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So, I would like to be able to call functions from a c++ dll. For certain reasons, I would like to call them from an __asm block in my C++ code. My question is this: I know that before I call the function, I have to push its arguments on the stack in the order specified by the function's calling convention.However, can i simply do something like this:

int a=5;   
double b = 5.0;  
       push b 
       push a  
       call functionAddress  

What worries me is the fact that I seem to remember that the standard word size in assembly is 2bytes, while the size of an int in C++ is usually 4bytes, and 8 bytes for a double.So , in the example above, am I really pushing the full value of each variable, or just the first couple of bytes? If the code above is not correct, what would be the right way to do it? Also, if the function we are calling returns a double, where is this value stored? I'm assuming it can't be in a register, because it can only store 32bits ( 4bytes ).Any help with this mess would be greatly appreciated :)

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What happened when you tried it? – Seth Feb 22 '10 at 18:53
I'm having a problem with the doubles: I made myself a test function in the dll that takes a double argument and returns 1 if the input is bigger than 5.0.The thing is that I tried calling the function from assembly a few times with argument 7.45454 and the return value is not always the same. – Emil D Feb 22 '10 at 19:25
up vote 13 down vote accepted

To push 8-byte values such as doubles, you won't be able to use a regular PUSH instruction. And neither do you push floating-point parameters (or doubles) on to the floating-point stack. You need to put these fat parameters on the stack 'by hand'. For example, to push π as a parameter to a function f:

  __asm {
    FLDPI                    // load pi onto FP stack
    SUB ESP,8                // make room for double on processor stack
    FSTP QWORD PTR [ESP]     // store pi in proc stack slot (and pop from FP stack)
    CALL f
    ADD ESP,8                // clean up stack (assuming f is _cdecl)
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The 32-bit x86 architecture automatically pads values being pushed onto the stack to 32 bits.

There is something you have to keep in mind. If the function you're calling uses the __cdecl calling convention, you must "pop" what you pushed afterwards. However, for __stdcall functions you must not do this.

extern "C" int    __cdecl   function1(int, double);
extern "C" double __stdcall function2(char, char*);

int a = 5;
double b = 5.0;
int retval1;
char c = '5';
char *d = "Hello";
double retval2;

__asm {
    push b
    push a
    call function1
    add esp, 4*2 // "pop" what we pushed
    mov retval1, eax
    push d
    push c
    call function2
    mov retval2, eax
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For extra peace of mind, after you've figured out what it should be, make the equivalent call from C++, compile with optimizations disabled, and look at the assembly output. It should roughly match what you're doing. – Scott Smith Feb 22 '10 at 19:07
But then, how would you push a double? In c++ it is supposed to be 8 bytes, right? – Emil D Feb 22 '10 at 19:25

Generally, you would be pushing the full size of the computer word. This varies according to the chip, but on a 32 bit Intel would be 4bytes, and on a 64 bit Intel, would be 8 (depending on the compiler -- Visual Studio still only supports IA32 assembly -- so 4 bytes).

The best answer is to look at the documentation for your specific compiler.

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