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#include <iostream>

struct Foo {
  Foo() {
    std::cout << "Constructing Foo " << this << std::endl;

  ~Foo() {
    std::cout << "Destructing Foo " << this << std::endl;

Foo global_foo;

int main () {
  std::cout << "Entering and exiting main()" << std::endl;
  return 0;


The problem

Compile the above with options -fprofile-arcs -ftest-coverage, runn the program, and then run gcov. The program output clearly shows that Foo::Foo(), main(), and Foo::~Foo() are called, in that order. The gcov output shows that Foo::Foo() and main() are called, but not Foo::~Foo().

Root cause

The global objects are destroyed by a GNU internal exit handler (function registered with at_exit()). The final gcov stats are produced by another exit handler. The gcov exit handler is obviously called before the global destruction exit handler, so gcov doesn't see the destructors being called.

Bug status

This is an old, old bug in gcov. Here's the Bugzilla link: http://gcc.gnu.org/bugzilla/show_bug.cgi?id=7970. The bug still exists nine years later, at least in i686-apple-darwin10-g++-4.2.1.

The question

Is this an unresolvable bug in gcov, something I have to live with, or is it just something that happened to slip through the cracks (nine years old and utterly forgotten)? If the latter, how to fix it?

share|improve this question
Some upvotes, one downvote (no comment?), but no answers or comments so far. Do any of the stack overflow members have a way to communicate with the gcc development team? –  David Hammen Jun 17 '11 at 0:37

1 Answer 1

up vote 2 down vote accepted

First off, note that that bug report hasn't been reconfirmed since 2005; you should probably add a note saying that you're still seeing the bad behavior in g++-4.2.1. Even if no one acts on your message, it's useful to have that information out there.

Short term, if you want to go on using gcov you have to live with it. You might consider lcov instead, which gives you the ability to exclude specified lines from the coverage analysis. Fair warning: I've heard that it's nice, but I've never used it myself.

Medium term, add that response to the bug tracker! No guarantees, but perhaps that will generate enough interest for some kind soul to write you a patch.

Long term, if no one is willing to patch it for you, you may be able to patch it yourself. gcc is not the friendliest codebase in the world, and getting your changes accepted can be an adventure, but if you really need this, you can make it happen.

Best of luck.

share|improve this answer
Thanks for the response. I added to the bugzilla report. The short term answer is obviously "live with it". Our product is a C++ library whose primary intend use is in an autocoded simulation environment. Since that's our intended target, a lot of our tests are done in that environment. The latest incarnation of that environment creates global static data. We also have a unit test capability that bypasses that environment. So an obvious solution is to require developers to develop ctor_dtor unit tests. (Which I have done, and I am already hearing the grumbles.) –  David Hammen Jun 17 '11 at 17:52

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