Crates.io | tsz |
lib.rs | tsz |
version | 0.1.4 |
source | src |
created_at | 2016-12-29 20:18:02.640814 |
updated_at | 2023-03-04 01:25:09.142616 |
description | A crate for time series compression based upon Facebook's Gorilla whitepaper |
homepage | https://github.com/jeromefroe/tsz-rs |
repository | https://github.com/jeromefroe/tsz-rs.git |
max_upload_size | |
id | 7847 |
size | 46,531 |
A crate for time series compression based upon Facebook's white paper
Gorilla: A Fast, Scalable, In-Memory Time Series Database.
Provides functionality for compressing a stream of DataPoint
s, which are composed of a time and
value, into bytes, and decompressing a stream of bytes into DataPoint
s.
Below is a simple example of how to interact with tsz
to encode and decode DataPoint
s.
extern crate tsz;
use std::vec::Vec;
use tsz::{DataPoint, Encode, Decode, StdEncoder, StdDecoder};
use tsz::stream::{BufferedReader, BufferedWriter};
use tsz::decode::Error;
const DATA: &'static str = "1482892270,1.76
1482892280,7.78
1482892288,7.95
1482892292,5.53
1482892310,4.41
1482892323,5.30
1482892334,5.30
1482892341,2.92
1482892350,0.73
1482892360,-1.33
1482892370,-1.78
1482892390,-12.45
1482892401,-34.76
1482892490,78.9
1482892500,335.67
1482892800,12908.12
";
fn main() {
let w = BufferedWriter::new();
// 1482892260 is the Unix timestamp of the start of the stream
let mut encoder = StdEncoder::new(1482892260, w);
let mut actual_datapoints = Vec::new();
for line in DATA.lines() {
let substrings: Vec<&str> = line.split(",").collect();
let t = substrings[0].parse::<u64>().unwrap();
let v = substrings[1].parse::<f64>().unwrap();
let dp = DataPoint::new(t, v);
actual_datapoints.push(dp);
}
for dp in &actual_datapoints {
encoder.encode(*dp);
}
let bytes = encoder.close();
let r = BufferedReader::new(bytes);
let mut decoder = StdDecoder::new(r);
let mut expected_datapoints = Vec::new();
let mut done = false;
loop {
if done {
break;
}
match decoder.next() {
Ok(dp) => expected_datapoints.push(dp),
Err(err) => {
if err == Error::EndOfStream {
done = true;
} else {
panic!("Received an error from decoder: {:?}", err);
}
}
};
}
println!("actual datapoints: {:?}", actual_datapoints);
println!("expected datapoints: {:?}", expected_datapoints);
}