I'm making a toy Lisp interpreter in JavaScript. JS has no tail recursion elimination (TRE), so I implemented TRE using while loop in JS (pseudocode):
function eval (exp, env)
while true
if exp is self evaluating
return exp
else if ...
...
else if exp is a function call
procedure = eval(car(exp), env)
arguments = eval_operands(cdr(exp), env)
exp = procedure.body
env = extend_env(procedure.env, env)
continue # tail call
So I am happy, and tail-recursive functions like the following one do not run out of stack:
(define +
(lambda (n m)
(cond ((zero? n) m)
(else (+ (sub1 n) (add1 m))))))
(+ 10000 1) ;=> 10001
However, functions that are not tail-recursive, run out of JS stack (because JS code recurs too much on eval_operands
):
(define +
(lambda (n m)
(cond ((zero? n) m)
(else (add1 (+ (sub1 n) m))))) ; not proper tail-recursive
(+ 10000 1) ;=> JS: Maximum call stack size exceeded
How do I deal with non-tail-recursive functions? What are the options? What are good resources? I have read a bit about trampolining, stack externalising and continuation-passing style, but all I could find is how to write code in those styles, not how to use those techniques for writing interpreter.