Long AAA = 42L;
Long BBB = -37L;
Long TTT = 17206538691L;

problem is don't know value that X should be for equation:

AAA + BBB * X == TTT

this should find the value for X but it's off

Long X = TTT / BBB - AAA; 

This keep returning false

Boolean Matched = AAA + BBB * X == TTT;
Long Result = AAA + BBB * X;
System.out.println(X.toString()+" Matched "+Matched.toString()+" Result "+Result.toString());
  • 4
    Shouldn't your equation be: X = (TTT - AAA) / BBB ? – Frakcool Jun 16 '17 at 13:52
  • 1
    Are you asking a basic math question? – OH GOD SPIDERS Jun 16 '17 at 13:52
  • 1
    1) Your formula is wrong. AAA + BBB * X == TTT means X = (TTT - AAA) / BBB. --- 2) Result of that is -465041585.10810810810810810810811, i.e. not an integer value. --- 3) Don't use boxed objects. Change Long to long. Or rather, to double (see #2). --- For all the people voting to close as "math-only" problem: You're wrong. True, question has bad math, but it is also a programming problem with using integer math for a non-integer result. – Andreas Jun 16 '17 at 13:56
  • @OHGODSPIDERS X = (TTT - AAA) / BBB with AAA = 42, BBB = -37, and TTT = 17206538691 gives X = (17206538691 - 42) / -37 = 17206538649 / -37 = -465041585.10810810810810810810811, according to my handy Windows Calculator app. – Andreas Jun 16 '17 at 14:03
  • @Andreas yes, realized my mistake a few seconds after posting and deleted the comment. Guess that happens when you use a cheap calculator that just rounds stuff without telling you. – OH GOD SPIDERS Jun 16 '17 at 14:09
up vote 4 down vote accepted

It's not completely clear what you are looking for, but note that java long arithmetic is effectively done mod 264. You can investigate modular inverses and the extended euclidean algorithm yourself, as well as how java handles integer overflow. The BigInteger class makes doing these experiments relatively easily, as this example shows.

public class Main {
    static long AAA = 42L;
    static long BBB = -37L;
    static long TTT = 17206538691L;

    private static long solve() {
        // compute x = inverse(BBB, 1<<64) * (TTT - AAA)

        BigInteger two_64 = BigInteger.ONE.shiftLeft(64);
        BigInteger BBB_inverse = BigInteger.valueOf(BBB).modInverse(two_64);
        return BBB_inverse.multiply(BigInteger.valueOf(TTT - AAA)).longValue();
    }

    public static void main(String[] args) {
        System.out.println(solve());
    }
}

which shows that the answer is -5982727808154625893L.

This only works if BBB is an odd integer.

  • Everybody is falling all over themselves to heap scorn on OP, but it's a meaningful question, and this is the right answer. – Robert Dodier Jun 16 '17 at 22:21
  • This solution solved the problem for which I'm very grateful, Thanks – Martyn Kemp Jun 17 '17 at 12:51

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