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I'm trying (without much success) to write a short c++ function:

double digit(double x, int b, int d)

that returns the d-th digit in base-b expansion of the number x, which can be positive or negative, and can be a fraction. when d is negative, it should return the after-the-decimal-dot digits (its underfined for d=0 so say it returns 0 in that case). For example:

    const double x = 25.73;
    for (int n = -5; n <= 5; n++)
            cout<<digit(x,10,n)<<' ';

should print: 0 0 0 3 7 0 5 2 0 0 0

The function must use only loops, if, exp, pow, log, floor and ceil. i.e., without sprintf tricks etc.


EDIT: For simplicity, assume 2<=b<=10

EDIT: Please also avoid using mod, only pow-exp-log-floor-ceil based solutions

share|improve this question
Writing a specific digit in double is probably not a good idea, since the representation of double not exactly decimal point arithemtic, it is a floating point arithmetic. For example, 1.1 could be represented as 1.099999999999 or 1.10000000001 (just examples, not real cases here) –  amit Jan 2 '13 at 6:56
"(its underfined for d=0 so say it returns 0 for d=0)" WHY? –  Cheers and hth. - Alf Jan 2 '13 at 6:57
what is the value of b in the above example? –  Aravind Jan 2 '13 at 7:01
amit: you're definitely right. i need it to do a bit broader trick. Cheers: ok, so it should print '.' where d=0. please note that this is the location of the decimal point. Aravind: it's 10, i'll fix the q thanks all! –  Troy McClure Jan 2 '13 at 7:03
by the way, what is the question –  Cheers and hth. - Alf Jan 2 '13 at 7:13

2 Answers 2

up vote 2 down vote accepted

This seems to be the most straightforward implementation, and it seems to work just fine.

int digit( double x, int base, int index ) {
    // shift number (mult by power of base) so desired digit is in one's place
    x = std::abs( x ) * std::pow( base, - index );
    // fmod strips higher digits; floor strips lower digits, leaving result.
    return std::floor( std::fmod( x, base ) );

I changed the return type from double to int since it doesn't make sense to have a fraction in a digit. And it doesn't return . for 0, because again that's not a digit. The 0'th place value is the one's place.

Also this ignores the minus sign; you didn't define the "base-b expansion" for negative numbers. You could adjust the function to return b's complement notation or whatever.

By substituting x you can make this into one line, so it will satisfy the requirements for constexpr on platforms where the math functions are constexpr as well.

share|improve this answer
this looks wonderful. can you please think of a way to avoid mod? –  Troy McClure Jan 2 '13 at 7:39
@TroyMcClure No. That wasn't part of your question, and it's completely unreasonable. Guh, you could avoid mod by dividing by the next greater power of base, rounding multiplying and subtracting. Yuck, now my brain feels sick. –  Potatoswatter Jan 2 '13 at 7:41
Can you take an example and explain please?I really want to know how this works, its looks pretty neat.For example what happens when we call: cout<<digit(3.4562,2,3); Thank you. –  Aravind Jan 2 '13 at 7:41
@Aravind Try it and see - you can step through examples in a debugger (or build it to print intermediate values) faster than typing them into a browser and waiting for us to answer you. –  Useless Jan 2 '13 at 7:43
@Aravind I added comments, does that help? –  Potatoswatter Jan 2 '13 at 7:44

Let's do this in two steps.

1.Convert a number to base b

2.Find the d-th digit and return it.

The reason for splitting the tasks is because if you are repeatedly calling for the same set of base and number and only for different d's, then we can cache the number in the new base.For example the following function converts a number a from base 10, to a base b.I am curious how to deal with fractions.

string changeBase(int a,int b)
  string res="";
  return res;

We need to return as a string as the new base can have digits like 'A' or 'B' or the like, which represent remainders of 10, 11, and so on. Then we can play around with the returned string as in:

 string A=changeBase(24,2);
 cout<<A[0];//for some d

For negative support you can use the string index appropriately based on how you define it for negative d.

share|improve this answer
It's a red flag that your implementation has a different number of arguments from his prototype… –  Potatoswatter Jan 2 '13 at 7:33
I was only trying to help, I don't know how to deal with double, which I have mentioned in my answer, please read fully.Thank you for your comment.Please tell how I can convert double into other bases, I can't follow your code.Care to explain? –  Aravind Jan 2 '13 at 7:36
double is a basic type that stores fractions (floating-point numbers) as well as integers. Numbers aren't in a particular base when they are manipulated by mathematical operations. Base notation is something used by humans when writing numbers but there's no need to convert a number stored as int or double from base 10. –  Potatoswatter Jan 2 '13 at 7:39

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