I have an implementation of kalman filter where I am doing matrix operations. At some point I should subtract two 1x1 matrices. I have an error, which I don't know where it's coming from. What is the best way to do matrix operations in python?

```
import numpy as np
import pylab as pl
import scipy as Sci
import scipy.linalg as linalg
class GetPos(object):
def __init__(self):
self.Posp = 0
self.Velp = 80
self.z = np.matrix(0)
def __repr__(self):
return "from GetPos.__repr__ z=%s" % (self.z)
def __call__(self):
self.dt = 0.1
self.w = 0 + 10*np.random.random()
self.v = 0 + 10*np.random.random()
self.z = self.Posp + self.Velp*self.dt + self.v
self.Posp = self.z - self.v
self.Velp = 80 + self.w
print 'from GetPos.__call__ z = %s' % self.z
return self.z
class DvKalman(object):
def __init__(self):
self.dt = .1
self.A = np.matrix([[1., self.dt],[0,1]])
self.H = np.matrix([1., 0])
self.Q = np.matrix([[1,0.],[0,3]])
self.R = np.matrix(10)
self.x = np.matrix([0,20]).T
self.P = np.matrix(5*np.eye(2))
#print 'P matrix \n%s' % self.P
self.firstRun = 0
def __call__(self, z):
self.z = z
print 'from DvKalman.__call__ slef.z = %s and z = %s' % (self.z,z)
self.xp = self.A * self.x
self.Pp = self.A*self.P*self.A.T + self.Q
self.K = self.Pp * self.H.T * linalg.inv(np.absolute(self.H*self.Pp*self.H.T + self.R));
print 'from DvKalman.__call__ z=%s, \npreviouse x=\n%s \nH = \n%s \nand P=\n%s \nand xp=\n%s,\n Pp = \n%s,\n K=\n%s' % (self.z,self.x,self.H, self.P,self.xp,self.Pp,self.K)
newM1 = self.H*self.xp
print 'This is self.H*self.xp %s and this is self.z = %s' % (newM1, self.z)
newM2 = self.z - self.H*self.xp
print 'This should give simple substruction %s' % newM2
self.x = self.xp + self.K*(self.z - self.H*self.xp)
self.P = self.Pp - self.K*self.H*self.Pp
print 'new values x=%s and P=%s' % (self.x,self.P)
return (self.x)
def TestDvKalman():
Nsamples = np.arange(0,10,.1)
kal = DvKalman()
#print type(kal)
Xsaved = []
Zsaved = []
for i in range(len(Nsamples)):
z = GetPos()
print z
print 'from TestDvKalman zpos = %s' % z
Zsaved.append(z)
[position, velocity] = kal(z)
print position, velocity
Xsaved.append([position, velocity])
print Zsaved
print Xsaved
# f1 = pl.subplot(121)
# f1 = pl.plot(Xsaved, 'x-',label = 'Xsaved')
# f1 = pl.legend()
#
# f2 = pl.subplot(122)
# f2 = pl.title('Kalman Velocity')
# f2 = pl.plot(Zsaved, 'o-', color = 'brown',label = 'Zsaved')
# f2 = pl.legend()
#
# pl.show()
if __name__ == '__main__':
TestDvKalman()
```

I've added a few `print`

lines to follow and debug the code and I added new variable `newM`

which wouldn't be in the code. The matrices prints correctly `This is self.H*self.xp [[ 2.]] and this is self.z = from GetPos.__repr__ z=[[0]]`

Both matrices are 1x1 but I still recieve an error, don't know why. The error is:

```
newM2 = self.z - self.H*self.xp
TypeError: unsupported operand type(s) for -: 'GetPos' and 'matrix'
```

I suspect I'm messing up with type somewhere but don't know where and how to correct it. Can you point me where is the error and how to build a code like that to avoid similar errors in future?