# Parent eval (reader) function in Clojure source?

In Peter Norvig's epic tome Paradigms of Artifical Intelligence Programming in Chapter 7 - he describes a function `interp` which is effectively a simple `eval` function used when interpreting a bare-bones Scheme in a REPL.

``````(defun interp (x &optional env)
"Interpret (evaluate) the expression x in the environment env."
(cond
((symbolp x) (get-var x env))
((atom x) x)
((case (first x)
(QUOTE  (second x))
(BEGIN  (last1 (mapcar #'(lambda (y) (interp y env))
(rest x))))
(SET!   (set-var! (second x) (interp (third x) env) env))
(IF     (if (interp (second x) env)
(interp (third x) env)
(interp (fourth x) env)))
(LAMBDA (let ((parms (second x))
#'(lambda (&rest args)
(interp code (extend-env parms args env)))))
(t      ;; a procedure application
(apply (interp (first x) env)
(mapcar #'(lambda (v) (interp v env))
(rest x))))))))
``````

Interestingly enough - the opening Chapter of Christian Queinnec's Lisp In Small Pieces has a very similar function, he calls it `eval`.

``````;;; This is a naive evaluator for Scheme written in naive Scheme.

(define (evaluate e env)
(if (atom? e)
(cond ((symbol? e) (lookup e env))
((or (number? e) (string? e) (char? e)
(boolean? e) (vector? e) )
e )
(else (wrong "Cannot evaluate" e)) )
(case (car e)
((if)     (if (evaluate (cadr e) env)
((begin)  (eprogn (cdr e) env))
((lambda) (make-function (cadr e) (cddr e) env))
(else     (invoke (evaluate (car e) env)
(evlis (cdr e) env) )) ) ) )
``````

My question is - where is the Clojure source is the equivalent `eval`/`interp` function? I assume it is in the reader code somewhere.

You mean, what's Clojure's `eval` procedure? That'd be clojure.core/eval. This link from the documentation shows how evaluation occurs:

• Interactively, in the REPL
• Programmatically, via `eval`

If you're interested in the actual source code, take a look at Clojure's `core.clj` file. In particular, the code for `eval` looks like this:

``````(defn eval
"Evaluates the form data structure (not text!) and returns the result."
[form] (. clojure.lang.Compiler (eval form)))
``````

In turn, the `eval` method from the `Compiler` class (referenced in the above snippet, and residing in the Compiler.java file) looks like this:

``````public static Object eval(Object form) throws Exception{
{
}
try
{
Integer line = (Integer) LINE.deref();
if(RT.meta(form) != null && RT.meta(form).containsKey(RT.LINE_KEY))
line = (Integer) RT.meta(form).valAt(RT.LINE_KEY);
try
{
form = macroexpand(form);
if(form instanceof IPersistentCollection && Util.equals(RT.first(form), DO))
{
ISeq s = RT.next(form);
for(; RT.next(s) != null; s = RT.next(s))
eval(RT.first(s));
return eval(RT.first(s));
}
else if(form instanceof IPersistentCollection
&& !(RT.first(form) instanceof Symbol
&& ((Symbol) RT.first(form)).name.startsWith("def")))
{
FnExpr fexpr = (FnExpr) analyze(C.EXPRESSION, RT.list(FN, PersistentVector.EMPTY, form), "eval");
IFn fn = (IFn) fexpr.eval();
return fn.invoke();
}
else
{
Expr expr = analyze(C.EVAL, form);
return expr.eval();
}
}
finally
{
}
}
catch(Throwable e)
{
if(!(e instanceof CompilerException))
throw new CompilerException((String) SOURCE.deref(), (Integer) LINE.deref(), e);
else
throw (CompilerException) e;
}
finally
{
• @hawkeye That's right, ClojureScript doesn't have `eval`. This post explains the reasons in detail – Óscar López May 6 '12 at 23:06