Crates.io | highs |
lib.rs | highs |
version | 1.6.1 |
source | src |
created_at | 2021-02-26 20:00:18.492952 |
updated_at | 2023-11-26 21:23:22.970958 |
description | Safe rust bindings for the HiGHS linear programming solver. See http://highs.dev. |
homepage | |
repository | https://github.com/rust-or/highs |
max_upload_size | |
id | 361049 |
size | 42,836 |
Safe rust bindings to the Highs MILP Solver. Best used from the good_lp linear programming modeler.
use highs::{ColProblem, Sense};
fn main() {
let mut pb = ColProblem::new();
// We cannot use more then 5 units of sugar in total.
let sugar = pb.add_row(..=5);
// We cannot use more then 3 units of milk in total.
let milk = pb.add_row(..=3);
// We have a first cake that we can sell for 2€. Baking it requires 1 unit of milk and 2 of sugar.
pb.add_integer_column(2., 0.., &[(sugar, 2.), (milk, 1.)]);
// We have a second cake that we can sell for 8€. Baking it requires 2 units of milk and 3 of sugar.
pb.add_integer_column(8., 0.., &[(sugar, 3.), (milk, 2.)]);
// Find the maximal possible profit
let solution = pb.optimise(Sense::Maximise).solve().get_solution();
// The solution is to bake one cake of each sort
assert_eq!(solution.columns(), vec![1., 1.]);
}
use highs::*;
fn main() {
let mut pb = RowProblem::new();
// Optimize 3x - 2y with x<=6 and y>=5
let x = pb.add_column(3., ..6);
let y = pb.add_column(-2., 5..);
pb.add_row(2.., &[(x, 3.), (y, 8.)]); // 2 <= x*3 + y*8
}