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 unable to resolve a memory-leak in my little program. Some of the code was originally created in Java, so i was "converting" it to c++ (some of those things might seem strange, so if you have a better solution, please let me know - im quite new to OOP in C++). My intention is to create a random heightmap generator. There are 2 memory leaks (found with Visual Leak Detector):

The first one gets triggered here:

-> Mountain* mount = new Mountain(size, Utils::powerOf2Log2(size) - 6, 0.5f, seed);
   ChannelClass* height = mount->toChannel();

Because of this in the "Mountain" class constructor:

channel = new ChannelClass(size, size);

I was trying to use a shutdown method like so:

delete mount;
mount = 0;

With Shutdown() defined as such:

    delete channel;
    channel = 0;

The ShutDown() method of "ChannelClass" is deleting an float array. My initial thought was that maybe "ChannelClass* height = mount->toChannel()" is causing problems there.

If you need more code please let me know! Thanks in advance for any one willing to help!

share|improve this question
In C++, you don't use new. –  Kerrek SB Aug 21 '12 at 17:47
And if you do, you store them in the scoped_ptr. So you don't actually use *. –  Bartek Banachewicz Aug 21 '12 at 17:47
@KerrekSB That's an overly narrowed view! Using new and delete in C++ is perfectly OK as long you know what you're doing. Otherwise you should really explain which of the smart pointer classes should be used instead (and even these will require an instance created with new to be initialized) –  πάντα ῥεῖ Aug 21 '12 at 17:55
@KerrekSB Also creating an instance on the stack might not be appropriate for all situations ... –  πάντα ῥεῖ Aug 21 '12 at 17:57
@g-makulik: If you know what you're doing, you have a maker function a la make_unique! –  Kerrek SB Aug 21 '12 at 18:07

1 Answer 1

up vote 6 down vote accepted

OK, so without more code this is going to be pretty general. These are guidelines (not rules) with the most preferred first.

First, a quick note on C++11: if you don't have it, either replace std::unique_ptr below with std::auto_ptr (although it's deprecated for a reason, so careful with that), or use boost::scoped_ptr instead.

1. Don't use new

If you need to create a (single) mountain and don't need to keep it alive outside the scope where it's declared, just use it as a regular variable with automatic scope:

void automatic_scope(int size, double seed)
    Mountain hill(size, Utils::powerOf2Log2(size) - 6, 0.5f, seed);
    // ... mountainous operations happen here ...
}   // hill is destroyed here - is that ok for you?

Similarly, if a mountain owns a single ChannelClass, which ought to live exactly as long as the mountain which owns it, just do:

class Mountain
    ChannelClass channel;

    Mountain(int size, int powerthing, double something, double seed)
    : channel(size, size) // initialize other members here
        // any more initialization

    ChannelClass& toChannel() { return channel; }

Now the ChannelClass will live exactly as long as the Mountain, everything is destroyed automatically, and no explicit shutdown is needed.

2. Don't use new[]

Similarly, if you need several mountains with only limited scope, just use

void automatic_scope_vector(int size, double seed)
    std::vector<Mountain> hills;
    hills.push_back(Mountain(size, Utils::powerOf2Log2(size) - 6, 0.5f, seed));
    // ... mountainous operations happen here ...
}   // hills are all destroyed here

3. OK, use new after all

Obviously there are valid reasons for using new: one is mentioned already (you need to keep your mountains around longer than the block where you create them).

The other is if you need runtime polymorphism, for example if you have multiple subclasses of Mountain or ChannelClass, but you want to deal in the base classes.

We can illustrate both with a polymorphic factory function:

class Molehill: public Mountain { ... };
class Volcano: public Mountain { ... };

std::unique_ptr<Mountain> make_mountain(int size, double seed, bool is_molehill)
    std::unique_ptr<Mountain> result;
    if (is_molehill)
        result.reset(new Molehill(size, size/2, 0.01f, seed));
        result.reset(new Volcano(size, size*2, 0.5f, seed));
    return result;

void automatic_scope_polymorphic(int size, double seed, bool is_molehill)
    std::unique_ptr<Mountain> hill = make_mountain(size, seed, is_molehill);
    // ... polymorphic mountainous operations happen here ...
}   // hill is destroyed here unless we gave the unique_ptr to someone else

Similarly, if the mountain's ChannelClass needs to be created dynamically, store that in a unique_ptr.

It may also sometimes be helpful where you'd otherwise need to copy objects to pass them around, copying is very expensive, and you can't rely on (or don't yet have) RVO or move semantics. This one's an optimisation though, so don't worry about it unless profiling shows it's a problem.


These C++ idioms are all based on deterministic destruction, and the goal is to avoid writing explicit cleanup code at all.

Delegating memory management to containers (like std::vector) and smart pointers (like std::unique_ptr) avoids the memory leaks that Java tackles with garbage collection. However, it generalises powerfully to RAII where similar automatically-scoped guard objects can automate management of all resources, not just memory. For example, std::lock_guard makes sure mutex locks are correctly released even if a function has multiple return paths, may throw exceptions, etc.

If you do need to write explicit cleanup code: don't write custom shut-down methods you have to call, just put it in the destructor. If possible, push this into low-level guard objects too.

share|improve this answer
Thanks alot! I think i might come to a solution with all those examples. –  puelo Aug 21 '12 at 18:43
Just wanted to write, that was a great answer, +1 –  Justin Aug 21 '12 at 19:45

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.