Tiger's leetcode solution: March 2014

Tuesday, March 25, 2014

群里的晓北经典25题

2. Implement a thread-safe blocking queue.

3. 一个嵌套Map，就是一个HashMap, 它的value可以是一个element也可以是另外一个
嵌套map或是空的map. 实现一个iterator来遍历这个map里面的所有element。就是类
似树遍历一样的方法

10. Implement List Interface.

18. 两种方法写Singleton

19. 问了Mutex, Semaphore

21. 输入是个stream
class input_stream
{
// Character or -1
int read();
}
每次call read（），返回一个char，如果到头了就是返回-1

25. Celebrity Problem

Sunday, March 23, 2014

sort the dictionary ????????????

Q:
You have given a dictionary of an alien language in which letters are same as English letters but their order is different.
Your task is sort the letters or give relationship between letters using that dictionary. note: the dictionary may contain 1 to n words.

A:

String Reorder Distance Apart

Given a string of lowercase characters, reorder them such that the same characters are at least distance d from each other.
Input: { a, b, b }, distance = 2
Output: { b, a, b }

A:

sort the characters and build the new string from them.

each time, we extract the d chars and add them at the tail of output.

Saturday, March 22, 2014

How to determine if a point is inside a rectangle?

Q:
what if the rectangle is rotated?

Given 4 points of the rectangle.
and a target point.

A:
1: for each parrallel lines of the rectangle, we apply the point to these lines, and see their signs. if + and - , then within range.
similarly for another pair.

2: ( From leetcode)
we can utilize dot product. The trick is to use dot product to find the projected line from point P onto the rectangle sides, and if its length is shorter than the sides, then the point must be inside the rectangle.

189. Rotate Array (easy)

Q:

Given an array, rotate the array to the right by k steps, where k is non-negative.

Example 1:

Input: [1,2,3,4,5,6,7] and k = 3
Output: [5,6,7,1,2,3,4]
Explanation:
rotate 1 steps to the right: [7,1,2,3,4,5,6]
rotate 2 steps to the right: [6,7,1,2,3,4,5]
rotate 3 steps to the right: [5,6,7,1,2,3,4]

Example 2:

Input: [-1,-100,3,99] and k = 2
Output: [3,99,-1,-100]
Explanation: 
rotate 1 steps to the right: [99,-1,-100,3]
rotate 2 steps to the right: [3,99,-1,-100]

Note:

Try to come up as many solutions as you can, there are at least 3 different ways to solve this problem.
Could you do it in-place with O(1) extra space?

A:

1: extra array to save
2: 3次reverse

class Solution {
public:
    void rotate(vector<int>& nums, int k) {        
        k = k % nums.size();
        reverse(nums.begin(), nums.end());
        reverse(nums.begin(), nums.begin()+k);
        reverse(nums.begin()+k, nums.end());        
    }

};

Multiplication of numbers

There is an array A[N] of N numbers. You have to compose an array Output[N] such that Output[i] will be equal to multiplication of all the elements of A[N] except A[i]. Solve it without division operator and in O(n).
For example Output[0] will be multiplication of A[1] to A[N-1] and Output[1] will be multiplication of A[0] and from A[2] to A[N-1].
Example:
A: {4, 3, 2, 1, 2}
OUTPUT: {12, 16, 24, 48, 24}

A:

Tiger's own solution is to use another two array to store the left and right muliplication result.

    ,  
    private static int[] multi(int[] A) {
        // use another matrix to help record its left multiplication result, and right
        int n = A.length;
        if(n==0){
            System.err.print("array should have at least 1");
            System.exit(0);
        }
        int[] left = new int[n];
        int[] right = new int[n];
        left[0] =1;
        for(int i =1;i<n;i++) // calculate the left part
            left[i]=left[i-1] * A[i-1];
        
        right[n-1] = 1;
        for(int i = n-2;i>=0;i--)
            right[i] = right[i+1] * A[i+1];
        
        int[] output = new int[n];
        for(int i =0;i<n;i++)
            output[i] = left[i] * right[i];
        return output;
    }

But above would require O(n) space

To save space ,we can use the right matrix to replace the output matrix,
as follows

private static int[] multi(int[] A) {
        // use another matrix to help record its left multiplication result, and right
        int n = A.length;
        if(n==0){
            System.err.print("array should have at least 1");
            System.exit(0);
        }
        int[] left = new int[n];
        int[] right = new int[n];
        left[0] =1;
        for(int i =1;i<n;i++) // calculate the left part
            left[i]=left[i-1] * A[i-1];
        
        right[n-1] = 1;
        for(int i = n-2;i>=0;i--)
            right[i] = right[i+1] * A[i+1];
        
        for(int i =0;i<n;i++)
            right[i] = left[i] * right[i];
        return right;
    }

Further, let's try to eliminate the left array.
After analyzing, we saw that the left value could be calculated iteratively in the loop. thus, we got following.

    private static int[] multi(int[] A) {
        // use another matrix to help record its left multiplication result, and right
        int n = A.length;
        if(n==0){
            System.err.print("array should have at least 1");
            System.exit(0);
        }
        int leftTillNow = 1;
        // record the multiplication result of its right sided, from i+1 to n-1
        int [] output = new int[n];
        output[n-1] = 1;
        for(int i = n-2;i>=0;i--)
            output[i] = output[i+1] * A[i+1];
        
        for(int i =1;i<n;i++){
            output[i] =  leftTillNow * output[i];
            leftTillNow *= A[i-1];
        }
        return output;
    }

Friday, March 21, 2014

Recursion to the rescue

Q:
Given only putchar (no sprintf, itoa, etc.) write a routine putlong that prints out an unsigned long in decimal.
A:

Solution 1: iteratively divide
Step 1: find the max 10^k , that it can be divided
Step 2: print the division, recall the mod,


    static void printLong(long a) {
        if (a < 0) {
            return;
        }
        if (a == 0) {
            printChar('0');
        } else {
            int tens = 1;
            while (a / tens >= 10) {
                tens *= 10;
            }
            while (tens > 0) {
                int b = (int) (a / tens);
                printChar((char) (b + '0'));
                a = a % tens;
                tens /= 10;
            }

        }
    }

    static void printChar(char ch) {
        System.out.print(ch);
    }

Solution 2: recursive call its 1/ 10


    static void printLong(long a) {
        // assume that input is unsigned integer
        if (a < 10) {
            printChar((char) (a + '0'));
        } else {
            printLong(a / 10);
            printChar((char) (a % 10 + '0'));// print the last char
        }
    }

    static void printChar(char ch) {
        System.out.print(ch);
    }

-----------------------------------------Problem 2 ----------------------------------
Q:
Print a string in reverse order.

A:

void printReverse(const char *str) {
  if (!*str)
    return;
  printReverse(str + 1);
  putchar(*str);
}

Thursday, March 20, 2014

找出过去12小时内访问量最大的url

输入是一个stream，是实时的被点击的url
要随时输出过去12小时最频繁的那个URL
记录过程不要求，但是要随时立刻输出最频繁的那个URL

用滚动数组
可以用个带戳的链表或者滚动数组
每次把最老的一段删掉
不过如在记录节点时候要保留一个Counter
删掉最老节点的时候更新对应的 Counter
这个Counter 应该会要用 heap 存……
其实如果不在乎写的性能其实找一遍也行
不过用 priority queue 或者 heap 显得屌一点
------------------------------- 是用个hashmap, key是URL，value是一个circular array吗
一个带时间戳的链表或者滚动数组里面记录所有在这个时间段送来的URL 和指向对应 Value 的指针
value 本身存在一个 priority queue 里面
或者只存 URL 然后用个 hash表存 URL value指针对
value 本身存在一个 priority queue 里面每次有节点更新就更新这个 heap
还是调整下让 heap 里面的值也要带 URL value 对…… 不然不好找对应的 URL

map<URL, 滚动数组>，要性能的话再加上每个URL的moving sum，有请求时修改其值。heap根据sum排列，moving sum变化时更新heap。

Wednesday, March 12, 2014

Sliding Window Maximum

Q:
A long array A[] is given to you. There is a sliding window of size w which is moving from the very left of the array to the very right. You can only see the w numbers in the window. Each time the sliding window moves rightwards by one position. Following is an example:
The array is [1 3 -1 -3 5 3 6 7], and w is 3.

Window position                Max
---------------               -----
[1  3  -1] -3  5  3  6  7       3
 1 [3  -1  -3] 5  3  6  7       3
 1  3 [-1  -3  5] 3  6  7       5
 1  3  -1 [-3  5  3] 6  7       5
 1  3  -1  -3 [5  3  6] 7       6
 1  3  -1  -3  5 [3  6  7]      7

 Input: A long array A[], and a window width w
 Output: An array B[], B[i] is the maximum value of from A[i] to A[i+w-1]
 Requirement: Find a good optimal way to get B[i]

 原始链接：

A natural way most people would think is to try to maintain the queue size the same as the window’s size. Try to break away from this thought and try to think outside of the box. Removing redundant elements and storing only elements that need to be considered in the queue is the key to achieve the efficient O(n) solution below.

void maxSlidingWindow(int A[], int n, int w, int B[]) {

  deque<int> Q;

  for (int i = 0; i < w; i++) {

    while (!Q.empty() && A[i] >= A[Q.back()])

      Q.pop_back();

    Q.push_back(i);

  }

  for (int i = w; i < n; i++) {

    B[i-w] = A[Q.front()];

    while (!Q.empty() && A[i] >= A[Q.back()])

      Q.pop_back();

    while (!Q.empty() && Q.front() <= i-w)

      Q.pop_front();

    Q.push_back(i);

  }

  B[n-w] = A[Q.front()];

}

The above algorithm could be proven to have run time complexity of O(n). This is because each element in the list is being inserted and then removed at most once. Therefore, the total number of insert + delete operations is 2n.

Saturday, March 8, 2014

给你一个password 假定6位，有个function 每call 一次就给你一个triplet 是password 里的随即三位，order不变。比如google, 可能返回， ggl, goe, oog, ool, ........ 问如何最有效破译这个密码，写code.

给你一个password 假定6位，
有个function 每call 一次就给你一个triplet 是password 里的随即三位，order不变
。比如google, 可能返回， ggl, goe, oog, ool, ........
问如何最有效破译这个密码，写code.

bitset 概念，应用

实现hashmap，写完后继续要求要考虑multi-thread。

Friday, March 7, 2014

harry potter 走矩阵

Q:

假设你是harry potter，在grid的左上角，你现在要走到右下角，grid中有
正数也有负数，遇到正数表示你的strength增加那么多，遇到负数表示strength减少那
么多，在任何时刻如果你的strength小于等于0，那么你就挂了。在一开始你有一定的
初始的strength，现在问这个初始的strength最少是多少，才能保证你能够找到一条路
走到右下角。每一步只能向右或者向下。

A:

Just dp:

f(m, n) = 0

f(i, j) = min(
max(f(i+1, j) - w(i+1,j), 0),
max(f(i, j+1) - w(i, j+1), 0)
)

所以只要dp的时候控制不要小于0即可。这个和经典的求最优路径的题目区别不大。

f是dp函数的值，表示从当前的点走到目标最少需要多少能量。

w是当前点上的权重，可以是正的或者负的。

每个点计算当前点到目标的最
小能量要求。当前点只能走到下面或右面的点。如果走下面的点，那么最小要求是下面
点的最小要求减去下面那个点的值。如果发现小于0则是0。右面的点同理。然后两种情
况取最小作为当前点的最小能量要求即可。

297. Serialize and Deserialize Binary Tree

Serialization is the process of converting a data structure or object into a sequence of bits so that it can be stored in a file or memory buffer, or transmitted across a network connection link to be reconstructed later in the same or another computer environment.

Design an algorithm to serialize and deserialize a binary tree. There is no restriction on how your serialization/deserialization algorithm should work. You just need to ensure that a binary tree can be serialized to a string and this string can be deserialized to the original tree structure.

For example, you may serialize the following tree

as "[1,2,3,null,null,4,5]", just the same as how LeetCode OJ serializes a binary tree. You do not necessarily need to follow this format, so please be creative and come up with different approaches yourself.

Note: Do not use class member/global/static variables to store states. Your serialize and deserialize algorithms should be stateless.

A:
就是pre-order ，tricky的地方就是，每次加入一个数字（或者#)之后，后面都要加上个逗号

/**
 * Definition for a binary tree node.
 * public class TreeNode {
 *     int val;
 *     TreeNode left;
 *     TreeNode right;
 *     TreeNode(int x) { val = x; }
 * }
 */
public class Codec {
    // Encodes a tree to a single string.
    public String serialize(TreeNode root) {
        String res = "";
        if(root == null){
            return "#,";
        }else{
            res += "" + root.val + "," ;
            res += serialize(root.left);
            res += serialize(root.right);
        }
        return res;
    }

    // Decodes your encoded data to tree.
    String str = "";
    public TreeNode deserialize(String data) {
        str = data;
        return helper();
    }
    private TreeNode helper(){
        if(str.length()==0)
            return null;
        if(str.charAt(0)=='#'){
            str= str.substring(2);
            return null;
        }
        int iComma = str.indexOf(",");
        int rootVal = Integer.parseInt(str.substring(0,iComma));
        TreeNode root = new TreeNode(rootVal);
        str = str.substring(iComma+1);
        root.left = helper();
        root.right = helper();
        return root;
    }
    
}

// Your Codec object will be instantiated and called as such:
// Codec codec = new Codec();
// codec.deserialize(codec.serialize(root));

Mistakes:

加成功一个root.value之后，忘了加逗号

Interesting Facts about Bitwise Operators in C

In C, following 6 operators are bitwise operators (work at bit-level)
& (bitwise AND) Takes two numbers as operand and does AND on every bit of two numbers. The result of AND is 1 only if both bits are 1.
| (bitwise OR) Takes two numbers as operand and does OR on every bit of two numbers. The result of OR is 1 any of the two bits is 1.
^ (bitwise XOR) Takes two numbers as operand and does XOR on every bit of two numbers. The result of XOR is 1 if the two bits are different.
<< (left shift) Takes two numbers, left shifts the bits of first operand, the second operand decides the number of places to shift.
>> (right shift) Takes two numbers, right shifts the bits of first operand, the second operand decides the number of places to shift.
~ (bitwise NOT) Takes one number and inverts all bits of it

Following are interesting facts about bitwise operators.
1) The left shift and right shift operators should not be used for negative numbers The result of << and >> is undefined behabiour if any of the operands is a negative number. For example results of both -1 << 1 and 1 << -1 is undefined. Also, if the number is shifted more than the size of integer, the behaviour is undefined. For example, 1 << 33 is undefined if integers are stored using 32 bits. See this for more details.
2) The bitwise XOR operator is the most useful operator from technical interview perspective. It is used in many problems. A simple example could be “Given a set of numbers where all elements occur even number of times except one number, find the odd occuring number” This problem can be efficiently solved by just doing XOR of all numbers.

// Function to return the only odd occurring element
int findOdd(int arr[], int n) {
   int res = 0, i;
   for (i = 0; i < n; i++)
     res ^= arr[i];
   return res;
}
 
int main(void) {
   int arr[] = {12, 12, 14, 90, 14, 14, 14};
   int n = sizeof(arr)/sizeof(arr[0]);
   printf ("The odd occurring element is %d ", findOdd(arr, n));
   return 0;
}
// Output: The odd occurring element is 90

The following are many other interesting problems which can be used using XOR operator.
Find the Missing Number, swap two numbers without using a temporary variable, A Memory Efficient Doubly Linked List, and Find the two non-repeating elements. There are many more (See this, this, this, this, this and this)

3) The bitwise operators should not be used in-place of logical operators.
The result of logical operators (&&, || and !) is either 0 or 1, but bitwise operators return an integer value. Also, the logical operators consider any non-zero operand as 1. For example consider the following program, the results of & and && are different for same operands.

int main()
{
   int x = 2, y = 5;
   (x & y)? printf("True ") : printf("False ");
   (x && y)? printf("True ") : printf("False ");
   return 0;
}
// Output: False True

4) The left-shift and right-shift operators are equivalent to multiplication and division by 2 respectively.
As mentioned in point 1, it works only if numbers are positive.

int main()

{

   int x = 19;

   printf ("x << 1 = %d\n", x << 1);

   printf ("x >> 1 = %d\n", x >> 1);

   return 0;

}

// Output: 38 9

5) The & operator can be used to quickly check if a number is odd or even
The value of expression (x & 1) would be non-zero only if x is odd, otherwise the value would be zero.

int main()

{

   int x = 19;

   (x & 1)? printf("Odd"): printf("Even");

   return 0;

}

// Output: Odd

6) The ~ operator should be used carefully
The result of ~ operator on a small number can be a big number if result is stored in a unsigned variable. And result may be negative number if result is stored in signed variable (assuming that the negative numbers are stored in 2′s complement form where leftmost bit is the sign bit)

// Note that the output of following program is compiler dependent

int main()

{

   unsigned int x = 1;

   printf("Signed Result %d \n", ~x);

   printf("Unsigned Result %ud \n", ~x);

   return 0;

}

/* Output:

Signed Result -2

Unsigned Result 4294967294d */

Thursday, March 6, 2014

Print a long int in C using putchar() only

Q:

Write a C function print(n) that takes a long int number n as argument, and prints it on console. The only allowed library function is putchar(), no other function like itoa() or printf() is allowed. Use of loops is also not allowed.

A:

/* C program to print a long int number using putchar() only*/
#include <stdio.h>
void print(long n)
{
    // If number is smaller than 0, put a - sign and
    // change number to positive
    if (n < 0) {
        putchar('-');
        n = -n;
    }
 
    // If number is 0
    if (n == 0)
        putchar('0');
 
    // Remove the last digit and recur
    if (n/10)
        print(n/10);
 
    // Print the last digit
    putchar(n%10 + '0');
}

确定一个String 是否是另一个String的repeat

Q:
有一种String,say strA, 是把一个更短的String， say strB 重复n次而构成的，那个更短的String至少为重复2次，输入一个String写代码返回T或者F

例子：
"abcabcabc" Ture   因为它把abc重复3次构成
"bcdbcdbcde" False 最后一个是bcde
"abcdabcd"   True   因为它是abcd重复2次构成
"xyz"       False 因为它不是某一个String重复
"aaaaaaaaaa" False 重复的短String长度应至少为2（这里不能看做aa重复5次)
要求算法复杂度为O(n)
public boolean isMultiple(String s){
}

A;
思路：
应该是hashMap一下，然后数每个char的个数。如果有1个的，就false
然后，用最少的次数，例如3次。(其余char都应该是3的倍数。)
提取每一个char。例如，如果另一个出现次数是9，则提取3遍。这样，StrB就得到了。假设长度为m, 那么，就依次查看在strA是不是strB 的重复即可。

Mistakes:

HashMap Vs. HashTable ( Java)

1:   One of the major differences between HashMap and Hashtable is that HashMap is non-synchronized whereas Hashtable is synchronized, which means Hashtable is thread-safe and can be shared between multiple threads but HashMap cannot be shared between multiple threads without proper synchronization. Java 5 introduced ConcurrentHashMap which is an alternative of Hashtable and provides better scalability than Hashtable in Java.Synchronized means only one thread can modify a hash table at one point of time. Basically, it means that any thread before performing an update on a hashtable will have to acquire a lock on the object while others will wait for lock to be released.

2:    The HashMap class is roughly equivalent to Hashtable, except that it permits nulls. (HashMap allows null values as key and value whereas Hashtable doesn’t allow nulls).

3:    The third significant difference between HashMap vs Hashtable is that Iterator in the HashMap is a fail-fast iterator while the enumerator for the Hashtable is not and throw ConcurrentModificationException if any other Thread modifies the map structurally by adding or removing any element except Iterator’s own remove() method. But this is not a guaranteed behavior and will be done by JVM on best effort. This is also an important difference between Enumeration and Iterator in Java.

4:    One more notable difference between Hashtable and HashMap is that because of thread-safety and synchronization Hashtable is much slower than HashMap if used in Single threaded environment. So if you don’t need synchronization and HashMap is only used by one thread, it out perform Hashtable in Java.

5:    HashMap does not guarantee that the order of the map will remain constant over time.

补充：
HashMap is implemented as a hash table, and there is no ordering on keys or values.
TreeMap is implemented based on red-black tree (和AVL一样所有操作log(n), 通过rotate实现self-balance, AVL is defined that each of parents children has height difference less or equal than 1)structure, and it is ordered by the key.
LinkedHashMap preserves the insertion order
Hashtable is synchronized and does not allow null value

Learned:
fail-fast iterator   见链接
An iterator is considered fail-fast if it throws a ConcurrentModificationException under either of the following two conditions:

In multithreaded processing: if one thread is trying to modify a Collection while another thread is iterating over it.

In single-threaded or in multithreaded processing: if after the creation of the Iterator, the container is modified at any time by any method other than the Iterator's own remove or add methods.

Find all the numbers that can make a 直角 triangle

Q:
给定一个数组，求所有可以组成勾股三角形的组合。
首先，我们应该用hashSet. 这样，复杂度就是O(n^2)。

但如果题目是正整数，例如， 1到100000. 根据链接
以任意一个大于1的奇数2n+1(n＞=1)为边可以构成勾股数，
其三边分别是2n+1、2n2+2n、2n2+2n+1。
弄出这么一个规律性的结论，问题得以大大简化。

A:

Mistakes:

151. Reverse Words in a String ---M

Given an input string, reverse the string word by word.

Example 1:

Input: "the sky is blue"
Output: "blue is sky the"

Example 2:

Input: "  hello world!  "
Output: "world! hello"
Explanation: Your reversed string should not contain leading or trailing spaces.

Example 3:

Input: "a good   example"
Output: "example good a"
Explanation: You need to reduce multiple spaces between two words to a single space in the reversed string.

Note:

A word is defined as a sequence of non-space characters.
Input string may contain leading or trailing spaces. However, your reversed string should not contain leading or trailing spaces.
You need to reduce multiple spaces between two words to a single space in the reversed string.

Follow up:

For C programmers, try to solve it in-place in O(1) extra space.

A:
思路很简单，就是用tokenizer之后

class Solution {
public:
    string reverseWords(string s) {
        istringstream iss(s);
        vector<string> res( ( istream_iterator<string>(iss)), istream_iterator<string>() );
        string sRes="";
        for(int i = res.size()-1; i>=0;i--)
            sRes += " "+res[i];
        if(sRes.length() >0)
            sRes = sRes.substr(1);
        return sRes;
    }
};

2：天平称球等智力测验

2：天平称球
假设有12个球、1架天平，现知道只有一个球和其他球重量不同，请问，怎样才能称3次就找到那个球？如果是13个球呢？（注意：此题并未说明那个球相比其他球是轻是重，所以需要仔细考虑。）

4：小猴子搬香蕉
一只小猴子身边有100根香蕉，它要走50米才能到家，每次它最多搬50根香蕉（多了就被压死了），它每走1米就要吃掉1根香蕉，请问它最多能把多少根香蕉搬到家里？

10：偷情的丈夫
村子里有100对夫妻，其中每个丈夫都瞒着自己的妻子偷情。村里的每个妻子都能立即发现除自己丈夫之外的其他男人是否在偷情，唯独不知道她自己的丈夫到底有没有偷情。村里的规矩不容忍通奸。任何一个妻子，一旦能证明自己的男人偷情，就必须当天把他杀死。村里的女人全都严格照此规矩办事。一天，女头领出来宣布，村里至少有一个丈夫偷情。请问接下来会发生什么事？

11：形成三角形的概率
将一根木条折成3段之后，形成1个三角形的概率有多大？

19：如果你是教练
一场篮球赛还剩6秒，你们队差对手4分，似乎没可能追得上，但现在有一个暂停，如果你是教练，你会怎样指导球员？

20：字母排序
s-m-t-w-t-f-？

Wednesday, March 5, 2014

把一个数组， in-place，把其交叉

题目：给定整数数组，元素为a1 a2 a3 .. an b1 b2 b3 .. bn元素个数为 2n
要求：请生成如下数组，a1 b1, a2 b2, a3 b3, .. an bn.
条件：时间复杂度为O(N),空间复杂度为O(1).
来源：http://blog.csdn.net/yuan8080/article/details/5705559
//***************************************************************************************
思路：
1、首先证明当 n=2^k 时，存在时间复杂度为O(N),空间复杂度为O(1)的算法。
2、其次证明对任意n，存在时间复杂度为O(N),空间复杂度为O(1)的算法。
证明：
1、当 n=2^k 时，存在时间复杂度为O(N),空间复杂度为O(1)的算法。
首先，从新编号，从“a1 a2 a3 .. an b1 b2 b3 .. bn” 到“0, 1, ... ，2^k-1， 2^k，... ，2^(k+1)-1”。
设某元素原来的下标为i，变换后的下标为j，则有：j=(2*i)%(2*n-1)。例如：1-->2 (a2-->a3)， 2-->4 (a3-->a5)。
然后，从1，3，...， n-1依次执行变换。例如n=8，则有：
1-->2-->4-->8-->1
3-->6-->12-->9-->3
5-->10-->5
7-->14-->13-->11-->7
设从i(i=2*k+1)开始变换的一组下标的集合为Si，则可以证明，Si∩Sj=空集，且 ∪Si=全集。
所以，该变换的时间复杂度为O(N),空间复杂度为O(1)的算法。
2、对任意n，存在时间复杂度为O(N),空间复杂度为O(1)的算法。
对任意n，有n=∑ck*x^k，其中ck=0或1。
因此，可以采用对任意ck=1的情况：
首先，做整体移位，两个2^k连续块放在一起(采用翻转法[1]，时间复杂度为O(N),空间复杂度为O(1))；
其次，对两个2^k连续块采用上面的算法；
然后，对剩余部分再采取前两步的方法，直到k=1。
例如n=11，则有:
第一次：
0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21
变为 0,1,2,3,4,5,6,7,11,12,13,14,15,16,17,18, 8,9,10,19,20,21
然后 0,11,1,12,2,13,3,14,4,15,5,16,6,17,7,18, 8,9,10,19,20,21
第二次：
0,1,2,3,4,5,6,7,11,12,13,14,15,16,17,18, 8,9,10,19,20,21
变为 0,1,2,3,4,5,6,7,11,12,13,14,15,16,17,18, 8,9,19,20, 10,21
然后 0,11,1,12,2,13,3,14,4,15,5,16,6,17,7,18, 8,19,9,20, 10,21
证明对任意n该方法的时间复杂度为O(N)，有两种证明方法：
1、采用master theorem[2]，可直接证明。
2、到n=2^k-1时，该算法的时间复杂度最大。因此，只需证明此时的时间复杂度为O(N)。
利用等比数列，可以证明此结论。
算法与证明描述结束。
[1] 编程之美。问题2.17。
[2] 算法导论。定理4.1

Sunday, March 2, 2014

thread vs process

Threads share same memory.. processes do not.
Q. Do you know segments in which program gets divided?
My answer: yep(thought it was easy one) Stack, Data, Code, Heap
Q. So tell me which segment thread share?

threads share all segments except the stack.
Threads have independent call stacks, however the memory in other thread stacks is still accessible and in theory you could hold a pointer to memory in some other thread's local stack frame.

Both processes and threads are independent sequences of execution. The typical difference is that threads (of the same process) run in a shared memory space, while processes run in separate memory spaces.
I'm not sure what "hardware" vs "software" threads might be referring to. Threads are an operating environment feature, rather than a CPU feature (though the CPU typically has operations that make threads efficient).
Erlang uses the term "process" because it does not expose a shared-memory multiprogramming model. Calling them "threads" would imply that they have shared memory.

Threads differ from traditional multitasking operating system processes in that:

processes are typically independent, while threads exist as subsets of a process

processes carry considerable state information, whereas multiple threads within a process share state as well as memory and other resources

processes have separate address spaces, whereas threads share their address space

processes interact only through system-provided inter-process communication mechanisms.

Context switching between threads in the same process is typically faster than context switching between processes.

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Tell the interviewer that it depends entirely on the implementation of the OS.
Take Windows x86 for example. There are only 2 segments [1], Code and Data. And they're both mapped to the whole 2GB (linear, user) address space. Base=0, Limit=2GB. They would've made one but x86 doesn't allow a segment to be both Read/Write and Execute. So they made two, and set CS to point to the code descriptor, and the rest (DS, ES, SS, etc) to point to the other [2]. But both point to the same stuff!

The person interviewing you had made a hidden assumption that he/she did not state, and that is a stupid trick to pull.
So regarding

Q. So tell me which segment thread share?

The segments are irrelevant to the question, at least on Windows. Threads share the whole address space. There is only 1 stack segment, SS, and it points to the exact same stuff that DS, ES, and CS do [2]. I.e. the whole bloody user space. 0-2GB. Of course, that doesn't mean threads only have 1 stack. Naturally each has its own stack, but x86 segments are not used for this purpose.
Maybe *nix does something different. Who knows. The premise the question was based on was broken.

At least for user space.
From ntsd notepad: cs=001b ss=0023 ds=0023 es=0023