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int var = 1; void main() { int i = i; }

The following code can pass compiling under both g++ and Visual C++. Why is it legal? It looks unreasonable, and may cause hidden bugs.

int main() {
  int i = i;
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marked as duplicate by Bo Persson, kennytm, brettdj, Helen, Matthias Jun 25 '12 at 14:30

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

For me its not illegal, its just an abuse of notation. –  me_digvijay Jun 25 '12 at 9:33
It evaluates as (i) int i (ii) i = i in that order –  Salman A Jun 25 '12 at 9:33
I think for the same reason that just int i; without ever assigning i is legal. –  asmeurer Jun 25 '12 at 12:50
@asmeurer but then it's illegal to use i. –  Luchian Grigore Jun 25 '12 at 13:38

4 Answers 4

EDIT: It's syntactically legal, but results in undefined behavior if you use x.

It's not legal because you're assigning an uninitialized variable with another (well, the same) uninitialized variable. Just because it compiles doesn't mean it's legal. It's valid C++ syntax, yes, but not legal.

The right hand side of the assignment operator must be fully evaluated at the time of the assignment. In this case, that's i, which isn't initialized.

Credits to Steve Jessop, who dug up the quote:

4.1/1, lvalue-to-rvalue conversion

[...] if the object is uninitialized, a program that necessitates this conversion has undefined behavior.

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@LuchianGrigore: Legal in what sense? I get the idea that it's totally wrong to do so, though. But the compiler happily compiles it. –  nhahtdh Jun 25 '12 at 9:07
It's 100% correct---the code is illegal. The answer might be slightly better if he's mentioned the keywords "undefined behavior", but he's covered all of the important points: valid syntax, but not legal; i evaluated before being initialized; etc. –  James Kanze Jun 25 '12 at 9:08
@nhahtdh In the sense defined in the standard, what else? Whether it compiles or not is irrelevant for legality. Otherwise we’d have no undefined behaviour. Stop (down)voting if you have no clue, people! –  Konrad Rudolph Jun 25 '12 at 9:09
If it helps: 4.1/1, lvalue-to-rvalue conversion, "if the object is uninitialized, a program that necessitates this conversion has undefined behavior". You cannot read uninitialized objects, so unless you care to argue that i is not uninitialized when it is read in its own initializer, I don't think there's a huge amount of debate what the standard says about this case. –  Steve Jessop Jun 25 '12 at 9:19
I think you must clasrify what exactly you mean by valid and legal. Many people seem to confuse the two words. –  Salman A Jun 25 '12 at 9:36

The reason it's allowed by the syntax is that there are some odd cases where you might conceivably want to use a variable by pointer or reference in its own initializer:

struct ThingManager {
    void *thing;
    ThingManager(void *thing) : thing(thing) {}
    void Speak() {
        if (thing == (void*)this) {
            std::cout << "I'm managing myself\n";
        } else {
            std::cout << "I'm managing " << thing << "\n";

ThingManager self_manager(&self_manager);
ThingManager other_manager(&self_manager);

So C++ lets you refer to an object in its own initializer expression (its name is in scope). Then as ever in C++, it's your problem to make sure you don't actually use an uninitialized value (your example, int i = i; does use an uninitialized value).

You compiler might help with identifying uses of uninitialized values, but the standard doesn't require it to.

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You can let g++ warn you about this use case with -Winit-self (in conjunction with -Wuninitialized), and if you treat warnings as errors, it should satisfy your itch.

This technique of using the copy constructor to self-initialize is sometimes used to suppress a global object's default constructor/initializer from executing. This may be necessary if the global object's default constructor is just to 0 initialize the object, but the object got used before the constructor would have been executed. As a throwback to C, globals are 0 initialized at program start, and then the C++ runtime begins to execute global constructors. For those narrow cases where the defined constructor that would have executed is only to 0 out the object, the self initialization does not do any harm.

In the general case, copy constructor self-initialization is bad practice, since it generally would cause the same sorts of problems that using an uninitialized variable would cause (that is, undefined behavior). In the particular example in the OP's question, i is local to main, and is therefore uninitialized. The result of reading an uninitialized variable is always undefined behavior.

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It doesn't seem to generate any warning with -Winit-self for me, though. –  nhahtdh Jun 25 '12 at 9:09
@nhahtdh: Thanks, I updated the post. Regards –  jxh Jun 25 '12 at 9:11
If the object has a user defined type, and the constructor takes the instance by reference, and never dereferences it (in the constructor), then the code is legal. (The user defined constructor could save the address, for example.) –  James Kanze Jun 25 '12 at 12:32
@JamesKanze: Yes, I read your interesting example. But, I was only talking about the copy constructor. Thanks and regards –  jxh Jun 25 '12 at 15:08

You can use any previously declared variable as an initialiser of another variable.

In this case as soon as the compiler parses int i it adds that to the symbol table, so when it sees the = i initialiser, the symbol can be resolved from the preceding declaration.

It is not an error because the compiler can make sense of it in that it can generate code that unambiguously does exactly what the source code specifies, seven if it is semantically suspect. The philosophy of C and C++ is to compile anything that can possibly be compiled syntactically. Semantic errors generally issue only warnings, and only then if such warnings are enabled.

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