# bit cast uint64_t to double and back in a macro

``````union uint64_t_double {
uint64_t u;
double d;
};

uint64_t double_to_uint64_t(double d) {
union uint64_t_double ud;
ud.d = d;
return ud.u;
}

double uint64_t_to_double(int64_t u) {
union uint64_t_double ud;
ud.u = u;
return ud.d;
}
``````

Basically, can I convert these two functions to macros?

I need this becaus TinyC does not optimize(inline) functions calls as clang/gcc.

``````#define ReinterpretDoubleAsUint64_t(x) ((union { double d; uint64_t u; }) { x } .u)

#define ReinterpretUint64_tAsDouble(x) ((union { uint64_t u; double d; }) { x } .d)
``````

In C, code “(type) { initializer-list }” is a compound literal. It creates an object with the specified type and initialization. So:

``````(union { double d; uint64_t u; }) { x }
``````

creates a union that is initialized with `x`. By default, the first member of the union is initialized, so this is a union in which the `double` member `d` has been set to `x`. Give that union, `.u` is simply the usual way of referring to a member of a union. So:

``````(union { double d; uint64_t u; }) { x } .u
``````

is the member `u` of the union. When a union member other than the last one stored is read, the bytes of the union are reinterpreted in new type. So this reinterprets the bytes of the `double` as `uint64_t`.

This is standard C, but it uses implementation-defined behavior (notably, the way `double` values are encoded depends on the implementation, as does whether `double` and `uint64_t` have the same size).

• Can you please elaborate more on this definition ? I don't understand the declaration inside the parentheses. Feb 12, 2018 at 0:29
• In my tests this approach is only 10% slower(tcc) than pointer conversion, but it works with literals. Feb 12, 2018 at 0:52
• @KarimManaouil: Done. Feb 12, 2018 at 2:25
• @EricPostpischil This is very interesting. Thanks. Feb 12, 2018 at 3:23