rgautam98/FTPserver.py

## atoz.py
# This program pretty much specifies in and around of the basics of python

# import is used to make specialty functions available
# These are called modules
import random
import sys
import os

# Hello world is just one line of code
# print() outputs data to the screen
print("Hello World")

'''
This is a multi-line comment
'''

# A variable is a place to store values
# Its name is like a label for that value
name = "Derek"
print(name)

# A variable name can contain letters, numbers, or _
# but can't start with a number

# There are 5 data types Numbers, Strings, List, Tuple, Dictionary
# You can store any of them in the same variable

name = 15
print(name)

# The arithmetic operators +, -, *, /, %, **, //
# ** Exponential calculation
# // Floor Division
print("5 + 2 =", 5+2)
print("5 - 2 =", 5-2)
print("5 * 2 =", 5*2)
print("5 / 2 =", 5/2)
print("5 % 2 =", 5%2)
print("5 ** 2 =", 5**2)
print("5 // 2 =", 5//2)

# Order of Operation states * and / is performed before + and -

print("1 + 2 - 3 * 2 =", 1 + 2 - 3 * 2)
print("(1 + 2 - 3) * 2 =", (1 + 2 - 3) * 2)

# A string is a string of characters surrounded by " or '
# If you must use a " or ' between the same quote escape it with \
quote = "\"Always remember your unique,"

# A multi-line quote
multi_line_quote = ''' just
like everyone else" '''

print(quote + multi_line_quote)

# To embed a string in output use %s
print("%s %s %s" % ('I like the quote', quote, multi_line_quote))

# To keep from printing newlines use end=""
print("I don't like ",end="")
print("newlines")

# You can print a string multiple times with *
print('\n' * 5)

# LISTS -------------
# A list allows you to create a list of values and manipulate them
# Each value has an index with the first one starting at 0

grocery_list = ['Juice', 'Tomatoes', 'Potatoes', 'Bananas']
print('The first item is', grocery_list[1])

# You can change the value stored in a list box
grocery_list[0] = "Green Juice"
print(grocery_list)

# You can get a subset of the list with [min:up to but not including max]

print(grocery_list[1:3])

# You can put any data type in a a list including a list
other_events = ['Wash Car', 'Pick up Kids', 'Cash Check']
to_do_list = [other_events, grocery_list]

print(to_do_list)

# Get the second item in the second list (Boxes inside of boxes)
print(to_do_list[1][1])

# You add values using append
grocery_list.append('onions')
print(to_do_list)

# Insert item at given index
grocery_list.insert(1, "Pickle")

# Remove item from list
grocery_list.remove("Pickle")

# Sorts items in list
grocery_list.sort()

# Reverse sort items in list
grocery_list.reverse()

# del deletes an item at specified index
del grocery_list[4]
print(to_do_list)

# We can combine lists with a +
to_do_list = other_events + grocery_list
print(to_do_list)

# Get length of list
print(len(to_do_list))

# Get the max item in list
print(max(to_do_list))

# Get the minimum item in list
print(min(to_do_list))

# TUPLES -------------
# Values in a tuple can't change like lists

pi_tuple = (3, 1, 4, 1, 5, 9)

# Convert tuple into a list
new_tuple = list(pi_tuple)

# Convert a list into a tuple
# new_list = tuple(grocery_list)

# tuples also have len(tuple), min(tuple) and max(tuple)

# DICTIONARY or MAP -------------
# Made up of values with a unique key for each value
# Similar to lists, but you can't join dicts with a +

super_villains = {'Fiddler' : 'Isaac Bowin',
                  'Captain Cold' : 'Leonard Snart',
                  'Weather Wizard' : 'Mark Mardon',
                  'Mirror Master' : 'Sam Scudder',
                  'Pied Piper' : 'Thomas Peterson'}

print(super_villains['Captain Cold'])

# Delete an entry
del super_villains['Fiddler']
print(super_villains)

# Replace a value
super_villains['Pied Piper'] = 'Hartley Rathaway'

# Print the number of items in the dictionary
print(len(super_villains))

# Get the value for the passed key
print(super_villains.get("Pied Piper"))

# Get a list of dictionary keys
print(super_villains.keys())

# Get a list of dictionary values
print(super_villains.values())

# CONDITIONALS -------------
# The if, else and elif statements are used to perform different
# actions based off of conditions
# Comparison Operators : ==, !=, >, <, >=, <=

# The if statement will execute code if a condition is met
# White space is used to group blocks of code in Python
# Use the same number of proceeding spaces for blocks of code

age = 30
if age > 16 :
    print('You are old enough to drive')

# Use an if statement if you want to execute different code regardless
# of whether the condition ws met or not

if age > 16 :
    print('You are old enough to drive')
else :
    print('You are not old enough to drive')

# If you want to check for multiple conditions use elif
# If the first matches it won't check other conditions that follow

if age >= 21 :
    print('You are old enough to drive a tractor trailer')
elif age >= 16:
    print('You are old enough to drive a car')
else :
    print('You are not old enough to drive')

# You can combine conditions with logical operators
# Logical Operators : and, or, not

if ((age >= 1) and (age <= 18)):
    print("You get a birthday party")
elif (age == 21) or (age >= 65):
    print("You get a birthday party")
elif not(age == 30):
    print("You don't get a birthday party")
else:
    print("You get a birthday party yeah")

# FOR LOOPS -------------
# Allows you to perform an action a set number of times
# Range performs the action 10 times 0 - 9
for x in range(0, 10):
    print(x , ' ', end="")

print('\n')

# You can use for loops to cycle through a list
grocery_list = ['Juice', 'Tomatoes', 'Potatoes', 'Bananas']

for y in grocery_list:
    print(y)

# You can also define a list of numbers to cycle through
for x in [2,4,6,8,10]:
    print(x)

# You can double up for loops to cycle through lists
num_list =[[1,2,3],[10,20,30],[100,200,300]];

for x in range(0,3):
    for y in range(0,3):
        print(num_list[x][y])

# WHILE LOOPS -------------
# While loops are used when you don't know ahead of time how many
# times you'll have to loop
random_num = random.randrange(0,100)

while (random_num != 15):
    print(random_num)
    random_num = random.randrange(0,100)

# An iterator for a while loop is defined before the loop
i = 0;
while (i <= 20):
    if(i%2 == 0):
        print(i)
    elif(i == 9):
        # Forces the loop to end all together
        break
    else:
        # Shorthand for i = i + 1
        i += 1
        # Skips to the next iteration of the loop
        continue

    i += 1

# FUNCTIONS -------------
# Functions allow you to reuse and write readable code
# Type def (define), function name and parameters it receives
# return is used to return something to the caller of the function
def addNumbers(fNum, sNum):
    sumNum = fNum + sNum
    return sumNum

print(addNumbers(1, 4))

# Can't get the value of rNum because it was created in a function
# It is said to be out of scope
# print(sumNum)

# If you define a variable outside of the function it works every place
newNum = 0;
def subNumbers(fNum, sNum):
    newNum = fNum - sNum
    return newNum

print(subNumbers(1, 4))

# USER INPUT -------------
print('What is your name?')

# Stores everything typed up until ENTER
name = sys.stdin.readline()

print('Hello', name)

# STRINGS -------------
# A string is a series of characters surrounded by ' or "
long_string = "I'll catch you if you fall - The Floor"

# Retrieve the first 4 characters
print(long_string[0:4])

# Get the last 5 characters
print(long_string[-5:])

# Everything up to the last 5 characters
print(long_string[:-5])

# Concatenate part of a string to another
print(long_string[:4] + " be there")

# String formatting
print("%c is my %s letter and my number %d number is %.5f" % ('X', 'favorite', 1, .14))

# Capitalizes the first letter
print(long_string.capitalize())

# Returns the index of the start of the string
# case sensitive
print(long_string.find("Floor"))

# Returns true if all characters are letters ' isn't a letter
print(long_string.isalpha())

# Returns true if all characters are numbers
print(long_string.isalnum())

# Returns the string length
print(len(long_string))

# Replace the first word with the second (Add a number to replace more)
print(long_string.replace("Floor", "Ground"))

# Remove white space from front and end
print(long_string.strip())

# Split a string into a list based on the delimiter you provide
quote_list = long_string.split(" ")
print(quote_list)

# FILE I/O -------------

# Overwrite or create a file for writing
test_file = open("test.txt", "wb")

# Get the file mode used
print(test_file.mode)

# Get the files name
print(test_file.name)

# Write text to a file with a newline
test_file.write(bytes("Write me to the file\n", 'UTF-8'))

# Close the file
test_file.close()

# Opens a file for reading and writing
test_file = open("test.txt", "r+")

# Read text from the file
text_in_file = test_file.read()

print(text_in_file)

# Delete the file
os.remove("test.txt")

# CLASSES AND OBJECTS -------------
# The concept of OOP allows us to model real world things using code
# Every object has attributes (color, height, weight) which are object variables
# Every object has abilities (walk, talk, eat) which are object functions

class Animal:
    # None signifies the lack of a value
    # You can make a variable private by starting it with __
    __name = None
    __height = None
    __weight = None
    __sound = None

    # The constructor is called to set up or initialize an object
    # self allows an object to refer to itself inside of the class
    def __init__(self, name, height, weight, sound):
        self.__name = name
        self.__height = height
        self.__weight = weight
        self.__sound = sound

    def set_name(self, name):
        self.__name = name

    def set_height(self, height):
        self.__height = height

    def set_weight(self, height):
        self.__height = height

    def set_sound(self, sound):
        self.__sound = sound

    def get_name(self):
        return self.__name

    def get_height(self):
        return str(self.__height)

    def get_weight(self):
        return str(self.__weight)

    def get_sound(self):
        return self.__sound

    def get_type(self):
        print("Animal")

    def toString(self):
        return "{} is {} cm tall and {} kilograms and says {}".format(self.__name, self.__height, self.__weight, self.__sound)

# How to create a Animal object
cat = Animal('Whiskers', 33, 10, 'Meow')

print(cat.toString())

# You can't access this value directly because it is private
#print(cat.__name)

# INHERITANCE -------------
# You can inherit all of the variables and methods from another class

class Dog(Animal):
    __owner = None

    def __init__(self, name, height, weight, sound, owner):
        self.__owner = owner
        self.__animal_type = None

        # How to call the super class constructor
        super(Dog, self).__init__(name, height, weight, sound)

    def set_owner(self, owner):
        self.__owner = owner

    def get_owner(self):
        return self.__owner

    def get_type(self):
        print ("Dog")

    # We can overwrite functions in the super class
    def toString(self):
        return "{} is {} cm tall and {} kilograms and says {}. His owner is {}".format(self.get_name(), self.get_height(), self.get_weight(), self.get_sound(), self.__owner)

    # You don't have to require attributes to be sent
    # This allows for method overloading
    def multiple_sounds(self, how_many=None):
        if how_many is None:
            print(self.get_sound)
        else:
            print(self.get_sound() * how_many)

spot = Dog("Spot", 53, 27, "Ruff", "Derek")

print(spot.toString())

# Polymorphism allows use to refer to objects as their super class
# and the correct functions are called automatically

class AnimalTesting:
    def get_type(self, animal):
        animal.get_type()

test_animals = AnimalTesting()

test_animals.get_type(cat)
test_animals.get_type(spot)

spot.multiple_sounds(4)

## flaskadmin_FTPServer.py
# Pretty much FTP, but with a good admin panel.

from flask_admin import Admin
from flask_admin.contrib.fileadmin import FileAdmin
import flask

app = flask.Flask(__name__)
app.secret_key = "0057743"
admin = Admin(app, name="File Browser")

HOME_DIRECTORY = "/home/gautam/FTPServer/Files/"

class FileBrowser(FileAdmin):
    pass


@app.route("/")
def Index():
    return flask.redirect("/admin")

@app.route("/files/<string:path>")
def Download(path):
    path = HOME_DIRECTORY + path
    return flask.send_file(path)

if __name__ == "__main__":
    admin.add_view(FileBrowser("/home/gautam/FTPServer/Files", "/files/", name="File Browser"))
    app.run(host="0.0.0.0", port=9398, debug=True)

## FTPserver.py
# FTP all the way with flask

import flask
from flask import request
from werkzeug import secure_filename
import os
from glob import glob

app = flask.Flask(__name__)
app.config["UPLOAD_FOLDER"] = "uploads"
app.secret_key = "1210315909"

@app.route("/")
def Index():
    return flask.render_template("index2.html")

@app.route("/upload", methods=["GET", "POST"])
def Upload():
    if request.method == "GET":
        return flask.render_template("upload.html")
    else:
        filenames = []
        uploads = request.files.getlist("uploads")

        if not uploads:
            return flask.render_template("upload.html")

        else:
            for i in uploads:
                file_name = secure_filename(i.filename)
                filenames.append(file_name)
                file_path = "/home/gautam/FTPServer/Files/" + file_name
                i.save(file_path)
                print("Saved: " +str(file_path))
        return flask.render_template("AfterUpload.html", filenames=filenames)


@app.route("/downloads")
def DisplayDownloads():
    current_dir = os.getcwd()
    os.chdir("/home/gautam/FTPServer/Files/")
    contents = glob("*")
    os.chdir(current_dir)
    return flask.render_template("downloadList.html", contents=contents)

@app.route("/download")
@app.route("/download/<string:filename>")
def Download(filename=None):
    if not filename:
        return flask.redirect(flask.url_for("DisplayDownloads"))
    else:
        filename = "/home/gautam/FTPServer/Files/" + filename
        resp = flask.make_response(flask.send_file(filename))
        return resp

if __name__ == "__main__":
    app.run(host="0.0.0.0", port=7070, debug=True)
	# This program pretty much specifies in and around of the basics of python

	# import is used to make specialty functions available
	# These are called modules
	import random
	import sys
	import os

	# Hello world is just one line of code
	# print() outputs data to the screen
	print("Hello World")

	'''
	This is a multi-line comment
	'''

	# A variable is a place to store values
	# Its name is like a label for that value
	name = "Derek"
	print(name)

	# A variable name can contain letters, numbers, or _
	# but can't start with a number

	# There are 5 data types Numbers, Strings, List, Tuple, Dictionary
	# You can store any of them in the same variable

	name = 15
	print(name)

	# The arithmetic operators +, -, , /, %, *, //
	# ** Exponential calculation
	# // Floor Division
	print("5 + 2 =", 5+2)
	print("5 - 2 =", 5-2)
	print("5 * 2 =", 5*2)
	print("5 / 2 =", 5/2)
	print("5 % 2 =", 5%2)
	print("5 2 =", 52)
	print("5 // 2 =", 5//2)

	# Order of Operation states * and / is performed before + and -

	print("1 + 2 - 3 * 2 =", 1 + 2 - 3 * 2)
	print("(1 + 2 - 3) * 2 =", (1 + 2 - 3) * 2)

	# A string is a string of characters surrounded by " or '
	# If you must use a " or ' between the same quote escape it with \
	quote = "\"Always remember your unique,"

	# A multi-line quote
	multi_line_quote = ''' just
	like everyone else" '''

	print(quote + multi_line_quote)

	# To embed a string in output use %s
	print("%s %s %s" % ('I like the quote', quote, multi_line_quote))

	# To keep from printing newlines use end=""
	print("I don't like ",end="")
	print("newlines")

	# You can print a string multiple times with *
	print('\n' * 5)

	# LISTS -------------
	# A list allows you to create a list of values and manipulate them
	# Each value has an index with the first one starting at 0

	grocery_list = ['Juice', 'Tomatoes', 'Potatoes', 'Bananas']
	print('The first item is', grocery_list[1])

	# You can change the value stored in a list box
	grocery_list[0] = "Green Juice"
	print(grocery_list)

	# You can get a subset of the list with [min:up to but not including max]

	print(grocery_list[1:3])

	# You can put any data type in a a list including a list
	other_events = ['Wash Car', 'Pick up Kids', 'Cash Check']
	to_do_list = [other_events, grocery_list]

	print(to_do_list)

	# Get the second item in the second list (Boxes inside of boxes)
	print(to_do_list[1][1])

	# You add values using append
	grocery_list.append('onions')
	print(to_do_list)

	# Insert item at given index
	grocery_list.insert(1, "Pickle")

	# Remove item from list
	grocery_list.remove("Pickle")

	# Sorts items in list
	grocery_list.sort()

	# Reverse sort items in list
	grocery_list.reverse()

	# del deletes an item at specified index
	del grocery_list[4]
	print(to_do_list)

	# We can combine lists with a +
	to_do_list = other_events + grocery_list
	print(to_do_list)

	# Get length of list
	print(len(to_do_list))

	# Get the max item in list
	print(max(to_do_list))

	# Get the minimum item in list
	print(min(to_do_list))

	# TUPLES -------------
	# Values in a tuple can't change like lists

	pi_tuple = (3, 1, 4, 1, 5, 9)

	# Convert tuple into a list
	new_tuple = list(pi_tuple)

	# Convert a list into a tuple
	# new_list = tuple(grocery_list)

	# tuples also have len(tuple), min(tuple) and max(tuple)

	# DICTIONARY or MAP -------------
	# Made up of values with a unique key for each value
	# Similar to lists, but you can't join dicts with a +

	super_villains = {'Fiddler' : 'Isaac Bowin',
	'Captain Cold' : 'Leonard Snart',
	'Weather Wizard' : 'Mark Mardon',
	'Mirror Master' : 'Sam Scudder',
	'Pied Piper' : 'Thomas Peterson'}

	print(super_villains['Captain Cold'])

	# Delete an entry
	del super_villains['Fiddler']
	print(super_villains)

	# Replace a value
	super_villains['Pied Piper'] = 'Hartley Rathaway'

	# Print the number of items in the dictionary
	print(len(super_villains))

	# Get the value for the passed key
	print(super_villains.get("Pied Piper"))

	# Get a list of dictionary keys
	print(super_villains.keys())

	# Get a list of dictionary values
	print(super_villains.values())

	# CONDITIONALS -------------
	# The if, else and elif statements are used to perform different
	# actions based off of conditions
	# Comparison Operators : ==, !=, >, <, >=, <=

	# The if statement will execute code if a condition is met
	# White space is used to group blocks of code in Python
	# Use the same number of proceeding spaces for blocks of code

	age = 30
	if age > 16 :
	print('You are old enough to drive')

	# Use an if statement if you want to execute different code regardless
	# of whether the condition ws met or not

	if age > 16 :
	print('You are old enough to drive')
	else :
	print('You are not old enough to drive')

	# If you want to check for multiple conditions use elif
	# If the first matches it won't check other conditions that follow

	if age >= 21 :
	print('You are old enough to drive a tractor trailer')
	elif age >= 16:
	print('You are old enough to drive a car')
	else :
	print('You are not old enough to drive')

	# You can combine conditions with logical operators
	# Logical Operators : and, or, not

	if ((age >= 1) and (age <= 18)):
	print("You get a birthday party")
	elif (age == 21) or (age >= 65):
	print("You get a birthday party")
	elif not(age == 30):
	print("You don't get a birthday party")
	else:
	print("You get a birthday party yeah")

	# FOR LOOPS -------------
	# Allows you to perform an action a set number of times
	# Range performs the action 10 times 0 - 9
	for x in range(0, 10):
	print(x , ' ', end="")

	print('\n')

	# You can use for loops to cycle through a list
	grocery_list = ['Juice', 'Tomatoes', 'Potatoes', 'Bananas']

	for y in grocery_list:
	print(y)

	# You can also define a list of numbers to cycle through
	for x in [2,4,6,8,10]:
	print(x)

	# You can double up for loops to cycle through lists
	num_list =[[1,2,3],[10,20,30],[100,200,300]];

	for x in range(0,3):
	for y in range(0,3):
	print(num_list[x][y])

	# WHILE LOOPS -------------
	# While loops are used when you don't know ahead of time how many
	# times you'll have to loop
	random_num = random.randrange(0,100)

	while (random_num != 15):
	print(random_num)
	random_num = random.randrange(0,100)

	# An iterator for a while loop is defined before the loop
	i = 0;
	while (i <= 20):
	if(i%2 == 0):
	print(i)
	elif(i == 9):
	# Forces the loop to end all together
	break
	else:
	# Shorthand for i = i + 1
	i += 1
	# Skips to the next iteration of the loop
	continue

	i += 1

	# FUNCTIONS -------------
	# Functions allow you to reuse and write readable code
	# Type def (define), function name and parameters it receives
	# return is used to return something to the caller of the function
	def addNumbers(fNum, sNum):
	sumNum = fNum + sNum
	return sumNum

	print(addNumbers(1, 4))

	# Can't get the value of rNum because it was created in a function
	# It is said to be out of scope
	# print(sumNum)

	# If you define a variable outside of the function it works every place
	newNum = 0;
	def subNumbers(fNum, sNum):
	newNum = fNum - sNum
	return newNum

	print(subNumbers(1, 4))

	# USER INPUT -------------
	print('What is your name?')

	# Stores everything typed up until ENTER
	name = sys.stdin.readline()

	print('Hello', name)

	# STRINGS -------------
	# A string is a series of characters surrounded by ' or "
	long_string = "I'll catch you if you fall - The Floor"

	# Retrieve the first 4 characters
	print(long_string[0:4])

	# Get the last 5 characters
	print(long_string[-5:])

	# Everything up to the last 5 characters
	print(long_string[:-5])

	# Concatenate part of a string to another
	print(long_string[:4] + " be there")

	# String formatting
	print("%c is my %s letter and my number %d number is %.5f" % ('X', 'favorite', 1, .14))

	# Capitalizes the first letter
	print(long_string.capitalize())

	# Returns the index of the start of the string
	# case sensitive
	print(long_string.find("Floor"))

	# Returns true if all characters are letters ' isn't a letter
	print(long_string.isalpha())

	# Returns true if all characters are numbers
	print(long_string.isalnum())

	# Returns the string length
	print(len(long_string))

	# Replace the first word with the second (Add a number to replace more)
	print(long_string.replace("Floor", "Ground"))

	# Remove white space from front and end
	print(long_string.strip())

	# Split a string into a list based on the delimiter you provide
	quote_list = long_string.split(" ")
	print(quote_list)

	# FILE I/O -------------

	# Overwrite or create a file for writing
	test_file = open("test.txt", "wb")

	# Get the file mode used
	print(test_file.mode)

	# Get the files name
	print(test_file.name)

	# Write text to a file with a newline
	test_file.write(bytes("Write me to the file\n", 'UTF-8'))

	# Close the file
	test_file.close()

	# Opens a file for reading and writing
	test_file = open("test.txt", "r+")

	# Read text from the file
	text_in_file = test_file.read()

	print(text_in_file)

	# Delete the file
	os.remove("test.txt")

	# CLASSES AND OBJECTS -------------
	# The concept of OOP allows us to model real world things using code
	# Every object has attributes (color, height, weight) which are object variables
	# Every object has abilities (walk, talk, eat) which are object functions

	class Animal:
	# None signifies the lack of a value
	# You can make a variable private by starting it with __
	__name = None
	__height = None
	__weight = None
	__sound = None

	# The constructor is called to set up or initialize an object
	# self allows an object to refer to itself inside of the class
	def __init__(self, name, height, weight, sound):
	self.__name = name
	self.__height = height
	self.__weight = weight
	self.__sound = sound

	def set_name(self, name):
	self.__name = name

	def set_height(self, height):
	self.__height = height

	def set_weight(self, height):
	self.__height = height

	def set_sound(self, sound):
	self.__sound = sound

	def get_name(self):
	return self.__name

	def get_height(self):
	return str(self.__height)

	def get_weight(self):
	return str(self.__weight)

	def get_sound(self):
	return self.__sound

	def get_type(self):
	print("Animal")

	def toString(self):
	return "{} is {} cm tall and {} kilograms and says {}".format(self.__name, self.__height, self.__weight, self.__sound)

	# How to create a Animal object
	cat = Animal('Whiskers', 33, 10, 'Meow')

	print(cat.toString())

	# You can't access this value directly because it is private
	#print(cat.__name)

	# INHERITANCE -------------
	# You can inherit all of the variables and methods from another class

	class Dog(Animal):
	__owner = None

	def __init__(self, name, height, weight, sound, owner):
	self.__owner = owner
	self.__animal_type = None

	# How to call the super class constructor
	super(Dog, self).__init__(name, height, weight, sound)

	def set_owner(self, owner):
	self.__owner = owner

	def get_owner(self):
	return self.__owner

	def get_type(self):
	print ("Dog")

	# We can overwrite functions in the super class
	def toString(self):
	return "{} is {} cm tall and {} kilograms and says {}. His owner is {}".format(self.get_name(), self.get_height(), self.get_weight(), self.get_sound(), self.__owner)

	# You don't have to require attributes to be sent
	# This allows for method overloading
	def multiple_sounds(self, how_many=None):
	if how_many is None:
	print(self.get_sound)
	else:
	print(self.get_sound() * how_many)

	spot = Dog("Spot", 53, 27, "Ruff", "Derek")

	print(spot.toString())

	# Polymorphism allows use to refer to objects as their super class
	# and the correct functions are called automatically

	class AnimalTesting:
	def get_type(self, animal):
	animal.get_type()

	test_animals = AnimalTesting()

	test_animals.get_type(cat)
	test_animals.get_type(spot)

	spot.multiple_sounds(4)
	# Pretty much FTP, but with a good admin panel.

	from flask_admin import Admin
	from flask_admin.contrib.fileadmin import FileAdmin
	import flask

	app = flask.Flask(__name__)
	app.secret_key = "0057743"
	admin = Admin(app, name="File Browser")

	HOME_DIRECTORY = "/home/gautam/FTPServer/Files/"

	class FileBrowser(FileAdmin):
	pass


	@app.route("/")
	def Index():
	return flask.redirect("/admin")

	@app.route("/files/<string:path>")
	def Download(path):
	path = HOME_DIRECTORY + path
	return flask.send_file(path)

	if __name__ == "__main__":
	admin.add_view(FileBrowser("/home/gautam/FTPServer/Files", "/files/", name="File Browser"))
	app.run(host="0.0.0.0", port=9398, debug=True)
	# FTP all the way with flask

	import flask
	from flask import request
	from werkzeug import secure_filename
	import os
	from glob import glob

	app = flask.Flask(__name__)
	app.config["UPLOAD_FOLDER"] = "uploads"
	app.secret_key = "1210315909"

	@app.route("/")
	def Index():
	return flask.render_template("index2.html")

	@app.route("/upload", methods=["GET", "POST"])
	def Upload():
	if request.method == "GET":
	return flask.render_template("upload.html")
	else:
	filenames = []
	uploads = request.files.getlist("uploads")

	if not uploads:
	return flask.render_template("upload.html")

	else:
	for i in uploads:
	file_name = secure_filename(i.filename)
	filenames.append(file_name)
	file_path = "/home/gautam/FTPServer/Files/" + file_name
	i.save(file_path)
	print("Saved: " +str(file_path))
	return flask.render_template("AfterUpload.html", filenames=filenames)


	@app.route("/downloads")
	def DisplayDownloads():
	current_dir = os.getcwd()
	os.chdir("/home/gautam/FTPServer/Files/")
	contents = glob("*")
	os.chdir(current_dir)
	return flask.render_template("downloadList.html", contents=contents)

	@app.route("/download")
	@app.route("/download/<string:filename>")
	def Download(filename=None):
	if not filename:
	return flask.redirect(flask.url_for("DisplayDownloads"))
	else:
	filename = "/home/gautam/FTPServer/Files/" + filename
	resp = flask.make_response(flask.send_file(filename))
	return resp

	if __name__ == "__main__":
	app.run(host="0.0.0.0", port=7070, debug=True)