{ "cells": [ { "cell_type": "markdown", "metadata": {}, "source": [ "This notebook was prepared by Marco Guajardo. Source and license info is on [GitHub](https://github.com/donnemartin/interactive-coding-challenges)." ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "# Solution Notebook" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "## Problem: Implement a binary search tree with insert, delete, different traversals & max/min node values\n", "* [Constraints](#Constraints)\n", "* [Test Cases](#Test-Cases)\n", "* [Algorithm](#Algorithm)\n", "* [Code](#Code)\n", "* [Unit Test](#Unit-Test)\n", "* [Solution Notebook](#Solution-Notebook)" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "## Constraints\n", "* Is this a binary tree?\n", " * Yes\n", "* Is the root set to None initially?\n", " * Yes\n", "* Do we care if the tree is balanced?\n", " * No\n", "* What do we return for the traversals?\n", " * Return a list of the data in the desired order\n", "* What type of data can the tree hold?\n", " * Assume the tree only takes ints. In a realistic example, we'd use a hash table to convert other types to ints." ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "## Test Cases\n", "\n", "### Insert \n", "\n", "* Always start with the root\n", "* If value is less than the root, go to the left child\n", "* if value is more than the root, go to the right child\n", "\n", "\n", "### Delete\n", "\n", "* Deleting a node from a binary tree is tricky. Make sure you arrange the tree correctly when deleting a node.\n", "* Here are some basic [instructions](http://www.algolist.net/Data_structures/Binary_search_tree/Removal)\n", "* If the value to delete isn't on the tree return False\n", "\n", "\n", "### Traverals \n", "\n", "* In order traversal -left, center, right\n", "* Pre order traversal - center, left, right\n", "* Post order traversal - left, right, center\n", "* Return list for all traverals \n", "\n", "### Max & Min\n", "* Find the max node in the binary search tree\n", "* Find the min node in the binary search tree\n", "\n", "### treeIsEmpty\n", "* check if the tree is empty\n", "\n", "\n", "## Algorithm\n", "\n", "Refer to the [Solution Notebook](http://nbviewer.ipython.org/github/donnemartin/interactive-coding-challenges/blob/master/graphs_trees/binary_tree_implementation/binary_tree_solution.ipynb). If you are stuck and need a hint, the solution notebook's algorithm discussion might be a good place to start." ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "## Algorithm\n", "\n", "### Insert\n", "\n", "* If root is none, insert at root\n", "* Else\n", " * While node is not None\n", " * if value is less go left child\n", " * If value is more go right child\n", "\n", "\n", "* Time complexity: O(log(n))\n", "* Space complexity: O(n)\n", "\n", "### Min Node\n", "\n", "* Keep going to the left child until you reach None and return the value\n", "\n", "\n", "* Time complexity: O(log(n))\n", "* Space complexity: O(n)\n", "\n", "### Max Node\n", "\n", "* Keep going to the right child until you reach None and return the value\n", "\n", "\n", "* Time complexity: O(log(n))\n", "* Space complexity: O(n)\n", "\n", "### Traversals\n", "\n", "* In order\n", " * While the node is not None\n", " * Call left child recursively\n", " * Append data\n", " * Call right child recursively \n", " \n", "* Post order\n", " * While the node is not None\n", " * Call left child recursively\n", " * Call right child recursively \n", " * Append data\n", " \n", "* Pre order\n", " * While the node is not None\n", " * Append data\n", " * Call left child recursively\n", " * Call right child recursively \n", "\n", "\n", "* Time complexity: O(n) for all traversals\n", "* Space complexity: O(n)\n", "\n", "### Delete\n", "\n", "* First, find value to delete\n", "* If value is not in tree \n", " * Return False\n", "* If value found\n", " * Check if the node is a left child or right child\n", " * If node is left child\n", " * Find the biggest value in all the node's children and replace it with it\n", " * If node is right child\n", " * Find the smalles value in all the node's children and replace it with it\n", "\n", "\n", "* Time complexity: O(log(n))\n", "* Space complexity: O(n)\n", "\n" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ "## Code" ] }, { "cell_type": "code", "execution_count": 27, "metadata": { "collapsed": false }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Overwriting binary_search_tree.py\n" ] } ], "source": [ "%%writefile binary_search_tree.py\n", "\n", "class Node (object):\n", "\tdef __init__ (self, data):\n", "\t\tself.data = data\n", "\t\tself.rightChild = None\n", "\t\tself.leftChild = None\n", "\n", "class BinaryTree (object):\n", "\tdef __init__ (self):\n", "\t\tself.root = None\n", "\n", "\tdef insert (self, newData):\n", "\t\tleaf = Node(newData)\n", "\n", "\t\tif self.root is None:\n", "\t\t\tself.root = leaf\n", "\t\telse:\n", "\t\t\tcurrent = self.root\n", "\t\t\tparent = self.root\n", "\t\t\twhile current is not None:\n", "\t\t\t\tparent = current\n", "\t\t\t\tif newData < current.data:\n", "\t\t\t\t\tcurrent = current.leftChild\n", "\t\t\t\telse:\n", "\t\t\t\t\tcurrent = current.rightChild\n", "\n", "\t\t\tif newData < parent.data:\n", "\t\t\t\tparent.leftChild = leaf\n", "\t\t\telse:\n", "\t\t\t\tparent.rightChild = leaf\n", "\n", "\t# returns false if the item to be deleted is not on the tree\n", "\tdef delete (self, data):\n", "\t\tcurrent = self.root\n", "\t\tparent = self.root\n", "\t\tisLeft = False\n", "\n", "\t\tif current is None:\n", "\t\t\treturn False\n", "\n", "\t\twhile current is not None and current.data is not data:\n", "\t\t\tparent = current\n", "\t\t\tif data < current.data:\n", "\t\t\t\tcurrent = current.leftChild\n", "\t\t\t\tisLeft = True \n", "\t\t\telse:\n", "\t\t\t\tcurrent = current.rightChild\n", "\t\t\t\tisLeft = False\n", "\n", "\t\tif current is None:\n", "\t\t\treturn False\n", "\n", "\t\tif current.leftChild is None and current.rightChild is None:\n", "\t\t\tif current is self.root:\n", "\t\t\t\tself.root = None\n", "\t\t\telif isLeft:\n", "\t\t\t\tparent.leftChild = None\n", "\t\t\telse:\n", "\t\t\t\tparent.rightChild = None\n", "\n", "\t\telif current.rightChild is None:\n", "\t\t\tif current is self.root:\n", "\t\t\t\tself.root = current.leftChild\n", "\t\t\telif isLeft:\n", "\t\t\t\tparent.leftChild = current.leftChild\n", "\t\t\telse:\n", "\t\t\t\tparent.rightChild = current.leftChild\n", "\n", "\t\telif current.rightChild is None:\n", "\t\t\tif current is self.root:\n", "\t\t\t\tself.root = current.rightChild\n", "\t\t\telif isLeft:\n", "\t\t\t\tparent.lChild = current.rightChild\n", "\t\t\telse:\n", "\t\t\t\tparent.rightChild = current.rightChild\n", "\n", "\t\telse:\n", "\t\t\tsuccesor = current.rightChild\n", "\t\t\tsuccesorParent = current\n", "\n", "\t\t\twhile succesor.leftChild is not None:\n", "\t\t\t\tsuccesorParent = succesor\n", "\t\t\t\tsuccesor = succesor.leftChild\n", "\n", "\t\t\tif current is self.root:\n", "\t\t\t\tself.root = succesor\n", "\t\t\telif isLeft:\n", "\t\t\t\tparent.leftChild = succesor\n", "\t\t\telse:\n", "\t\t\t\tparent.rightChild = succesor\n", "\n", "\t\t\tsuccesor.leftChild = current.leftChild\n", "\n", "\t\t\tif succesor is not current.rightChild:\n", "\t\t\t\tsuccesorParent.leftChild = succesor.rightChild\n", "\t\t\t\tsuccesor.rightChild = current.rightChild\n", "\n", "\t\treturn True \n", "\n", "\n", "\tdef minNode (self):\n", "\t\tcurrent = self.root\n", "\t\twhile current.leftChild is not None:\n", "\t\t\tcurrent = current.leftChild\n", "\n", "\t\treturn current.data\n", "\n", "\tdef maxNode (self):\n", "\t\tcurrent = self.root\n", "\t\twhile current.rightChild is not None:\n", "\t\t\tcurrent = current.rightChild\n", "\n", "\t\treturn current.data\n", "\n", "\tdef printPostOrder (self):\n", "\t\tglobal postOrder\n", "\t\tpostOrder = []\n", "\n", "\t\tdef PostOrder(node):\n", "\t\t\tif node is not None:\n", "\t\t\t\tPostOrder(node.leftChild)\n", "\t\t\t\tPostOrder(node.rightChild)\n", "\t\t\t\tpostOrder.append(node.data)\n", "\n", "\t\tPostOrder(self.root)\n", "\t\treturn postOrder\n", "\n", "\tdef printInOrder (self):\n", "\t\tglobal inOrder \n", "\t\tinOrder = []\n", "\n", "\t\tdef InOrder (node):\n", "\t\t\tif node is not None:\n", "\t\t\t\tInOrder(node.leftChild)\n", "\t\t\t\tinOrder.append(node.data)\n", "\t\t\t\tInOrder(node.rightChild)\n", "\n", "\t\tInOrder(self.root)\n", "\t\treturn inOrder\n", "\n", "\tdef printPreOrder (self):\n", "\t\tglobal preOrder\n", "\t\tpreOrder = []\n", "\n", "\t\tdef PreOrder (node):\n", "\t\t\tif node is not None:\n", "\t\t\t\tpreOrder.append(node.data)\n", "\t\t\t\tPreOrder(node.leftChild)\n", "\t\t\t\tPreOrder(node.rightChild)\n", "\n", "\t\tPreOrder(self.root)\n", "\t\treturn preOrder\n", "\n", "\tdef treeIsEmpty (self):\n", "\t\treturn self.root is None" ] }, { "cell_type": "code", "execution_count": 35, "metadata": { "collapsed": false }, "outputs": [], "source": [ "%run binary_search_tree.py" ] }, { "cell_type": "code", "execution_count": 36, "metadata": { "collapsed": false }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Overwriting test_binary_search_tree.py\n" ] } ], "source": [ "%%writefile test_binary_search_tree.py\n", "from nose.tools import assert_equal\n", "\n", "class TestBinaryTree(BinaryTree):\n", "\n", "\tdef test_insert_traversals (self):\n", "\t\tmyTree = BinaryTree()\n", "\t\tmyTree2 = BinaryTree()\n", "\t\tfor num in [50, 30, 70, 10, 40, 60, 80, 7, 25, 38]:\n", "\t\t\tmyTree.insert(num)\n", "\t\t[myTree2.insert(num) for num in range (1, 100, 10)]\n", "\n", "\t\tprint(\"Test: insert checking with in order traversal\")\n", "\t\tassert_equal(myTree.printInOrder(), [7, 10, 25, 30, 38, 40, 50, 60, 70, 80])\n", "\t\tassert_equal(myTree2.printInOrder(), [1, 11, 21, 31, 41, 51, 61, 71, 81, 91])\n", "\t\tprint(\"Test: insert checking with post order traversal\")\n", "\t\tassert_equal(myTree.printPostOrder(), [7, 25, 10, 38, 40, 30, 60, 80, 70, 50])\n", "\t\tassert_equal(myTree2.printPostOrder(), [91, 81, 71, 61, 51, 41, 31, 21, 11, 1])\n", "\n", "\n", "\t\tprint(\"Test: insert checking with pre order traversal\")\n", "\t\tassert_equal(myTree.printPreOrder(), [50, 30, 10, 7, 25, 40, 38, 70, 60, 80])\n", "\t\tassert_equal(myTree2.printPreOrder(), [1, 11, 21, 31, 41, 51, 61, 71, 81, 91])\n", "\n", "\n", "\t\tprint(\"Success: test_insert_traversals\")\n", "\n", "\tdef test_max_min_nodes (self):\n", "\t\tmyTree = BinaryTree()\n", "\t\tmyTree.insert(5)\n", "\t\tmyTree.insert(1)\n", "\t\tmyTree.insert(21)\n", "\n", "\t\tprint(\"Test: max node\")\n", "\t\tassert_equal(myTree.maxNode(), 21)\n", "\t\tmyTree.insert(32)\n", "\t\tassert_equal(myTree.maxNode(), 32)\n", "\n", "\t\tprint(\"Test: min node\")\n", "\t\tassert_equal(myTree.minNode(), 1)\n", "\n", "\t\tprint(\"Test: min node inserting negative number\")\n", "\t\tmyTree.insert(-10)\n", "\t\tassert_equal(myTree.minNode(), -10)\n", "\n", "\t\tprint(\"Success: test_max_min_nodes\")\n", "\n", "\tdef test_delete (self):\n", "\t\tmyTree = BinaryTree()\n", "\t\tmyTree.insert(5)\n", "\n", "\t\tprint(\"Test: delete\")\n", "\t\tmyTree.delete(5)\n", "\t\tassert_equal(myTree.treeIsEmpty(), True)\n", "\t\t\n", "\t\tprint(\"Test: more complex deletions\")\n", "\t\t[myTree.insert(x) for x in range(1, 5)]\n", "\t\tmyTree.delete(2)\n", "\t\tassert_equal(myTree.root.rightChild.data, 3)\n", "\t\tprint(\"Test: delete invalid value\")\n", "\t\tassert_equal(myTree.delete(100), False)\n", "\n", "\n", "\t\tprint(\"Success: test_delete\")\n", "\n", "def main():\n", " testing = TestBinaryTree()\n", " testing.test_insert_traversals()\n", " testing.test_max_min_nodes()\n", " testing.test_delete()\n", " \n", "if __name__=='__main__':\n", " main()" ] }, { "cell_type": "code", "execution_count": 37, "metadata": { "collapsed": false }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Test: insert checking with in order traversal\n", "Test: insert checking with post order traversal\n", "Test: insert checking with pre order traversal\n", "Success: test_insert_traversals\n", "Test: max node\n", "Test: min node\n", "Test: min node inserting negative number\n", "Success: test_max_min_nodes\n", "Test: delete\n", "Test: more complex deletions\n", "Test: delete invalid value\n", "Success: test_delete\n" ] } ], "source": [ "%run -i test_binary_search_tree.py" ] }, { "cell_type": "code", "execution_count": null, "metadata": { "collapsed": true }, "outputs": [], "source": [] } ], "metadata": { "kernelspec": { "display_name": "Python 3", "language": "python", "name": "python3" }, "language_info": { "codemirror_mode": { "name": "ipython", "version": 3 }, "file_extension": ".py", "mimetype": "text/x-python", "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", "version": "3.4.3" } }, "nbformat": 4, "nbformat_minor": 0 }