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I am trying to convert decimal number into its fraction. Decimal numbers will be having a maximum 4 digits after the decimal place. example:- 12.34 = 1234/100 12.3456 = 123456/10000

my code :-

#include <stdio.h>
int main(void) {
  double a=12.34;
  int c=10000;
  double b=(a-floor(a))*c;
  int d=(int)floor(a)*c+(int)b; 
  while(1) {
     if(d%10==0) {
    d=d/10;
    c=c/10;
 }
 else break;
  }
  printf("%d/%d",d,c);
 return 0;
}

but I am not getting correct output, Decimal numbers will be of double precision only.Please guide me what I should do.

share|improve this question
    
Don't use floating point at all, and instead use fixed-point integers, i.e. make your unit 1/10000. –  Kerrek SB Nov 13 '12 at 16:23
    
int d = (int)round(a * c); would be a good starting point. If you only use floor and truncation, things like 12.34 = 12.339999999999999857891452847979962825775146484375 can trip you up hard. But I agree with Kerrek, you should use integers from the beginning for that. –  Daniel Fischer Nov 13 '12 at 16:25
    
One of my questions was marked as a duplicate of this one, even though it's about JavaScript, and not C. :/ –  Anderson Green Feb 9 '13 at 1:53

4 Answers 4

up vote 3 down vote accepted

If your floating point number is x, then the numerator of the fraction over 10000 will be the integral part of (x + 0.00005) * 10000. It's up to you whether you want to reduce the fraction to simplest terms (i.e. divide out by the gcd of the numerator and denominator).

share|improve this answer
    
Thanks for your point. :) –  alankrita Nov 14 '12 at 5:54
#include <stdio.h>
int main(void)
{
  double a=12.34;
  int c=10000;
  double b=(a-floor(a))*c;
  int d=(int)floor(a)*c+(int)**(b+.5);** 
  printf("%f %d\n",b,d);

  while(1) {
     if(d%10==0) {
    d=d/10;
    c=c/10;
 }
 else break;
  }
  printf("%d/%d",d,c);
 return 0;
}

The problem is that b was getting 3400.00 but when you do int (b) you are getting 3399 so you add 0.5 so it will truncate to 3400.

Getting 3400.00 is different that having 3400, 3400.00 means that the number was round to 3400, thats why when you do int (3400.00) it assumes that the nearest integer (less than the number you are converting) is 3399, when you add it 0.5 the last the nearest integer is 3400.

If you want acquire a deeper understanding about why read this

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this is an interesting question. I think you might be better off starting with reading about the multiples ways of calculating the "greatest common divisor" ( http://en.wikipedia.org/wiki/Greatest_common_divisor is a good source ).

Implement a quick&dirty algorithm that makes those calculations as you would do with a pen and paper then look into how doubles are represented (sign, exponent, mantissa) and improve your algorithm to take advantage of this representation.

sadly, there's not much more I can do without writing your piece of code.

share|improve this answer
    
This doesn't really answer the question - it only prompts the asker to search for an answer to their own question. :/ –  Anderson Green Feb 9 '13 at 1:18

An algorithm created with c++ that does decimal to fraction.

#include <iostream>
using namespace std;


// converts the string half of the inputed decimal number into numerical values
void converting (string decimalNumber, float& numerator, float& denominator )

{
float number;
string valueAfterPoint = decimalNumber.substr(decimalNumber.find(".") + 1,((decimalNumber.length() -1) )); // store the value after the decimal into a valueAfterPoint
cout << valueAfterPoint<< " "<< endl;
int length = valueAfterPoint.length(); //stores the length of the value after the decimal point into length

 numerator = atof(valueAfterPoint.c_str()); // converts the string type decimal number into a float value and stores it into the numerator

// loop increases the decimal value of the numerator and the value of denominator by multiples of ten as long as the length is above zero of the decimal

cout << length<< endl;
for (; length > 0; length--)
{
    numerator *= 10;

}
do
    denominator *=10;
    while  (denominator < numerator);

}

// simplifies the the converted values of the numerator and denominator into simpler values for          an easier to read output
  void simplifying (float& numerator, float& denominator)
{
int maximumNumber = 9; //Numbers in the tenths place can only range from zero to nine so the maximum number for a position in a poisitino for the decimal number will be nine

bool isDivisble; // is used as a checker to verify whether the value of the numerator has the       found the dividing number that will a value of zero

// Will check to see if the numerator divided denominator is will equal to zero



if(int(numerator) % int(denominator) == 0)
{
    numerator /= denominator;
    denominator = 1;
    return;
}


//check to see if the maximum number is greater than the denominator to simplify to lowest form
while (maximumNumber < denominator)
{
    maximumNumber *=10;
 }


// the maximum number loops from nine to zero. This conditions stops if the function isDivisible is true
for(; maximumNumber > 0; maximumNumber --)
{

    isDivisble = ((int(numerator) % maximumNumber == 0) && int(denominator)% maximumNumber == 0);
    cout << numerator << denominator <<" " <<endl;
    if(isDivisble)
    {
        numerator /= maximumNumber;  // when is divisible true numerator be devided by the max    number value for example 25/5 = numerator = 5

        denominator /= maximumNumber; //// when is divisible true denominator be devided by the max number value for example 100/5 = denominator = 20

    }
    // stop value if numerator and denominator is lower than 17 than it is at the lowest value
    int stop = numerator + denominator;

    if (stop < 17)
    {
        return;
    }
}
}
  int main()
{
string decimalNumber;
float numerator = 0;
float denominator = 1;

cout << "Enter the decimal number";
cin >> decimalNumber;

//convert function
converting(decimalNumber, numerator, denominator);


//call simplyfication funcition
simplifying(numerator, denominator);


cout<< "Fraction: "<< numerator << "/" << denominator<< endl;
 return 0; 

}
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