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Co-authored-by: moonso <mans.magnusson@scilifelab.se> Co-authored-by: Sebastián Ramírez <tiangolo@gmail.com>
469 lines
18 KiB
Markdown
469 lines
18 KiB
Markdown
# Multiple Models with FastAPI
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We have been using the same `Hero` model to declare the schema of the data we receive in the API, the table model in the database, and the schema of the data we send back in responses.
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But in most of the cases there are slight differences, let's use multiple models to solve it.
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Here you will see the main and biggest feature of **SQLModel**. 😎
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## Review Creation Schema
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Let's start by reviewing the automatically generated schemas from the docs UI.
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For input we have:
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<img class="shadow" alt="Interactive API docs UI" src="/img/tutorial/fastapi/simple-hero-api/image01.png">
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If we pay attention, it shows that the client *could* send an `id` in the JSON body of the request.
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This means that the client could try to use the same ID that already exists in the database for another hero.
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That's not what we want.
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We want the client to only send the data that is needed to create a new hero:
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* `name`
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* `secret_name`
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* Optional `age`
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And we want the `id` to be generated automatically by the database, so we don't want the client to send it.
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We'll see how to fix it in a bit.
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## Review Response Schema
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Now let's review the schema of the response we send back to the client in the docs UI.
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If you click the small tab <kbd>Schema</kbd> instead of the <kbd>Example Value</kbd>, you will see something like this:
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<img class="shadow" alt="Interactive API docs UI" src="/img/tutorial/fastapi/multiple-models/image01.png">
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Let's see the details.
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The fields with a red asterisk (<span style="color: #ff0000;">*</span>) are "required".
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This means that our API application is required to return those fields in the response:
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* `name`
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* `secret_name`
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The `age` is optional, we don't have to return it, or it could be `None` (or `null` in JSON), but the `name` and the `secret_name` are required.
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Here's the weird thing, the `id` currently seems also "optional". 🤔
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This is because in our **SQLModel** class we declare the `id` with `Optional[int]`, because it could be `None` in memory until we save it in the database and we finally get the actual ID.
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But in the responses, we would always send a model from the database, and it would **always have an ID**. So the `id` in the responses could be declared as required too.
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This would mean that our application is making the compromise with the clients that if it sends a hero, it would for sure have an `id` with a value, it would not be `None`.
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### Why Is it Important to Compromise with the Responses
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The ultimate goal of an API is for some **clients to use it**.
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The clients could be a frontend application, a command line program, a graphical user interface, a mobile application, another backend application, etc.
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And the code those clients write depend on what our API tells them they **need to send**, and what they can **expect to receive**.
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Making both sides very clear will make it much easier to interact with the API.
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And in most of the cases, the developer of the client for that API **will also be yourself**, so you are **doing your future self a favor** by declaring those schemas for requests and responses. 😉
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### So Why is it Important to Have Required IDs
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Now, what's the matter with having one **`id` field marked as "optional"** in a response when in reality it is always required?
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For example, **automatically generated clients** in other languages (or also in Python) would have some declaration that this field `id` is optional.
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And then the developers using those clients in their languages would have to be checking all the time in all their code if the `id` is not `None` before using it anywhere.
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That's a lot of unnecessary checks and **unnecessary code** that could have been saved by declaring the schema properly. 😔
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It would be a lot simpler for that code to know that the `id` from a response is required and **will always have a value**.
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Let's fix that too. 🤓
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## Multiple Hero Schemas
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So, we want to have our `Hero` model that declares the **data in the database**:
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* `id`, optional on creation, required on database
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* `name`, required
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* `secret_name`, required
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* `age`, optional
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But we also want to have a `HeroCreate` for the data we want to receive when **creating** a new hero, which is almost all the same data as `Hero`, except for the `id`, because that is created automatically by the database:
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* `name`, required
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* `secret_name`, required
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* `age`, optional
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And we want to have a `HeroRead` with the `id` field, but this time annotated with `id: int`, instead of `id: Optional[int]`, to make it clear that it is required in responses **read** from the clients:
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* `id`, required
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* `name`, required
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* `secret_name`, required
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* `age`, optional
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## Multiple Models with Duplicated Fields
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The simplest way to solve it could be to create **multiple models**, each one with all the corresponding fields:
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```Python hl_lines="5-9 12-15 18-22"
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# This would work, but there's a better option below 🚨
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py[ln:7-24]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py!}
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```
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</details>
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Here's the important detail, and probably the most important feature of **SQLModel**: only `Hero` is declared with `table = True`.
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This means that the class `Hero` represents a **table** in the database. It is both a **Pydantic** model and a **SQLAlchemy** model.
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But `HeroCreate` and `HeroRead` don't have `table = True`. They are only **data models**, they are only **Pydantic** models. They won't be used with the database, but only to declare data schemas for the API (or for other uses).
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This also means that `SQLModel.metadata.create_all()` won't create tables in the database for `HeroCreate` and `HeroRead`, because they don't have `table = True`, which is exactly what we want. 🚀
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!!! tip
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We will improve this code to avoid duplicating the fields, but for now we can continue learning with these models.
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## Use Multiple Models to Create a Hero
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Let's now see how to use these new models in the FastAPI application.
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Let's first check how is the process to create a hero now:
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```Python hl_lines="3-4 6"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py[ln:46-53]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py!}
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```
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</details>
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Let's check that in detail.
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Now we use the type annotation `HeroCreate` for the request JSON data, in the `hero` parameter of the **path operation function**.
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```Python hl_lines="3"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py[ln:47]!}
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# Code below omitted 👇
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```
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Then we create a new `Hero` (this is the actual **table** model that saves things to the database) using `Hero.from_orm()`.
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The method `.from_orm()` reads data from another object with attributes and creates a new instance of this class, in this case `Hero`.
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The alternative is `Hero.parse_obj()` that reads data from a dictionary.
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But as in this case we have a `HeroCreate` instance in the `hero` variable, this is an object with attributes, so we use `.from_orm()` to read those attributes.
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With this we create a new `Hero` instance (the one for the database) and put it in the variable `db_hero` from the data in the `hero` variable that is the `HeroCreate` instance we received from the request.
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```Python hl_lines="3"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py[ln:49]!}
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# Code below omitted 👇
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```
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Then we just `add` it to the **session**, `commit`, and `refresh` it, and finally we return the same `db_hero` variable that has the just refreshed `Hero` instance.
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Because it is just refreshed, it has the `id` field set with a new ID taken from the database.
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And now that we return it, FastAPI will validate the data with the `response_model`, which is a `HeroRead`:
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```Python hl_lines="3"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial001.py[ln:46]!}
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# Code below omitted 👇
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```
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This will validate that all the data that we promised is there, and will remove any data we didn't declare.
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!!! tip
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This filtering could be very important, and could be a very good security feature, for example to make sure you filter private data, hashed passwords, etc.
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You can read more about it in the <a href="https://fastapi.tiangolo.com/tutorial/response-model/" class="external-link" target="_blank">FastAPI docs about Response Model</a>.
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In particular, it will make sure that the `id` is there, and that it is indeed an integer (and not `None`).
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## Shared Fields
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But looking closely, we could see that these models have a lot of **duplicated information**.
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All **the 3 models** declare that thay share some **common fields** that look exactly the same:
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* `name`, required
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* `secret_name`, required
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* `age`, optional
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And then they declare other fields with some differences (in this case only about the `id`).
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We want to **avoid duplicated information** if possible.
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This is important if, for example, in the future we decide to **refactor the code** and rename one field (column). For example, from `secret_name` to `secret_identity`.
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If we have that duplicated in multiple models, we could easily forget to update one of them. But if we **avoid duplication**, there's only one place that would need updating. ✨
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Let's now improve that. 🤓
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## Multiple Models with Inheritance
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And here it is, you found the biggest feature of **SQLModel**. 💎
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Each of these models is only a **data model** or both a data model and a **table model**.
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So, it's possible to create models with **SQLModel** that don't represent tables in the database.
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On top of that, we can use inheritance to avoid duplicated information in these models.
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We can see from above that they all share some **base** fields:
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* `name`, required
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* `secret_name`, required
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* `age`, optional
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So let's create a **base** model `HeroBase` that the others can inherit from:
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```Python hl_lines="3-6"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py[ln:7-10]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py!}
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```
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</details>
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As you can see, this is *not* a **table model**, it doesn't have the `table = True` config.
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But now we can create the **other models inheriting from it**, they will all share these fields, just as if they had them declared.
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### The `Hero` **Table Model**
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Let's start with the only **table model**, the `Hero`:
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```Python hl_lines="9-10"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py[ln:7-14]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py!}
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```
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</details>
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Notice that `Hero` now doesn't inherit from `SQLModel`, but from `HeroBase`.
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And now we only declare one single field directly, the `id`, that here is `Optional[int]`, and is a `primary_key`.
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And even though we don't declare the other fields **explicitly**, because they are inherited, they are also part of this `Hero` model.
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And of course, all these fields will be in the columns for the resulting `hero` table in the database.
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And those inherited fields will also be in the **autocompletion** and **inline errors** in editors, etc.
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### Columns and Inheritance with Multiple Models
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Notice that the parent model `HeroBase` is not a **table model**, but still, we can declare `name` and `age` using `Field(index=True)`.
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```Python hl_lines="4 6 9"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py[ln:7-14]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py!}
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```
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</details>
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This won't affect this parent **data model** `HeroBase`.
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But once the child model `Hero` (the actual **table model**) inherits those fields, it will use those field configurations to create the indexes when creating the tables in the database.
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### The `HeroCreate` **Data Model**
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Now let's see the `HeroCreate` model that will be used to define the data that we want to receive in the API when creating a new hero.
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This is a fun one:
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```Python hl_lines="13-14"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py[ln:7-18]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py!}
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```
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</details>
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What's happening here?
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The fields we need to create are **exactly the same** as the ones in the `HeroBase` model. So we don't have to add anything.
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And because we can't leave the empty space when creating a new class, but we don't want to add any field, we just use `pass`.
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This means that there's nothing else special in this class apart from the fact that it is named `HeroCreate` and that it inherits from `HeroBase`.
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As an alternative, we could use `HeroBase` directly in the API code instead of `HeroCreate`, but it would show up in the automatic docs UI with that name "`HeroBase`" which could be **confusing** for clients. Instead, "`HeroCreate`" is a bit more explicit about what it is for.
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On top of that, we could easily decide in the future that we want to receive **more data** when creating a new hero apart from the data in `HeroBase` (for example a password), and now we already have the class to put those extra fields.
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### The `HeroRead` **Data Model**
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Now let's check the `HeroRead` model.
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This one just declares that the `id` field is required when reading a hero from the API, because a hero read from the API will come from the database, and in the database it will always have an ID.
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```Python hl_lines="17-18"
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# Code above omitted 👆
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py[ln:7-22]!}
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# Code below omitted 👇
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```
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<details>
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<summary>👀 Full file preview</summary>
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```Python
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{!./docs_src/tutorial/fastapi/multiple_models/tutorial002.py!}
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```
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</details>
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## Review the Updated Docs UI
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The FastAPI code is still the same as above, we still use `Hero`, `HeroCreate`, and `HeroRead`. But now we define them in a smarter way with inheritance.
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So, we can jump to the docs UI right away and see how they look with the updated data.
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### Docs UI to Create a Hero
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Let's see the new UI for creating a hero:
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<img class="shadow" alt="Interactive API docs UI" src="/img/tutorial/fastapi/multiple-models/image02.png">
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Nice! It now shows that to create a hero, we just pass the `name`, `secret_name`, and optinally `age`.
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We no longer pass an `id`.
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### Docs UI with Hero Responses
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Now we can scroll down a bit to see the response schema:
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<img class="shadow" alt="Interactive API docs UI" src="/img/tutorial/fastapi/multiple-models/image03.png">
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We can now see that `id` is a required field, it has a red asterisk (<span style="color: #f00;">*</span>).
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And if we check the schema for the **Read Heroes** *path operation* it will also show the updated schema.
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## Inheritance and Table Models
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We just saw how powerful inheritance of these models can be.
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This is a very simple example, and it might look a bit... meh. 😅
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But now imagine that your table has **10 or 20 columns**. And that you have to duplicate all that information for all your **data models**... then it becomes more obvious why it's quite useful to be able to avoid all that information duplication with inheritance.
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Now, this probably looks so flexible that it's not obvious **when to use inheritance** and for what.
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Here are a couple of rules of thumb that can help you.
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### Only Inherit from Data Models
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Only inherit from **data models**, don't inherit from **table models**.
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It will help you avoid confusion, and there won't be any reason for you to need to inherit from a **table model**.
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If you feel like you need to inherit from a **table model**, then instead create a **base** class that is only a **data model** and has all those fields, like `HeroBase`.
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And then inherit from that **base** class that is only a **data model** for any other **data model** and for the **table model**.
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### Avoid Duplication - Keep it Simple
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It could feel like you need to have a profound reason why to inherit from one model or another, because "in some mystical way" they separate different concepts... or something like that.
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In some cases, there are **simple separations** that you can use, like the models to create data, read, update, etc. If that's quick and obvious, nice, use it. 💯
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Otherwise, don't worry too much about profound conceptual reasons to separate models, just try to **avoid duplication** and **keep the code simple** enough to reason about it.
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If you see you have a lot of **overlap** between two models, then you can probably **avoid some of that duplication** with a base model.
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But if to avoid some duplication you end up with a crazy tree of models with inheritance, then it might be **simpler** to just duplicate some of those fields, and that might be easier to reason about and to maintain.
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Do whatever is easier to **reason** about, to **program** with, to **maintain**, and to **refactor** in the future. 🤓
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Remember that inheritance, the same as **SQLModel**, and anything else, are just tools to **help you be more productive**, that's one of their main objectives. If something is not helping with that (e.g. too much duplication, too much complexity), then change it. 🚀
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## Recap
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You can use **SQLModel** to declare multiple models:
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* Some models can be only **data models**. They will also be **Pydantic** models.
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* And some can *also* be **table models** (apart from already being **data models**) by having the config `table = True`. They will also be **Pydantic** models and **SQLAlchemy** models.
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Only the **table models** will create tables in the database.
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So, you can use all the other **data models** to validate, convert, filter, and document the schema of the data for your application. ✨
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You can use inheritance to **avoid information and code duplication**. 😎
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And you can use all these models directly with **FastAPI**. 🚀
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