It means undefined behavior:-).

Seriously, it is a form of type punning. `a`

is a `float`

, but `a`

is also a block of memory (typically four bytes) with bits in it. `(float&)a`

means to treat that block of memory as if it were a `float`

(in other words, what it actually is); `(int&)a`

means to treat it as an `int`

. Formally, accessing an object (such as `a`

) through an lvalue expression with a type other than the actual type of the object is undefined behavior, unless the type is a character type. Practically, if the two types have the same size, I would expect the results to be a reinterpretation of the bit pattern.

In the case of a `float`

, the bit pattern contains bits for the sign, an exponent and a mantissa. *Typically*, the exponent will use some excess-n notation, and only `0.0`

will have 0 as an exponent. (Some representations, including the one used on PCs, will not store the high order bit of the mantissa, since in a normalized form in base 2, it must always be 1. In such cases, the stored mantissa for `1.0`

will have all bits 0.) Also typically (and I don't know of any exceptions here), the exponent will be stored in the high order bits. The result is when you "type pun" a floating point value to a an integer of the same size, the value will be fairly large, regardless of the floating point value.