Backend DevelopmentPython TutorialIntroduction to SQLAlchemy relational operations under Python (with code)Introduction to SQLAlchemy relational operations under Python (with code)
Relational database is a database based on the relational model, so the relationship between tables is particularly important in database programming. This section focuses on how to define relationships in SQLAlchemy and how to use relationships to perform queries, so that readers can quickly master the relationship operations of SQLAlchemy.
1. Case
Design 3 entity tables: class table, student table, teacher table, and 1 relational table: class_teacher. There is a one-to-many relationship between classes and students, and a many-to-many relationship between classes and teachers.
from sqlalchemy import Table,Column,Integer,ForeignKey,String
from sqlalchemy.orm import relationship,backref
from sqlalchemy.ext.declarative import declarative_base
Base=declarative_base()
class Class(Base):
__tablename__='class'
class_id=Column(Integer,primary_key=True)
name=Column(String(50))
level=Column(Integer)
address=Column(String(50))
class_teachers=relationship("ClassTeacher",backref="class")
students=relationship("Student",backref="class")
class Student(Base):
__tablename__='student'
student_id=Column(Integer,primary_key=True)
name=Column(String(50))
age=Column(Integer)
gender=Column(String(10))
address=Column(String(50))
class_id=Column(Integer,ForeignKey('class.id'))
class Teacher(Base):
__tablename__='teacher'
teacher_id=Column(Integer,primary_key=True)
name=Column(String(50))
gender=Column(String(10))
telephone=Column(String(50))
address=Column(String(50))
class_teachers=relationship("ClassTeacher",backref="teacher")
class ClassTeacher(Base):
__tablename__='class_teacher'
teacher_id=Column(Integer,ForeignKey('teacher.teacher_id'),primary_key=True)
class_id=Column(Integer,ForeignKey("class.id"),primary_key=True)
The code uses 4 SQLAlchemy models to define 4 tables. The parts related to the relationship definition are as follows:
Foreign key settings: in the column In the definition, pass in the ForeignKey for Column to set the foreign key.
class_id=Column(Integer,ForeignKey('class.id'))
Relationship settings: Establish a reference to the word table in the parent model through the relationship keyword. For example, the relationship settings in the Class model are as follows:
students=relationship("Student",backref="calss")
The backref parameter is an optional parameter. If backref is set, this statement also sets a reference to the child table from the parent table.
Use of one-to-many relationship: In the future, you can directly obtain the information of all students in the relevant class through the students attribute. The following code can print all the student information of the class [Class 3, Class 2].
class=session.query(Class).filter(Clss.name=="三年二班").first() for student in class_.students: print(student)
The use of many-to-many relationships: implemented through the associated model ClassTeacher, where the foreign keys of the model Class and Teacher are set respectively, and set in the parent model The corresponding relationship is implemented. The many-to-many relationship can also be imagined as an association table, which implements a many-to-one relationship between two parent tables. There is a many-to-many relationship between classes and teachers. The following code can print the information of all teachers in the class [Class 2, Grade 3]
class=session.query(Class).filter(Class.name=="三年二班").first() for class_teacher in class_.class_teachers: teacher=class_teacher.teacher print(teacher)In the above code, class_teacher.teacher is targeted in the model teacher Backreference defined by ClassTeacher.
2. Connection query
In actual development, when there is a relationship, there is an indispensable need for multi-table connection query. The following is a practical example to demonstrate how to perform multi-table join queries.
You can use the join keyword in the query statement to perform a connection query and print out the names of all third-year students:
students=session.query(Student).join(Class).filter(Class.level==3).all() for student in students: print(student.namr)
The above query function will automatically use the foreign key relationship as a connection condition. This query It is automatically translated into the following SQL statement by SQLAlchemy and executed:
SELECT student.student_id AS student_student_id, student.name AS student.name, student.age AS student.age, student.gender AS student.gender, student.address AS student.address, student.class_id AS student_class_id FROM student JOIN class ON student.class_id=class.class_id WHERE class.leve=? (3,)
If you need to print out the inner part of the connected table, you can specify multiple table objects in the query.
The following statement prints out the names of all third-grade students as well as the names of their classes.
for student,class_ in session.query(Student,Class).join(Class).filter(Class.level==3).all(): print(student.name,class_.name)
The above query function will automatically use the foreign key relationship as a connection condition. The query will be automatically translated by SQLAlchemy into the following SQL statement and executed:
SELECT student.student_id AS student_student_id, student.name AS student.name, student.age AS student.age, student.gender AS student.gender, student.address AS student.address, student.class_id AS student_class_id, class.class_id AS class_class_id, class.name AS class_name, class.level AS class_level, class.address AS class_location FROM student JOIN class ON student.class_id=class.class_id WHERE class.leve=? (3,)
If you need to use other fields other than foreign keys as The connection conditions need to be set by the developer in join. The following prints out the names of students whose class address is the same as the student's address:
for student_name, in session.query(Student.name).join(Class,Class.address==Student.address).filter(Class.level==3).all(): print(student_name)
The above query function is based on the statement specified by the developer as the connection condition, and because the field to be queried is directly specified, it is reduced The queried fields in actual SQL improve performance. The query is automatically translated by SQLAlchemy into the following SQL statement for execution:
SELECT student.name AS student_name, FROM student JOIN class ON student.address=class.address
The above is the detailed content of Introduction to SQLAlchemy relational operations under Python (with code). For more information, please follow other related articles on the PHP Chinese website!
The Main Purpose of Python: Flexibility and Ease of UseApr 17, 2025 am 12:14 AMPython's flexibility is reflected in multi-paradigm support and dynamic type systems, while ease of use comes from a simple syntax and rich standard library. 1. Flexibility: Supports object-oriented, functional and procedural programming, and dynamic type systems improve development efficiency. 2. Ease of use: The grammar is close to natural language, the standard library covers a wide range of functions, and simplifies the development process.
Python: The Power of Versatile ProgrammingApr 17, 2025 am 12:09 AMPython is highly favored for its simplicity and power, suitable for all needs from beginners to advanced developers. Its versatility is reflected in: 1) Easy to learn and use, simple syntax; 2) Rich libraries and frameworks, such as NumPy, Pandas, etc.; 3) Cross-platform support, which can be run on a variety of operating systems; 4) Suitable for scripting and automation tasks to improve work efficiency.
Learning Python in 2 Hours a Day: A Practical GuideApr 17, 2025 am 12:05 AMYes, learn Python in two hours a day. 1. Develop a reasonable study plan, 2. Select the right learning resources, 3. Consolidate the knowledge learned through practice. These steps can help you master Python in a short time.
Python vs. C : Pros and Cons for DevelopersApr 17, 2025 am 12:04 AMPython is suitable for rapid development and data processing, while C is suitable for high performance and underlying control. 1) Python is easy to use, with concise syntax, and is suitable for data science and web development. 2) C has high performance and accurate control, and is often used in gaming and system programming.
Python: Time Commitment and Learning PaceApr 17, 2025 am 12:03 AMThe time required to learn Python varies from person to person, mainly influenced by previous programming experience, learning motivation, learning resources and methods, and learning rhythm. Set realistic learning goals and learn best through practical projects.
Python: Automation, Scripting, and Task ManagementApr 16, 2025 am 12:14 AMPython excels in automation, scripting, and task management. 1) Automation: File backup is realized through standard libraries such as os and shutil. 2) Script writing: Use the psutil library to monitor system resources. 3) Task management: Use the schedule library to schedule tasks. Python's ease of use and rich library support makes it the preferred tool in these areas.
Python and Time: Making the Most of Your Study TimeApr 14, 2025 am 12:02 AMTo maximize the efficiency of learning Python in a limited time, you can use Python's datetime, time, and schedule modules. 1. The datetime module is used to record and plan learning time. 2. The time module helps to set study and rest time. 3. The schedule module automatically arranges weekly learning tasks.
Python: Games, GUIs, and MoreApr 13, 2025 am 12:14 AMPython excels in gaming and GUI development. 1) Game development uses Pygame, providing drawing, audio and other functions, which are suitable for creating 2D games. 2) GUI development can choose Tkinter or PyQt. Tkinter is simple and easy to use, PyQt has rich functions and is suitable for professional development.
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
AI Hentai Generator
Generate AI Hentai for free.
Hot Article
Hot Tools
SecLists
SecLists is the ultimate security tester's companion. It is a collection of various types of lists that are frequently used during security assessments, all in one place. SecLists helps make security testing more efficient and productive by conveniently providing all the lists a security tester might need. List types include usernames, passwords, URLs, fuzzing payloads, sensitive data patterns, web shells, and more. The tester can simply pull this repository onto a new test machine and he will have access to every type of list he needs.
PhpStorm Mac version
The latest (2018.2.1) professional PHP integrated development tool
DVWA
Damn Vulnerable Web App (DVWA) is a PHP/MySQL web application that is very vulnerable. Its main goals are to be an aid for security professionals to test their skills and tools in a legal environment, to help web developers better understand the process of securing web applications, and to help teachers/students teach/learn in a classroom environment Web application security. The goal of DVWA is to practice some of the most common web vulnerabilities through a simple and straightforward interface, with varying degrees of difficulty. Please note that this software
Dreamweaver Mac version
Visual web development tools
Dreamweaver CS6
Visual web development tools
