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توضیحات

Python library to convert Python class instances(Objects) both flat and nested into a dictionary data structure. It's very useful in converting Python Objects into JSON format especially for nested objects, because they can't be handled well by json library

ویژگی	مقدار
سیستم عامل	-
نام فایل	dictfier-1.5.1
نام	dictfier
نسخه کتابخانه	1.5.1
نگهدارنده	[]
ایمیل نگهدارنده	[]
نویسنده	Yezy Ilomo
ایمیل نویسنده	yezileliilomo@hotmail.com
آدرس صفحه اصلی	https://github.com/yezyilomo/dictfier
آدرس اینترنتی	https://pypi.org/project/dictfier/
مجوز	MIT

# dictfier [![Build Status](https://api.travis-ci.com/yezyilomo/dictfier.svg?branch=master)](https://api.travis-ci.com/yezyilomo/dictfier) [![Latest Version](https://img.shields.io/pypi/v/dictfier.svg)](https://pypi.org/project/dictfier/) [![Python Versions](https://img.shields.io/pypi/pyversions/dictfier.svg)](https://pypi.org/project/dictfier/) [![License](https://img.shields.io/pypi/l/dictfier.svg)](https://pypi.org/project/dictfier/) **dictfier** is a library to convert/serialize Python class instances(Objects) both **flat** and **nested** into a dictionary data structure. It's very useful in converting Python Objects into JSON format especially for nested objects, because they can't be handled well by json library ### Prerequisites python version >= 2.7 ### Installing ```python pip install dictfier ``` ## Getting Started #### Converting a flat object into a dict ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age student = Student("Danish", 24) query = [ "name", "age" ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age': 24} ``` #### Converting nested object into a dict ```python import dictfier class Course(object): def __init__(self, code, name): self.code = code self.name = name class Student(object): def __init__(self, name, age, course): self.name = name self.age = age self.course = course course = Course("CS201", "Data Structures") student = Student("Danish", 24, course) query = [ "name", "age", { "course": [ "code", "name", ] } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output { 'name': 'Danish', 'age': 24, 'course': {'code': 'CS201', 'name': 'Data Structures'} } ``` #### Converting object nested with iterable object into a dict ```python import dictfier class Course(object): def __init__(self, code, name): self.code = code self.name = name class Student(object): def __init__(self, name, age, courses): self.name = name self.age = age self.courses = courses course1 = Course("CS201", "Data Structures") course2 = Course("CS205", "Computer Networks") student = Student("Danish", 24, [course1, course2]) query = [ "name", "age", { "courses": [ [ "code", "name", ] ] } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output { 'name': 'Danish', 'age': 24, 'courses': [ {'code': 'CS201', 'name': 'Data Structures'}, {'code': 'CS205', 'name': 'Computer Networks'} ] } ``` #### What about instance methods or callable object fields? Well we've got good news for that, **dictfier** can use callables which return values as fields, It's very simple, you just have to pass "call=True" as a keyword argument to objfield API and add your callable field to a query. E.g. ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age def age_in_days(self): return self.age * 365 student = Student("Danish", 24) query = [ "name", { "age_in_days": dictfier.objfield("age_in_days", call=True) } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age_in_days': 8760} ``` You can also add your custom field by using **newfield** API. E.g. ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age student = Student("Danish", 24) query = [ "name", "age", { "school": dictfier.newfield("St Patrick") } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age': 24, 'school': 'St Patrick'} ``` #### What if we want to use object field on a custom field to do some computations?. Well there is a way to do that too, **dictfier** API provides **useobj** hook which is used to hook or pull the object on a current query node. To use the current object, just define a fuction which accept single argument(which is an object) and perform your computations on such function and then return a result, call **useobj** and pass that defined fuction to it. Let's say we want to calculate age of a student in terms of months from a student object with age field in terms of years. Here is how we would do this by using **useobj** hook. ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age student = Student("Danish", 24) def age_in_months(obj): # Do the computation here then return the result return obj.age * 12 query = [ "name", # This is a custom field which is computed by using age field from a student object # Note how age_in_months function is passed to useobj hook(This is very important for API to work) {"age_in_months": dictfier.useobj(age_in_months)} ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age_in_months': 288} ``` #### What if we want to use object field on a custom field(Rename obj field)? This can be accomplished in two ways, As you might have guessed, one way to do it is to use **useobj** hook by passing a function which return the value of a field which you want to use, another simple way is to use **objfield** hook. Just like **useobj** hook, **objfield** hook is used to hook or pull object field on a current query node. To use the current object field, just call **objfield** and pass a field name which you want to use or replace. Let's say we want to rename **age** field to **age_in_years** in our results. Here is how we would do this by using **objfield** hook. ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age student = Student("Danish", 24) query = [ "name", {"age_in_years": dictfier.objfield("age")} ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age_in_years': 24} ``` And if you want to use **useobj** hook then this is how you would do it. ```python import dictfier class Student(object): def __init__(self, name, age): self.name = name self.age = age student = Student("Danish", 24) query = [ "name", {"age_in_years": dictfier.useobj(lambda obj: obj.age)} ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output {'name': 'Danish', 'age_in_years': 24} ``` Infact **objfield** hook is implemented by using **useobj**, so both methods are the same interms of performance, but I think you would agree with me that in this case **objfield** is more readable than **useobj**. You can also query an object returned by **useobj** hook, This can be done by passing a query as a second argument to **useobj** or use 'query=your_query' as a kwarg. E.g. ```python import json import dictfier class Course(object): def __init__(self, code, name): self.code = code self.name = name class Student(object): def __init__(self, name, age, course): self.name = name self.age = age self.course = course course = Course("CS201", "Data Structures") student = Student("Danish", 24, course) query = [ "name", "age", { "course": dictfier.useobj( lambda obj: obj.course, ["name", "code"] # This is a query ) } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output { 'name': 'Danish', 'age': 24, 'course': { 'name': 'Data Structures', 'code': 'CS201' } } ``` #### For iterable objects, here is how you would do it. ```python import json import dictfier class Course(object): def __init__(self, code, name): self.code = code self.name = name class Student(object): def __init__(self, name, age, courses): self.name = name self.age = age self.courses = courses course1 = Course("CS201", "Data Structures") course2 = Course("CS205", "Computer Networks") student = Student("Danish", 24, [course1, course2]) query = [ "name", "age", { "courses": dictfier.useobj( lambda obj: obj.courses, [["name", "code"]] # This is a query ) } ] std_info = dictfier.dictfy(student, query) print(std_info) ``` ```python # Output { 'name': 'Danish', 'age': 24, 'courses': [ {'name': 'Data Structures', 'code': 'CS201'}, {'name': 'Computer Networks', 'code': 'CS205'} ] } ``` ## How dictfier works? **dictfier** works by converting given Object into a corresponding dict **recursively(Hence works on nested objects)** by using a **Query**. So what's important here is to know how to structure right queries to extract right data from the object. #### What's a Query anyway? A Query is basically a template which tells dictfier what to extract from an object. It is defined as a list or tuple of Object's fields to be extracted. #### Sample conversions. When a flat student object is queried using a query below ```python query = [ "name", "age", ] ``` **dictfier** will convert it into ```python { "name": student.name, "age": student.age, } ``` **For nested queries it goes like** ```python query = [ "name", "age", { "course": [ "code", "name", ] } ] ``` **Corresponding dict** ```python { "name": student.name, "age": student.age, "course": { "code": student.course.code, "name": student.course.name, } } ``` **For iterable objects it goes like** ```python query = [ "name", "age", { "course": [ [ "code", "name", ] ] } ] ``` Putting a list or tuple inside a list or tuple of object fields is a way to declare that the Object is iterable. In this case ```python [ [ "code", "name", ] ] ``` **Corresponding dict** ```python { "name": student.name, "age": student.age, "courses": [ { "code": course.code, "name": course.name, } for course in student.courses ] } ``` Notice the list or tuple on "courses" unlike in other fields like "name" and "age", it makes "courses" iterable, This is the reason for having nested list or tuple on "courses" query. **It's pretty simple right?** ## What if I want to customize how dictfier works? You might encounter a case where you have to change how dictfier works to get the result which you want, don't worry we have got your back. **dictfier** is highly configurable, it allows you to configure how each type of object is converted into a dictionary data structure. **dictfier** configuration is divided into three parts which are * Flat objects config(pass flat_obj=function kwarg to dictfy) * Nested flat objects config(pass nested_flat_obj=function kwarg to dictfy) * Nested iterable objects config(pass nested_iter_obj=function kwarg to dictfy) In all cases above, function assigned to flat_obj, nested_flat_obj or nested_iter_obj accepts three positional arguments which are field value(object) and parent object and field name. Now consider an example of a simple ORM with two relations **Many** and **One** which are used to show how objects are related. ```python # Customize how dictfier obtains flat obj, # nested flat obj and nested iterable obj import dictfier class Many(object): def __init__(self, data): self.data = data class One(object): def __init__(self, data): self.data = data class Book(object): def __init__(self, pk, title, publish_date): self.pk = pk self.title = title self.publish_date = publish_date class Mentor(object): def __init__(self, pk, name, profession): self.pk = pk self.name = name self.profession = profession class Course(object): def __init__(self, pk, code, name, books): self.pk = pk self.code = code self.name = name self.books = Many(books) class Student(object): def __init__(self, pk, name, age, mentor, courses): self.pk = pk self.name = name self.age = age self.mentor = One(mentor) self.courses = Many(courses) book1 = Book(1, "Advanced Data Structures", "2018") book2 = Book(2, "Basic Data Structures", "2010") book3 = Book(1, "Computer Networks", "2011") course1 = Course(1, "CS201", "Data Structures", [book1, book2]) course2 = Course(2, "CS220", "Computer Networks", [book3]) mentor = Mentor(1, "Van Donald", "Software Eng") student = Student(1, "Danish", 24, mentor, [course1, course2]) query = [ "name", "age", { "mentor": [ "name", "profession" ], "courses": [[ "name", "code", { "books": [[ "title", "publish_date" ]] } ]] } ] result = dictfier.dictfy( student, query, flat_obj=lambda obj, parent: obj, nested_iter_obj=lambda obj, parent: obj.data, nested_flat_obj=lambda obj, parent: obj.data ) print(result) ``` ```python # Output { 'name': 'Danish', 'age': 24, 'mentor': {'name': 'Van Donald', 'profession': 'Software Eng'}, 'courses': [ { 'name': 'Data Structures', 'code': 'CS201', 'books': [ {'title': 'Advanced Data Structures', 'publish_date': '2018'}, {'title': 'Basic Data Structures', 'publish_date': '2010'} ] }, { 'name': 'Computer Networks', 'code': 'CS220', 'books': [ {'title': 'Computer Networks', 'publish_date': '2011'} ] } ] } ```` From an example above, if you want to return primary key(pk) for nested flat or nested iterable object(which is very common in API design and serializing models) you can do it as follows. ```python query = [ "name", "age", "mentor", "courses" ] def get_pk(obj, parent, field_name): if isinstance(obj, One): return obj.data.pk elif isinstance(obj, Many): return [rec.pk for rec in obj.data] else: return obj result = dictfier.dictfy( student, query, flat_obj=get_pk, nested_iter_obj=lambda obj, parent: obj.data, nested_flat_obj=lambda obj, parent: obj.data ) print(result) ``` ```python # Output {'name': 'Danish', 'age': 24, 'mentor': 1, 'courses': [1, 2]} ``` ## Contributing [![PRs Welcome](https://img.shields.io/badge/PRs-welcome-brightgreen.svg?style=flat-square)](http://makeapullrequest.com) I welcome all contributions. Please read [CONTRIBUTING.md](https://github.com/yezyilomo/dictfier/blob/master/CONTRIBUTING.md) first. You can submit any ideas as [pull requests](https://github.com/yezyilomo/dictfier/pulls) or as [GitHub issues](https://github.com/yezyilomo/dictfier/issues). If you'd like to improve code, check out the [Code Style Guide](https://github.com/yezyilomo/dictfier/blob/master/CONTRIBUTING.md#styleguides) and have a good time!.

زبان مورد نیاز

مقدار	نام
>=2.7	Python

نحوه نصب

نصب پکیج whl dictfier-1.5.1:

pip install dictfier-1.5.1.whl

نصب پکیج tar.gz dictfier-1.5.1:

pip install dictfier-1.5.1.tar.gz