Preface
FAQ
- Guidelines for Contributing
Part I - Basics
Basics Data Structure
- String
- Linked List
- Binary Tree
- Huffman Compression
- Queue
- Heap
- Stack
- Set
- Map
- Graph
Basics Sorting
- Bubble Sort
- Selection Sort
- Insertion Sort
- Merge Sort
- Quick Sort
- Heap Sort
- Bucket Sort
- Counting Sort
- Radix Sort
Basics Algorithm
- Divide and Conquer
- Binary Search
- Math
  - Greatest Common Divisor
  - Prime
- Knapsack
- Probability
  - Shuffle
- Bitmap
Basics Misc
- Bit Manipulation
Part II - Coding
String
- Implement strStr
- Two Strings Are Anagrams
- Compare Strings
- Group Anagrams
- Longest Common Substring
- Rotate String
- Reverse Words in a String
- Valid Palindrome
- Longest Palindromic Substring
- Space Replacement
- Wildcard Matching
- Length of Last Word
- Count and Say
Integer Array
- Remove Element
- Zero Sum Subarray
- Subarray Sum K
- Subarray Sum Closest
- Recover Rotated Sorted Array
- Product of Array Exclude Itself
- Partition Array
- First Missing Positive
- 2 Sum
- 3 Sum
- 3 Sum Closest
- Remove Duplicates from Sorted Array
- Remove Duplicates from Sorted Array II
- Merge Sorted Array
- Merge Sorted Array II
- Median
- Partition Array by Odd and Even
- Kth Largest Element
Binary Search
- First Position of Target
- Search Insert Position
- Search for a Range
- First Bad Version
- Search a 2D Matrix
- Search a 2D Matrix II
- Find Peak Element
- Search in Rotated Sorted Array
- Search in Rotated Sorted Array II
- Find Minimum in Rotated Sorted Array
- Find Minimum in Rotated Sorted Array II
- Median of two Sorted Arrays
- Sqrt x
- Wood Cut
Math and Bit Manipulation
- Single Number
- Single Number II
- Single Number III
- O1 Check Power of 2
- Convert Integer A to Integer B
- Factorial Trailing Zeroes
- Unique Binary Search Trees
- Update Bits
- Fast Power
- Hash Function
- Happy Number
- Count 1 in Binary
- Fibonacci
- A plus B Problem
- Print Numbers by Recursion
- Majority Number
- Majority Number II
- Majority Number III
- Digit Counts
- Ugly Number
- Plus One
- Palindrome Number
- Task Scheduler
Linked List
- Remove Duplicates from Sorted List
- Remove Duplicates from Sorted List II
- Remove Duplicates from Unsorted List
- Partition List
- Add Two Numbers
- Two Lists Sum Advanced
- Remove Nth Node From End of List
- Linked List Cycle
- Linked List Cycle II
- Reverse Linked List
- Reverse Linked List II
- Merge Two Sorted Lists
- Merge k Sorted Lists
- Reorder List
- Copy List with Random Pointer
- Sort List
- Insertion Sort List
- Palindrome Linked List
- LRU Cache
- Rotate List
- Swap Nodes in Pairs
- Remove Linked List Elements
Binary Tree
- Binary Tree Preorder Traversal
- Binary Tree Inorder Traversal
- Binary Tree Postorder Traversal
- Binary Tree Level Order Traversal
- Binary Tree Level Order Traversal II
- Maximum Depth of Binary Tree
- Balanced Binary Tree
- Binary Tree Maximum Path Sum
- Lowest Common Ancestor
- Invert Binary Tree
- Diameter of a Binary Tree
- Construct Binary Tree from Preorder and Inorder Traversal
- Construct Binary Tree from Inorder and Postorder Traversal
- Subtree
- Binary Tree Zigzag Level Order Traversal
- Binary Tree Serialization
Binary Search Tree
- Insert Node in a Binary Search Tree
- Minimum Absolute Difference in BST
- Validate Binary Search Tree
- Search Range in Binary Search Tree
- Convert Sorted Array to Binary Search Tree
- Convert Sorted List to Binary Search Tree
- Binary Search Tree Iterator
Exhaustive Search
- Subsets
- Unique Subsets
- Permutations
- Unique Permutations
- Next Permutation
- Previous Permuation
- Permutation Index
- Permutation Index II
- Permutation Sequence
- Unique Binary Search Trees II
- Palindrome Partitioning
- Combinations
- Combination Sum
- Combination Sum II
- Minimum Depth of Binary Tree
- Word Search
Dynamic Programming
- Triangle
- Backpack
- Backpack II
- Minimum Path Sum
- Unique Paths
- Unique Paths II
- Climbing Stairs
- Jump Game
- Word Break
- Longest Increasing Subsequence
- Palindrome Partitioning II
- Longest Common Subsequence
- Edit Distance
- Jump Game II
- Best Time to Buy and Sell Stock
- Best Time to Buy and Sell Stock II
- Best Time to Buy and Sell Stock III
- Best Time to Buy and Sell Stock IV
- Distinct Subsequences
- Interleaving String
- Maximum Subarray
- Maximum Subarray II
- Longest Increasing Continuous subsequence
- Longest Increasing Continuous subsequence II
- Maximal Square
Graph
- Find the Connected Component in the Undirected Graph
- Route Between Two Nodes in Graph
- Topological Sorting
- Word Ladder
- Bipartial Graph Part I
Data Structure
- Implement Queue by Two Stacks
- Min Stack
- Sliding Window Maximum
- Longest Words
- Heapify
Big Data
- Top K Frequent Words (Map Reduce)
- Top K Frequent Words
- Top K Frequent Words II
- K Closest Points
- Top k Largest Numbers
- Top k Largest Numbers II
Problem Misc
- Nuts and Bolts Problem
- String to Integer
- Insert Interval
- Merge Intervals
- Minimum Subarray
- Matrix Zigzag Traversal
- Valid Sudoku
- Add Binary
- Reverse Integer
- Gray Code
- Find the Missing Number
- Minimum Window Substring
- Continuous Subarray Sum
- Continuous Subarray Sum II
- Longest Consecutive Sequence
Part III - Contest
Google APAC
- APAC 2015 Round B
  - Problem A. Password Attacker
- APAC 2016 Round D
  - Problem A. Dynamic Grid
Microsoft
- Microsoft 2015 April
- Microsoft 2015 April 2
- Microsoft 2015 September 2
  - Problem A. Farthest Point
Appendix I Interview and Resume
- Interview
- Resume
Tags

Partition Array by Odd and Even

Question

Partition an integers array into odd number first and even number second.

Example
Given [1, 2, 3, 4], return [1, 3, 2, 4]

Challenge
Do it in-place.
copy

题解

将数组中的奇数和偶数分开，使用『两根指针』的方法最为自然，奇数在前，偶数在后，若不然则交换之。

Java

public class Solution {
    /**
     * @param nums: an array of integers
     * @return: nothing
     */
    public void partitionArray(int[] nums) {
        if (nums == null) return;

        int left = 0, right = nums.length - 1;
        while (left < right) {
            // odd number
            while (left < right && nums[left] % 2 != 0) {
                left++;
            }
            // even number
            while (left < right && nums[right] % 2 == 0) {
                right--;
            }
            // swap
            if (left < right) {
                int temp = nums[left];
                nums[left] = nums[right];
                nums[right] = temp;
            }
        }
    }
}
copy

C++

  void partitionArray(vector<int> &nums) {
        if (nums.empty()) return;
       
        int i=0, j=nums.size()-1;
        while (i<j) {
            while (i<j && nums[i]%2!=0) i++;
            while (i<j && nums[j]%2==0) j--;
            if (i != j) swap(nums[i], nums[j]);
        }
    }
copy

源码分析

注意处理好边界即循环时保证left < right.

复杂度分析

遍历一次数组，时间复杂度为 $O(n)$ , 使用了两根指针，空间复杂度 $O(1)$ .