# How do I integrate two 1-D data arrays in Python?

I have two tabulated data arrays, x and y, and I don't know the function that generated the data. I want to be able to evaluate the integral of the line produced by the data at any point along the x-axis.

Rather than interpolating a piecewise function to the data and then attempting to integrate that, which I am having trouble with, is there something I can use that will simply provide the integral by evaluating the arrays?

When searching for solutions, I have seen references to iPython and Pandas, but I haven't been able to find the parts of those packages that will aid in this task.

If there isn't a way to simply integrate the arrays, could you provide some advice on the best way to handle this task?

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Scipy has some nice tools to perform numerical integration.

For example, you can use `scipy.integrate.simps` to perform simpson's Rule, and you can pass it the following:

scipy.integrate.simps(y, x=None, dx=1, axis=-1, even='avg')

Parameters :
y : array_like Array to be integrated.

x : array_like, optional If given, the points at which y is sampled.

dx : int, optional Spacing of integration points along axis of y. Only used when x is None. Default is 1.

axis : int, optional Axis along which to integrate. Default is the last axis.

even : {‘avg’, ‘first’, ‘str’}, optional

‘avg’ : Average two results:1) use the first N-2 intervals with a trapezoidal rule on the last interval and 2) use the last N-2 intervals with a trapezoidal rule on the first interval.

‘first’ : Use Simpson’s rule for the first N-2 intervals with a trapezoidal rule on the last interval.

‘last’ : Use Simpson’s rule for the last N-2 intervals with a trapezoidal rule on the first interval.

So you can use your two arrays to do numerical integration.

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If you want to use the cumulative sum of trapezoids for integration, which would probably be best for a series of points.

You can do this:

``````>>> from scipy import integrate
>>> x = np.linspace(-2, 2, num=20)
>>> y = x
>>> y_int = integrate.cumtrapz(y, x, initial=0)
>>> plt.plot(x, y_int, 'ro', x, y[0] + 0.5 * x**2, 'b-')
>>> plt.show()
``````

This will also plot the data and show it to you graphically. This is the integration call `integrate.cumtrapz(y, x, initial=0)` where x, and y are your two arrays.

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