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//! Read and write [ASPRS LAS](https://www.asprs.org/committee-general/laser-las-file-format-exchange-activities.html) //! point cloud data. //! //! # Reading //! //! Create a `Reader` from a `Path`: //! //! ``` //! use las::Reader; //! let reader = Reader::from_path("tests/data/autzen.las").unwrap(); //! ``` //! //! Or anything that implements `Read`: //! //! ``` //! use std::io::BufReader; //! use std::fs::File; //! use las::Reader; //! let read = BufReader::new(File::open("tests/data/autzen.las").unwrap()); //! let reader = Reader::new(read).unwrap(); //! ``` //! //! ## Prefer `BufRead` //! //! Your performance will be better if your `Read` is actually a `BufRead`. `Reader::from_path` //! takes care of this for you, but `Reader::new` doesn't. //! //! ## Read points //! //! Read points one-by-one with `Reader::read`: //! //! ``` //! use las::Reader; //! let mut reader = Reader::from_path("tests/data/autzen.las").unwrap(); //! let point = reader.read().unwrap().unwrap(); //! ``` //! //! Or iterate over all points with `Reader::points`: //! //! ``` //! use las::Reader; //! let mut reader = Reader::from_path("tests/data/autzen.las").unwrap(); //! for wrapped_point in reader.points() { //! let point = wrapped_point.unwrap(); //! println!("Point coordinates: ({}, {}, {})", point.x, point.y, point.z); //! if let Some(color) = point.color { //! println!("Point color: red={}, green={}, blue={}", //! color.red, //! color.green, //! color.blue, //! ); //! } //! } //! ``` //! //! # Writing //! //! Create a `Writer` from a `Write` and a `Header`: //! //! ``` //! use std::io::Cursor; //! use las::{Writer, Header}; //! let write = Cursor::new(Vec::new()); //! let header = Header::default(); //! let writer = Writer::new(write, header).unwrap(); //! ``` //! //! You can also write out to a path (automatically buffered with `BufWriter`): //! //! ``` //! use las::Writer; //! let writer = Writer::from_path("/dev/null", Default::default()); //! ``` //! //! Use a `Builder` to customize the las data: //! //! ``` //! use std::io::Cursor; //! use las::{Writer, Builder}; //! use las::point::Format; //! //! let mut builder = Builder::from((1, 4)); //! builder.point_format = Format::new(2).unwrap(); //! let header = builder.into_header().unwrap(); //! //! let write = Cursor::new(Vec::new()); //! let writer = Writer::new(write, header).unwrap(); //! ``` //! //! ## Prefer `BufWrite` //! //! Just like the `Reader`, your performance will improve greatly if you use a `BufWrite` instead //! of just a `Write`. //! //! ## Write points //! //! Write points one at a time: //! //! ``` //! use std::io::Cursor; //! use las::{Writer, Point}; //! let mut writer = Writer::default(); //! let point = Point { x: 1., y: 2., z: 3., ..Default::default() }; //! writer.write(point).unwrap(); //! ``` #![deny(missing_docs, missing_debug_implementations, missing_copy_implementations, trivial_casts, trivial_numeric_casts, unsafe_code, unstable_features, unused_import_braces, unused_qualifications)] #![recursion_limit="128"] extern crate byteorder; extern crate chrono; extern crate num; #[macro_use] extern crate quick_error; extern crate uuid; pub mod feature; pub mod header; pub mod point; pub mod raw; pub mod reader; pub mod vlr; pub mod writer; mod bounds; mod color; mod error; mod gps_time_type; mod transform; mod utils; mod vector; mod version; pub use bounds::Bounds; pub use color::Color; pub use error::Error; pub use feature::Feature; pub use gps_time_type::GpsTimeType; pub use header::{Header, Builder}; pub use point::Point; pub use reader::Reader; pub use transform::Transform; pub use vector::Vector; pub use version::Version; pub use vlr::Vlr; pub use writer::Writer; /// Crate-specific result type. pub type Result<T> = std::result::Result<T, Error>;