# copc
[](https://crates.io/crates/copc-streaming)
[](https://docs.rs/copc-streaming)
[](https://github.com/360-geo/copc/actions/workflows/ci.yaml)
[](LICENSE)
Rust libraries for reading [COPC](https://copc.io/) (Cloud-Optimized Point Cloud) files, with support for the [COPC Temporal Index Extension](copc-temporal/docs/temporal-index-spec.md).
## Crates
### [`copc-streaming`](copc-streaming/)
[](https://crates.io/crates/copc-streaming)
[](https://docs.rs/copc-streaming)
Async streaming COPC reader. Loads octree hierarchy and point data incrementally via a `ByteSource` trait — works with HTTP range requests, local files, or any random-access byte source.
- LAS header and VLR parsing via the `las` crate
- LAZ decompression via the `laz` crate
- Incremental hierarchy page loading
- Individual chunk fetch + decompression
- `ByteSource` trait with `FileSource` (local) and `Vec<u8>` (in-memory) implementations
- No `Send` requirement on futures — WASM compatible
### [`copc-temporal`](copc-temporal/)
[](https://crates.io/crates/copc-temporal)
[](https://docs.rs/copc-temporal)
Reader for the COPC Temporal Index Extension. Enables time-range filtering of octree nodes without decompressing point data.
- Parse temporal index EVLR (paged layout for incremental loading)
- Per-node GPS time range queries
- Intra-node point range estimation via binary search
- Incremental page loading via `ByteSource` — only fetch index pages relevant to your query
- Combined spatial + temporal filtering
Depends on `copc-streaming` for core COPC types (`VoxelKey`, `Aabb`, `ByteSource`).
## Use case
When multiple survey passes cover the same area at different times, a single merged COPC file may contain overlapping data from many collection epochs. A client querying a spatial region often needs only points from a specific time window — not every pass that ever traversed that location. Without the temporal index, all spatially overlapping nodes must be decompressed. With the temporal index, irrelevant epochs are skipped before any decompression.
## Quick start
```rust
use copc_streaming::{CopcStreamingReader, FileSource, VoxelKey};
let mut reader = CopcStreamingReader::open(FileSource::open("points.copc.laz")?).await?;
// Coarse nodes are available immediately. Load finer levels as needed.
let root_bounds = reader.copc_info().root_bounds();
while reader.has_pending_pages() {
reader.load_pending_pages().await?;
}
for (key, entry) in reader.entries() {
if entry.point_count <= 0 { continue; }
if !key.bounds(&root_bounds).intersects(&query_box) { continue; }
let chunk = reader.fetch_chunk(key).await?;
let points = reader.read_points(&chunk)?;
}
```
### With temporal filtering
```rust
use copc_temporal::{GpsTime, TemporalCache};
// Load only temporal index pages that overlap the time range.
if let Some(mut temporal) = TemporalCache::from_reader(&reader).await? {
let start = GpsTime(1_000_000.0);
let end = GpsTime(1_000_010.0);
temporal.load_pages_for_time_range(reader.source(), start, end).await?;
let matching = temporal.nodes_in_range(start, end);
}
```
## Related
- [copc-converter](https://github.com/360-geo/copc-converter) — CLI tool that produces COPC files with optional temporal index
- [COPC specification](https://copc.io/)
- [Temporal index spec](copc-temporal/docs/temporal-index-spec.md)