# How to reduce/simplify fractions completely (C++)

I cannot for the life of me fathom why I'm getting infinite values returned when I input a normal fraction into the code. Everything but the GCD (Greatest common divisor) seems to be working.

Is there a blatantly obvious logic error somewhere within this?

I've done my research and found various answers to the question, I mean Wikipedia even GIVES YOU code to do it, but I'd like to figure out how to make it work the way I've coded it the way it is now.

``````#include <iostream>
#include <stdlib.h>
#include <cmath>
#include <math.h>

using namespace std;

class Fraction
{
private:
double num;
double den;
double fraction;
double temp;
public:
void setNum();
void setDen();
int getNum();
int getDen();
void lcdOutput();
void decOutput();
int gcd();
};

void Fraction::setNum(){
cout << "Enter a value for your numerator: " << endl;
cin >> num;
}

void Fraction::setDen(){
cout << "Enter a value for your denominator: " << endl;
cin >> den;
}

int Fraction::getNum(){
return num;
}

int Fraction::getDen(){
return den;
}

int Fraction::gcd(){

Fraction set;
if(num > den){
if(fmod(num, den) == 0){
den = temp;
return temp;
}
else{
den = fmod(num, den);
set.gcd();
}
}
else{
if(fmod(den, num) == 0){
num = temp;
return temp;
}
else{
num = fmod(den, num);
set.gcd();
}
}
}

void Fraction::lcdOutput(){
Fraction set;
set.gcd();
num = num / temp;
den = den / temp;
cout << "Fraction in lowest terms: " << num << "/" << den << endl;
}

void Fraction::decOutput(){
double decimal = num / den;
cout.precision(4);
cout << "The fraction in decimal form is: " << decimal << endl;
}

int main(){

Fraction set;

set.setNum();
set.setDen();
set.getNum();
set.getDen();
set.lcdOutput();
set.decOutput();

return 0;
}
``````
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Where is the constructor for Fraction? I don't see how 'temp' is being assigned. –  Porkbutts Mar 15 '13 at 22:46
You use `temp` without ever assigning it a value. –  Beta Mar 15 '13 at 22:46
The gcd() function looks wrong. Why is it creating a new fraction? Also, not all code paths actually return a value. –  Mohamed Nuur Mar 15 '13 at 22:49
You ask 'is there an obvious logic error', the answer is 'several'. The uninitialized temp variable. The incorrect use of the set variable to create a loop. It's hard to understand why you think this code is correct. –  john Mar 15 '13 at 22:53
What did you observe when using the debugger? –  Thomas Matthews Mar 16 '13 at 0:32
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## 2 Answers

Here's what I can determine just by stepping through your code.

Starting at main, you instantiate an instance of type `Fraction` named `set`. You assign its numerator and denominator via calls to `set.setNum()` and `set.setDen()`. The calls to `getNum()` and `getDen()` do nothing in this case, as they are not being assigned to anything.

Then you call `lcdOutput()`, so let us begin stepping through that. You begin by instantiating a LOCAL instance of Fraction (not sure why you want to do this, it appears to me that this may be a conceptual mistake), and then call `set.gcd()` for that local instance. Calling `set.gcd()` will call the method for THAT INSTANCE, and it seems to me that what you really want is `this->gcd()` or simply `gcd()`.

You follow up by setting `num = num / temp` and `den = den / temp`, but `temp` is still uninitialized at this point. If the variable is left uninitialized, it can (and usually is) pointing to `garbage`. This probably explains why you are getting nonsensical values returned.

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Conceptual error is a good description. –  john Mar 15 '13 at 23:08
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I went back and figured it out on my own. I saw some of the comments and noticed my very large conceptual and logical errors. Here's to anyone that has the same question!

``````int gcd(double num, double den){
if(den == 0){
return num;
}
return gcd(den, fmod(num, den));
}

void Fraction::lcdOutput(){
double temp = gcd(num, den);
cout << "Fraction in lowest terms: " << num / temp << "/" << den / temp << endl;
}
``````
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