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I've a situation like the following, and I'm not sure whether or not the std::string elements of the struct leak memory or if this is ok. Is the memory allocated by those two std::strings deleted when free(v) is called?

struct MyData
{
    std::string s1;
    std::string s2;
};

void* v = malloc(sizeof(MyData));

...

MyData* d = static_cast<MyData*>(v);
d->s1 = "asdf";
d->s2 = "1234";

...

free(v);

Leak or not?

I'm using the void-pointer because I have another superior struct, which consists of an enum and a void-pointer. Depending on the value of the enum-variable, the void* will point to different data-structs.

Example:

enum-field has EnumValue01 => void-pointer will point to a malloc'd MyData01 struct

enum-field has EnumValue02 => void-pointer will point to a malloc'd MyData02 struct

Suggestions for different approaches are very appreciated, of course.

share|improve this question
    
It looks like you are somehow reinventing polymorphism. Are you aware of all the modern programming techniques available in C++ ? Your use of malloc/free suggests that you don't. – ereOn Sep 30 '11 at 12:03
    
The different data-structs don't have anything in common. So I thought of using an enum and a void* Would it be better to create an empty pure virtual base class and let all the data-structs inherit that base class? – j00hi Sep 30 '11 at 12:14
1  
Can't really tell without knowing your specific situation, but if the structures are to be stored in the same super-structure, they do have something in common ;) – ereOn Sep 30 '11 at 14:18
up vote 2 down vote accepted

There is a leak indeed. free doesn't call MyData destructor (after all it's a C function which doesn't know anything about C++ stuff). Either you should use new/delete instead of malloc/free:


MyData* d = new MyData;
d->s1 = "asdf";
d->s2 = "1234";
delete d;

or call destructor by yourself:


void* v = malloc(sizeof(MyData));
MyData* d = new (v) MyData; // use placement new instead of static_cast
d->s1 = "asdf";
d->s2 = "1234";
...
d->~MyData();
free(v);

as sharptooth noted you can't directly use memory allocated by malloc as a MyData struct without initialization, so you have to do it by yourself as well. To initialize MyData using already allocated memory you need to use placement new (see in the code above).

share|improve this answer
    
You sould call the constructor, too: ::new (v) MyData; with using #include <new> – Naszta Sep 30 '11 at 12:04
    
But MyData is a struct, not a class, it doesn't have a destructor. – wormsparty Sep 30 '11 at 12:07
    
@Naszta: yes, thanks, already fixed this. copy/paste is error-prone indeed. – Konstantin Oznobihin Sep 30 '11 at 12:07
1  
@wormsparty: struct MyData {}; = class MyData { public: }; Struct is a class, where the default inherit is public and not private. – Naszta Sep 30 '11 at 12:08
1  
@wormsparty: structs and classes are the same thing in C++ (except for default visibility which is not relevant here), so they do have constructors and destructors. – Konstantin Oznobihin Sep 30 '11 at 12:09

You shouldn't be using malloc() and free() in a C++ program; they're not constructor/destructor-aware.

Use the new and delete operators.

share|improve this answer

That's undefined behavior - memory allocated by malloc() in uninitialized, so using it as a struct containing string objects can lead to anything; I'd expect crashing. Since no-one invokes the destructor before calling free(), string objects won't be destroyed and their buffers will almost definitely leak.

share|improve this answer
    
Can't you use the placement new operator to initialize s1 and s2 in the newly allocated *d? – Alexey Frunze Sep 30 '11 at 12:03
    
@Alex: Yes, you can, but you'll have to deal with possible exceptions yourself. – sharptooth Sep 30 '11 at 12:06
2  
@Alex You can use placement new to construct MyData in the malloc'd memory. In that case you will also need to call ~MyData() explicitly before freeing the memory. – Praetorian Sep 30 '11 at 12:08

Yes, because the constructor and destructor are not called. Use new and delete.

share|improve this answer
    
The constructor of the strings are called since they are both allocated. – wormsparty Sep 30 '11 at 12:04
1  
@wormsparty No, they are not. malloc just allocates memory, no constructor is called. That is what new is for. – ereOn Sep 30 '11 at 12:05
    
@wormsparty: if use malloc, constructor is not called, so string classes constructor are not called, so the result is undefined. – Naszta Sep 30 '11 at 12:06

Even if you manage to initialize s1 and s2 properly, simply doing free(d) won't reclaim any memory dynamically allocated for s1 and s2. You should really create *d through new and destroy through delete, which will ensure proper destruction of s1 and s2 (and initialization as well).

share|improve this answer

Yes, you are probably leaking, and your strings aren't properly constructed, either. The program's behaviour is undefined, meaning everything is going to go wrong.

The closest valid way to do what you're doing is placement new. Still, you'd be better off with some common base class and proper C++ polymorphism.

If the possible types are unrelated, you can use Boost.Any or Boost.Variant.

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