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For example, with primitive, I'll do this

if ( (x >= 6000) && (x <= 20000) )
    // do something here 

and with NSDecimalNumber, this is what I have

if ( (([x compare:[NSNumber numberWithInt:6000]] == NSOrderedSame) || 
        ([x compare:[NSNumber numberWithInt:6000]] == NSOrderedDescending))
    && (([x compare:[NSNumber numberWithInt:20000]] == NSOrderedSame) || 
        ([x compare:[NSNumber numberWithInt:6000]] == NSOrderedAscending)) )
    // do something here

Is there any other ways (easier and more elegant) to this comparison? If I convert the value to primitive, what primitive do I use? I don't want to use CGFloat, float or double, as I'm handling with currency here. Or if I do convert them to those mentioned above, can someone verify / explain about the precision?

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Little tip: if (([x compare:[NSNumber numberWithInt:6000]] != NSOrderedAscending) && ([x compare:[NSNumber numberWithInt:20000]] != NSOrderedDescending)) gives same result. – Roman Temchenko Jan 27 '12 at 8:25
up vote 19 down vote accepted

My understanding is that you can only compare NSDecimalNumber and NSNumber objects using the compare: method. Super frustrating, but I believe it stems from Objective-C not supporting operator overloading.

If it's becoming really difficult to read, you could always add a category with some helper methods to try and make it a little more readable, something like this perhaps?

// NSNumber+PrimativeComparison.m

- (NSComparisonResult) compareWithInt:(int)i{
    return [self compare:[NSNumber numberWithInt:i]]

- (BOOL) isEqualToInt:(int)i{
    return [self compareWithInt:i] == NSOrderedSame;

- (BOOL) isGreaterThanInt:(int)i{
    return [self compareWithInt:i] == NSOrderedDescending;

- (BOOL) isGreaterThanOrEqualToInt:(int)i{
    return [self isGreaterThanInt:i] || [self isEqualToInt:i];

- (BOOL) isLessThanInt:(int)i{
    return [self compareWithInt:i] == NSOrderedAscending;

- (BOOL) isLessThanOrEqualToInt:(int)i{
    return [self isLessThanInt:i] || [self isEqualToInt:i];

Then things become a little more human-readable:

if([x isGreaterThanOrEqualToInt:6000] && [x isLessThanOrEqualToInt:20000]){

Edit I just noticed that you'd also asked about why using NSDecimalNumber is optimal in currency scenarios. This answer gives a pretty good run down on why floats (and doubles) are not precise enough when working with currency. Furthermore, Apple's documentation for NSDecimalNumber recommends its use whenever you're doing base-10 arithmetic.

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"Greater than or equal" is equal to "not less". – Roman Temchenko Jan 27 '12 at 8:27
Thanks! I was thinking about something similar to, but honestly, I still don't really like how hard it is to do this simple operation. My question about precision is more like, if I do convert them to primitive for comparison purposes, is there any one that can prove me that it is safe precision-wise. CGFloat is represented using binary format, which wouldn't be really precise when dealing with money. Thanks! – X Slash Jan 27 '12 at 14:47
if(([x doubleValue]>=6000.0f) && ([x doubleValue] <=20000.0f))

I think this will be rather preciese too.

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I believe doubles only have precision of around 15 decimal places, whereas NSDecimalNumber is something like 38. Since he is dealing with currency, it's probably best to err on the side of caution and use the most precise numerical representation here. – theTRON Jan 27 '12 at 7:54
Actually this answer better explains why floating point (and double) math is not precise enough for use in currency calculations. – theTRON Jan 27 '12 at 7:57
In this example he compares with integers so i think [x intValue] will be fine too. There's all about what precision is needed. – Roman Temchenko Jan 27 '12 at 8:23

compare method returns NSOrderedDescending, NSOrderedAscending or NSOrderedSame

Instead you can then easily write

if ( 
    [x compare:[NSNumber numberWithInt:6000]] != NSOrderedAscending && 
    [x compare:[NSNumber numberWithInt:20000]] != NSOrderedDescending
    // do something here

Which is slighty better readable.

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