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I was reading The Art of Assembly Language (Randall Hyde, link to Amazon) and I tried out a console application in that book. It was a program that created a new console for itself using Win32 API functions. The program contains a procedure called LENSTR, which stores the length of string in the EBP register. The code for this function is as follows:

ENTER 0, 0
MOV   ECX, 100 ; Limit the string length
REPNE SCASB ; Find the 0 character
SUB   EDI, EBX ; String length including 0

RET   4

Could you explain the usage of the enter and leave commands here?

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3 Answers 3

up vote 3 down vote accepted

This is the setup for the stack frame (activation record) for the function. Internally it normally looks something like this:

push( ebp );         // Save a copy of the old EBP value

mov( esp, ebp );     // Get ptr to base of activation record into EBP

sub( NumVars, esp ); // Allocate storage for local variables.

Then when the stack frame is to be destroyed again, you have to do something along the following lines:

   mov( ebp, esp );    // Deallocate locals and clean up stack.

   pop( ebp );         // Restore pointer to caller's activation record.

   ret();              // Return to the caller.

Here is a better explanation of it using HLA. Though it is well explained in the book you're reading, as I have that book too, and I've read the section explaining it.

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not the hla... ;( – BlackBear May 2 '11 at 15:52

Enter creates a stack frame, and leave destroys a stack frame. With the 0,0 parameters on the enter, they're basically equivalent to:

; enter
push ebp
mov ebp, esp

; leave
mov esp, ebp
pop ebp

Although it's not used in the code you posted, enter does support doing a bit more than the simple push/mov combination shown above. The first parameter to enter specifies an amount of space to allocate for local variables. For example, enter 5, 0 is roughly equivalent to:

push ebp
mov ebp, esp
sub esp, 5

Enter also supports languages like Pascal that can use nested functions/procedures:

procedure X;
    procedure Y;
        { ... }
   { ... }

In a case like this, Y has access not only to its own local variables, but also to all variables local to X. These can be nested to arbitrary depth, so you could have a Z inside of Y that had access to its own local variables, and the variables of Y and the variables of X. The second parameter to enter specifies the nesting depth, so X would use enter Sx, 0, Y would use enter Sy, 1 and Z would use enter Sz, 2 (where Sx, Sy and Sz signify the size of variables local to X, Y and Z respectively).

This would create a chain of stack frames to give Z access to variables local to Y and X, and so on. This becomes fairly non-trivial if the functions are recursive, so an invocation of Z can't just walk up the stack to the two most recent stack frames--it needs to skip across stack frames from previous invocations of itself, and go directly back to stack frames for the lexical parent function/procedure, which is different from its caller in the case of recursion.

This complexity is also why C and C++ prohibit nested functions. Given the presence of enter/leave, they're fairly easy to support on Intel processors, but can be considerably more difficult on many other processors that lack such direct support.

This also at least helps explain one other...feature of enter--for the trivial case being used here (i.e., enter 0, 0) it's quite a bit slower than the equivalent using push/mov.

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so are they macros..? – BlackBear May 2 '11 at 15:52
@BlackBear: No, they're instructions, but they're kind of "shorthand" instructions -- you can accomplish the same without them. – Jerry Coffin May 2 '11 at 15:53
ok got it :) (char limit) – BlackBear May 2 '11 at 15:55
@devjeetroy Review all the answers and accept the one that best answered your question. There's a little check box near each answer, click on it to select the official answer to your question. – karlphillip May 2 '11 at 16:03

Enter and leave just setup the stack frame. Usually compilers generate code that directly manipulates the stack frame pointers as enter and leave aren't exactly fast relative to mov/sub (they used to be though, back in the 286 days :-) ).

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No -- they were never faster, just more compact and versatile (they support Pascal-style nested functions). – Jerry Coffin May 2 '11 at 15:30
Interestingly, MASM32 (when local variables are employed) does the entry portion with PUSH/MOV/ADD, but destroys them with LEAVE... – Brian Knoblauch Sep 12 '11 at 17:04
right: enter has overhead to support nested functions, even when you don't use them. leave adds no overhead, and is a bit smaller than the equivalent mov/pop. – Jerry Coffin Sep 12 '11 at 17:10

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