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I've learned Clojure previously and really like the language. I also love Emacs and have hacked some simple stuff with Emacs Lisp. There is one thing which prevents me mentally from doing anything more substantial with Elisp though. It's the concept of dynamic scoping. I'm just scared of it since it's so alien to me and smells like semi-global variables.

So with variable declarations I don't know which things are safe to do and which are dangerous. From what I've understood, variables set with setq fall under dynamic scoping (is that right?) What about let variables? Somewhere I've read that let allows you to do plain lexical scoping, but somewhere else I read that let vars also are dynamically scoped.

I quess my biggest worry is that my code (using setq or let) accidentally breaks some variables from platform or third-party code that I call or that after such call my local variables are messed up accidentally. How can I avoid this?

Are there a few simple rules of thumb that I can just follow and know exactly what happens with the scope without being bitten in some weird, hard-to-debug way?

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Awesome answers, thank you! –  auramo Sep 28 '10 at 11:29
    
Very nice question! –  Pedro Morte Rolo Aug 31 '11 at 0:11
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9 Answers 9

First, elisp has separate variable and function bindings, so some pitfalls of dynamic scoping are not relevant.

Second, you can still use setq to set variables, but the value set does not survive the exit of the dynamic scope it is done in. This isn't, fundamentally, different from lexical scoping, with the difference that with dynamic scoping a setq in a function you call can affect the value you see after the function call.

There's lexical-let, a macro that (essentially) imitates lexical bindings (I believe it does this by walking the body and changing all occurrences of the lexically let variables to a gensymmed name, eventually uninterning the symbol), if you absolutely need to.

I'd say "write code as normal". There are times when the dynamic nature of elisp will bite you, but I've found that in practice that is surprisingly seldom.

Here's an example of what I was saying about setq and dynamically-bound variables (recently evaluated in a nearby scratch buffer):

(let ((a nil))
  (list (let ((a nil))
          (setq a 'value)
          a)
        a))

(value nil)
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Hmm, to me setq seems fundamentally very different than lexical scoping... almost global. I quess my biggest worry is that my code (using setq or let) accidentally breaks some variables from platform or third-party code that I call or that after the call my variables are messed up accidentally. How can I avoid this? With naming conventions? Is it even a relevant fear? –  auramo Sep 24 '10 at 11:04
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In elisp, let establishes a new dynamic binding, anything done to the variable within thta binding stops when the end of the dynamic scope (when the exectution) passes out of the let-block. Function arguments work the same (a new binding is established). –  Vatine Sep 24 '10 at 12:21
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Also, my example shows two dynamic scopes, one inside another, with the inner one modifying the dynamically bound variable and the "outer" binding not being affected. –  Vatine Sep 24 '10 at 12:23
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Are there a few simple rules of thumb that I can just follow and know exactly what happens with the scope without being bitten in some weird, hard-to-debug way?

Read Emacs Lisp Reference, you'll have many details like this one :

  • Special Form: setq [symbol form]... This special form is the most common method of changing a variable's value. Each SYMBOL is given a new value, which is the result of evaluating the corresponding FORM. The most-local existing binding of the symbol is changed.

Here is an example :

(defun foo () (setq tata "foo"))

(defun bar (tata) (setq tata "bar"))


(foo)
(message tata)
    ===> "foo"


(bar tata)
(message tata)
    ===> "foo"
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Thanks, your example and snippet from the reference improved my understanding of the matter. I've read some parts of the reference but somehow never grokked this issue properly before... –  auramo Sep 24 '10 at 11:44
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It isn't that bad.

The main problems can appear with 'free variables' in functions.

(defun foo (a)
  (* a b))

In above function a is a local variable. b is a free variable. In a system with dynamic binding like Emacs Lisp, b will be looked up at runtime. There are now three cases:

  1. b is not defined -> error
  2. b is a local variable bound by some function call in the current dynamic scope -> take that value
  3. b is a global variable -> take that value

The problems can then be:

  • a bound value (global or local) is shadowed by a function call, possibly unwanted
  • an undefined variable is NOT shadowed -> error on access
  • a global variable is NOT shadowed -> picks up the global value, which might be unwanted

In a Lisp with a compiler, compiling the above function might generate a warning that there is a free variable. Typically Common Lisp compilers will do that. An interpreter won't provide that warning, one just will see the effect at runtime.

Advice:

  • make sure that you don't use free variables accidentally
  • make sure that global variables have a special name, so that they are easy to spot in source code, usually *foo-var*

Don't write

(defun foo (a b)
   ...
   (setq c (* a b))  ; where c is a free variable
   ...)

Write:

(defun foo (a b)
   ...
   (let ((c (* a b)))
     ...)
   ...)

Bind all variables you want to use and you want to make sure that they are not bound somewhere else.

That's basically it.

Since GNU Emacs version 24 lexical binding is supported in its Emacs Lisp. See: Lexical Binding, GNU Emacs Lisp Reference Manual.

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Thanks! Looks like your advice will prevent me from accidentally screwing up stuff up the call stack. Still a bit worried about causing trouble further down the call stack... –  auramo Sep 24 '10 at 13:53
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@auramo: if you follow that advice, your code should also work fine down the call stack. –  Rainer Joswig Sep 24 '10 at 14:26
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I entirely feel your pain. I find the lack of lexical binding in emacs rather annoying - especially not being able to use lexical closures, which seems to be a solution I think of a lot, coming from more modern languages.

While I don't have any more advice on working around the lacking features that the previous answers didn't cover yet, I'd like to point out the existance of an emacs branch called `lexbind', implementing lexical binding in a backward-compatible way. In my experience lexical closures are still a little buggy in some circumstances, but that branch appears to a promising approach.

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For anyone coming in late, the lexbind branch was merged and released in Emacs 24. –  phils Sep 23 '13 at 4:25
    
@phils I think that this is a big enough announcement that you'd be justified in commenting on the main question. It will help establish the historical context of this question. –  Joshua Taylor Oct 4 '13 at 18:21
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Dynamic and lexical scoping have different behaviors when a piece of code is used in a different scope than the one it was defined in. In practice, there are two patterns that cover most troublesome cases:

  • A function shadows a global variable, then calls another function that uses that global variable.

    (defvar x 3)
    (defun foo ()
      x)
    (defun bar (x)
      (+ (foo) x))
    (bar 0) ⇒ 0
    

    This doesn't come up often in Emacs because local variables tend to have short names (often single-word) whereas global variables tend to have long names (often prefixed by packagename-). Many standard functions have names that are tempting to use as local variables like list and point, but functions and variables live in separate name spaces are local functions are not used very often.

  • A function is defined in one lexical context and used outside this lexical context because it's passed to a higher-order function.

    (let ((cl-y 10))
      (mapcar* (lambda (elt) (* cl-y elt)) '(1 2 3)))
    ⇒ (10 20 30)
    (let ((cl-x 10))
      (mapcar* (lambda (elt) (* cl-x elt)) '(1 2 3)))
    ⇑ (wrong-type-argument number-or-marker-p (1 2 3))
    

    The error is due to the use of cl-x as a variable name in mapcar* (from the cl package). Note that the cl package uses cl- as a prefix even for its local variables in higher-order functions. This works reasonably well in practice, as long as you take care not to use the same variable as a global name and as a local name, and you don't need to write a recursive higher-order function.

P.S. Emacs Lisp's age isn't the only reason why it's dynamically scoped. True, in those days, lisps tended towards dynamic scoping — Scheme and Common Lisp hadn't really taken on yet. But dynamic scoping is also an asset in a language targeted towards extending a system dynamically: it lets you hook into more places without any special effort. With great power comes great rope to hang yourself: you risk accidentally hooking into a place you didn't know about.

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Thanks, you touched on the naming conventions while other people skipped them. Great! –  auramo Sep 25 '10 at 6:23
1  
I agree on all you said, except perhaps "hadn't really taken on yet". When RMS wrote GNU Emacs Lisp Common Lisp had already existed for a while, likewise Scheme. Emacs predates both, but not Emacs based on Lisp. The design and creation of Emacs Lisp came after Common Lisp and Scheme. –  Drew Aug 20 '11 at 23:06
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In addition to the last paragraph of Gilles answer, here is how RMS argues in favor of dynamic scoping in an extensible system:

Some language designers believe that dynamic binding should be avoided, and explicit argument passing should be used instead. Imagine that function A binds the variable FOO, and calls the function B, which calls the function C, and C uses the value of FOO. Supposedly A should pass the value as an argument to B, which should pass it as an argument to C.

This cannot be done in an extensible system, however, because the author of the system cannot know what all the parameters will be. Imagine that the functions A and C are part of a user extension, while B is part of the standard system. The variable FOO does not exist in the standard system; it is part of the extension. To use explicit argument passing would require adding a new argument to B, which means rewriting B and everything that calls B. In the most common case, B is the editor command dispatcher loop, which is called from an awful number of places.

What's worse, C must also be passed an additional argument. B doesn't refer to C by name (C did not exist when B was written). It probably finds a pointer to C in the command dispatch table. This means that the same call which sometimes calls C might equally well call any editor command definition. So all the editing commands must be rewritten to accept and ignore the additional argument. By now, none of the original system is left!

Personally, I think that if there is a problem with Emacs-Lisp, it is not dynamic scoping per se, but that it is the default, and that it is not possible to achieve lexical scoping without resorting to extensions. In CL, both dynamic and lexical scoping can be used, and -- except for top-level (which is adressed by several deflex-implementations) and globally declared special variables -- the default is lexical scoping. In Clojure, too, you can use both lexical and dynamic scoping.

To quote RMS again:

It is not necessary for dynamic scope to be the only scope rule provided, just useful for it to be available.

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Right. Usually a way to deal with the 'extensibility problem' is to use 'objects'. Instead of adding fields to the parameter list, objects get additional fields. Instead of passing all drawing arguments to a function, pass a drawing context object. Adding a new drawing argument is then adding it to the slots of the class of drawing context. But since Emacs Lisp did not have an object system, that solution also was not available. Even though RMS new the 'Flavors' object system for Lisp. –  Rainer Joswig Sep 27 '10 at 7:42
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The other answers are good at explaining the technical details on how to work with dynamic scoping, so here's my non-technical advice:

Just do it

I've been tinkering with Emacs lisp for 15+ years and don't know that I've ever been bitten by any problems due to the differences between lexical/dynamic scope.

Personally, I've not found the need for closures (I love 'em, just don't need them for Emacs). And, I generally try to avoid global variables in general (whether the scoping was lexical or dynamic).

So I suggest jumping in and writing customizations that suit your needs/desires, chances are you won't have any problems.

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Everything that has been written here is worthwhile. I would add this: get to know Common Lisp -- if nothing else, read about it. CLTL2 presents lexical and dynamic binding well, as do other books. And Common Lisp integrates them well in a single language.

If you "get it" after some exposure to Common Lisp then things will be clearer for you for Emacs Lisp. Emacs 24 uses lexical scoping to a greater extent by default than older versions, but Common Lisp's approach will still be clearer and cleaner (IMHO). Finally, it is definitely the case that dynamic scope is important for Emacs Lisp, for the reasons that RMS and others have emphasized.

So my suggestion is to get to know how Common Lisp deals with this. Try to forget about Scheme, if that is your main mental model of Lisp -- it will limit you more than help you in understanding scoping, funargs, etc. in Emacs Lisp. Emacs Lisp, like Common Lisp, is "dirty and low-down"; it is not Scheme.

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Emacs 24.1 just came out - you can use lexical scope for local vars, eval has a lexical option, and lexically scoped interpreted functions have a new form - masteringemacs.org/articles/2011/12/12/… - under "Lisp Changes in Emacs 24.1" –  Peter Ajtai Jun 11 '12 at 1:48
    
Lexical scoping in Emacs Lisp is still limited. Common Lisp is what I recommend looking at. It should be (but will never be, completely), the model for Emacs Lisp in terms of marrying support for lexical and dynamic binding. –  Drew Sep 23 '13 at 4:12
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As Peter Ajtai pointed out:

Since emacs-24.1 you can enable lexical scoping on a per file basis by putting

;; -*- lexical-binding: t -*-

on top of your elisp file.

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