Here is the link to the mat file temp whose sum i want. The sum for python is 1.1230325644146074e-10. The sum in matlab is 1.2189e-010. But when i copy the array from matlab and add them in python terminal i get the same sum as that of matlab. What is the mystery behind this?

```
>>> np.sum(temp)
```

1.1230325644146074e-10

```
>>> 0 + 1.34369215036371e-13 + 1.44714547828739e-11 + 3.13077747300113e-11 + 0 +
7.33156408714693e-10 + 1.07579271945635e-08 + 8.89446393156299e-09 + 0 +
8.00303861023109e-08 + 9.10095259764947e-07 + 6.44662571715407e-07 + 0 +
6.16697002187199e-06 + 0.000104686113649727 + 0.000240373037717048 +
7.07802623602744e-11 + -0.000240372993389479 + -0.000104686106424492 +
-6.16697038783319e-06 + 0 + -6.44662640770614e-07 + -9.10095265552302e-07 +
-8.00303919930304e-08 + 0 + -8.89446408625544e-09 + -1.07579272042352e-08 +
-7.33156409297323e-10 + 0 + -3.13077747365376e-11 + -1.44714547888711e-11 +
-1.34369215245131e-13
```

1.218862069269912e-10

All this is required because num in the code below is derived from temp and then i have a den or denominator component and i am trying to find the division. So even if these are small values but there exists small errors their division creats errors when i am translating matlab code to python.

Here is the matlab code.

```
function mth = compute_mean_angle(dEnergy,th)
global NFFT;
sth = sin(2*th);
cth = cos(2*th);
num = sum(sum(dEnergy.*sth));
den = sum(sum(dEnergy.*cth));
mth = 0.5*atan2(num,den);
if(mth <0)
mth = mth+pi;
end;
```

%end function compute_mean_angle

Here is the python code.

```
def compute_mean_angle(dEnergy, th):
global NFFT
sth = np.sin(np.dot(2, th))
cth = np.cos(np.dot(2, th))
num = np.sum(np.sum(dEnergy * sth))
den = np.sum(np.sum(dEnergy * cth))
mth = np.dot(0.5, math.atan2(num, den))
if (mth < 0):
mth = mth + np.pi
return mth
```

I am attaching sample files here. Contains all three files temp.mat, dEnergy.mat and th.mat

`np.dot`

for scalars. Do your really have the same numbers? – Daniel Jul 13 '14 at 14:56`np.sum`

either. – hpaulj Jul 13 '14 at 22:06