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I have some code that a program generated for me, and I really do not understand why it does what it does. The language is plain C, and a struct is generated.


struct X_IMPL {
   sint32 y;

struct X {
   struct X_IMPL * IMPL;


#define _my_y self->IMPL->y

sint32 do_something(struct X * self)
    return _my_y*13;

I do assume that _my_y now points to a variable inside the struct, and can be used to change the struct's variable. My question is, why would code be generated this way? Is there any advantage compared to just simply using the parameter's reference? When a reference is created with a define like that, do I really need that parameter at all?

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I don't quite understand your question. The #define doesn't "create" anything, it's just a textual replacement macro. Where the source has _my_y, the compiler will see self->IMPL->y. Not sure what you mean by "reference" in this context either. –  unwind Jun 2 '14 at 10:50
All it's doing is reducing the verbosity of the code (imagine if you had lots of code in do_something, having self->IMPL->y everywhere could get repetitive. That said, hiding stuff like this behind macros is generally considered bad-practice (at least, for code written by humans!). –  Oliver Charlesworth Jun 2 '14 at 10:50
@unwind: With reference I just meant that my_y and self->IMPL->y would point to the same place in memory. –  Pphoenix Jun 2 '14 at 10:52
@Pphoenix I think you're not really understanding what happens in this code. _my_y doesn't exist as a symbol in the compiled program; it's the name of a #define so it will be replaced by the preprocessor and never seen by the compiler. Try to read the preprocessor output (-E with gcc). –  unwind Jun 2 '14 at 10:54
The macro requires the variable self to be available where it's used, yes. In code like this (object-oriented functions in C) you must always pass around a self (or this) pointer that points at the object that the method should operate upon. –  unwind Jun 2 '14 at 11:03

2 Answers 2

up vote 2 down vote accepted

It is just a matter of preferences, as you can do that in many ways, this one is not that sheer. On the first line, where the define is, it assigns nothing but define a macro for accessing a struct pointer through a struct pointer.

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I think what you are seeing is "object oriented programming" in C. Note that it's not usually 1:1 equivalent to OOP in C++/Java/C#/whatever, because the OOP mechanisms are not built-in, but implemented explicitly. So different projects and different developers might write quite different code for same thing, while in some other language with built-in OOP features, they'd all just use the built-in features the same way.

The do_something in C++ might look like this:

// do_something is public member function AKA method of class X
sint32 X::do_something()
    // y is this->y, private member variable of class X
    return y * 13; 
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If that's the reason, then it's a poor tool. Real OOP in C would either use function pointers in some way or (more likely) implement member functions as plain functions taking a struct pointer as parameter, where the struct pointer is of incomplete type and its contents are unknown to the caller. Then the internals of the function are irrelevant and the #define would just be obfuscation. I would rather suspect the #define is there for a simplification to suit some kind of given API. –  Lundin Jun 2 '14 at 11:37
@Lundin There's so little code shown, and it may not be 100% identical to the real code, that I wouldn't pass the judgement of "OOP purity". do_something very much looks like a "member function of class X" written in C, the self parameter with the implicit meaning is kinda giveaway. And yeah, having that kind of #define in generated code is a bit of WTF I agree (unless there's some external reason for it). –  hyde Jun 2 '14 at 12:25
Yes, this was not the full project (which is huge). X is also another name but it was so long that it would just be confusing to read it all, therefore I replaced it with something more readable :) –  Pphoenix Jun 2 '14 at 12:34

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