nagra 0.8.1

Nagra is a Python database toolkit

Install

Nagra is available on PyPI and can be installed using pip, uv, ...e.g.:

pip install nagra

Optional dependency targets:

• pandas support: pandas
• polars support: polars
• PostgreSQL: pg
• to install all optional dependencies: all

For example:

pip install nagra[polars,pg]

Crash course

Define tables

Tables can be defined with classes like this:

from nagra import Table

city = Table(
    "city",
    columns={
        "name": "varchar",
        "lat": "varchar",
        "long": "varchar",
    },
    natural_key=["name"],
    one2many={
        "temperatures": "temperature.city",
    }
)

temperature = Table(
    "temperature",
    columns={
        "timestamp": "timestamp",
        "city": "int",
        "value": "float",
    },
    natural_key=["city", "timestamp"],
    foreign_keys={
        "city": "city",
    },

)

Or based on a toml string:

from nagra import load_schema

schema_toml = """
[city]
natural_key = ["name"]
[city.columns]
name = "varchar"
lat = "varchar"
long = "date"
[city.one2many]
temperatures = "temperature.city"

[temperature]
natural_key = ["city", "timestamp"]
[temperature.columns]
city = "bigint"
timestamp = "timestamp"
value = "float"
"""

load_schema(schema_toml)

Generate SQL Statements

Let's first create a select statement

stm = city.select("name").stm()
print(stm)
# ->
# SELECT
#   "city"."name"
# FROM "city"

If no fields are given, select will query all fields and resolve foreign keys

stm = temperature.select().stm()
print(stm)
# ->
# SELECT
#   "temperature"."timestamp", "city_0"."name", "temperature"."value"
# FROM "temperature"
# LEFT JOIN "city" as city_0 ON (city_0.id = "temperature"."city")

One can explicitly ask for foreign key, with a dotted field

stm = temperature.select("city.lat", "timestamp").stm()
print(stm)
# ->
# SELECT
#   "city_0"."lat", "temperature"."timestamp"
# FROM "temperature"
# LEFT JOIN "city" as city_0 ON (city_0.id = "temperature"."city")

Add Data and Query Database

A with Transaction ... statemant defines a transaction block, with an atomic semantic (either all statement are successful and the changes are commited or the transaction is rollbacked).

Example of other values possible for transaction parameters: sqlite://some-file.db, postgresql://user:pwd@host/dbname.

We first add cities:

with Transaction("sqlite://"):
    Schema.default.setup()  # Create tables

    cities = [
        ("Brussels","50.8476° N", "4.3572° E"),
        ("Louvain-la-Neuve", "50.6681° N", "4.6118° E"),
    ]
    upsert = city.upsert("name", "lat", "long")
    print(upsert.stm())
    # ->
    #
    # INSERT INTO "city" (name, lat, long)
    # VALUES (?,?,?)
    # ON CONFLICT (name)
    # DO UPDATE SET
    #   lat = EXCLUDED.lat , long = EXCLUDED.long

    upsert.executemany(cities) # Execute upsert

We can then add temperatures

    upsert = temperature.upsert("city.name", "timestamp", "value")
    upsert.execute("Louvain-la-Neuve", "2023-11-27T16:00", 6)
    upsert.executemany([
        ("Brussels", "2023-11-27T17:00", 7),
        ("Brussels", "2023-11-27T20:00", 8),
        ("Brussels", "2023-11-27T23:00", 5),
        ("Brussels", "2023-11-28T02:00", 3),
    ])

Read data back:

    records = list(city.select())
    print(records)
    # ->
    # [('Brussels', '50.8476° N', '4.3572° E'), ('Louvain-la-Neuve', '50.6681° N', '4.6118° E')]

Aggregation example: average temperature per latitude:

    # Aggregation
    select = temperature.select("city.lat", "(avg value)").groupby("city.lat")
    print(list(select))
    # ->
    # [('50.6681° N', 6.0), ('50.8476° N', 5.75)]

    print(select.stm())
    # ->
    # SELECT
    #   "city_0"."lat", avg("temperature"."value")
    # FROM "temperature"
    #  LEFT JOIN "city" as city_0 ON (
    #     city_0."id" = "temperature"."city"
    #  )
    # GROUP BY
    #  "city_0"."lat"
    #
    # ;

Similarly we can start from the city table and use the temperatures alias defined in the one2many dict:

    select = city.select(
        "name",
        "(avg temperatures.value)"
    ).orderby("name")
    assert dict(select) == {'Brussels': 5.75, 'Louvain-la-Neuve': 6.0}

The complete code for this crashcourse is in crashcourse.py

Pandas support

If pandas is installed you can use Select.to_pandas and Upsert.from_pandas, like this:

    # Generate df from select
    df = temperature.select().to_pandas()
    print(df)
    # ->
    #           city.name         timestamp  value
    # 0  Louvain-la-Neuve  2023-11-27T16:00    6.0
    # 1          Brussels  2023-11-27T17:00    7.0
    # 2          Brussels  2023-11-27T20:00    8.0
    # 3          Brussels  2023-11-27T23:00    5.0
    # 4          Brussels  2023-11-28T02:00    3.0

    # Update df and pass it to upsert
    df["value"] += 10
    temperature.upsert().from_pandas(df)
    # Let's test one value
    row, = temperature.select("value").where("(= timestamp '2023-11-28T02:00')")
    assert row == (13,)

Development

To install the project in editable mode along with all the optional dependencies as well as the dependencies needed for development (testing, linting, ...), clone the project and run:

[uv ] pip install --group dev -e '.[all]'

Or, to use stock uv functionalities:

uv sync --extra all

Miscellaneous

Changelog and roadmap

The project changelog is available here: changelog.md

Future ideas:

• Support for other DBMS (SQL Server)

Similar solutions / inspirations

https://github.com/malloydata/malloy/tree/main : Malloy is an experimental language for describing data relationships and transformations.

https://github.com/jeremyevans/sequel : Sequel: The Database Toolkit for Ruby

https://orm.drizzle.team/ : Headless TypeScript ORM with a head.