Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

First: yes, i have taken a very long look at Norvig's lispy. Second: I have reused part of his code. Third: if you are one of those people that idolizes him, I know him, so feel free to ask me to tell him something.

On to my code, and my question. I am writing a really non-idiomatic lisp interpreter in Python, and I'm curious as to how I would write nested function definitions (e.g. (define square (lambda (x) (* x x))) then (define SoS (lambda (x y) (+ (square x) (square y))))) and currently that doesn't work. I'm a bit stuck. What can I do?

EDIT: Any tips about my coding style or improvements I could make would be greatly appreciated. Thank you!

"""

FIX NESTED DEFINITIONS!

(def square (lambda (x) (* x x)))
(def SoS (lambda x y) (+ (square x) (square y)))

DOES NOT WORK!

"""


#!/usr/bin/python
import readline, sys, shlex
userFuncs   = {}
userVars    = {}
stdOps      = "% * / - + set!".split()


def lispify(nested_lists):
    return str(nested_lists).replace('[','(').replace(']',')').replace(', ',' ').replace("'",'')

def mul_arr(array):
    tot = 1
    for i in array: tot *= i
    return tot

def div_arr(array):
    tot = array[0]
    for i in array[1:]: tot /= i
    return tot

def sub_arr(array):
    print array
    if len(array) > 1: tot = array[0]
    else: tot = 0-array[0]
    for i in array[1:]: tot -= i
    return tot

def atom(tok):
    try: return int(tok)
    except:
        try: return float(tok)
        except: return str(tok)

def pre_in(read):
    tempOp = read[0]
    body = read[1:]
    expr = []
    for i in range(len(body)-1):
        if not isinstance(body[i], list) and body[i] != " ":
            expr.append(str(body[i]))
            expr.append(tempOp)
        else:
            expr.append(str(pre_in(body[i])))
            expr.append(tempOp)
    try:
        if not isinstance(body[-1], list): expr.append(str(body[-1]))
        else: expr.append(str(pre_in(body[-1])))
    except: pass
    if expr != None: return "("+' '.join(expr)+")"

def tok(s):
    try: return shlex.split(s.replace('(',' ( ').replace(')',' ) '))
    except: return s.replace('(',' ( ').replace(')',' ) ').split()

def read_from(toks):
    if len(toks) == 0: raise SyntaxError('unexpected EOF')
    tok = toks.pop(0)
    if tok == "'":
        l = []
        toks.pop(0)
        while toks[0] != ")": l.append(read_from(toks))
        toks.pop(0)
        return lispify(l)
    if tok == '(':
        l = []
        while toks[0] != ')': l.append(read_from(toks))
        toks.pop(0)
        return l
    elif tok == ')': raise SyntaxError('unexpected \')\'')
    else: return atom(tok)

def total_eval(read):
    if isinstance(read, int):
        return read
    elif isinstance(read, str):
        if read not in stdOps:
            if read in userVars:
                return atom(userVars[read])
            else:
                return str(atom(read))
    elif isinstance(read, list):
        if read[0] in userFuncs:
            print read[0]+" = "+userFuncs[read[0]]
            exec(read[0]+" = "+userFuncs[read[0]])
            return eval(read[0]+str(tuple(read[1:])))
        elif read[0] == "+":
            return sum([float(total_eval(i)) for i in read[1:]])
        elif read[0] == "*":
            return mul_arr([float(total_eval(i)) for i in read[1:]])
        elif read[0] == "/":
            return div_arr([float(total_eval(i)) for i in read[1:]])
        elif read[0] == "-":
            return sub_arr([float(total_eval(i)) for i in read[1:]])
        elif read[0] == "set!" or read[0] == "setf":
            userVars[read[1]] = total_eval(read[2])
            return "ok"
        elif read[0] == "lambda":
            tempvars    = ','.join(i.replace(',','') for i in read[1])
            expr        = read[2]
            return "lambda "+str(tempvars)+": "+pre_in(expr)
        elif read[0] == "def" or read[0] == "define" or read[0] == "defun":
            funcName = read[1]
            funcBody = read[2]
            userFuncs[funcName] = total_eval(funcBody)
            return "ok"
        elif read[0] == "cons":
            body = read[1:]
            arr = body[0]
            to_push = body[1]
            if not isinstance(arr, list):
                arr = [arr]
            for i in to_push:
                arr.append(i)
            return lispify(arr)
        elif read[0] == "append":
            body = read[1:]
            main = body[0]
            tail = body[1:]
            for i in tail:
                if i != []:
                    main.append(i)
            #print main
            return lispify(main)
        elif read[0] == "list":
            return lispify(str([total_eval(read[1:][i]) for i in range(len(read[1:]))]))
        elif read[0] == "\'" or read[0] == "quote":
            return lispify(read[1:][0])
        elif read[0] == "print":
            return total_eval(read[1:][0])
        elif not isinstance(read[0], list):
            if read[0] in userFuncs:
                args = read[1:]
                exec(read[0]+" = "+userFuncs[read[0]])
                return eval(read[0]+str(tuple([float(i) for i in args])))
        else:
            if read[0][0] == "lambda":
                tempvars    = ','.join(i.replace(',','') for i in read[0][1])
                expr        = read[0][2]
                exec("temp = lambda "+str(tempvars)+": "+str(pre_in(expr)))
                args = read[1:] if len(read[1:]) > 1 else read[1]
                if isinstance(args, list): return eval("temp"+str(tuple([total_eval(i) for i in args])))
                else: return eval("temp("+str(float(args))+")")
"""
while 1:
    try:
        a = raw_input("lisp>   ")
        try:
            print tok(a)
            print read_from(tok(a))
            print total_eval(read_from(tok(a))),"\n"
        except:
            errorMsg = str(sys.exc_info()[1]).split()
            if errorMsg[0] == "list":
                print "ParseError: mismatched parentheses\n"
            else:
                print ' '.join(errorMsg)
                print
    except (EOFError, KeyboardInterrupt):
        print "\nbye!"
        break
"""
while 1:
    a = raw_input("lisp>   ")
    #print tok(a)
    #print read_from(tok(a))
    print total_eval(read_from(tok(a)))
    print
#"""
share|improve this question
    
You've got to perform a lambda lifting first, prior to the interpretation. Otherwise you'd never get static scoping right. –  SK-logic Jun 28 '11 at 9:33
1  
Tell Norvig he got it backwards. We need Python implemented in Lisp to get better performance out of it ;-) –  phkahler Jul 3 '11 at 20:22
    
SK-logic: what do you mean? please explain :) –  tekknolagi Jul 28 '11 at 5:55

2 Answers 2

up vote 2 down vote accepted

Have a look at the output of pre_in:

>>> pre_in(read_from(tok("(+ (square x) (square y))")))
'((x) + (y))'

That should be '(square(x) + square(y))'.

(By the way, your example code contains a syntax error. SoS should be defined as (lambda (x y) (+ (square x) (square y))).)

share|improve this answer

in read_from you have the following line twice:

while toks[0] != ")": l.append(read_from(toks))

One of them should proabbly be :

while toks[0] != "'": l.append(read_from(toks))

Few suggestions/tips:

share|improve this answer
6  
A single quote isn't usually paired with another single quote in Lisp. –  Matthias Benkard Jun 28 '11 at 10:13

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.