mod dijkstra; mod heap; mod merge_sort; mod min_cut; mod quick_sort; mod ssc; mod util; mod two_sum; mod jobs; mod prims; use std::cmp::min; use crate::dijkstra::dijkstra; use crate::heap::heap; use crate::merge_sort::merge_sort_inversions; use crate::min_cut::min_cut; use crate::quick_sort::quick_sort; use crate::ssc::ssc; use crate::two_sum::find_two_sums; use crate::jobs::{jobs_1, jobs_2}; use crate::prims::prims; #[allow(dead_code)] fn c1a2() { let vec = util::read_to_vector("data/c1a2.txt").unwrap(); let (_sorted, inversions) = merge_sort_inversions(vec); println!("c1a2={:?}", inversions); } #[allow(dead_code)] fn c1a3() { let mut vec = util::read_to_vector("data/c1a3.txt").unwrap(); let mut comp_acc: usize = 0; quick_sort(&mut vec, &mut comp_acc); println!("c1a3={:?}", comp_acc); // 1: 162085, 2: 164123, 3: 138382 } #[allow(dead_code)] fn c1a4() { let g = util::read_to_graph("data/c1a4.txt").unwrap(); let mut smallest_min_cut = u32::MAX; let iterations = g.nodes.len().pow(1); for _ in 0..iterations { let new_min_cut = min_cut(g.clone()); if new_min_cut < smallest_min_cut { smallest_min_cut = new_min_cut; } } println!("c1a4={:?}", smallest_min_cut); // 17 } #[allow(dead_code)] fn c2a1() { // I have not checked in the graph file, because it has 70MB. This is a tiny test example. let g = util::read_to_directed_graph("data/c2a1_test.txt").unwrap(); let sizes = ssc(g.0, g.1); let max_size = min(sizes.len(), 5); println!("{:?}", &sizes[0..max_size]); // [434821, 968, 459, 313, 211] } #[allow(dead_code)] fn c2a2() { let mut requested_vertices: Vec = vec![7, 37, 59, 82, 99, 115, 133, 165, 188, 197]; let mut g = util::read_to_directed_weighted_graph("data/c2a2.txt").unwrap(); dijkstra(&mut g); for i in 0..requested_vertices.len() { requested_vertices[i] = g.distance[requested_vertices[i] - 1]; } println!("{:?}", requested_vertices); // [2599, 2610, 2947, 2052, 2367, 2399, 2029, 2442, 2505, 3068] } #[allow(dead_code)] fn c2a3() { let v = util::read_to_vector("data/c2a3.txt").unwrap(); let r = heap(&v); println!("c2a3={:?}", r); } #[allow(dead_code)] fn c2a4() { let mut v = util::read_to_vector("data/c2a4.txt").unwrap(); let r = find_two_sums(&mut v); println!("c2a4={:?}", r); // c2a4=427 } #[allow(dead_code)] fn c3a1() { let mut jobs = util::read_jobs("data/c3a1_jobs.txt").unwrap(); let r1 = jobs_1(&mut jobs); let r2 = jobs_2(&mut jobs); let g = util::read_weighted_graph("data/c3a1_edges.txt").unwrap(); let r3 = prims(&g); println!("r1 = {}; r2 = {}; r3 = {} ", r1, r2, r3); // r1 = 69119377652; r2 != 67311454237; } fn main() { // c1a2(); // c1a3(); // c1a4(); // c2a1(); // c2a2(); // c2a3(); // c2a4(); c3a1(); }