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I would like to convert a floating point variable to a string without losing any precision.

I.e. I would like the string to have the same information as my floating point variable contains, since I use the output for further processing (even if it means that the string will be very long and readable).

To put this more clearly, I would like to have functions for cyclic conversion

var dA = 323423.23423423e4;
var sA = toString(dA);
var dnA = toDouble(sA);

and I would like dnA and dA to be equal


PS: Sources on the internet usually talk about how to round strings but I have not found information on exact representation. Also I am not interested in Arbitrary Precision calculations, I just need double precision floating point arithmetic.

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Does the string need to be a base-10 representation of the floating point value? –  Ted Hopp Dec 7 '12 at 16:33
@Hogan - ECMA-262 section 4.3.19 specifies that the JavaScript (rather, EcmaScript) internal number representation is a 64-bit IEEE 754 value. Thus, it isn't hardware dependent. –  Ted Hopp Dec 7 '12 at 16:37
@TedHopp - Sure but you are only guaranteed 15-17 decimal digits of precision, thus it is easy to construct a string which will be rounded. –  Hogan Dec 7 '12 at 17:10
@Hogan - If the round trip was String → Number → String, I'd agree with you. Not every base-10 floating-point string has an exact representation in 64-bit IEEE 754. However, the converse is different: every IEEE 754 floating point number does, in fact, have an exact String representation since it is the sum of a finite set of powers of 2, each of which has a finite representation in base 10. So the round trip Number → String → Number can be done exactly. –  Ted Hopp Dec 7 '12 at 17:31
@TedHopp - Yes the question is tricky like that. Since the OQ is (in fact) string-> number -> string -> number. eg var dA = 123456323423.23423423e4; var sA = toString(dA); var dnA = toDouble(sA); Would have dnA = dA, but not have dA equal the interpreted string "123456323423.23423423e4". Still, I'm deleting my original comment since you are more correct than I am. –  Hogan Dec 7 '12 at 19:58

2 Answers 2

up vote 1 down vote accepted

Let string arithmetic do the string converion, and then use parseFloat to get it back to a float:

var dA = 323423.23423423e4;
var sA = dA + '';
var dnA = parseFloat(sA);

Here's a fiddle to see it in action.

Note: All JavaScript numbers are doubles, so you don't need to draw a distinction between doubles and floats. Thus, the only place you'd need to worry about precision loss is in your first line. For example, if you did var dA = 987654321.0123456789 for your first line, it would be equivalent to var dA = 987654321.01234567, and dA would still equal dnA in the end.

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this is what I was thinking, however I was worrying whether this rather implicit conversion preserves exactness. –  wirrbel Dec 10 '12 at 8:20
@holger: Yes, it will preserve the exactness of the value of dA. However, as mentioned in my note, this value will be less precise than what you declared it to be if your declaration contained too many digits. –  Briguy37 Dec 10 '12 at 14:07

Just dA.toString() and parseFloat(sA) should do it.

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