```
import numpy
import rpy2
from rpy2 import robjects
import rpy2.robjects.numpy2ri
r = robjects.r
rpy2.robjects.numpy2ri.activate()
x = numpy.array( [1, 5, -99, 4, 5, 3, 7, -99, 6] )
mx = numpy.ma.masked_values( x, -99 )
print x # works, displays all values
print r.sd(x) # works, but uses -99 values in calculation
print mx # works, now -99 values are masked (--)
print r.sd(mx) # does not work - error
```

I am a new user of rpy2 and numpy. I am using R 2.14.1, python 2.7.1, rpy2 2.2.5, numpy 1.5.1 on RHEL5.

I need to read data into a numpy array and use rpy2 functions on it. However, I need to mask missing values prior to using the array with rpy2.

I have no problem masking values, but I can't get rpy2 to work with the resulting masked array. Looks like maybe the numpy2ri conversion doesn't work on masked numpy arrays? (see error below)

How can I make this work? Is it possible to tell rpy2 to ignore masked values? I'd like to stick with R rather than use scipy/numpy directly, since I'll be doing more advanced stats later.

Thanks.

```
Traceback (most recent call last):
File "d.py", line 16, in <module>
print r.sd(mx) # does not work - error
File "/dev/py/lib/python2.7/site-packages/rpy2-2.2.5dev_20120227-py2.7-linux-x86_64.egg/rpy2/robjects/functions.py", line 82, in __call__
return super(SignatureTranslatedFunction, self).__call__(*args, **kwargs)
File "/dev/py/lib/python2.7/site-packages/rpy2-2.2.5dev_20120227-py2.7-linux-x86_64.egg/rpy2/robjects/functions.py", line 30, in __call__
new_args = [conversion.py2ri(a) for a in args]
File "/dev/py/lib/python2.7/site-packages/rpy2-2.2.5dev_20120227-py2.7-linux-x86_64.egg/rpy2/robjects/numpy2ri.py", line 36, in numpy2ri
vec = SexpVector(o.ravel("F"), _kinds[o.dtype.kind])
TypeError: ravel() takes exactly 1 argument (2 given)
```

**Update**: Since rpy2 can't handle masked numpy arrays, I tried converting my -99 values to numpy NaN values. Apparently rpy2 recognizes numpy NaN values as R-style NA values.

The code below works because in the r.sd() call I can tell rpy2 to not use NA values. But the initial NaN substitution is definitely slower than applying the numpy mask.

Can any of you python wizards give me a faster way to do the -99 to NaN substitution across a large numpy ndarray? Or maybe suggest another approach?

Thanks.

```
# 'x' is a large numpy ndarray I am working with
# ('x' in the original code above was a small test array)
for i in range(900, 950): # random slice of numpy ndarray
for j in range(6225): # full extent across slice
if x[i][j] == -99:
x[i][j] = numpy.NaN
y = x[933] # random piece of converted range
sd = r.sd( y, **{'na.rm': 'TRUE'} ) # r.sd() call that ignores numpy NaN values
print sd
```