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I am writing a small calculator (with prefix notation) and I'm curious how I'd convert prefix notation to infix notation. I currently have a function, but it's being weird, and I'm not sure how to fix it. By being weird, I mean that if given ['+', x, y] it will return (() + x + () + y) which is confusing me. Here's the code.

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

What am I doing wrong?

share|improve this question
I don't understand the problem (and your code). If I have foo = ['+', x, y], the expression [foo[1], foo[0], foo[2]] will result in [x, '+', y]. Isn't that what you want? In case of nested expressions, you'd have to do simple recursion. Maybe you should give a clearer and more complex example of your input and expected output. – Björn Pollex Jun 27 '11 at 20:12
you could also try using a stack, that is a common way of doing prefix<->infix, the stack would also solve nested expressions. – Hunter McMillen Jun 27 '11 at 20:13
appears to be related to previous question by same guy: – Warren P Jun 27 '11 at 20:15
Space_C0wb0y: i was aiming for something that can handle multiple terms, like ['+', 2, 3, 4, 5] would yield 2 + 3 + 4 + 5 – tekknolagi Jun 27 '11 at 20:22
@Warren actually no. this is about prefix, the other was about postfix. i'm rethinking the structure of the language – tekknolagi Jun 27 '11 at 20:22
up vote 2 down vote accepted

Actually your code works fine.

print pre_in ( ['+', 8, 9] )


(8 + 9)

EDIT: As the others have stated, maybe you want to use a stack. Here a simple sandbox implementation with some examples (it produces many parenthesis but those don't hurt):

class Calculator:
    def __init__ (self):
        self.stack = []

    def push (self, p):
        if p in ['+', '-', '*', '/']:
            op1 = self.stack.pop ()
            op2 = self.stack.pop ()
            self.stack.append ('(%s %s %s)' % (op1, p, op2) )
        elif p == '!':
            op = self.stack.pop ()
            self.stack.append ('%s!' % (op) )
        elif p in ['sin', 'cos', 'tan']:
            op = self.stack.pop ()
            self.stack.append ('%s(%s)' % (p, op) )
            self.stack.append (p)

    def convert (self, l):
        l.reverse ()
        for e in l:
            self.push (e)
        return self.stack.pop ()

c = Calculator ()

print c.convert ( ['+', 8, 9] )
print c.convert ( ['!', 42] )
print c.convert ( ['sin', 'pi'] )
print c.convert ( ['+', 'sin', '/', 'x', 2, 'cos', '/', 'x', 3] )
share|improve this answer
i normally run it on expressions with variables, like: ['+', x, y] – tekknolagi Jun 27 '11 at 20:20
Also x = 8; y = 9; print pre_in ( ['+', x, y] ) runs fine. – Hyperboreus Jun 27 '11 at 20:23
oh...weird. what the..... – tekknolagi Jun 27 '11 at 20:23
@tekknolagi Please take a look at my edit. – Hyperboreus Jun 27 '11 at 20:41
Aren't / x + y z and / + y z x equivalent? – Hyperboreus Jun 28 '11 at 15:28

At the risk of being a bit overkill for this kind of simple parsing/conversion jobs, you may want to look at pyparsing.

(I'm busy at this time, but tomorrow I'll post a pyparse-based example that implement the prefix/infix conversion described in the question.)

share|improve this answer

If your aim is not to develop the algorithm on your own, go to this page. There are links to two pages which explain the infix->postfix and postfix->infix algorithm. (And also, if you want to know how the algorithms are implemented in javascript, you can take a look at the source code of the page.)

share|improve this answer

Here's a fairly simple recursive solution.

def prefix_to_infix(expr):
    if type(expr) != type([]):
        # The expression is a number or variable.
        return str(expr)
    elif len(expr) == 2:
        # This is an operator expression with 1 argument.
        return str(expr[1])
        # This is an operator expression with 2 or more arguments.
        operator = expr[0]
        left_arg = prefix_to_infix([operator] + expr[1:-1])
        right_arg = prefix_to_infix(expr[-1])
        return "({0}{1}{2})".format(left_arg, operator, right_arg)

# prefix_to_infix(['+',1,2,3,4,5]) = '((((1+2)+3)+4)+5)'
# prefix_to_infix(['+',1,2,['*',3,4,5],6,7,8]) = '(((((1+2)+(3*4*5))+6)+7)+8)'
share|improve this answer
But with trig functions and such? – tekknolagi Jun 22 '12 at 21:09
I was working under the assumption that the syntax for your prefix expressions were of the form ['operator', arg1, arg2, ... ,argN]. I also assumed that all operators were binary operators and left associative. It wouldn't really make sense to make trig functions in infix notation but maybe I'm just misunderstanding your question. – martega Jun 23 '12 at 0:43
Ah, I see. Good point – tekknolagi Jun 23 '12 at 4:39

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