I am modifying legacy code that utilizes a "long long" (
LL) data type definition for a hard-coded constant, as follows:
I trust that the
LL appended to the constant guarantees that this constant will be interpreted as a
However, I do not want to depend on
long long having any particular compiler-dependent interpretation in terms of the number of bits.
Therefore, I would like my variable declaration to do without the
LL in the constant, and instead use:
uint64_t a = static_cast<uint64_t>(0xFFFFFFFFFFFFFFFF);
I would like to think that the constant
0xFFFFFFFFFFFFFFFF is not interpreted by the compiler as a 32-bit integer BEFORE the cast to
uint64_t, which would result in
a being a 64-bit integer that contained the value
0xFFFFFFFF, rather than the desired value.
(My current 64-bit compilers of interest are VS 2010, and Ubuntu 12.04 LTS GCC. However, I would hope that this code behaves in the desired way for any modern compiler.)
Will the above code work as desired for most or all modern compilers, so the the value of
a is properly set to include all digits, as desired, from the constant
0xFFFFFFFFFFFFFFFF, WITHOUT including the
LL at the end of the constant?
I64 at the end of the constant gives a compiler error. Perhaps there is another token that needs (or can) be included at the end of the constant to tell the compiler to interpret the constant as a 64-bit integer?)
(Also: Perhaps even the
static_cast<uint64_t> is unnecessary, since the variable is explicitly being defined as uint64_t?)