Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am still a novice in the new stl members.Can anyone point out why this code is giving segmentation fault?

using namespace std;
struct StubClass
    weak_ptr<string> b;
    int c;
    friend bool operator==(StubClass x,StubClass y);
    friend bool operator<(StubClass x,StubClass y);
    StubClass(weak_ptr<string> x):b(x){c=5;}    
bool operator==(StubClass d,StubClass c) { return d.b==c.b;}
bool operator<(StubClass d,StubClass c) { return d.b<c.b; }

int main()
    shared_ptr<string> spPtr(new string("Hello"));
    weak_ptr<string> wpPtr(spPtr);
    StubClass hello(wpPtr);
    set<StubClass> helloSet;
    if(helloSet.find(StubClass(wpPtr))!=helloSet.end()) printf("YAYA");
    else puts("Bye");

The error is in line

if(helloSet.find(StubClass(wpPtr))!=helloSet.end()) printf("YAYA");

More research reveals there is a problem when the StubClass's comparator function is called. I am compiling the program here


bool operator==(StubClass d,StubClass c) { return d.b.lock()==c.b.lock();}
bool operator<(StubClass d,StubClass c) { return d.b.lock()<c.b.lock(); }

This resolved the issue.I should be reading more.:( Anyways can anyone from the community explain the reason why the first code gives SIGSEGV.I figured it out eventually,but still a nice explanation won't hurt. :)

share|improve this question
To ward off problems like this in the future it may be helpful to use explicit. explicit StubClass(weak_ptr<string> x):b(x){c=5;} would have revealed the problem right away. –  Jeffery Thomas Jun 14 '12 at 16:13

2 Answers 2

up vote 4 down vote accepted

If you want to compare strings stored in weak_ptr do this:

bool operator<(StubClass d, StubClass c) 
    std::shared_ptr<std::string> a = d.b.lock();
    std::shared_ptr<std::string> b = c.b.lock();

    if (!a && !b)
        return false; 

    if (!a)
        return true;

    if (!b)
        return false;

    return *a < *b;

Run result

share|improve this answer
But if they are both NULL, you'll return true. I think it should be false. –  rodrigo Jun 14 '12 at 14:22
Yes, you are right. Edited answer. –  inkooboo Jun 14 '12 at 14:25
I'm sorry for the late comment but why you return true when a == nullptr and false when b == nullptr? –  Constructor Mar 20 '14 at 12:45

Your original code segfaults because you've accidentally set up an infinite recursion:

bool operator<(StubClass d,StubClass c) { return d.b<c.b; }

There is no operator< for weak_ptr. However you do have an implicit conversion from weak_ptr to StubClass. And StubClass has an operator<. So this function calls itself indefinitely: thus the segfault.

The currently accepted answer from inkooboo will also lead to undefined behavior, probably resulting in a crash. As weak_ptrs become expired during the execution of your program (something more involved than your test case), then the ordering of them will change. When this happens between two weak_ptrs in the set, the set will become corrupted, likely leading to a crash. However there is a way around this using owner_less which was designed specifically for this use case:

bool operator==(const StubClass& d, const StubClass& c)
    return !owner_less<weak_ptr<string>>()(d.b, c.b) &&
           !owner_less<weak_ptr<string>>()(c.b, d.b);
bool operator<(const StubClass& d, const StubClass& c)
    return owner_less<weak_ptr<string>>()(d.b, c.b);

Or, if you prefer, this can also be coded using the member function owner_before. Both are equivalent:

bool operator==(const StubClass& d, const StubClass& c)
    return !d.b.owner_before(c.b) && !c.b.owner_before(d.b);
bool operator<(const StubClass& d, const StubClass& c)
    return d.b.owner_before(c.b);

Using these functions, even when one weak_ptr expires and the other doesn't, their ordering remains stable. And thus you'll have a well-defined set.

share|improve this answer
Interesting. Didn't know about owner-based comparison for smart pointers. In your solution the addresses of owner objects are comparing but not the key strings. I'm not sure that it is correct solution for @bashrc. By the way, for this code it looks like set could become corrupted in your solution too, when shared_ptr that owns string for keys become outdated. –  inkooboo Jun 15 '12 at 6:38
When a weak_ptr expires (the last shared_ptr releases ownership), this comparison does not change. The weak_ptr continues to compare exactly the same to other weak_ptrs. This is because the control block to which the weak_ptr refers does not get deallocated until the last weak_ptr is destructed/reset/reassigned. –  Howard Hinnant Jun 15 '12 at 14:57

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.