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What is stack unwinding? Searched through but couldn't find enlightening answer!

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If he doesn't know what it is, how can you expect him to know they are not the same for C and for C++? – dreamlax Feb 25 '10 at 3:17
@dreamlax: So, how concept of "stack unwinding" is different in C & C++? – Destructor Jan 14 at 5:57
@PravasiMeet: C has no exception handling, so stack unwinding is very straightfoward, however, in C++, if an exception is thrown or a function exits, stack unwinding involves destructing any C++ objects with automatic storage duration. – dreamlax Jan 14 at 6:04

10 Answers 10

up vote 78 down vote accepted

Stack unwinding is usually talked about in connection with exception handling. Here's an example:

void func( int x )
    char* pleak = new char[1024]; // might be lost => memory leak
    std::string s( "hello world" ); // will be properly destructed

    if ( x ) throw std::runtime_error( "boom" );

    delete [] pleak; // will only get here if x == 0. if x!=0, throw exception

int main()
        func( 10 );
    catch ( const std::exception& e )
        return 1;

    return 0;

Here memory allocated for pleak will be lost if exception is thrown, while memory allocated to s will be properly released by std::string destructor in any case. The objects allocated on the stack are "unwound" when the scope is exited (here the scope is of the function func.) This is done by the compiler inserting calls to destructors of automatic (stack) variables.

Now this is a very powerful concept leading to the technique called RAII, that is Resource Acquisition Is Initialization, that helps us manage resources like memory, database connections, open file descriptors, etc. in C++.

Now that allows us provide exception safety guarantees.

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That was really enlightening! So I get this: if my process is crashed unexpectedly during leaving ANY block at which time stack was being popped then it might happen that the code after exception handler code, is not going to be executed at all, and it may cause memory leaks, heap corruption etc. – mag Feb 25 '10 at 3:56
If the program "crashes" (i.e. terminates due to an error), then any memory leakage or heap corruption is irrelevant since the memory is released at termination. – Tyler McHenry Feb 25 '10 at 16:20
Exactly. Thanks. I'm just being a bit dyslexic today. – Nikolai N Fetissov Feb 25 '10 at 16:24
@TylerMcHenry: The standard does not guarantee that resources or memory are released at termination. Most OS's happen to do so however. – Mooing Duck May 8 '12 at 19:15
delete [] pleak; is only reached if x == 0. – Jib Aug 21 '13 at 11:17

In a general sense, a stack "unwind" is pretty much synonymous with the end of a function call and the subsequent popping of the stack.

However, specifically in the case of C++, stack unwinding has to do with how C++ calls the destructors for the objects allocated since the started of any code block. Objects that were created within the block are deallocated in reverse order of their allocation.

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There is nothing special about try blocks. Stack objects allocated in any block (whether try or not) is subject to unwinding when the block exits. – Chris Jester-Young Feb 25 '10 at 3:11
Oh, my bad. Any block. :P – jrista Feb 25 '10 at 3:14
Its been a while since I have done much C++ coding. I had to dig that answer out of the rusty depths. ;P – jrista Feb 25 '10 at 3:23
don't worry. Everyone has "their bad" occasionally. – bitc May 28 '10 at 0:30

All this relates to C++:

Definition: As you create objects statically (on the stack as opposed to allocating them in the heap memory) and perform function calls, they are "stacked up".

When a scope (anything delimited by { and }) is exited (by using return XXX;, reaching the end of the scope or throwing an exception) everything within that scope is destroyed (destructors are called for everything). This process of destroying local objects and calling destructors is called stack unwinding. (Exiting a code block using goto will not unwind the stack which is one of the reasons you should never use goto in C++).

You have the following issues related to stack unwinding:

  1. avoiding memory leaks (anything dynamically allocated that is not managed by a local object and cleaned up in the destructor will be leaked) - see RAII referred to by Nikolai, and the documentation for boost::scoped_ptr or this example of using boost::mutex::scoped_lock.

  2. program consistency: the C++ specifications state that you should never throw an exception before any existing exception has been handled. This means that the stack unwinding process should never throw an exception (either use only code guaranteed not to throw in destructors, or surround everything in destructors with try { and } catch(...) {}).

If any destructor throws an exception during stack unwinding you end up in the land of undefined behavior which could cause your program to treminate unexpectedly (most common behavior) or the universe to end (theoretically possible but has not been observed in practice yet).

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On the contrary. While gotos should not be abused, they do cause stack unwinding in MSVC (not in GCC, so it's probably an extension). setjmp and longjmp do this in a cross platform way, with somewhat less flexibility. – Patrick Niedzielski Sep 7 '10 at 12:04
I've just tested this with gcc and it does correctly call the destructors when you goto out of a code block. See stackoverflow.com/questions/334780/… - as mentioned in that link, this is part of the standard as well. – Damyan Dec 14 '10 at 12:54
reading Nikolai's, jrista's and your answer in this order, now it makes sense! – n611x007 Aug 10 '12 at 13:46

Stack unwinding is a mostly C++ concept, dealing with how stack-allocated objects are destroyed when its scope is exited (either normally, or through an exception).

Say you have this fragment of code:

void hw() {
    string hello("Hello, ");
    string world("world!\n");
    cout << hello << world;
} // at this point, "world" is destroyed, followed by "hello"
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Does this apply to any block? I mean if there is only { // some local objects } – mag Feb 25 '10 at 3:52
@Rajendra: Yes, an anonymous block defines an area of scope, so it counts too. – Michael Myers Feb 25 '10 at 22:59

I read a blog post that helped me to understand.

What is stack unwinding?

In any language that supports recursive functions (ie. pretty much everything except Fortran 77 and Brainf*ck) the language runtime keeps a stack of what functions are currently executing. Stack unwinding is a way of inspecting, and possibly modifying, that stack.

Why would you want to do that?

The answer may seem obvious, but there are several related, yet subtly different, situations where unwinding is useful or necessary:

  1. As a runtime control-flow mechanism (C++ exceptions, C longjmp(), etc).
  2. In a debugger, to show the user the stack.
  3. In a profiler, to take a sample of the stack.
  4. From the program itself (like from a crash handler to show the stack).

These have subtly different requirements. Some of these are performance-critical, some are not. Some require the ability to reconstruct registers from outer frame, some do not. But we'll get into all that in a second.

You can found the full post here.

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I don't know if you read this yet, but Wikipedia's article on the call stack has a decent explanation.

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Everyone has talked about the exception handling in C++. But,I think there is another connotation for stack unwinding and that is related to debugging. A debugger has to do stack unwinding whenever it is supposed to go to a frame previous to the current frame. However, this is sort of virtual unwinding as it needs to rewind when it comes back to current frame. The example for this could be up/down/bt commands in gdb.

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The debugger action is typically called "Stack Walking" which is simply parsing the stack. "Stack Unwinding" implies not only "Stack Walking" but also calling the destructors of objects that exist on the stack. – Adisak Sep 9 '13 at 19:10
@Adisak I didn't know it is also called "stack walking". I have always been seeing "stack unwinding" in the context of all debugger articles and also even inside gdb code. I felt "stack unwinding" more appropriate as it is not just about peeking into stack information for every function, but involves unwinding of frame information (c.f. CFI in dwarf).This is processed in-order one function by one. – bbv Aug 4 '14 at 12:10
I guess the "stack walking" is made more famous by Windows. Also, I found as an example code.google.com/p/google-breakpad/wiki/StackWalking apart from dwarf standard's doc itself uses term unwinding few times. Though agree, it is virtual unwinding. Moreover, the question seems to be asking for every possible meaning "stack unwinding" can suggest. – bbv Aug 4 '14 at 12:19

C++ runtime destructs all automatic variables created between between throw & catch. In this simple example below f1() throws and main() catches, in between objects of type B and A are created on the stack in that order. When f1() throws, B and A's destructors are called.

#include <iostream>
using namespace std;

class A
       ~A() { cout << "A's dtor" << endl; }

class B
       ~B() { cout << "B's dtor" << endl; }

void f1()
    B b;
    throw (100);

void f()
    A a;

int main()
    catch (int num)
        cout << "Caught exception: " << num << endl;

    return 0;

The output of this program will be

B's dtor
A's dtor

This is because the program's callstack when f1() throws looks like


So, when f1() is popped, automatic variable b gets destroyed, and then when f() is popped automatic variable a gets destroyed.

Hope this helps, happy coding!

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When an exception is thrown and control passes from a try block to a handler, the C++ run time calls destructors for all automatic objects constructed since the beginning of the try block. This process is called stack unwinding. The automatic objects are destroyed in reverse order of their construction. (Automatic objects are local objects that have been declared auto or register, or not declared static or extern. An automatic object x is deleted whenever the program exits the block in which x is declared.)

If an exception is thrown during construction of an object consisting of subobjects or array elements, destructors are only called for those subobjects or array elements successfully constructed before the exception was thrown. A destructor for a local static object will only be called if the object was successfully constructed.

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In Java stack unwiding or unwounding isn't very important (with garbage collector). In many exception handling papers I saw this concept (stack unwinding), in special those writters deals with exception handling in C or C++. with try catch blocks we shouln't forget: free stack from all objects after local blocks.

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