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I'm having an issue with some code that I'm writing; Whenever I delete the array that I've dynamically allocated my program crashes and throws an error that says "_BLOCK_TYPE_IS_VALID (phead- nblockuse)".

class Shape 
    unsigned int numberOfVertices;
    glm::vec2 *vertexCoords; //openGL 2d vector..

    virtual ~Shape() {}

class Rectangle : public Shape
    unsigned int width;
    unsigned int height;

    void initVertexCoords();

    Rectangle( unsigned int tempWidth, unsigned int tempHeight );

Rectangle::Rectangle( unsigned int tempWidth, unsigned int tempHeight )
    width = tempWidth;
    height = tempHeight;


void Rectangle::initVertexCoords()
    numberOfVertices = 4;

    vertexCoords = new glm::vec2[ numberOfVertices ];    //Dynamic allocation..

    vertexCoords[0].x = -width * 0.5f;
    vertexCoords[0].y = -height * 0.5f;

    vertexCoords[1].x = -width * 0.5f;
    vertexCoords[1].y = height * 0.5f;

    vertexCoords[2].x = width * 0.5f;
    vertexCoords[2].y = height * 0.5f;

    vertexCoords[3].x = width * 0.5f;
    vertexCoords[3].y = -height * 0.5f;

    delete [] vertexCoords; //freeing of dynamically allocated array..
    //program doesn't crash when this destructor is empty!

So, a pointer to a 2D vector is created in Shape (the parent class), and the constructor of the subclass, Rectangle, dynamically allocates an array and stores the address of the first element in that pointer.

However, the program throws a runtime default exception [_BLOCK_TYPE_IS_VALID (phead- nblockuse)] when I try to delete that array in the Rectangle's destructor. When I remove the delete command from the destructor, the program compiles and runs fine. However, I'm concerned about the possibility of memory leaks; and I'd like to learn how to dynamically allocate objects and arrays of objects correctly. I've looked this up for about 2 hours now and I still haven't been able to find a solution.

I assumed that a call to 'new' dynamically allocates a certain amount of memory on the heap and would eventually require that memory to be freed by a call to 'delete'. It stands to reason that something that is allocated within the class constructor (or, in this case, in a class method which is called inside the constructor) should be freed within the class destructor..

I'm still new to C++ and programming in general, so there may be something very simple that I'm overlooking. Please let me know if there is a glaring error in my code that would cause this kind of error. Thanks!

share|improve this question
possible duplicate of What is The Rule of Three? –  juanchopanza Jun 2 '13 at 7:19
Obvious rule of three violation. –  David Schwartz Jun 2 '13 at 7:19
@n.m. There are clearly problems here, but (1) isn't necessarily wrong, (2) isn't the case in the snippet, and doing (4) and (5) is a way of taking unnecessary risk, but it's not wrong as such. –  jogojapan Jun 2 '13 at 9:15
@MrKatSwordfish Actually, yes, the rule of three is likely to be an important part of the solution. If you don't define the copy constructor / assignment operator properly, the default implementation will make a shallow copy of the pointer. When the copied object is destroyed, the destructor will call delete [] on that pointer, and when the original object is destroyed, the destructor will call delete [] again, still on the same pointer. So you need to ensure that a deep copy is made when copying. –  jogojapan Jun 2 '13 at 9:26
Great. Thanks for the clarification, jogo. –  MrKatSwordfish Jun 2 '13 at 9:30

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