I have a 1-dimensional numpy array
scores some sort of scores associated with some objects. These objects belong to some disjoint groups, and all the scores of the items in the first group are first, followed by the scores of the items in the second group, etc.
I'd like to create a 2-dimensional array where each row corresponds to a group, and each entry is the score of one of its items. If all the groups are of the same size I can just do:
Unfortunately, my groups may be of varying size. I understand that numpy doesn't support ragged arrays, but it is fine for me if the resulting array simply pads each row with a specified to make all rows the same length.
To make this concrete, suppose I have set
A with 3 items,
B with 2 items, and
C with four items.
scores = numpy.array([f(a), f(a), f(a), f(b), f(b), f(c), f(c), f(c), f(c)]) rowStarts = numpy.array([0, 3, 5]) paddingValue = -1.0 scoresByGroup = groupIntoRows(scores, rowStarts, paddingValue)
The desired value of
scoresByGroup would be:
[[f(a), f(a), f(a), -1.0], [f(b), f(b), -1.0, -1.0] [f(c), f(c), f(c), f(c)]]
Is there some numpy function or composition of functions I can use to create
- This operation will be used in calculating the loss for a minibatch for a gradient descent algorithm in Theano, so that's why I need to keep it as a composition of numpy functions if possible, rather than falling back on native Python.
- It's fine to assume there is some known maximum row size
- The original objects being scored are vectors and the scoring function is a matrix multiplication, which is why we flatten things out in the first place. It would be possible to pad everything to the maximum item set size before doing the matrix multiplication, but the biggest set is over ten times bigger than the average set size, so this is undesirable for speed reasons.