Infinity
is a mathematical construct:
For instance, In euclidean space, the division through the null-element (zero in that case) should yield Infinity:
1 / 0 = Infinity
Not a Number
or NaN
is a computational construct, that came along with parsers and programmatic limitations, and its output can be assigned different meaning depending on the function in question.
For instance, a result may only be mathematically tractable using a different number system, which is easy for a mathematician to do, but in your function you may be left as the only pragmatic option to return NaN
. Consider, the square root of -1
:
sqrt(-1) = NaN
...an operation which is easily tractable in complex
and phase space
.
Experiment:
Open up the JavaScript.Console (CTRL+SHIFT+J) in your browser, and type
>>> Math.sqrt(-1)
NaN
>>> 1/0
Infinity
>>> Number.MAX_VALUE
1.7976931348623157e+308
>>> Number.MAX_VALUE *2
Infinity
>>> parseFloat("I am not a Number")
NaN
In C# the typical 'NaN-situations' are mostly handled through Exceptions:
csharp> Int64.MaxValue;
9223372036854775807
csharp> Int64 i_64 = Int64.MaxValue;
//the number will overflow into the sign-bit
csharp> i_64 +=1;
//...or similarly with Doubles...
csharp> Double.MaxValue;
1.79769313486232E+308
//following, an exception is thrown before overflowing
csharp> Int64 i_64 = Int64.MaxValue+1;
{interactive}(1,29): error CS0220: The operation overflows at compile time in ch
ecked mode
Dynamic typed languages:
Overall, the usage of NaN
is somewhat flexibly assigned in different programming languages. Using NaN
at the loss of some 'contextual information', is convenient in dynamically typed scripting languages, where programmers generally do not want to bother with complex exception-types and handling thereof.