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im-/mutable objects added. /JL

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Jan Lerking
2024-09-22 18:48:37 +02:00
parent a419f343bc
commit d5060c2752
2 changed files with 63 additions and 0 deletions
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59
basics/mutable_and_immutable_objects.py Normal file
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@@ -0,0 +1,59 @@
"""
Mutable and immutable objects
"""
# A mutable object is an object which can be modified in place.
# In python, everything is an object(class). So creating any variable
# will create a class instance of that object type, with a specific set of methods,
# which can operate on the object. It will also contain the content.
#
# A mutable object is an object which stays the same object, no matter what legal operation you do on it.
# There are basically 3 types of mutable objects in python.
# Lists, dictionaries and sets.
list()
dict()
set()
# What makes these objects mutable, is the fact that you can alter the content without
# altering the object itself. i.e. you can append items to a list or remove items from a list.
# The same mechanics are true for dictionaries and sets.
# Immutable objects are objects that can't be changed.
# These are some of the types which are immutable.
str()
int()
float()
# What characterisses an immutable object, is that the object itself holds the content.
# In other words, 1 value = 1 object. Take the following example.
A: int = 5
B: int = 5
# Here, we have created 2 objects 'A' and 'B', both with the integer value '5'.
# What happens in python is that when creating such objects, it will start by searching
# already created objects to see if an object with this specific value has already been
# created. If python finds that an object of this particular type and value exists, it
# will return a pointer to this object.
# That means that in our example, both 'A' and 'B' are the same object. We can prove that
# with the following. Using id() on the variable(class object) will show the internal
# python id of that object.
print(id(A))
print(id(B))
# So we can see that these objects both points to the same internal object, meaning that
# only 1 int(5) object exists, but we can have multiple varables pointing to it.
# This is exactly what immutable objects are. There can be only 1 of each.
# Now explore the following.
A: int = 5
B: int = 5
print(id(A))
print(id(B))
B += 1 # add 1 to variable 'B'
print(id(A))
print(id(B))
# What happens here?
# Now variable 'A' still points to the int(5) class object. But a new int(6) clas object
# have been created and variable 'B' now points to this object.
# The same is the case with string objects. Each string object can only contain the string
# value, it was created with.

4
basics/naming_convention.py
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@@ -67,6 +67,10 @@ class MyClass:
with open(self.folder + filename, "w") as F: with open(self.folder + filename, "w") as F:
F.write() F.write()
# Dont's
# Don't user lowercase, uppercase or snakecase in class names.
# Be careful to give your classes meaningful names. Preferably describing what the class is used for.
# You can create several instances of the same class. Which is where 'self' comes into play. # You can create several instances of the same class. Which is where 'self' comes into play.
myclass = MyClass() myclass = MyClass()
myclass_1 = MyClass(folder = "/home/me/") myclass_1 = MyClass(folder = "/home/me/")