# fluxion-stream
> **Part of [Fluxion](../README.md)** - A reactive stream processing library for Rust
Stream combinators for async Rust with strong temporal-ordering guarantees. This crate provides composable operators and lightweight sequencing utilities designed for correctness and performance in event-driven systems.
[](https://crates.io/crates/fluxion-stream)
[](https://docs.rs/fluxion-stream)
[](LICENSE)
## Table of Contents
- [Overview](#overview)
- [Key Features](#key-features)
- [Core Concepts](#core-concepts)
- [Timestamped Trait](#timestamped-trait)
- [Temporal Ordering](#temporal-ordering)
- [Error Propagation](#error-propagation)
- [Stream Operators](#stream-operators)
- [Combination Operators](#combination-operators)
- [Filtering Operators](#filtering-operators)
- [Transformation Operators](#transformation-operators)
- [Utility Operators](#utility-operators)
- [Error Handling Operators](#error-handling-operators)
- [Splitting Operators](#splitting-operators)
- [Multicasting Operators](#multicasting-operators)
- [Operator Selection Guide](#operator-selection-guide)
- [Quick Start](#quick-start)
- [Examples](#examples)
- [Testing](#testing)
- [License](#license)
## Overview
`fluxion-stream` is a collection of reactive stream operators that maintain temporal ordering across asynchronous operations. Unlike standard stream combinators, all operators in this crate respect the intrinsic ordering of items (via timestamps, sequence numbers, or other ordering mechanisms), ensuring correct temporal sequencing even when events arrive out of order.
**Use this crate when:**
- You need to combine multiple async streams while preserving temporal order
- Events may arrive out of order and need to be resequenced
- You're building reactive systems (dashboards, monitoring, event processing)
- You need composable stream operations with correctness guarantees
## Key Features
- **Temporal Ordering**: All operators maintain temporal correctness via the `Timestamped` trait
- **Composable Operators**: 10+ stream combinators designed to work together seamlessly
- **Error Propagation**: Structured error handling through `StreamItem<T>` enum
- **Zero-Copy**: Minimal allocations and efficient buffering strategies
- **Tokio Integration**: Built on tokio streams for async runtime compatibility
- **Type Safety**: Compile-time guarantees for ordering and type compatibility
## Core Concepts
### Timestamp Traits
Fluxion uses two traits for temporal ordering:
#### HasTimestamp - Minimal Read-Only Interface
Provides read-only access to timestamp values:
```rust
pub trait HasTimestamp {
type Timestamp: Ord + Copy + Send + Sync + std::fmt::Debug;
fn timestamp(&self) -> Self::Timestamp; // Get the timestamp for ordering
}
```
#### Timestamped - Construction Methods
Extends `HasTimestamp` with an `Inner` type and construction/deconstruction capabilities:
```rust
pub trait Timestamped: HasTimestamp {
type Inner: Clone;
fn with_timestamp(value: Self::Inner, timestamp: Self::Timestamp) -> Self;
fn with_fresh_timestamp(value: Self::Inner) -> Self;
fn into_inner(self) -> Self::Inner;
}
```
**When to use each:**
- Implement `HasTimestamp` for types that only need to expose a timestamp (read-only)
- Implement `Timestamped` for wrapper types that construct timestamped values
- Most operators require only `HasTimestamp` for ordering
**Implementations:**
- `Sequenced<T>` - Test utility from `fluxion-test-utils` using monotonically growing sequence numbers
- Custom domain types - Implement `HasTimestamp` for your types (e.g., events with built-in timestamps)
### Temporal Ordering
Temporal ordering means items are processed based on their intrinsic timestamp, not arrival time:
```rust
// Stream 1 sends: [timestamp=2, value=B]
// Stream 2 sends: [timestamp=1, value=A]
// Merged output: [timestamp=1, value=A], [timestamp=2, value=B] ✓ Correct temporal order
```
**How it works:**
1. Each item has a `timestamp()` value (chrono::DateTime, u64 counter, etc.)
2. Operators buffer items and emit them in order of their `timestamp()` value
3. Late-arriving items are placed correctly in the sequence
4. Gaps in timestamps may cause buffering until the sequence is complete
**When to use:**
- Event sourcing and event-driven architectures
- Time-series data processing
- Distributed system event correlation
- Any scenario where arrival order ≠logical order
### Error Propagation
All operators use `StreamItem<T>` for structured error handling:
```rust
pub enum StreamItem<T> {
Value(T), // Successful value
Error(FluxionError), // Error (lock failures, processing errors, etc.)
}
```
**Error handling patterns:**
```rust
// Pattern 1: Unwrap (panic on error)
let value = stream.next().await.unwrap().unwrap();
// Pattern 2: Filter errors
let values = stream
.filter_map(|item| async move { item.ok() })
.collect().await;
// Pattern 3: Handle explicitly
match stream.next().await {
Some(StreamItem::Value(v)) => process(v),
Some(StreamItem::Error(e)) => log_error(e),
None => break,
}
```
See [Error Handling Guide](../docs/ERROR-HANDLING.md) for comprehensive patterns.
## Stream Operators
### Combination Operators
#### `combine_latest`
Combines multiple streams, emitting when any stream emits (after all have emitted once).
**Use case:** Dashboard combining data from multiple sources
```rust
use fluxion_stream::CombineLatestExt;
let combined = stream1.combine_latest(
vec![stream2, stream3],
|state| state.values().len() == 3 // Emit when all present
);
```
**Behavior:**
- Waits for initial values from all streams
- Emits combined state when any stream produces a value
- Maintains latest value from each stream
- Preserves temporal ordering based on triggering stream
[Full documentation](src/combine_latest.rs) | [Tests](tests/combine_latest_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#combine_latest---latest-values-from-all-streams)
#### `with_latest_from`
Samples secondary streams only when primary stream emits.
**Use case:** User actions enriched with latest configuration/state
```rust
use fluxion_stream::WithLatestFromExt;
let enriched = user_clicks.with_latest_from(
vec![config_stream, state_stream],
|combined| combined.is_complete(),
|_primary, secondary| secondary.clone()
);
```
**Behavior:**
- Only emits when primary stream emits
- Samples latest values from secondary streams
- Primary stream drives the emission timing
- Secondary streams provide context
#### `ordered_merge`
Merges multiple streams preserving temporal order.
**Use case:** Event log from multiple services
```rust
use fluxion_stream::OrderedStreamExt;
let merged = stream1.ordered_merge(vec![stream2, stream3]);
```
**Behavior:**
- Emits all items from all streams
- Items emitted in order of their `timestamp()` value
- Buffers items to ensure correct ordering
- Completes when all input streams complete
[Full documentation](src/ordered_merge.rs) | [Tests](tests/merge_ordered_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#ordered_merge---temporal-ordering-of-multiple-streams)
#### `merge_with`
Stateful merging of multiple streams with shared state.
**Use case:** Repository pattern, event sourcing, aggregating events into domain state
```rust
use fluxion_stream::MergedStream;
use fluxion_test_utils::Sequenced;
struct Repository {
users: HashMap<UserId, User>,
orders: HashMap<OrderId, Order>,
}
let merged = MergedStream::seed::<Sequenced<Event>>(Repository::new())
.merge_with(user_stream, |event, repo| {
repo.users.insert(event.user_id, event.user);
Event::UserAdded(event.user_id)
})
.merge_with(order_stream, |event, repo| {
repo.orders.insert(event.order_id, event.order);
Event::OrderCreated(event.order_id)
})
.into_fluxion_stream();
```
**Behavior:**
- Maintains shared mutable state across all merged streams
- Processes events in temporal order (uses `ordered_merge` internally)
- Each `merge_with` call adds a new stream to the merge
- State is locked per-item for thread safety
- Can chain with other operators via `into_fluxion_stream()`
**Key Features:**
- **Stateful**: Shared state accessible to all processing functions
- **Composable**: Chain multiple `merge_with` calls
- **Type-safe**: Output type specified once in `seed()`
- **Ordered**: Temporal ordering guaranteed across all streams
[Full documentation](src/merge_with.rs) | [Tests](tests/merge_with_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#merge_with---repository-pattern-merging)
### Filtering Operators
#### `emit_when`
Gates source emissions based on filter stream conditions.
**Use case:** Only emit sensor data when system is active
```rust
use fluxion_stream::EmitWhenExt;
let gated = source.emit_when(
filter_stream,
|filter_value| *filter_value > 0 // Predicate for gating
);
```
**Behavior:**
- Buffers source items when gate is closed
- Emits buffered items when gate opens
- Maintains temporal ordering
- Completes when source completes
[Full documentation](src/emit_when.rs) | [Tests](tests/emit_when_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#emit_when---conditional-emission-with-secondary-stream)
#### `take_latest_when`
Samples source when filter condition is met.
**Use case:** Capture latest sensor reading on user request
```rust
use fluxion_stream::TakeLatestWhenExt;
let sampled = source.take_latest_when(
trigger_stream,
|trigger| *trigger == true
);
```
**Behavior:**
- Maintains latest value from source
- Emits latest value when filter condition is true
- Discards intermediate values (only latest matters)
- Useful for sampling / snapshot patterns
#### `sample_ratio`
Probabilistic downsampling with configurable ratio.
**Use case:** Load reduction, logging sampling, monitoring downsampling
```rust
use fluxion_stream::SampleRatioExt;
// Sample approximately 10% of items
let sampled = stream.sample_ratio(0.1, fastrand::u64(..));
// For testing with deterministic seed
let sampled = stream.sample_ratio(0.5, 42);
```
**Behavior:**
- Ratio range: `0.0` (emit nothing) to `1.0` (emit all)
- Panics if ratio outside valid range
- Deterministic with same seed for reproducible tests
- Errors always pass through (never sampled)
- Timestamp-preserving
#### `take_while_with`
Emits while condition holds, terminates when false.
**Use case:** Process events until shutdown signal
```rust
use fluxion_stream::TakeWhileExt;
let bounded = source.take_while_with(
condition_stream,
|condition| *condition == true
);
```
**Behavior:**
- Emits source items while condition is true
- Terminates stream when condition becomes false
- First false terminates immediately
- Preserves temporal ordering until termination
### Transformation Operators
#### `scan_ordered`
Accumulates state across stream items, emitting intermediate results.
**Use case:** Running totals, moving averages, state machines, building collections over time
```rust
use fluxion_stream::ScanOrderedExt;
use fluxion_test_utils::Sequenced;
let sums = stream.scan_ordered::<Sequenced<i32>, _, _>(0, |acc, val| {
*acc += val;
*acc
});
```
**Behavior:**
- Maintains accumulator state that persists across all items
- Emits transformed value for each input
- Errors propagate without affecting state
- Can transform types (e.g., i32 → String)
- Preserves timestamps from source items
**Common Patterns:**
- **Running sum/count**: Accumulate numeric values
- **Building collections**: Gather items into Vec/HashMap
- **State machines**: Track state transitions with context
- **Moving calculations**: Windowed statistics
[Full documentation](src/scan_ordered.rs) | [Tests](tests/scan_ordered_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#scan_ordered---stateful-accumulation)
#### `combine_with_previous`
Pairs each value with the previous value.
**Use case:** Detect value changes or calculate deltas
```rust
use fluxion_stream::CombineWithPreviousExt;
let pairs = stream.combine_with_previous();
// Output: WithPrevious { previous: Some(1), current: 2 }
```
**Behavior:**
- First item has `previous = None`
- Subsequent items have `previous = Some(prev)`
- Useful for change detection and delta calculations
- Preserves temporal ordering
#### `window_by_count`
Batches stream items into fixed-size windows.
**Use case:** Batch processing, aggregating metrics, reducing API calls
```rust
use fluxion_stream::WindowByCountExt;
let windowed = stream.window_by_count(3);
// Emits: vec![item1, item2, item3], vec![item4, item5, item6], ...
```
**Behavior:**
- Collects items into windows of specified size
- Emits complete window when size is reached
- Emits partial window on stream completion
- Errors pass through immediately (not batched)
- Useful for batch processing and reducing downstream operations
### Utility Operators
#### `map_ordered`
Maps values while preserving ordering wrapper.
```rust
let mapped = stream.map_ordered(|x| x * 2);
```
[Full documentation](src/map_ordered.rs) | [Tests](tests/map_ordered_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#map_ordered---value-transformation)
#### `filter_ordered`
Filters values while preserving ordering wrapper.
```rust
let filtered = stream.filter_ordered(|x| *x > 10);
```
[Full documentation](src/filter_ordered.rs) | [Tests](tests/filter_ordered_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#filter_ordered---conditional-filtering)
#### `distinct_until_changed`
Suppresses consecutive duplicate values.
#### `distinct_until_changed_by`
Custom duplicate suppression with comparison function.
**Use case:** Field comparison, case-insensitive matching, threshold filtering, custom equality
**Behavior:**
- Custom comparison function for flexible duplicate detection
- No `PartialEq` requirement on inner type
- Comparison returns `true` if values considered equal (filtered)
- Follows Rust patterns: `sort_by`, `dedup_by`, `max_by`
[Full documentation](src/distinct_until_changed_by.rs) | [Tests](tests/distinct_until_changed_by_tests.rs) | [Benchmarks](../benchmarks/BENCHMARKS.md#distinct_until_changed_by---custom-duplicate-suppression)
#### `tap`
Perform side-effects without transforming items.
**Use case:** Debugging, logging, metrics collection, tracing
```rust
use fluxion_stream::{IntoFluxionStream, TapExt};
let pipeline = rx.into_fluxion_stream()
.tap(|x| println!("Input: {:?}", x))
.map_ordered(|x| Sequenced::new(x.into_inner() * 2))
.tap(|x| println!("After map: {:?}", x));
```
**Behavior:**
- Pass-through operator: items flow unchanged
- Callback invoked with reference to each value
- Errors pass through unchanged (callback not invoked for errors)
- Timestamp-preserving
### Error Handling Operators
#### `on_error`
Selectively consume or propagate errors using the Chain of Responsibility pattern.
**Use case:** Logging errors, metrics collection, conditional error recovery
```rust
use fluxion_stream::OnErrorExt;
let handled = stream
.on_error(|err| {
if err.to_string().contains("validation") {
log::warn!("Validation error: {}", err);
true // Consume validation errors
} else {
false // Propagate other errors
}
})
.on_error(|_| {
metrics::increment("errors");
true // Catch-all
});
```
**Behavior:**
- Handler returns `true` to consume error (removes `StreamItem::Error`)
- Handler returns `false` to propagate error downstream
- Multiple `on_error` calls can be chained
- Value items pass through unchanged
- Enables side effects (logging, metrics) while filtering errors
[Full documentation](src/fluxion_stream.rs#L780-L866) | [Tests](tests/on_error_tests.rs) | [Specification](../docs/FLUXION_OPERATOR_SUMMARY.md#on_error)
### Splitting Operators
#### `partition`
Splits a stream into two based on a predicate.
**Use case:** Error routing, priority queues, type routing, threshold filtering
```rust
use fluxion_stream::{IntoFluxionStream, PartitionExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
let (tx, rx) = tokio::sync::mpsc::unbounded_channel();
// Partition numbers into even and odd
let (mut evens, mut odds) = rx.into_fluxion_stream()
.partition(|n: &i32| n % 2 == 0);
tx.send(Sequenced::new(1)).unwrap();
tx.send(Sequenced::new(2)).unwrap();
tx.send(Sequenced::new(3)).unwrap();
tx.send(Sequenced::new(4)).unwrap();
drop(tx);
// evens: 2, 4
// odds: 1, 3
```
**Behavior:**
- Chain-breaking operator (returns two streams)
- Spawns background routing task
- Timestamp-preserving (original timestamps maintained)
- Error propagation to both output streams
- Unbounded internal buffers
- Each item goes to exactly one output stream
### Multicasting Operators
#### `share`
Convert a cold stream into a hot, multi-subscriber broadcast source.
**Use case:** Share expensive computations across multiple consumers
```rust
use fluxion_stream::{IntoFluxionStream, ShareExt, FilterOrderedExt, MapOrderedExt};
use fluxion_test_utils::Sequenced;
let (tx, rx) = tokio::sync::mpsc::unbounded_channel::<Sequenced<i32>>();
// Source operators run ONCE
let source = rx.into_fluxion_stream()
.map_ordered(|x: Sequenced<i32>| Sequenced::new(x.into_inner() * 2));
// Share among multiple subscribers
let shared = source.share();
// Each subscriber chains independently
let evens = shared.subscribe().unwrap()
.filter_ordered(|x| x.into_inner() % 2 == 0);
let strings = shared.subscribe().unwrap()
.map_ordered(|x: Sequenced<i32>| Sequenced::new(x.into_inner().to_string()));
```
**Behavior:**
- **Hot stream**: Late subscribers do not receive past items
- **Shared execution**: Source operators run once; results are broadcast to all
- **Subscription factory**: Call `subscribe()` to create independent subscriber streams
- **Error propagation**: Errors broadcast to all subscribers, then source closes
## Operator Selection Guide
### When You Need Combined State
| `combine_latest` | Any stream emits | Latest from all streams | Dashboards, state aggregation |
| `with_latest_from` | Primary emits | Primary + context | Enriching events with state |
| `merge_with` | Any stream emits | Transformed via state | Repository pattern, event sourcing |
### When You Need All Items
| `ordered_merge` | Every item | Temporal | Event logs, audit trails |
| `combine_with_previous` | Pairs (prev, curr) | Temporal | Change detection, deltas |
| `scan_ordered` | Accumulated state | Temporal | Running totals, state machines |
### When You Need Conditional Emission
| `emit_when` | Yes (buffers when gated) | Source completes | Conditional processing |
| `take_latest_when` | No (only latest) | Source completes | Sampling, snapshots |
| `take_while_with` | No | First false | Bounded processing |
| `sample_ratio` | No | Source completes | Load reduction, logging sampling |
### When You Need Deduplication
| `distinct_until_changed` | `PartialEq` | Inner type must implement `PartialEq` | Simple duplicate suppression |
| `distinct_until_changed_by` | Custom function | No trait requirements | Field comparison, case-insensitive, threshold-based |
### When You Need Error Handling
| `on_error` | Selective | Yes (logging, metrics) | Handler-controlled | Layered error handling, monitoring |
### When You Need Debugging / Observability
| `tap` | No (pass-through) | Yes (logging, metrics) | Debugging pipelines, tracing, metrics |
### When You Need Multicasting
| `share` | Miss past items | Once (broadcast) | Sharing expensive computations, fan-out |
### When You Need Stream Splitting
| `partition` | Two streams | By predicate | Error routing, priority queues, threshold filtering |
## Quick Start
Add to your `Cargo.toml`:
```toml
[dependencies]
fluxion-stream = "0.5"
fluxion-core = "0.5"
tokio = { version = "1", features = ["full"] }
futures = "0.3"
```
Basic usage:
```rust
use fluxion_stream::{IntoFluxionStream, OrderedStreamExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
#[tokio::main]
async fn main() {
// Create channels
let (tx1, rx1) = tokio::sync::mpsc::unbounded_channel();
let (tx2, rx2) = tokio::sync::mpsc::unbounded_channel();
// Create streams
let stream1 = rx1.into_fluxion_stream();
let stream2 = rx2.into_fluxion_stream();
// Merge in temporal order
let mut merged = stream1.ordered_merge(vec![stream2]);
// Send values (out of order)
tx2.send(Sequenced::with_sequence(100, 1)).unwrap();
tx1.send(Sequenced::with_sequence(200, 2)).unwrap();
// Receive in temporal order
let first = merged.next().await.unwrap().unwrap();
assert_eq!(first.value, 100); // seq=1 emitted first
}
```
## Examples
### Combine Latest for Dashboard
```rust
use fluxion_stream::{IntoFluxionStream, CombineLatestExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let (cpu_tx, cpu_rx) = tokio::sync::mpsc::unbounded_channel();
let (mem_tx, mem_rx) = tokio::sync::mpsc::unbounded_channel();
let cpu_stream = cpu_rx.into_fluxion_stream();
let mem_stream = mem_rx.into_fluxion_stream();
let mut dashboard = cpu_stream.combine_latest(
vec![mem_stream],
|state| state.values().len() == 2
);
// Send metrics
cpu_tx.send(Sequenced::with_sequence(45, 1)).unwrap();
mem_tx.send(Sequenced::with_sequence(78, 2)).unwrap();
// Get combined state
if let Some(item) = dashboard.next().await {
let state = item.unwrap();
let values = state.get().values();
println!("CPU: {}%, Memory: {}%", values[0], values[1]);
}
Ok(())
}
```
### Filter with emit_when
```rust
use fluxion_stream::{IntoFluxionStream, EmitWhenExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let (data_tx, data_rx) = tokio::sync::mpsc::unbounded_channel();
let (gate_tx, gate_rx) = tokio::sync::mpsc::unbounded_channel();
let data = data_rx.into_fluxion_stream();
let gate = gate_rx.into_fluxion_stream();
let mut gated = data.emit_when(gate, |open| *open);
// Send data while gate is closed
data_tx.send(Sequenced::with_sequence(1, 1)).unwrap();
data_tx.send(Sequenced::with_sequence(2, 2)).unwrap();
gate_tx.send(Sequenced::with_sequence(false, 3)).unwrap();
// Open gate - buffered items released
gate_tx.send(Sequenced::with_sequence(true, 4)).unwrap();
// Items 1 and 2 are now emitted
let first = gated.next().await.unwrap().unwrap();
assert_eq!(first.value, 1);
Ok(())
}
```
### Running Total with scan_ordered
```rust
use fluxion_stream::{IntoFluxionStream, ScanOrderedExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let (tx, rx) = tokio::sync::mpsc::unbounded_channel();
let stream = rx.into_fluxion_stream();
// Calculate running sum
let mut running_sum = stream.scan_ordered::<Sequenced<i32>, _, _>(0, |acc, val| {
*acc += val;
*acc
});
tx.send(Sequenced::with_sequence(10, 1)).unwrap();
tx.send(Sequenced::with_sequence(20, 2)).unwrap();
tx.send(Sequenced::with_sequence(30, 3)).unwrap();
// First sum: 0 + 10 = 10
let first = running_sum.next().await.unwrap().unwrap();
assert_eq!(first.value, 10);
// Second sum: 10 + 20 = 30
let second = running_sum.next().await.unwrap().unwrap();
assert_eq!(second.value, 30);
// Third sum: 30 + 30 = 60
let third = running_sum.next().await.unwrap().unwrap();
assert_eq!(third.value, 60);
Ok(())
}
```
### Change Detection with combine_with_previous
```rust
use fluxion_stream::{IntoFluxionStream, CombineWithPreviousExt};
use fluxion_test_utils::Sequenced;
use futures::StreamExt;
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let (tx, rx) = tokio::sync::mpsc::unbounded_channel();
let stream = rx.into_fluxion_stream();
let mut pairs = stream.combine_with_previous();
tx.send(Sequenced::with_sequence(10, 1)).unwrap();
tx.send(Sequenced::with_sequence(15, 2)).unwrap();
tx.send(Sequenced::with_sequence(15, 3)).unwrap();
// First item - no previous
let first = pairs.next().await.unwrap().unwrap();
assert_eq!(first.get().current, 10);
assert_eq!(first.get().previous, None);
// Second item - has previous
let second = pairs.next().await.unwrap().unwrap();
let (prev, curr) = second.get().as_pair();
assert_eq!(prev, Some(&10));
assert_eq!(curr, &15);
// Third item - detect no change
let third = pairs.next().await.unwrap().unwrap();
let (prev, curr) = third.get().as_pair();
if prev == Some(curr) {
println!("Value unchanged: {}", curr);
}
Ok(())
}
```
## Testing
Run all tests:
```bash
cargo test
```
Run specific operator tests:
```bash
cargo test --test combine_latest_tests
cargo test --test ordered_merge_tests
cargo test --test emit_when_tests
```
Run with error tests:
```bash
cargo test combine_latest_error_tests
```
The crate includes comprehensive test coverage for:
- Operator functionality (basic behavior)
- Error propagation scenarios
- Edge cases (empty streams, single items, etc.)
- Temporal ordering correctness
- Concurrent stream handling
## License
Licensed under the Apache License, Version 2.0. See [LICENSE](../LICENSE) for details.