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In C++ How to program there is a paragraph that say:

A common programming practice is to allocate dynamic memory, assign the address of that memory to a pointer, use the pointer to manipulate the memory and deallocate the memory with delete when the memory is no longer needed. If an exception occurs after successful memory allocation but before the delete statement executes, a memory leak could occur. The C++ standard provides class template unique_ptr in header to deal with this situation.

Any on could introduce me a real example that exception occur and memory will leak like this post?

share|improve this question
    
I think some people need to re-evaluate their interpretation of "Not a real question"... – Ed S. Mar 12 '13 at 21:18
1  
3 different close votes. Maybe I should cast a 4th (different) one. :P – Mysticial Mar 14 '13 at 8:11
    
Here you are :) – Milad Khajavi Mar 14 '13 at 8:24
up vote 5 down vote accepted
class MyClass
{
public:
    char* buffer;
    MyClass(bool throwException)
    {
        buffer = new char[1024];
        if(throwException)
            throw std::runtime_error("MyClass::MyClass() failed");
    }

    ~MyClass()
    {
        delete[] buffer;
    }
};

int main()
{
    // Memory leak, if an exception is thrown before a delete
    MyClass* ptr = new MyClass(false);
    throw std::runtime_error("<any error>");
    delete ptr;
}

int main()
{
    // Memory leak due to a missing call to MyClass()::~MyClass()
    // in case MyClass()::MyClass() throws an exception.
    MyClass instance = MyClass(true);
}

See also: C++ : handle resources if constructors may throw exceptions (Reference to FAQ 17.4]

share|improve this answer
    
Great example, thanks you Sam. – Milad Khajavi Mar 12 '13 at 21:32
    
You're welcome! – Sam Mar 12 '13 at 21:33
    
-1. MyClass* ptr = new MyClass(true); won't leak if the constructor throws an exception. – Mooing Duck Mar 12 '13 at 21:40
    
Got me there. Fixed. – Sam Mar 12 '13 at 21:44
1  
Not anymore :). Thanks for voting AND commenting! – Sam Mar 12 '13 at 21:48
void func()
{
    char *p = new char[10];
    some_function_which_may_throw(p);
    delete [] p;
}

If the call to some_function_which_may_throw(p) throws an exception we leak the memory pointed to by p.

share|improve this answer
    
You should have named func real_example instead. After all, the OP did ask for a real example ;) – Nik Bougalis Mar 12 '13 at 21:22
    
So, this is not related to stack unwinding right? Stack unwinding only relates to stack variables? – pseudonym_127 Jun 21 '13 at 11:23

A bit more subtle example.

Take an naive implementation of a class that holds two dynamically allocated arrays:

struct Foo {
private:
    int* first;
    int* second;
public:
    Foo()
        : first(new int[10000])
        , second(new int[10000])
    { }

    void Bar() { throw 42; }

    ~Foo()
    {
        delete [] first;
        delete [] second;
    }
};

int main()
{
    Foo f;
    /* more code */
}

Now, if we get an exception because we call method Bar somewhere, everything's fine - the stack unwinding guarantess that f's destructor gets called.

But if we get a bad_alloc when initializing second, we leak the memory that first points to.

share|improve this answer
    
That's a REALLY good example, I think a lot of people get this wrong :( – Mooing Duck Mar 12 '13 at 22:49

Simple example

try { 
  int* pValue = new int();
  if (someCondition) { 
    throw 42;
  }
  delete pValue;
} catch (int&) { 

}
share|improve this answer

To have a less contrived example, I recently found this potential leak in my code when allocating nodes with a given allocator object.

std::unique_ptr<node,alloc_aware> allocate_new_node(allocator& al, const value_type^ v) {
    char* buffer = al.allocate(sizeof(node)); //allocate memory
    return std::unique_ptr<node>(al.construct(buffer, v),{al})); //construct
}

It's less obvious how to fix this because of the buffer, but with help I got it:

struct only_deallocate {
    allocator* a;    
    size_type s;
    only_deallocate(allocator& alloc, size_type size):a(&alloc), s(size) {}
    template<class T> void operator()(T* ptr) {a->deallocate(ptr, s);}
    operator alloc_aware() const {return alloc_aware(*a, s);}
};

std::unique_ptr<node,alloc_aware> allocate_new_node(allocator& al, const value_type& v) {
    std::unique_ptr<node, only_deallocate> buf(alloc.allocate(sizeof(node)),{alloc, sizeof(node)});//allocate memory
    alloc.construct(buf.get(), value);
    return std::unique_ptr<node,alloc_aware>(std::move(buf));
}

Compiling Code here

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