# python comparing two matrices

In the below shown matrices i want to match the first element in both the matrices. If the first element is equal then i need match the second element from both the matrices and so on.. if the elements are same then print "same" else print "not same"....

My question is how this in the optimal way also for m*n where m=n always

`````` for i in a1:
for j in a2:
if i!=j:
break
else:
//compare the next corresponding columns and print "same" or "not same"

a1=[1,44,55],[2,33,66],[3,77,91]

a2=[1,44,55],[2,45,66],[3,77,91]

OR

a1=[1,44,55]
[2,33,66]
[3,77,91]

a2=[1,44,55]
[2,45,66]
[3,77,91]
``````
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The syntax for `a1`, `a2` doesn't look correct – Levon Jun 1 '12 at 13:32
I wanted to draw that in a matrix form so i had shown as indicated – Rajeev Jun 1 '12 at 13:33

What's wrong with `a1 == a2`?

``````In [1]: a1=[[1,44,55],
...:     [2,33,66],
...:     [3,77,91]]

In [2]: a2=[[1,44,55],
...:     [2,45,66], # <- second element differs
...:     [3,77,91]]

In [3]: a1 == a2
Out[3]: False

In [4]: a1=[[1,44,55],
...:     [2,33,66],
...:     [3,77,91]]

In [5]: a2=[[1,44,55],
...:     [2,33,66],
...:     [3,77,91]]

In [6]: a1 == a2
Out[6]: True
``````
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You may run into some issues due to floating point rounding errors.

``````>>> import numpy as np
>>> x = np.array(1.1)
>>> print x * x
1.21
>>> x * x == 1.21
False
>>> x * x
1.2100000000000002
>>> np.allclose(x * x, 1.21)
True
``````

To compare whether two numerical matrices are equal, it is recommended that you use `np.allclose()`

``````>>> import numpy as np
>>> x = np.array([[1.1, 1.3], [1.3, 1.1]])
>>> y = np.array([[1.21, 1.69], [1.69, 1.21]])
>>> x * x
array([[ 1.21,  1.69],
[ 1.69,  1.21]])
>>> x * x == y
array([[False, False],
[False, False]], dtype=bool)
>>> np.allclose(x * x, y)
True
``````
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If you wanna do operations over matrix, `numpy` is the best library you could use

``````In [11]: a = numpy.matrix([[1,44,55],
...:                   [2,33,66],
...:                   [3,77,91]])

In [12]: b = numpy.matrix([[1,44,55],
...:                   [2,45,66],
...:                   [3,77,91]])

In [13]: a == b
Out[13]:
matrix([[ True,  True,  True],
[ True, False,  True],
[ True,  True,  True]], dtype=bool)
``````
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