The nub of the error is

```
error: /builddir/build/BUILD/OpenCV-2.3.1/modules/calib3d/src/calibration.cpp:3341: error: (-215) npoints >= 0 && (depth == CV_32F || depth == CV_64F) in function projectPoints
```

which occurred from a call to `cv2.projectPoints`

. The only thing I've found
in my search is that this type of error might be related to the arguments having
the incorrect number of dimensions (but this is based on a similar error for a different
function call).

- I've been careful about explicitly typing my arrays to be
`dtype=scipy.floa32`

; also tried`scipy.float32`

. - I've tried this by
`reshaping`

the vector arguments to be column vectors.

Any ideas on what to try for this specific problem?

What is a good way to track down which of the arguments to the `cv2.projectPoints`

call is causing the problem, given an error message like the above in general?

Here's the whole situation:

```
In [11]: reload(test)
OpenCV Error: Assertion failed (npoints >= 0 && (depth == CV_32F || depth == CV_64F))
in projectPoints, file /builddir/build/BUILD/OpenCV-2.3.1/modules/calib3d/src/calibration.cpp, line 3341
---------------------------------------------------------------------------
error Traceback (most recent call last)
/home/dave/CameraCalibration/<ipython-input-11-4319c8185c42> in <module>()
----> 1 reload(test)
/home/dave/CameraCalibration/test.py in <module>()
27 camera_intrinsic=scipy.eye(3, dtype=scipy.float32 )
28 distortion_coefficients=None # no-coefs => all zero
---> 29 [grid_camera, J]=cv2.projectPoints( grid_grid, rvec, tvec, camera_intrinsic, distortion_coefficients)
error: /builddir/build/BUILD/OpenCV-2.3.1/modules/calib3d/src/calibration.cpp:3341: error: (-215) npoints >= 0 && (depth == CV_32F || depth == CV_64F) in function projectPoints
In [14]: cv2.__version__
Out[14]: '$Rev: 4557 $'
```

Here's the test script, it just sets up a test grid and tries to project the points onto the image plane:

```
import scipy
import cv2
def mk_grid( nrows, ncols ):
''' Returns unit grid of given size,
3-D, in (flat) grid coordinate space: (x,y,z=0)
'''
res=scipy.zeros( [3, nrows*ncols], dtype=scipy.float32 )
for row in xrange(nrows):
start=row*ncols # flat index for the start of the row
stop=start+ncols # flat indes for end of row
res[0, start:stop]=row # assign row index
res[1, start:stop]=scipy.arange( ncols) # assign incrementing col values
res[2, start:stop]=0.0 # planar array
# center the array
for idx in xrange(3):
res[idx,:]=res[idx,:]-scipy.mean( res[idx,:] )
return res
grid_grid=mk_grid( 8, 12 ) # grid in grid coordinates
rvec=scipy.array( [0.2,1,0.2], dtype=scipy.float32 )
tvec=scipy.array( [5.0,6.0,7.0], dtype=scipy.float32 )
camera_intrinsic=scipy.eye(3, dtype=scipy.float32 )
distortion_coefficients=None # no-coefs => all zero
[grid_camera, J]=cv2.projectPoints( grid_grid, rvec, tvec, camera_intrinsic, distortion_coefficients)
```