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My question is related to the lifetime of stack variables in C99/GNU-C and C++, when a goto passes over them. There are a number of related questions here, but none of them really answered my case. Consider the following code example:

void Foo(char *ptr)
    if (ptr)
        char string1[50];
        strcpy(string1, ptr);
        printf("upcased string = %s\n", string1);

#if CASE_1
    char string2[50] = "test";
    char string2[50];
    strcpy(string2, "test");
    ptr = string2;
    goto label1;

I read that a goto does not introduce a new scope and as such the variable should be accessible (in theory) even before it was declared. string2 exists at function scope, yet it is not directly accessible from the code before the declaration. Using a goto and a pointer variable on the other hand, it can be accessed. I know that C++ requires destructors to be called, when a goto crosses an object initialization backwards, but I didn't find anything about the life of built-in / POD types. Tests with GCC show that while the compiler reuses the stack space when ptr is not assigned to string2, it will stop reusing it, when the assignment is done, as if it "knows" that it can be addressed after the goto.

Is there any rules in the C99/C++ standard (or maybe even restricted to GCC) that clearly say, whether this is allowed or not? I'm especially interested in C++.


  • The part of the c++ standard that deals with it is "3.7.3-1 Block-scope variables explicitly declared register or not explicitly declared static or extern have automatic storage duration. The storage for these entities lasts until the block in which they are created exits." And while this seems to justify the above code, it does not really, since it is clear that a compiler will reuse the stack space for automatic variables as an optimization, when it knows that it will not be used anymore. So the question that needs to be answered is: Would it be allowed for the compiler to assume that a variable is not used in the location before it was declared, even if the program flow would carry a reference?
  • I added an alternative case, which seems to have different rules.
  • To answer any questions, why I would use such an ugly construct in the first place: This is certainly not how I would want to write normal code. It is supposed to be part of compatibility macro, to allow the use of structured exception handling with G++
share|improve this question

Concerning C++, paragraph 6.6/1 of the C++11 Standard specifies:

[...] Transfer out of a loop, out of a block, or back past an initialized variable with automatic storage duration involves the destruction of objects with automatic storage duration that are in scope at the point transferred from but not at the point transferred to. [...]

Paragraph 3.7.3/3 then specifies:

If a variable with automatic storage duration has initialization or a destructor with side effects, it shall not be destroyed before the end of its block, nor shall it be eliminated as an optimization even if it appears to be unused, except that a class object or its copy/move may be eliminated as specified in 12.8.

Since string2 has initialization, the program has undefined behavior.

This said, why using goto when you can just use structured programming? Dijkstra taught us long ago that goto is harmful.

share|improve this answer
I can get rid of the initialization: char string2[50]; strcpy(string2, "test"); So in this case – Timo May 26 '13 at 14:16
@Timo: In that case it's well-formed, because of 3.7.3/1 ("The storage for these entities lasts until the block in which they are created exits.") and 3.8/1 ("The lifetime of an object of type T ends when: if T is a class type with a non-trivial destructor (12.4), the destructor call starts; or, the storage which the object occupies is reused or released." – Andy Prowl May 26 '13 at 14:22
Regarding the first qoue: "that are in scope at the point transferred from but not at the point transferred", but considering that the scope is the function, it wouldn't be out of scope after the jump, only the name would be undefined. Regarding the 2nd point: I can get rid of the initialization: char string2[50]; strcpy(string2, "test"); So in this case the 2nd part also doesn't apply. And sorry, but I do not buy the dogma of harmful gotos, in fact they can make code much more readable (like in error handling cases), but to answer your question why: Because I can ;) – Timo May 26 '13 at 14:22
"The storage for these entities lasts until the block in which they are created exits." <= that seems to be waht I was looking for. Strange that the initialization makes a difference, but ok. And sorry for double commenting, I accidentally added it and couldn't edit it later. – Timo May 26 '13 at 14:25
@Timo: Concerning the alleged good qualities of goto, you're ignoring decades and decades of practices and principles that prove the opposite. Perhaps you should consider them :) As for error handling, C++ has exceptions. – Andy Prowl May 26 '13 at 14:27

While the behaviour is undefined in C++, as Andy Prowl's answer tells you, in C, the behaviour is defined, paragraph 6 of 6.2.4 (N1570, identical as paragraph 5 in C99) specifies the lifetime of objects with automatic storage duration which don't have variable length array type:

For such an object that does not have a variable length array type, its lifetime extends from entry into the block with which it is associated until execution of that block ends in any way. (Entering an enclosed block or calling a function suspends, but does not end, execution of the current block.) If the block is entered recursively, a new instance of the object is created each time. The initial value of the object is indeterminate. If an initialization is specified for the object, it is performed each time the declaration or compound literal is reached in the execution of the block; otherwise, the value becomes indeterminate each time the declaration is reached.

The lifetime of string2 is the entire time of execution of the block, so accessing it in the if branch using ptr after the first initialisation finds an object with determinate contents.

share|improve this answer
If the address of the variable is taken before jumping back, would the variable continue to hold its value until the declaration is reached and become indeterminate at that exact point, or would could the value be indeterminate before that? – supercat Jul 16 '15 at 18:44
Not sure what you mean. As I understand it, since we don't leave the block, the variable retains its value when jumping. – Daniel Fischer Jul 16 '15 at 19:03
The quoted language explicitly says that the value of the variable becomes indeterminate every time the declaration is reached. My question is whether that means the compiler must not allow the value to be corrupted in the time before the declaration but that the declaration itself may arbitrarily rewrite the value (which would seem a bit odd), or whether it says something else, or maybe was intended to mean something else but doesn't. – supercat Jul 16 '15 at 19:09
It says the value becomes indeterminate every time the declaration is reached when there is no initialization specified. If there is an initialization, it only says the initial value (before the declaration is reached) is indeterminate. It may of course be that I misunderstand, but as I understand it, after initialization or later assignment, the value is kept until the declaration is reached again or the block ends (barring any other code that makes the object indeterminate in between). – Daniel Fischer Jul 16 '15 at 19:19
Would that imply that writing a variable, jumping to a spot before the declaration, and then jumping to a spot after it, would leave a variable holding the value it held before the first jump? It seems odd that jumping around a declaration would enable more rigidly-defined semantics than falling through it. – supercat Jul 16 '15 at 20:19

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