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I have a class like this:

class Object {
    unsigned char data[8];
    // other variables
    // functions etc...

The question is - are the object members all stored in the same place in memory relative to the object? So if I have an array: Object array[3], given a char pointer char* data_ptr = array[0].data, will data_ptr + (sizeof(Object)) then always point to array[1].data?

(I've read a couple of Q/As about how there might be padding inbetween data members of classes and structs - but I don't think they answer my question.)

Thanks in advance, Ben

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up vote 4 down vote accepted

sizeof Object already includes all internal padding of the class Object. including any padding at its end. Arrays don't allow any additional padding. Therefore it is true that data_ptr + sizeof Object will have the address of array[1].data.

However I'm not sure if this is actually allowed. That is, the compiler might be allowed to assume that you never add a value larger than 8 (the size of the member array data) to array[0].data, and therefore it might apply optimizations that fail if you violate the rules. That is, your code might actually exhibit undefined behavior (which is the standard term for "the compiler is allowed to do anything in this case").

However since you are using a pointer to char, for which there are more permissive rules (you can do many things with char* which you could not do with general types), it may be that it's actually defined behaviour anyway.

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while char* can be good for generic data, isn't unsigned char* or uint8_t the method of choice for raw byte access? – MartyE Aug 19 '12 at 10:02
It is true that for accessing raw bytes, unsigned char+ or uint8_t is the better choice (because on non 2's complement machines, there are two representations of zero). However the more permissive rules also apply for char. And in this special case, no raw byte access happens; the array the pointer ultimately points to is an array of char again. – celtschk Aug 19 '12 at 10:07
I don't understand your second paragraph (why 8?) (sorry - I'm new to c++!). It seems to work for me at the moment (using it to copy unsigned char values from one array to another) but I obviously want to make sure problems won't surface in the future! – user1483596 Aug 19 '12 at 10:34
@user1483596: 8 because you've defined the member data as char data[8]. That is, adding 8 to array[0].data gives you the one-past-end pointer of that member array, which is of course allowed. Adding anything larger means you leave the array, which might be undefined behaviour (which means the compiler is allowed to do whatever it wants in that case, and therefore optimizations may go wrong if you do it). – celtschk Aug 19 '12 at 10:41
Oh I see - thanks for the warning! – user1483596 Aug 19 '12 at 10:45

If the aim of your question is to understand how things are in memory, then it is acceptable.

But if you want to do that for real: What you want to do is actually criminal against all your colleagues.

The proper way to go through collection in C++ is not to use an array, but an std::vector, or another std collection if it is really needed. We shouuld no longer use C arithmetics, but access the items of the vector collection through an iterator. That's the reason of the C++ standard library :-)

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I'll investigate iterators - haven't used them before (I'm new to c++). The reason I went for this pointer method is because I need to copy the elements of data from thousands of objects to another array, which I then draw using opengl. – user1483596 Aug 19 '12 at 10:30
you can also instanciate an std::vector on a C array: I will post the code below my answer just for your information to show you how to do. I do advise you to learn how to use the std library. Slowly / at your pace it's ok, welcome to c++ ;-) – Stephane Rolland Aug 19 '12 at 10:34
too bad, I have spoken too early... although it's easy to have a standard c-array from a std::vector (pointing on it's first element, and considering it's size), on the contrary I have not found a way to have a new std::vector pointing on an already existing array ( which is what you are supplied with opengl as I understand): impossible to do so without copying the content of the array, which is probably ineficient for big arrays as you can have with images. – Stephane Rolland Aug 19 '12 at 11:06
No problem - I'll investigate myself. I already have an Array class as a wrapper round a pure array, I'll see how easily I can change it to wrap std::vector instead. – user1483596 Aug 19 '12 at 11:21

I think the answer is "Maybe", which means you should not bet on this. Best way would be to play around on your IDE debugger looking up memory addresses. You'll find this could easily get thrown off when you introduce having members and methods that the compiler can optimize. For example any constants or a method that doesn't access any members that could be static. Ex:

void Object::doSomething() {std::cout << "something\n" << std::endl;}

I believe this actually gets optimized into the static allocation because I recently learned that this ((Object)NULL).doSomething(); actually works without a SEGFAULT until you introduce a member variable for Object.

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Interesting - two identical classes with the data array as in my question, one with a print function and one without have the same size. But the pointer arithmetic still seems to work as expected... – user1483596 Aug 19 '12 at 10:38

There are many factors that decide the size of an object of a class in C++. These factors are: - Size of all non-static data members - Order of data members - Byte alignment or byte padding - Size of its immediate base class - The existence of virtual function(s) (Dynamic polymorphism using virtual functions). - Compiler being used - Mode of inheritance (virtual inheritance)

check here:

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While it is true that the size of objcts can be determined by quite complex rules, those are quite irrelevant in this special case because the array comtains complete objects (you cannot define an array of incomplete objects), and therefore sizeof Object already includes any padding, hidden members or what else. – celtschk Aug 19 '12 at 10:09

Yes, the layout relative to the object's base address will be constant. This is a requirement for the ABI. Any spacing or padding of objects and arrays is also specified by the ABI.

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