# Different ways of comparing NSDecimalNumber

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?

-
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

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

`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
}
``````

``````if(([x doubleValue]>=6000.0f) && ([x doubleValue] <=20000.0f))