# recursively computing expression python

``````s = 'abs(multiply(4,add(-4,2)))'
``````

and will eventually reach

``````s = 8
``````

Currently, when I test my code, I reach the print statement and I get

``````'abc(multiply(4,-2))'
``````

However if I wanted to do this recursively and continue the function, I get this error:

``````Traceback (most recent call last):
File "test.py", line 44, in <module>
print eval_expr(s)
File "test.py", line 41, in eval_expr
return eval_expr(new_expr)
File "test.py", line 37, in eval_expr
new_expr = str(rest + _2 + value + arg1[arg1.find(')') + 1:])
UnboundLocalError: local variable 'value' referenced before assignment
``````

I'm not sure why I am getting this error. Could someone be an extra pair of eyes and point out why please? Thank you!

code:

``````from operator import mul, sub, abs, add

def eval_expr(expr):
op,_1,arg1 = expr.rpartition('(')
rest,_2,thisop = op.rpartition(',')
args = arg1.rstrip(')').split(',')
j = map(int, args)

elif thisop == 'subtract':
value = str(sub(j[0],j[1]))
elif thisop == 'multiply':
value = str(mul(j[0], j[1]))
elif thisop == 'abs':
value = str(abs(j[0]))

new_expr = str(rest + _2 + value + arg1[arg1.find(')') + 1:])

print "new expr: " + new_expr
#if rest:
#   return eval_expr(new_expr)

print eval_expr(s)
``````

update

Right now my code gets stuck at the 2nd iteration. The first iteration results in

``````op = 'abs(multiply(4,add'
_1 = '('
arg1 = '-4,2)))'

rest = 'abs(multiply(4'
_2 = ','

args = ['4','-2']
j = [4,-2]
``````

The second iteration is (using the new expression `'abc(multiply(4,-2))'`

``````op = 'abs(multiply'
_1 = '('
arg1 = '4,-2))'

#Now I dont get any values for rest and _2 but thisop, args, and j are:

thisop = 'abs(multiply'
args = ['4','-2']
j = [4,-2]
``````

I think this is due to the operators inside operators or having 2 integers insider operators.

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Please see the last edit to my answer, which simplifies a bit the code. –  Hyperboreus Nov 29 '13 at 16:58
@Hyperboreus your answer has helped tremendously! thank you so much!! –  Liondancer Nov 30 '13 at 0:55

Just another approach: If each of your functions has a fixed number of arguments, you can do away with all the parentheses and commata and use a stack to process it. No need for recursion, searching for commata and parentheses, etc:

``````def parse (s):
#Just throwing away all parentheses and commata
s = s.replace ('(', ' ').replace (')', ' ').replace (',', ' ')
#Return reversed polish notation
return s.split () [::-1]

def evaluate (ops):
stack = []
while ops:
op = ops [0]
ops = ops [1:]
try:
stack.append (int (op) )
continue
except: pass
try:
stack.append (float (op) )
continue
except: pass
arg1, arg2 = stack.pop (), stack.pop ()
stack.append (arg1 + arg2)
continue
if op == 'multiply':
arg1, arg2 = stack.pop (), stack.pop ()
stack.append (arg1 * arg2)
continue
if op == 'abs':
arg1 = stack.pop ()
stack.append (abs (arg1) )
continue
raise Exception ('Unkown instruction "{}".'.format (op) )
return stack [0]

print (evaluate (ops) )
print (evaluate (ops) )
``````

Even if you have var-adic functions, those can be transcribed into n-adic ones. E.g. `add(1,2,3,4)` can be written using dyadic `add` as `add add add 1 2 3 4`.

I will expand a bit this example. At some point all the `if`-statements will just make you code illegible. But you can define a class for operatores, defining its number of arguments and its result:

``````class Operator:
def __init__ (self, argc, f):
self.argc = argc
self.f = f

def __call__ (self, *args):
return self.f (*args)
``````

Now you can make your `evaluate` function a bit neater. Here a working example for calculating fibonacci numbers:

``````#! /usr/bin/python3

from random import randrange

class Operator:
def __init__ (self, argc, f):
self.argc = argc
self.f = f

def __call__ (self, *args):
return self.f (*args)

def parse (s):
s = s.replace ('(', ' ').replace (')', ' ').replace (',', ' ')
return s.split () [::-1]

def evaluate (ops):
stack = []
while ops:
op = ops [0]
ops = ops [1:]
try:
stack.append (int (op) )
continue
except: pass
try:
stack.append (float (op) )
continue
except: pass
try:
operator = operators [op]
except:
raise Exception ('Unkown operator {}'.format (op) )
args = [stack.pop () for _ in range (operator.argc) ]
stack.append (operator (*args) )
return stack [0]

operators = {
'add': Operator (2, lambda a, b: a + b),
'sub': Operator (2, lambda a, b: a - b),
'mul': Operator (2, lambda a, b: a * b),
'div': Operator (2, lambda a, b: a / b),
'pow': Operator (2, lambda a, b: a ** b),
'floor': Operator (1, lambda a: int (a) ),
'abs': Operator (1, lambda a: abs (a) ),
}

n = int (input ('Which fibonacci number do you want: ') )
fib = 'floor add div pow div add 1 pow 5 .5 2 {} pow 5 .5 .5'.format (n)
ops = parse (fib)
print ('F({}) = {}'.format (n, evaluate (ops) ) )
``````
-

I assume that you know about "eval" function, and you're writing it for fun, or to learn by-hand creation of parsers.

``````local variable 'value' referenced before assignment
``````

means that you try using 'value' before it was declared. I know, you declared it in if...elseif..., but apparently none of those conditions worked, so no assignment to 'value' was performed. In the end, there is no 'value' in local namespace! You should check 'thisop' value, to find out what it contains, you probably missed some parenthesis stripping or smth like that.

Good luck.

-
okay I'll have another look –  Liondancer Nov 29 '13 at 15:24
You are correct. Now time to solve this =/ –  Liondancer Nov 29 '13 at 15:27
Please mark the answer as "accepted" so @FilipMalczak gets the reputation credit for it :-) –  Tim Pierce Nov 29 '13 at 16:35

Your `value` is undefined, You say `if elif elif elif` , but you have no final else, (and in that case you will get that error since you do not say what value is in that case)

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