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This is not a problem, just a question that I want to be answered.

I'm making 2D application that has particles. In the click handler I've written this code:

Particle *tempp = new Particle();
tempp->setPosition(mx, my);
particles.push_back(tempp); // typeof particles = std::list<Particle*>
delete tempp; // <- this line is the problem

When I click, one particle will be created at the mouse position. After about one second it should disappears, which works fine. After it's disappeared I can click again to create a new particle.

However, when I click while there still is one particle on the screen, my program freezes and stops working.

My destructor of the Particle class and it's parent's destructor are both empty.

WITHOUT calling delete my program runs fine, even with multiple particles at once, or even multiple per frame. I am just wondering what is causing this freezing issue.

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You are adding a pointer to tempp to the vector - what does it point to after tempp is deleted? –  Mark May 9 '13 at 15:03
Why are you pushing tempp into a list and then deleting it the line after? Your list contains pointer to garbage and any attempt to access them will probably cause your program to crash. –  Tomer Arazy May 9 '13 at 15:04
So the pointer to tempp still exists after the end of the method is reached? And if I delete it, the memory will be overwritten? –  Broxzier May 9 '13 at 15:23
@Broxzier Your list is not local to the function and hence exists even outside the method. When you do delete the actual memory allocated is freed(available for re-use// it might be overwritten , just be there. BUT its not there for you to use and its UB to dereference it) the pointer still contains the address. list is not out of scope so it still has the pointer with the address. You are probably dereferencing the deleted memory address (possibly for drawing the point on the screen or maybe tryin to erase it after the timeout and that freezes it) –  SuvP May 9 '13 at 15:30

5 Answers 5

up vote 4 down vote accepted

Based on the posted code, the particles container will contain dangling pointers. Any attempt to dereference these is undefined behaviour. I am assuming they are later being used, otherwise the storage of them seems pointless.

Calling push_back() does not copy the pointed-to-object but copies the value of the pointer (the memory address of the dynamically allocated object). If Particle is cheap to copy, is copyable and polymorphic behaviour is unrequired just store the Particle in the container. Otherwise, suggest using a smart pointer, such as std::unique_ptr, to automatically destruct the Particle when removed from the container.

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Why does creating a second point(while 1st one still exists) cause an issue? The click handler will be invoked at every call , it seems tempp is local to the function and a new memory allocation will take place. (I agree about the dangling pointers) –  SuvP May 9 '13 at 15:12
@SuvP, the first one does not exist as it has been deleted immediately. If the creation of the second PArticle accesses one of the dangling pointers in particles then is undefined behaviour, and the probable cause of the behaviour. –  hmjd May 9 '13 at 15:15
Looking at the current code and assuming nothing else happens elsewhere, The list is not utilised anywhere else. (The OP justs adds the address and deletes the memory //unrealistic i know)then it shouldnt be a problem? (apart from the dangling pointer). So maybe the OP is accessing the list somewhere else, that might be causing the issue? [Just want to clear my doubt properly ] –  SuvP May 9 '13 at 15:19
@SuvP, yes. Pointers to deallocated memory are not themselves a problem, you can print the address of a pointer that points to deallocated memory. What you cannot do is dreference a pointer that points to deallocated memory (or unallocated memory). Somewhere else in the code it probably dereference one of the pointers added to the container. –  hmjd May 9 '13 at 15:23
@Broxzier, the rest of the code is unavailable to me but a bug would be any code that attempts to use (dereference) any of the pointers in particles. –  hmjd May 9 '13 at 15:30

When you push the pointer into the list, you only push a copy of the actual pointer and do not make a copy of what it points to. This means that after the push_back you have two pointers pointing to the same memory.

If you then free that memory, then you have a pointer pointing to free memory, and that pointer is now invalid.

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When I see new and then a few lines later delete, I would rather see the stack used. Unless Particle is enormous (which I doubt) you could change your code to this:

Particle tempp;
tempp.setPosition(mx, my);
particles.push_back(tempp); // change particles to std::list<Particle>

Presto. You write less code and you won't blow up.

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Thanks for answering. That works, ofcourse, but I wanted to know what was causing the problem in this situation, not a solution. Without calling delete or using changing the vector to store actual particles it already worked fine. –  Broxzier May 9 '13 at 15:35
@Broxzier it didn't work fine, it just didn't blow up. Whatever you new, you must delete. Your code with new and no delete was leaking memory. These days we have a lot, so it doesn't hurt you, but it doesn't work fine. There is no reason to use the heap in this case and it's best to use good habits whenever you can. Stack semantics should always be your first choice in C++ –  Kate Gregory May 9 '13 at 15:55

The solution I believe, lies in your 3rd line of code. Note that particles is a vector of pointers to Particles? Well, in the 3rd line, you create a copy of the pointer and insert it into a list. On the very next line, you deallocate the memory that is pointed-to by that pointer. The list does not store your particle - it merely stores the memory address of the particle So, when you delete the particle, you tell the compiler to re-use the memory that contains your valid data.

So, while commenting the 4th line makes the problem go away, it's not actually crashing there - there's no reason for it to. The likely scenario is that it crashes when trying to do something with the memory that used to be yours, but was freed in line 3.

You could make the list store actual Particles as a fix.

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You are putting a pointer into the container and then deleting it which is a problem. push_back will copy the value of the pointer not the contents of the pointer so when you call delete, the pointer in the container is no longer valid. So now you have a dangling pointer and when you dereference it this will be undefined behavior but most likely a crash.

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