I want to interpolate values in a 1D array from an irregular grid to a regular grid. For example, imagine that the original data has values at irregularly spaced X coordinates:
source_x = np.asarray([127.3, 759.4, 1239.1, ..., 98430.1]) source_y = whatever(x) # No really a function but a set of masurements
The destination grid is also 1D, but the X coordinates are regularly spaced along the axis:
dest_x = np.arange(250, 100000, 500)
I want to find the distance and index of the two closest elements in the original
source_xcoordinates array for every point the destination
dest_xcoordinates array. For example:
dest_x = 250 indices = [0, 1] distances = [250-127.3, 759.4-250]
This should be done as an atomic operation if possible.
My first idea was to use
scipy.spatial.KDTree, but this doesn't allow 1D data. Any other options?
There is an "ugly" option that involves a "dummy" coordinate of zeros, which allows using
source_x = np.asarray([127.3, 759.4, 1239.1, ..., 98430.1]) source_dummy = np.zeros_like(source_x) dest_x = np.arange(250, 100000, 500) dest_dummy = np.zeros_like(dest_x) src = np.vstack((source_x, source_dummy)).T dst = np.vstack((dest_x, dest_dummy)).T tree = KDTree(src) distances, indices = tree.query(dst, 2)
However, I don't like this approach that much...