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If I declare an array inside a function, is the memory deallocated upon leaving the function?

I wouldn't have thought so, however, when I declare an array inside a function, write the pointer to the array to a global variable and then attempt (outside the function) to dereference the pointer to an element in the array, I get a memory access violation. I don't get a memory access violation if I use the same code inside the function.

Clarification would be much appreciated.

Thanks in advance.

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2 Answers 2

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An array declared in a function is allocated on the program stack. When your program exits the function, the local variables on the stack are popped and the memory containing the array is no longer accessible. The alternative is to new an array pointer which is allocated on the program heap, will survive the function exit and must subsequently be delete'd or a memory leak will occur.

A fairly general explanation of the program stack is a block of memory set aside to hold the local variables for your functions. When a function is called, the amount of memory required to hold the local variables for the function is pushed on the top of the stack, i.e the stack pointer is moved up by that amount. When the function exits, that exact amount of memory is popped off the top of the stack and the stack pointer moves back down to its previous location prior to the function call. The program heap on the other hand is memory that doesn't have stack semantics and is used when a function requests a new block of memory. The program is then responsible for managing the deallocation of that memory.

Smart pointers are often used in C++ to automatically handle the allocation and deallocation of memory to avoid bugs/memory leaks associated with memory management.

A quick google threw up this explanation of stack versus heap in C++.

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Thanks very much! We were introduced (briefly) to the heap vs stack in an Engineering Programming course I did, however, I don't understand the distinction. Could you please either explain or point me in the direction of any good resources? Thanks again! –  JonaGik Feb 2 '12 at 23:35
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@JonaGik: See stackoverflow.com/q/79923/10077 –  Fred Larson Feb 2 '12 at 23:41
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Think of each variable in the system as plates. When you enter a function, the parameters and local variables are added to the stack of plates where they get dirty and are used. When you leave the function your plates need to be cleaned up, so they get thrown in the sink. The heap is more like a table, with name cards (addresses). You can put any plate on the table with a new and anyone can use it if they know the name (i.e. address), but you eventually have to clean up after yourself with a delete. No one likes a messy table :-) –  Joel Feb 2 '12 at 23:45
    
@Joel so the stack is effectively garbage collected - except all memory is deallocated upon exiting the function? –  JonaGik Feb 3 '12 at 0:16
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@JonaGik: In modern C++, we usually use a smart pointer class, such as unique_ptr or shared_ptr. These objects wrap pointers and perform the delete operation from their destructors. Because new and delete can be tricky to use directly, it's better to use a higher-level construct if you can. –  Potatoswatter Feb 5 '12 at 8:31

All automatic variables are removed after the function exits, including arrays. This would generally be all non-static local variables.

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All automatic variables cease to exist. Local variables can be static, in which case their lifetime extends beyond a single function invocation (until the end of the process, in fact). –  Ben Voigt Feb 2 '12 at 23:50
    
You are correct. Edited. –  Joel Feb 2 '12 at 23:53

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