Metadata-Version: 2.1
Name: sqlalchemy-declarative-extensions
Version: 0.6.0
Summary: Library to declare additional kinds of objects not natively supported by SqlAlchemy/Alembic.
Home-page: https://github.com/dancardin/sqlalchemy-declarative-extensions
License: Apache-2.0
Keywords: alembic,declarative,grant,mysql,postgresql,role,schema,sqlalchemy,view
Author: Dan Cardin
Author-email: ddcardin@gmail.com
Requires-Python: >=3.7,<4
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Provides-Extra: alembic
Provides-Extra: parse
Requires-Dist: alembic (>=1.0); extra == "alembic"
Requires-Dist: sqlalchemy (>=1.3)
Requires-Dist: sqlglot; extra == "parse"
Requires-Dist: typing_extensions (>=4.0); python_version < "3.11"
Project-URL: Repository, https://github.com/dancardin/sqlalchemy-declarative-extensions
Description-Content-Type: text/markdown

# SqlAlchemy Declarative Extensions

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See the full documentation [here](https://sqlalchemy-declarative-extensions.readthedocs.io/en/latest/).

Adds extensions to SQLAlchemy (and/or Alembic) which allows declaratively
stating the existence of additional kinds of objects about your database
not natively supported by SqlAlchemy/Alembic.

This includes:

- Schemas
- Views
- Roles
- Privileges (Grants/Default Grants)
- Functions
- Triggers
- Rows (i.e. data)
- "audit tables" (i.e. triggers which record data changes to some source table)

The primary function(s) of this library include:

- Registering onto the SqlAlchemy event system such that `metadata.create_all`
  creates these objects.
- (Optionally) Registers into Alembic such that `alembic revision --autogenerate`
  automatically creates/updates/deletes declared objects.

## Kitchen Sink Example (using all available features)

```python
from sqlalchemy import Column, types, select
from sqlalchemy.orm import as_declarative
from sqlalchemy_declarative_extensions import (
    declarative_database, Schemas, Roles, Row, View, view,
)
from sqlalchemy_declarative_extensions.dialects.postgresql import (
    DefaultGrant, Function, Trigger, Role
)
from sqlalchemy_declarative_extensions.audit import audit


@declarative_database
@as_declarative
class Base:
    # Note: each object type also has a plural version (i.e. Schemas/Roles/etc) where you can specify
    # collection-level options like `ignore_unspecified`).
    #
    # If you dont set any collection-level options, you can instead use raw list/iterable as the collection.
    schemas = Schemas().are("example")
    roles = Roles(ignore_unspecified=True).are(
        Role("read", login=False),
        Role(
            "app",
            in_roles=['read']
        ),
    )
    grants = [
        DefaultGrant.on_tables_in_schema("public", 'example').grant("select", to="read"),
        DefaultGrant.on_sequences_in_schema("public").grant("usage", to="read"),
        Grant.new("usage", to="read").on_schemas("example")
    ]
    rows = [
        Row('foo', id=1),
    ]
    views = [
        View("low_foo", "select * from foo where i < 10"),
    ]
    functions = [
        Function(
            "fancy_function",
            """
            BEGIN
            INSERT INTO foo (id) select NEW.id + 1;
            RETURN NULL;
            END
            """,
            language="plpgsql",
            returns="trigger",
        ),
    ]
    triggers = [
        Trigger.after("insert", on="foo", execute="fancy_function")
        .named("on_insert_foo")
        .when("pg_trigger_depth() < 1")
        .for_each_row(),
    ]


@audit()
class Foo(Base):
    __tablename__ = 'foo'

    id = Column(types.Integer(), primary_key=True)


audit_table = Foo.__audit_table__


@view(Base)
class HighFoo:
    __tablename__ = "high_foo"
    __view__ = select(Foo.__table__).where(Foo.__table__.c.id >= 10)
```

Note, there is also support for declaring objects directly through the `MetaData` for
users not using sqlalchemy's declarative API.

## Event Registration

By default, the above example does not automatically do anything. Depending on the context,
you can use one of two registration hooks: `register_sqlalchemy_events` or `register_alembic_events`.

### `register_sqlalchemy_events`

This registers events in SqlAlchemy's event system such that a `metadata.create_all(...)` call
will create the declared database objects.

```python
from sqlalchemy_declarative_extensions import register_sqlalchemy_events

metadata = Base.metadata  # Given the example above.
register_sqlalchemy_events(metadata)
# Which is equivalent to...
register_sqlalchemy_events(metadata, schemas=False, roles=False, grants=False, rows=False)
```

All object types are opt in, and should be explicitly included in order to get registered.

Practically, this is to avoid issues with testing. In **most** cases the `metadata.create_all` call
will be run in tests, a context where it's more likely that you dont **need** grants or grants,
and where parallel test execution could lead to issues with role or schema creation, depending
on your setup.

### `register_alembic_events`

This registers comparators in Alembic's registration system such that an `alembic revision --autogenerate`
command will diff the existing database state against the declared database objects, and issue
statements to create/update/delete objects in order to match the declared state.

```python
# alembic's `env.py`
from sqlalchemy_declarative_extensions import register_alembic_events

register_alembic_events()
# Which is equivalent to...
register_sqlalchemy_events(schemas=True, roles=True, grants=True, rows=True)
```

All object types are opt out but can be excluded.

In contrast to `register_sqlalchemy_events`, it's much more likely that you're declaring most of these
object types in order to have alembic track them

## Database support

In principle, this library **can** absolutely support any database supported by SqlAlchemy,
and capable of being introspected enough to support detection of different kinds of objects.

As you can see below, in reality the existence of implementations are going to be purely driven by actual
usage. The current maintainer(s) primarily use PostgreSQL and as such individual features for
other databases will either suffer or lack implementation.

| | Postgres | MySQL | SQLite |
| Schema | ✓ | | ✓ |
| View | ✓ | ✓ | ✓ |
| Role | ✓ | | |
| Grant | ✓ | | |
| Default Grant | ✓ | | |
| Function | ✓ | _ | |
| Trigger | ✓ | _ | |
| Row (data) | ✓ | ✓ | ✓ |
| "Audit Table" | ✓ | | |

The astrisks above note pending or provisional support. The level of expertise in each dialects'
particular behaviors is not uniform, and deciding on the correct behavior for those dialects
will require users to submit issues/fixes!

Supporting a new dialect **can** be as simple as providing the dialect-dispatched implementations
for detecting existing objects of the given type. Very much the intent is that once a given object
type is supported at all, the comparison infrastructure for that type should make it straightforward
to support other dialects. At the end of the day, this library is primarily producing SQL statements,
so in theory any dialect supporting a given object type should be able to be supported.

In such cases (like Grants/Roles) that different dialects support wildly different
options/syntax, there are also patterns for defining dialect-specific objects, to mediate
any additional differences.

## Alembic-utils

[Alembic Utils](https://github.com/olirice/alembic_utils) is the primary library against which
this library can be compared. At time of writing, **most** (but not all) object types supported
by alembic-utils are supported by this library. One might begin to question when to use which library.

Below is a list of points on which the two libraries diverge. But note that you **can** certainly
use both in tandem! It doesn't need to be one or the other, and certainly for any object types
which do not overlap, you might **need** to use both.

- Database Support

  - Alembic Utils seems to explicitly only support PostgreSQL.

  - This library is designed to support any dialect (in theory). Certainly PostgreSQL
    is **best** supported, but there does exist support for specific kinds of objects
    to varying levels of support for SQLite and MySQL, so far.

- Architecture

  - Alembic Utils is directly tied to Alembic and does not support SQLAlchemy's `MetaData.create_all`.
    It's also the responsibility of the user to discover/register objects in alembic.

  - This library **depends** only on SqlAlchemy, although it also supports alembic. Support for
    `MetaData.create_all` can be important for creating all object types in tests. It also
    is designed such that objects are registered on the `MetaData` itself, so there is no need for
    any specific discovery phase.

- Scope

  - Alembic Utils declares specific, individual objects. I.e. you instantiate one specific `PGGrantTable`
    or `PGView` instance and Alembic know knows you want that object to be created. It cannot drop
    objects it is not already aware of.

  - This library declares ths objects the system as a whole expects to exist. Similar to Alembic's
    behavior on tables, it will (by default) detect any **undeclared** objects that should not exist
    and drop them. That means, you can rely on this object to ensure the state of your migrations
    matches the state of your database exactly.

- Migration history

  - Alembic Utils imports and references its own objects in your migrations history. This can be
    unfortunate, in that it deeply ties your migrations history to alembic-utils.

    (In fact, this can be a sticking point, trying to convert **away** from `alembic_utils`, because it
    will attempt to drop all the (e.g `PGView`) instances previously created when we replaced it with
    this library.)

  - This library, by contrast, prefers to emit the raw SQL of the operation into your migration.
    That means you know the exact commands that will execute in your migration, which can be helpful
    in debugging failure. It also means, if at any point you decide to stop use of the library
    (or pause a given type of object, due to a bug), you can! This library's behaviors are primarily
    very much `--autogenerate`-time only.

- Abstraction Level

  - Alembic Utils appears to define a very "literal" interface (for example, `PGView` accepts
    the whole view definition as a raw literal string).

  - This library tries to, as much as possible, provide a more abstracted interface that enables
    more compatibility with SQLAlchemy (For example `View` accepts SQLAlchemy objects which can
    be coerced into a `SELECT`). It also tends towards "builder" interfaces which progressively produce
    a object (Take a look at the `DefaultGrant` above, for an example of where that's helpful).

A separate note on conversion/compatibility. Where possible, this library tries to support alembic-utils
native objects as stand-ins for the objects defined in this library. For example, `alembic_utils.pg_view.PGView`
can be declared instead of a `sqlalchemy_declarative_extensions.View`, and we will internally
coerce it into the appropriate type. Hopefully this eases any transitional costs, or
issues using one or the other library.

