# SymPy - apply limits to an indefinite integral

In SymPy, is it possible to apply limits to an indefinite integral and evaluate it?

``````import sympy
from sympy.abc import theta

y = sympy.sin(theta)

Y_indef = sympy.Integral(y)
Y_def = sympy.Integral(y, (theta, 0, sympy.pi / 2))
``````

`Y_def.evalf()` produces a number.

I'm looking for something like `Y_indef.evalf((theta, 0, sympy.pi/2))` to get the same answer.

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Why don't you just evaluate the indefinite integral at the boundaries of your integration interval and subtract those two values from each other? –  David Zwicker Feb 7 '13 at 17:13
I guess I'm more trying to figure out the difference between the Y_indef and Y_def objects above, and is it possible to do something to Y_indef to make it behave like Y_def. –  Tim D Feb 7 '13 at 18:10
@DavidZwicker that naive approach will not work in general. If there are poles in the integration domain, you'll get the wrong answer. Also, quite often the definite integral can be computed but the indefinite integral cannot (and this is definitely true if you are only interested in a numerical evaluation). –  asmeurer Feb 8 '13 at 17:56

I do not know of a direct way, however you can extract the information from `Y_indef` in order to create a definite integral:

``````>>> indef = Integral(x)
>>> to_be_integrated, (free_var,) = indef.args
>>> definite = Integral(to_be_integrated, (free_var, 1, 2))
``````

`.args` is a general attribute containing anything needed to construct most SymPy objects.

2. Both definite and indefinite integrals are instances of the same class. The only difference is what they contain in their `.args`. The need for different classes is not yet felt, given that SymPy mostly uses `Integral` as a flag to say that it can not solve the integral (i.e. the `integrate` function returns `Integral` when all of the implemented algorithms fail).