I was reading Setting an int to Infinity in C++. I understand that when one needs true infinity, one is supposed to use numeric_limits<float>::infinity()
; I guess the rationale behind it is that usually integral types have no values designated for representing special states like NaN, Inf, etc. like IEEE 754 floats do (again C++ doesn't mandate neither  int
& float
used are left to the implementation); but still it's misleading that max > infinity
for a given type. I'm trying to understand the rationale behind this call in the standard. If having infinity
doesn't make sense for a type, then shouldn't it be disallowed instead of having a flag to be checked for its validity?


The function In case of 


If you read e.g. this reference you will see a table showing infinity to be zero for integer types. That's because integer types in C++ can't, by definition, be infinite. 


Suppose, conversely, the standard did reserve some value to represent inifity, and that Clearly, whichever way the Standard specifies, some natural understanding is violated. Either I believe they chose wisely. 


In case of integers, positive infinity does not exists:
prints



numeric_limits<int>::has_infinity
istrue
? If it's not, then the standard doesn't requireinfinity()
to be meaningful. – Angew Dec 13 '12 at 14:14has_infinity()
trying out the above line will shoot his foot nice and square; it seems unintuitive. – legends2k Dec 13 '12 at 14:20has_infinity()
, didn't opt for not defininginfinity()
for such types? – legends2k Dec 13 '12 at 14:27