Set up a tree container that allows for some certain traversals #79
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@ -9,7 +9,7 @@ use std::{
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rc::Rc,
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rc::Rc,
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};
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};
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#[derive(Debug)]
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#[derive(Clone, Debug)]
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pub enum Tree<T> {
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pub enum Tree<T> {
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Empty,
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Empty,
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Root(Node<T>),
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Root(Node<T>),
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@ -22,8 +22,16 @@ impl<T> Default for Tree<T> {
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}
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}
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impl<T> Tree<T> {
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impl<T> Tree<T> {
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pub fn set_value(&mut self, value: T) {
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pub fn new(value: T) -> (Tree<T>, Node<T>) {
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*self = Tree::Root(Node::new(value));
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let node = Node::new(value);
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let tree = Tree::Root(node.clone());
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(tree, node)
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}
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pub fn set_value(&mut self, value: T) -> Node<T> {
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let node = Node::new(value);
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*self = Tree::Root(node.clone());
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node
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}
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}
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/// Use a breadth-first-search pattern to find a node, returning the node if found.
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/// Use a breadth-first-search pattern to find a node, returning the node if found.
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@ -51,6 +59,33 @@ impl<T> Tree<T> {
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}
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}
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None
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None
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}
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}
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pub fn map<F, U>(&self, op: F) -> Tree<U>
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where
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F: FnOnce(&Node<T>) -> Node<U> + Copy,
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{
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match self {
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Tree::Empty => Tree::Empty,
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Tree::Root(root) => {
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let new_root = op(root);
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let mut queue: VecDeque<(Node<T>, Node<U>)> = root
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.children()
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.iter()
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.map(|child| (child.clone(), new_root.clone()))
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.collect();
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while let Some((source, dest)) = queue.pop_front() {
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let res = op(&source);
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dest.add_child_node(res.clone());
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for child in source.children().iter() {
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queue.push_back((child.clone(), res.clone()));
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}
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}
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Tree::Root(new_root)
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}
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}
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}
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}
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}
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// By using the Rc<RefCell> container here, I'm able to make Node easily clonable while still
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// By using the Rc<RefCell> container here, I'm able to make Node easily clonable while still
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@ -100,8 +135,10 @@ impl<T> Node<T> {
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self.0.borrow_mut().children.push(child)
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self.0.borrow_mut().children.push(child)
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}
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}
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pub fn add_child_value(&self, value: T) {
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pub fn add_child_value(&self, value: T) -> Node<T> {
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self.0.borrow_mut().children.push(Node::new(value))
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let node = Node::new(value);
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self.0.borrow_mut().children.push(node.clone());
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node
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}
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}
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}
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}
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@ -130,4 +167,17 @@ mod tests {
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assert_eq!(*n.value(), 15);
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assert_eq!(*n.value(), 15);
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// assert_eq!(n.children(), vec![Rc::new(RefCell::new(Node::new(20)))]);
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// assert_eq!(n.children(), vec![Rc::new(RefCell::new(Node::new(20)))]);
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}
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}
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#[test]
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fn it_can_map_one_tree_to_another() {
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let (tree, n) = Tree::new(15);
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let n = n.add_child_value(16);
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let _ = n.add_child_value(17);
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let tree2 = tree.map(|v| Node::new(v.value().to_string()));
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assert!(tree2.find_bfs(|val| *val == "15").is_some());
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assert!(tree2.find_bfs(|val| *val == "16").is_some());
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assert!(tree2.find_bfs(|val| *val == "17").is_some());
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}
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}
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}
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