WIP iterative_consume_post_order_vec() + add some docs

3 years ago · 9699802a8f
parent 1c935bc4f3
commit 9699802a8f
2 changed files with 119 additions and 82 deletions
--- a/src/lib.rs
+++ b/src/lib.rs
@ -1,3 +1,16 @@
 //! This crate contains Recursive & Iterative Binary Search Tree Implementations. All common
 //! operations are included along with
 //!
 //! It is important to note that [RecursiveBST] is more likely to `blow the stack.`
 //! For more information on why that is the case, please read [The Story of Tail Call Optimizations in Rust.](https://seanchen1991.github.io/posts/tco-story/)
 //!
 //! # Basic Usage
 //!
 //! ```rust
 //!
 //! // Create new IterativeBST
 //! ```
 use std::cmp::Ordering;
 use std::fmt::{Debug, Display, Formatter};
 use std::vec::IntoIter;
@ -474,42 +487,26 @@ impl<T: Ord> Node<T> {
        }
    }
-    fn iterative_post_order_vec(mut root: &HeapNode<T>) -> Vec<&T> {
+    fn iterative_post_order_vec(root: &HeapNode<T>) -> Vec<&T> {
        let mut elements = Vec::new();
-        let mut stack = Vec::new();
+        let mut stack_one = vec![root];
        let mut stack_two = vec![];
-        while !stack.is_empty() || root.is_some() {
+        while let Some(node) = stack_one.pop().unwrap_or(&None) {
-            match root {
+            if node.left.is_some() {
-                Some(node) => {
+                stack_one.push(&node.left);
-                    stack.push(root);
+            }
-                    root = &node.left
+            if node.right.is_some() {
-                }
+                stack_one.push(&node.right);
                None => {
                    let mut node = Node::right_node(&stack);
                    match node {
                        Some(_) => root = node,
                        None => {
                            node = stack.pop().unwrap();
                            elements.push(&node.as_ref().unwrap().value);
                            while !stack.is_empty()
                                && node.as_ref().unwrap().value
                                    == Node::right_node(&stack).as_ref().unwrap().value
                            {
                                node = stack.pop().unwrap();
                                elements.push(&node.as_ref().unwrap().value);
                            }
                        }
                    }
                }
            }
            stack_two.push(node);
        }
-        elements
+        while let Some(node) = stack_two.pop() {
-    }
+            elements.push(&node.value);
        }
-    fn right_node<'a>(stack: &[&'a HeapNode<T>]) -> &'a HeapNode<T> {
+        elements
        &stack.last().unwrap().as_ref().unwrap().right
    }
    fn recursive_post_order_vec<'a>(node: &'a HeapNode<T>, elements: &mut Vec<&'a T>) {
@ -576,40 +573,22 @@ impl<T: Ord> Node<T> {
    fn iterative_consume_post_order_vec(root: HeapNode<T>) -> Vec<T> {
        let mut elements = Vec::new();
-        let mut stack = vec![root];
+        let mut stack_one = vec![root];
        let mut stack_two = vec![];
        while let Some(mut node) = stack_one.pop().unwrap_or(None) {
            if let Some(left_node) = node.left.take() {
                stack_one.push(Some(left_node));
            }
            if let Some(right_node) = node.right.take() {
                stack_one.push(Some(right_node));
            }
            stack_two.push(node);
        }
-        // while !stack.is_empty() {
+        while let Some(node) = stack_two.pop() {
-        //     match stack.pop().unwrap() {
+            elements.push(node.value);
-        //         Some(mut node) => {
+        }
        //             let left_node = node.left.take();
        //             stack.push(Some(node));
        //             stack.push(left_node);
        //         }
        //         None => {
        //             let mut node = stack.pop().unwrap();
        //             match node {
        //                 Some(mut node) => {
        //                     let option = node.right.take();
        //                     stack.push(Some(node));
        //                     stack.push(option)
        //                 },
        //                 None => {
        //                     let something = node.take().unwrap();
        //
        //                     while !stack.is_empty() {
        //                         let something_2 = stack.pop().unwrap().take().unwrap();
        //                         if something.value == something_2.value {
        //                             break;
        //                         }
        //                         elements.push(something_2.value);
        //                     }
        //
        //                     elements.push(something.value);
        //                 }
        //             }
        //         }
        //     }
        // }
        elements
    }
--- a/tests/iterative_bst.rs
+++ b/tests/iterative_bst.rs
@ -73,7 +73,7 @@ fn successfully_remove_leaf_node() {
 }
 #[test]
-fn remove_single_right_node_with_children() {
+fn successfully_remove_single_right_node_with_children() {
    let mut expected_bst = IterativeBST::new();
    expected_bst.insert(5);
    expected_bst.insert(4);
@ -94,7 +94,7 @@ fn remove_single_right_node_with_children() {
 }
 #[test]
-fn remove_single_left_node_with_children() {
+fn successfully_remove_single_left_node_with_children() {
    let mut expected_bst = IterativeBST::new();
    expected_bst.insert(5);
    expected_bst.insert(3);
@ -114,7 +114,7 @@ fn remove_single_left_node_with_children() {
 }
 #[test]
-fn remove_node_with_two_children() {
+fn successfully_remove_node_with_two_children() {
    let mut expected_bst = IterativeBST::new();
    expected_bst.insert(10);
    expected_bst.insert(3);
@ -133,7 +133,7 @@ fn remove_node_with_two_children() {
 }
 #[test]
-fn does_not_fail_when_removing_non_existing_element() {
+fn successfully_does_not_fail_when_removing_non_existing_element() {
    let mut expected_bst = IterativeBST::new();
    expected_bst.insert(10);
    expected_bst.insert(5);
@ -155,7 +155,7 @@ fn does_not_fail_when_removing_non_existing_element() {
 }
 #[test]
-fn retrieve_element() {
+fn successfully_retrieve_element() {
    let mut bst = IterativeBST::new();
    bst.insert(5);
    bst.insert(10);
@ -168,7 +168,7 @@ fn retrieve_element() {
 }
 #[test]
-fn retrieve_element_as_mut_and_modify_bst() {
+fn successfully_retrieve_element_as_mut_and_modify_bst() {
    let mut expected_bst = IterativeBST::new();
    expected_bst.insert(10);
    expected_bst.insert(2);
@ -184,7 +184,7 @@ fn retrieve_element_as_mut_and_modify_bst() {
 }
 #[test]
-fn get_min_from_bst() {
+fn successfully_get_min_from_bst() {
    let mut bst = IterativeBST::new();
    assert_eq!(bst.min(), None);
@ -197,7 +197,7 @@ fn get_min_from_bst() {
 }
 #[test]
-fn get_max_from_bst() {
+fn successfully_get_max_from_bst() {
    let mut bst = IterativeBST::new();
    assert_eq!(bst.max(), None);
@ -210,7 +210,7 @@ fn get_max_from_bst() {
 }
 #[test]
-fn remove_min_from_bst() {
+fn successfully_remove_min_from_bst() {
    let mut bst = IterativeBST::new();
    assert_eq!(bst.remove_min(), None);
@ -229,7 +229,7 @@ fn remove_min_from_bst() {
 }
 #[test]
-fn remove_max_from_bst() {
+fn successfully_remove_max_from_bst() {
    let mut bst = IterativeBST::new();
    assert_eq!(bst.remove_max(), None);
@ -319,7 +319,6 @@ fn post_order_iter() {
    bst.insert(2);
    let mut post_order_iter = bst.post_order_iter();
    println!("{:?}", bst);
    assert_eq!(post_order_iter.next(), Some(&2));
    assert_eq!(post_order_iter.next(), Some(&1));
@ -341,6 +340,26 @@ fn post_order_iter() {
    assert_eq!(another_post_order_iter.next(), None);
 }
 #[test]
 fn into_pre_order_iter_with_no_elements() {
    let bst: IterativeBST<i32> = IterativeBST::new();
    let mut pre_order_traversal = bst.into_pre_order_iter();
    assert_eq!(pre_order_traversal.next(), None);
 }
 #[test]
 fn into_pre_order_iter_with_one_element() {
    let mut bst = IterativeBST::new();
    bst.insert(3);
    let mut pre_order_traversal = bst.into_pre_order_iter();
    assert_eq!(pre_order_traversal.next(), Some(3));
    assert_eq!(pre_order_traversal.next(), None);
 }
 #[test]
 fn into_pre_order_iter() {
    let mut iter: IntoIter<i32> = IterativeBST::new().into_pre_order_iter();
@ -363,6 +382,26 @@ fn into_pre_order_iter() {
    assert_eq!(pre_order_iter.next(), None);
 }
 #[test]
 fn into_in_order_iter_with_no_elements() {
    let bst: IterativeBST<i32> = IterativeBST::new();
    let mut in_order_traversal = bst.into_in_order_iter();
    assert_eq!(in_order_traversal.next(), None);
 }
 #[test]
 fn into_in_order_iter_with_one_element() {
    let mut bst = IterativeBST::new();
    bst.insert(3);
    let mut in_order_traversal = bst.into_in_order_iter();
    assert_eq!(in_order_traversal.next(), Some(3));
    assert_eq!(in_order_traversal.next(), None);
 }
 #[test]
 fn into_in_order_iter() {
    let another_bst: IterativeBST<i32> = IterativeBST::new();
@ -387,11 +426,27 @@ fn into_in_order_iter() {
 }
 #[test]
-fn into_post_order_iter() {
+fn into_post_order_iter_with_no_elements() {
-    let another_bst: IterativeBST<i32> = IterativeBST::new();
+    let bst: IterativeBST<i32> = IterativeBST::new();
-    let mut iter = another_bst.into_post_order_iter();
+
-    assert_eq!(iter.next(), None);
+    let mut post_order_traversal = bst.into_post_order_iter();
    assert_eq!(post_order_traversal.next(), None);
 }
 #[test]
 fn into_post_order_iter_with_one_element() {
    let mut bst = IterativeBST::new();
    bst.insert(3);
    let mut post_order_traversal = bst.into_post_order_iter();
    assert_eq!(post_order_traversal.next(), Some(3));
    assert_eq!(post_order_traversal.next(), None);
 }
 #[test]
 fn into_post_order_iter_with_many_elements() {
    let mut bst = IterativeBST::new();
    bst.insert(3);
    bst.insert(4);
@ -410,7 +465,10 @@ fn into_post_order_iter() {
 }
 #[test]
-fn get_sorted_vec() {
+fn successfully_get_sorted_vec() {
    let bst: IterativeBST<i32> = IterativeBST::new();
    assert!(bst.sorted_vec().is_empty());
    let mut bst = IterativeBST::new();
    bst.insert(3);
    bst.insert(4);
@ -422,7 +480,7 @@ fn get_sorted_vec() {
 }
 #[test]
-fn bst_into_sorted_vec() {
+fn successfully_transfer_bst_into_sorted_vec() {
    let mut bst = IterativeBST::new();
    bst.insert(3);
    bst.insert(4);
@ -434,7 +492,7 @@ fn bst_into_sorted_vec() {
 }
 #[test]
-fn get_pre_order_vec() {
+fn successfully_get_pre_order_vec() {
    let mut bst = IterativeBST::new();
    assert!(bst.pre_order_vec().is_empty());
@ -448,7 +506,7 @@ fn get_pre_order_vec() {
 }
 #[test]
-fn get_in_order_vec() {
+fn successfully_get_in_order_vec() {
    let mut bst = IterativeBST::new();
    assert!(bst.in_order_vec().is_empty());