8.1 KiB
8.1 KiB
id | title | challengeType |
---|---|---|
587d8257367417b2b2512c7e | Use Depth First Search in a Binary Search Tree | 1 |
Description
inorder
, preorder
, and postorder
methods on our tree. Each of these methods should return an array of items which represent the tree traversal. Be sure to return the integer values at each node in the array, not the nodes themselves. Finally, return null
if the tree is empty.
Instructions
Tests
tests:
- text: The <code>BinarySearchTree</code> data structure exists.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() }; return (typeof test == 'object')})(), 'The <code>BinarySearchTree</code> data structure exists.');
- text: The binary search tree has a method called <code>inorder</code>.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; return (typeof test.inorder == 'function')})(), 'The binary search tree has a method called <code>inorder</code>.');
- text: The binary search tree has a method called <code>preorder</code>.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; return (typeof test.preorder == 'function')})(), 'The binary search tree has a method called <code>preorder</code>.');
- text: The binary search tree has a method called <code>postorder</code>.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; return (typeof test.postorder == 'function')})(), 'The binary search tree has a method called <code>postorder</code>.');
- text: The <code>inorder</code> method returns an array of the node values that result from an inorder traversal.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.inorder !== 'function') { return false; }; test.add(7); test.add(1); test.add(9); test.add(0); test.add(3); test.add(8); test.add(10); test.add(2); test.add(5); test.add(4); test.add(6); return (test.inorder().join('') == '012345678910'); })(), 'The <code>inorder</code> method returns an array of the node values that result from an inorder traversal.');
- text: The <code>preorder</code> method returns an array of the node values that result from a preorder traversal.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.preorder !== 'function') { return false; }; test.add(7); test.add(1); test.add(9); test.add(0); test.add(3); test.add(8); test.add(10); test.add(2); test.add(5); test.add(4); test.add(6); return (test.preorder().join('') == '710325469810'); })(), 'The <code>preorder</code> method returns an array of the node values that result from a preorder traversal.');
- text: The <code>postorder</code> method returns an array of the node values that result from a postorder traversal.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.postorder !== 'function') { return false; }; test.add(7); test.add(1); test.add(9); test.add(0); test.add(3); test.add(8); test.add(10); test.add(2); test.add(5); test.add(4); test.add(6); return (test.postorder().join('') == '024653181097'); })(), 'The <code>postorder</code> method returns an array of the node values that result from a postorder traversal.');
- text: The <code>inorder</code> method returns <code>null</code> for an empty tree.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.inorder !== 'function') { return false; }; return (test.inorder() == null); })(), 'The <code>inorder</code> method returns <code>null</code> for an empty tree.');
- text: The <code>preorder</code> method returns <code>null</code> for an empty tree.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.preorder !== 'function') { return false; }; return (test.preorder() == null); })(), 'The <code>preorder</code> method returns <code>null</code> for an empty tree.');
- text: The <code>postorder</code> method returns <code>null</code> for an empty tree.
testString: assert((function() { var test = false; if (typeof BinarySearchTree !== 'undefined') { test = new BinarySearchTree() } else { return false; }; if (typeof test.postorder !== 'function') { return false; }; return (test.postorder() == null); })(), 'The <code>postorder</code> method returns <code>null</code> for an empty tree.');
Challenge Seed
var displayTree = (tree) => console.log(JSON.stringify(tree, null, 2));
function Node(value) {
this.value = value;
this.left = null;
this.right = null;
}
function BinarySearchTree() {
this.root = null;
// change code below this line
// change code above this line
}
After Test
BinarySearchTree.prototype = {
add: function(value) {
var node = this.root;
if (node == null) {
this.root = new Node(value);
return;
} else {
function searchTree(node) {
if (value < node.value) {
if (node.left == null) {
node.left = new Node(value);
return;
} else if (node.left != null) {
return searchTree(node.left)
};
} else if (value > node.value) {
if (node.right == null) {
node.right = new Node(value);
return;
} else if (node.right != null) {
return searchTree(node.right);
};
} else {
return null;
};
};
return searchTree(node);
};
}
};
Solution
// solution required