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I have 2 convertor methods as below:

private const decimal MaxValidValue = 99.99m;
public decimal ConvertABToC(decimal a, decimal b)
    return a * b;

public void ConvertCtoAB(decimal c, ref decimal a, ref decimal b)
    if (c > MaxValidValue*MaxValidValue)
        throw new ApplicationException();

    if (c <= MaxValidValue)
        a = 1.00m;
        b = c;
        // need to introduce some logic or assumptions here

There are 3 important things to know:

1) The a and b variables are in the range of 0.00 to 99.99 therefore c can't have a value greater than 99.99*99.99

2) the a, b and c must not have more than 2 decimal precession e.g. a = 99.123 would be invalid.

3) you can use rounding if you'd need to as long as decimal.Round(a * b, 2) == c.

4) combinations like (1, 3), (3, 1), (2, 2), (1, 4), (0.5, 8) or even (0.25, 16) are all valid; it doesn't matter as long as c would be the product of a and b.

How would you complete the implementation of ConvertCtoAB?

Many thanks,

share|improve this question
Once you have converted it to c, there is no way of getting back to the same a and b. – Femaref Nov 2 '11 at 18:49
@Femaref: Well, there is the case when c = 99.99 * 99.99, but other than that... yeah. – Liz Nov 2 '11 at 19:10
Put another way, if you have a and b of 1.5 and 2 or 1 and 3, c is 3. If c is 3, a and b can be anything, unless there are rules you are not telling us about. The precision of the data type and the number of decimal places aside, c is the product of an infinite number of a and b combinations. – Anthony Pegram Nov 2 '11 at 19:10
Do A and B need to be returned their original values or do they just have to have valid values? for example if you had C=120, would 60*2 and 30*4 both be valid solutions? – deepee1 Nov 2 '11 at 19:10
@AnthonyPegram, yes you're right; we should be introducing some rules. not sure what exactly. – The Light Nov 2 '11 at 19:14
up vote 2 down vote accepted

Multiply C by 10,000. Then factor this number into its prime factors. Then find a partition of the prime factors into two sets such that the product of the numbers in each set is less than 10,000. If such a partition can be found, then return these two products divided by 100 as A and B. Otherwise, add one to the number and try again.

For example, if C=100.07, then the factors are 2, 2, 5, 5, 10007. Because one of the products must include the factor 10007, which is a prime number, the first condition can never be satisfied. So we try again with 1000701 = 3*3*3*13*2851. This time, we can partition the number, and we have A=3.51 and B=28.51 as a possible solution.

You can do this at most 99 times. If you need 100 or more, than the input value cannot have been generated from ConvertABToC.

This only guarantees that the result of ConvertCtoAB, when fed back into ConvertABtoC will produce the same C, not the other way around. It appears to violate rule #3, but then elsewhere the question is about rounding.

If no rounding at all is allowed, then one should stop and report infeasibility after trying the original 10000*C.

share|improve this answer
you're genius! why/how did you add one to the number in this scenario? – The Light Nov 2 '11 at 21:25
This doesn't address the problem of c potentially violating rule 2, as specified in my answer. It's also not clear whether reversibility is important or not - it was in one of the versions of the question, but pinning down the requirements here is like trying to herd cats. I hope it was clearer than this in the interview... – Jon Skeet Nov 2 '11 at 21:36
reversibility is not important in the sense that both (1, 3) and (3, 1) are acceptable if that's what you mean Jon. why it potentially violates rule 2? it suggests using prime numbers which makes sense. – The Light Nov 2 '11 at 21:44
@William: I mean more than that - are you happy with any factors? So are (2, 2), (0.5, 8) etc also acceptable? This isn't just about reversing pair - it's about finding all possible pairs of factors. As for violating rule 2 - you can't have a and b with values 0.01, for example, as then c = a * b (rule 3) violates rule 2 (c would be 0.00001, so more than 2dp). – Jon Skeet Nov 2 '11 at 21:47
yes, please read rule #4. what I'm not sure about Jeffrey's solution is how he's added the 01 to the right of the number and if this repeats for e.g. 5-10 times the number becomes so huge. – The Light Nov 2 '11 at 21:57

I've deleted my previous answer, as I don't believe it was helpful any more, as the question's changed so much over time.

Here's what I understand the question to be:

You are given an input (c) of type decimal such that:

  • 0 <= c <= 99.99m * 99.99m
  • c has at most two decimal places (i.e. c == decimal.Round(c, 2))

You are required to find to decimal values a and b such that:

  • Each of a and b are in the range [0, 99.99m]
  • Each of a and b have at most two decimal places
  • decimal.Round(a * b, 2) == c

My answer is that it's still not possible for all values of c. Counterexample: c = 9997.50

The highest possible values of a and b (99.99m each) gives decimal.Round(a * b, 2) == 9998.00, so that fails with a product which is too high.

Now if you keep a as high as it can be, and reduce b as little as possible, we get a=99.99m, b=99.98m - and now decimal.Round(a * b, 2) == 9997.00, so that fails with a product which is too low.

There is no way of getting any product between those two values - we've perturbed our first attempt by as small an amount as possible. Therefore there are no values for a and b satisfying the problem.

(I'm anticipating a new rule being introduced to cope with this, as that seems to be the way this question is going...)

share|improve this answer

Skeet's idea to treat the interval as itself * 100 makes everything so much clearer...

The problem is indeed without a complete solution. It asks you to create a bijective function f : A x B -> C,
where A = B = {0 ... 9999} and C = {0 ... 9999*9999 }

9999*9999 = 9998001; plus the 0, that gives a cardinality of 99,980,002.

A X B has a cardinality of 100,000,000.

A bijective function over finite sets can't be defined when the domain and codomain have different cardinalities. There will always be at most 19,998 values of c whose (a, b) breakdown will have more than one solution.

Going back on the original interval definition: the closest you can get to a proper function is something like:

public decimal Ab2C(decimal a, decimal b)
    if(a != 99.99 and a != 99.98)
        return a*100 + b;
    return (100-a)*100 + b; // for instance;

In this case, values for a between 0.02 to 99.97 will give unique results; a = 0.00 or 99.99 will be identical, likewise for a = 0.01 or 99.98. there is NO possible discrimination between these two values.

public void C2AB(decimal c, out decimal a, out decimal b)
    // todo: sanity checks.
    if (c <= 99.99)  // either a = 0.00, or a = 99.99; and b = c.
        b = c;
        a = 0.00;

    if (c <= 2*99.99)
        b = c - 99.99;
        a = 0.01; // or 9.98.
    a = c / 100;
    b = c % 100;


share|improve this answer
ok imagine you have multiplied it by 100 and have integer values now. how would you resolve it by integer values? – The Light Nov 2 '11 at 19:40
This is what I get if I don't follow Wiki links... what I wanted to say was already described in the article. – Liz Nov 2 '11 at 19:54

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