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Python操作MongoDB文档数据库

程序员文章站 2022-04-10 14:36:51
PyMongo是驱动程序,使python程序能够使用Mongodb数据库,使用python编写而成 ......

目录

1.Pymongo 安装

2.Pymongo 方法

3.Pymongo 中的操作

4.MongoDB ODM 详解

5.使用mongoengine创建数据库连接

1.Pymongo 安装

 

安装pymongo:

pip install pymongo
  • PyMongo是驱动程序,使python程序能够使用Mongodb数据库,使用python编写而成;

2.Pymongo 方法

 

  • insert_one():插入一条记录;
  • insert():插入多条记录;
  • find_one():查询一条记录,不带任何参数返回第一条记录,带参数则按条件查找返回;
  • find():查询多条记录,不带参数返回所有记录,带参数按条件查找返回;
  • count():查看记录总数;
  • create_index():创建索引;
  • update_one():更新匹配到的第一条数据;
  • update():更新匹配到的所有数据;
  • remove():删除记录,不带参表示删除全部记录,带参则表示按条件删除;
  • delete_one():删除单条记录;
  • delete_many():删除多条记录;

3.Pymongo 中的操作

查看数据库

from pymongo import MongoClient

connect = MongoClient(host='localhost', port=27017, username="root", password="123456")
connect = MongoClient('mongodb://localhost:27017/', username="root", password="123456")

print(connect.list_database_names())

获取数据库实例

test_db = connect['test']

获取collection实例

collection = test_db['students']

插入一行document, 查询一行document,取出一行document的值

from pymongo import MongoClient
from datetime import datetime

connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)
# 获取db
test_db = connect['test']
# 获取collection
collection = test_db['students']
# 构建document
document = {"author": "Mike",  "text": "My first blog post!", "tags": ["mongodb", "python", "pymongo"], "date": datetime.now()}
# 插入document
one_insert = collection.insert_one(document=document)
print(one_insert.inserted_id)

# 通过条件过滤出一条document
one_result = collection.find_one({"author": "Mike"})
# 解析document字段
print(one_result, type(one_result))
print(one_result['_id'])
print(one_result['author'])

注意:如果需要通过id查询一行document,需要将id包装为ObjectId类的实例对象

from bson.objectid import ObjectId
collection.find_one({'_id': ObjectId('5c2b18dedea5818bbd73b94c')})

 插入多行documents, 查询多行document, 查看collections有多少行document

from pymongo import MongoClient
from datetime import datetime
connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)

# 获取db
test_db = connect['test']

# 获取collection
collection = test_db['students']
documents = [{"author": "Mike","text": "Another post!","tags": ["bulk", "insert"], "date": datetime(2009, 11, 12, 11, 14)},
{"author": "Eliot", "title": "MongoDB is fun", "text": "and pretty easy too!", "date": datetime(2009, 11, 10, 10, 45)}]
collection.insert_many(documents=documents)

# 通过条件过滤出多条document
documents = collection.find({"author": "Mike"})

# 解析document字段
print(documents, type(documents))
print('*'*300)
for document in documents:
    print(document)
print('*'*300)
result = collection.count_documents({'author': 'Mike'})
print(result)

范围比较查询

from pymongo import MongoClient
from datetime import datetime

connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)

# 获取db
test_db = connect['test']

# 获取collection
collection = test_db['students']

# 通过条件过滤时间小于datetime(2019, 1,1,15,40,3) 的document
documents = collection.find({"date": {"$lt": datetime(2019, 1,1,15,40,3)}}).sort('date')

# 解析document字段
print(documents, type(documents))
print('*'*300)
for document in documents:
    print(document)
  • 创建索引
from pymongo import MongoClient
import pymongo
from datetime import datetime

connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)
# 获取db
test_db = connect['test']
# 获取collection
collection = test_db['students']
# 创建字段索引
collection.create_index(keys=[("name", pymongo.DESCENDING)], unique=True)
# 查询索引
result = sorted(list(collection.index_information()))
print(result)

 

  • document修改
from pymongo import MongoClient
connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)

# 获取db
test_db = connect['test']

# 获取collection
collection = test_db['students']
result = collection.update({'name': 'robby'}, {'$set': {"name": "Petter"}})
print(result)
注意:还有update_many()方法
  • document删除
from pymongo import MongoClient
connect = MongoClient(host='localhost', port=27017, username="root", password="123456",)

# 获取db
test_db = connect['test']

# 获取collection
collection = test_db['students']
result = collection.delete_one({'name': 'Petter'})
print(result.deleted_count)
注意:还有delete_many()方法

4.MongoDB ODM 详解

 

  • MongoDB ODM 与 Django ORM使用方法类似;
  • MongoEngine是一个对象文档映射器,用Python编写,用于处理MongoDB;
  • MongoEngine提供的抽象是基于类的,创建的所有模型都是类;
# 安装mongoengine
pip install mongoengine
  • mongoengine使用的字段类型
BinaryField
BooleanField
ComplexDateTimeField
DateTimeField
DecimalField
DictField
DynamicField
EmailField
EmbeddedDocumentField
EmbeddedDocumentListField
FileField
FloatField
GenericEmbeddedDocumentField
GenericReferenceField
GenericLazyReferenceField
GeoPointField
ImageField
IntField
ListField:可以将自定义的文档类型嵌套
MapField
ObjectIdField
ReferenceField
LazyReferenceField
SequenceField
SortedListField
StringField
URLField
UUIDField
PointField
LineStringField
PolygonField
MultiPointField
MultiLineStringField
MultiPolygonField

 

5.使用mongoengine创建数据库连接

 

from mongoengine import connect

conn = connect(db='test', host='localhost', port=27017, username='root', password='123456', authentication_source='admin')
print(conn)

connect(db = None,alias ='default',** kwargs );

  • db:要使用的数据库的名称,以便与connect兼容;
  • host :要连接的mongod实例的主机名;
  • port :运行mongod实例的端口;
  • username:用于进行身份验证的用户名;
  • password:用于进行身份验证的密码;
  • authentication_source :要进行身份验证的数据库;

构建文档模型,插入数据

from mongoengine import connect, \
                        Document, \
                        StringField,\
                        IntField, \
                        FloatField,\
                        ListField, \
                        EmbeddedDocumentField,\
                        DateTimeField, \
                        EmbeddedDocument
from datetime import datetime

# 嵌套文档
class Score(EmbeddedDocument):
    name = StringField(max_length=50, required=True)
    value = FloatField(required=True)

class Students(Document):
    choice =  (('F', 'female'),
               ('M', 'male'),)
    name = StringField(max_length=100, required=True, unique=True)
    age = IntField(required=True)
    hobby = StringField(max_length=100, required=True, )
    gender = StringField(choices=choice, required=True)
    # 这里使用到了嵌套文档,这个列表中的每一个元素都是一个字典,因此使用嵌套类型的字段
    score = ListField(EmbeddedDocumentField(Score))
    time = DateTimeField(default=datetime.now())

if __name__ == '__main__':
    connect(db='test', host='localhost', port=27017, username='root', password='123456', authentication_source='admin')
    math_score = Score(name='math', value=94)
    chinese_score = Score(name='chinese', value=100)
    python_score = Score(name='python', value=99)

    for i in range(10):
        students = Students(name='robby{}'.format(i), age=int('{}'.format(i)), hobby='read', gender='M', score=[math_score, chinese_score, python_score])
        students.save()

查询数据

from mongoengine import connect, \
                        Document, \
                        StringField,\
                        IntField, \
                        FloatField,\
                        ListField, \
                        EmbeddedDocumentField,\
                        DateTimeField, \
                        EmbeddedDocument
from datetime import datetime

# 嵌套文档
class Score(EmbeddedDocument):
    name = StringField(max_length=50, required=True)
    value = FloatField(required=True)

class Students(Document):
    choice =  (('F', 'female'),
               ('M', 'male'),)

    name = StringField(max_length=100, required=True, unique=True)
    age = IntField(required=True)
    hobby = StringField(max_length=100, required=True, )
    gender = StringField(choices=choice, required=True)
    # 这里使用到了嵌套文档,这个列表中的每一个元素都是一个字典,因此使用嵌套类型的字段
    score = ListField(EmbeddedDocumentField(Score))
    time = DateTimeField(default=datetime.now())

if __name__ == '__main__':
    connect(db='test', host='localhost', port=27017, username='root', password='123456', authentication_source='admin')

    first_document = Students.objects.first()

    all_document = Students.objects.all()

    # 如果只有一条,也可以使用get
    specific_document = Students.objects.filter(name='robby3')

    print(first_document.name, first_document.age, first_document.time)

    for document in all_document:
        print(document.name)

    for document in specific_document:
        print(document.name, document.age)

修改、更新、删除数据

from mongoengine import connect, \
                        Document, \
                        StringField,\
                        IntField, \
                        FloatField,\
                        ListField, \
                        EmbeddedDocumentField,\
                        DateTimeField, \
                        EmbeddedDocument
from datetime import datetime

# 嵌套文档
class Score(EmbeddedDocument):
    name = StringField(max_length=50, required=True)
    value = FloatField(required=True)

class Students(Document):
    choice =  (('F', 'female'),
               ('M', 'male'),)

    name = StringField(max_length=100, required=True, unique=True)
    age = IntField(required=True)
    hobby = StringField(max_length=100, required=True, )
    gender = StringField(choices=choice, required=True)
    # 这里使用到了嵌套文档,这个列表中的每一个元素都是一个字典,因此使用嵌套类型的字段
    score = ListField(EmbeddedDocumentField(Score))
    time = DateTimeField(default=datetime.now())

if __name__ == '__main__':
    connect(db='test', host='localhost', port=27017, username='root', password='123456', authentication_source='admin')

    specific_document = Students.objects.filter(name='robby3')
    specific_document.update(set__age=100)
    specific_document.update_one(set__age=100)

    for document in specific_document:
        document.name = 'ROBBY100'
        document.save()

    for document in specific_document:
        document.delete()
  • all():返回所有文档;
  • all_fields():包括所有字段;
  • as_pymongo():返回的不是Document实例 而是pymongo值;
  • average():平均值超过指定字段的值;
  • batch_size():限制单个批次中返回的文档数量;
  • clone():创建当前查询集的副本;
  • comment():在查询中添加注释;
  • count():计算查询中的选定元素;
  • create():创建新对象,返回保存的对象实例;
  • delete():删除查询匹配的文档;
  • distinct():返回给定字段的不同值列表;

嵌入式文档查询的方法

  • count():列表中嵌入文档的数量,列表的长度;
  • create():创建新的嵌入式文档并将其保存到数据库中;
  • delete():从数据库中删除嵌入的文档;
  • exclude(** kwargs ):通过使用给定的关键字参数排除嵌入的文档来过滤列表;
  • first():返回列表中的第一个嵌入文档;
  • get():检索由给定关键字参数确定的嵌入文档;
  • save():保存祖先文档;
  • update():使用给定的替换值更新嵌入的文档;

 


本文地址:https://blog.csdn.net/zhengxiangling_02/article/details/107160993