DS140223 DS_TA
global_var = “This is a global variable.”
def print_global_var():
print(global_var)
print_global_var()
add = lambda x, y: x + y
print(type(add))
def my_func():
local_var = “This is a local variable.”
print(local_var)
my_func()
x = 5
def a():
print(x)
a()
a=5
b=10
add = lambda a,b: a+b
print(type(add))
def a():
x=5
print(x)
a()
Var1=10
def f1():
Print(x)
f1()
x=7
Y=9
Subtract=lambda x,y:x-y
Print(type(subtract))
def f2():
x=3
print(x)
f2()
global_var = 10
def print_global_var():
print(“Global variable is:”, global_var)
print_global_var() # Output: Global variable is: 10
Program to demonstrate return type of Python lambda keyword
def print_local_var():
local_var = 20
print(“Local variable is:”, local_var)
print_local_var() # Output: Local variable is: 20
Creating local variables in Python
square = lambda x: x**2
print(square(5))
get_even_numbers = lambda lst: [num for num in lst if num % 2 == 0]
print(get_even_numbers([1, 2, 3, 4, 5, 6])) # Output: [2, 4, 6]
get_dict = lambda n: {i: i+1 for i in range(n) if i % 2 == 0}
print(get_dict(5)) # Output: {0: 1, 2: 3, 4: 5}
global = 10
def print_global():
print (“This is global var”, global)
print(print_global):
lambda1 = list(map(lambdax:x+1, x)
print(lambda1)
def localvar():
x= 10
print (“x is localvar =”,x)
localvar()
#1
x = “edyoda”
def g():
x = 30
pass
g()
print(x)
#2
square = lambda x: x**2
print(type(square))
#3
x = 20
def g():
x = “Edyoda”
print(x)
g()