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Right off the bat - no, this is NOT homework.

I would like to write a prefix notation parser in python (for sums presently)... for example

if given: + 2 2 it would return: 4


share|improve this question
Any parentheses in the input? –  Cameron Mar 15 '11 at 3:35
It sure looks like homework. What kind of real-world scenario requires prefix notation? –  Marcelo Cantos Mar 15 '11 at 3:39
Writing a FORTH or PostScript interpreter... or an HP calculator emulator... :-) –  kindall Mar 15 '11 at 3:43
i'm writing a simple math language. an example input looks like this: *0%5*1@2%7 where *0 is the primitive 'set', %5 tells it to set the 5th value in an array, *1 is the primitive for 'add', and @2 tells it the second place in the array. i'm just learning python, @Marcelo. chillax. –  tekknolagi Mar 15 '11 at 3:44
Yyyyyyyyyyyyeah, I meant LISP. :-) –  kindall Mar 15 '11 at 4:36

6 Answers 6

up vote 3 down vote accepted
def prefix(input):
  op, num1, num2 = input.split(" ")
  num1 = int(num1)
  num2 = int(num2)
  if op == "+":
    return num1 + num2
  elif op == "*":
    return num1 * num2
    # handle invalid op
    return 0

print prefix("+ 2 2")

prints 4, also included a multiplication operator just to show how to expand it.

share|improve this answer
This is not really an evaluator and does not work for arbitrary prefix expressions (try + + 2 2 4). It only works for the most trivial form of expressions (i.e. that have only one operator and two numeric arguments). –  MAK Mar 15 '11 at 4:35
I'm not claiming to write a full blown evaluator, I was strictly making something for him to start off with. –  Mike Lewis Mar 15 '11 at 4:43
This also does not validate the entire expression. If the 2nd and 3rd tokens being split are not numbers then they will raise an exception. –  pokstad Mar 15 '11 at 4:46

Based on other answers, but with less logic.

import operator

def eval_prefix(tokens):
    operators = {'+': operator.add, '-': operator.sub, '/': operator.truediv, 
                 '*': operator.mul, '%': operator.mod}

    stack = []
    for i in reversed(tokens):
        if i in operators:
            stack[-2] = operators[i](int(stack[-1]), int(stack[-2]))
            del stack[-1]
    return stack[0]
share|improve this answer

Here's what I worked up. It keeps a stack of the operators. As it receives sufficient numbers it pops an operator and evaluates the sub-expression.

# Bring in the system module to get command line parameters
import sys

# This function takes in some binary operator, which is just an arbitrary
#  string, and two values.  It looks up the method associated with the
#  operator, passes the two values into that method, and returns the
#  method's result.
def eval_expression(operator, value_one, value_two):
  if operator == "+":
    return value_one + value_two
  elif operator == "-":
    return value_one - value_two
  elif operator == "*":
    return value_one * value_two
  elif operator == "/":
    return value_one / value_two
  # Add new operators here.  For example a modulus operator could be
  #  created as follows:
  #       elif operator == "mod":
  #         return value_one % value_two
    raise Exception(operator, "Unknown operator")

# This function takes in a string representing a prefix equation to
#  evaluate and returns the result.  The equation's values and
#  operators are space delimited.
def calculate( equation ):
  # Gather the equation tokens
  tokens = equation.split( " " )

  # Initialize the evaluation stack.  This will contain the operators
  #  with index 0 always containing the next operator to utilize.  As
  #  values become available an operator will be removed and
  #  eval_expression called to calculate the result.
  eval_stack = [ ]
  total = None

  # Process all the equation tokens
  for token in tokens:
    if token.isdigit():
      # Save the first value.  Subsequent values trigger the evaluation
      #  of the next operator applied to the total and next values
      token = int(token)
      if total is None:
        total = token
        total = eval_expression(eval_stack.pop(0), total, token)

      # Save the new operator to the evaluation stack
      eval_stack.insert(0, token)

  # Done!  Provide the equation's value
  return total

# If running standalone pass the first command line parameter as
#  an expression and print the result.  Example:
#       python prefix.py "+ / 6 2 3 - 6"
if __name__ == '__main__':
  print calculate( sys.argv[1] )

I like MAK's recursive function too.

share|improve this answer
+1 This is the way to do it. –  pokstad Mar 15 '11 at 4:56
can i get an explanation of what this code does? (beginner, and a walkthrough of this would be amazing) –  tekknolagi Mar 16 '11 at 3:54
Look up recursion, this code recursively evaluates your math expressions. It will constantly call the same function over and over again until it reaches a base condition that will cause it to return an actual value. A very elegant solution. –  pokstad Mar 16 '11 at 8:27
Added some comments. Hopefully they help you. This isn't using recursion. It's just an iterative function using an array as a LIFO queue to store the operands and remove the need for recursion. –  Avilo Mar 16 '11 at 17:29

Reverse the tokens and use a stack machine like the following:

def prefix_eval(tokens):
    stack = []
    for t in reversed(tokens):
        if   t == '+': stack[-2:] = [stack[-1] + stack[-2]]
        elif t == '-': stack[-2:] = [stack[-1] - stack[-2]]
        elif t == '*': stack[-2:] = [stack[-1] * stack[-2]]
        elif t == '/': stack[-2:] = [stack[-1] / stack[-2]]
        else: stack.append(t)
    assert len(stack) == 1, 'Malformed expression'
    return stack[0]

>>> prefix_eval(['+', 2, 2])
>>> prefix_eval(['-', '*', 3, 7, '/', 20, 4])

Note that stack[-1] and stack[-2] are reversed with respect to a normal stack machine. This is to accommodate the fact that it's really a prefix notation in reverse.

I should explain the several Python idioms I've used:

  1. stack = []: There is no built-in stack object in Python, but lists are easily conscripted for the same purpose.
  2. stack[-1] and stack[-2]: Python supports negative indices. stack[-2] refers to the second-last element of the list.
  3. stack[-2:] = ...: This assignment combines two idioms in addition to negative indexing:
    1. Slicing: A[x:y] refers to all the elements of A from x to y, including x but excluding y (e.g., A[3:5] refers to elements 3 and 4). An omitted number implies either the start or the end of the list. Therefore, stack[-2:] refers to every element from the second-last to the end of the list, i.e., the last two elements.
    2. Slice assignment: Python allows you to assign to a slice, which has the effect of splicing a new list in place of the elements referred to by the slice.

Putting it all together, stack[-2:] = [stack[-1] + stack[-2]] adds together the last two elements of the stack, creates a single-element list from the sum, and assigns this list to the slice comprising the two numbers. The net effect is to replace the two topmost numbers on the stack with their sum.

If you want to start with a string, a simple front-end parser will do the trick:

def string_eval(expr):
    import re
    return prefix_eval([t if t in '+-*/' else int(t)
                        for t in re.split(r'\s+', expr)])

>>> string_eval('/ 15 - 6 3')
share|improve this answer
? i'm still a beginner...what's a stack? and tokens? –  tekknolagi Mar 15 '11 at 5:29
@tekknolagi: tokens are small chunks of source text that a parser and compiler treat as indivisible. For example, in the Python code stack[-2:] = [stack[-1] + stack[-2]], the tokens are: stack, [, -, 2, :, ], =, [, stack, [, -, 1, ], +, stack, [, -, 2, ], and ]. Note that the spaces in the original expression don't appear, since they merely serve to delimit tokens (and are actually redundant in this instance). Some languages treat -2 as a single token, but more usually it is parsed as the negation operator followed by a nonnegative integer. –  Marcelo Cantos Mar 15 '11 at 8:35

Prefix notation can be very easily evaluated recursively. You basically see the first token and if it is a '+' you evaluate the sub-expressions that follow to get the values to be added and just add them up. If it is a number, you just return the number.

The following code assumes that the input is nicely formatted and is a valid expression.

#! /usr/bin/env python
from collections import deque
def parse(tokens):
    if token=='+':
            return parse(tokens)+parse(tokens)
    elif token=='-':
            return parse(tokens)-parse(tokens)
    elif token=='*':
            return parse(tokens)*parse(tokens)
    elif token=='/':
            return parse(tokens)/parse(tokens)
            # must be just a number
            return int(token)

if __name__=='__main__':
        expression="+ 2 2"
        print parse(deque(expression.split()))
share|improve this answer
assume it has nested expressions but in my code format... *1*2%3%1%5 would evaluate to (prefix): (+ (- 3 1) 5)... how would i parse it then? –  tekknolagi Mar 15 '11 at 4:36
@teknolagi: why would you need parentheses in a prefix expression? The order of evaluation is unambiguous. This code should work fine with + + 3 1 5. Right now it only supports +, but you can easily add cases for - and other operators. –  MAK Mar 15 '11 at 4:39
@teknolagi: Edited it so that it works for subtraction, multiplication and division as well. Your test case should work now. –  MAK Mar 15 '11 at 4:47

regex that ish:

import re
prefix_re = re.compile(r"(+|-|*|/)\s+(\d+)\s+(\d+)")
for line in get_lines_to_parse():
    match = prefix_re.match(line)
    if match:
        operand = match.group(1)
    if operand == '+':
        return int(match.group(2))+int(match.group(3))
    elif operand == '-':
        return int(match.group(2))-int(match.group(3))
share|improve this answer
why the need for re? –  tekknolagi Mar 15 '11 at 4:17
It validates your entire expression to make sure the numbers are numbers and the symbols are in the right spot. The split method you chose does not guarantee that the expression is correctly formatted. –  pokstad Mar 15 '11 at 4:44

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