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2 points by almkglor 6068 days ago | link | parent

I see.

It does indeed seem to be a mark-and-sweep. Generally though most GC's will handle the heap: they allocate one big bunch of memory via malloc() and allocate from that.

"Mark" means to determine if a memory area is accessible. Usually this means setting some sort of bit or variable for each memory area. After you've marked all reachable memory, you perform a "sweep": any unmarked memory is freed.

A slightly-more-efficient algorithm than mark-and-sweep is mark-and-don't-sweep (obviously because you skip the "sweep" step), but this requires us to handle the heap directly. Here's an explanation:

Each memory area in the heap has a "free/in-use" bit. This bit's sense of "free" can vary. For example, at any one time, all "free/in-use" bits may have the meaning:

  0 = FREE
  1 = IN-USE
At another time, however, the meaning might be:

  0 = IN-USE
  1 = FREE
The magic here is the way the free/in-use bit is interpreted by the memory manager.

Let's start with the following assumption:

  MEANING:
  0 = FREE
  1 = IN-USE
  +---------+--------------+---+------------+---------------+-------+
  |    0    |       1      | 1 |     0      |      1        |   1   |
  +---------+--------------+---+------------+---------------+-------+
   ^
   Alloc pointer
Now, suppose the application requests for memory. The allocator moves the alloc pointer and marks the memory allocated as "in-use".

  +---+-----+--------------+---+------------+---------------+-------+
  | 1 |  0  |       1      | 1 |     0      |      1        |   1   |
  +---+-----+--------------+---+------------+---------------+-------+
   |   ^
   v   alloc pointer
  returned
Now suppose we allocate a bit of memory that is too large for the current free memory pointed at the alloc pointer:

     |-------| <- I need something this big
  +---+-----+--------------+---+------------+---------------+-------+
  | 1 |  0  |       1      | 1 |     0      |      1        |   1   |
  +---+-----+--------------+---+------------+---------------+-------+
       ^
       alloc pointer
Obviously, we have to skip the free memory that's too small. However, let me introduce an invariant: everything to the left of the alloc pointer must be in-use. So if ever we skip free memory that's too small, we still mark it in-use, but we don't return it (obviously, it's too small!). Instead we continue over to the next free memory and see if that is large enough, and so on.

In this case the very next portion of memory is available:

                               |-------| <- I need something this big
  +---+-----+--------------+---+-------+----+---------------+-------+
  | 1 |  1  |       1      | 1 |   1   |  0 |      1        |   1   |
  +---+-----+--------------+---+-------+----+---------------+-------+
                                |       ^alloc pointer
                                v
                                returned
And so on, until we consume the heap:

  +---+-----+--------------+---+-------+----+---------------+-------+
  | 1 |  1  |       1      | 1 |   1   |  1 |      1        |   1   |
  +---+-----+--------------+---+-------+----+---------------+-------+
..which now requires garbage collection.

Then the magic here comes in: we flip the meaning of the free/in-use bit. This frees everyone!

  MEANING:
  0 = IN-USE
  1 = FREE
  +---+-----+--------------+---+-------+----+---------------+-------+
  | 1 |  1  |       1      | 1 |   1   |  1 |      1        |   1   |
  +---+-----+--------------+---+-------+----+---------------+-------+
Then we begin the "mark" step, specifying reachable memory areas as in-use:

  +---+-----+--------------+---+-------+----+---------------+-------+
  | 0 |  1  |       0      | 1 |   0   |  1 |      1        |   1   |
  +---+-----+--------------+---+-------+----+---------------+-------+
       ^alloc pointer
...and afterwards... uhh... well.... we just allocate as normal, except the meaning of 0/1 of the free/in-use bit has flipped. "Don't sweep". Thus our sweep step is part of our allocation.

As an aside: I've started writing an 'eval function for use with macros in arc2c. This is done by creating a new "eval" function using (make-eval) in make-eval.arc. It's not done yet though.

My plan is that for each compilation run, we (make-eval) a new version of 'eval. Why? Because we want to protect the global environment.

For example, the user code might want to use the following macro:

  (mac xe body
    `(tag (div class 'xe)
        ,@body))
Unfortunately, 'xe is a function defined and used by arc2c. If we were to simply 'eval all 'mac forms, then user code could thrash arc2c.

Instead, we create a "protected" eval. This eval, when used, will prevent writes to global variables. Instead, writes to global variables will mutate a global-variable table, not the "real" global variables.

However, it's not done yet, there are a bunch of TODO's floating around. And unfortunately, I might not be able to do this for a week. Or maybe two weeks, or maybe a month.

A friend of mine has a pretty big personal Real Life(TM) problem (it involves, like nearly every big personal RL problem, a member of the opposite sex). I'll need to help him for now. Sorry.

(the guy will, usa embassy willing, be in san francisco, california, usa a month from now. he's had to borrow quite a bit from his friends too, so we're all pretty tapped out and can't accompany him. err. just wondering if someone near there could keep an eye on him.)

The code for the 'eval interpreter is on github. Anyone who wants to try continuing it is welcome to do so. You're even welcome to completely dismantle that bit and start some other way of doing macros.

Bye for now, AmkG

^^



1 point by sacado 6067 days ago | link

That looks clever, and not too complicated... I'll try to implement it when I'll have enough time... As a matter of fact, dealing with heap space myself would let me reduce the size of closure objects (I wouldn't need to know the # of arguments they hold anymore).

Well, good luck with your friend, and see you soon !

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