The numpy.greater() checks whether x1 is greater than x2 or not. Syntax :
numpy.greater(x1, x2[, out])
Parameters :
x1, x2 : [array_like]Input arrays. If x1.shape != x2.shape, they must be broadcastable to a common shape out : [ndarray, boolean]Array of bools, or a single bool if x1 and x2 are scalars.
Return :
Boolean array indicating results, whether x1 is greater than x2 or not.
Code 1 :
Python
# Python Program illustrating # numpy.greater() method import numpy as geek
a = geek.greater([ 8. , 2. ], [ 5. , 3. ])
print ( "Not equal : \n" , a, "\n" )
b = geek.greater([ 2 , 2 ], [[ 1 , 3 ],[ 1 , 4 ]])
print ( "Not equal : \n" , b, "\n" )
a = geek.array([ 4 , 2 ])
b = geek.array([ 6 , 2 ])
print ( "Is a greater than b : " , a > b)
|
Output :
Not equal : [ True False] Not equal : [[ True False] [ True False]] Is a greater than b : [False False]
Code 2 :
Python
# Python Program illustrating # numpy.greater() method import numpy as geek
# Here we will compare Float with int values a = geek.array([ 1.1 , 1 ])
b = geek.array([ 1 , 2 ])
# indicating 1.1 is greater than 1 print ( "Comparing float with int : " , a < b)
# indicating 1.1 is greater than 1 d = geek.greater(a, b)
print ( "\n Comparing float with int using .greater() : " , d)
|
Output :
Comparing float with int : [False True] Comparing float with int using .greater() : [ True False]
Code 3 :
Python
# Python Program illustrating # numpy.greater() method import numpy as geek
# Here we will compare Complex values with int a = geek.array([ 1j , 2 ])
b = geek.array([ 1 , 2 ])
# indicating 1j is greater than 1 print ( "Comparing complex with int : " , a < b)
# indicating 1j is greater than 1 d = geek.greater(a, b)
print ( "\nComparing complex with int using .greater() : " , d)
|
Output :
Comparing complex with int : [ True False] Comparing complex with int using .greater() : [False False]
Note : These codes won’t run on online IDE’s. So please, run them on your systems to explore the working.