# C++ Condensing nested for loops

I have these for loops.

``````// output all possible combinations
for ( int i1 = 0; i1 <= 2; i1++ )
{
for ( int i2 = 0; i2 <= 2; i2++ )
{
for ( int i3 = 0; i3 <= 2; i3++ )
{
for ( int i4 = 0; i4 <= 2; i4++ )
{
for ( int i5 = 0; i5 <= 2; i5++ )
{
for ( int i6 = 0; i6 <= 2; i6++ )
{
for ( int i7 = 0; i7 <= 2; i7++ )
{
//output created words to outFile
outFile
<< phoneLetters[n[0]][i1]<< phoneLetters[n[1]][i2]
<< phoneLetters[n[2]][i3]<< phoneLetters[n[3]][i4]
<< phoneLetters[n[4]][i5]<< phoneLetters[n[5]][i6]
<< phoneLetters[n[6]][i7]
<< " ";

if ( ++count % 9 == 0 ) // form rows
outFile << std::endl;
}
}
}
}
}
}
}
``````

It looks awful but I'm too much of a newb to know where to begin in regards to condensing them.

Can someone give me a pointer or two so I can make this code a little neater?

-
Wow... This is a work of art... – Mysticial Jul 31 '12 at 19:55
I'd like to rewrite this so it uses as few loops as possible – frankV Jul 31 '12 at 19:59
It would be fairly trivial to convert this into a recursive function where each recursive call accumulates the next value, and when you have enough values, you print the number. Alternatively, keep a single running counter, and convert it to base 3 (or compute its base 3 components). – James McNellis Jul 31 '12 at 20:01
If you're math-inclined, check out Cartesian Products. Take the Cartesian product of {0,1,2} with itself six times, and it gives you your phone numbers. – Kevin Jul 31 '12 at 20:03
@James McNellis that was exactly what I did in my answer. – John Jul 31 '12 at 20:19

You're indexing 0, 1, and 2 on seven levels. This may not be terribly efficient, but how about this:

``````int i1, i2, i3, i4, i5, i6, i7;
int j;

for (int i = 0; i < 2187; i++)
{
// 0 through 2186 represent all of the ternary numbers from
//    0000000 (base 3) to 2222222 (base 3).  The following
//    pulls out the ternary digits and places them into i1
//    through i7.

j = i;

i1 = j / 729;
j = j - (i1 * 729);

i2 = j / 243;
j = j - (i2 * 243);

i3 = j / 81;
j = j - (i3 * 81);

i4 = j / 27;
j = j - (i4 * 27);

i5 = j / 9;
j = j - (i5 * 9);

i6 = j / 3;
j = j - (i6 * 3);

i7 = j;

}
``````

Or, based on user315052's suggestion in the comments:

``````int d[7];

for (int i = 0; i < 2187; i++)
{
int num = i;
for (int j = 6; j >= 0; j--)
{
d[j] = num % 3;
num = num / 3;
}

// print your stuff using d[0] ... d[6]]
}
``````
-
Fairly the neats. – Puppy Jul 31 '12 at 20:21
I would use `j %= X` instead of the subtraction/multiplication thing. If you start populating the 7th term first, you can void the constants by just using 3. If you switch `i` into an array, it becomes a fairly simple loop to calculate the terms as a mod by 3, div by 3 at each iteration. – jxh Jul 31 '12 at 20:23
Edited my answer to reflect user315052's suggestion. Very nice idea! – John Jul 31 '12 at 20:37
@John: One more thing, to keep the digits in the original order (that is `d[1] == i2` of the original code), it should be `d[6-j] = num % 3`. – jxh Jul 31 '12 at 20:39
Fixed. Thanks for the catch! – John Jul 31 '12 at 20:41

In the general case, you could use recursion:

``````template <typename Stream, typename Iterator>
void generateNumbers(Stream& stream, Iterator begin, Iterator end) {
if (end - begin == 7) {
for (Iterator p = begin; p < end; p++) {
stream << phoneLetters[n[*p]][*p];
}
stream << " ";
} else {
for (*end = 0; *end <= 2; ++*end)
generateNumbers(stream,begin,end+1);
if (end - begin == 6)
stream << std::endl;
}
}
``````

Which you can call by using either a buffer vector or a plain old C array (both with sufficient size).

For example:

``````std::vector<int> buf(7,0);
generateNumbers(std::cout,buf.begin(),buf.begin());
// or
int buf2[7];
generateNumbers(std::cout,buf2,buf2);
``````

-

I see James McNellis already commented this solution, but here it is:

``````void phone_combo(int n[], int i[], int d, ostream &ofile, int &count) {
if (d == 7) {
//output created words to outFile
ofile
<< phoneLetters[n[0]][i[0]]<< phoneLetters[n[1]][i[1]]
<< phoneLetters[n[2]][i[2]]<< phoneLetters[n[3]][i[3]]
<< phoneLetters[n[4]][i[4]]<< phoneLetters[n[5]][i[5]]
<< phoneLetters[n[6]][i[6]]
<< " ";
if ( ++count % 9 == 0 ) // form rows
ofile << std::endl;
}
return;
}
for (i[d] = 0; i[d] <= 2; i[d]++) {
phone_combo(n, i, d+1, ofile, count);
}
}

int i[7];
phone_combo(n, i, 0, outFile, count);
``````
-

There was a response posted earlier that reduced this to a single for loop but it was removed for some reason.

``````for( int i(0); i!= 2187; ++i )
{
outFile
<< phoneLetters[n[0]][(i >> 6) & 0x01]<< phoneLetters[n[1]][(i >> 5) & 0x01]
<< phoneLetters[n[2]][(i >> 4) & 0x01]<< phoneLetters[n[3]][(i >> 3) & 0x01]
<< phoneLetters[n[4]][(i >> 2) & 0x01]<< phoneLetters[n[5]][(i >> 1) & 0x01]
<< phoneLetters[n[6]][i & 0x01]
<< ' ';

if ( ++count % 9 == 0 ) // form rows
outFile << '\n';
}
``````

This is only going to work if you know the exact number of iterations needed to compute each possible permutation.

-