I'm trying to figure out how to solve one of the problems from one of the ACM ICPC finals (from 2012, so I guess the most recent). It's called Fibonacci Words and is described here under Problem D.

I think I'm very close, as all the test cases except the last are giving the correct answer. But for the last, I'm getting 6440026026380244497, which is on the right order of magnitude but still way off--since the order of magnitude is huge. :)

Here's my Java code, with a lot of comments (too many, you think? could it be refactored?):

```
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
public class FibonacciWords {
public static StringBuilder[] updateChars(StringBuilder lastOneBack, StringBuilder firstTwoBack, StringBuilder lastTwoBack, StringBuilder firstThreeBack) {
int pattLen = lastOneBack.length();
StringBuilder[] newChars = new StringBuilder[2];
newChars[0] = new StringBuilder(pattLen); // will become the new lastOneBack!
newChars[1] = new StringBuilder(pattLen); // will become the new firstTwoBack!
if(lastOneBack.charAt(0) == 'E') { // lastOneBack not full yet
int shiftCharsBy = 0; // holds amount to shift lastOneBack by
for(int i = 0; i < pattLen; i++) {
if(firstTwoBack.charAt(i) != 'E') {
shiftCharsBy++; // need to move whatever is at beginning of firstTwoBack to end of lastOneBack
} else {
break; // when first 'E' is reached in firstTwoBack, the rest are 'E' also
}
}
for(int i = 0; i < pattLen-shiftCharsBy; i++) {
newChars[0].append(lastOneBack.charAt(i+shiftCharsBy)); // shift lastOneBack by shiftCharsBy characters
}
for(int i = 0; i < shiftCharsBy; i++) {
newChars[0].append(firstTwoBack.charAt(i)); // fill remainder of new lastOneBack with what's in firstTwoBack
}
} else { // lastOneBack already full
newChars[0] = lastTwoBack; // make lastOneBack lastTwoBack (following pattern)
}
if(firstTwoBack.charAt(pattLen-1) == 'E') { // firstTwoBack not full yet
if(lastOneBack.charAt(0) == 'E') {
for(int i = 1; i < pattLen; i++) {
if(lastOneBack.charAt(i) != 'E') {
newChars[1].append(lastOneBack.substring(i)); // move last characters of lastOneBack to front of new firstTwoBack
break;
}
}
int charsAdded = newChars[1].length();
for(int i = 0; i < pattLen-charsAdded; i++) {
newChars[1].append('E'); // fill whatever might remain with 'E'
}
} else {
//newChars[1] = lastOneBack;
for(int i = 0; i < pattLen; i++) {
if(firstTwoBack.charAt(i) != 'E') {
newChars[1].append(firstTwoBack.charAt(i));
} else {
break;
}
}
int charsAdded = newChars[1].length();
// now take from firstThreeBack--which also isn't full if firstTwoBack isn't--until pattLen is reached
for(int i = 0; i < pattLen-charsAdded; i++) {
newChars[1].append(firstThreeBack.charAt(i));
}
}
} else {
newChars[1] = firstTwoBack; // firstTwoBack doesn't change when already full
}
return newChars;
}
public static void main(String[] args) throws IOException {
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
int n = Integer.parseInt(br.readLine());
String pattern = br.readLine();
long numPattTwoPrior = 0; // number of times pattern occurred in F(n-2)
if(pattern.equals("0")) {
numPattTwoPrior++; // since n starts at 2 below, increment this if pattern is F(0), or "0"
}
long numPattOnePrior = 0; // number of times pattern occurred in F(n-1)
if(pattern.equals("1")) {
numPattOnePrior++; // since n starts at 2 below, increment this if pattern is F(1), or "1"
}
int pattLen = pattern.length();
StringBuilder lastCharsInOnePrior = new StringBuilder(pattLen); // keeps track of last pattLen characters in F(n-1)
for(int i = 0; i < pattLen; i++) {
lastCharsInOnePrior.append('E'); // 'E' stands for empty
}
lastCharsInOnePrior.setCharAt(pattLen-1, '1'); // since F(1) = "1"
StringBuilder firstCharsInTwoPrior = new StringBuilder(pattLen);
for(int i = 0; i < pattLen; i++) {
firstCharsInTwoPrior.append('E');
}
firstCharsInTwoPrior.setCharAt(0, '0'); // since F(0) = "0"
StringBuilder lastCharsInTwoPrior = null; // last characters always the same as 2 back, so keep track of this
StringBuilder firstCharsInThreePrior = null; // used for special case in updateChars
// number of times pattern occurs in F(n)
long numPattCurr = (n == 0) ? numPattTwoPrior : (n == 1) ? numPattOnePrior : 0;
for(int i = 2; i <= n; i++) { // finding F(n) up to the n given by the input
numPattCurr = numPattTwoPrior + numPattOnePrior; // at least this many times in F(n)
// adding to above all patterns found as part of concatenating F(n-1) and F(n-2), but not either on its own
middle:
for(int j = 1; j < pattLen; j++) { // starting at pos. 1 b/c [0, pattLen) is all F(n-1)
if(lastCharsInOnePrior.charAt(j) == 'E') {
continue;
}
StringBuilder compareWith = new StringBuilder(pattLen); // to compare with pattern
for(int k = 0; k < pattLen; k++) {
if(j + k >= pattLen) { // reached end of characters in F(n-1), start checking F(n-2)
int posInFirstChars = (j + k) % pattLen;
if(firstCharsInTwoPrior.charAt(posInFirstChars) == 'E') {
break middle; // none of the remaining overlap between F(n-1) and F(n-2) is as long as pattern, so can stop here
} else {
compareWith.append(firstCharsInTwoPrior.charAt(posInFirstChars));
}
} else {
compareWith.append(lastCharsInOnePrior.charAt(j + k));
}
}
if(pattern.equals(compareWith.toString())) {
numPattCurr++; // this overlap matched pattern
}
}
// changing characters of F(n-1) and F(n-2), as needed, for next iteration
StringBuilder[] updatedChars = updateChars(lastCharsInOnePrior, firstCharsInTwoPrior, lastCharsInTwoPrior, firstCharsInThreePrior);
lastCharsInTwoPrior = lastCharsInOnePrior;
firstCharsInThreePrior = firstCharsInTwoPrior;
lastCharsInOnePrior = updatedChars[0];
firstCharsInTwoPrior = updatedChars[1];
// changing number of times pattern found for F(n-1) and F(n-2) for next iteration
numPattTwoPrior = numPattOnePrior;
numPattOnePrior = numPattCurr;
}
System.out.println(numPattCurr);
System.exit(0);
}
}
```

I think I only left in one line of commented code, which gave the exact same answers in all the test cases when that was the only line within its else block--though what I replaced it with is more correct.

Any suggestions on what I'm missing or how I might go about debugging the last test case? Or interested in talking it through with someone because you're preparing for the contest or just working on learning algorithms? Please let me know.