# Static Values in Assembler Code

I have the following simple code:

``````#include <cmath>
struct init_sin
{
typedef double type;
static constexpr type value(int index) {
return 3*std::pow(std::sin(index * 2.0 * 3.1415 / 20.0),1.999);
}
};

int main(){
static double VALUE = init_sin::value(10);

double VALUE_NONSTAT = 3*std::pow(std::sin(10 * 2.0 * 3.1415 / 20.0),1.999);

return int(VALUE_NONSTAT);
}
``````

I would like to find out what the meaning of the assembler code is of this given piece. Here the link to the assembly: http://pastebin.com/211AfSYh
I thought that `VALUE` is compile time computed and directly as value in the assembler code Which should be in this line if I am not mistaken:

``````33                      .size   main, .-main
34                    .data
35                    .align 8
36                    .type   _ZZ4mainE5VALUE, @object
GAS LISTING /tmp/ccbPDNK8.s             page 2

37                    .size   _ZZ4mainE5VALUE, 8
38                _ZZ4mainE5VALUE:
39 0000 15143B78      .long   2017137685
40 0004 45E95B3E      .long   1046210885
``````
1. Why are there two values with `.long` ? And why are the types long? (its a double?, maybe in assembler there is only long.
2. Does that mean that the value of `VALUE` was compile time generated
3. Where is the result for VALUE_NON_STATIC? This should be computed during run-time right? I cannot quite see where?

Thanks a lot!

-

`.long` in this assembler syntax implies a 32-bit number. Because a `double` is 64-bits, what you're seeing there is the two 32-bit parts of `VALUE`, in their `double` representation. You'll also notice above it that it's being aligned to an 8-byte boundary (through the `.align` statement) and that it's size is 8 (through the `.size` statement). Also, it's in the main `.data` segment, which is typically used for global-scope variables which are not initialised to zero (as a side-note, `.bss` is typically used to zero-initialised global scope variables).

The `VALUE_NONSTAT` can be seen being loaded into `%rax` here, which is the 64-bit version of the `AX` register:

``````             V
20 0004 48B81514              movabsq \$4493441537811354645, %rax
20      3B7845E9
20      5B3E
``````

Recalling that `15143B7845E95B3E` is the representation of the value of `3*std::pow(std::sin(index * 2.0 * 3.1415 / 20.0),1.999)` when stored in a `double`, you can see the internal value in hex starting around where I inserted a `V`.

Later statements then push it onto the stack (`movq %rax, -8(%rbp)`), then load it into an FP register (`movsd -8(%rbp), %xmm0`) before converting it to an integer and storing it in `%eax`, which is the register for return values (`cvttsd2si %xmm0, %eax`) and then returning from the routine, using `ret`.

In any case, at the optimisation level you're using (and probably below), your compiler has figured out that `VALUE_NONSTAT` is a constant expression, and just inlined it at compile time instead, since the value is fully known at compile time.

-