Repository: samber/cc-skills-golang
Commit: b88f91d

Last updated: 3 days ago
Created: 3 days ago

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