I am trying to generate all possible combinations of a sequence of length k given a certain alphabet (this is to generate query sequences for a bioinformatics project).

The sequences are of the form:

A first character and last character that can be any of A C G U (call these Y) and k - 2 characters in between that can be any of A C G U or ? (call these X).

e.g. if k = 3 then the pattern is of the form YXY and if k = 5 then YXXXY.

Generating all possible sequences if k is known is easy, as you can just use k nested for loops. But if k is not known in advance, then this implementation does not fit.

The total number of possible sequences can be expressed by 4^2 * 5^(k-2). With k = 3 this only gives 80 combinations, but scale that up to k = 9 and you have 1,250,000!

Any tips, ideas or suggestions would be much appreciated.

I need to use every sequence generated, so they need to be either stored in an array, or passed at creation/generation to another function, it doesn't really matter which, although I would prefer not to have to store all of them.

Many Thanks.

N.B. I am writing in objective-c, but any c-style code, or psuedocode or just plain english descriptions of an algorithm would be helpful.

UPDATE:

Here is the objc code I wrote base on the brilliant answer by Analog File. Currently it just outputs one sequence per line to stdout, but I will modify it to produce an array of strings.

Many thanks to everyone who contributed.

```
NSArray *yAlphabet = [NSArray arrayWithObjects:@"A", @"C", @"G", @"U", nil];
NSArray *xAlphabet = [NSArray arrayWithObjects:@"A", @"C", @"G", @"U", @"?", nil];
int i, v;
int count = 0;
int numberOfCases = 16 * pow(5 , (k - 2));
for (int n = 0; n < (numberOfCases); n++) {
i = n;
v = i % 4;
i = i / 4;
count++;
printf("\n%s", [[yAlphabet objectAtIndex:v] cStringUsingEncoding:NSUTF8StringEncoding]);
for (int m = 1; m < (k - 1); m++) {
v = i % 5;
i = i / 5;
printf("%s", [[xAlphabet objectAtIndex:v] cStringUsingEncoding:NSUTF8StringEncoding]);
}
printf("%s", [[yAlphabet objectAtIndex:i] cStringUsingEncoding:NSUTF8StringEncoding]);
}
printf("\n");
NSLog(@"No. Sequences: %i", count);
```

UPDATE 2:

And here's the code, outputting the generated sequences to an array of strings. Note that k is the length of the desired sequences and is given as a parameter elsewhere. I have tested this up to k=9 (1,250,000 sequences). Also note that my code uses ARC, hence there is no memory deallocation shown.

```
NSArray *yAlphabet = [NSArray arrayWithObjects:@"A", @"C", @"G", @"U", nil];
NSArray *xAlphabet = [NSArray arrayWithObjects:@"A", @"C", @"G", @"U", @"?", nil];
NSMutableArray *sequences = [[NSMutableArray alloc] init];
int i, v;
int count = 0;
int numberOfCases = 16 * pow(5 , (k - 2));
for (int n = 0; n < (numberOfCases); n++) {
i = n;
v = i % 4;
i = i / 4;
count++;
NSMutableString *seq = [[NSMutableString alloc] initWithString:[yAlphabet objectAtIndex:v]];
for (int m = 1; m < (k - 1); m++) {
v = i % 5;
i = i / 5;
[seq appendString:[xAlphabet objectAtIndex:v]];
}
[seq appendString:[yAlphabet objectAtIndex:i]];
[sequences addObject:seq];
}
NSLog(@"No. Sequences looped: %i", count);
//print the array to confirm
int count1 = 0;
for (NSMutableString *str in sequences) {
fprintf(stderr, "%s\n", [str cStringUsingEncoding:NSUTF8StringEncoding]);
count1++;
}
NSLog(@"No. Sequences printed: %i", count1);
NSLog(@"Counts match? : %@", (count == count1 ? @"YES" : @"NO"));
```