As I understand the x64 calling convention in Windows (based on this and this):
- The first 4 arguments are passed in registers, although 32 bytes of shadow size is reserved in the stack.
- The overall stack must be 16-byte aligned (although individual arguments don't have to be).
- Arguments that are 1, 2, 4, or 8 bytes can go on the stack. All other arguments must be passed by reference.
How are individual arguments aligned? Since I couldn't find anything that specifically addressed this, and based on how I thought alignment worked in x86, I assumed that 32-bit ints could be aligned at 4-byte boundaries. So, for example, if function arguments 5 and 6 were both 32-bit ints, I would have expected them to be at stack offsets 32 and 36. However, from looking at my compiler's assembly output, they're at offsets 32 and 40 (i.e., they're 8-byte aligned, even though they take up 4 bytes).
In other words, why does the following function call work in x64, even though it's passing 64-bit uint64_ts when 32-bit ints are expected?
int i = 1;
uint64_t p = 6;
double v = 2.5;
printf("%i %.*f\n%i %.*f\n", i, p, v, i, p, v);
