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Does emacs lisp have a function that provides a unique object identifier, such as e.g. a memory address? Python has id(), which returns an integer guaranteed to be unique among presently existing objects. What about elisp?

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What is it for? –  Nicolas Dudebout Aug 25 '12 at 19:44
@NicolasDudebout: I guess it's used to index hash-tables, balanced trees, ... –  Stefan Aug 26 '12 at 3:04
It is quite difficult to define a general unique object identifier in a language with garbage collection. Particularly, an object's memory address is not as good as it seems to be as a unique identifier. Actually, id([1, 2]) == id([3, 4]) evaluates to True in the CPython REPL because [1, 2] is garbage-collected and [3, 4] happens to be allocated at the same address as [1, 2]. –  dkim Aug 26 '12 at 4:17
Actually, the reason is not for indexing but for printing. So for example, printing two different symbols with the same name yields the same result, but if we could print a numeric object identifier, we'd be able to tell from the output whether two symbols referred to at different points in a program were in fact the same object. –  nbtrap Aug 26 '12 at 11:50
I don't think that's right. (eq 'symbol-1 (make-symbol "symbol-1")) yields nil. Certainly, seeing an object's numeric identifier could be helpful when dealing with uninterned symbols. –  nbtrap Aug 26 '12 at 16:13

3 Answers 3

The only reason I know for wanting a function like id() is to compare objects, and ensure that they only compare equal if they are the same (as in, in the same memory location). In Lisps, this is done a bit differently from in Python:

In most lisps, including elisp, there are several different notions of equality. The most expensive, and weakest equivalence is equal. This is not what you want, since two lists (say) are equal if they have the same elements (tested recursively with equal). As such

(equal (list 1 2) (list 1 2)) => T

is true. At the other end of the spectrum is eq, which tests "identity" rather than equality:

(eq (list 1 2) (list 1 2)) => NIL

This is what you want, I think.

So, it seems that Python works by providing one equality test, and then a function that gives you a memory location for each object, which then can be compared as integers. In Elisp (and at least Common Lisp too), on the other hand, there is more than one meaning of "equality".

Note, there is also "eql", which lies somewhere between the two.

(EDIT: My original answer probably wasn't clear enough about why the distinction between eq and equal probably solves the problem the original poster was having)

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Please could the person who down-voted this answer explain what's wrong with it? The only possible reason I can see to look for an id() equivalent is to compare objects with respect to it. My answer explains the way to do that in Emacs lisp. –  Rupert Swarbrick Aug 25 '12 at 18:48
I've just edited the answer: hopefully it makes it more clear why it addresses the OP's question. –  Rupert Swarbrick Aug 25 '12 at 18:51
Python also provides a separate operator, is‌​, that compares the identity of two objects. But I agree that eq (and is in Python) is likely what the OP really needs in many cases. –  dkim Aug 25 '12 at 21:46
I already know about elisp's eq and Python's is. The thing that's particular to Python's is is that it lets you print two different numeric representations of objects that have the same repr. –  nbtrap Aug 26 '12 at 11:52

There is no such feature in Emacs Lisp, as far as I know. If you only need equality, use eq, which performs a pointer comparison behind the scenes. If you need a printable unique identifier, use gensym from the cl package. If you need a unique identifier to serve as an index in a data structure, use gensym (or maintain your own unique id — gensym is simpler and less error-prone).

Some languages bake a unique id into every object, but this has a cost: either every object needs extra memory to store the id, or the id is derived from the address of the object, which precludes modifying the address. Python chooses to pay the cost, Emacs chooses not to.

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up vote 2 down vote accepted

My whole point in asking the question was that I was looking for a way to distinguish between the printed representations of different symbols that have the same name. Thanks to the elisp manual, I've discovered the variable print-gensym, which, when non-nil, causes #: to be prepended to uninterned symbols printed. Moreover, if the same call to print prints the same uninterned symbol more than once, it will mark the first one with #N= and subsequent ones with `#N#. This is exactly the kind of functionality I was looking for. For example:

(setq print-gensym t)
  ==> t
(make-symbol "foo")
  ==> #:foo
(setq a (make-symbol "foo"))
  ==> #:foo
(cons a a)
  ==> (#1=#:foo . #1#)
(setq b (make-symbol "foo"))
  ==> #:foo
(cons a b)
  ==> (#:foo . #:foo)

The #: notation works for read as well:

(setq a '#:foo)
  ==> #:foo
(symbol-name a)
  ==> "foo"

Note the ' on '#:foo--the #: notation is a symbol-literal. Without the ', the uninterned symbol is evaluated:

(symbol-name '#:foo)
  ==> "foo"
(symbol-name #:foo)
 ==> (void-variable #:foo)
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