11

SQLAlchemy doc explain how to create a partitioned table. But it does not explains how to create partitions.

So if I have this :

#Skipping create_engine and metadata
Base = declarative_base()

class Measure(Base):
    __tablename__ = 'measures'
    __table_args__ = {
        postgresql_partition_by: 'RANGE (log_date)'
    }
    city_id = Column(Integer, not_null=True)
    log_date = Columne(Date, not_null=True)
    peaktemp = Column(Integer)
    unitsales = Column(Integer)

class Measure2020(Base):
    """How am I suppposed to declare this ? """

I know that most of the I'll be doing SELECT * FROM measures WHERE logdate between XX and YY. But that seems interesting.

3
11

You can use a MeasureMixin that both classes can inherit from. And then use an event to attach the table partition.

from sqlalchemy import event

class MeasureMixin:
    city_id = Column(Integer, not_null=True)
    log_date = Column(Date, not_null=True)
    peaktemp = Column(Integer)
    unitsales = Column(Integer)

class Measure(MeasureMixin, Base):
    __tablename__ = 'measures'
    __table_args__ = {
        postgresql_partition_by: 'RANGE (log_date)'
    }

class Measure2020(MeasureMixin, Base):
    __tablename__ = 'measures2020'

Measure2020.__table__.add_is_dependent_on(Measure.__table__)

event.listen(
    Measure2020.__table__,
    "after_create",
    DDL("""ALTER TABLE measures ATTACH PARTITION measures2020
VALUES FROM ('2020-01-01') TO ('2021-01-01');""")
)
3
  • Nice could even create partition automatically. Aug 3 '20 at 8:12
  • I should add a dependency between Measure2020 and Measure. Will edit
    – moshevi
    Aug 3 '20 at 8:23
  • Hmm, shouldn't there be quotes around postgresql_partition_by? Sep 2 at 10:57
7

I had a similar problem. I found @moshevi's answer quite useful, and ended up generalising it a bit (as I had many tables to partition).

First, create a metaclass such as this:

from sqlalchemy.ext.declarative import DeclarativeMeta
from sqlalchemy.sql.ddl import DDL
from sqlalchemy import event


class PartitionByYearMeta(DeclarativeMeta):
    def __new__(cls, clsname, bases, attrs, *, partition_by):
        @classmethod
        def get_partition_name(cls_, key):
            # 'measures' -> 'measures_2020' (customise as needed)
            return f'{cls_.__tablename__}_{key}'
        
        @classmethod
        def create_partition(cls_, key):
            if key not in cls_.partitions:
                
                Partition = type(
                    f'{clsname}{key}', # Class name, only used internally
                    bases,
                    {'__tablename__': cls_.get_partition_name(key)}
                )
                
                Partition.__table__.add_is_dependent_on(cls_.__table__)
                
                event.listen(
                    Partition.__table__,
                    'after_create',
                    DDL(
                        # For non-year ranges, modify the FROM and TO below
                        f"""
                        ALTER TABLE {cls_.__tablename__}
                        ATTACH PARTITION {Partition.__tablename__}
                        FOR VALUES FROM ('{key}-01-01') TO ('{key+1}-01-01');
                        """
                    )
                )
                
                cls_.partitions[key] = Partition
            
            return cls_.partitions[key]
        
        attrs.update(
            {
                # For non-RANGE partitions, modify the `postgresql_partition_by` key below
                '__table_args__': attrs.get('__table_args__', ())
                + (dict(postgresql_partition_by=f'RANGE({partition_by})'),),
                'partitions': {},
                'partitioned_by': partition_by,
                'get_partition_name': get_partition_name,
                'create_partition': create_partition
            }
        )
        
        return super().__new__(cls, clsname, bases, attrs)

Next, for any table in your model that you want to partition:

class MeasureMixin:
    # The columns need to be pulled out into this mixin
    # Note: any foreign key columns will need to be wrapped like this:

    @declared_attr
    def city_id(self):
        return Column(ForeignKey('cities.id'), not_null=True)
    
    log_date = Column(Date, not_null=True)
    peaktemp = Column(Integer)
    unitsales = Column(Integer)

class Measure(MeasureMixin, Base, metaclass=PartitionByYearMeta, partition_by='logdate'):
    __tablename__ = 'measures'

This makes it easy to add more tables and partition by any number of values.

Creating a new partition on the fly works like this:

# Make sure you commit any session that is currently open, even for select queries:
session.commit()

Partition = Measure.create_partition(2020)
if not engine.dialect.has_table(Partition.__table__.name):
    Partition.__table__.create(bind=engine)

Now the partition for key 2020 is created and values for that year can be inserted.

2
  • 1
    Very nice! The next step is to generalize it a bit more to allow different types of partitions. And then maybe a pull request?
    – moshevi
    Dec 7 '20 at 16:23
  • @moshevi I'm trying to expand your code. It would be helpful if you could answer [stackoverflow.com/questions/66562240/… SO question.
    – DGL
    Mar 10 at 9:56
2

For database partitioning (PostgreSQL or MySQL), you can try using the architect package. It works with a range of ORM libraties, including SQLAlchemy. Here is an example of PostgreSQL - https://architect.readthedocs.io/features/partition/postgresql.html. Several partitioning types are supported, so hopefully it meets the requirements of your case.

2

Maybe a bit late, but I would like to share what I built upon @moshevi 's and @Seb 's answers:

In my IoT use-case, I required actual sub-partitioning (first level year, second level nodeid). Also I wanted to generalize it slightly.

This is what I came up with:

from sqlalchemy.ext.declarative import DeclarativeMeta
from sqlalchemy.sql.ddl import DDL
from sqlalchemy import event

class PartitionByMeta(DeclarativeMeta):
    def __new__(cls, clsname, bases, attrs, *, partition_by, partition_type):

        @classmethod
        def get_partition_name(cls_, suffix):
            return f'{cls_.__tablename__}_{suffix}'

        @classmethod
        def create_partition(cls_, suffix, partition_stmt, subpartition_by=None, subpartition_type=None):
            if suffix not in cls_.partitions:

                partition = PartitionByMeta(
                    f'{clsname}{suffix}',
                    bases,
                    {'__tablename__': cls_.get_partition_name(suffix)},
                    partition_type = subpartition_type,
                    partition_by=subpartition_by,
                )

                partition.__table__.add_is_dependent_on(cls_.__table__)

                event.listen(
                    partition.__table__,
                    'after_create',
                    DDL(
                        # For non-year ranges, modify the FROM and TO below
                        # LIST: IN ('first', 'second');
                        # RANGE: FROM ('{key}-01-01') TO ('{key+1}-01-01')
                        f"""
                        ALTER TABLE {cls_.__tablename__}
                        ATTACH PARTITION {partition.__tablename__}
                        {partition_stmt};
                        """
                    )
                )
                
                cls_.partitions[suffix] = partition
            
            return cls_.partitions[suffix]
        
        if partition_by is not None:
            attrs.update(
                {
                    '__table_args__': attrs.get('__table_args__', ())
                    + (dict(postgresql_partition_by=f'{partition_type.upper()}({partition_by})'),),
                    'partitions': {},
                    'partitioned_by': partition_by,
                    'get_partition_name': get_partition_name,
                    'create_partition': create_partition
                }
            )
        
        return super().__new__(cls, clsname, bases, attrs)

Which is to be used as follows, assuming the respective VehicleDataMixin class to be created as introduced by @moshevi

class VehicleData(VehicleDataMixin, Project, metaclass=PartitionByMeta, partition_by='timestamp',partition_type='RANGE'):
    __tablename__ = 'vehicle_data'
    __table_args__ = (
        Index('ts_ch_nod_idx', "timestamp", "nodeid", "channelid", postgresql_using='brin'),
        UniqueConstraint('timestamp','nodeid','channelid', name='ts_ch_nod_constr')
    )

Which can then be subpartitoned iteratively like so (to be adapted)

    for y in range(2017, 2021): 
         # Creating tables for all known nodeids
        tbl_vehid_y = VehicleData.create_partition(
            f"{y}", partition_stmt=f"""FOR VALUES FROM ('{y}-01-01') TO ('{y+1}-01-01')""",
            subpartition_by='nodeid', subpartition_type='LIST'
        )
        
        for i in {3, 4, 7, 9}:
            # Creating all the years below these nodeids including a default partition
            tbl_vehid_y.create_partition(
                f"nid{i}", partition_stmt=f"""FOR VALUES IN ('{i}')"""
            )
        
        # Defaults (nodeid) per year partition
        tbl_vehid_y.create_partition("def", partition_stmt="DEFAULT")

   # Default to any other year than anticipated
   VehicleData.create_partition("def", partition_stmt="DEFAULT")

partition_by='timestamp' <= This is the column to partition by

partition_type='RANGE' <= This is the (PSQL specific) partition type

partition_stmt=f"""FOR VALUES IN ('{i}')""" <= This is the (PSQL specific) partitioning statement.

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