#[cfg(feature = "parallel")]
use super::super::*;
#[cfg(feature = "parallel")]
use super::{assert_close, EPS};
#[cfg(feature = "parallel")]
use crate::problem::SolveStatus;
#[cfg(feature = "parallel")]
use crate::sparse::CscMatrix;
#[cfg(feature = "parallel")]
#[test]
fn test_concurrent_eq_constraint() {
let q = CscMatrix::from_triplets(&[0, 1], &[0, 1], &[2.0, 2.0], 2, 2).unwrap();
let c = vec![0.0, 0.0];
let a = CscMatrix::from_triplets(&[0, 0], &[0, 1], &[1.0, 1.0], 1, 2).unwrap();
let b = vec![1.0];
let bounds = vec![(f64::NEG_INFINITY, f64::INFINITY); 2];
let problem =
QpProblem::new(q, c, a, b, bounds, vec![crate::problem::ConstraintType::Eq]).unwrap();
let opts = SolverOptions {
timeout_secs: Some(5.0),
..Default::default()
};
let start = std::time::Instant::now();
let result = solve_qp_with(&problem, &opts);
assert!(start.elapsed().as_secs_f64() < 6.0);
assert_eq!(result.status, SolveStatus::Optimal);
assert_close(result.solution[0], 0.5, EPS, "x[0]");
assert_close(result.solution[1], 0.5, EPS, "x[1]");
}
#[cfg(feature = "parallel")]
#[test]
fn test_concurrent_ge_constraint() {
use crate::problem::ConstraintType;
let q = CscMatrix::from_triplets(&[0, 1], &[0, 1], &[2.0, 2.0], 2, 2).unwrap();
let c = vec![0.0, 0.0];
let a = CscMatrix::from_triplets(&[0, 0], &[0, 1], &[1.0, 1.0], 1, 2).unwrap();
let b = vec![1.0];
let bounds = vec![(f64::NEG_INFINITY, f64::INFINITY); 2];
let problem = QpProblem::new(q, c, a, b, bounds, vec![ConstraintType::Ge]).unwrap();
let opts = SolverOptions {
timeout_secs: Some(5.0),
..Default::default()
};
let start = std::time::Instant::now();
let result = solve_qp_with(&problem, &opts);
assert!(start.elapsed().as_secs_f64() < 6.0);
assert_eq!(result.status, SolveStatus::Optimal);
assert_close(result.solution[0], 0.5, EPS, "x[0]");
assert_close(result.solution[1], 0.5, EPS, "x[1]");
}
#[cfg(feature = "parallel")]
#[test]
fn test_concurrent_box_constraint() {
let q = CscMatrix::from_triplets(&[0, 1], &[0, 1], &[2.0, 2.0], 2, 2).unwrap();
let c = vec![0.0, 0.0];
let a = CscMatrix::new(0, 2);
let b = vec![];
let bounds = vec![(0.0_f64, 1.0_f64); 2];
let problem = QpProblem::new_all_le(q, c, a, b, bounds).unwrap();
let opts = SolverOptions {
timeout_secs: Some(5.0),
..Default::default()
};
let start = std::time::Instant::now();
let result = solve_qp_with(&problem, &opts);
assert!(start.elapsed().as_secs_f64() < 6.0);
assert_eq!(result.status, SolveStatus::Optimal);
assert_close(result.solution[0], 0.0, EPS, "x[0]");
assert_close(result.solution[1], 0.0, EPS, "x[1]");
}
#[cfg(feature = "parallel")]
#[test]
fn test_concurrent_mixed_constraint() {
use crate::problem::ConstraintType;
let q = CscMatrix::from_triplets(&[0, 1], &[0, 1], &[2.0, 2.0], 2, 2).unwrap();
let c = vec![0.0, 0.0];
let a = CscMatrix::from_triplets(&[0, 0, 1], &[0, 1, 0], &[1.0, 1.0, 1.0], 2, 2).unwrap();
let b = vec![1.0, 1.0];
let bounds = vec![(f64::NEG_INFINITY, f64::INFINITY); 2];
let problem = QpProblem::new(
q,
c,
a,
b,
bounds,
vec![ConstraintType::Eq, ConstraintType::Le],
)
.unwrap();
let opts = SolverOptions {
timeout_secs: Some(5.0),
..Default::default()
};
let start = std::time::Instant::now();
let result = solve_qp_with(&problem, &opts);
assert!(start.elapsed().as_secs_f64() < 6.0);
assert_eq!(result.status, SolveStatus::Optimal);
assert_close(result.solution[0], 0.5, EPS, "x[0]");
assert_close(result.solution[1], 0.5, EPS, "x[1]");
}
#[cfg(feature = "parallel")]
#[test]
fn test_concurrent_unconstrained() {
let q = CscMatrix::from_triplets(&[0, 1], &[0, 1], &[2.0, 2.0], 2, 2).unwrap();
let c = vec![-2.0, -2.0];
let a = CscMatrix::new(0, 2);
let b = vec![];
let bounds = vec![(f64::NEG_INFINITY, f64::INFINITY); 2];
let problem = QpProblem::new_all_le(q, c, a, b, bounds).unwrap();
let opts = SolverOptions {
timeout_secs: Some(5.0),
..Default::default()
};
let start = std::time::Instant::now();
let result = solve_qp_with(&problem, &opts);
assert!(start.elapsed().as_secs_f64() < 6.0);
assert_eq!(result.status, SolveStatus::Optimal);
assert_close(result.solution[0], 1.0, EPS, "x[0]");
assert_close(result.solution[1], 1.0, EPS, "x[1]");
}