# Filter Data - WHERE In the previous chapter we saw how to `SELECT` data from the database. We did it using pure **SQL** and using **SQLModel**. But we always got all the rows, the whole table:
idnamesecret_nameage
1DeadpondDive Wilsonnull
2Spider-BoyPedro Parqueadornull
3Rusty-ManTommy Sharp48
In most of the cases we will want to get only one row, or only a group of rows. We will see how to do that now, to filter data and get only the rows **where** a condition is true. ## Continue From Previous Code We'll continue with the same examples we have been using in the previous chapters to create and select data. And now we will update `select_heroes()` to filter the data.
👀 Full file preview ```Python hl_lines="36-41" {!./docs_src/tutorial/select/tutorial001.py!} ```
If you already executed the previous examples and have a database with data, **remove the database file** before running each example, that way you won't have duplicate data and you will be able to get the same results. ## Filter Data with SQL Let's check first how to filter data with **SQL** using the `WHERE` keyword. ```SQL hl_lines="3" SELECT id, name, secret_name, age FROM hero WHERE name = "Deadpond" ``` The first part means the same as before: > Hey SQL database 👋, please go and `SELECT` some data for me. > > I'll first tell you the columns I want: > > * `id` > * `name` > * `secret_name` > * `age` > > And I want you to get them `FROM` the table called `"hero"`. Then the `WHERE` keyword adds the following: > So, SQL database, I already told you what columns to `SELECT` and where to select them `FROM`. > But I don't want you to bring me all the rows, I only want the rows `WHERE` the `name` column has a value of `"Deadpond"`. Then the database will bring a table like this:
idnamesecret_nameage
1DeadpondDive Wilsonnull
!!! tip Even if the result is only one row, the database always returns a **table**. In this case, a table with only one row. You can try that out in **DB Browser for SQLite**: ### `WHERE` and `FROM` are "clauses" These additional keywords with some sections like `WHERE` and `FROM` that go after `SELECT` (or others) have a technical name, they are called **clauses**. There are others clauses too, with their own SQL keywords. I won't use the term **clause** too much here, but it's good for you to know it as it will probably show up in other tutorials you could study later. 🤓 ## `SELECT` and `WHERE` Here's a quick tip that helps me think about it. * **`SELECT`** is used to tell the SQL database what **columns** to return. * **`WHERE`** is used to tell the SQL database what **rows** to return. The size of the table in the two dimensions depend mostly on those two keywords. ### `SELECT` Land If the table has too many or too few **columns**, that's changed in the **`SELECT`** part. Starting with some table:
idnamesecret_nameage
1DeadpondDive Wilsonnull
2Spider-BoyPedro Parqueadornull
3Rusty-ManTommy Sharp48
...and changing the number of **columns**:
name
Deadpond
Spider-Boy
Rusty-Man
...is all `SELECT` land. ### `WHERE` Land If the table has too many or too few **rows**, that's changed in the **`WHERE`** part. Starting with some table:
idnamesecret_nameage
1DeadpondDive Wilsonnull
2Spider-BoyPedro Parqueadornull
3Rusty-ManTommy Sharp48
...and changing the number of **rows**:
idnamesecret_nameage
2Spider-BoyPedro Parqueadornull
...is all `WHERE` land. ## Review `SELECT` with **SQLModel** Let's review some of the code we used to read data with **SQLModel**. We care specially about the **select** statement: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/select/tutorial001.py[ln:36-41]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/select/tutorial001.py!} ```
## Filter Rows Using `WHERE` with **SQLModel** Now, the same way that we add `WHERE` to a SQL statement to filter rows, we can add a `.where()` to a **SQLModel** `select()` statment to filter rows, which will filter the objects returned: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial001.py[ln:36-41]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial001.py!} ```
It's a very small change, but it's packed of details. Let's explore them. ## `select()` Objects The object returned by `select(Hero)` is a special type of object with some methods. One of those methods is `.where()` used to (unsurprisingly) add a `WHERE` to the SQL statement in that **select** object. There are other methods that we will explore later. 💡 Most of these methods return the same object again after modifying it. So we could call one after the other: ```Python statement = select(Hero).where(Hero.name == "Deadpond").where(Hero.age == 48) ``` ## Calling `.where()` Now, this `.where()` method is special and very powerful. It is tightly integrated with **SQLModel** (actually SQLAlchemy) to let you use very familiar Python syntax and code. Notice that we didn't call it with a single equal (`=`) sign, and with something like: ```Python # Not supported 🚨 select(Hero).where(name="Deadpond") ``` That would have been shorter, of course, but it would have been much more error prone and limited. I'll show you why in a bit. Instead, we used two `==`: ```Python select(Hero).where(Hero.name == "Deadpond") ``` So, what's happening there? ## `.where()` and Expressions In the example above we are using two equal signs (`==`). That's called the "**equality operator**". !!! tip An **operator** is just a symbol that is put beside one value or in the middle of two values to do something with them. `==` is called the **equality** operator because it checks if two things are **equal**. When writing Python, if you write something using this equality operator (`==`) like: ```Python some_name == "Deadpond" ``` ...that's called an equality "**comparison**", and it normally results in a value of: ```Python True ``` ...or ```Python False ``` !!! tip `<`, `>`, `==`, `>=`, `<=`, and `!=` are all **operators** used for **comparisons**. But SQLAlchemy adds some magic to the columns/fields in a **model class** to make those Python comparisons have super powers. So, if you write something like: ```Python Hero.name == "Deadpond" ``` ...that doesn't result in a value of `True` or `False`. 🤯 Instead, it results in a special type of object. If you tried that in an interactive Python session, you'd see something like: ```Python >>> Hero.name == "Deadpond" ``` So, that result value is an **expession** object. 💡 And `.where()` takes one (or more) of these **expression** objects to update the SQL statement. ## Model Class Attributes, Expressions, and Instances Now, let's stop for a second to make a clear distinction that is very important and easy to miss. **Model class attributes** for each of the columns/fields are special and can be used for expressions. But that's only for the **model class attributes**. 🚨 **Instance** attributes behave like normal Python values. ✅ So, using the class (`Hero`, with capital `H`) in a Python comparison: ```Python Hero.name == "Deadpond" ``` ...results in one of those **expression** objects to be used with `.where()`: ```Python ``` But if you take an instance: ```Python some_hero = Hero(name="Deadpond", secret_name="Dive Wilson") ``` ...and use it in a comparison: ```Python some_hero.name == "Deadpond" ``` ...that results in a Python value of: ```Python True ``` ...or if it was a different object with a different name, it could have been: ```Python False ``` The difference is that one is using the **model class**, the other is using an **instance**. ## Class or Instance It's quite probable that you will end up having some variable `hero` (with lowercase `h`) like: ```Python hero = Hero(name="Deadpond", secret_name="Dive Wilson") ``` And now the class is `Hero` (with capital `H`) and the instance is `hero` (with a lowercase `h`). So now you have `Hero.name` and `hero.name` that look very similar, but are two different things: ```Python >>> Hero.name == "Deadpond" >>> hero.name == "Deadpond" True ``` It's just something to pay attention to. 🤓 But after understanding that difference between classes and instances it can feel natural, and you can do very powerful things. 🚀 For example, as `hero.name` works like a `str` and `Hero.name` works like a special object for comparisons, you could write some code like: ```Python select(Hero).where(Hero.name == hero.name) ``` That would mean: > Hey SQL Database 👋, please `SELECT` all the columns > > `FROM` the table for the model class `Hero` (the table `"hero"`) > > `WHERE` the column `"name"` is equal to the name of this hero instance I have here: `hero.name` (in the example above, the value `"Deadpond"`). ## `.where()` and Expressions Instead of Keyword Arguments Now, let me tell you why I think that for this use case of interacting with SQL databases it's better to have these expressions: ```Python # Expression ✨ select(Hero).where(Hero.name == "Deadpond") ``` ...instead of keyword arguments like this: ```Python # Not supported, keyword argument 🚨 select(Hero).where(name="Deadpond") ``` Of course, the keyword arguments would have been a bit shorter. But with the **expressions** your editor can help you a lot with autocompletion and inline error checks. ✨ Let me give you an example. Let's imagine that keword arguments were supported in SQLModel and you wanted to filter using the secret identity of Spider-Boy. You could write: ```Python # Don't copy this 🚨 select(Hero).where(secret_identity="Pedro Parqueador") ``` The editor would see the code, and because it doesn't have any information of which keyword arguments are allowed and which not, it would have no way to help you **detect the error**. Maybe your code could even run and seem like it's all fine, and then some months later you would be wondering why your app *never finds rows* although you were sure that there was one `"Pedro Parqueador"`. 😱 And maybe finally you would realize that we wrote the code using `secret_identity` which is not a column in the table. We should have written `secret_name` instead. Now, with the the expressions, your editor would show you an error right away if you tried this: ```Python # Expression ✨ select(Hero).where(Hero.secret_identity == "Pedro Parqueador") ``` Even better, it would autocomplete the correct one for you, to get: ```Python select(Hero).where(Hero.secret_name == "Pedro Parqueador") ``` I think that alone, having better editor support, autocompletion, and inline errors, is enough to make it worth having expressions instead of keyword arguments. ✨ !!! tip **Expressions** also provide more features for other types of comparisons, shown down below. 👇 ## Exec the Statement Now that we know how `.where()` works, let's finish the code. It's actually the same as in previous chapters for selecting data: ```Python hl_lines="6-8" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial001.py[ln:36-41]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial001.py!} ```
We take that statement, that now includes a `WHERE`, and we `exec()` it to get the results. And in this case the results will be just one:
```console $ python app.py // Some boilerplate output omitted 😉 // Now the important part, the SELECT with WHERE 💡 INFO Engine SELECT hero.id, hero.name, hero.secret_name, hero.age FROM hero WHERE hero.name = ? INFO Engine [no key 0.00014s] ('Deadpond',) // Here's the only printed hero secret_name='Dive Wilson' age=None id=1 name='Deadpond' ```
!!! tip The `results` object is an iterable to be used in a `for` loop. Even if we got only one row, we iterate over that `results` object. Just as if it was a list of one element. We'll see other ways to get the data later. ## Other Comparisons Here's another great advantage of these special **expressions** passed to `.where()`. Above, we have been using an "equality" comparison (using `==`), only checking if two things are the same value. But we can use other standard Python comparisons. ✨ ### Not Equal We could get the rows where a column is **not** equal to a value using `!=`: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial002.py[ln:36-41]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial002.py!} ```
That would output: ``` secret_name='Pedro Parqueador' age=None id=2 name='Spider-Boy' secret_name='Tommy Sharp' age=48 id=3 name='Rusty-Man' ``` ### Pause to Add Data Let's update the function `create_heroes()` and add some more rows to make the next comparison examples clearer: ```Python hl_lines="4-10 13-19" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial003.py[ln:23-41]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial003.py!} ```
Now that we have several heroes with different ages, it's gonna be more obvious what the next comparisons do. ### More Than Now let's use `>` to get the rows where a column is **more than** a value: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial003.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial003.py!} ```
That would output: ``` age=48 id=3 name='Rusty-Man' secret_name='Tommy Sharp' age=36 id=6 name='Dr. Weird' secret_name='Steve Weird' age=93 id=7 name='Captain North America' secret_name='Esteban Rogelios' ``` !!! tip Notice that it didn't select `Black Lion`, because the age is not *strictly* greater than `35`. ### More Than or Equal Let's do that again, but with `>=` to get the rows where a column is **more than or equal** to a value: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial004.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial004.py!} ```
Because we are using `>=`, the age `35` will be included in the output: ``` hl_lines="2" age=48 id=3 name='Rusty-Man' secret_name='Tommy Sharp' age=35 id=5 name='Black Lion' secret_name='Trevor Challa' age=36 id=6 name='Dr. Weird' secret_name='Steve Weird' age=93 id=7 name='Captain North America' secret_name='Esteban Rogelios' ``` !!! tip This time we got `Black Lion` too because although the age is not *strictly* greater than `35`it is *equal* to `35`. ### Less Than Similarly, we can use `<` to get the rows where a column is **less than** a value: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial005.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial005.py!} ```
And we get the younger one with an age in the database: ``` age=32 id=4 name='Tarantula' secret_name='Natalia Roman-on' ``` !!! tip We could imagine that **Spider-Boy** is even **younger**. But because we don't know the age, it is `NULL` in the database (`None` in Python), it doesn't match any of these age comparisons with numbers. ### Less Than or Equal Finally, we can use `<=` to get the rows where a column is **less than or equal** to a value: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial006.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial006.py!} ```
And we get the younger ones, `35` and below: ``` hl_lines="2" age=32 id=4 name='Tarantula' secret_name='Natalia Roman-on' age=35 id=5 name='Black Lion' secret_name='Trevor Challa' ``` !!! tip We get `Black Lion` here too because although the age is not *strictly* less than `35` it is *equal* to `35`. ### Benefits of Expresions Here's a good moment to see that being able to use these pure Python expressions instead of keyword arguments can help a lot. ✨ We can use the same standard Python comparison operators like `<`, `<=`, `>`, `>=`, `==`, etc. ## Multiple `.where()` Because `.where()` returns the same special select object back, we can add more `.where()` calls to it: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial007.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial007.py!} ```
This will select the rows `WHERE` the `age` is **greater than or equal** to `35`, `AND` also the `age` is **less than** `40`. The equivalent SQL would be: ```SQL hl_lines="3" SELECT id, name, secret_name, age FROM hero WHERE age >= 35 AND age < 40 ``` This uses `AND` to put both comparisons together. We can then run it to see the output from the program:
```console $ python app.py // Some boilerplate output omitted 😉 // The SELECT statement with WHERE, also using AND INFO Engine SELECT hero.id, hero.name, hero.secret_name, hero.age FROM hero WHERE hero.age >= ? AND hero.age < ? INFO Engine [no key 0.00014s] (35, 40) // The two heros printed age=35 id=5 name='Black Lion' secret_name='Trevor Challa' age=36 id=6 name='Dr. Weird' secret_name='Steve Weird' ```
## `.where()` With Multiple Expressions As an alternative to using multiple `.where()` we can also pass several expressions to a single `.where()`: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial008.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial008.py!} ```
This is the same as the above, and will result in the same output with the two heroes: ``` age=35 id=5 name='Black Lion' secret_name='Trevor Challa' age=36 id=6 name='Dr. Weird' secret_name='Steve Weird' ``` ## `.where()` With Multiple Expressions Using `OR` These last examples use `where()` with multiple expressions. And then those are combined in the final SQL using `AND`, which means that *all* of the expressions must be true in a row for it to be included in the results. But we can also combine expressions using `OR`. Which means that **any** (but not necessarily all) of the expressions should be true in a row for it to be included. To do it, you can import `or_`: ```Python hl_lines="3" {!./docs_src/tutorial/where/tutorial009.py[ln:1-3]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial009.py!} ```
And then pass both expressions to `or_()` and put it inside `.where()`. For example, here we select the heroes that are the youngest OR the oldest: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial009.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial009.py!} ```
When we run it, this generates the output:
```console $ python app.py // Some boilerplate output omitted 😉 // The SELECT statement with WHERE, also using OR 🔍 INFO Engine SELECT hero.id, hero.name, hero.secret_name, hero.age FROM hero WHERE hero.age <= ? OR hero.age > ? INFO Engine [no key 0.00021s] (35, 90) // The results include the youngest and oldest ✨ secret_name='Natalia Roman-on' age=32 id=4 name='Tarantula' secret_name='Trevor Challa' age=35 id=5 name='Black Lion' secret_name='Esteban Rogelios' age=93 id=7 name='Captain North America' ```
## Type Annotations and Errors There's a chance that your editor gives you an error when using these comparisons, like: ```Python Hero.age > 35 ``` It would be an error telling you that > `Hero.age` is potentially `None`, and you cannot compare `None` with `>` This is because as we are using pure and plain Python annotations for the fields, `age` is indeed annotated as `Optional[int]`, which means `int` or `None`. By using this simple and standard Python type annotations We get the benefit of the extra simplicity and the inline error checks when creating or using instances. ✨ And when we use these special **class attributes** in a `.where()`, during execution of the program, the special class attribute will know that the comparison only applies for the values that are not `NULL` in the database, and it will work correctly. But the editor doesn't know that it's a special **class attribute**, so it tries to help us preventing an error (that in this case is a false alarm). Nevertheless, we can easily fix. 🎉 We can tell the editor that this class attribute is actually a special **SQLModel** column (instead of an instance attribute with a normal value). To do that, we can import `col()` (as short for "column"): ```Python hl_lines="3" {!./docs_src/tutorial/where/tutorial011.py[ln:1-3]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial011.py!} ```
And then put the **class attribute** inside `col()` when using it in a `.where()`: ```Python hl_lines="5" # Code above omitted 👆 {!./docs_src/tutorial/where/tutorial011.py[ln:44-49]!} # Code below omitted 👇 ```
👀 Full file preview ```Python {!./docs_src/tutorial/where/tutorial011.py!} ```
So, now the comparison is not: ```Python Hero.age > 35 ``` ...but: ```Python col(Hero.age) > 35 ``` And with that the editor knows this code is actually fine, because this is a special **SQLModel** column. !!! tip That `col()` will come handy later, giving autocompletion to several other things we can do with these special **class attributes** for columns. But we'll get there later. ## Recap You can use `.where()` with powerful expressions using **SQLModel** columns (the special class attributes) to filter the rows that you want. 🚀 Up to now, the database would have been **looking through each one of the records** (rows) to find the ones that match what you want. If you have thousands or millions of records, this could be very **slow**. 😱 In the next section I'll tell you how to add **indexes** to the database, this is what will make the queries **very efficient**. 😎