kdtree-rust/tests/integration_tests.rs

extern crate kdtree;
extern crate rand;

use rand::Rng;

use kdtree::kdtree::test_common::*;
use kdtree::kdtree::KdtreePointTrait;

fn gen_random() -> f64 {
    rand::thread_rng().gen_range(0., 10000.)
}

fn find_nn_with_linear_search(points : &Vec<Point3WithId>, find_for : Point3WithId) -> &Point3WithId {
    let distance_fun = kdtree::kdtree::distance::squared_euclidean;


    let mut best_found_distance =  distance_fun(find_for.dims(), points[0].dims());
    let mut closed_found_point = &points[0];

    for p in points {
        let dist = distance_fun(find_for.dims(), p.dims());

        if dist < best_found_distance {
            best_found_distance = dist;
            closed_found_point = &p;
        }
    }

    closed_found_point
}

fn generate_points(point_count : usize) -> Vec<Point3WithId> {
    let mut points : Vec<Point3WithId> = vec![];

    for i in 0 .. point_count {
        points.push(Point3WithId::new(i as i32, gen_random(),gen_random(),gen_random()));
    }

    points
}


#[test]
fn test_against_1000_random_points() {
    let point_count = 1000usize;
    let points = generate_points(point_count);
    kdtree::kdtree::test_common::Point1WithId::new(0,0.);

    let tree = kdtree::kdtree::Kdtree::new(&mut points.clone());

    //test points pushed into the tree, id should be equal.
    for i in 0 .. point_count {
        let p = &points[i];

        assert_eq!(p.id, tree.nearest_search(p).id );
    }

    //test randomly generated points within the cube. and do the linear search. should match
    for _ in 0 .. 500 {
        let p = Point3WithId::new(0i32, gen_random(), gen_random(), gen_random());

        let found_by_linear_search = find_nn_with_linear_search(&points, p);
        let point_found_by_kdtree = tree.nearest_search(&p);

        assert_eq!(point_found_by_kdtree.id, found_by_linear_search.id);
    }
}

#[test]
fn test_incrementally_build_tree_against_built_at_once() {
    let point_count = 2000usize;
    let mut points = generate_points(point_count);

    let tree_built_at_once = kdtree::kdtree::Kdtree::new(&mut points.clone());
    let mut tree_built_incrementally = kdtree::kdtree::Kdtree::new(&mut points[0..1]);

    for i in 1 .. point_count {
        let p = &points[i];

        tree_built_incrementally.insert_node(p.clone());
    }


    //test points pushed into the tree, id should be equal.
    for i in 0 .. point_count {
        let p = &points[i];

        assert_eq!(tree_built_at_once.nearest_search(p).id, tree_built_incrementally.nearest_search(p).id);
    }


    //test randomly generated points within the cube. and do the linear search. should match
    for _ in 0 .. 5000 {
        let p = Point3WithId::new(0i32, gen_random(), gen_random(), gen_random());
        assert_eq!(tree_built_at_once.nearest_search(&p).id, tree_built_incrementally.nearest_search(&p).id);
    }
}
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00			`extern crate kdtree;`
			`extern crate rand;`

			`use rand::Rng;`

Removed duplication, insert_node now checks for duplicates 2016-12-30 22:14:34 +04:00			`use kdtree::kdtree::test_common::*;`
			`use kdtree::kdtree::KdtreePointTrait;`
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00
			`fn gen_random() -> f64 {`
			`rand::thread_rng().gen_range(0., 10000.)`
			`}`

Added distance_squared_to_nearest 2016-12-31 06:32:20 +04:00			`fn find_nn_with_linear_search(points : &Vec<Point3WithId>, find_for : Point3WithId) -> &Point3WithId {`
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00			`let distance_fun = kdtree::kdtree::distance::squared_euclidean;`

Removed duplication, insert_node now checks for duplicates 2016-12-30 22:14:34 +04:00
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00			`let mut best_found_distance = distance_fun(find_for.dims(), points[0].dims());`
			`let mut closed_found_point = &points[0];`

			`for p in points {`
			`let dist = distance_fun(find_for.dims(), p.dims());`

			`if dist < best_found_distance {`
			`best_found_distance = dist;`
			`closed_found_point = &p;`
			`}`
			`}`

			`closed_found_point`
			`}`

Implemented insert node, need to make it so that tree sometimes automatically rebalances itself 2016-12-30 19:54:50 +04:00			`fn generate_points(point_count : usize) -> Vec<Point3WithId> {`
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00			`let mut points : Vec<Point3WithId> = vec![];`

			`for i in 0 .. point_count {`
			`points.push(Point3WithId::new(i as i32, gen_random(),gen_random(),gen_random()));`
			`}`

Implemented insert node, need to make it so that tree sometimes automatically rebalances itself 2016-12-30 19:54:50 +04:00			`points`
			`}`

Removed duplication, insert_node now checks for duplicates 2016-12-30 22:14:34 +04:00
Implemented insert node, need to make it so that tree sometimes automatically rebalances itself 2016-12-30 19:54:50 +04:00			`#[test]`
			`fn test_against_1000_random_points() {`
			`let point_count = 1000usize;`
Refactoring benches, working on new bench 2016-12-30 21:10:30 +04:00			`let points = generate_points(point_count);`
Removed duplication, insert_node now checks for duplicates 2016-12-30 22:14:34 +04:00			`kdtree::kdtree::test_common::Point1WithId::new(0,0.);`
Implemented insert node, need to make it so that tree sometimes automatically rebalances itself 2016-12-30 19:54:50 +04:00
Kdtree now accepts slice instead of vec. 2016-12-28 15:37:42 +04:00			`let tree = kdtree::kdtree::Kdtree::new(&mut points.clone());`
Issue3 (#4) Added integration tests 2016-12-27 05:40:46 +04:00
			`//test points pushed into the tree, id should be equal.`
			`for i in 0 .. point_count {`
			`let p = &points[i];`

			`assert_eq!(p.id, tree.nearest_search(p).id );`
			`}`

			`//test randomly generated points within the cube. and do the linear search. should match`
			`for _ in 0 .. 500 {`
			`let p = Point3WithId::new(0i32, gen_random(), gen_random(), gen_random());`

			`let found_by_linear_search = find_nn_with_linear_search(&points, p);`
			`let point_found_by_kdtree = tree.nearest_search(&p);`

			`assert_eq!(point_found_by_kdtree.id, found_by_linear_search.id);`
			`}`
Implemented insert node, need to make it so that tree sometimes automatically rebalances itself 2016-12-30 19:54:50 +04:00			`}`

			`#[test]`
			`fn test_incrementally_build_tree_against_built_at_once() {`
			`let point_count = 2000usize;`
			`let mut points = generate_points(point_count);`

			`let tree_built_at_once = kdtree::kdtree::Kdtree::new(&mut points.clone());`
			`let mut tree_built_incrementally = kdtree::kdtree::Kdtree::new(&mut points[0..1]);`

			`for i in 1 .. point_count {`
			`let p = &points[i];`

			`tree_built_incrementally.insert_node(p.clone());`
			`}`


			`//test points pushed into the tree, id should be equal.`
			`for i in 0 .. point_count {`
			`let p = &points[i];`

			`assert_eq!(tree_built_at_once.nearest_search(p).id, tree_built_incrementally.nearest_search(p).id);`
			`}`


			`//test randomly generated points within the cube. and do the linear search. should match`
			`for _ in 0 .. 5000 {`
			`let p = Point3WithId::new(0i32, gen_random(), gen_random(), gen_random());`
			`assert_eq!(tree_built_at_once.nearest_search(&p).id, tree_built_incrementally.nearest_search(&p).id);`
			`}`
Removed duplication, insert_node now checks for duplicates 2016-12-30 22:14:34 +04:00			`}`