Metadata-Version: 2.1
Name: pydantic-resolve
Version: 2.2.4
Summary: pydantic-resolve turns pydantic from a static data container into a powerful composable component.
Home-page: https://github.com/allmonday/pydantic_resolve
License: MIT
Keywords: pydantic,fastapi
Author: tangkikodo
Author-email: allmonday@126.com
Requires-Python: >=3.9,<4.0
Classifier: Development Status :: 5 - Production/Stable
Classifier: Framework :: FastAPI
Classifier: Framework :: Pydantic
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Classifier: Programming Language :: Python :: 3.14
Classifier: Topic :: Internet :: WWW/HTTP :: HTTP Servers
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Requires-Dist: aiodataloader (>=0.4.0,<0.5.0)
Project-URL: Repository, https://github.com/allmonday/pydantic_resolve
Description-Content-Type: text/markdown

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pydantic-resolve is a Pydantic based approach to composing complex data models without imperative glue code. It elevates Pydantic from a static data container to a powerful, flexible computation layer.

> from pydantic-resolve v2 alpha, `ErDiagram` are introduced, your can declare Entity Relationship and their default dataloader in application level, then loaders will be applied automatically.

It introduces resolve hooks for on-demand data fetching, and post hooks for normalization, transformation, and reorganization to meet diverse requirements.

## Installation

```
# latest v1
pip install pydantic-resolve==1.13.5

# v2
pip install pydantic-resolve
```

Starting from pydantic-resolve v1.11.0, both pydantic v1 and v2 are supported.

Starting from pydantic-resolve v2.0.0, it only supports pydantic v2, support of pydantic v1 and dataclass are dropped.

everything else are backward compatible.

## Quick start

get teams with sprints and memebers, build data struct on demand, using dataloader to batch load related data on-demand.

```python
from pydantic_resolve import Loader, Resolver

class Sample1TeamDetail(tms.Team):
    sprints: list[Sample1SprintDetail] = []
    def resolve_sprints(self, loader=Loader(spl.team_to_sprint_loader)):
        return loader.load(self.id)
    
    members: list[us.User] = []
    def resolve_members(self, loader=Loader(ul.team_to_user_loader)):
        return loader.load(self.id)

@route.get('/teams-with-detail', response_model=List[Sample1TeamDetail])
async def get_teams_with_detail(session: AsyncSession = Depends(db.get_session)):
    teams = await tmq.get_teams(session)
    teams = [Sample1TeamDetail.model_validate(t) for t in teams]
    teams = await Resolver().resolve(teams)
    return teams

```

## New in V2.0

`ErDiagram` was introduced, which provides a clear ER description for the model and the default dataloader used.

Once after we have it defined [source code](https://github.com/allmonday/composition-oriented-development-pattern/blob/master/src/services/er_diagram.py): 

```python
diagram = ErDiagram(
    configs=[
        ErConfig(
            kls=Team,
            relationships=[
                Relationship( field='id', target_kls=list[Sprint], loader=sprint_loader.team_to_sprint_loader),
                Relationship( field='id', target_kls=list[User], loader=user_loader.team_to_user_loader)
            ]
        ),
        ErConfig(
            kls=Sprint,
            relationships=[
                Relationship( field='id', target_kls=list[Story], loader=story_loader.sprint_to_story_loader)
            ]
        ),
        ErConfig(
            kls=Story,
            relationships=[
                Relationship( field='id', target_kls=list[Task], loader=task_loader.story_to_task_loader),
                Relationship( field='owner_id', target_kls=User, loader=user_loader.user_batch_loader)
            ]
        ),
        ErConfig(
            kls=Task,
            relationships=[
                Relationship( field='owner_id', target_kls=User, loader=user_loader.user_batch_loader)
            ]
        )
    ]
)
```

Then the code above can be simplified as, The required dataloader will be automatically inferred.

```python
class Sample1TeamDetail(tms.Team):
    sprints: Annotated[list[Sample1SprintDetail], LoadBy('id')] = []
    members: Annotated[list[us.User], LoadBy('id')] = []
```


## How it works
The resolution lifecycle is kind like lazy evaluation: data is loaded level by level through the object.

Compared with GraphQL, both traverse descendant nodes recursively and support resolver functions and DataLoaders. The key difference is post-processing: from the post-processing perspective, resolved data is always ready for further transformation, regardless of whether it came from resolvers or initial input.


![](./docs/images/lifecycle.jpeg)

pydantic class can be initialized by deep nested data (which means descendant are provided in advance), then just need to run the post process.

![](./docs/images/preload.png)

Within post hooks, developers can read descendant data, adjust existing fields, compute derived fields.

Post hooks also enable bidirectional data flow: they can read from ancestor nodes and push values up to ancestors, which is useful for adapting data to varied business requirements.

![](./docs/images/communication.jpeg)

It could be seamlessly integrated with modern Python web frameworks including FastAPI, Litestar, and Django-ninja.


## Documentation

- **Documentation**: https://allmonday.github.io/pydantic-resolve/
- **Demo**: https://github.com/allmonday/pydantic-resolve-demo
- **Composition-Oriented Pattern**: https://github.com/allmonday/composition-oriented-development-pattern
- [Resolver Pattern: A Better Alternative to GraphQL in BFF (api-integration).](https://github.com/allmonday/resolver-vs-graphql/blob/master/README-en.md)

## FastAPI Voyager

For FastAPI developers, we can visualize the dependencies of schemas by installing [fastapi-voyager](https://github.com/allmonday/fastapi-voyager)

<img width="1613" height="986" alt="image" src="https://github.com/user-attachments/assets/26d8b47c-f5c2-43d3-be98-e5e425b7ef9e" />



## Demo: constructing complicated data in 3 steps

Let's take Agile's model for example, it includes Story, Task and User, here is a [live demo](https://www.newsyeah.fun/voyager/) and [source code](https://github.com/allmonday/composition-oriented-development-pattern/tree/master/src/services)

### 1. Define Domain Models

Establish entity relationships model based on business concept.

> which is stable, serves as architectural blueprint

<img width="630px" alt="image" src="https://github.com/user-attachments/assets/2656f72e-1af5-467a-96f9-cab95760b720" />

```python
from pydantic import BaseModel

class Story(BaseModel):    
    id: int
    name: str
    owner_id: int
    sprint_id: int

    model_config = ConfigDict(from_attributes=True)

class Task(BaseModel):
    id: int
    name: str
    owner_id: int
    story_id: int
    estimate: int

    model_config = ConfigDict(from_attributes=True)

class User(BaseModel):
    id: int
    name: str
    level: str

    model_config = ConfigDict(from_attributes=True)
```

The dataloader is defined for general usage, if other approach such as ORM relationship is available, it can be easily replaced.
DataLoader's implementation supports all kinds of data sources, from database queries to microservice RPC calls.

```python
from .model import Task
from sqlalchemy.ext.asyncio import AsyncSession
from sqlalchemy import select
import src.db as db
from pydantic_resolve import build_list

# --------- user_id -> user ----------
async def batch_get_users_by_ids(session: AsyncSession, user_ids: list[int]):
    users = (await session.execute(select(User).where(User.id.in_(user_ids)))).scalars().all()
    return users

async def user_batch_loader(user_ids: list[int]):
    async with db.async_session() as session:
        users = await batch_get_users_by_ids(session, user_ids)
        return build_object(users, user_ids, lambda u: u.id)

# ---------- task id -> task ------------
async def batch_get_tasks_by_ids(session: AsyncSession, story_ids: list[int]):
    users = (await session.execute(select(Task).where(Task.story_id.in_(story_ids)))).scalars().all()
    return users

async def story_to_task_loader(story_ids: list[int]):
    async with db.async_session() as session:
        tasks = await batch_get_tasks_by_ids(session, story_ids)
        return build_list(tasks, story_ids, lambda u: u.story_id)
```

from V2, ErDiagram can help declare the entity relationships

```python
diagram = ErDiagram(
    configs=[
        ErConfig(
            kls=Story,
            relationships=[
                Relationship( field='id', target_kls=list[Task], loader=task_loader.story_to_task_loader),
                Relationship( field='owner_id', target_kls=User, loader=user_loader.user_batch_loader)
            ]
        ),
        ErConfig(
            kls=Task,
            relationships=[
                Relationship( field='owner_id', target_kls=User, loader=user_loader.user_batch_loader)
            ]
        )
    ]
)

config_global_resolver(diagram)  # inject into Resolver
```

### 2. Compose Business Models

Based on a our business logic, create domain-specific data structures through schemas and relationship dataloader

We just need to extend `tasks`, `assignee` and `reporter` for `Story`, and extend `user` for `Task`

Extending new fields is dynamic, depends on business requirement, however the relationships / loaders are restricted by the definition in step 1.

[view in voyager](https://www.newsyeah.fun/voyager/?tag=demo&route=src.router.demo.router.get_stories_with_detail)

If ErDiagram is not provided, you need to manually choose the loader

```python
class Task(BaseTask):
    user: Optional[BaseUser] = None
    def resolve_user(self, loader=Loader(user_batch_loader)):
        return loader.load(self.owner_id) if self.owner_id else None

class Story(BaseStory):
    tasks: list[Task] = []
    def resolve_tasks(self, loader=Loader(story_to_task_loader)):
        return loader.load(self.id)

    assignee: Optional[BaseUser] = None
    def resolve_assignee(self, loader=Loader(user_batch_loader)):
        return loader.load(self.owner_id) if self.owner_id else None
```

If ErDiagram is provided, you just need to provide the name of foreign key
```python
class Task(BaseTask):
    user: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

class Story(BaseStory):
    tasks: Annotated[list[Task], LoadBy('id')] = []
    assignee: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None        
```

`ensure_subset` decorator is a helper function which ensures the target class's fields (without default value) are strictly subset of class in parameter.

```python
@ensure_subset(BaseStory)
class Story1(BaseModel):
    id: int
    name: str
    owner_id: int
    # sprint_id: int # ignore some fields

    model_config = ConfigDict(from_attributes=True)

    tasks: list[Task1] = []
    def resolve_tasks(self, loader=Loader(story_to_task_loader)):
        return loader.load(self.id)

    assignee: Optional[BaseUser] = None
    def resolve_assignee(self, loader=Loader(user_batch_loader)):
        return loader.load(self.owner_id) if self.owner_id else None
```

V2 provides a new choice, meta class `DefineSubset`
```python
class Story1(DefineSubset):
    # define the base class and fields wanted
    __pydantic_resolve_subset__ = (BaseStory, ('id', 'name', 'owner_id'))

    tasks: Annotated[list[Task1], LoadBy('id')] = []
    assignee: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None
```

> Once this combination is stable, you can consider optimizing with specialized queries to replace DataLoader for enhanced performance, such as ORM's join relationship

### 3. Implement View Model Transformations

Dataset from data-persistent layer can not meet all requirements for view model, adding extra computed fields or adjusting current data is very common.

`post_method` is what you need, it is triggered after all descendant nodes are resolved.

It could read fields from ancestor, collect fields from descendants or modify the data fetched by resolve method.

Let's show them case by case, we'll show code in `ErDiagram` mode.

#### #1: Collect items from descendants

[view in voyager](https://www.newsyeah.fun/voyager/?tag=demo&route=src.router.demo.router.get_stories_with_detail_1), double click `Task1`, choose `source code`


`__pydantic_resolve_collect__` can collect fields from current node and then send them to ancestor node who declared `related_users`.

```python
class Task1(BaseTask):
    __pydantic_resolve_collect__ = {'user': 'related_users'}  # Propagate user to collector: 'related_users'

    user: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

class Story1(DefineSubset):
    __pydantic_resolve_subset__ = (BaseStory, ('id', 'name', 'owner_id'))

    tasks: Annotated[list[Task1], LoadBy('id')] = []
    assignee: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

    related_users: list[BaseUser] = []
    def post_related_users(self, collector=Collector(alias='related_users')):
        return collector.values()
```

#### #2: Compute extra fields from current data

[view in voyager](https://www.newsyeah.fun/voyager/?tag=demo&route=src.router.demo.router.get_stories_with_detail_2), double click `Story2`

post methods are executed after all resolve_methods are resolved, so we can use it to calculate extra fields.

```python
class Task2(BaseTask):
    user: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

class Story2(DefineSubset):
    __pydantic_resolve_subset__ = (BaseStory, ('id', 'name', 'owner_id'))

    tasks: Annotated[list[Task2], LoadBy('id')] = []
    assignee: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

    total_estimate: int = 0
    def post_total_estimate(self):
        return sum(task.estimate for task in self.tasks)
```

#### #3: Propagate ancestor data to descendants through `ancestor_context`

[view in voyager](https://www.newsyeah.fun/voyager/?tag=demo&route=src.router.demo.router.get_stories_with_detail_3), double click `Story3`

`__pydantic_resolve_expose__` could expose specific fields from current node to it's descendant.

alias_names should be global unique inside root node.

descendant nodes could read the value with `ancestor_context[alias_name]`.

[source code](https://github.com/allmonday/composition-oriented-development-pattern/blob/master/src/router/demo/schema3.py)

```python

# post case 1
class Task3(BaseTask):
    user: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None

    fullname: str = ''
    def post_fullname(self, ancestor_context):  # Access story.name from parent context
        return f'{ancestor_context["story_name"]} - {self.name}'

class Story3(DefineSubset):
    __pydantic_resolve_subset__ = (BaseStory, ('id', 'name', 'owner_id'))
    __pydantic_resolve_expose__ = {'name': 'story_name'}

    tasks: Annotated[list[Task3], LoadBy('id')] = []
    assignee: Annotated[Optional[BaseUser], LoadBy('owner_id')] = None
```

### 4. Execute Resolver().resolve()

```python
from pydantic_resolve import Resolver

stories = [Story(**s) for s in await query_stories()]
data = await Resolver().resolve(stories)
```

`query_stories()` returns `BaseStory` list, after we transformed it into `Story`, resolve and post fields are initialized as default value, after `Resolver().resolve()` finished, all these fields will be resolved and post-processed to what we expected.

## Testing and Coverage

```shell
tox
```

```shell
tox -e coverage
python -m http.server
```

Current test coverage: 97%

## Community

[Discord](https://discord.com/channels/1197929379951558797/1197929379951558800)

