3

I am new to C and am trying some macro statements. I have a line like this:

#define write_data(src, TYPE, VALUE ) (write_implement(src, sizeof(TYPE), &(VALUE)))

And in a later function, I would like to use memcpy to copy the VALUE in another memory zone. Like this:

void write_implement (void* src, int size_of_type, void* value)
{
    //whatever, just making the destination address from the source address
    void* dest = src + 4096;
    memcpy(dest, value, size_of_type);
}

The VALUE being passed in can be of any kind of data. That's why I am using void* to point to it and memcpy to copy the number of size of bytes.

But it doesn't work of course :)

This is how I call the function:

write_data(addr, int, i*3); // i is a whatever integer variable

GCC gives me this:

error: lvalue required as unary ‘&’ operand

Does anyone have any idea how to find the address of the variable being passed in to the macro in order to allow me to make use of the address for copying?

The later part of the macro can be changed (the "write_implement" and the parameters but not the "write_data" parameters). And the implementation part is also free to change.

17
  • 1
    Where's the call to the macro that causes that error?
    – Cascabel
    Nov 16, 2010 at 1:37
  • The problem is not happening in the code you have shown. It's probably due to how the macro is used. Can you show how you're using the macro?
    – Heatsink
    Nov 16, 2010 at 1:39
  • Since the macro just replaces VALUE with i * 3, getting the address won't work Nov 16, 2010 at 1:40
  • Sorry about missing the call :( It looks like: write(addr, int, i * 3);
    – Ken T
    Nov 16, 2010 at 1:40
  • Then is there any way to get the address of the i*3? :)
    – Ken T
    Nov 16, 2010 at 1:41

3 Answers 3

5

If your compiler supports C99 compound literals, you can do this:

#define write_data(src, TYPE, VALUE) write_implement(src, sizeof(TYPE), &(TYPE){ VALUE })
4
  • +1 C99 allows anonymising a lot of structures like this. Always very useful if you can use it.
    – thkala
    Nov 16, 2010 at 2:26
  • GREAT!! Exactly what I want. Thanks!!
    – Ken T
    Nov 16, 2010 at 2:39
  • +1 for using compound literals. Just as additional remark, @Ken T, you should have your value parameter void const* and the compound literal also as &(TYPE const){ (VALUE) }. The const will help your optimizer, the paranthesis will avoid that commas in your VALUE expression will be misinterpreted as separating different initializers. Nov 16, 2010 at 7:29
  • @Jens: I don't agree with the parentheses - commas would fail anyway because they would be treated as macro argument separators.
    – caf
    Nov 16, 2010 at 8:45
1

How about this:

#define write_data(src, TYPE, VALUE ) { \
        TYPE xxxx##__LINE__ = (VALUE); \
        write_implement(src, sizeof(TYPE), &(xxxx##__LINE__)); \
    }

It uses a somewhat "random" variable to store the value, before passing its address.

0

When you expand the macro, you get for the third parameter, &(i * 3), which makes no sense. You can take the address of a variable, but not of an anonymous expression result.

If you want to pass a value in using void* to hold the type, then you'd better have an actual variable named to hold it.

int i = 5;
int j = i * 3;
write_data(addr, int, j);

I gotta say, though, to me calling the function directly is cleaner:

write_implementation(addr, sizeof(int), &j);

It's possible to do some C magic to make the macro call look the way you wanted, although I'd advise against it.

#define write_data(src,type,value) \
    {type t = (value); write_implementation(src, sizeof(type), &t);}

write_data(addr, int, i*3);

And, as an aside, a C++ template would allow you to use the result of an expression the way you wanted as well, and a bit prettier (the key is the const ref).

template <typename T>
write_impl(T& dest, const T& src)
{
    memcpy(&dest, &src, sizeof(T));
}

// 'int' is the default type of 5*3
int intResult;
write_impl(intResult, 5*3);

// 'double' is the default type of 5.1*4.7
double doubleResult;
write_impl(doubleResult, 5.1*4.7);

// otherwise, have to cast
long longResult
write_impl(longResult, (long)5*3);
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  • ah, I suggested pretty much the same CPP black magic, though a few seconds later. Does this look like some semi-sadistic/semi-idiotic homework assignment to anyone else?
    – thkala
    Nov 16, 2010 at 2:23
  • Your rewritten version of the macro doesn't actually use value.
    – caf
    Nov 16, 2010 at 2:24
  • Oops, you're right. I added it. The major restriction is that the macro parameters src and value could not be named t. Still comes with the caveat that I'd advise against doing it. Nov 16, 2010 at 3:35

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