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I am not sure how appropriate is this question, but -

I am curious about how the compiler sets memory aside for an object (allocation of memory) even before it is constructed (before even the constructor is called!).

How does it happen for primitive datatypes?

This sounds a bit naive, but what exactly is it ?

Is it entirely a run time process, or does it (the compiler) have any plans like to do this, to do that, during run-time, which it decides before hand during the compile- time. I have no idea at all!

An object, be it a primitive type, a pointer, or a instance of a big class, occupies a certain known amount of memory. That memory must somehow be set aside for the object. In some circumstances, that set-aside memory is initialized. That initialization is what constructors do. They do not set aside (or allocate) the memory needed to store the object. That step is performed before the constructor is called.

In other words, when does the memory allocation for literally ANY kind of variable happen, in terms of time, at which point? At which step in compilation (or run-time)?

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Memory allocation always happens at run time. Memory reservation, for objects that reside on the stack, or for static variables, happens at compile time (or at run time for C99 VLAs).

Memory for an object's members is always in place before the constructor runs. It is the job of the compiler and its runtime support to ensure that is so.

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Static variables may be given space in the executable file itself (which is then memory-mapped into the process' address space), so they're quite literally allocated at compile-time. :) – jalf Sep 10 '11 at 13:37
Thanks david ... :) But this leads to a small issue . Memory allocation and Memory reservation ! From what you said , I understand that there is a difference between the two . Can you explain it to me ? :) – jsp99 Sep 10 '11 at 13:38
@jalf I've forgotten about that. I've added static variables to the category that I refer to as reserved rather than allocation. – David Heffernan Sep 10 '11 at 13:38
Think about variables on the stack, consider an int for sake of argument. The compiler decides at compile time the location of the int, relative to the function's stack frame. The memory is actually allocated by the system before the function is called, but the compiler has reserved some of it, at a known location, relative to the function's stack frame. So I'd say the difference is that the location (at least relative to stack frame) is known at compile time. For a heap allocated int, the location is only determined at runtime when the allocation executes. – David Heffernan Sep 10 '11 at 13:42
Thanks david :) ... But I want to know it in detail .. Can you suggest me some link or what do i google for precise information regarding the topic ? PS : I tried phrases like " Compiler memory issues " etcetera , but were not of much use !! – jsp99 Sep 10 '11 at 13:52

Allocation objects created with new or new[] or some variant is done at runtime, by accessing the freestore and finding enough space to place the new object, prior to the constructor running.

Allocation for local objects within a function are done at runtime. However, this is usually accomplished by moving a stack pointer the correct size of bytes, and the space between the previous value and the new value is now reserved for the object. The constructors are run after the space is run.

Allocation for global and static objects are done at compile time by the compiler, and their constructors are run when the translation unit they are defined in is loaded (usually before main() begins executing).

Allocation for objects contained directly (not via pointer) within another object is done as part of the allocation for that object.

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I'd say that allocation for local objects for the most part is done at compile time, since the compiler emits machine code that expects the objects to be at a particular offset relative to the current stack frame, and this offset is decided at compile time. – Matteo Italia Sep 10 '11 at 14:09

There's (loosely speaking) three typical scenarios: allocation on the stack, allocation from heap, and static allocation.

The first is what happens whenever you declare a local variable within a function:

void foo ( )
   int bar = 42;

Here, the memory for bar is allocated on the stack. It is allocated at the time foo is called.

The second scenario happens when you create a class instance with the new operator:

void foo ( )
    MyClass* bar = new MyClass( );

Here, the memory for i is allocated on the heap. This again happens at runtime, and occurs as the new operator executes. It works essentially in the same manner a C's malloc, if you're more familiar with that.

Finally, there's static allocation.

void foo ( )
    static int bar = 42;

Here, the compiler knows ahead of time that memory will be needed for bar, and so it inserts into the executable an instruction telling the executable loader to reserve space, or literally makes a space in the executable for the variable to reside in. The memory for bar is therefore typically still allocated at runtime, as the executable loads.

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I doubt that static allocation "literally" takes up space in the executable image. Imagine a global char buf[1000000]; Your executable won't grow by 1MB, but rather, the memory is set aside at load time. – Kerrek SB Sep 10 '11 at 14:33

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