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🛁 Clean Code concepts adapted for Python
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Robert C. Martin의 저서Clean Code의 소프트웨어 엔지니어링 원칙들을 Python으로 소개합니다. 본 문서는 스타일 가이드가 아닙니다. Python에서 읽기 쉽고 재사용 가능하며 리팩토링 가능한 소프트웨어를 제작하기 위한 가이드입니다.
Not every principle herein has to be strictly followed, and even fewer will beuniversally agreed upon. These are guidelines and nothing more, but they areones codified over many years of collective experience by the authors ofCleanCode.
clean-code-javascript를 바탕으로 작성되었습니다.
Python 3.7 이상 버전을 사용합니다.
나쁜 예:
importdatetimeymdstr=datetime.date.today().strftime("%y-%m-%d")
추가로, 변수명에 str이라는 타입을 명시해 줄 필요가 없습니다.
좋은 예:
importdatetimecurrent_date:str=datetime.date.today().strftime("%y-%m-%d")
나쁜 예:동일한 엔티티에 대해 세 가지 다른 이름을 사용하고 있습니다:
defget_user_info():passdefget_client_data():passdefget_customer_record():pass
좋은 예: 동일한 엔티티라면, 함수에서 엔티티를 일관되게 참조해야 합니다:
defget_user_info():passdefget_user_data():passdefget_user_record():pass
더 좋은 방법으로Python은 객체 지향 언어입니다. 따라서 가능하다면 의미가 있는 인스턴스 attributes, 프로퍼티 메서드 또는 메서드와 같이 코드에서 엔티티의 구체적인 구현과 함께 함수를 패키징합니다.
fromtypingimportUnion,DictclassRecord:passclassUser:info:str@propertydefdata(self)->Dict[str,str]:return {}defget_record(self)->Union[Record,None]:returnRecord()
우리는 통상 쓰는 것보다 더 많은 양의 코드를 읽습니다. 따라서 코드가 읽기 쉽고 검색하기 쉬운 것이 중요합니다. 프로그램을 이해하는데 의미가 있도록 변수를 짓지 않는다면 읽는 사람이 힘들 것 입니다. 이름을 검색하기 쉽도록 작성합니다.
나쁜 예:
importtime# What is the number 86400 for again?time.sleep(86400)
좋은 예:
importtime# Declare them in the global namespace for the module.SECONDS_IN_A_DAY=60*60*24time.sleep(SECONDS_IN_A_DAY)
나쁜 예
importreaddress="One Infinite Loop, Cupertino 95014"city_zip_code_regex=r"^[^,\\]+[,\\\s]+(.+?)\s*(\d{5})?$"matches=re.match(city_zip_code_regex,address)ifmatches:print(f"{matches[1]}:{matches[2]}")
개선된 예:
더 낫긴 하지만 여전히 정규식에 크게 의존하고 있습니다.
importreaddress="One Infinite Loop, Cupertino 95014"city_zip_code_regex=r"^[^,\\]+[,\\\s]+(.+?)\s*(\d{5})?$"matches=re.match(city_zip_code_regex,address)ifmatches:city,zip_code=matches.groups()print(f"{city}:{zip_code}")
좋은 예:
서브패턴을 활용한 네이밍으로 정규식의 의존성을 줄일 수 있습니다.
importreaddress="One Infinite Loop, Cupertino 95014"city_zip_code_regex=r"^[^,\\]+[,\\\s]+(?P<city>.+?)\s*(?P<zip_code>\d{5})?$"matches=re.match(city_zip_code_regex,address)ifmatches:print(f"{matches['city']},{matches['zip_code']}")
코드를 읽는 사람이 변수의 의미를 해석해야 하도록 두지 마십시오.
명시적인 것이 암시적인 것보다 낫습니다.
나쁜 예:
seq= ("Austin","New York","San Francisco")foriteminseq:# do_stuff()# do_some_other_stuff()# Wait, what's `item` again?print(item)
좋은 예:
locations= ("Austin","New York","San Francisco")forlocationinlocations:# do_stuff()# do_some_other_stuff()# ...print(location)
클래스/객체 이름에서 알 수 있는 내용이 있으면, 해당 변수명에서 반복하지 마십시오.
나쁜 예:
classCar:car_make:strcar_model:strcar_color:str
좋은 예:
classCar:make:strmodel:strcolor:str
Tricky
Why write:
importhashlibdefcreate_micro_brewery(name):name="Hipster Brew Co."ifnameisNoneelsenameslug=hashlib.sha1(name.encode()).hexdigest()# etc.
... when you can specify a default argument instead? This also makes it clearthat you are expecting a string as the argument.
좋은 예:
importhashlibdefcreate_micro_brewery(name:str="Hipster Brew Co."):slug=hashlib.sha1(name.encode()).hexdigest()# etc.
소프트웨어 엔지니어링에서 가장 중요한 규칙입니다. 함수가 한가지 이상의 일을 수행한다면 함수를 구성, 테스트, 추론하기 어려워집니다. 함수를 한 가지 일만 수행하도록 분리한다면 쉽게 리팩토링 할 수 있으며, 코드는 더욱 깔끔해집니다. 이 가이드에서 이 한 가지만 기억하더라도 다른 많은 개발자보다 앞서게 될 것입니다.
나쁜 예:
fromtypingimportListclassClient:active:booldefemail(client:Client)->None:passdefemail_clients(clients:List[Client])->None:"""Filter active clients and send them an email. """forclientinclients:ifclient.active:email(client)
좋은 예:
fromtypingimportListclassClient:active:booldefemail(client:Client)->None:passdefget_active_clients(clients:List[Client])->List[Client]:"""Filter active clients. """return [clientforclientinclientsifclient.active]defemail_clients(clients:List[Client])->None:"""Send an email to a given list of clients. """forclientinget_active_clients(clients):email(client)
generator를 사용하여 더욱 개선할 수 있습니다.
더 좋은 예
fromtypingimportGenerator,IteratorclassClient:active:booldefemail(client:Client):passdefactive_clients(clients:Iterator[Client])->Generator[Client,None,None]:"""Only active clients"""return (clientforclientinclientsifclient.active)defemail_client(clients:Iterator[Client])->None:"""Send an email to a given list of clients. """forclientinactive_clients(clients):email(client)
함수에 많은 파라미터가 있는 경우 함수가 너무 많은 작업 (하나 이상의 책임) 을 수행하고 있다는 신호일 수 있습니다. 이상적으로 2개 이하의 파라미터를 가지도록 함수를 분해해보세요.
만약 함수가 하나의 책임만을 가진다면, 일부 또는 모든 파라미터를 함수에 전달할 특수화된 객체로 묶어보는 것을 고려해보세요. 이러한 파라미터는 전용 데이터 구조로 표현될 수 있는 단일 엔티티의 애트리뷰트일 수 있습니다. 또한 이러한 엔티티는 다른 곳에서도 재사용할 수 있습니다. 여러 파라미터를 사용하는 것보다 이 방법이 나은 이유는 함수 내부에서 해당 파라미터로 수행되는 일부 계산을 새 엔티티에 속하는 메서드로 옮겨 함수의 복잡도를 줄일 수 있기 떄문입니다.
나쁜 예:
defcreate_menu(title,body,button_text,cancellable):pass
Java-esque:
classMenu:def__init__(self,config:dict):self.title=config["title"]self.body=config["body"]# ...menu=Menu( {"title":"My Menu","body":"Something about my menu","button_text":"OK","cancellable":False })
Also good
classMenuConfig:"""A configuration for the Menu. Attributes: title: The title of the Menu. body: The body of the Menu. button_text: The text for the button label. cancellable: Can it be cancelled? """title:strbody:strbutton_text:strcancellable:bool=Falsedefcreate_menu(config:MenuConfig)->None:title=config.titlebody=config.body# ...config=MenuConfig()config.title="My delicious menu"config.body="A description of the various items on the menu"config.button_text="Order now!"# The instance attribute overrides the default class attribute.config.cancellable=Truecreate_menu(config)
Fancy
fromtypingimportNamedTupleclassMenuConfig(NamedTuple):"""A configuration for the Menu. Attributes: title: The title of the Menu. body: The body of the Menu. button_text: The text for the button label. cancellable: Can it be cancelled? """title:strbody:strbutton_text:strcancellable:bool=Falsedefcreate_menu(config:MenuConfig):title,body,button_text,cancellable=config# ...create_menu(MenuConfig(title="My delicious menu",body="A description of the various items on the menu",button_text="Order now!" ))
Even fancier
fromdataclassesimportastuple,dataclass@dataclassclassMenuConfig:"""A configuration for the Menu. Attributes: title: The title of the Menu. body: The body of the Menu. button_text: The text for the button label. cancellable: Can it be cancelled? """title:strbody:strbutton_text:strcancellable:bool=Falsedefcreate_menu(config:MenuConfig):title,body,button_text,cancellable=astuple(config)# ...create_menu(MenuConfig(title="My delicious menu",body="A description of the various items on the menu",button_text="Order now!" ))
Even fancier, Python3.8+ only
fromtypingimportTypedDictclassMenuConfig(TypedDict):"""A configuration for the Menu. Attributes: title: The title of the Menu. body: The body of the Menu. button_text: The text for the button label. cancellable: Can it be cancelled? """title:strbody:strbutton_text:strcancellable:booldefcreate_menu(config:MenuConfig):title=config["title"]# ...create_menu(# You need to supply all the parametersMenuConfig(title="My delicious menu",body="A description of the various items on the menu",button_text="Order now!",cancellable=True ))
나쁜 예:
classEmail:defhandle(self)->None:passmessage=Email()# What is this supposed to do again?message.handle()
Good:
classEmail:defsend(self)->None:"""Send this message"""message=Email()message.send()
만약 하나 이상의 추상화 수준을 가진다면, 함수는 너무 많은 일을 할 수도 있습니다. 함수를 재사용 가능하고 테스트하기 쉽게 분리하세요.
나쁜 예:
# type: ignoredefparse_better_js_alternative(code:str)->None:regexes= [# ... ]statements=code.split('\n')tokens= []forregexinregexes:forstatementinstatements:passast= []fortokenintokens:passfornodeinast:pass
좋은 예:
fromtypingimportTuple,List,DictREGEXES:Tuple= (# ...)defparse_better_js_alternative(code:str)->None:tokens:List=tokenize(code)syntax_tree:List=parse(tokens)fornodeinsyntax_tree:passdeftokenize(code:str)->List:statements=code.split()tokens:List[Dict]= []forregexinREGEXES:forstatementinstatements:passreturntokensdefparse(tokens:List)->List:syntax_tree:List[Dict]= []fortokenintokens:passreturnsyntax_tree
플래그는 사용자에게 함수가 한 가지 이상의 일을 한다는 것을 알려줍니다. 함수는 한가지 일만을 수행해야 합니다. 따라서 불리언 값에 따라 다른 코드 경로를 따르도록 함수를 분리하세요.
Bad:
fromtempfileimportgettempdirfrompathlibimportPathdefcreate_file(name:str,temp:bool)->None:iftemp: (Path(gettempdir())/name).touch()else:Path(name).touch()
Good:
fromtempfileimportgettempdirfrompathlibimportPathdefcreate_file(name:str)->None:Path(name).touch()defcreate_temp_file(name:str)->None: (Path(gettempdir())/name).touch()
함수가 입력값을 받아서 다른 값들을 반환하는 것 이외에 다른 작업을 수행하면 사이드 이펙트를 일으킵니다. 예를 들어, 파일 쓰기, 전역 변수 수정, 실수로 모르는 사람에게 돈을 송금하는 것 등이 있습니다.
프로그램에서 때때로 사이드 이펙트가 필요할 수 있습니다. 예를 들어, 이전 예와 같이 파일에 쓰기 작업이 필요할 수 있습니다. 이러한 경우에는 사이트 이펙트를 포함하는 위치를 중앙 집중화하고 표시해야 합니다. 특정 파일에 쓰기 작업을 하는 여러 함수와 클래스를 가지지 말고 하나의 서비스만을 가지세요.
요점은 구조 없이 객체 간에 상태를 공유하거나, 누구나 쓸 수 있는 가변 데이터 유형을 사용하거나, 클래스의 인스턴스를 사용하거나, 부작용이 발생하는 위치를 중앙 집중화하지 않는 것과 같은 일반적인 함정을 피하는 것입니다. 이를 통해 대다수의 다른 프로그래머보다 행복하게 작업할 수 있을 것입니다.
나쁜 예:
# type: ignore# This is a module-level name.# It's good practice to define these as immutable values, such as a string.# However...fullname="Ryan McDermott"defsplit_into_first_and_last_name()->None:# The use of the global keyword here is changing the meaning of the# the following line. This function is now mutating the module-level# state and introducing a side-effect!globalfullnamefullname=fullname.split()split_into_first_and_last_name()# MyPy will spot the problem, complaining about 'Incompatible types in# assignment: (expression has type "List[str]", variable has type "str")'print(fullname)# ["Ryan", "McDermott"]# OK. It worked the first time, but what will happen if we call the# function again?
좋은 예:
fromtypingimportList,AnyStrdefsplit_into_first_and_last_name(name:AnyStr)->List[AnyStr]:returnname.split()fullname="Ryan McDermott"name,surname=split_into_first_and_last_name(fullname)print(name,surname)# => Ryan McDermott
Also good
fromdataclassesimportdataclass@dataclassclassPerson:name:str@propertydefname_as_first_and_last(self)->list:returnself.name.split()# The reason why we create instances of classes is to manage state!person=Person("Ryan McDermott")print(person.name)# => "Ryan McDermott"print(person.name_as_first_and_last)# => ["Ryan", "McDermott"]
Robert C. Martin writes:
A class should have only one reason to change.
"Reasons to change" are, in essence, the responsibilities managed by a class orfunction.
In the following example, we create an HTML element that represents a commentwith the version of the document:
Bad
fromimportlibimportmetadataclassVersionCommentElement:"""An element that renders an HTML comment with the program's version number """defget_version(self)->str:"""Get the package version"""returnmetadata.version("pip")defrender(self)->None:print(f'<!-- Version:{self.get_version()} -->')VersionCommentElement().render()
This class has two responsibilities:
- Retrieve the version number of the Python package
- Render itself as an HTML element
Any change to one or the other carries the risk of impacting the other.
We can rewrite the class and decouple these responsibilities:
Good
fromimportlibimportmetadatadefget_version(pkg_name:str)->str:"""Retrieve the version of a given package"""returnmetadata.version(pkg_name)classVersionCommentElement:"""An element that renders an HTML comment with the program's version number """def__init__(self,version:str):self.version=versiondefrender(self)->None:print(f'<!-- Version:{self.version} -->')VersionCommentElement(get_version("pip")).render()
The result is that the class only needs to take care of rendering itself. Itreceives the version text during instantiation and this text is generated bycalling a separate function,get_version(). Changing the class has no impacton the other, and vice-versa, as long as the contract between them does notchange, i.e. the function provides a string and the class__init__ methodaccepts a string.
As an added bonus, theget_version() is now reusable elsewhere.
“Incorporate new features by extending the system, not by makingmodifications (to it)”,Uncle Bob.
Objects should be open for extension, but closed to modification. It should bepossible to augment the functionality provided by an object (for example, aclass)without changing its internal contracts. An object can enable this when it isdesigned to be extended cleanly.
In the following example, we try to implement a simple web framework thathandles HTTP requests and returns responses. TheView class has a singlemethod.get() that will be called when the HTTP server will receive a GETrequest from a client.
View is intentionally simple and returnstext/plain responses. We wouldalso like to return HTML responses based on a template file, so we subclass itusing theTemplateView class.
Bad
fromdataclassesimportdataclass@dataclassclassResponse:"""An HTTP response"""status:intcontent_type:strbody:strclassView:"""A simple view that returns plain text responses"""defget(self,request)->Response:"""Handle a GET request and return a message in the response"""returnResponse(status=200,content_type='text/plain',body="Welcome to my web site" )classTemplateView(View):"""A view that returns HTML responses based on a template file."""defget(self,request)->Response:"""Handle a GET request and return an HTML document in the response"""withopen("index.html")asfd:returnResponse(status=200,content_type='text/html',body=fd.read() )
TheTemplateView class has modified the internal behaviour of its parentclass in order to enable the more advanced functionality. In doing so, it nowrelies on theView to not change the implementation of the.get()method, which now needs to be frozen in time. We cannot introduce, for example,some additional checks in all ourView-derived classes because the behaviouris overridden in at least one subtype and we will need to update it.
Let's redesign our classes to fix this problem and let theView class beextended (not modified) cleanly:
Good
fromdataclassesimportdataclass@dataclassclassResponse:"""An HTTP response"""status:intcontent_type:strbody:strclassView:"""A simple view that returns plain text responses"""content_type="text/plain"defrender_body(self)->str:"""Render the message body of the response"""return"Welcome to my web site"defget(self,request)->Response:"""Handle a GET request and return a message in the response"""returnResponse(status=200,content_type=self.content_type,body=self.render_body() )classTemplateView(View):"""A view that returns HTML responses based on a template file."""content_type="text/html"template_file="index.html"defrender_body(self)->str:"""Render the message body as HTML"""withopen(self.template_file)asfd:returnfd.read()
Note that we did need to override therender_body() in order to change thesource of the body, but this method has a single, well defined responsibilitythatinvites subtypes to override it. It is designed to be extended by itssubtypes.
Another good way to use the strengths of both object inheritance and objectcomposition is touseMixins.
Mixins are bare-bones classes that are meant to be used exclusively with otherrelated classes. They are "mixed-in" with the target class using multipleinheritance, in order to change the target's behaviour.
A few rules:
- Mixins should always inherit from
object - Mixins always come before the target class,e.g.
class Foo(MixinA, MixinB, TargetClass): ...
Also good
fromdataclassesimportdataclass,fieldfromtypingimportProtocol@dataclassclassResponse:"""An HTTP response"""status:intcontent_type:strbody:strheaders:dict=field(default_factory=dict)classView:"""A simple view that returns plain text responses"""content_type="text/plain"defrender_body(self)->str:"""Render the message body of the response"""return"Welcome to my web site"defget(self,request)->Response:"""Handle a GET request and return a message in the response"""returnResponse(status=200,content_type=self.content_type,body=self.render_body() )classTemplateRenderMixin:"""A mixin class for views that render HTML documents using a template file Not to be used by itself! """template_file:str=""defrender_body(self)->str:"""Render the message body as HTML"""ifnotself.template_file:raiseValueError("The path to a template file must be given.")withopen(self.template_file)asfd:returnfd.read()classContentLengthMixin:"""A mixin class for views that injects a Content-Length header in the response Not to be used by itself! """defget(self,request)->Response:"""Introspect and amend the response to inject the new header"""response=super().get(request)# type: ignoreresponse.headers['Content-Length']=len(response.body)returnresponseclassTemplateView(TemplateRenderMixin,ContentLengthMixin,View):"""A view that returns HTML responses based on a template file."""content_type="text/html"template_file="index.html"
As you can see, Mixins make object composition easier by packaging togetherrelated functionality into a highly reusable class with a singleresponsibility, allowing clean decoupling. Class extension is achieved by "mixing-in" the additional classes.
The popular Django project makes heavy use of Mixins to compose its class-basedviews.
FIXME: re-enable typechecking for the line above once it's clear how to usetyping.Protocol to make the type checker work with Mixins.
“베이스 클래스로의 포인터나 참조를 사용하는 함수들은베이스 클래스의 자식 클래스가 무엇인지 몰라도 반드시 자식 클래스의 객체를 사용할 수 있어야 합니다.”,Uncle Bob.
이 원칙은 Barbara Liskov("A behavioral notion of subtyping" (1994)를 컴퓨터 과학자인 Jeannette Wing와 공동저술 함)의 이름을 딴 원칙입니다.이 논문의 핵심적인 철학은 자식타입은 반드시 부모타입의 메서드와 불변성, {history} 특성을 보존해야 한다는 것입니다.
본질적으로, 부모타입을 사용하는 함수는 어떠한 수정없이 부모타입의 모든 것을 받아드려야만 합니다.
다음 코드에서 잘못된 부분을 찾아 보실까요?
Bad
fromdataclassesimportdataclass@dataclassclassResponse:"""An HTTP response"""status:intcontent_type:strbody:strclassView:"""A simple view that returns plain text responses"""content_type="text/plain"defrender_body(self)->str:"""Render the message body of the response"""return"Welcome to my web site"defget(self,request)->Response:"""Handle a GET request and return a message in the response"""returnResponse(status=200,content_type=self.content_type,body=self.render_body() )classTemplateView(View):"""A view that returns HTML responses based on a template file."""content_type="text/html"defget(self,request,template_file:str)->Response:# type: ignore"""Render the message body as HTML"""withopen(template_file)asfd:returnResponse(status=200,content_type=self.content_type,body=fd.read() )defrender(view:View,request)->Response:"""Render a View"""returnview.get(request)
render() 함수는View와 자식타입인TemplateView와 함께 작동할 것이라고 생각되지만,TemplateView는.get() 메서드를 수정함으로써render()함수와 함께 작동할 수 없습니다.만약 view의 타입으로서TemplateView 를 사용한다면 TypeError exception이 발생할 것입니다.
그리고 만약 우리가render() 함수가View의 자식타입과 작동하기를 원한다면,부모타입과 자식타입간의 public-facing protocol이 깨지지 않게 주의해야 합니다.(🔍 public-facing protocol이란: 외부에서 접근가능한 부모 클래스의 메서드나 프로퍼티의 불변성)그러나, 주어진 클래스가 무엇으로 구성 되었는지는 어떻게 알 수 있을까요?mypy 같은 타입 hinter들이 아래와 같이 실수를 감지하고 에러메시지를 띄우게 됩니다.
error: Signature of "get" incompatible with supertype "View"<string>:36: note: Superclass:<string>:36: note: def get(self, request: Any) -> Response<string>:36: note: Subclass:<string>:36: note: def get(self, request: Any, template_file: str) -> Response“Keep interfaces smallso that users don’t end up depending on things they don’t need.”,Uncle Bob.
Several well known object oriented programming languages, like Java and Go,have a concept called interfaces. An interface defines the public methods andproperties of an object without implementing them. They are useful when wedon't want to couple the signature of a function to a concrete object; we'drather say "I don't care what object you give me, as long as it has certainmethods and attributes I expect to make use of".
Python does not have interfaces. We have Abstract Base Classes instead, whichare a little different, but can serve the same purpose.
Good
fromabcimportABCMeta,abstractmethod# Define the Abstract Class for a generic Greeter objectclassGreeter(metaclass=ABCMeta):"""An object that can perform a greeting action."""@staticmethod@abstractmethoddefgreet(name:str)->None:"""Display a greeting for the user with the given name"""classFriendlyActor(Greeter):"""An actor that greets the user with a friendly salutation"""@staticmethoddefgreet(name:str)->None:"""Greet a person by name"""print(f"Hello{name}!")defwelcome_user(user_name:str,actor:Greeter):"""Welcome a user with a given name using the provided actor"""actor.greet(user_name)welcome_user("Barbara",FriendlyActor())
Now imagine the following scenario: we have a certain number of PDF documentsthat we author and want to serve to our web site visitors. We are using aPython web framework and we might be tempted to design a class to manage thesedocuments, so we go ahead and design a comprehensive abstract base class forour document.
Error
importabcclassPersistable(metaclass=abc.ABCMeta):"""Serialize a file to data and back"""@property@abc.abstractmethoddefdata(self)->bytes:"""The raw data of the file"""@classmethod@abc.abstractmethoddefload(cls,name:str):"""Load the file from disk"""@abc.abstractmethoddefsave(self)->None:"""Save the file to disk"""# We just want to serve the documents, so our concrete PDF document# implementation just needs to implement the `.load()` method and have# a public attribute named `data`.classPDFDocument(Persistable):"""A PDF document"""@propertydefdata(self)->bytes:"""The raw bytes of the PDF document""" ...# Code goes here - omitted for brevity@classmethoddefload(cls,name:str):"""Load the file from the local filesystem""" ...# Code goes here - omitted for brevitydefview(request):"""A web view that handles a GET request for a document"""requested_name=request.qs['name']# We want to validate this!returnPDFDocument.load(requested_name).data
But we can't! If we don't implement the.save() method, an exception will beraised:
Can't instantiate abstract class PDFDocument with abstract method save.That's annoying. We don't really need to implement.save() here. We couldimplement a dummy method that does nothing or raisesNotImplementedError, butthat's useless code that we will need to maintain.
At the same time, if we remove.save() from the abstract class now we willneed to add it back when we will later implement a way for users to submittheir documents, bringing us back to the same situation as before.
The problem is that we have written aninterface that has features we don'tneed right now as we are not using them.
The solution is to decompose the interface into smaller and composableinterfaces that segregate each feature.
Good
importabcclassDataCarrier(metaclass=abc.ABCMeta):"""Carries a data payload"""@propertydefdata(self): ...classLoadable(DataCarrier):"""Can load data from storage by name"""@classmethod@abc.abstractmethoddefload(cls,name:str): ...classSaveable(DataCarrier):"""Can save data to storage"""@abc.abstractmethoddefsave(self)->None: ...classPDFDocument(Loadable):"""A PDF document"""@propertydefdata(self)->bytes:"""The raw bytes of the PDF document""" ...# Code goes here - omitted for brevity@classmethoddefload(cls,name:str)->None:"""Load the file from the local filesystem""" ...# Code goes here - omitted for brevitydefview(request):"""A web view that handles a GET request for a document"""requested_name=request.qs['name']# We want to validate this!returnPDFDocument.load(requested_name).data
“Depend upon abstractions, not concrete details”,Uncle Bob.
Imagine we wanted to write a web view that returns an HTTP response thatstreams rows of a CSV file we create on the fly. We want to use the CSV writerthat is provided by the standard library.
Bad
importcsvfromioimportStringIOclassStreamingHttpResponse:"""A streaming HTTP response""" ...# implementation code goes heredefsome_view(request):rows= ( ['First row','Foo','Bar','Baz'], ['Second row','A','B','C','"Testing"',"Here's a quote"] )# Define a generator to stream data directly to the clientdefstream():buffer_=StringIO()writer=csv.writer(buffer_,delimiter=';',quotechar='"')forrowinrows:writer.writerow(row)buffer_.seek(0)data=buffer_.read()buffer_.seek(0)buffer_.truncate()yielddata# Create the streaming response object with the appropriate CSV header.response=StreamingHttpResponse(stream(),content_type='text/csv')response['Content-Disposition']='attachment; filename="somefilename.csv"'returnresponse
Our first implementation works around the CSV's writer interface bymanipulating aStringIO object (which is file-like) and performing severallow level operations in order to farm out the rows from the writer. It's a lotof work and not very elegant.
A better way is to leverage the fact that the writer just needs an object witha.write() method to do our bidding. Why not pass it a dummy object thatimmediately returns the newly assembled row, so thattheStreamingHttpResponseclass can immediate stream it back to the client?
Good
importcsvclassEcho:"""An object that implements just the write method of the file-like interface. """defwrite(self,value):"""Write the value by returning it, instead of storing in a buffer."""returnvaluedefsome_streaming_csv_view(request):"""A view that streams a large CSV file."""rows= ( ['First row','Foo','Bar','Baz'], ['Second row','A','B','C','"Testing"',"Here's a quote"] )writer=csv.writer(Echo(),delimiter=';',quotechar='"')returnStreamingHttpResponse( (writer.writerow(row)forrowinrows),content_type="text/csv",headers={'Content-Disposition':'attachment; filename="somefilename.csv"'}, )
Much better, and it works like a charm! The reason it's superior to theprevious implementation should be obvious: less code (and more performant) toachieve the same result. We decided to leverage the fact that the writer classdepends on the.write() abstraction of the object it receives, without caringabout the low level, concrete details of what the method actually does.
This example was taken froma submission made to the Django documentationby this author.
Try to observe theDRYprinciple.
Do your absolute best to avoid duplicate code. Duplicate code is bad because itmeans that there's more than one place to alter something if you need to changesome logic.
Imagine if you run a restaurant and you keep track of your inventory: all yourtomatoes, onions, garlic, spices, etc. If you have multiple lists that you keepthis on, then all have to be updated when you serve a dish with tomatoes inthem. If you only have one list, there's only one place to update!
Often you have duplicate code because you have two or more slightly differentthings, that share a lot in common, but their differences force you to have twoor more separate functions that do much of the same things. Removing duplicatecode means creating an abstraction that can handle this set of different thingswith just one function/module/class.
Getting the abstraction right is critical. Bad abstractions can be worse thanduplicate code, so be careful! Having said this, if you can make a goodabstraction, do it! Don't repeat yourself, otherwise you'll find yourselfupdating multiple places any time you want to change one thing.
Bad:
fromtypingimportList,Dictfromdataclassesimportdataclass@dataclassclassDeveloper:def__init__(self,experience:float,github_link:str)->None:self._experience=experienceself._github_link=github_link@propertydefexperience(self)->float:returnself._experience@propertydefgithub_link(self)->str:returnself._github_link@dataclassclassManager:def__init__(self,experience:float,github_link:str)->None:self._experience=experienceself._github_link=github_link@propertydefexperience(self)->float:returnself._experience@propertydefgithub_link(self)->str:returnself._github_linkdefget_developer_list(developers:List[Developer])->List[Dict]:developers_list= []fordeveloperindevelopers:developers_list.append({'experience':developer.experience,'github_link':developer.github_link })returndevelopers_listdefget_manager_list(managers:List[Manager])->List[Dict]:managers_list= []formanagerinmanagers:managers_list.append({'experience':manager.experience,'github_link':manager.github_link })returnmanagers_list## create list objects of developerscompany_developers= [Developer(experience=2.5,github_link='https://github.com/1'),Developer(experience=1.5,github_link='https://github.com/2')]company_developers_list=get_developer_list(developers=company_developers)## create list objects of managerscompany_managers= [Manager(experience=4.5,github_link='https://github.com/3'),Manager(experience=5.7,github_link='https://github.com/4')]company_managers_list=get_manager_list(managers=company_managers)
Good:
fromtypingimportList,Dictfromdataclassesimportdataclass@dataclassclassEmployee:def__init__(self,experience:float,github_link:str)->None:self._experience=experienceself._github_link=github_link@propertydefexperience(self)->float:returnself._experience@propertydefgithub_link(self)->str:returnself._github_linkdefget_employee_list(employees:List[Employee])->List[Dict]:employees_list= []foremployeeinemployees:employees_list.append({'experience':employee.experience,'github_link':employee.github_link })returnemployees_list## create list objects of developerscompany_developers= [Employee(experience=2.5,github_link='https://github.com/1'),Employee(experience=1.5,github_link='https://github.com/2')]company_developers_list=get_employee_list(employees=company_developers)## create list objects of managerscompany_managers= [Employee(experience=4.5,github_link='https://github.com/3'),Employee(experience=5.7,github_link='https://github.com/4')]company_managers_list=get_employee_list(employees=company_managers)
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