I'm trying to optimize the following code, potentially by rewriting it in Cython: it simply takes a low dimensional but relatively long numpy arrays, looks into of its columns for 0 values, and marks those as -1 in an array. The code is:

```
import numpy as np
def get_data():
data = np.array([[1,5,1]] * 5000 + [[1,0,5]] * 5000 + [[0,0,0]] * 5000)
return data
def get_cols(K):
cols = np.array([2] * K)
return cols
def test_nonzero(data):
K = len(data)
result = np.array([1] * K)
# Index into columns of data
cols = get_cols(K)
# Mark zero points with -1
idx = np.nonzero(data[np.arange(K), cols] == 0)[0]
result[idx] = -1
import time
t_start = time.time()
data = get_data()
for n in range(5000):
test_nonzero(data)
t_end = time.time()
print (t_end - t_start)
```

`data`

is the data. `cols`

is the array of columns of data to look for non-zero values (for simplicity, I made it all the same column). The goal is to compute a numpy array, `result`

, which has a 1 value for each row where the column of interest is non-zero, and -1 for the rows where the corresponding columns of interest have a zero.

Running this function 5000 times on a not-so-large array of 15,000 rows by 3 columns takes about 20 seconds. Is there a way this can be sped up? It appears that most of the work goes into finding the nonzero elements and retrieving them with indices (the call to `nonzero`

and subsequent use of its index.) Can this be optimized or is this the best that can be done?
How could a Cython implementation gain speed on this?