I skimmed through the code, and I don't think all of the README file and its documentation match what's actually implemented. It appears to be mostly copied from the original
This is confusing because
mlabwrap is implemented using a C extension module to interact with the MATLAB Engine API. However the
mlab code seems to have replaced that part with a pure Python implementation as the MATLAB-bridge backend. It comes from "Dana Pe'er Lab" and it uses two different methods to interact with MATLAB depending on the platform (COM/ActiveX on Windows and pipes on Linux/Mac).
Now that we understand how the backend is implemented, you can start looking at the import error.
Note: the Linux/Mac part of the code tries to find the MATLAB executable in some hardcoded fixed locations, and allows to choose between different versions.
However you are working on Windows, and the code doesn't really implement any way of picking between MATLAB releases for this platform (so all of the methods like
find_available_releases are useless on Windows). In the end, the COM object is created as:
self.client = win32com.client.Dispatch('matlab.application')
As explained here, the ProgID
matlab.application is not version-specific, and will simply use whatever was registered as the default MATLAB COM server. We can explicitly specify what MATLAB version we want (assuming you have multiple installations), for instance
matlab.application.8.3 will pick MATLAB R2014a.
So to fix the code, IMO the easiest way would be to get rid of all that logic about multiple MATLAB versions (in the Windows part of the code), and just let it create the MATLAB COM object as is. I haven't attempted it, but I don't think it's too involved... Good luck!
I download the module and I managed to get it to work on Windows (I'm using Python 2.7.6 and MATLAB R2014a). Here are the changes:
$ git diff
diff --git a/src/mlab/matlabcom.py b/src/mlab/matlabcom.py
index 93f075c..da1c6fa 100644
@@ -21,6 +21,11 @@ except:
print 'win32com in missing, please install it'
+ # report we have all versions
+ return [('R%d%s' % (y,v), '')
+ for y in range(2006,2015) for v in ('a','b')]
@@ -62,7 +67,7 @@ class MatlabCom(object):
+ pass #self.eval('quit();')
diff --git a/src/mlab/mlabraw.py b/src/mlab/mlabraw.py
index 3471362..16e0e2b 100644
@@ -42,6 +42,7 @@ def open():
ret = MatlabConnection()
+ return ret
if settings.MATLAB_PATH != 'guess':
matlab_path = settings.MATLAB_PATH + '/bin/matlab'
diff --git a/src/mlab/releases.py b/src/mlab/releases.py
index d792b12..9d6cf5d 100644
@@ -88,7 +88,7 @@ class MatlabVersions(dict):
# Make it a module
sys.modules['mlab.releases.' + matlab_release] = instance
sys.modules['matlab'] = instance
- return MlabWrap()
+ return instance
First I added the missing
find_available_releases function. I made it so that it reports that all MATLAB versions are available (like I explained above, it doesn't really matter because of the way the COM object is created). An even better fix would be to detect the installed/registered MATLAB versions using the Windows registry (check the keys
HKCR\Matlab.Application.X.Y and follow their CLSID in
HKCR\CLSID). That way you can truly choose and pick which version to run.
I also fixed two unrelated bugs (one where the author forgot the function return value, and the other unnecessarily creating the wrapper object twice).
Note: During testing, it might be faster NOT to start/shutdown a MATLAB instance each time the script is called. This is why I commented
self.eval('quit();') in the
close function. That way you can start MATLAB using
matlab.exe -automation (do this only once), and then repeatedly re-use the session without shutting it down. Just kill the process when you're done :)
Here is a Python example to test the module (I also show a comparison against NumPy/SciPy/Matplotlib):
# could be anything from: latest_release, R2014b, ..., R2006a
# makes no difference :)
from mlab.releases import R2014a as matlab
# show MATLAB version
print "MATLAB version: ", matlab.version()
# compute SVD of a NumPy array
import numpy as np
A = np.random.rand(5, 5)
U, S, V = matlab.svd(A, nout=3)
print "S = \n", matlab.diag(S)
# compare MATLAB's SVD against Scipy's SVD
U, S, V = np.linalg.svd(A)
# 3d plot in MATLAB
X, Y, Z = matlab.peaks(nout=3)
matlab.surf(X, Y, Z)
# compare against matplotlib surface plot
from mpl_toolkits.mplot3d import Axes3D
import matplotlib.pyplot as plt
fig = plt.figure()
ax = fig.gca(projection='3d')
ax.plot_surface(X, Y, Z, rstride=1, cstride=1, cmap='jet')
Here is the output I get:
MATLAB version: 18.104.22.1682 (R2014a)
[ 2.41632007 0.78527851 0.44582117 0.29086795 0.00552422]
The above changes have been accepted and merged into