Expand description
§Voronota
Voronota-LT (pronounced ‘voronota lite’) is an alternative version of Voronota for constructing tessellation-derived atomic contact areas and volumes. Voronota-LT was written from scratch and does not use any external code, even from the core Voronota. The primary motivation for creating Voronota-LT was drastically increasing the speed of computing tessellation-based atom-atom contact areas and atom solvent-accessible surface areas. Like Voronota, Voronota-LT can compute contact areas derived from the additively weighted Voronoi tessellation, but the main increase in speed comes when utilizing a simpler, radical tessellation variant, also known as Laguerre-Laguerre tessellation or power diagram. This is the default tessellation variant in Voronota-LT. It considers radii of atoms together with the rolling probe radius to define radical planes as bisectors between atoms.
§Example
use voronota::{Ball, RadicalTessellation};
let balls = vec![
Ball { x: 0.0, y: 0.0, z: 0.0, r: 2.0 },
Ball { x: 1.0, y: 0.0, z: 0.0, r: 2.0 },
];
let tessellation = RadicalTessellation::from_balls(1.4, &balls, None);
assert_eq!(tessellation.balls.len(), 2);
assert_eq!(tessellation.contacts.len(), 1);
assert_eq!(tessellation.cells.len(), 2);
let total_area: f64 = tessellation.cells.iter().map(|c| c.sas_area).sum();
assert_eq!(total_area, 166.6300743464026);Structs§
- Ball with a position (x, y, z) and a radius r.
- Cell with sas_area, volume and included flag.
- Contact between two balls with indices index_a and index_b, area and arc_length.
- Radical tessellation with a probe radius, list of balls, contacts and cells.
- Simple point with x, y and z coordinates.