I need to generate all permutation of a string with selecting some of the elements. Like if my string is "abc" output would be { a,b,c,ab,ba,ac,ca,bc,cb,abc,acb,bac,bca,cab,cba }.
I thought a basic algorithm in which I generate all possible combination of "abc" which are {a,b,c,ab,ac,bc,abc} and then permute all of them.
So is there any efficient permutation algorithm by which I can generate all possible permutation with varying size.
The code I wrote for this is :
#include <iostream>
#include <stdio.h>
#include <stdlib.h>
#include <map>
using namespace std;
int permuteCount = 1;
int compare (const void * a, const void * b)
{
return ( *(char*)a - *(char*)b);
}
void permute(char *str, int start, int end)
{
// cout<<"before sort : "<<str;
// cout<<"after sort : "<<str;
do
{
cout<<permuteCount<<")"<<str<<endl;
permuteCount++;
}while( next_permutation(str+start,str+end) );
}
void generateAllCombinations( char* str)
{
int n, k, i, j, c;
n = strlen(str);
map<string,int> combinationMap;
for( k =1; k<=n; k++)
{
char tempStr[20];
int index =0;
for (i=0; i<(1<<n); i++) {
index =0;
for (j=0,c=0; j<32; j++) if (i & (1<<j)) c++;
if (c == k) {
for (j=0;j<32; j++)
if (i & (1<<j))
tempStr[ index++] = str[j];
tempStr[index] = '\0';
qsort (tempStr, index, sizeof(char), compare);
if( combinationMap.find(tempStr) == combinationMap.end() )
{
// cout<<"comb : "<<tempStr<<endl;
//cout<<"unique comb : \n";
combinationMap[tempStr] = 1;
permute(tempStr,0,k);
} /*
else
{
cout<<"duplicated comb : "<<tempStr<<endl;
}*/
}
}
}
}
int main () {
char str[20];
cin>>str;
generateAllCombinations(str);
cin>>str;
}
I need to use a hash for avoiding same combination, so please let me know how can I make this algorithm better.
开发者_如何学GoThanks, GG
#include <algorithm>
#include <iostream>
#include <string>
int main() {
using namespace std;
string s = "abc";
do {
cout << s << '\n';
} while (next_permutation(s.begin(), s.end()));
return 0;
}
Next_permutation uses a constant size, but you can add a loop to deal with varying size. Or just store in a set to eliminate the extra dupes for you:
#include <set>
int main() {
using namespace std;
string s = "abc";
set<string> results;
do {
for (int n = 1; n <= s.size(); ++n) {
results.insert(s.substr(0, n));
}
} while (next_permutation(s.begin(), s.end()));
for (set<string>::const_iterator x = results.begin(); x != results.end(); ++x) {
cout << *x << '\n';
}
return 0;
}
I don't think you can write much faster program than you have already. The main problem is the output size: it has order of n!*2^n
(number of subsets * average number of permutations for one subset), which is already > 10^9
for a string of 10 different characters.
Since STL's next_permutation
adds very limited complexity for such small strings, your program's time complexity is already nearly O(output size)
.
But you can make your program a bit simpler. In particular, for( k =1; k<=n; k++)
loop seems unnecessary: you already calculate size of subset in variable c
inside. So, just have int k = c
instead of if (c == k)
. (You'll also need to consider case of empty subset: i == 0
)
edit
Actually, there's only 9864100 outputs for n == 10
(not ~ 10^9
). Still, my point remains the same: your program already wastes only "O(next_permutation)" time for each output, which is very, very little.
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