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.

I have this method to calculate the standard deviation of an array of NSNumber integers, given a mean. The calculation uses NSDecimals to retain the highest resolution. This is currently demanding many cpu cycles, any help to speed it up while retaining the resolution required is appreciated! Thank you.

-(NSDecimal)standardDeviationOf:(NSMutableArray *)array withMean:(NSDecimal)mean {

if (![array count]) return CPTDecimalFromInt(0);

NSDecimal sumOfSquaredDifferences = CPTDecimalFromInt(0);

for (NSNumber *number in array) {

    NSDecimal valueOfNumber = CPTDecimalFromInt([number intValue]);
    NSDecimal difference = CPTDecimalSubtract(valueOfNumber, mean);
    sumOfSquaredDifferences = CPTDecimalAdd(sumOfSquaredDifferences, CPTDecimalMultiply(difference, difference));


return CPTDecimalFromDouble(
                                 CPTDecimalDoubleValue(sumOfSquaredDifferences) / [[NSNumber numberWithInt:[array count]] doubleValue]
share|improve this question
Have you profiled your code with Instruments to see where the slowdown is? My guess would be all the conversions you're doing between intValue and NSDecimal. Might you be better off using NSDecimalNumber for the inner loop and doing NSDecimalNumber difference = [valueOfNumber decimalNumberBySubtracting:mean];? (You'll need to convert some things from NSDecimal to NSDecimalNumber first.) –  user1118321 Jun 14 '12 at 5:25
Since you end up converting to double to perform the square root, are you really gaining any precision by doing all the loop arithmetic with NSDecimal instead of just double? –  Emile Cormier Jun 14 '12 at 5:49
DOn't useNSDecimal, just float or double. The point of decimal arithmetic is to have exact base-10 decimal numbers, mainly for financial transactions. There is no more inherent accurate for an application such as yours. –  Zaph Jun 14 '12 at 5:58
90% of the time is being spent in these 2 lines: NSDecimal valueOfNumber = CPTDecimalFromInt([number intValue]); sumOfSquaredDifferences = CPTDecimalAdd(sumOfSquaredDifferences, CPTDecimalMultiply(difference, difference));</br> –  James Hunt Jun 16 '12 at 1:48

1 Answer 1

An NSDecimal has 38 digits of precision, whereas double has roughly 16 digits of precision. But at the end of your loop, when you convert sumOfSquaredDifferences to double for the sqrt function, all the extra precision you had in the NSDecimal is "lost". You might as well perform the arithmetic of your inner loop using double, which should be much faster than NSDecimal:

double sumOfSquaredDifferences = 0;
double valueOfMean = [mean doubleValue];
for (NSNumber *number in array) {

    double valueOfNumber = [number intValue];
    double difference = valueOfNumber - valueOfMean;
    sumOfSquaredDifferences += difference * difference;


return CPTDecimalFromDouble(sqrt(sumOfSquaredDifferences /
                                 double([array count])));
share|improve this answer
I would like to do the square root as decimal also, but don't know any methods. You're correct that the precision is lost this way. –  James Hunt Jun 16 '12 at 1:58
A quick web search led me to this blog post on computing the square root an an NSDecimalNumber: cocoawithlove.com/2008/05/square-root-numerical-fun-with.html –  Emile Cormier Jun 16 '12 at 3:14
If you're computing the standard deviation from a bunch of 32-bit integers, and 32-bit integers only have roughly 10 decimal digits of precision, why do you need to do the standard deviation arithmetic in NSDecimal? It doesn't make sense. You might as well do all the arithmetic in double and convert to NSDecimal after you're all done. –  Emile Cormier Jun 16 '12 at 3:24

Your Answer


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.