Crates.io | sixel-tokenizer |
lib.rs | sixel-tokenizer |
version | 0.1.0 |
source | src |
created_at | 2022-07-07 07:44:39.400779 |
updated_at | 2022-07-07 07:44:39.400779 |
description | A tokenizer for serialized Sixel bytes |
homepage | |
repository | https://github.com/zellij-org/sixel-tokenizer |
max_upload_size | |
id | 620976 |
size | 55,014 |
This is a tokenizer for serialized Sixel images, for more info on the protocol, see: https://vt100.net/docs/vt3xx-gp/chapter14.html
Parser
should be given sixel bytes one by one and a callback. The callback is called with a
SixelEvent
zero or more times per byte when relevant.
use sixel_tokenizer::Parser;
fn main() {
let sample = "
\u{1b}Pq
\"2;1;100;200
#0;2;0;0;0#1;2;100;100;0#2;2;0;100;0
#1~~@@vv@@~~@@~~$
#2??}}GG}}??}}??-
#1!14@
\u{1b}\\
";
let sample_bytes = sample.as_bytes();
let mut events = vec![];
let mut parser = Parser::new();
for byte in sample_bytes {
parser.advance(&byte, |sixel_event| events.push(sixel_event));
}
let mut snapshot = String::new();
for event in events {
snapshot.push_str(&format!("{:?}", event));
snapshot.push('\n');
}
println!("{}", snapshot);
}
This program will print:
Dcs { macro_parameter: None, transparent_background: None, horizontal_pixel_distance: None }
RasterAttribute { pan: 2, pad: 1, ph: Some(100), pv: Some(200) }
ColorIntroducer { color_number: 0, color_coordinate_system: Some(RGB(0, 0, 0)) }
ColorIntroducer { color_number: 1, color_coordinate_system: Some(RGB(100, 100, 0)) }
ColorIntroducer { color_number: 2, color_coordinate_system: Some(RGB(0, 100, 0)) }
ColorIntroducer { color_number: 1, color_coordinate_system: None }
Data { byte: 126 }
...
GotoNextLine
ColorIntroducer { color_number: 1, color_coordinate_system: None }
Repeat { repeat_count: 14, byte_to_repeat: 64 }
End
MIT