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It seems that I get the idea of call stack in programming language design. But I cannot find (probably, I just don't search hard enough) any decent explanation of what stack frame is.

So I would like to ask someone to explain it to me in a few words.

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3 Answers 3

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A stack frame is a frame of data that gets pushed onto the stack. In the case of a call stack, a stack frame would represent a function call and its argument data.

If I remember correctly, the function return address is pushed onto the stack first, then the arguments and space for local variables. Together, they make the "frame," although this is likely architecture-dependent. The processor knows how many bytes are in each frame and moves the stack pointer accordingly as frames are pushed and popped off the stack.

EDIT:

There is a big difference between higher-level call stacks and the processor's call stack.

When we talk about a processor's call stack, we are talking about working with addresses and values at the byte/word level in assembly or machine code. There are "call stacks" when talking about higher-level languages, but they are a debugging/runtime tool managed by the runtime environment so that you can log what went wrong with your program (at a high level). At this level, things like line numbers and method and class names are often known. By the time the processor gets the code, it has absolutely no concept of these things.

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Very detailed. Helps a lot. –  CDT Apr 28 '13 at 10:15

A quick wrap up. Maybe someone has a better explanation.

A call stack is composed of 1 or many several stack frames. Each stack frame corresponds to a call to a function or procedure which has not yet terminated with a return.

To use a stack frame, a thread keeps two pointers, one is called the Stack Pointer (SP), and the other is called the Frame Pointer (FP). SP always points to the "top" of the stack, and FP always points to the "top" of the frame. Additionally, the thread also maintains a program counter (PC) which points to the next instruction to be executed.

The following are stored on the stack: local variables and temporaries, actual parameters of the current instruction (procedure, function, etc.)

There are different calling conventions regarding the cleaning of the stack.

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Don't forget that the subroutine's return address goes on the stack. –  Tony R Apr 7 '12 at 19:53
    
Thanks Tony R for the comment. I knew that I was missing something. :) –  xebo Apr 7 '12 at 20:29

"A call stack is composed of stack frames..." — Wikipedia

A stack frame is a thing that you put on the stack. They are data structures that contain information about subroutines to call.

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Sorry, I have no idea how I missed this on wiki. Thanks. Do I understand correctly, that in dynamic languages the size of the frame is not a constant value since the locals of the function are not exactly known? –  ikostia Apr 7 '12 at 19:18
    
The size and nature of a frame is heavily dependent on the machine's architecture. In fact, the very paradigm of a call stack is architecture-specific. As far as I know it's always variable because different function calls will have different amounts of argument data. –  Tony R Apr 7 '12 at 19:21
    
Note that the size of the stack frame must be known by the processor when it's being manipulated. When this is happening, the size of the data is already determined. Dynamic languages are compiled to machine code just like static languages, but are often done just-in-time so that the compiler can maintain the dynamism and the processor can work with "known" frame sizes. Don't confuse higher-level languages with machine code/assembly, which is where this stuff is actually happening. –  Tony R Apr 7 '12 at 19:31
    
Well, but dynamic languages also have their call stacks, don't they? I mean, if, say, Python wants to execute some procedure, the data about this procedure is stored inside of some Python interpreter's structure, am I correct? So I mean that call stack is present not only at a low level. –  ikostia Apr 7 '12 at 19:43
    
After reading a bit of that wikipedia article, I stand corrected (a bit). The size of the stack frame can remain unknown at compile time. But by the time the processor is working with stack + frame pointers, it has to know what the sizes are. The size can be variable but the processor knows the size, is what I was trying to say. –  Tony R Apr 7 '12 at 19:45

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