Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I am new to Python objects and have a lot of questions. I need to pass a function to my object, and then evaluate the function. The code is similar to this:

from sympy import var

class eval:
    def __init__(self, M):
        self.M = M

    def fun(self, x):
        M = self.M
        print M(x)

x = var('x')

ak = eval(x+2)

This is the error:

Traceback (most recent call last)
(ipython-input-1-b7ef311bd1f0> in <module)()
     13 ak = eval(x+2)
---> 14

(ipython-input-1-b7ef311bd1f0) in fun(self, x)
      7     def fun(self, x):
      8         M = self.M
----> 9         print M(x)
     11 x = var('x')

TypeError: 'Add' object is not callable
share|improve this question
what is the error? edit your question and include the full traceback. – J.F. Sebastian May 26 '13 at 2:30
I'm really confused as to why you're naming your class eval, considering that is a builtin function. Also, what are you trying to do with x = var('x')? – James May 26 '13 at 2:37
This code isn't raising any exception for me. – Cairnarvon May 26 '13 at 2:38
@Imagine: x = var("x") is one way to create a symbolic variable named "x" in the sympy library. – DSM May 26 '13 at 2:44
@F.N.B. Yes, you can pass a function as an argument to the object. However, x+2 returns an Add object, which is not a function -- that is why it complains about '.. is not callable'. However I don't know enough about SymPy to know why this is. – kampu May 26 '13 at 2:49

3 Answers 3

up vote 7 down vote accepted

I am new to Python objects...

Having questions is great, but the objects and classes behind SymPy are quite complex and learning the basics of the Python object model before delving in such a library is strongly encouraged.

There are many issues with the suggested code:

Purely language related errors

  • eval is build-in so it is bad style to overwrite it
  • using old-style classes

Using SymPy as if it is some language extension

SymPy does not provide new syntax for creating python functions. Especially, (x+2)(4) is not going to give you 6. If you want this just write myfun = lambda _: _+2; fun(4) without using SymPy.

x+2 is a SymPy object (Add(Symbol('x')+Integer(2))), not some python AST. You can substitute x for something else with (x+2).subs(x,y) but you can not expect the library to magically know that you have something special in mind for Symbol('x') when you write (x+2)(4). You can as well write blah = Symbol('random_string'); (blah+2)(4).

Minor SymPy errors

var is a helper function used to create Symbol objects, but it is meant for interactive use in the interpreter. Do not use it in library code because as a side effect it injects global variables in the namespace. Just use Symbol('x').

Now about x+2 being callable

In 0.7.2 recursive calling was implemented. What this means is that you can create a SymPy Expr tree that contains unevaluated symbolic objects and apply the whole tree on another object, the calls propagating inwards until all unevaluated objects are substituted with evaluated ones. I guess the above description is not clear so here is an example:

You want to create a differential operator object D which can do the following:

>>> op = g(y)*D # where g is Function and y is Symbol
>>> op(f(x))

The way this works is to go down the tree (Mul(g(y), D) in this case), skip evaluated symbolic objects and evaluate unevaluated symbolic objects.

Because a lot of SymPy's users start using it before reading about the data model this caused a lot of confusion, so we moved the recursive calling scheme to the rc method. In 0.7.3 (x+2)(4) will raise errors again.

share|improve this answer
+1 for "about x+2 being callable" part. eval is not a keyword. It is a builtin name that refers to a builtin function. Add(Symbol('x'), Integer(2)) looks like (non-Python) AST. Compare it with Python AST for x + 2: BinOp(left=Name(id='x', ctx=Load()), op=Add(), right=Num(n=2)). (x + 2)(4) can be interpreted e.g., (_ + 2)(4) == 6 where _ is from It might not make sense in the context of sympy for some other reason but it can be done without new syntax (it doesn't mean that it should though). – J.F. Sebastian May 26 '13 at 10:59
Dont confuse eval and exec. Also, the situation is different in python 3. – asmeurer May 26 '13 at 15:36
@Krastanov thank for your answer and the information, but now I have an other problem. I need pass two fuction to my objects (I can do this witch lambda) and compare if equal, but I can't do this because I can't create a variable 'x' to compare. As I can do? – F.N.B May 27 '13 at 19:04

There is couple issues with this.

  • You don't define the class as an object
  • You named the function eval which is a reserved word

Try this:

class Eval(object):
    def __init__(self,m):
        self.M = m

    def fun(self,x):
        print self.M(x)

x = var('x')
ak = Eval(x+2)
x + 2


share|improve this answer
"You don't define the class as an object" Classes are always objects. In 2.x deriving from object simply changes what type of object it is. – Ignacio Vazquez-Abrams May 26 '13 at 4:39
Yup you are so right - It's a habit ;) – rh0dium May 26 '13 at 4:57
I don't see how your answer is related to the issue of x + 2 being callable. – J.F. Sebastian May 26 '13 at 7:30
I'm not sure I see where the OP expected it to be callable? – rh0dium May 26 '13 at 12:19

Your code already can pass a function to the object. Functions are first-class citizens in Python you can pass them as any other object. The issue might be with your sympy version. Compare:

>>> import sympy
>>> sympy.__version__
>>> from import x
>>> (x + 2)(x)
Traceback (most recent call last):
  File "<input>", line 1, in <module>
TypeError: 'Add' object is not callable


>>> import sympy
>>> sympy.__version__
>>> from import x
>>> (x + 2)(x)
x + 2

i.e., the same code works on 0.7.2 but it fails on 0.7.1rc1 version.

share|improve this answer
Please check the docstring before doing what you suggest. You can not use Symbol objects as some bizarre lambda syntax. – Krastanov May 26 '13 at 9:04
@Krastanov: the code reproduces OPs error using a minimal complete code example. It reveals that the class definition, the method call, internal variables assignments in the OPs code are not the issue (as expected) and that x + 2 is callable in 0.7.2 and it is not callable in 0.7.1 (the docstring says as much: help(x+2) shows/doesn't show __call__ attribute depending on the version). I have no idea what semantics (x + 2)(x) should or should not have in sympy. – J.F. Sebastian May 26 '13 at 10:48
Calling SymPy objects doesn't do what you would expect and will be disabled in the next SymPy version. – asmeurer May 26 '13 at 15:35

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.