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void func()
   int arr[5]={1,2,3,4,5};
   int variable = arr[1];       //variable will be set to 2

when this program is executed there will be contiguous memory equivalent of 5 integers is allocated in stack area of virtual address space as shown below for the array of 5 integers.

   |   | a[0]
   |   | a[1]
   |   | a[2]
   |   | a[3]
   |   | a[4]

Is there a space somewhere in the virtual address space (in code/data/stack/heap segment) allocated for the array variable arr itself and not the array of 5 integers?

If not allocated, then-

Consider the code snippet - int variable = arr[1]; which will be converted by compiler as *(arr+1) and will be present in code segment of the address space, which is read-only.

How does the arr is evaluated to the starting address of the array arr during every function call func? Since each time the function is invoked the address of the call-stack could change, hence the address for the array arr also changes. So without having separate space for the array variable arr how can this be achieved?

marked as duplicate by Antti Haapala c Jan 21 '18 at 12:02

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

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    It's allocated on the stack with a known offset. – Eli Korvigo Jan 21 '18 at 7:53
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    Your diagram shows the memory allocation of arr - it is five ints contiguously in memory – M.M Jan 21 '18 at 8:48
  • Yes, every time you enter the function, the array can get allocated at a different place in memory (on the stack, but "stack" is considered an implementation detail). What's the problem with that? Why would *(arr+1) have to be a constant expression, evaluated at compile time? Why would there be a problem with getting a pointer to a stack location? The standard only tells you that the array ceases to exist after it leaves its scope, and you shouldn't let the pointer go past the scope. But your question seems to incorrectly assume that pointers to things have to be compile-time constants. – Groo Jan 21 '18 at 9:17
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    @DarshanL int arr[5]; declares and defines an array object named arr whose size is 5 * sizeof(int) and whose address is &arr, just the same way as int variable declares and defines an int object named variable whose size is 1 * sizeof(int) and that resides at address &variable. The first duplicate target clarifies that the arr is not a pointer just as variable is not a pointer. And when you realize that arr and variable behave allocation-wise exactly alike, you'd then find the answers in the second question sufficient. – Antti Haapala Jan 21 '18 at 12:22
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    There are 2 questions that I've linked here, since you really have 2 questions. The first one Is an array name a pointer? answers the question ~ is there memory allocated for the array itself (i.e. you mean is it a pointer) => no. Then the second question answers: how do compilers assign memory addresses to variables? the second part of your questoin. – Antti Haapala Jan 21 '18 at 12:40

How does the arr is evaluated to the starting address of the array arr during every function call func?

On a typical implementation on the x86 architecture, arr's location will depend either on the stack pointer (esp) or the frame pointer (ebp), i.e.: it will be defined in terms of one of those pointer registers by applying a fixed offset.

What may be different for each call to func() is the value of those pointer registers, and not how arr is defined in terms of those (i.e.: the fixed offset).

  • Okay. So mean to say the code snippet - *(arr+1) is further synthesized to *((registerPointingToStackFrame_+_offsetToArrayInTheFunc) + 1), right? So when the instruction is executed, it fetches the starting address of the stackframe from a particular register and add the offset to reach out to the array's starting index without even storing it(the address of the array) explicitly in some memory. – Darshan L Jan 21 '18 at 12:02
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    @DarshanL What may change between function calls is the value of registerPointingToStackFrame_. The _offsetToArrayInTheFunc is generated at compile-time and it is fixed. I would suggest you to see the generated code in assembly. – El Profesor Jan 21 '18 at 12:09
  • @DarshanL "without even storing it(the address of the array) explicitly in some memory" -> On the x86 arch it doesn't need to (not even to store it in another CPU register), because the arch supports a specific addressing mode for that: "Base plus index plus offset". It is like: [BaseReg+Offset+IndexReg] (Offset is constant). That way the address of the element of the array to be accessed can be directly encoded in the instruction. – El Profesor Jan 21 '18 at 12:22

There is a thing called symbol table in compiler construction. The symbol table stores the name arr and an address (which may be an offset based on the process's address space). Then whenever compiler see this arr[1] it generates necessary assembly code to have a MOV or LOAD instruction from the memory address meant by *(arr+1). The arithmetic of +1 is done by the compiler determining the type it points to. And the symbol table is used to keep the memory address information of the variables. (For example:- In case of function the stack frame allocated to it dictates what the address will be for the starting of the contiguous memory which we designate by the name of the arr - that's why it will change too as the memory allotted to a function may vary on each call to it).

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