It's still an Amazon interview question.
Given an array containing only stars '*' and hashes '#' . Find longest contiguous sub array that will contain equal no. of stars '*' and hashes '#'.Output the index range if the longest contiguous sub array does exist or else output -1 and -1,which denote no corresponding contiguous sub array exist.
Think for a while......
Typical DP-solved question.Every time I scan the sub array,I can use something that has been done.Say when I want to scan [2,6] in the original array,I should know the information about [2,5] in advance.So we can scan the array by length.The code is below.Time:O(n3),Space:O(n2),(n denotes the length of the array).
/*************************************************
Author:Zhou You
Time:2014.09.09
*************************************************/
#include <iostream>
#include <cstdio> using namespace std; struct matrix_element
{
public:
matrix_element():
star_num_(),
hash_num_(){} matrix_element(unsigned star_num,unsigned hash_num):
star_num_(star_num),
hash_num_(hash_num){
} unsigned star_num_;
unsigned hash_num_;
}; void BuildMatrix(matrix_element *** pmaze,unsigned row_num,unsigned column_num)
{
*pmaze = new matrix_element*[row_num];
for(unsigned i=;i<row_num;++i){
(*pmaze)[i] = new matrix_element[column_num];
}
} void ReleaseMatrix(matrix_element ***pmaze,unsigned row_num)
{
if(!pmaze) return; for(unsigned i=;i<row_num;++i){
delete [](*pmaze)[i];
} delete [](*pmaze);
} void CoreSolve(char **parray,unsigned element_num)
{
matrix_element **pnote = NULL;
BuildMatrix(&pnote,element_num,element_num); for(unsigned i=;i<element_num;++i){
if((*parray)[i]=='*'){
++pnote[i][i].star_num_;
}else if((*parray)[i]=='#'){
++pnote[i][i].hash_num_;
}
} int index_start = -,index_end = -;
unsigned cur_length = ; for(unsigned sub_array_length = ;sub_array_length<=element_num;++sub_array_length){
for(unsigned i=;i<=element_num-sub_array_length;++i){
pnote[i][i+sub_array_length-].hash_num_ =
pnote[i][i+sub_array_length-].hash_num_+
pnote[i+sub_array_length-][i+sub_array_length-].hash_num_; pnote[i][i+sub_array_length-].star_num_ =
pnote[i][i+sub_array_length-].star_num_+
pnote[i+sub_array_length-][i+sub_array_length-].star_num_; if(pnote[i][i+sub_array_length-].star_num_==
pnote[i][i+sub_array_length-].hash_num_){
if(sub_array_length>cur_length){
cur_length = sub_array_length;
index_start = i;
index_end = i+sub_array_length-;
}
}
}
} cout<<index_start<<" "<<index_end; ReleaseMatrix(&pnote,element_num);
} void Solve()
{
unsigned element_num = ;
cin>>element_num; char *parray = new char[element_num];
for(unsigned i=;i<element_num;++i){
cin>>parray[i];
} CoreSolve(&parray,element_num);
delete []parray;
} int main()
{
freopen("data.in","r",stdin);
freopen("data.out","w",stdout); unsigned case_num = ;
cin>>case_num; for(unsigned i=;i<=case_num;++i){
cout<<"Case #"<<i<<" ";
Solve();
cout<<endl;
} return ;
}
Case in data.in file
5
4
*#*#
4
*#**
5
*****
6
*###**
12
****###*****
Output data in data.out file
Case #1 0 3
Case #2 0 1
Case #3 -1 -1
Case #4 0 5
Case #5 1 6