3

This question already has an answer here:

I found myself with the need to compute the exponential of a large number, e. g.exp(709). Such a number would be represented, in floating point precision, as 8.2184074615549724e+307.

It seems that numbers with exponents larger than that would be simply translated into Inf, which creates problems in my code. I can only guess that things can be fixed using more bits to represent the exponent, but I am not aware of a pragmatical way to proceed.

Here is a code snippet:

double expon = exp(500); /*here I also tried `long double`, with no effect */
printf("%e\n", expon ); /*gives INF*/
double Wa = LambertW<0>( expon); /*gives error, as it can't handle inf*/

Is there a way to compute this?

This problem has been debated in general, but I did not find an useful answer. Also, it seems that GCC supports multiple-precision floating-point arithmetics since version 4.3. How does it help?

Edit: The suggested possible-duplicate questions turned out irrelevant because as I need huge decimals, not exact decimals. This is not a duplicate.

marked as duplicate by Ivan Aksamentov - Drop, user3386109, SirGuy, too honest for this site, Wildcat Oct 29 '15 at 16:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 3
    Whats with big/unlimited integer arithmetic? See gmplib.org – Superlokkus Oct 29 '15 at 14:39
  • There is no language C/C++. Your code is not C. – too honest for this site Oct 29 '15 at 14:56
  • 1
    Use logarithmic. If you're working on something with this big numbers, logs are your friend. For manipulation with exp, log, ln, etc. see wiki en.wikipedia.org/wiki/Natural_logarithm – Anders Schou Oct 29 '15 at 14:58
  • 1
    I looked at the definition of LambertW (never heard of it before) so maybe I'm missing the point, but: You seem to want y=W(exp(x)) where exp(x) is too big. IIUC, that is the y which solves x==y+ln(y). Wouldn't it be easier to do a crude successive approximation computation of that y directly, rather than try to extend LambertW to support larger numbers? – JSF Oct 29 '15 at 16:00
4

You should be able to perform your computation with adequate precision using long double arithmetic:

The maximum value for 80 bit long double is 1.18×10^4932, much larger than e^709.

In order for the computation to be performed as long double, your must use expl instead if exp:

long double expon = expl(500);
printf("%Le\n", expon);

The LambertW function will handle the long double if it is properly overloaded for this type, otherwise expon will be converted to double and produce inf and the computation will fail as you mentioned.

I don't know which implementation of Lambert W function you use, Darko Veberic's does not support long double arguments, but it might be feasible to extend the implementation to type long double as it is available in source form: https://github.com/DarkoVeberic/LambertW . You might want to contact him directly.

Another approach is to consider that exp(709) is just too close to the maximum precision of the double type, 10^308. If you can alter your computation using just smaller exponents and a different formula, the computation might be done with regular double types.

  • Thanks for this! I'm seriously thinking of extending Veberic's source. – altroware Oct 29 '15 at 16:50

Not the answer you're looking for? Browse other questions tagged or ask your own question.