Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Hi, guys! Currently I'm reading a book "Programming in Objective-C" by Stephen Kochan. Actually I'm already finished reading it. But now I returned to the Chapter #13 - "Underlying C Language Features". After reading the Chapter, I did all exercises, but I stuck on one of them. The problem is that now I'm using ARC in my projects, and the code that I wrote gives me an error. When I fix it I got incorrect output. So here is the code of my Fraction Class and Main.

Fraction.h

#import <Foundation/Foundation.h>

@interface Fraction : NSObject {
    int numerator;
    int denominator;
}

@property int numerator, denominator;

-(void) print:(BOOL)reduceCheck;
-(void) setNumerator:(int)numerator andDenominator:(int)denominator;
-(double) convertToNum;
-(Fraction *) add:(Fraction *)fraction;
-(Fraction *) subtract:(Fraction *)fraction;
-(Fraction *) multiply:(Fraction *)fraction;
-(Fraction *) divide:(Fraction *)fraction;
-(void) reduce;
-(id)initWithNumerator:(int)numeratorValue andDenominator:(int)denominatorValue;
-(void)printOut;
-(id)init;
+(Fraction *)allocFraction;
+(int)objectCounter;
+(int)methodAddInvokedCounter;

@end

Fraction.m

#import "Fraction.h"

static int gObjectCounter;

static int gMethodInvokedCounter;

static int greatestCommonDivisor(int u, int v) {
    int temp;

    while(v != 0) {
        temp = u % v;
        u = v;
        v = temp;
    }
    return u;
}

@implementation Fraction

@synthesize numerator, denominator;

-(void) print:(BOOL)reduceCheck {
    Fraction *resultFraction = [[Fraction alloc] init];
    [resultFraction setNumerator:numerator andDenominator:denominator];
    if(reduceCheck) {
        [resultFraction reduce];
        NSLog(@"The Fraction is %i/%i - It was reduced", resultFraction.numerator, resultFraction.denominator); 
    }
    else 
        NSLog(@"The Fraction is %i/%i - It was not reduced", resultFraction.numerator, resultFraction.denominator); 

    if(resultFraction.denominator != 1) {
        if(resultFraction.numerator > resultFraction.denominator) {
            Fraction *FractionObject = [[Fraction alloc] init];
            [FractionObject setNumerator:(resultFraction.numerator % resultFraction.denominator) andDenominator: resultFraction.denominator];
            int FractionNumber = resultFraction.numerator / resultFraction.denominator;
            NSLog(@"The Fraction is %i/%i. The whole number of fraction is %i", FractionObject.numerator, FractionObject.denominator, FractionNumber);
        }
        else 
            NSLog(@"The Fraction is %i/%i", resultFraction.numerator, resultFraction.denominator);
    }
    else
        NSLog(@"The whole number of the Fraction is %i", resultFraction.numerator);
}

-(void) setNumerator:(int)value andDenominator:(int)value2 {
    numerator = value;
    denominator = value2;
}

-(double) convertToNum {
    if(denominator != 0)
        return (double)numerator / denominator;
    else
        return NAN;
}

-(Fraction *) add:(Fraction *)fraction {
    //extern int gMethodInvokedCounter;
    Fraction *FractionResult = [[Fraction alloc] init];
    FractionResult.numerator = numerator * fraction.denominator + denominator * fraction.numerator;
    FractionResult.denominator = denominator * fraction.denominator;
    [FractionResult reduce];
    gMethodInvokedCounter++;
    return FractionResult;
}

-(Fraction *) subtract:(Fraction *)fraction {
    Fraction *FractionResult = [[Fraction alloc] init];
    FractionResult.numerator = numerator * fraction.denominator - denominator * fraction.numerator;
    FractionResult.denominator = denominator * fraction.denominator;
    [FractionResult reduce];
    return FractionResult;
}

-(Fraction *) multiply:(Fraction *)fraction {
    Fraction *FractionResult = [[Fraction alloc] init];
    FractionResult.numerator = numerator * fraction.numerator;
    FractionResult.denominator = denominator * fraction.denominator;
    [FractionResult reduce];
    return FractionResult;
}

-(Fraction *) divide:(Fraction *)fraction {
    Fraction *FractionResult = [[Fraction alloc] init];
    FractionResult.numerator = numerator * fraction.denominator;
    FractionResult.denominator = denominator * fraction.numerator;
    [FractionResult reduce];
    return FractionResult;
}

-(void) reduce {
    int u = numerator;
    int v = denominator;

    int greatestCommonDivisor(int u, int v);

    greatestCommonDivisor(u, v);

    numerator /= u;
    denominator /= u;
}

-(id)initWithNumerator:(int)numeratorValue andDenominator:(int)denominatorValue {
    self = [super init];

    if(self) 
        [self setNumerator:numeratorValue andDenominator:denominatorValue];

    return self;
}

-(void)printOut {
    printf("%i/%i", numerator, denominator);
}

-(id)init {
    return [self initWithNumerator:0 andDenominator:0];
}

+(Fraction *)allocFraction {
    //extern int gObjectCounter;
    gObjectCounter++;

    return [Fraction alloc];
}

+(int)objectCounter {
    //extern int gObjectCounter;

    return gObjectCounter;
}

+(int)methodAddInvokedCounter {
    return gMethodInvokedCounter;
}

@end

Main.m

#import <Foundation/Foundation.h>
#import "Fraction.h"

Fraction *calculateFractions (Fraction  **array, int numberOfElements) {
    Fraction *resultFraction = [[Fraction alloc] initWithNumerator:array[0].numerator andDenominator:array[0].denominator];
    Fraction *holder;

    for(int i = 1; i < numberOfElements; i++) {
        holder = [resultFraction add:array[i]];
        resultFraction = holder;
    }

    return resultFraction;
}

int main(int argc, const char * argv[])
{

    @autoreleasepool {

        const int numberOfFractions = 5;

        Fraction *fractionArrayElementOne = [[Fraction alloc] initWithNumerator:5 andDenominator:10];
        Fraction *fractionArrayElementTwo = [[Fraction alloc] initWithNumerator:8 andDenominator:13];
        Fraction *fractionArrayElementThree = [[Fraction alloc] initWithNumerator:7 andDenominator:15];
        Fraction *fractionArrayElementFour = [[Fraction alloc] initWithNumerator:9 andDenominator:23];
        Fraction *fractionArrayElementFive = [[Fraction alloc] initWithNumerator:4 andDenominator:17];

        Fraction __autoreleasing *arrayOfFractions[numberOfFractions]= {fractionArrayElementOne, fractionArrayElementTwo, fractionArrayElementThree, fractionArrayElementFour, fractionArrayElementFive};

        printf("Fraction Expression: %i/%i + %i/%i + %i/%i + %i/%i + %i/%i = ", arrayOfFractions[0].numerator, arrayOfFractions[0].denominator, arrayOfFractions[1].numerator, arrayOfFractions[1].denominator, arrayOfFractions[2].numerator, arrayOfFractions[2].denominator, arrayOfFractions[3].numerator, arrayOfFractions[3].denominator, arrayOfFractions[4].numerator, arrayOfFractions[4].denominator);

        Fraction *calculateFractions (Fraction **array, int numberOfElements);

        Fraction *resultOfFractionArrayCalculation; 

        resultOfFractionArrayCalculation = calculateFractions(arrayOfFractions, 5);

        printf("%i/%i\n", resultOfFractionArrayCalculation.numerator, resultOfFractionArrayCalculation.denominator);

    }
    return 0;
}

Output
Fraction Expression: 5/10 + 8/13 + 7/15 + 9/23 + 4/17 = 1/0

Question: What I'm doing wrong?

Thanks in advance!

share|improve this question
    
could you also provide the code that you wrote and then how did you correct it for ARC? –  Novarg Apr 5 '12 at 9:02
    
@Novarg I just set argument of the function from "Fraction *array" to "Fraction **array", and I add __autoreleasing flag to this statement "Fraction __autoreleasing *arrayOfFractions[numberOfFractions]= {fractionArrayElementOne, fractionArrayElementTwo, fractionArrayElementThree, fractionArrayElementFour, fractionArrayElementFive};". –  Anatoliy Gatt Apr 5 '12 at 9:07
    
@Novarg So, can you help me? –  Anatoliy Gatt Apr 5 '12 at 10:47

1 Answer 1

up vote 1 down vote accepted

There's a bug in the reduce method. You throw away the result of the gcd and just divide the numerator and denominator by the numerator. As soon as numerator > denominator you'll end up with 1/0 as your fraction.

As an aside, init should really set the default denominator to 1, not zero.

share|improve this answer
    
thanks, I never have problems with this code before. –  Anatoliy Gatt Apr 5 '12 at 12:58
    
Ok, I understand. It is because I call a function, but the value that was returned wasn't used nowhere. Thank you again. Really noob mistake. –  Anatoliy Gatt Apr 5 '12 at 13:06

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.