I have a number of different size arrays with a common index.
Arr1 = np.arange(0, 1000, 1).reshape(100, 10) Arr2 = np.arange(0, 500, 1).reshape(100,5) Arr1.shape = (100, 10) Arr2.shape = (100, 5)
I want to add these together into a new Array, Arr3 which is three dimensional. e.g.
Arr3 = Arr1 + Arr2 Arr3.shape = (100, 10, 5)
Note, in this instance the values should allign e.g.
Arr3[10, 3, 2] = Arr1[10, 3] + Arr2[10, 2]
I have been attempting to use the following method
test = Arr1.copy() test = test[:, np.newaxis] + Arr2
Now, I've been able to make this work when adding two square matrices together.
m = np.arange(0, 100, 1) [x, y] = np.meshgrid(x, y) x.shape = (100, 100) test44 = x.copy() test44 = test44[:, np.newaxis] + x test44.shape = (100, 100, 100) test44[4, 3, 2] = 4 x[4, 2] = 2 x[3, 2] = 2
However, in my actual program I will not have square matrices for this issue. In addition this method is extremely memory intensive as evidenced when you begin moving up the number of dimensions as follows.
test44 = test44[:, :, np.newaxis] + x test44.shape = (100, 100, 100, 100) # Note this next command will fail with a memory error on my computer. test44 = test44[:, :, :, np.newaxis] + x
So my question has two parts:
- Is it possible to create a 3D array from two differently shaped 2D array with a common "shared" axis.
- Is such a method extensible at higher order dimensions?
Any assistance is greatly appreciated.