# Math Expression Evaluation

What is the best way to implement a python program that will take a string and will output its result according to operator precedence (for example: "4+3*5" will output 19). I've googled for ways to solve this problem but they were all too complex, and I'm looking for a (relatively) simple one.

clarification: I need something slightly more advanced than eval() - I want to be able to add other operators (for example a maximum operator - 4\$2 = 4) or, also I am more interested in this academically than professionaly - I want to know how to do this.

If you're "academically interested", you want to learn about how to write a parser with operator precedence.

Simple Top-Down Parsing in Python is a nice article that builds an example parser to do exactly what you want to do: Evaluate mathematical expressions.

I can highly recommend having a go at writing your own first parser -- it's one of those "ah, that's how that works" moments!

• I took a very quick look, and it appears that the article you linked to implements the Interpreter pattern in Python. Commented Oct 9, 2009 at 19:03
• The link returns a 404 error Commented Jan 25, 2023 at 15:37

Another possibility is to look at Pyparsing, which is a general parser builder. It is more powerful than you need, but it may be faster to implement.

• The pyparsing wiki (pyparsing.wikispaces.com) includes a couple of examples of an arithmetic expression parser - fourFn.py and simpleArith.py. Even if you don't use pyparsing, fourFn.py is likely to be enlightening in how such a parser implements operator precedence. Commented Oct 9, 2009 at 23:24
• I just realized that the OP wanted to add other operators. simpleArith.py shows how to add a factorial (!) operator - evalArith.py (at the bottom of the page) expands simpleArith.py and shows how to evaluate the parsed values. Commented Oct 11, 2009 at 14:44

I'm not terribly familiar with Python and any extremely Pythonic methods, but you could look at the Interpreter pattern, which is defined in the Gang of Four book. It's designed for processing a "language", and mathematical expressions do follow a particular language with rules. In fact, the example on Wikipedia is actually a Java implementation of a RPN calculator.

• So their calling parsing a "pattern" now too? This must be the most overused word in computer science... Commented Oct 9, 2009 at 18:41
• @Thomas: That's not more specific than generic parsing, really. I mean, all parsing involves "sentences" of some sort; and any decent parser ia clean/understandable, at least in some form. (See recursive descent as an example.) Also, s/their/they're :P Commented Oct 9, 2009 at 19:10
• Interpreter was an original GOF pattern. The example is the (very) high level design of a simple regex library. It suggests using an AST for the language description, essentially, rather than (maybe as well as) for the parsed input. Should work for recursive descent, but it doesn't cover how to do it. Really, I don't think it should be in the book - you only need one regex library and (maybe) one expression evaluator library, not a pattern. Beyond that its time for lex, yacc and friends.
– user180247
Commented Oct 9, 2009 at 19:29
• @Noldorin: "So their calling parsing a "pattern" now too?" I like how you say that, as if the GoF book was released in the past couple months. The Interpreter pattern is a bit more than parsing. It defines a proven method of reading in data and structuring it in a usable way. I have seen other attempts at parsing that resulted in a garbled mess. Commented Oct 9, 2009 at 19:29
• Hmmm - I may need to retract that "shouldn't be a pattern claim". I keep thinking of other examples. XML parsers, nested-block binary file handlers, declarative event-stream handlers - e.g. game entity AIs and complex configurable GUI controls, ...
– user180247
Commented Oct 9, 2009 at 20:00

That's what the "eval" function does in Python.

``````result = eval(expression)
``````

Beware though it can do a whole lot more, primarily call functions, so to be safe you should make sure it can't access the locals or globals. Also, you can access the builtin methods, including the tricky import so you need to block access to that as well:

``````result = eval(expression, {'__builtins__': None}, {})
``````

But that's only if you need security, that is if you allow anybody to type in any expression.

Of course since you this way block all locla variables from use, then you don't have any variables to use, so to have that you need to pass in just those variables which should be accessed in the dictionaries.

``````vars = {'__builtins__': None, 'x': x}
result = eval(expression, vars, {})
``````

or similar.

• The problem with eval comes when expression = "system.os(rm -rf )". If you run it as root in *nix, boom goes the machine. Or if it's the Windows equivalent, especially since there are far too many people running Windows as Administrator. Commented Oct 9, 2009 at 18:47
• Only if you have done `from os import system` and doesn't provide the globals and locals directory. Which I do in my examples for this reason. Commented Oct 9, 2009 at 18:49
• Inside expression, you can once again import system from os and then use it. So yes, my example would only work if you already import os from system, but by expanding my expression, you can import anything you want and use it. Commented Oct 9, 2009 at 18:51
• @Thomas: if you are running as `root` in a Linux environment or Administrator in Windows land, then you deserve the justice that this results in. Commented Oct 9, 2009 at 18:53
• @D.Shawley: So what about the poor user who isn't running as root and only loses all of his own files -- does he/she deserve what this results in? Commented Oct 9, 2009 at 19:18