I use Python and NumPy and have some problems with "transpose":
import numpy as np
a = np.array([5,4])
print(a)
print(a.T)
Invoking a.T is not transposing the array. If a is for example [[],[]] then it transposes correctly, but I need the transpose of [...,...,...].
It's working exactly as it's supposed to. The transpose of a 1D array is still a 1D array! (If you're used to matlab, it fundamentally doesn't have a concept of a 1D array. Matlab's "1D" arrays are 2D.)
If you want to turn your 1D vector into a 2D array and then transpose it, just slice it with np.newaxis (or None, they're the same, newaxis is just more readable).
import numpy as np
a = np.array([5,4])[np.newaxis]
print(a)
print(a.T)
Generally speaking though, you don't ever need to worry about this. Adding the extra dimension is usually not what you want, if you're just doing it out of habit. Numpy will automatically broadcast a 1D array when doing various calculations. There's usually no need to distinguish between a row vector and a column vector (neither of which are vectors. They're both 2D!) when you just want a vector.
Use two bracket pairs instead of one. This creates a 2D array, which can be transposed, unlike the 1D array you create if you use one bracket pair.
import numpy as np
a = np.array([[5, 4]])
a.T
More thorough example:
>>> a = [3,6,9]
>>> b = np.array(a)
>>> b.T
array([3, 6, 9]) #Here it didn't transpose because 'a' is 1 dimensional
>>> b = np.array([a])
>>> b.T
array([[3], #Here it did transpose because a is 2 dimensional
[6],
[9]])
Use numpy's shape method to see what is going on here:
>>> b = np.array([10,20,30])
>>> b.shape
(3,)
>>> b = np.array([[10,20,30]])
>>> b.shape
(1, 3)
For 1D arrays:
a = np.array([1, 2, 3, 4])
a = a.reshape((-1, 1)) # <--- THIS IS IT
print a
array([[1],
[2],
[3],
[4]])
Once you understand that -1 here means "as many rows as needed", I find this to be the most readable way of "transposing" an array. If your array is of higher dimensionality simply use a.T.
You can convert an existing vector into a matrix by wrapping it in an extra set of square brackets...
from numpy import *
v=array([5,4]) ## create a numpy vector
array([v]).T ## transpose a vector into a matrix
numpy also has a matrix class (see array vs. matrix)...
matrix(v).T ## transpose a vector into a matrix
numpy 1D array --> column/row matrix:
>>> a=np.array([1,2,4])
>>> a[:, None] # col
array([[1],
[2],
[4]])
>>> a[None, :] # row, or faster `a[None]`
array([[1, 2, 4]])
And as #joe-kington said, you can replace None with np.newaxis for readability.
To 'transpose' a 1d array to a 2d column, you can use numpy.vstack:
>>> numpy.vstack(numpy.array([1,2,3]))
array([[1],
[2],
[3]])
It also works for vanilla lists:
>>> numpy.vstack([1,2,3])
array([[1],
[2],
[3]])
instead use arr[:,None] to create column vector
You can only transpose a 2D array. You can use numpy.matrix to create a 2D array. This is three years late, but I am just adding to the possible set of solutions:
import numpy as np
m = np.matrix([2, 3])
m.T
Basically what the transpose function does is to swap the shape and strides of the array:
>>> a = np.ones((1,2,3))
>>> a.shape
(1, 2, 3)
>>> a.T.shape
(3, 2, 1)
>>> a.strides
(48, 24, 8)
>>> a.T.strides
(8, 24, 48)
In case of 1D numpy array (rank-1 array) the shape and strides are 1-element tuples and cannot be swapped, and the transpose of such an 1D array returns it unchanged. Instead, you can transpose a "row-vector" (numpy array of shape (1, n)) into a "column-vector" (numpy array of shape (n, 1)). To achieve this you have to first convert your 1D numpy array into row-vector and then swap the shape and strides (transpose it). Below is a function that does it:
from numpy.lib.stride_tricks import as_strided
def transpose(a):
a = np.atleast_2d(a)
return as_strided(a, shape=a.shape[::-1], strides=a.strides[::-1])
Example:
>>> a = np.arange(3)
>>> a
array([0, 1, 2])
>>> transpose(a)
array([[0],
[1],
[2]])
>>> a = np.arange(1, 7).reshape(2,3)
>>> a
array([[1, 2, 3],
[4, 5, 6]])
>>> transpose(a)
array([[1, 4],
[2, 5],
[3, 6]])
Of course you don't have to do it this way since you have a 1D array and you can directly reshape it into (n, 1) array by a.reshape((-1, 1)) or a[:, None]. I just wanted to demonstrate how transposing an array works.
Another solution.... :-)
import numpy as np
a = [1,2,4]
[1, 2, 4]
b = np.array([a]).T
array([[1],
[2],
[4]])
The name of the function in numpy is column_stack.
>>>a=np.array([5,4])
>>>np.column_stack(a)
array([[5, 4]])
I am just consolidating the above post, hope it will help others to save some time:
The below array has (2, )dimension, it's a 1-D array,
b_new = np.array([2j, 3j])
There are two ways to transpose a 1-D array:
slice it with "np.newaxis" or none.!
print(b_new[np.newaxis].T.shape)
print(b_new[None].T.shape)
other way of writing, the above without T operation.!
print(b_new[:, np.newaxis].shape)
print(b_new[:, None].shape)
Wrapping [ ] or using np.matrix, means adding a new dimension.!
print(np.array([b_new]).T.shape)
print(np.matrix(b_new).T.shape)
There is a method not described in the answers but described in the documentation for the numpy.ndarray.transpose method:
For a 1-D array this has no effect, as a transposed vector is simply the same vector. To convert a 1-D array into a 2D column vector, an additional dimension must be added. np.atleast2d(a).T achieves this, as does a[:, np.newaxis].
One can do:
import numpy as np
a = np.array([5,4])
print(a)
print(np.atleast_2d(a).T)
Which (imo) is nicer than using newaxis.
As some of the comments above mentioned, the transpose of 1D arrays are 1D arrays, so one way to transpose a 1D array would be to convert the array to a matrix like so:
np.transpose(a.reshape(len(a), 1))
To transpose a 1-D array (flat array) as you have in your example, you can use the np.expand_dims() function:
>>> a = np.expand_dims(np.array([5, 4]), axis=1)
array([[5],
[4]])
np.expand_dims() will add a dimension to the chosen axis. In this case, we use axis=1, which adds a column dimension, effectively transposing your original flat array.
Related
I use Python and NumPy and have some problems with "transpose":
import numpy as np
a = np.array([5,4])
print(a)
print(a.T)
Invoking a.T is not transposing the array. If a is for example [[],[]] then it transposes correctly, but I need the transpose of [...,...,...].
It's working exactly as it's supposed to. The transpose of a 1D array is still a 1D array! (If you're used to matlab, it fundamentally doesn't have a concept of a 1D array. Matlab's "1D" arrays are 2D.)
If you want to turn your 1D vector into a 2D array and then transpose it, just slice it with np.newaxis (or None, they're the same, newaxis is just more readable).
import numpy as np
a = np.array([5,4])[np.newaxis]
print(a)
print(a.T)
Generally speaking though, you don't ever need to worry about this. Adding the extra dimension is usually not what you want, if you're just doing it out of habit. Numpy will automatically broadcast a 1D array when doing various calculations. There's usually no need to distinguish between a row vector and a column vector (neither of which are vectors. They're both 2D!) when you just want a vector.
Use two bracket pairs instead of one. This creates a 2D array, which can be transposed, unlike the 1D array you create if you use one bracket pair.
import numpy as np
a = np.array([[5, 4]])
a.T
More thorough example:
>>> a = [3,6,9]
>>> b = np.array(a)
>>> b.T
array([3, 6, 9]) #Here it didn't transpose because 'a' is 1 dimensional
>>> b = np.array([a])
>>> b.T
array([[3], #Here it did transpose because a is 2 dimensional
[6],
[9]])
Use numpy's shape method to see what is going on here:
>>> b = np.array([10,20,30])
>>> b.shape
(3,)
>>> b = np.array([[10,20,30]])
>>> b.shape
(1, 3)
For 1D arrays:
a = np.array([1, 2, 3, 4])
a = a.reshape((-1, 1)) # <--- THIS IS IT
print a
array([[1],
[2],
[3],
[4]])
Once you understand that -1 here means "as many rows as needed", I find this to be the most readable way of "transposing" an array. If your array is of higher dimensionality simply use a.T.
You can convert an existing vector into a matrix by wrapping it in an extra set of square brackets...
from numpy import *
v=array([5,4]) ## create a numpy vector
array([v]).T ## transpose a vector into a matrix
numpy also has a matrix class (see array vs. matrix)...
matrix(v).T ## transpose a vector into a matrix
numpy 1D array --> column/row matrix:
>>> a=np.array([1,2,4])
>>> a[:, None] # col
array([[1],
[2],
[4]])
>>> a[None, :] # row, or faster `a[None]`
array([[1, 2, 4]])
And as #joe-kington said, you can replace None with np.newaxis for readability.
To 'transpose' a 1d array to a 2d column, you can use numpy.vstack:
>>> numpy.vstack(numpy.array([1,2,3]))
array([[1],
[2],
[3]])
It also works for vanilla lists:
>>> numpy.vstack([1,2,3])
array([[1],
[2],
[3]])
instead use arr[:,None] to create column vector
You can only transpose a 2D array. You can use numpy.matrix to create a 2D array. This is three years late, but I am just adding to the possible set of solutions:
import numpy as np
m = np.matrix([2, 3])
m.T
Basically what the transpose function does is to swap the shape and strides of the array:
>>> a = np.ones((1,2,3))
>>> a.shape
(1, 2, 3)
>>> a.T.shape
(3, 2, 1)
>>> a.strides
(48, 24, 8)
>>> a.T.strides
(8, 24, 48)
In case of 1D numpy array (rank-1 array) the shape and strides are 1-element tuples and cannot be swapped, and the transpose of such an 1D array returns it unchanged. Instead, you can transpose a "row-vector" (numpy array of shape (1, n)) into a "column-vector" (numpy array of shape (n, 1)). To achieve this you have to first convert your 1D numpy array into row-vector and then swap the shape and strides (transpose it). Below is a function that does it:
from numpy.lib.stride_tricks import as_strided
def transpose(a):
a = np.atleast_2d(a)
return as_strided(a, shape=a.shape[::-1], strides=a.strides[::-1])
Example:
>>> a = np.arange(3)
>>> a
array([0, 1, 2])
>>> transpose(a)
array([[0],
[1],
[2]])
>>> a = np.arange(1, 7).reshape(2,3)
>>> a
array([[1, 2, 3],
[4, 5, 6]])
>>> transpose(a)
array([[1, 4],
[2, 5],
[3, 6]])
Of course you don't have to do it this way since you have a 1D array and you can directly reshape it into (n, 1) array by a.reshape((-1, 1)) or a[:, None]. I just wanted to demonstrate how transposing an array works.
Another solution.... :-)
import numpy as np
a = [1,2,4]
[1, 2, 4]
b = np.array([a]).T
array([[1],
[2],
[4]])
The name of the function in numpy is column_stack.
>>>a=np.array([5,4])
>>>np.column_stack(a)
array([[5, 4]])
I am just consolidating the above post, hope it will help others to save some time:
The below array has (2, )dimension, it's a 1-D array,
b_new = np.array([2j, 3j])
There are two ways to transpose a 1-D array:
slice it with "np.newaxis" or none.!
print(b_new[np.newaxis].T.shape)
print(b_new[None].T.shape)
other way of writing, the above without T operation.!
print(b_new[:, np.newaxis].shape)
print(b_new[:, None].shape)
Wrapping [ ] or using np.matrix, means adding a new dimension.!
print(np.array([b_new]).T.shape)
print(np.matrix(b_new).T.shape)
There is a method not described in the answers but described in the documentation for the numpy.ndarray.transpose method:
For a 1-D array this has no effect, as a transposed vector is simply the same vector. To convert a 1-D array into a 2D column vector, an additional dimension must be added. np.atleast2d(a).T achieves this, as does a[:, np.newaxis].
One can do:
import numpy as np
a = np.array([5,4])
print(a)
print(np.atleast_2d(a).T)
Which (imo) is nicer than using newaxis.
As some of the comments above mentioned, the transpose of 1D arrays are 1D arrays, so one way to transpose a 1D array would be to convert the array to a matrix like so:
np.transpose(a.reshape(len(a), 1))
To transpose a 1-D array (flat array) as you have in your example, you can use the np.expand_dims() function:
>>> a = np.expand_dims(np.array([5, 4]), axis=1)
array([[5],
[4]])
np.expand_dims() will add a dimension to the chosen axis. In this case, we use axis=1, which adds a column dimension, effectively transposing your original flat array.
I use Python and NumPy and have some problems with "transpose":
import numpy as np
a = np.array([5,4])
print(a)
print(a.T)
Invoking a.T is not transposing the array. If a is for example [[],[]] then it transposes correctly, but I need the transpose of [...,...,...].
It's working exactly as it's supposed to. The transpose of a 1D array is still a 1D array! (If you're used to matlab, it fundamentally doesn't have a concept of a 1D array. Matlab's "1D" arrays are 2D.)
If you want to turn your 1D vector into a 2D array and then transpose it, just slice it with np.newaxis (or None, they're the same, newaxis is just more readable).
import numpy as np
a = np.array([5,4])[np.newaxis]
print(a)
print(a.T)
Generally speaking though, you don't ever need to worry about this. Adding the extra dimension is usually not what you want, if you're just doing it out of habit. Numpy will automatically broadcast a 1D array when doing various calculations. There's usually no need to distinguish between a row vector and a column vector (neither of which are vectors. They're both 2D!) when you just want a vector.
Use two bracket pairs instead of one. This creates a 2D array, which can be transposed, unlike the 1D array you create if you use one bracket pair.
import numpy as np
a = np.array([[5, 4]])
a.T
More thorough example:
>>> a = [3,6,9]
>>> b = np.array(a)
>>> b.T
array([3, 6, 9]) #Here it didn't transpose because 'a' is 1 dimensional
>>> b = np.array([a])
>>> b.T
array([[3], #Here it did transpose because a is 2 dimensional
[6],
[9]])
Use numpy's shape method to see what is going on here:
>>> b = np.array([10,20,30])
>>> b.shape
(3,)
>>> b = np.array([[10,20,30]])
>>> b.shape
(1, 3)
For 1D arrays:
a = np.array([1, 2, 3, 4])
a = a.reshape((-1, 1)) # <--- THIS IS IT
print a
array([[1],
[2],
[3],
[4]])
Once you understand that -1 here means "as many rows as needed", I find this to be the most readable way of "transposing" an array. If your array is of higher dimensionality simply use a.T.
You can convert an existing vector into a matrix by wrapping it in an extra set of square brackets...
from numpy import *
v=array([5,4]) ## create a numpy vector
array([v]).T ## transpose a vector into a matrix
numpy also has a matrix class (see array vs. matrix)...
matrix(v).T ## transpose a vector into a matrix
numpy 1D array --> column/row matrix:
>>> a=np.array([1,2,4])
>>> a[:, None] # col
array([[1],
[2],
[4]])
>>> a[None, :] # row, or faster `a[None]`
array([[1, 2, 4]])
And as #joe-kington said, you can replace None with np.newaxis for readability.
To 'transpose' a 1d array to a 2d column, you can use numpy.vstack:
>>> numpy.vstack(numpy.array([1,2,3]))
array([[1],
[2],
[3]])
It also works for vanilla lists:
>>> numpy.vstack([1,2,3])
array([[1],
[2],
[3]])
instead use arr[:,None] to create column vector
You can only transpose a 2D array. You can use numpy.matrix to create a 2D array. This is three years late, but I am just adding to the possible set of solutions:
import numpy as np
m = np.matrix([2, 3])
m.T
Basically what the transpose function does is to swap the shape and strides of the array:
>>> a = np.ones((1,2,3))
>>> a.shape
(1, 2, 3)
>>> a.T.shape
(3, 2, 1)
>>> a.strides
(48, 24, 8)
>>> a.T.strides
(8, 24, 48)
In case of 1D numpy array (rank-1 array) the shape and strides are 1-element tuples and cannot be swapped, and the transpose of such an 1D array returns it unchanged. Instead, you can transpose a "row-vector" (numpy array of shape (1, n)) into a "column-vector" (numpy array of shape (n, 1)). To achieve this you have to first convert your 1D numpy array into row-vector and then swap the shape and strides (transpose it). Below is a function that does it:
from numpy.lib.stride_tricks import as_strided
def transpose(a):
a = np.atleast_2d(a)
return as_strided(a, shape=a.shape[::-1], strides=a.strides[::-1])
Example:
>>> a = np.arange(3)
>>> a
array([0, 1, 2])
>>> transpose(a)
array([[0],
[1],
[2]])
>>> a = np.arange(1, 7).reshape(2,3)
>>> a
array([[1, 2, 3],
[4, 5, 6]])
>>> transpose(a)
array([[1, 4],
[2, 5],
[3, 6]])
Of course you don't have to do it this way since you have a 1D array and you can directly reshape it into (n, 1) array by a.reshape((-1, 1)) or a[:, None]. I just wanted to demonstrate how transposing an array works.
Another solution.... :-)
import numpy as np
a = [1,2,4]
[1, 2, 4]
b = np.array([a]).T
array([[1],
[2],
[4]])
The name of the function in numpy is column_stack.
>>>a=np.array([5,4])
>>>np.column_stack(a)
array([[5, 4]])
I am just consolidating the above post, hope it will help others to save some time:
The below array has (2, )dimension, it's a 1-D array,
b_new = np.array([2j, 3j])
There are two ways to transpose a 1-D array:
slice it with "np.newaxis" or none.!
print(b_new[np.newaxis].T.shape)
print(b_new[None].T.shape)
other way of writing, the above without T operation.!
print(b_new[:, np.newaxis].shape)
print(b_new[:, None].shape)
Wrapping [ ] or using np.matrix, means adding a new dimension.!
print(np.array([b_new]).T.shape)
print(np.matrix(b_new).T.shape)
There is a method not described in the answers but described in the documentation for the numpy.ndarray.transpose method:
For a 1-D array this has no effect, as a transposed vector is simply the same vector. To convert a 1-D array into a 2D column vector, an additional dimension must be added. np.atleast2d(a).T achieves this, as does a[:, np.newaxis].
One can do:
import numpy as np
a = np.array([5,4])
print(a)
print(np.atleast_2d(a).T)
Which (imo) is nicer than using newaxis.
As some of the comments above mentioned, the transpose of 1D arrays are 1D arrays, so one way to transpose a 1D array would be to convert the array to a matrix like so:
np.transpose(a.reshape(len(a), 1))
To transpose a 1-D array (flat array) as you have in your example, you can use the np.expand_dims() function:
>>> a = np.expand_dims(np.array([5, 4]), axis=1)
array([[5],
[4]])
np.expand_dims() will add a dimension to the chosen axis. In this case, we use axis=1, which adds a column dimension, effectively transposing your original flat array.
I have simple array like this
x = np.array([1,2,3,4])
In [3]: x.shape
Out[3]: (4,)
But I don't want shape to return (4,), but (4,1). How can I achieve this?
Generally in Numpy you would declare a matrix or vector using two square brackets. It's common misconception to use single square brackets for single dimensional matrix or vector.
Here is an example:
a = np.array([[1,2,3,4], [5,6,7,8]])
a.shape # (2,4) -> Multi-Dimensional Matrix
In similar way if I want single dimensional matrix then just remove the data not the outer square bracket.
a = np.array([[1,2,3,4]])
a.shape # (1,4) -> Row Matrix
b = np.array([[1], [2], [3], [4]])
b.shape # (4, 1) -> Column Matrix
When you use single square brackets, it's likely to give some odd dimensions.
Always enclose your data within another square bracket for such single dimensional matrix (like you are entering the data for multi-dimensional matrix) without data for those extra dimensions.
Also: You could also always reshape
x = np.array([1,2,3,4])
x = x.reshape(4,1)
x.shape # (4,1)
One Line:
x = np.array([1,2,3,4]).reshape(4,1)
x.shape # (4,1)
If you want a column vector use
x2 = x[:, np.newaxis]
x2.shape # (4, 1)
Alternatively, you could reshape the array yourself:
arr1 = np.array([1,2,3,4])
print arr1.shape
# (4,)
arr2 = arr1.reshape((4,1))
print arr2.shape
# (4, 1)
You could of course reshape the array when you create it:
arr1 = np.array([1,2,3,4]).reshape((4,1))
If you want to change the array in place as suggested by #FHTMitchell in the comments:
arr1.resize((4, 1))
Below achieves what you want. However, I strongly suggest you look at why exactly you need shape to return (4, 1). Most matrix-type operations are possible without this explicit casting.
x = np.array([1,2,3,4])
y = np.matrix(x)
z = y.T
x.shape # (4,)
y.shape # (1, 4)
z.shape # (4, 1)
You can use zip to transpose at python (non-numpy) level:
>>> a = [1, 2, 3, 4]
>>>
>>> *zip(a),
((1,), (2,), (3,), (4,))
>>>
>>> import numpy as np
>>> np.array([*zip(a)])
array([[1],
[2],
[3],
[4]])
Please note that while this is convenient in terms of key strokes it is a bit wasteful given that a tuple object has to be constructed for every list element whereas reshaping an array comes essentially for free. So do not use this on long lists.
I am trying a very basic example in Python scipy module for transpose() method but it's not giving expected result. I am using Ipython with pylab mode.
a = array([1,2,3]
print a.shape
>> (3,)
b = a.transpose()
print b.shape
>> (3,)
If I print the contents of arrays "a" and "b", they are similar.
Expectation is: (which will be result in Matlab on transpose)
[1,
2,
3]
NumPy's transpose() effectively reverses the shape of an array. If the array is one-dimensional, this means it has no effect.
In NumPy, the arrays
array([1, 2, 3])
and
array([1,
2,
3])
are actually the same – they only differ in whitespace. What you probably want are the corresponding two-dimensional arrays, for which transpose() would work fine. Also consider using NumPy's matrix type:
In [1]: numpy.matrix([1, 2, 3])
Out[1]: matrix([[1, 2, 3]])
In [2]: numpy.matrix([1, 2, 3]).T
Out[2]:
matrix([[1],
[2],
[3]])
Note that for most applications, the plain one-dimensional array would work fine as both a row or column vector, but when coming from Matlab, you might prefer using numpy.matrix.
Transpose is a noop for one-dimensional arrays.
Add new axis and transpose:
>>> a[None].T
array([[1],
[2],
[3]])
>>> np.newaxis is None
True
Or reshape:
>>> a.reshape(a.shape+(1,))
array([[1],
[2],
[3]])
Or as #Sven Marnach suggested in comments, add new axis at the end:
>>> a[:,None]
array([[1],
[2],
[3]])
A more concise way to reshape a 1D array into a 2D array is:
a = np.array([1,2,3]), a_2d = a.reshape((1,-1)) or a_2d = a.reshape((-1,1))
The -1 in the shape vector means "fill in whatever number makes this work"
You should try: a = array([[1,2,3]]) or a = array([[1],[2],[3]]) , that is, a should be a matrix (row vector, column vector).
I am trying to index a numpy.array with varying dimensions during runtime. To retrieve e.g. the first row of a n*m array a, you can simply do
a[0,:]
However, in case a happens to be a 1xn vector, this code above returns an index error:
IndexError: too many indices
As the code needs to be executed as efficiently as possible I don't want to introduce an if statement. Does anybody have a convenient solution that ideally doesn't involve changing any data structure types?
Just use a[0] instead of a[0,:]. It will return the first line for a matrix and the first entry for a vector. Is this what you are looking for?
If you want to get the whole vector in the one-dimensional case instead, you can use numpy.atleast_2d(a)[0]. It won't copy your vector -- it will just access it as a two-dimensional 1 x n-array.
From the 'array' or 'matrix'? Which should I use? section of the Numpy for Matlab Users wiki page:
For array, the vector shapes 1xN, Nx1, and N are all different things. Operations like A[:,1] return a rank-1 array of shape N, not a rank-2 of shape Nx1. Transpose on a rank-1 array does nothing.
Here's an example showing that they are not the same:
>>> import numpy as np
>>> a1 = np.array([1,2,3])
>>> a1
array([1, 2, 3])
>>> a2 = np.array([[1,2,3]]) // Notice the two sets of brackets
>>> a2
array([[1, 2, 3]])
>>> a3 = np.array([[1],[2],[3]])
>>> a3
array([[1],
[2],
[3]])
So, are you sure that all of your arrays are 2d arrays, or are some of them 1d arrays?
If you want to use your command of array[0,:], I would recommend actually using 1xN 2d arrays instead of 1d arrays. Here's an example:
>>> a2 = np.array([[1,2,3]]) // Notice the two sets of brackets
>>> a2
array([[1, 2, 3]])
>>> a2[0,:]
array([1, 2, 3])
>>> b2 = np.array([[1,2,3],[4,5,6]])
>>> b2
array([[1, 2, 3],
[4, 5, 6]])
>>> b2[0,:]
array([1, 2, 3])