Python
Contents
Online Python Interpreters
These ones supports many languages:
Installation
Installing python on Ubuntu
The last version of Python is usually installed this way. It can be verified in many sources: https://phoenixnap.com/kb/how-to-install-python-3-ubuntu
sudo apt update sudo apt install software-properties-common sudo add-apt-repository ppa:deadsnakes/ppa sudo apt update sudo apt install python3.8 python --version
Installing Anaconda
Display the installed version
Para ver la versión por defecto:
python --version
O simplemente entrando a la línea de comandos python a través de:
python
Ahora, en un SO pueden haber más de una versión instalada. Para ver que versiones de python se encuentran ya instaladas en nuestro sistema operativo podemos ir al directorio /usr/bin y ver que ejecutables de python se encuentran:
ls /usr/bin/python python python2 python2.7 python3 python3.5 python3.5m python3m pythontex pythontex3
y para ver la versión exacta (Python 3.5.2) ejecutamos python3.5 y este nos muestra la versión exacta al entrar a la línea de comandos python:
python3.5 Python 3.5.2 (default, Nov 17 2016, 17:05:23) [GCC 5.4.0 20160609] on linux Type "help", "copyright", "credits" or "license" for more information. >>>
Change the default version
https://linuxconfig.org/how-to-change-from-default-to-alternative-python-version-on-debian-linux
Change python version on per user basis
To change a python version on per user basis you simply create an alias within user's home directory. Open ~/.bashrc file and add new alias to change your default python executable:
alias python='/usr/bin/python3.4'
Once you make the above change, re-login or source your .bashrc file:
. ~/.bashrc
Change python version system-wide
To change python version system-wide we can use update-alternatives command.
Logged in as a root user. First we can list all available python alternatives:
# update-alternatives --list python update-alternatives: error: no alternatives for python
El comando anterio debería mostrar las alternativas (por ejemplo python2.7 , python3.5) que ya han sido incluidas a través del comando update-alternatives --install. The above error message means that no python alternatives has been recognized by update-alternatives command. For this reason we need to update our alternatives table and include both python2.7 and python3.5:
Debemos entonces contruir la tabla de alternativas de la siguiente forma:
# update-alternatives --install /usr/bin/python python /usr/bin/python2.7 1 update-alternatives: using /usr/bin/python2.7 to provide /usr/bin/python (python) in auto mode # update-alternatives --install /usr/bin/python python /usr/bin/python3.5 2 update-alternatives: using /usr/bin/python3.4 to provide /usr/bin/python (python) in auto mode
The --install option take multiple arguments from which it will be able to create a symbolic link. The last argument specified it priority means, if no manual alternative selection is made the alternative with the highest priority number will be set. In our case we have set a priority 2 for /usr/bin/python3.4 and as a result the /usr/bin/python3.5 was set as default python version automatically by update-alternatives command.
Es decir, si queremos que python2.7 sea la versión por defecto podemos ejecutar el comando update-alternatives --intall de la forma mostrada arriba y ajustar el último argumento de forma tal que el mayor valor sea asociado a la versión que queremos por defecto.
IDE for Python
Kite
This is not an IDE but an extension that can be installed in many IDEs.
Kite is the autocomplete developers trust to improve their productivity. Fully local and powered by machine learning.
Jupyter
.
Visual Studio Code
Python in Visual Studio Code
https://code.visualstudio.com/docs/languages/python
Atom
https://flight-manual.atom.io/getting-started/sections/installing-atom/
Sublime Text
https://en.wikipedia.org/wiki/Sublime_Text
Sublime Text is a proprietary cross-platform source code editor with a Python application programming interface (API). It natively supports many programming languages and markup languages, and functions can be added by users with plugins.
Installation
https://linuxconfig.org/how-to-install-sublime-text-on-ubuntu-18-04-bionic-beaver-linux
wget -qO - https://download.sublimetext.com/sublimehq-pub.gpg | sudo apt-key add - sudo apt-add-repository "deb https://download.sublimetext.com/ apt/stable/"
sudo apt install sublime-text
Keyboard shortcut to comment lines in Sublime Text 3
http://stackoverflow.com/questions/17742781/keyboard-shortcut-to-comment-lines-in-sublime-text-3
https://forum.sublimetext.com/t/st3-3012-toggle-comments-broken/8930/8
As a workaround, go to Preferences->Key Bindings - User and add these keybindings (if you're using Linux):
{ "keys": ["ctrl+7"], "command": "toggle_comment", "args": { "block": false } }, { "keys": ["ctrl+shift+7"], "command": "toggle_comment", "args": { "block": true } }
Indentation
https://stackoverflow.com/questions/9474090/how-do-i-force-sublime-text-to-indent-two-spaces-per-tab
If you want it for all files, go to Preferences -> Settings - Default/User. But as several comments below indicate, Syntax Specific settings can limit it to just the languages you choose.
To limit this configuration to Ruby files, first open up a Ruby file in the editor, and then go to Preferences -> Settings -> More -> Syntax Specific -> User. This should open a settings window named Ruby.sublime-settings
Save these settings:
{
"tab_size": 2,
"translate_tabs_to_spaces": true,
"detect_indentation": false
}
Crear un proyecto en Sublime Text
- Abrimos una nueva ventana: File > New Window
- Add folder to project
- Save project as: es apropiado guardarlo en el mismo directorio en donde fue creado el proyecto.
Esto creará dos archivos:
- nombre-111.sublime-project
- nombre-111.sublime-workspace : Este es el que debemos abrir para ingresar al proyecto.
PyCharm
Installation
https://itsfoss.com/install-pycharm-ubuntu/
Using umake
De esta forma lo instalé correctamente:
sudo add-apt-repository ppa:ubuntu-desktop/ubuntu-make sudo apt-get update sudo apt-get install ubuntu-make
Once you have umake, use the command below to install PyCharm Community Edition in Ubuntu:
umake ide pycharm
Se instaló en la siguiente ruta:
/home/adelo/.local/share/umake/ide/pycharm
Using Snap
De esta forma lo instalé correctamente:
sudo snap install pycharm-community --classic
Sin embargo, luego de instalarlo de esta manera, cuando iniciaba pycharm, se creaba automáticamente el directorio /home/adelo/snap. Traté de cambiar la ubicación de este directorio y no di con la solución.
Python on eclipse
Para utilizar Python en Eclipse debemos instalar PyDev:
Help > Eclipse Marketplace Find: PyDev
Using Python
Python Shell
From the terminal, you can start the Python Shell/Interpreter (Also know as Python Interactive Shell) using the command:
python3.x
Premiers pas avec l interpreteur de commandes Python
Operations courantes
>>> 3 + 4 7
>>> 9.5 + 2 11.5
>>> 3.11 + 2.08 5.1899999999999995
Writing and Running a Python code
You can use your favorite Text Editor or IDE to write your Python code:
example.py
#!/usr/bin/python3.6
c=input("Ingrese un caracter: ")
e=int(input("Entrez un entier: "))
for i in range(1,e+1):
for j in range(1,i+1):
print(c,end="")
print()
- If we use the line #!/usr/bin/python3.6 to indicate the path to the Python Interpreter, then we can then run our code as a Executable file this way:
./example.py
- However, the most common way is not including #!/usr/bin/python3.6 and calling the Python Interpreter through the python command:
python3 example.py
- Of course, you can also run a Python program through a button on a IDE Graphical Interface.
Data types
https://docs.python.org/2.0/ref/types.html
In this source you can find a very good documentation about Python Data Types and the most important Operations and Methods for each Data Type: https://www.w3schools.com/python/python_datatypes.asp
None | |||
Ellipsis | |||
Numbers | Integers | Plain integers | |
Long integers | |||
Floating point numbers | |||
Complex numbers | |||
Sequences | Immutable sequences | Strings | |
Unicode | |||
Tuples | |||
Mutable sequences | Lists | ||
Mappings | Dictionaries | ||
Callable types | User-defined functions | ||
User-defined methods | |||
Built-in functions | |||
Built-in methods | |||
Classes | |||
Class instances | |||
Modules | |||
Classes | |||
Class instances | |||
Files | |||
Internal types | Code objects | ||
Frame objects | |||
Traceback objects | |||
Slice objects |
Getting the Data Type: You can get the data type of any object by using the type() function:
print(type(x))
Type/Class | Description | Example | Setting the Specific Data Type | Operations/Functions/Methods | ||
---|---|---|---|---|---|---|
Numeric Types | int
|
Int, or integer, is a whole number, positive or negative, without decimals, of unlimited length. | x = 20 | x = int(20) | https://www.w3schools.com/python/python_numbers.asp | |
float
|
Float, or "floating point number" is a number, positive or negative, containing one or more decimals. | x = 20.5 | x = float(20.5) | |||
complex
|
Complex numbers are written with a "j" as the imaginary part | x = 1j | x = complex(1j) | |||
Text Type | str
|
Strings are Arrays: Like many other popular programming languages, strings in Python are arrays of bytes representing unicode characters. However, Python does not have a character data type, a single character is simply a string with a length of 1. | x = "Hello World" | x = str("Hello World") | https://www.w3schools.com/python/python_strings.asp | |
Boolean Type | bool
|
Booleans represent one of two values: True or False .
|
x = True | x = bool(5) | https://www.w3schools.com/python/python_booleans.asp | |
Binary Types | bytes
|
x = b"Hello" | x = bytes(5) | |||
bytearray
|
x = bytearray(5) | x = bytearray(5) | ||||
memoryview
|
x = memoryview(bytes(5)) | x = memoryview(bytes(5)) | ||||
Python Collections (Arrays) | Sequence Types | list
|
A list is a collection which is ordered and changeable. | x = ["apple", "banana", "cherry"] | x = list(("apple", "banana", "cherry")) | https://www.w3schools.com/python/python_lists.asp
lista = [x**2 for x in range(12) if x%3 == 0]
print(lista)
# Output:
[0, 9, 36, 81]
|
tuple
|
A tuple is a collection which is ordered and unchangeable. | x = ("apple", "banana", "cherry") | x = tuple(("apple", "banana", "cherry")) | https://www.w3schools.com/python/python_tuples.asp | ||
Array
|
Python does not have built-in support for Arrays. You have to import it from a Library:
Lists are containers for elements having differing data types but arrays are used as containers for elements of the same data type. Arrays are specially optimised for arithmetic computations, Ex:
[1.5 3. 4.5 6. ] |
Python_for_Data_Science#Arrays | ||||
range
|
x = range(6) | x = range(6) | ||||
Mapping Type | dict
|
A dictionary is a collection which is unordered, changeable and indexed. In Python dictionaries are written with curly brackets, and they have keys and values. | x = {"name" : "John", "age" : 36} | x = dict(name="John", age=36) | https://www.w3schools.com/python/python_dictionaries.asp | |
Set Types | set
|
A set is a collection which is unordered and unindexed. | x = {"apple", "banana", "cherry"} | x = set(("apple", "banana", "cherry")) | https://www.w3schools.com/python/python_sets.asp | |
frozenset
|
x = frozenset({"apple", "banana", "cherry"}) | x = frozenset(("apple", "banana", "cherry")) |
Operators
Operator | Name/Description | Example | Same as | |||||||
---|---|---|---|---|---|---|---|---|---|---|
Python | Java | JS | R | Python | Java | F | R | |||
Arithmetic Operators | + | + | Addition | x + y | ||||||
- | - | Subtraction | x - y | |||||||
* | * | Multiplication | x * y | |||||||
/ | / | Division | x / y | |||||||
% | % | Modulus | x % y | |||||||
** | java.util.Math
|
Exponentiation | x ** y | import java.util.Math
|
||||||
// | Floor division | x // y | ||||||||
++ | Increment: Increases the value of a variable by 1 | ++x | ||||||||
-- | Decrement: Decreases the value of a variable by 1 | --x | ||||||||
Assignment Operators | = | = | x = 5 | |||||||
+= | += | x+= 3 | x = x + 3 | |||||||
-= | -= | x -= 3 | x = x - 3 | |||||||
*= | *= | x *= 3 | x = x * 3 | |||||||
/= | /= | x /= 3 | x = x / 3 | |||||||
%= | %= | x %= 3 | x = x % 3 | |||||||
//= | x //= 3 | x = x // 3 | ||||||||
**= | x **= 3 | x = x ** 3 | ||||||||
&= | &= | x &= 3 | x = x & 3 | |||||||
|= | |= | x |= 3 | x = x | 3 | |||||||
^= | ^= | x ^= 3 | x = x ^ 3 | |||||||
>>= | >>= | x >>= 3 | x = x >> 3 | |||||||
<<= | <<= | x <<= 3 | x = x << 3 | |||||||
Comparison Operators | == | == | Equal | x == y | ||||||
!= | != | Not equal | x != y | |||||||
> | > | Greater than | x > y | |||||||
< | < | Less than | x < y | |||||||
>= | >= | Greater than or equal to | x >= y | |||||||
<= | <= | Less than or equal to | x <= y | |||||||
Logical Operators | and | && | Logical and: Returns True if both statements are true | x < 5 and x < 10 | x < 5 && x < 10 | |||||
or | || | Logical or: Returns True if one of the statements is true | x < 5 or x < 4 | x < 5 || x < 4 | ||||||
not | ! | Logical not: Reverse the result, returns False if the result is true | not(x < 5 and x < 10) | !(x < 5 && x < 10) | ||||||
Identity Operators | is | Returns true if both variables are the same object | x is y | |||||||
is not | Returns true if both variables are not the same object | x is not y | ||||||||
Membership Operators | in | Returns True if a sequence with the specified value is present in the object | x in y | |||||||
not in | Returns True if a sequence with the specified value is not present in the object | x not in y | ||||||||
Bitwise Operators | & |
AND
Sets each bit to 1 if both bits are 1 |
||||||||
| | OR
Sets each bit to 1 if one of two bits is 1 |
|||||||||
^ | XOR
Sets each bit to 1 if only one of two bits is 1 |
|||||||||
~ | NOT
Inverts all the bits |
|||||||||
<< | Zero fill left shift
Shift left by pushing zeros in from the right and let the leftmost bits fall off |
|||||||||
>> | Signed right shift
Shift right by pushing copies of the leftmost bit in from the left, and let the rightmost bits fall off |
|||||||||
Added by myself | ||||||||||
String concatenation | + | "Coucou ' + 'c\'est ' + 'nous !";
|
||||||||
conca() | 'Coucou '.concat('c\'est ', 'nous !');
|
|||||||||
join() | ['Coucou ', 'c\'est ', 'nous !'].join();
|
Control flow statements
If statements
https://www.w3schools.com/python/python_conditions.asp
a = 200
b = 33
if b > a:
print("b is greater than a")
elif a == b:
print("a and b are equal")
else:
print("a is greater than b")
Short Hand If:
if a > b: print("a is greater than b")
One line if else statement, with 3 conditions:
print("A") if a > b else print("=") if a == b else print("B")
For Loops
https://www.w3schools.com/python/python_for_loops.asp
Print each fruit in a fruit list:
fruits = ["apple", "banana", "cherry"]
for fruit in fruits:
print(fruit)
# Output:
apple
banana
cherry
fruits = ["apple", "banana", "cherry"]
for fruit_no, fruit in enumerate(fruits):
print(fruit_no, fruit)
# Output:
0 apple
1 banana
2 cherry
Looping Through a String:
for x in "banana":
print(x)
The break Statement:
fruits = ["apple", "banana", "cherry"]
for x in fruits:
print(x)
if x == "banana":
break
The continue Statement: With the continue statement we can stop the current iteration of the loop, and continue with the next:
fruits = ["apple", "banana", "cherry"]
for x in fruits:
if x == "banana":
continue
print(x)
The range() Function:
The range() function returns a sequence of numbers, starting from 0 by default, and increments by 1 (by default), and ends at a specified number.
for x in range(6):
print(x)
Note that range(6) is not the values of 0 to 6, but the values 0 to 5.
The range() Function:
The range() function returns a sequence of numbers, starting from 0 by default, and increments by 1 (by default), and ends at a specified number.
for x in range(2, 30, 3):
print(x)
While Loops
https://www.w3schools.com/python/python_while_loops.asp
i = 1
while i < 6:
print(i)
i += 1
The break Statement:
i = 1
while i < 6:
print(i)
if i == 3:
break
i += 1
The continue Statement: With the continue statement we can stop the current iteration, and continue with the next:
i = 0
while i < 6:
i += 1
if i == 3:
continue
print(i)
The else Statement: With the else statement we can run a block of code once when the condition no longer is true:
i = 1
while i < 6:
print(i)
i += 1
else:
print("i is no longer less than 6")
Input and Output
Input and Output funtions: Esta página creo que no está actualizada para python 3, pero está bien organizada: https://en.wikibooks.org/wiki/Python_Programming/Input_and_Output#input.28.29
input
name = input("What's your name? ")
print("Nice to meet you " + name + "!")
age = input("Your age? ")
print("So, you are already " + age + " years old, " + name + "!")
La función input asigna por defecto una variable de tipo str. Si queremos que la variable sea tipo int o list:
>>> population = int(input("Population of Toronto? "))
Population of Toronto? 2615069
>>> print(population, type(population))
2615069 <class 'int'>
>>> cities_canada = eval(input("Largest cities in Canada: "))
Largest cities in Canada: ["Toronto", "Montreal", "Calgara", "Ottawa"]
>>> print(cities_canada, type(cities_canada))
['Toronto', 'Montreal', 'Calgara', 'Ottawa'] <class 'list'>
Output
https://docs.python.org/3/tutorial/inputoutput.html
The print() function prints the specified message to the screen, or other standard output device:
print("Hello World")
The full syntax of print() is:print(*objects, sep=' ', end='\n', file=sys.stdout, flush=False)
Print more than one object:a = 5 b = a print('a =', a, '= b')
print() with separator and end parameters:a = 5 print("a =", a, sep='00000', end='\n\n\n') print("a =", a, sep='0', end='')
Print a tuple:x = ("apple", "banana", "cherry") print(x)
The String format() Method
Basic usage of the str.format() method looks like this:
print('{0} and {1}'.format('spam', 'eggs'))Positional and keyword arguments can be arbitrarily combined. It is better to use keyword arguments because it is less likely to make mistake because of the position of the arguments.
print('The story of {0}, {1}, and {other}.'.format('Bill', 'Manfred', other='Georg'))
Functions and Methods
How to define a Function
def hello():
print("Hello")
def area(width, height):
return width * height
def print_welcome(name):
print("Welcome", name)
hello()
hello()
print_welcome("Fred")
w = 4
h = 5
print("width =", w, " height =", h, " area =", area(w, h))
def factorial():
n=int(input("Entrez un entier positif: "))
fac=1
for i in range(n,1,-1):
fac=fac*i
return(fac)
print(factorial())
Some important Functions and Methods
type
type()returns the type of these objects:
a = ('apple', 'banana', 'cherry') b = "Hello World" c = 33 x = type(a) y = type(b) z = type(c)
List of Functions and Methods
https://www.w3schools.com/python/python_ref_functions.asp
What’s the difference between Python functions and methods?:
After reading this far in the article, I bet you have this question: “Why on Earth do we have both functions and methods, when they practically do the same thing?”
I remember that when I started learning Python, I had a hard time answering this question. This is still the most confusing topic for newcomers in the Python-world.
The official answer is that there is a small difference between them. Namely: a method always belongs to an object (e.g. in the dog.append(4)
method .append()
needed the dog
object to be applicable), while a function doesn’t necessarily. To make this answer even more twisted: a method is in fact nothing else but a specific function. Got it? All methods are functions, but not all functions are methods!
https://www.w3schools.com/python/python_reference.asp | Function/Method | Description | Example |
---|---|---|---|
Built-in functions |
abs()
|
Returns the absolute value of a numeric value | abs(-4/3)
|
round()
|
Returns the rounded value of a numeric value. | round(-4/3)
| |
min()
|
Returns the smallest item of a list or of the typed-in arguments. It can even be a string. | min(3,2,5)
| |
max()
|
|||
sorted()
|
It sorts a list into ascending order. The list can contain strings or numbers. | a = [3, 2, 1] sorted(a)
| |
sum()
|
It sums a list. | a = [3, 2, 1] sum(a)
| |
len()
|
Returns the number of elements in a list or the number of characters in a string. | len('Hello!')
| |
String methods |
a.lower()
|
Returns the lowercase version of a string. | a = 'MuG' a.lower()
|
a.upper()
|
|||
a.strip()
|
If the string has whitespaces at the beginning or at the end, it removes them. | a = ' Mug ' a.strip()
| |
a.replace('old', 'new')
|
Replaces a given string with another string. Note that it’s case sensitive. | a = 'muh' a.replace('h','g')
| |
a.split('delimiter')
|
Splits your string into a list. Your argument specifies the delimiter. | a = 'Hello World' a.split(' ')
| |
'delimiter'.join(a)
|
It joins elements of a list into one string. You can specify the delimiter again. | a = ['Hello', 'World']
| |
List methods |
a.append(arg)
|
Adds an element to the end of our list. | dog = ['Freddie', 9, True, 1.1, 2001, ['bone', 'little ball']]
|
a.remove(arg)
|
We have to specify the element that we want to remove and Python will remove the first item with that value from the list. | dog.remove(2001)
| |
a.count(arg)
|
Returns the number of the specified value in a list. | dog.count('Freddie')
| |
a.clear()
|
removes all elements of the list. It will basically delete Freddie. No worries, we will get him back. | dog.clear()
| |
Dictionaries methods |
a.keys()
|
It returns all the keys from your dictionary. | |
dog_dict.values()
|
It returns all the values from your dictionary. | ||
dog_dict.clear()
|
It deletes everything from your dictionary. | ||
Tuple methods |
|||
Set methods |
|||
File methods |
Exceptions
while True:
try:
x = int(raw_input("Please enter a number: "))
break
except ValueError:
print "Oops! That was no valid number. Try again..."
OOP with Python
https://python.swaroopch.com/oop.html
The self
Class methods have only one specific difference from ordinary functions - they must have an extra first parameter that has to be added to the beginning of the parameter list, but you do not give a value for this parameter when you call the method, Python will provide it. This particular variable refers to the object itself, and by convention, it is given the name self.
Say you have a class called MyClass and an instance of this class called myobject. When you call a method of this object as myobject.method(arg1, arg2), this is automatically converted by Python into MyClass.method(myobject, arg1, arg2) - this is all the special self is about.
This also means that if you have a method which takes no arguments, then you still have to have one argument - the self.
class Person:
def say_hi(self):
print('Hello, how are you?')
p = Person()
p.say_hi()
# The previous 2 lines can also be written as
# Person().say_hi()
The __init__ method
There are many method names which have special significance in Python classes. We will see the significance of the __init__ method now.
The __init__ method is run as soon as an object of a class is instantiated. The method is useful to do any initialization you want to do with your object. Notice the double underscores both at the beginning and at the end of the name.
Example (save as oop_init.py):
class Person:
def __init__(self, name):
self.name = name
def say_hi(self):
print('Hello, my name is', self.name)
p = Person('Swaroop')
p.say_hi()
# The previous 2 lines can also be written as
# Person('Swaroop').say_hi()
Output: $ python oop_init.py Hello, my name is Swaroop
Class And Object Variables
En el siguiente ejemplo, population belongs to the Robot class and hence is a class variable. The name variable belongs to the object (it is assigned using self) and hence is an object variable.
Thus, we refer to the population class variable as Robot.population and not as self.population. We refer to the object variable name using self.name notation in the methods of that object.
Instead of Robot.population, we could have also used self.__class__.population because every object refers to its class via the self.__class__ attribute
Object variables are owned by each individual object/instance of the class. In this case, each object has its own copy of the field i.e. they are not shared and are not related in any way to the field by the same name in a different instance. An example will make this easy to understand (save as oop_objvar.py):
Class methods
The how_many method difined in the next example is actually a method that belongs to the class and not to the object. This means we can define it as either a classmethod or a staticmethod depending on whether we need to know which class we are part of. Since we refer to a class variable, let's use classmethod.
We have marked the how_many method as a class method using the classmethod decorator.
Decorators can be imagined to be a shortcut to calling a wrapper function, so applying the @classmethod decorator is same as calling:
how_many = classmethod(how_many)
Docstrings:
In this program, we also see the use of docstrings for classes as well as methods. We can access the class docstring at runtime using Robot.__doc__ and the method docstring as Robot.say_hi.__doc__
print(Robot.__doc__) print(Robot.say_hi.__doc__)
class Robot:
# Docstrings
"""Represents a robot, with a name."""
# A class variable, counting the number of robots
population = 0
def __init__(self, name):
# Docstrings
"""Initializes the data."""
self.name = name
print("(Initializing {})".format(self.name))
# When this person is created, the robot
# adds to the population
Robot.population += 1
def die(self):
"""I am dying."""
print("{} is being destroyed!".format(self.name))
Robot.population -= 1
if Robot.population == 0:
print("{} was the last one.".format(self.name))
else:
print("There are still {:d} robots working.".format(Robot.population))
def say_hi(self):
"""Greeting by the robot.
Yeah, they can do that."""
print("Greetings, my masters call me {}.".format(self.name))
@classmethod
def how_many(cls):
"""Prints the current population."""
print("We have {:d} robots.".format(cls.population))
droid1 = Robot("R2-D2")
droid1.say_hi()
Robot.how_many()
droid2 = Robot("C-3PO")
droid2.say_hi()
Robot.how_many()
print("\nRobots can do some work here.\n")
print("Robots have finished their work. So let's destroy them.")
droid1.die()
droid2.die()
Robot.how_many()
print(Robot.__doc__)
print(Robot.say_hi.__doc__)
Output: $ python oop_objvar.py (Initializing R2-D2) Greetings, my masters call me R2-D2. We have 1 robots. (Initializing C-3PO) Greetings, my masters call me C-3PO. We have 2 robots. Robots can do some work here. Robots have finished their work. So let's destroy them. R2-D2 is being destroyed! There are still 1 robots working. C-3PO is being destroyed! C-3PO was the last one. We have 0 robots.
Inheritance
The SchoolMember class in this situation is known as the base class or the superclass. The Teacher and Student classes are called the derived classes or subclasses.
We will now see this example as a program (save as oop_subclass.py):
class SchoolMember:
'''Represents any school member.'''
def __init__(self, name, age):
self.name = name
self.age = age
print('(Initialized SchoolMember: {})'.format(self.name))
def tell(self):
'''Tell my details.'''
print('Name:"{}" Age:"{}"'.format(self.name, self.age), end=" ")
class Teacher(SchoolMember):
'''Represents a teacher.'''
def __init__(self, name, age, salary):
SchoolMember.__init__(self, name, age)
self.salary = salary
print('(Initialized Teacher: {})'.format(self.name))
def tell(self):
SchoolMember.tell(self)
print('Salary: "{:d}"'.format(self.salary))
class Student(SchoolMember):
'''Represents a student.'''
def __init__(self, name, age, marks):
SchoolMember.__init__(self, name, age)
self.marks = marks
print('(Initialized Student: {})'.format(self.name))
def tell(self):
SchoolMember.tell(self)
print('Marks: "{:d}"'.format(self.marks))
t = Teacher('Mrs. Shrividya', 40, 30000)
s = Student('Swaroop', 25, 75)
# prints a blank line
print()
members = [t, s]
for member in members:
# Works for both Teachers and Students
member.tell()
Output: $ python oop_subclass.py (Initialized SchoolMember: Mrs. Shrividya) (Initialized Teacher: Mrs. Shrividya) (Initialized SchoolMember: Swaroop) (Initialized Student: Swaroop) Name:"Mrs. Shrividya" Age:"40" Salary: "30000" Name:"Swaroop" Age:"25" Marks: "75"
Some example codes
Factorial function using recursion
A VERY VERY NICE example of recursion is the factorial function:
Example:
4! = 4 * 3!
3! = 3 * 2!
2! = 2 * 1
Replacing the calculated values gives us the following expression
4! = 4 * 3 * 2 * 1
def factorial(n):
if n == 1:
return 1
else:
return n * factorial(n-1)
Python for Data Science
Python Web Development
https://www.fullstackpython.com/web-development.html
Web Frameworks for Python:
https://wiki.python.org/moin/WebFrameworks
https://fr.wikipedia.org/wiki/Liste_de_frameworks_Python
Ejemplos de Web Applications in Python: https://wiki.python.org/moin/WebApplications
Complete Python Web Course (15€): https://www.udemy.com/the-complete-python-web-course-learn-by-building-8-apps/
Frameworks
Django
Página oficial: https://www.djangoproject.com/
Documentación: https://docs.djangoproject.com/en/1.11/
Flask
Manim