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More specifically, I have a list of rows/columns that need to be ignored when choosing the max entry. In other words, when choosing the max upper triangular entry, certain indices need to skipped. In that case, what is the most efficient way to find the location of the max upper triangular entry?

For example:

>>> a
array([[0, 1, 1, 1],
       [1, 2, 3, 4],
       [4, 5, 6, 6],
       [4, 5, 6, 7]])
>>> indices_to_skip = [0,1,2]

I need to find the index of the min element among all elements in the upper triangle except for the entries a[0,1], a[0,2], and a[1,2].

share|improve this question
    
Can you give an example? –  nneonneo Sep 1 '13 at 18:26
    
Just edited the question. Thanks! –  methane Sep 1 '13 at 18:33
    
So, in the example, are you taking the max of just [1,4,6]? Do you include the diagonal or not? –  nneonneo Sep 1 '13 at 18:35
    
Yup, just [1,4,6] and the diagonal is not included. –  methane Sep 1 '13 at 18:37
1  
What have you tried? Since you are looking for the most efficient way, you should already have tried a way that wasn't efficient enough. So what did you try, and why didn't it work? –  tom10 Sep 1 '13 at 18:37

1 Answer 1

up vote 4 down vote accepted

You can use np.triu_indices_from:

>>> np.vstack(np.triu_indices_from(a,k=1)).T
array([[0, 1],
       [0, 2],
       [0, 3],
       [1, 2],
       [1, 3],
       [2, 3]])

>>> inds=inds[inds[:,1]>2] #Or whatever columns you want to start from.
>>> inds
array([[0, 3],
       [1, 3],
       [2, 3]])


>>> a[inds[:,0],inds[:,1]]
array([1, 4, 6])

>>> max_index = np.argmax(a[inds[:,0],inds[:,1]])
>>> inds[max_index]
array([2, 3]])

Or:

>>> inds=np.triu_indices_from(a,k=1)
>>> mask = (inds[1]>2) #Again change 2 for whatever columns you want to start at.
>>> a[inds][mask]
array([1, 4, 6])

>>> max_index = np.argmax(a[inds][mask])
>>> inds[mask][max_index]
array([2, 3]])

For the above you can use inds[0] to skip certains rows.

To skip specific rows or columns:

def ignore_upper(arr, k=0, skip_rows=None, skip_cols=None):
    rows, cols = np.triu_indices_from(arr, k=k)

    if skip_rows != None:
        row_mask = ~np.in1d(rows, skip_rows)
        rows = rows[row_mask]
        cols = cols[row_mask]

    if skip_cols != None:
        col_mask = ~np.in1d(cols, skip_cols)
        rows = rows[col_mask]
        cols = cols[col_mask]

    inds=np.ravel_multi_index((rows,cols),arr.shape)
    return np.take(arr,inds)

print ignore_upper(a, skip_rows=1, skip_cols=2) #Will also take numpy arrays for skipping.
[0 1 1 6 7]

The two can be combined and creative use of boolean indexing can help speed up specific cases.

Something interesting that I ran across, a faster way to take upper triu indices:

def fast_triu_indices(dim,k=0):

    tmp_range = np.arange(dim-k)
    rows = np.repeat(tmp_range,(tmp_range+1)[::-1])

    cols = np.ones(rows.shape[0],dtype=np.int)
    inds = np.cumsum(tmp_range[1:][::-1]+1)

    np.put(cols,inds,np.arange(dim*-1+2+k,1))
    cols[0] = k
    np.cumsum(cols,out=cols)
    return (rows,cols)

Its about ~6x faster although it does not work for k<0:

dim=5000
a=np.random.rand(dim,dim)

k=50
t=time.time()
rows,cols=np.triu_indices(dim,k=k)
print time.time()-t
0.913508892059

t=time.time()
rows2,cols2,=fast_triu_indices(dim,k=k)
print time.time()-t
0.16515994072

print np.allclose(rows,rows2)
True

print np.allclose(cols,cols2)
True
share|improve this answer
    
This looks good but what about finding the index of the max element, not just the max element itself? –  methane Sep 1 '13 at 21:18
    
@methane I updated the first two examples. You should be able to take it from there. –  Ophion Sep 1 '13 at 21:26

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