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scrambleString.cpp
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scrambleString.cpp
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// Source : https://oj.leetcode.com/problems/scramble-string/
// Author : Hao Chen
// Date : 2014-10-09
/**********************************************************************************
*
* Given a string s1, we may represent it as a binary tree by partitioning it to two non-empty substrings recursively.
*
* Below is one possible representation of s1 = "great":
*
* great
* / \
* gr eat
* / \ / \
* g r e at
* / \
* a t
*
* To scramble the string, we may choose any non-leaf node and swap its two children.
*
* For example, if we choose the node "gr" and swap its two children, it produces a scrambled string "rgeat".
*
* rgeat
* / \
* rg eat
* / \ / \
* r g e at
* / \
* a t
*
* We say that "rgeat" is a scrambled string of "great".
*
* Similarly, if we continue to swap the children of nodes "eat" and "at", it produces a scrambled string "rgtae".
*
* rgtae
* / \
* rg tae
* / \ / \
* r g ta e
* / \
* t a
*
* We say that "rgtae" is a scrambled string of "great".
*
* Given two strings s1 and s2 of the same length, determine if s2 is a scrambled string of s1.
*
*
**********************************************************************************/
#include <stdlib.h>
#include <time.h>
#include <iostream>
#include <vector>
#include <string>
#include <algorithm>
using namespace std;
// The recursive way is quite simple.
// 1) break the string to two parts:
// s1[0..j] s1[j+1..n]
// s2[0..j] s2[j+1..n]
// 2) then
// isScramble(s1[0..j], s2[0..j]) && isScramble(s1[j+1..n], s2[j+1..n])
// OR
// isScramble(s1[0..j], s2[j+1, n]) && isScramble(s1[j+1..n], s2[0..j])
bool isScramble_recursion(string s1, string s2) {
if (s1.size()!= s2.size() || s1.size()==0 || s2.size()==0) {
return false;
}
if (s1 == s2){
return true;
}
string ss1 = s1;
string ss2 = s2;
sort(ss1.begin(), ss1.end());
sort(ss2.begin(), ss2.end());
if (ss1 != ss2 ) {
return false;
}
for (int i=1; i<s1.size(); i++) {
if ( isScramble_recursion(s1.substr(0,i), s2.substr(0,i)) &&
isScramble_recursion(s1.substr(i, s1.size()-i), s2.substr(i, s2.size()-i)) ) {
return true;
}
if ( isScramble_recursion(s1.substr(0,i), s2.substr(s2.size()-i, i)) &&
isScramble_recursion(s1.substr(i, s1.size()-i), s2.substr(0, s2.size()-i)) ) {
return true;
}
}
return false;
}
/*
* Definition
*
* dp[k][i][j] means:
*
* a) s1[i] start from 'i'
* b) s2[j] start from 'j'
* c) 'k' is the length of substring
*
* Initialization
*
* dp[1][i][j] = (s1[i] == s2[j] ? true : false)
*
* Formula
*
* same as the above recursive method idea
*
* dp[k][i][j] =
* dp[divk][i][j] && dp[k-divk][i+divk][j+divk] ||
* dp[divk][i][j+k-divk] && dp[k-divk][i+divk][j]
*
* `divk` mean split the k to two parts, so 0 <= divk <= k;
*/
bool isScramble_dp(string s1, string s2) {
if (s1.size()!= s2.size() || s1.size()==0 || s2.size()==0) {
return false;
}
if (s1 == s2){
return true;
}
const int len = s1.size();
// dp[len+1][len][len]
vector< vector< vector<bool> > > dp(len+1, vector< vector<bool> >(len, vector<bool>(len) ) );
// ignor the k=0, just for readable code.
// initialization k=1
for (int i=0; i<len; i++){
for (int j=0; j<len; j++) {
dp[1][i][j] = (s1[i] == s2[j]);
}
}
// start from k=2 to len, O(n^4) loop.
for (int k=2; k<=len; k++){
for (int i=0; i<len-k+1; i++){
for (int j=0; j<len-k+1; j++){
dp[k][i][j] = false;
for (int divk = 1; divk < k && dp[k][i][j]==false; divk++){
dp[k][i][j] = ( dp[divk][i][j] && dp[k-divk][i+divk][j+divk] ) ||
( dp[divk][i][j+k-divk] && dp[k-divk][i+divk][j] );
}
}
}
}
return dp[len][0][0];
}
bool isScramble(string s1, string s2) {
srand(time(0));
if (random()%2) {
cout << "---- recursion ---" << endl;
return isScramble_recursion(s1, s2);
}
cout << "---- dynamic programming ---" << endl;
return isScramble_dp(s1, s2);
}
int main(int argc, char** argv)
{
string s1="great", s2="rgtae";
if (argc>2){
s1 = argv[1];
s2 = argv[2];
}
cout << s1 << ", " << s2 << endl;
cout << isScramble(s1, s2) << endl;
return 0;
}