Search the Element in a list

flag=0
L=int(raw_input("Enter the length of list: "))
p=list()
for i in range(L):
      num=int(raw_input("Enter the elements : "))
      p.append(num)
j=int(raw_input("Enter the element to find: "))
     
for i in range(L):
      if (p[i]==j):
            flag=1
if flag==1:
      print "Element is found"
else:
        print "Element is not found"

Delete Duplicate numbers in a list

l1=list()
l2=list()
w=int(raw_input("Enter the elements in list:"))
for i in range(w):
      n=int(raw_input("Enter the list:"))
      l1.append(n)

for i in l1:
 if i not in l2:
  l2.append(i)
print ' Delete Duplicate numbers in a list: ', l2

Program to check the Perfect Number or Not

num=input("Enter the number:")
i=1
while i<=num/2:
 s=i**2
 if s==num:
  print "perfect square"
  break
 i+=1
else:
 print "Not a perfect square"

Program to find even number using functions without return

def even(n):
      if  n%2==0:
            print 'Even number'
      else:
            print 'Odd Number'

n=int(raw_input('Enter the number to check even or not:'))
even(n)  # No return from function but the message is displayed inside the function itself

Simple Calculator using functions

def su(a,b):  
      c=a+b
      print 'Added value is:',c
     
def subt(a,b):
            if a>b:
                  c=a-b
                  print 'Subtracted value is:',c
            else:
                  c=b-a
                  print 'Subtracted value is:',c
                  
def mul(a,b):
      c=a*b
      print 'Multiplication value is:',c

def div(a,b):
      if b==0:         
            print 'Division by zero not defined'
      else:
            c=float(a)/b
            print 'Divison value is:',c

def exp(a,b):
      c=a**b
      print 'Exponent value is:',c


a=int(raw_input('Enter the value of a:'))
b=int(raw_input('Enter the value of b:'))
print ' 1. add  2.sub  3.mul  4. div  5.exp'
n=int(raw_input('Enter the choice:'))
if n==1:
      su(a,b)        # Function call
elif n==2:
      subt(a,b)    # Function call
elif n==3:
      mul(a,b)          # Function call
elif n==4:
      div(a,b)    # Function call
elif n==5:
      exp(a,b)    # Function call
else:
      print 'Invalid options'

Sum of digits of the a given number

n=int(raw_input('Enter the number: '))
sum=0
while n>0:
      rem=n%10
      sum=sum+rem
      n=n/10
print 'Sum of digits of the number is: ',sum

Car Class Program

# define the Vehicle class
class Vehicle:
    name = ""              # initial value setting inisde the clas iteself
    kind = "car"           # initial value setting inisde the clas iteself
    color = ""             # initial value setting inisde the clas iteself
    value = 100.00         # initial value setting inisde the clas iteself
    def description(self): # creating function inside the class amd return as string
        desc_str = "%s is a %s %s worth $%.2f." % (self.name, self.color, self.kind, self.value)
        return desc_str
     
     
car= Vehicle()             # creates a object [car1] for class vehicle
print car.description()    # using created object calling the function inside class


car1 = Vehicle()           # creates a object car for class vehicle
car1.name = "Fer"          # using object[car1] variables on the class vehicle is assigned
car1.color = "red"         # using object[car1] variables on the class vehicle is assigned
car1.kind = "convertible"  # using object[car1] variables on the class vehicle is assigned
car1.value = 60000.00      # using object[car1] variables on the class vehicle is assigned

car2 = Vehicle()
car2.name = "Jump"
car2.color = "blue"
car2.kind = "van"
car2.value = 10000.00

print car.description()    # Using object [car] created calling the functions[description()]inside the class
print car1.description()   # Using object [car1] created calling the functions[description()]inside the class
print car2.description()   # Using object [car2] created calling the functions[description()]inside the class

Simple Class Program in Python

class MyClass:          # class is created
    variable = "blah"   # variable is created and assigned the value

    def function(self): # funtion is created iniside the class as self
        print "This is a message inside the class."
       
       
       
myobjectx = MyClass()     # object[myobjectx] is created for class
myobjectx.variable        # using created object variable in the class is accessed

myobjecty = MyClass()          # object[myobjecty] is created for class
myobjecty.variable = "yackity" # using created object variable in the class new value is assigned

print myobjectx.variable       # using corresponding object and variable the value is displayed
print myobjecty.variable       # using corresponding object and variable the value is displayed
print MyClass.variable         # using corresponding object and variable the value is displayed

myobjectx.function()           # using corresponding object and function inside the class is accessed

A database with integer key using pickle

import anydbm
db = anydbm.open('integer.db', 'c')
import pickle
# A limitation of anydbm is that the keys and values have to be strings.
#  If you try to use any other type, you get an error

# The pickle module can help. It translates almost any type of object into a string suitable
# for storage in a database, and then translates strings back into objects.
k = 1
f=pickle.dumps(k)
db[f] = 'Babu'
print 'Value:',db[f]
print 'Key:',f
db.close()
r=pickle.loads(f)
print 'Key Value back:',r

Create database and store key value pairs

import anydbm
db = anydbm.open('captions.db', 'c')
db['c1'] = 'Photo of John Cleese.'
print db['c1']
db['c2'] = 'Photo of John Cleese doing a silly walk.'
print db['c2']

for key in db:
      print key

db.close()

Value Meaning
'r' Open existing database for reading only (default)
'w' Open existing database for reading and writing
'c' Open database for reading and writing, creating it if it doesn’t exist 
'n' Always create a new, empty database, open for reading and writing

anydbm in python.org package
dbm in anaconda package