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Lisp allows you to define symbols such as A and B in a list like

(setf mylist '(+ 1 2 A))

You can then go back at any time and set A to a value, for ex. (set 'A 100). At this point you can do (eval mylist) and get back 103. You can then repeatedly reassign A to any new value.

It seems Lisp is saving both the literal "A" (name of the symbol) and it's assigned value. This allows dynamic variable assignment/reassignment. It's kind of like a look up list. What is the underlying data structure or mechanism that allows this?

EDIT: Specifically, how this done internally (or externally since packages appear to be directly involved)? Looking for an in-depth technical answer that focuses on how it's implemented in Lisp-2.

share|improve this question
What makes you think that it is implemented and has always been implemented in one way? – ControlAltDel Mar 30 '12 at 18:04
From the Stackoverflow FAQ: 'You should only ask practical, answerable questions based on actual problems that you face.' Your question is vague and it is not clear that an answer would help you. It is better to read a book about implementing programming languages. – Rainer Joswig Mar 30 '12 at 19:30
@ Rainer Thanks, I hope it's clearer now. – user922475 Mar 30 '12 at 20:11
Still, start reading by reading a book about programing languages implementation, this is a basic question they answer right away. – Nowhere man Apr 11 '12 at 11:45
up vote 5 down vote accepted

Note that '(+ 1 2 A) is not a variable, but the form (quote (+ 1 2 A)) which evaluates to an object. The A inside the list is a symbol, but it is not a variable.

A variable is a storage location denoted by a symbol.

Re: How does a language like Lisp do this kind of evaluation at run-time?

(Common) Lisp has two kinds of variables: dynamic and lexical. The dynamic variables can be evaluated at run time in the sense that you can take a symbol and determine whether it has a dynamic variable binding, and retrieve or assign that binding.

Lexical variables are the ones that are "baked" at compile time: there is no portable way to reflect over them by name.

Both kinds of variables are useful for different purposes.

A dynamic variable can be stored in a location that is associated with a symbol, called its value cell. (This term actually appears in ANSI Common Lisp). The symbol is used as a kind of key to retrieve the cell (if it has one). For instance a value cell could be the cdr field of some cons cell that is stored in a hash table where the keys are symbols. Various implementations are possible.

There is a complication in that Lisp supports local rebinding of dynamic variables: i.e. you can use let or other binding constructs to create local bindings for dynamic variables which hide any existing binding. When the construct exits (in any manner: including a non-local exit via throw, etc) the hidden binding is restored. This dynamic scoping has to be implemented somehow and it means that a dynamic variable lookup is not necessarily just chasing a pointer from the symbol to a value cell.

A further complication is that users of multi-threaded Lisps want to have per-thread binding of dynamic variables.

There may be more info here:

share|improve this answer
Great answer Kaz. You're right about the symbols vs variables, I edited the qst to be clear that it's about symbols and not variables. So are you saying it's a cons cell stored in a hash table? – user922475 Mar 30 '12 at 20:27
I'm not saying it's a cons stored in a hash table, but it is possible. The value binding could just be a direct pointer from within the symbol object to something resembling a cons. That pointer would be understood to be the symbol's value binding (association with the value cell). (makunbound <symbol>) could overwrite that pointer with nil, making the symbol not have a value cell/binding. (But you always have to keep in mind a view toward the dynamic rebinding, and the possibility of thread-local dynamic variables. These requirements have to be worked into the representation somehow.) – Kaz Mar 31 '12 at 4:23

In Common Lisp symbols are objects in their own right, capable of having named properties with values associated with them. Symbols are created (interned in current package) on read, like so:

> 'a

You can inspect them with (describe 'a) or (inspect 'a) (using CLISP here). You can set this symol with (set 'a 1). But you can also call (defun a (x) (+ 1 x)) after that. Inspecting the symbol 'a now reveals that it holds both a value, and a function definition at the same time. That reflects Common Lisp having separate namespaces for variables' values, and functions. Symbols store this extra information in their property lists:

[19]> (symbol-value 'a)
[20]> (symbol-function 'a)
[21]> (symbol-plist 'a)
 ((DEFUN A (X) (+ X 1)) .

[44]> (setf (get 'a 'prop1) 12)
[45]> (symbol-plist 'a)
 ((DEFUN A (X) (+ X 1)) .

See also

share|improve this answer
VERY interesting Will. A Lisp symbol can define BOTH a value and a compiled function at the same time. – user922475 Mar 31 '12 at 5:50
@annoying_squid yes, that's what's called a Lisp-2. Scheme e.g. is Lisp-1, there is one common namespace for variable names and function names in Scheme. – Will Ness Mar 31 '12 at 8:27
A Lisp symbol can define both a value and a function at the same time, and of course different values in different lexical scopes at the same time and even a dynamic variable and lexical variable at the same time, etc. Not to mention that the same symbol can, at the same time, be the name of a class, class slot, named block, tagbody label, restart, plus the name of some user-defined abstractions like rules in a grammar, etc. – Kaz Apr 1 '12 at 17:33

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