When I type

import sympy as sp
x = sp.Symbol('x')

I obtain


Instead of x. I know that "there are no guarantees" on this function.

Question. Is there some specific simplification (through series expansion or whatsoever) to convert logarithm of exponent into identity function?

  • 1
    sympy.expand_log(..., force=True) seems to work.
    – jedwards
    Commented Sep 9, 2017 at 9:49
  • I think the accepted version is better because it gives a better understanding: instead of ignoring assumptions it is better to explicitly state them. It is useful to have a "force" version however. Your receipt also works if I do expand_log as a simplification at the end of computation. Commented Sep 9, 2017 at 10:32

3 Answers 3


You have to set x to real type and your code will work:

import sympy as sp
x = sp.Symbol('x', real=True)

Output: x.

For complex x result of this formula is not always is equal to x. Example is here.


If you want to force the simplification, expand can help because it offers the force keyword which basically makes certain assumptions like this for you without you having to declare your variables as real. But be careful with the result -- you will not want to use it when those assumptions are not warranted.

>>> log(exp(x)).expand(force=True)
  • Using assumptions real=true and positive=true did not work for me, but expand(force=True) did work
    – nwsteg
    Commented May 8 at 16:36

You can also set the argument "inverse" to "True" in the simplify function:

>>> simplify(log(exp(x)), inverse=True)
  • This is a nice note: inverse will decompose func(invfunc(x)) as x.
    – smichr
    Commented May 23, 2023 at 19:39

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