2

Here I read an example which can leak memory

void foo(std::shared_ptr<int> p, int init)
{
  *p = init;
}
foo(std::shared_ptr<int>(new int(42)), seed()); // assume seed() returns an int

The article says if seed() throws, then there will be a memory leak. I am not understanding how?

If the shared_ptr is created first, and then seed() throws an exception, during stack unwinding, the temporary shared-ptr will be destroyed, deallocating the memory. If seed() throws error beforehand, then there will be no allocation at the first place.

What I am missing?

2
  • This will explain why => herbsutter.com/gotw/_102
    – MatthewJ
    May 22, 2014 at 4:41
  • short answer: the new int(42) could execute before seed() executes, and before its result is bound to the function parameter.
    – M.M
    May 22, 2014 at 4:57

1 Answer 1

4

the order of execution can be

auto temp = new int(42);
auto temp2 = seed(); // if throw exception, temp is leaked
auto temp3 = std::shared_ptr<int>(temp);
foo(temp3, temp2);
3
  • You are saying that, before fully evaluating one parameter value, compiler may start evaluating another? Why is that so? Is it difficult to guarantee the evaluation order? or at least one will be fully evaluated before another begins?
    – Rakib
    May 22, 2014 at 4:40
  • It simply because standard did specify the order of evaluation
    – Bryan Chen
    May 22, 2014 at 4:42
  • 1
    If the compiler's instruction scheduler sees holes in the pipeline of a basic block, it'll shuffle things around to fill them without regard for expression boundaries, only data dependence. If you've got dependencies on function-argument order of evaluation, you've just wrecked maintainability: the one question maintainers must ask is "is this change safe?", and hoisting argument calculations out of an argument list is often a good thing to do. If C++ permits dependencies here the answer changes from "yes" to "good luck". That being the case, there's no reason to hobble the optimizer.
    – jthill
    May 22, 2014 at 4:53

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