CData Python Connector for Zoho Creator

Build 24.0.9060

Reflecting Metadata

SQLAlchemy can act as an Object-relational Map (ORM). This enables you to treat records of a database table as instantiable records. To leverage this functionality, you must reflect the underlying metadata in one of the following ways.

Note: The following examples employ SQLAlchemy 1.4.

Modeling Data Using a Mapping Class

Use "sqlalchemy.ext.declarative.declarative_base" to declare a mapping class for the table you wish to model in the ORM. A known table in the data model is modeled either partially or completely, as shown in the following example:
from sqlalchemy.ext.declarative import declarative_base
Base = declarative_base()
class [CData].[Employee Management].Leave_Types(Base):
	__tablename__ = "[CData].[Employee Management].Leave_Types"
	Id = Column(String, primary_key=True)
	ID = Column(String)
	Leave_Type = Column(String)

Automatically Reflecting Metadata

Rather than mapping tables manually, SQLAlchemy can discover the metadata for one or more tables automatically. To accomplish this across the entire data model, use automap_base:
from sqlalchemy import MetaData
from sqlalchemy.ext.automap import automap_base
meta = MetaData()
abase = automap_base(metadata=meta)
abase.prepare(autoload_with=engine)
[CData].[Employee Management].Leave_Types = abase.classes.[CData].[Employee Management].Leave_Types

You can also reflect a single table with an inspector. When reflecting this way, providing a list of specific columns to map is optional:

from sqlalchemy import MetaData, Table
from sqlalchemy import inspect
meta = MetaData()
insp = inspect(engine)
[CData].[Employee Management].Leave_Types_table = Table("[CData].[Employee Management].Leave_Types", meta)
insp.reflect_table([CData].[Employee Management].Leave_Types_table, ["Id","Leave_Type"])

Copyright (c) 2024 CData Software, Inc. - All rights reserved.
Build 24.0.9060