I have a list like this:
a = [[4.0, 4, 4.0], [3.0, 3, 3.6], [3.5, 6, 4.8]]
I want an outcome like this (EVERY first element in the list):
4.0, 3.0, 3.5
I tried a[::1][0]
, but it doesn't work
I have a list like this:
a = [[4.0, 4, 4.0], [3.0, 3, 3.6], [3.5, 6, 4.8]]
I want an outcome like this (EVERY first element in the list):
4.0, 3.0, 3.5
I tried a[::1][0]
, but it doesn't work
You can get the index [0]
from each element in a list comprehension
>>> [i[0] for i in a]
[4.0, 3.0, 3.5]
[first for first, *_ in a]
Commented
Sep 13, 2021 at 11:56
Use zip:
columns = zip(*rows) #transpose rows to columns
print columns[0] #print the first column
#you can also do more with the columns
print columns[1] # or print the second column
columns.append([7,7,7]) #add a new column to the end
backToRows = zip(*columns) # now we are back to rows with a new column
print backToRows
You can also use numpy:
a = numpy.array(a)
print a[:,0]
Edit: zip object is not subscriptable. It need to be converted to list to access as list:
column = list(zip(*row))
You could use this:
a = ((4.0, 4, 4.0), (3.0, 3, 3.6), (3.5, 6, 4.8))
a = np.array(a)
a[:,0]
returns >>> array([4. , 3. , 3.5])
You can get it like
[ x[0] for x in a]
which will return a list of the first element of each list in a
Compared the 3 methods
D2_list=[list(range(100))]*100
t1=time.time()
for i in range(10**5):
for j in range(10):
b=[k[j] for k in D2_list]
D2_list_time=time.time()-t1
array=np.array(D2_list)
t1=time.time()
for i in range(10**5):
for j in range(10):
b=array[:,j]
Numpy_time=time.time()-t1
D2_trans = list(zip(*D2_list))
t1=time.time()
for i in range(10**5):
for j in range(10):
b=D2_trans[j]
Zip_time=time.time()-t1
print ('2D List:',D2_list_time)
print ('Numpy:',Numpy_time)
print ('Zip:',Zip_time)
The Zip method works best. It was quite useful when I had to do some column wise processes for mapreduce jobs in the cluster servers where numpy was not installed.
If you have access to numpy,
import numpy as np
a_transposed = a.T
# Get first row
print(a_transposed[0])
The benefit of this method is that if you want the "second" element in a 2d list, all you have to do now is a_transposed[1]
. The a_transposed
object is already computed, so you do not need to recalculate.
Finding the first element in a 2-D list can be rephrased as find the first column in the 2d list. Because your data structure is a list of rows
, an easy way of sampling the value at the first index in every row is just by transposing the matrix and sampling the first list.
Try using
for i in a :
print(i[0])
i represents individual row in a.So,i[0] represnts the 1st element of each row.