Python es un poderoso lenguaje de programación ideal para scripts y desarrollo rápido de aplicaciones. Se usa en desarrollo web (como: Django y Bottle), computación científica y matemática (Orange, SymPy, NumPy) para interfaces gráficas de usuario de escritorio (Pygame, Panda3D).
Este tutorial le presenta los conceptos y características básicos de Python 3. Después de leer el tutorial, podrá leer y escribir programas básicos de Python y explorar Python en profundidad por su cuenta.
Este tutorial está dirigido a personas que tienen conocimientos de otros lenguajes de programación y desean comenzar a utilizar Python rápidamente.
Python para principiantes
Si es un novato en programación, le sugerimos que visite:
- Programación de Python : una guía completa sobre qué es Python, cómo comenzar a utilizar Python, por qué debería aprenderlo y cómo puede aprenderlo.
- Tutoriales de Python : siga los enlaces de la barra lateral uno por uno.
- Ejemplos de Python: ejemplos sencillos que pueden seguir los principiantes.
¿Qué se cubre en este tutorial?
- Ejecute Python en su computadora
- Introducción (Variables, Operadores, E / S,…)
- Estructuras de datos (lista, diccionario, conjunto,…)
- Control de flujo (si, bucle, rotura,…)
- Archivo (gestión de archivos, directorio,…)
- Excepciones (manejo, excepción definida por el usuario,…)
- POO (Objeto y clase, Herencia, Sobrecarga,…)
- Biblioteca estándar (función incorporada, métodos de lista,…)
- Misc (Generadores, decoradores,…)
Ejecute Python en su computadora
No es necesario que instales Python en tu computadora para seguir este tutorial. Sin embargo, le recomendamos que ejecute los programas de Python incluidos en este tutorial en su propia computadora.
- Ejecute Python en Windows
- Ejecute Python en MacOS
Introducción a Python
Escribamos nuestro primer programa en Python, "¡Hola, mundo!". Es un programa simple que imprime ¡Hola mundo! en el dispositivo de salida estándar (pantalla).
"¡Hola Mundo!" Programa
print("Hello, World!")
Cuando ejecute el programa, la salida será:
¡Hola Mundo!
En este programa, hemos utilizado la función print () incorporada para imprimir ¡Hola, mundo! cuerda.
Variables y literales
Una variable es una ubicación con nombre que se utiliza para almacenar datos en la memoria. He aquí un ejemplo:
a = 5
Aquí, a es una variable. Hemos asignado 5a la variable a
No necesitamos definir el tipo de variable en Python. Puedes hacer algo como esto:
a = 5 print("a =", 5) a = "High five" print("a =", a)
Inicialmente, 5se asigna un valor entero a la variable a. Luego, la cadena High Five se asigna a la misma variable.
Por cierto, 5es un literal numérico y "High five"es un literal de cadena.
Cuando ejecute el programa, la salida será:
a = 5 a = Choca esos cinco
Visite Variables, constantes y literales de Python para obtener más información.
Operadores
Los operadores son símbolos especiales que realizan operaciones sobre operandos (variables y valores).
Hablemos de operadores aritméticos y de asignación en esta parte.
Los operadores aritméticos se utilizan para realizar operaciones matemáticas como sumas, restas, multiplicaciones, etc.
x = 14 y = 4 # Add two operands print('x + y =', x+y) # Output: x + y = 18 # Subtract right operand from the left print('x - y =', x-y) # Output: x - y = 10 # Multiply two operands print('x * y =', x*y) # Output: x * y = 56 # Divide left operand by the right one print('x / y =', x/y) # Output: x / y = 3.5 # Floor division (quotient) print('x // y =', x//y) # Output: x // y = 3 # Remainder of the division of left operand by the right print('x % y =', x%y) # Output: x % y = 2 # Left operand raised to the power of right (x^y) print('x ** y =', x**y) # Output: x ** y = 38416
Los operadores de asignación se utilizan para asignar valores a las variables. Ya ha visto el uso de =operador. Probemos con algunos operadores de asignación más.
x = 5 # x += 5 ----> x = x + 5 x +=5 print(x) # Output: 10 # x /= 5 ----> x = x / 5 x /= 5 print(x) # Output: 2.0
Otros operadores de asignación utilizados comúnmente: -=, *=, %=, //=y **=.
Visite Operadores de Python para conocer todos los operadores en detalle.
Obtener información del usuario
En Python, puede usar la función input () para tomar la entrada del usuario. Por ejemplo:
inputString = input('Enter a sentence:') print('The inputted string is:', inputString)
Cuando ejecute el programa, la salida será:
Ingrese una oración: Hola. La cadena ingresada es: Hola.
Comentarios de Python
Hay 3 formas de crear comentarios en Python.
# Esto es un comentario
"" "Este es un comentario de varias líneas." ""
'' 'Este es también un comentario de varias líneas.' ''
Para obtener más información sobre los comentarios y la cadena de documentación, visite: Comentarios de Python.
Type Conversion
The process of converting the value of one data type (integer, string, float, etc.) to another is called type conversion. Python has two types of type conversion.
Implicit Type Conversion
Implicit conversion doesn't need any user involvement. For example:
num_int = 123 # integer type num_flo = 1.23 # float type num_new = num_int + num_flo print("Value of num_new:",num_new) print("datatype of num_new:",type(num_new))
When you run the program, the output will be:
Value of num_new: 124.23 datatype of num_new: datatype of num_new:
Here, num_new has float data type because Python always converts smaller data type to larger data type to avoid the loss of data.
Here is an example where Python interpreter cannot implicitly type convert.
num_int = 123 # int type num_str = "456" # str type print(num_int+num_str)
When you run the program, you will get
TypeError: unsupported operand type(s) for +: 'int' and 'str'
However, Python has a solution for this type of situation which is know as explicit conversion.
Explicit Conversion
In case of explicit conversion, you convert the datatype of an object to the required data type. We use predefined functions like int(), float(), str() etc. to perform explicit type conversion. For example:
num_int = 123 # int type num_str = "456" # str type # explicitly converted to int type num_str = int(num_str) print(num_int+num_str)
To lean more, visit Python type conversion.
Python Numeric Types
Python supports integers, floating point numbers and complex numbers. They are defined as int, float and complex class in Python. In addition to that, booleans: True and False are a subtype of integers.
# Output: print(type(5)) # Output: print(type(5.0)) c = 5 + 3j # Output: print(type(c))
To learn more, visit Python Number Types.
Python Data Structures
Python offers a range of compound datatypes often referred to as sequences. You will learn about those built-in types in this section.
Lists
A list is created by placing all the items (elements) inside a square bracket () separated by commas.
It can have any number of items and they may be of different types (integer, float, string etc.)
# empty list my_list = () # list of integers my_list = (1, 2, 3) # list with mixed data types my_list = (1, "Hello", 3.4)
You can also use list() function to create lists.
Here's how you can access elements of a list.
language = ("French", "German", "English", "Polish") # Accessing first element print(language(0)) # Accessing fourth element print(language(3))
You use the index operator () to access an item in a list. Index starts from 0. So, a list having 10 elements will have index from 0 to 9.
Python also allows negative indexing for its sequences. The index of -1 refers to the last item, -2 to the second last item and so on.
Check these resources for more information about Python lists:
- Python lists (slice, add and remove item etc.)
- Python list methods
- Python list comprehension
Tuples
Tuple is similar to a list except you cannot change elements of a tuple once it is defined. Whereas in a list, items can be modified.
Basically, list is mutable whereas tuple is immutable.
language = ("French", "German", "English", "Polish") print(language)
You can also use tuple() function to create tuples.
You can access elements of a tuple in a similar way like a list.
language = ("French", "German", "English", "Polish") print(language(1)) #Output: German print(language(3)) #Output: Polish print(language(-1)) # Output: Polish
You cannot delete elements of a tuple, however, you can entirely delete a tuple itself using del operator.
language = ("French", "German", "English", "Polish") del language # NameError: name 'language' is not defined print(language)
To learn more, visit Python Tuples.
String
A string is a sequence of characters. Here are different ways to create a string.
# all of the following are equivalent my_string = 'Hello' print(my_string) my_string = "Hello" print(my_string) my_string = '''Hello''' print(my_string) # triple quotes string can extend multiple lines my_string = """Hello, welcome to the world of Python""" print(my_string)
You can access individual characters of a string using indexing (in a similar manner like lists and tuples).
str = 'programiz' print('str = ', str) print('str(0) = ', str(0)) # Output: p print('str(-1) = ', str(-1)) # Output: z #slicing 2nd to 5th character print('str(1:5) = ', str(1:5)) # Output: rogr #slicing 6th to 2nd last character print('str(5:-2) = ', str(5:-2)) # Output: am
Strings are immutable. You cannot change elements of a string once it is assigned. However, you can assign one string to another. Also, you can delete the string using del operator.
Concatenation is probably the most common string operation. To concatenate strings, you use + operator. Similarly, the * operator can be used to repeat the string for a given number of times.
str1 = 'Hello ' str2 ='World!' # Output: Hello World! print(str1 + str2) # Hello Hello Hello print(str1 * 3)
Check these resources for more information about Python strings:
- Python Strings
- Python String Methods
- Python String Formatting
Sets
A set is an unordered collection of items where every element is unique (no duplicates).
Here is how you create sets in Python.
# set of integers my_set = (1, 2, 3) print(my_set) # set of mixed datatypes my_set = (1.0, "Hello", (1, 2, 3)) print(my_set)
You can also use set() function to create sets.
Sets are mutable. You can add, remove and delete elements of a set. However, you cannot replace one item of a set with another as they are unordered and indexing have no meaning.
Let's try commonly used set methods: add(), update() and remove().
# set of integers my_set = (1, 2, 3) my_set.add(4) print(my_set) # Output: (1, 2, 3, 4) my_set.add(2) print(my_set) # Output: (1, 2, 3, 4) my_set.update((3, 4, 5)) print(my_set) # Output: (1, 2, 3, 4, 5) my_set.remove(4) print(my_set) # Output: (1, 2, 3, 5)
Let's tryout some commonly used set operations:
A = (1, 2, 3) B = (2, 3, 4, 5) # Equivalent to A.union(B) # Also equivalent to B.union(A) print(A | B) # Output: (1, 2, 3, 4, 5) # Equivalent to A.intersection(B) # Also equivalent to B.intersection(A) print (A & B) # Output: (2, 3) # Set Difference print (A - B) # Output: (1) # Set Symmetric Difference print(A B) # Output: (1, 4, 5)
More Resources:
- Python Sets
- Python Set Methods
- Python Frozen Set
Dictionaries
Dictionary is an unordered collection of items. While other compound data types have only value as an element, a dictionary has a key: value pair. For example:
# empty dictionary my_dict = () # dictionary with integer keys my_dict = (1: 'apple', 2: 'ball') # dictionary with mixed keys my_dict = ('name': 'John', 1: (2, 4, 3))
You can also use dict() function to create dictionaries.
To access value from a dictionary, you use key. For example:
person = ('name':'Jack', 'age': 26, 'salary': 4534.2) print(person('age')) # Output: 26
Here's how you can change, add or delete dictionary elements.
person = ('name':'Jack', 'age': 26) # Changing age to 36 person('age') = 36 print(person) # Output: ('name': 'Jack', 'age': 36) # Adding salary key, value pair person('salary') = 4342.4 print(person) # Output: ('name': 'Jack', 'age': 36, 'salary': 4342.4) # Deleting age del person('age') print(person) # Output: ('name': 'Jack', 'salary': 4342.4) # Deleting entire dictionary del person
More resources:
- Python Dictionary
- Python Dictionary Methods
- Python Dictionary Comprehension
Python range()
range() returns an immutable sequence of numbers between the given start integer to the stop integer.
print(range(1, 10)) # Output: range(1, 10)
The output is an iterable and you can convert it to list, tuple, set and so on. For example:
numbers = range(1, 6) print(list(numbers)) # Output: (1, 2, 3, 4, 5) print(tuple(numbers)) # Output: (1, 2, 3, 4, 5) print(set(numbers)) # Output: (1, 2, 3, 4, 5) # Output: (1: 99, 2: 99, 3: 99, 4: 99, 5: 99) print(dict.fromkeys(numbers, 99))
We have omitted optional step parameter for range() in above examples. When omitted, step defaults to 1. Let's try few examples with step parameter.
# Equivalent to: numbers = range(1, 6) numbers1 = range(1, 6 , 1) print(list(numbers1)) # Output: (1, 2, 3, 4, 5) numbers2 = range(1, 6, 2) print(list(numbers2)) # Output: (1, 3, 5) numbers3 = range(5, 0, -1) print(list(numbers3)) # Output: (5, 4, 3, 2, 1)
Python Control Flow
if… else Statement
The if… else statement is used if you want perform different action (run different code) on different condition. For example:
num = -1 if num> 0: print("Positive number") elif num == 0: print("Zero") else: print("Negative number") # Output: Negative number
There can be zero or more elif parts, and the else part is optional.
Most programming languages use () to specify the block of code. Python uses indentation.
A code block starts with indentation and ends with the first unindented line. The amount of indentation is up to you, but it must be consistent throughout that block.
Generally, four whitespace is used for indentation and is preferred over tabs.
Let's try another example:
if False: print("I am inside the body of if.") print("I am also inside the body of if.") print("I am outside the body of if") # Output: I am outside the body of if.
Before you move on to next section, we recommend you to check comparison operator and logical operator.
Also, check out Python if… else in detail.
while Loop
Like most programming languages, while loop is used to iterate over a block of code as long as the test expression (condition) is true. Here is an example to find the sum of natural numbers:
n = 100 # initialize sum and counter sum = 0 i = 1 while i <= n: sum = sum + i i = i+1 # update counter print("The sum is", sum) # Output: The sum is 5050
In Python, while loop can have optional else block that is executed if the condition in the while loop evaluates to False. However, if the loop is terminated with break statement, Python interpreter ignores the else block.
To learn more, visit Python while Loop
for Loop
In Python, for loop is used to iterate over a sequence (list, tuple, string) or other iterable objects. Iterating over a sequence is called traversal.
Here's an example to find the sum of all numbers stored in a list.
numbers = (6, 5, 3, 8, 4, 2) sum = 0 # iterate over the list for val in numbers: sum = sum+val print("The sum is", sum) # Output: The sum is 28
Notice the use of in operator in the above example. The in operator returns True if value/variable is found in the sequence.
In Python, for loop can have optional else block. The else part is executed if the items in the sequence used in for loop exhausts. However, if the loop is terminated with break statement, Python interpreter ignores the else block.
To learn more, visit Python for Loop
break Statement
The break statement terminates the loop containing it. Control of the program flows to the statement immediately after the body of the loop. For example:
for val in "string": if val == "r": break print(val) print("The end")
When you run the program, the output will be:
s t The end
continue Statement
The continue statement is used to skip the rest of the code inside a loop for the current iteration only. Loop does not terminate but continues on with the next iteration. For example:
for val in "string": if val == "r": continue print(val) print("The end")
When you run the program, the output will be:
s t i n g The end
To learn more on break and continue with detail explanation, visit Python break and continue.
pass Statement
Suppose, you have a loop or a function that is not implemented yet, but want to implement it in the future. They cannot have an empty body. The interpreter would complain. So, you use the pass statement to construct a body that does nothing.
sequence = ('p', 'a', 's', 's') for val in sequence: pass
Python Function
A function is a group of related statements that perform a specific task. You use def keyword to create functions in Python.
def print_lines(): print("I am line1.") print("I am line2.")
You have to call the function to run the codes inside it. Here's how:
def print_lines(): print("I am line1.") print("I am line2.") # function call print_lines()
A function can accept arguments.
def add_numbers(a, b): sum = a + b print(sum) add_numbers(4, 5) # Output: 9
You can also return value from a function using return statement.
def add_numbers(a, b): sum = a + b return sum result = add_numbers(4, 5) print(result) # Output: 9
Here are few resources to check:
- Python Function
- Python Function Arguments (Default, Keyword, Arbitrary)
Recursion (Recursive function)
A function that calls itself is known as recursive function and this process is called recursion.
Every recursive function must have a base condition that stops the recursion or else the function calls itself infinitely.
# Recursive function to find the factorial of a number def calc_factorial(x): if x == 1: return 1 else: return (x * calc_factorial(x-1)) num = 6 print("The factorial of", num, "is", calc_factorial(num)) # Output: The factorial of 6 is 720
Visit Python recursion to learn more.
Lambda Function
In Python, you can define functions without a name. These functions are called lambda or anonymous function. To create a lambda function, lambda keyword is used.
square = lambda x: x ** 2 print(square(5)) # Output: 25
We use lambda functions when we require a nameless function for a short period of time. Lambda functions are used along with built-in functions like filter(), map() etc.
To learn more, visit:
- Python Lambda Function
- Python map()
- Python filter()
Modules
Modules refer to a file containing Python statements and definitions.
A file containing Python code, for e.g.: example.py, is called a module and its module name would be example.
Let us create it and save it as example.py.
# Python Module example def add(a, b): return a + b
To use this module, we use import keyword.
# importing example module import example # accessing the function inside the module using . operator example.add(4, 5.5)
Python has a ton of standard modules readily available for use. For example:
import math result = math.log2(5) # return the base-2 logarithm print(result) # Output: 2.321928094887362
You can import specific names from a module without importing the module as a whole. Here is an example.
from math import pi print("The value of pi is", pi) # Output: The value of pi is 3.141592653589793
More Resources:
- Python Modules
- Python Packages
Python File I/O
A file operation takes place in the following order.
- Open a file
- Read or write (perform operation)
- Close the file
How to open a file?
You can use open() function to open a file.
f = open("test.txt") # open file in current directory f = open("C:/Python33/README.txt") # specifying full path
We can specify the mode while opening a file.
| Mode | Description |
|---|---|
| 'r' | Open a file for reading. (default) |
| 'w' | Open a file for writing. Creates a new file if it does not exist or truncates the file if it exists. |
| 'x' | Open a file for exclusive creation. If the file already exists, the operation fails. |
| 'a' | Open for appending at the end of the file without truncating it. Creates a new file if it does not exist. |
| 't' | Open in text mode. (default) |
| 'b' | Open in binary mode. |
| '+' | Open a file for updating (reading and writing) |
f = open("test.txt") # equivalent to 'r' or 'rt' f = open("test.txt",'w') # write in text mode f = open("img.bmp.webp",'r+b') # read and write in binary mode
How to close a file?
To close a file, you use close() method.
f = open("test.txt",encoding = 'utf-8') # perform file operations f.close()
How to write to a file?
In order to write into a file in Python, we need to open it in write 'w', append 'a' or exclusive creation 'x' mode.
with open("test.txt",'w',encoding = 'utf-8') as f: f.write("my first file") f.write("This file") f.write("contains three lines")
Here, we have used with statement to open a file. This ensures that the file is closed when the block inside with is exited.
How to read files?
To read a file in Python, you must open the file in reading mode.
There are various methods available for this purpose. We can use the read(size) method to read in size number of data.
f = open("test.txt",'r',encoding = 'utf-8') f.read(4) # read the first 4 data
Visit Python File I/O to learn more.
Python Directory
A directory or folder is a collection of files and sub directories. Python has the os module, which provides many useful methods to work with directories and files.
import os os.getcwd() // present working directory os.chdir('D:\Hello') // Changing current directory to D:Hello os.listdir() // list all sub directories and files in that path os.mkdir('test') // making a new directory test os.rename('test','tasty') // renaming the directory test to tasty os.remove('old.txt') // deleting old.txt file
Visit Python Directory to learn more.
Python Exception Handling
Errors that occur at runtime are called exceptions. They occur, for example, when a file we try to open does not exist FileNotFoundError, dividing a number by zero ZeroDivisionError etc.
Visit this page to learn about all built-in exceptions in Python.
If exceptions are not handled, an error message is spit out and our program come to a sudden, unexpected halt.
In Python, exceptions can be handled using try statement. When exceptions are caught, it's up to you what operator to perform.
# import module sys to get the type of exception import sys randomList = ('a', 0, 2) for entry in randomList: try: print("The entry is", entry) r = 1/int(entry) break except: print("Oops!",sys.exc_info()(0),"occurred.") print("Next entry.") print() print("The reciprocal of",entry,"is",r)
When you run the program, the output will be:
The entry is a Oops! occurred. Next entry. The entry is 0 Oops! occurred. Next entry. The entry is 2 The reciprocal of 2 is 0.5
To learn about catching specific exceptions and finally clause with try statement, visit Python exception handling.
Also, you can create user-defined exceptions in Python. For that, visit Python Custom Exceptions
Python OOP
Everything in Python is an object including integers, floats, functions, classes, and None. Let's not focus on why everything in Python is an object. For that, visit this page. Rather, this section focuses on creating your own classes and objects.
Class and Objects
Object is simply a collection of data (variables) and methods (functions) that act on data. And, class is a blueprint for the object.
How to define a class?
class MyClass: a = 10 def func(self): print('Hello')
As soon as you define a class, a new class object is created with the same name. This class object allows us to access the different attributes as well as to instantiate new objects of that class.
class MyClass: "This is my class" a = 10 def func(self): print('Hello') # Output: 10 print(MyClass.a) # Output: print(MyClass.func) # Output: 'This is my class' print(MyClass.__doc__)
You may have noticed the self parameter in function definition inside the class but, we called the method simply as ob.func() without any arguments. It still worked.
This is because, whenever an object calls its method, the object itself is passed as the first argument. So, ob.func() translates into MyClass.func(ob).
Creating Objects
You can also create objects of the class yourself.
class MyClass: "This is my class" a = 10 def func(self): print('Hello') obj1 = MyClass() print(obj1.a) # Output: 10 obj2 = MyClass() print(obj1.a + 5) # Output: 15
Python Constructors
In Python, a method with name __init()__ is a constructor. This method is automatically called when an object is instantiated.
class ComplexNumber: def __init__(self,r = 0,i = 0): # constructor self.real = r self.imag = i def getData(self): print("(0)+(1)j".format(self.real,self.imag)) c1 = ComplexNumber(2,3) # Create a new ComplexNumber object c1.getData() # Output: 2+3j c2 = ComplexNumber() # Create a new ComplexNumber object c2.getData() # Output: 0+0j
Visit Python Class and Object to learn more.
Python Inheritance
Inheritance refers to defining a new class with little or no modification to an existing class. Let's take an example:
class Mammal: def displayMammalFeatures(self): print('Mammal is a warm-blooded animal.')
Let's derive a new class Dog from this Mammal class.
class Mammal: def displayMammalFeatures(self): print('Mammal is a warm-blooded animal.') class Dog(Mammal): def displayDogFeatures(self): print('Dog has 4 legs.') d = Dog() d.displayDogFeatures() d.displayMammalFeatures()
Notice that we are able to call method of base class displayMammalFeatures() from the object of derived class d.
To learn more about inheritance and method overriding, visit Python Inheritance.
We also suggest you to check multiple inheritance and operator overloading if you are interested.
Miscellaneous and Advance Topics
Iterators
Iterator in Python is simply an object that can be iterated upon. An object which will return data, one element at a time.
Technically speaking, Python iterator object must implement two special methods, __iter__() and __next__(), collectively called the iterator protocol.
An object is called iterable if we can get an iterator from it. Most of built-in containers in Python like: list, tuple, string etc. are iterables.
The iter() function (which in turn calls the __iter__() method) returns an iterator from them.
my_list = (4, 7, 0, 3) # get an iterator using iter() my_iter = iter(my_list) print(next(my_iter)) # Output: 4 print(next(my_iter)) # Output: 7
To learn more about infinite iterators and how to create custom iterators, visit: Python Iterators.
Generators
There is a lot of overhead in building an iterator in Python; we have to implement a class with __iter__() and __next__() method, keep track of internal states, raise StopIteration when there was no values to be returned etc.
This is both lengthy and counter intuitive. Generator comes into rescue in such situations.
Python generators are a simple way of creating iterators.
Learn more about Python Generators.
Closures
This technique by which some data gets attached to the code is called closure in Python.
def print_msg(msg): # outer enclosing function def printer(): # inner function print(msg) return printer # this got changed another = print_msg("Hello") # Output: Hello another()
Here, the print_msg() function is called with the string "Hello" as an argument and the returned function was bound to the name another. On calling another(), the message was still remembered although we had already finished executing the print_msg() function.
The criteria that must be met to create closure in Python are summarized in the following points.
- We must have a nested function (function inside a function).
- The nested function must refer to a value defined in the enclosing function.
- The enclosing function must return the nested function.
Visit Python closures to learn more about closures and when to use them.
Decorators
Python has an interesting feature called decorators to add functionality to an existing code.
Esto también se denomina metaprogramación, ya que una parte del programa intenta modificar otra parte del programa durante la compilación.
Para obtener más información sobre los decoradores en detalle, visite Python Decorators.
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