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This is a theoretical question.

I wonder how certain constructions in C are performed internally without references. For example:

struct Foo { int a; };
int main() {
  struct Foo foo;
  foo.a = 10;
  return 0;

What is the type of foo.a? It's definitely not a pointer, because we assign 10 as a value, not address. But it's not a value type as well, because it changes data of foo. In C++ I would just say that it's a reference, but in C?

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up vote 7 down vote accepted

It is an int lvalue. Same as if you had int bar, and bar = 10 changes the data of bar. Same applies to any element within an array. Basically anything you can take the address of is an lvalue.

Lvalue status is independent of type.

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The only reason a reference is "needed" here in C++ is operator overloading. In C, the = sign is not a function call that needs a reference argument. It's simply an operator. It can't be redefined and made to do nonsensical stuff, so a normal lvalue is perfectly fine for it.

Note that there's no fundamental reason C++ needed references for this either. It could just as well have specified the overloaded operator= etc. functions to receive pointers rather than references.

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The type of foo.a is int. Think about it this way: writing foo.a = 5 is the same as writing *((int*)(&foo + offset_of_a)) = 5 - it's just writing data to a certain memory location which is to be interpreted a a value of type int.

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Structs in c are really just big primitives. if you look at the assembler generated for your foo assignment, it just acts like an int. Here's an example:

I have my struct definition:

 typedef struct Foo Foo;
 struct Foo {
     int a, b;

And I declare a Foo:

 Foo foo = {0,1};

The stack (a little machine-specific stuff is being glossed over, but in general) looks like this (assuming 4-bit ints and one-bit bytes)

%esp  %ebp[-8]  %ebp[-4]  %ebp
[....   0000      0001    ....]

you find that the instruction to assign foo.b = 1 is

mov $1, -4(%ebp)

Which is the same instruction that would assign an int on the stack a value.

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I've never seen a 'one-bit byte' before. – Jonathan Leffler Aug 17 '11 at 6:59
It'll catch on... – Dave Aug 17 '11 at 7:00

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