This is a forked version of the ply-rs project that was created to address the use of linked-hash-map to resolve CVE-2020-25573.
The crate has been renamed to ply-rs-bw, and minor issues were resolved to ensure compatibility with Rust 2021
edition. Additionally, an example has been added to demonstrate how to read PLY files with diverse field types
(e.g., f32 vs f64, u32 vs i32, etc.). Semantic versioning is now adopted for consistent version management.
Version 2.0.0 eliminates unnecessary cloning, as suggested by Nguyen Thuan Hung (see pull request 'Optimise by not cloning key'). While the scope of this change is limited, it modifies the signature of the public API trait PropertyAccess. The method:
fn set_property(&mut self, _property_name: String, _property: Property)
into
fn set_property(&mut self, _property_name: &String, _property: Property)
This breaking change necessitates incrementing the major version number. According to the author, this optimization reduces the time required to read 80,000 points from 450ms to 90ms, which is a significant improvement. The pull request has been reviewed and approved by our team.
Ply-rs is a small library built to read and write the PLY file format (also Polygon File Format, Standford Triangle Format). The library supports all three subformats: ASCII, big endian, and little endian.
It focuses on two main points:
- An easy and fast start.
- High performance if you're willing to do some things yourself.
Add to your Cargo.toml:
[dependencies]
ply-rs-bw = "1.0.1"Add to your root:
extern crate ply_rs_bw;
fn main() {}This is the easiest way to read a ply file:
extern crate ply_rs_bw;
use ply_rs_bw as ply;
/// Demonstrates simplest use case for reading from a file.
fn main() {
//Set up a reader, in this case, a file.
let path = "example_plys/greg_turk_example1_ok_ascii.ply";
let mut f = std::fs::File::open(path).unwrap();
// create a parser
let p = ply::parser::Parser::<ply::ply::DefaultElement>::new();
// use the parser: read the entire file
let ply = p.read_ply(&mut f);
// make sure it did work
assert!(ply.is_ok());
let ply = ply.unwrap();
// proof that data has been read
println!("Ply header: {:#?}", ply.header);
println!("Ply data: {:?}", ply.payload);
}The simplest case of writing a ply file:
extern crate ply_rs_bw;
use ply_rs_bw::ply::{ Ply, DefaultElement };
use ply_rs_bw::writer::{ Writer };
/// Demonstrates simplest use case for reading from a file.
fn main() {
// set up a target could also be a file
let mut buf = Vec::<u8>::new();
// create a ply object
let mut ply = Ply::<DefaultElement>::new();
// set up a writer
let w = Writer::new();
let written = w.write_ply(&mut buf, &mut ply).unwrap();
println!("{} bytes written", written);
println!("buffer size: {}", buf.len());
// proof that data has been read
// We can use `from_utf8` since PLY files only contain ASCII characters
let output = String::from_utf8(buf).unwrap();
println!("Written data:\n{}", output);
}For more complicated examples, please see the examples.
This implementation is mainly based on these specifications with additions from here.