# Equation parsing in Python

How can I (easily) take a string such as "sin(x)*x^2" which might be entered by a user at runtime and produce a Python function that could be evaluated for any value of x?

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Python's own internal compiler can parse this, if you use Python notation.

If your change the notation slightly, you'll be happier.

import compiler
eq= "sin(x)*x**2"
ast= compiler.parse( eq )


You get an abstract syntax tree that you can work with.

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Can you add a sample code on how to use the derived function? – Don May 9 '11 at 10:49
@Don: You don't need to use the syntax tree. Use the original function. eval("sin(x)*x**2") after setting x and using from math import *. – S.Lott May 9 '11 at 11:05
eval() works, but the answer doesn't actually solve the problem :( – James Broadhead Feb 2 '12 at 15:44
import compiler doesn't work with Python 3.3 Could you please update your answer + tags to make sure the reader know which one it is about. It's a good question and should have the relevant tags covered. – ha9u63ar Nov 12 '14 at 21:58
@hagubear the replacement of the compiler module for python 3 is described here: stackoverflow.com/questions/909092/… – Andre Holzner Nov 18 '14 at 20:55

You might consider this interesting:

"SymPy is a Python library for symbolic mathematics" http://sympy.org/

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You can use Python parser:

import parser
formula = "sin(x)*x**2"
code = parser.expr(formula).compile()

from math import sin
x = 10
print eval(code)


It performs better than pure eval.

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pyparsing might do what you want (http://pyparsing.wikispaces.com/) especially if the strings are from an untrusted source.

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 f = parser.parse('sin(x)*x^2').to_pyfunc()


Where parser could be defined using PLY, pyparsing, builtin tokenizer, parser, ast.

Don't use eval on user input.

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To emphasize J.F. Sebastian's advice, 'eval' and even the 'compiler' solutions can be open to subtle security holes. How trustworthy is the input? With 'compiler' you can at least filter out things like getattr lookups from the AST, but I've found it's easier to use PLY or pyparsing for this sort of thing than it is to secure the result of letting Python help out.

Also, 'compiler' is clumsy and hard to use. It's deprecated and removed in 3.0. You should use the 'ast' module (added in 2.6, available in 2.5 as '_ast').

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In agreement with vartec. I would use SymPy - in particular the lambdify function should do exactly what you want.

for a very nice explanation of this.

Best wishes,

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Sage is intended as matlab replacement and in intro videos it's demonstrated how similar to yours cases are handled. They seem to be supporting a wide range of approaches. Since the code is open-source you could browse and see for yourself how the authors handle such cases.

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