/* graph This problem requires you to implement a basic graph functio */ // I AM NOT DONE use std::collections::{HashMap, HashSet}; use std::fmt; #[derive(Debug, Clone)] pub struct NodeNotInGraph; impl fmt::Display for NodeNotInGraph { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "accessing a node that is not in the graph") } } pub struct UndirectedGraph { adjacency_table: HashMap>, } impl Graph for UndirectedGraph { fn new() -> UndirectedGraph { UndirectedGraph { adjacency_table: HashMap::new(), } } fn adjacency_table_mutable(&mut self) -> &mut HashMap> { &mut self.adjacency_table } fn adjacency_table(&self) -> &HashMap> { &self.adjacency_table } fn add_edge(&mut self, edge: (&str, &str, i32)) { //TODO } } pub trait Graph { fn new() -> Self; fn adjacency_table_mutable(&mut self) -> &mut HashMap>; fn adjacency_table(&self) -> &HashMap>; fn add_node(&mut self, node: &str) -> bool { //TODO true } fn add_edge(&mut self, edge: (&str, &str, i32)) { //TODO } fn contains(&self, node: &str) -> bool { self.adjacency_table().get(node).is_some() } fn nodes(&self) -> HashSet<&String> { self.adjacency_table().keys().collect() } fn edges(&self) -> Vec<(&String, &String, i32)> { let mut edges = Vec::new(); for (from_node, from_node_neighbours) in self.adjacency_table() { for (to_node, weight) in from_node_neighbours { edges.push((from_node, to_node, *weight)); } } edges } } #[cfg(test)] mod test_undirected_graph { use super::Graph; use super::UndirectedGraph; #[test] fn test_add_edge() { let mut graph = UndirectedGraph::new(); graph.add_edge(("a", "b", 5)); graph.add_edge(("b", "c", 10)); graph.add_edge(("c", "a", 7)); let expected_edges = [ (&String::from("a"), &String::from("b"), 5), (&String::from("b"), &String::from("a"), 5), (&String::from("c"), &String::from("a"), 7), (&String::from("a"), &String::from("c"), 7), (&String::from("b"), &String::from("c"), 10), (&String::from("c"), &String::from("b"), 10), ]; for edge in expected_edges.iter() { assert_eq!(graph.edges().contains(edge), true); } } }