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I have a double in an NSNumber.

double myDouble = 1363395572.6129999;

NSNumber *doubleNumber = @(myDouble); 
// using [NSNumber numberWithDouble:myDouble] leads to the same result

This is where it gets problematic.

doubleNumber.doubleValue seems to return the correct and full value (1363395572.6129999)

However, looking at doubleNumber in the debugger or doing doubleNumber.description gives me (1363395572.613).

I would understand if perhaps this was just some display formatting, but when I then stick this object into a JSON payload, the messed up rounded value gets inserted instead of the actual number.

The way I'm doing this is something like this:

NSData *jsonData = [NSJSONSerialization dataWithJSONObject:(Dictionary containing NSNumber)
                                                           options:0 error:nil];

NSString *jsonString = [[NSString alloc] initWithData:jsonData encoding:NSUTF8StringEncoding];

Looking at the string at this point shows me the truncated number with 3 decimal places even though the NSNumber I inserted had 7.

My question is why is this happening and more importantly how can I stop it from happening?

EDIT with conclusion:

For anyone who stumbles onto this, the problem was not clear to me from the beginning but the actual issue is that NSNumber and double are both incapable of holding a number with the sort of precision I am looking for. As Martin's answer shows, my problem occurred as soon as I deserialized the initial number values from a JSON response.

I ended up working around my problem by reworking the whole system to stop depending on this level of precision(since these are timestamps, microseconds) of these numbers on the client, and instead use a different identifier to pass around with the API.

As Martin and Leo pointed out, in order to get around this problem one would need to use a custom JSON parser that allows parsing of a JSON number into an NSDecimalNumber rather than an NSNumber. A better solution to my problem in particular was what I outlined in the previous paragraph, so I did not pursue this route.

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1363395572.6129999 is 1363395572.613 –  matt Apr 11 '14 at 17:50
A double can only store about 13 significant digits. –  rmaddy Apr 11 '14 at 17:52
description is only to be used for debugging, and should never (except for a handful of object types) be counted on to accurately reflect the contents of the object. –  Hot Licks Apr 11 '14 at 17:52
One obvious thing to try is to make a [NSString stringWithFormat:@"%.7f", myDouble] and see what it looks like. If you can force what you want that way before putting it into JSON, that should solve things. {EDIT: posted as answer, tested and works] –  RobP Apr 11 '14 at 18:18
@RobP - Except that's putting a string rather than a number into the JSON. –  Hot Licks Apr 11 '14 at 19:11

4 Answers 4

up vote 4 down vote accepted

As already said in above comments, the precision of double is about 16 decimal digits. 1363395572.612999 has 17 digits, and converting this decimal number to double gives exactly the same results as for 1363395572.613:

double myDouble = 1363395572.6129999;
double myDouble1 = 1363395572.613;

NSLog(@"%.20f", myDouble);  // 1363395572.61299991607666015625
NSLog(@"%.20f", myDouble1); // 1363395572.61299991607666015625
NSLog(@"%s", myDouble == myDouble1 ? "equal" : "different"); // equal

Therefore, within the precision of double, the output 1363395572.613 is correct.

If your goal is to send precisely the number "1363395572.6129999" then you cannot store it in a double first because that already looses the precision. A possible solution would be to use NSDecimalNumber (which has a precision of 38 decimal digits):

NSDecimalNumber *doubleNumber = [NSDecimalNumber decimalNumberWithString:@"1363395572.6129999"];
NSDictionary *dict = @{@"key": doubleNumber};
NSData *jsonData = [NSJSONSerialization dataWithJSONObject:dict
                                                   options:0 error:nil];
NSString *jsonString = [[NSString alloc] initWithData:jsonData encoding:NSUTF8StringEncoding];
// {"key":1363395572.6129999}

Example with long double and NSDecimalNumber:

long double ld1 = 1363395572.6129999L;
long double ld2 = 1363395572.613L;

NSDecimalNumber *num1 = [NSDecimalNumber decimalNumberWithString:[NSString stringWithFormat:@"%.7Lf", ld1]];
NSDecimalNumber *num2 = [NSDecimalNumber decimalNumberWithString:[NSString stringWithFormat:@"%.7Lf", ld2]];

NSDictionary *dict = @{@"key1": num1, @"key2": num2};
NSData *jsonData = [NSJSONSerialization dataWithJSONObject:dict
                                                   options:0 error:nil];
NSString *jsonString = [[NSString alloc] initWithData:jsonData encoding:NSUTF8StringEncoding];
// {"key1":1363395572.6129999,"key2":1363395572.613}

Update: As it turned out in the discussion, the problem occurs already when the data is read from a JSON object sent by a server. The following example shows that NSJSONSerialization is not able to read floating point numbers with more than "double" precision from JSON data:

NSString *jsonString = @"{\"key1\":1363395572.6129999,\"key2\":1363395572.613}";
NSData *jsonData = [jsonString dataUsingEncoding:NSUTF8StringEncoding];
NSDictionary *dict2 = [NSJSONSerialization JSONObjectWithData:jsonData options:0 error:NULL];
NSNumber *n1 = dict2[@"key1"];
NSNumber *n2 = dict2[@"key2"];

BOOL b = [n1 isEqualTo:n2]; // YES
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The problem here is that doing double myDouble = 1363395572.613; generates the same result, which is not the behavior I'm looking for. These numbers are microsecond precision timestamps and those 2 numbers do not represent the same time when comparing at that level. –  Dima Apr 11 '14 at 20:33
@Dima: 1363395572.6129999 and 1363395572.613, when stored in a double, are exactly identical! - If you have to distinguish these values, you cannot use double. Use NSDecimalNumber or (perhaps) long double. –  Martin R Apr 11 '14 at 20:37
@Dima: I have updated the answer with an example that show that your problem occurs already when reading the server JSON. –  Martin R Apr 11 '14 at 21:32
Question: Are you sure the value that NSJSONSerialization produced is a double and not a LongDecimal? –  Hot Licks Apr 12 '14 at 1:58
@HotLicks: The class of n1/n2 is __NSCFNumber, and the objCType is "d". And both numbers compare as equal. (… also mentions that Objective-C does not support "long double".) –  Martin R Apr 12 '14 at 7:14

I just tried and it does seem that the precision is being lost in serialization, not in initialization of the number. Maybe JSON serialization is building a string with precision-losing number formatting, then building data from that.

One solution would be to save the integral and fractional values in their own 8 byte fields... maybe use two LP64 longs. The precision part can be multiplied by something big, then divided upon retrieval.

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The precision is already lost when you assign the value to a double. –  Martin R Apr 11 '14 at 18:49
@MartinR - True. The original value is 17 digits, and double doesn't quite handle 16. –  Hot Licks Apr 12 '14 at 2:05

I tested the following code:

double myDouble = 1363395572.6129999;
NSString *s = [NSString stringWithFormat:@"%.7f", myDouble];
NSLog(@"%@", s);

Output is:


So just format the string yourself before putting into JSON object and you should be fine.

EDIT: If you want more precision, not just more control over what goes into the JSON, a long double will store it. Thus:

long double myDouble = 1363395572.6129999;
NSString *s = [NSString stringWithFormat:@"%.7L", myDouble];
NSLog(@"%@", s);
share|improve this answer
And for double myDouble = 1363395572.613 you get the same output 1363395572.6129999. So this does not "increase" the precision. –  Martin R Apr 11 '14 at 18:27
Yup, good point, but at least this point you aren't subject to the mysteries of what NSJSONSerialization does. I did just verify that even with type long double (at least on a 64-bit architecture) that 1363395572.613 == 1363395572.6129999 evaluates to true. So this is all just a 'what format do you want it in' game because the underlying value is the same. –  RobP Apr 11 '14 at 18:41
... that's what I tried to express in my answer ... –  Martin R Apr 11 '14 at 18:42
...which I just upvoted! I still think it's not a bad idea to format the string in one's one code if you have specific ideas in mind about the JSON you want. But if the issue is underlying precision then yes, changing type of storage for the value is required! –  RobP Apr 11 '14 at 18:44
Note that that's an NSString, not an NSNumber. There is a significant difference. –  Hot Licks Apr 11 '14 at 19:20

Use NSDecimalNumber:

NSDecimalNumber* dc = [NSDecimalNumber decimalNumberWithString:[NSString stringWithFormat:@"%.7f", myDouble]];

Use this decimal number inside your dictionary.

If you have a string value of the required number precisely, feed that directly to the NSDecimalNumber constructor to get a precise decimal number. Do not use an intermediate double stage, where you lose precision.

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Yes. If the goal is to send the value stored in double myDouble then the result "1363395572.613" is "correct". If the goal is to send the number "1363395572.6129999" then you cannot store it in double first. –  Martin R Apr 11 '14 at 18:45
@Dima "JSON number" has come to you as string, no? (In the form of a JSON data stream.) I understand the deserializer parses it to a NSNumber, but you can parse it yourself to get a string value. –  Leo Natan Apr 11 '14 at 21:23
@Dima: As far as I can see, NSJSONSerialization is not able to parse your number with the full precision, it uses NSNumber with doubles. Perhaps there are alternative JSON parsers with more precision (or you parse it yourself, as Leo suggested). –  Martin R Apr 11 '14 at 21:26
JSON format has a very defined structure, so if necessary, it is not difficult to create a custom parser. You could find an open-source one and change it for your needs. –  Leo Natan Apr 11 '14 at 21:34
Yeah guys, it looks like this is beyond the scope of what the default serialization does. For what it's worth I have decided to use a different variable altogether for this particular API call which allows me to avoid having to send over these timestamps and having to deal with building my own serializer –  Dima Apr 11 '14 at 21:38

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