You didn't tell us what your recursion is, but it is fairly easy to generate NaNs with a long sequence of operations if you are using square root, pow, inverse sine, or inverse cosine.

Suppose your calculation produces a quantity, call it `x`

, that is supposed to be the sine of some angle θ, and suppose the underlying math dictates that `x`

must always be between -1 and 1, inclusive. You calculate θ by taking the inverse sine of `x`

.

Here's the problem: Arithmetic done on a computer is but an approximation of the arithmetic of the real numbers. Addition and multiplication with IEEE floating point numbers are not transitive. You might well get a value of 1.0000000000000002 for `x`

instead of 1. Take the inverse sine of this value and you get a NaN.

A standard trick is to protect against those near misses that result from numerical errors. Don't use the built-in `asin`

, `acos`

, `sqrt`

, and `pow`

. Use wrappers that protects against things like `asin(1.0000000000000002)`

and `sqrt(-1e-16)`

. Make the former pi/2 rather than NaN, and make the latter zero. This is admittedly a kludge, and doing this can get you in trouble. What if the problem is that your calculations are formulated incorrectly? It's legitimate to treat 1.0000000000000002 as 1, but it's best not to treat a value of 100 as if it were 1. A value of 100 to your `asin`

wrapper is best treated by throwing an exception rather than truncating to 1.

There's one other problem with infinities and NaNs: They propagate. An Inf or NaN in one single computation quickly becomes an Inf or a NaN in hundreds, then thousands of values. I usually make the floating point machinery raise a floating point exception on obtaining an Inf or NaN instead of continuing on. (Note well: Floating point exceptions are not C++ exceptions.) When you do this, your program will bomb unless you have a signal handler in place. That's not necessarily a bad thing. You can run the program in the debugger and find exactly where the problem arose. Without these floating point exceptions it is very hard to find the source of the problem.

`double`

values in your vector has nothing to do with its capacity, and the length of your vector has nothing to do with NaNs appearing. I wouldn't be surprised if you are having problems with uninitialised values elsewhere. – paddy Oct 7 '12 at 13:01