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I have some string s that is locale specific (eg, 0.01 or 0,01). I want to convert this string to a NSDecimalNumber. From the examples I've seen thus far on the interwebs, this is accomplished by using an NSNumberFormatter a la:

NSString *s = @"0.07";

NSNumberFormatter *formatter = [[NSNumberFormatter alloc] init];
[formatter setFormatterBehavior:NSNumberFormatterBehavior10_4];
[formatter setGeneratesDecimalNumbers:YES];
NSDecimalNumber *decimalNumber = [formatter numberFromString:s];

NSLog([decimalNumber stringValue]); // prints 0.07000000000000001

I'm using 10.4 mode (in addition to being recommended per the documentation, it is also the only mode available on the iPhone) but indicating to the formatter that I want to generate decimal numbers. Note that I've simplified my example (I'm actually dealing with currency strings). However, I'm obviously doing something wrong for it to return a value that illustrates the imprecision of floating point numbers.

What is the correct method to convert a locale specific number string to an NSDecimalNumber?

Edit: Note that my example is for simplicity. The question I'm asking also should relate to when you need to take a locale specific currency string and convert it to an NSDecimalNumber. Additionally, this can be expanded to a locale specific percentage string and convert it to a NSDecimalNumber.

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4 Answers 4

Years later:

+(NSDecimalNumber *)decimalNumberWithString:(NSString *)numericString in NSDecimalNumber.

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Beware of the different decimal separator in some locales. For example, in French we use the comma "," to separate the decimals. This line won't convert properly in that case. [NSDecimalNumber decimalNumberWithString:string locale:[NSLocale currentLocale]] works fine, however :) –  aspyct Apr 22 at 12:47
up vote 12 down vote accepted

Based on Boaz Stuller's answer, I logged a bug to Apple for this issue. Until that is resolved, here are the workarounds I've decided upon as being the best approach to take. These workarounds simply rely upon rounding the decimal number to the appropriate precision, which is a simple approach that can supplement your existing code (rather than switching from formatters to scanners).

General Numbers

Essentially, I'm just rounding the number based on rules that make sense for my situation. So, YMMV depending on the precision you support.

NSNumberFormatter *formatter = [[NSNumberFormatter alloc] init];
[formatter setFormatterBehavior:NSNumberFormatterBehavior10_4];
[formatter setGeneratesDecimalNumbers:TRUE];

NSString *s = @"0.07";

// Create your desired rounding behavior that is appropriate for your situation
NSDecimalNumberHandler *roundingBehavior = [NSDecimalNumberHandler decimalNumberHandlerWithRoundingMode:NSRoundPlain scale:2 raiseOnExactness:FALSE raiseOnOverflow:TRUE raiseOnUnderflow:TRUE raiseOnDivideByZero:TRUE]; 

NSDecimalNumber *decimalNumber = [formatter numberFromString:s];
NSDecimalNumber *roundedDecimalNumber = [decimalNumber decimalNumberByRoundingAccordingToBehavior:roundingBehavior];

NSLog([decimalNumber stringValue]); // prints 0.07000000000000001
NSLog([roundedDecimalNumber stringValue]); // prints 0.07


Handling currencies (which is the actual problem I'm trying to solve) is just a slight variation on handling general numbers. The key is that the scale of the rounding behavior is determined by the maximum fractional digits used by the locale's currency.

NSNumberFormatter *currencyFormatter = [[NSNumberFormatter alloc] init];
[currencyFormatter setFormatterBehavior:NSNumberFormatterBehavior10_4];
[currencyFormatter setGeneratesDecimalNumbers:TRUE];
[currencyFormatter setNumberStyle:NSNumberFormatterCurrencyStyle];

// Here is the key: use the maximum fractional digits of the currency as the scale
int currencyScale = [currencyFormatter maximumFractionDigits];

NSDecimalNumberHandler *roundingBehavior = [NSDecimalNumberHandler decimalNumberHandlerWithRoundingMode:NSRoundPlain scale:currencyScale raiseOnExactness:FALSE raiseOnOverflow:TRUE raiseOnUnderflow:TRUE raiseOnDivideByZero:TRUE]; 

// image s is some locale specific currency string (eg, $0.07 or €0.07)
NSDecimalNumber *decimalNumber = (NSDecimalNumber*)[currencyFormatter numberFromString:s];
NSDecimalNumber *roundedDecimalNumber = [decimalNumber decimalNumberByRoundingAccordingToBehavior:roundingBehavior];

NSLog([decimalNumber stringValue]); // prints 0.07000000000000001
NSLog([roundedDecimalNumber stringValue]); // prints 0.07
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Just a side note, you should cast the formatter's number to pointer to NSDecimalNumber. I.e. NSDecimalNumber *decimalNumber = (NSDecimalNumber *) [formatter numberFromString:s]; –  Fabiano Francesconi Jun 21 '12 at 14:40

This seems to work:

NSString *s = @"0.07";

NSScanner* scanner = [NSScanner localizedScannerWithString:s];
NSDecimal decimal;
[scanner scanDecimal:&decimal];
NSDecimalNumber *decimalNumber = [NSDecimalNumber decimalNumberWithDecimal:decimal];

NSLog([decimalNumber stringValue]); // prints 0.07

Also, file a bug on this. That's definitely not the correct behavior you're seeing there.

Edit: Until Apple fixes this (and then every potential user updates to the fixed OSX version), you're probably going to have to roll your own parser using NSScanner or accept 'only' double accuracy for entered numbers. Unless you're planning to have the Pentagon budget in this app, I'd suggest the latter. Realistically, doubles are accurate to 14 decimal places, so at anything less than a trillion dollars, they'll be less than a penny off. I had to write my own date parsing routines based on NSDateFormatter for a project and I spent literally a month handling all the funny edge cases, (like how only Sweden has the day of week included in its long date).

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Bug #6400434 logged. Thanks for the response. As I mentioned, my example was simplified (I'm actually dealing with currencies). So, I'm not sure this answer will work for this scenario. –  shek Nov 25 '08 at 19:16
Boaz Stuller - see my answer which illustrates a code snippet that handles this problem quite simply, without using a custom parser/NSScanner...and well under a Pentagon budget. ;) –  shek Nov 26 '08 at 17:48

See also http://stackoverflow.com/questions/149033/best-way-to-store-currency-values-in-c

The best way to handle currency is to use an integer value for the smallest unit of the currency, i.e. cents for dollars/euros, etc. You'll avoid any floating point related precision errors in your code.

With that in mind, the best way to parse strings containing a currency value is to do it manually (with a configurable decimal point character). Split the string at the decimal point, and parse both the first and second part as integer values. Then use construct your combined value from those.

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Thanks for your answer, unwesen. Your comments are a good rule-of-thumb for dealing with currencies (which I'm already doing). However, rather than manually parsing the input currency String as you described, see my code examples in my answer which handle this problem more elegantly. –  shek Nov 26 '08 at 17:39
Specifically, my code example demonstrates the handling of currency String inputs across any locale. This is much easier than having to manually parse the string and account for the various locale specific rules on grouping, decimal separators, currency symbols, etc. –  shek Nov 26 '08 at 17:40

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