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:
id | name | secret_name | age |
---|---|---|---|
1 | Deadpond | Dive Wilson | null |
2 | Spider-Boy | Pedro Parqueador | null |
3 | Rusty-Man | Tommy Sharp | 48 |
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
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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.
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 themFROM
. But I don't want you to bring me all the rows, I only want the rowsWHERE
thename
column has a value of"Deadpond"
.
Then the database will bring a table like this:
id | name | secret_name | age |
---|---|---|---|
1 | Deadpond | Dive Wilson | null |
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:
id | name | secret_name | age |
---|---|---|---|
1 | Deadpond | Dive Wilson | null |
2 | Spider-Boy | Pedro Parqueador | null |
3 | Rusty-Man | Tommy Sharp | 48 |
...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:
id | name | secret_name | age |
---|---|---|---|
1 | Deadpond | Dive Wilson | null |
2 | Spider-Boy | Pedro Parqueador | null |
3 | Rusty-Man | Tommy Sharp | 48 |
...and changing the number of rows:
id | name | secret_name | age |
---|---|---|---|
2 | Spider-Boy | Pedro Parqueador | null |
...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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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()
statement to filter rows, which will filter the objects returned:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
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:
# 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 ==
:
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:
some_name == "Deadpond"
...that's called an equality "comparison", and it normally results in a value of:
True
...or
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:
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:
>>> Hero.name == "Deadpond"
<sqlalchemy.sql.elements.BinaryExpression object at 0x7f4aec0d6c90>
So, that result value is an expression 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:
Hero.name == "Deadpond"
...results in one of those expression objects to be used with .where()
:
<sqlalchemy.sql.elements.BinaryExpression object at 0x7f4aec0d6c90>
But if you take an instance:
some_hero = Hero(name="Deadpond", secret_name="Dive Wilson")
...and use it in a comparison:
some_hero.name == "Deadpond"
...that results in a Python value of:
True
...or if it was a different object with a different name, it could have been:
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:
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:
>>> Hero.name == "Deadpond"
<sqlalchemy.sql.elements.BinaryExpression object at 0x7f4aec0d6c90>
>>> 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:
select(Hero).where(Hero.name == hero.name)
That would mean:
Hey SQL Database 👋, please
SELECT
all the columns
FROM
the table for the model classHero
(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:
# Expression ✨
select(Hero).where(Hero.name == "Deadpond")
...instead of keyword arguments like this:
# 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 keyword arguments were supported in SQLModel and you wanted to filter using the secret identity of Spider-Boy.
You could write:
# 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 expressions, your editor would show you an error right away if you tried this:
# Expression ✨
select(Hero).where(Hero.secret_identity == "Pedro Parqueador")
Even better, it would autocomplete the correct one for you, to get:
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name == "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
$ 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 !=
:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name != "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name != "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name != "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.name != "Deadpond")
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
# Code above omitted 👆
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
# Code below omitted 👇
# Code above omitted 👆
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age > 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
Because we are using >=
, the age 35
will be included in the output:
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age < 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age < 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age < 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age < 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age <= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age <= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age <= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age <= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
And we get the younger ones, 35
and below:
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 Expressions¶
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35).where(Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35).where(Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35).where(Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35).where(Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
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:
$ 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 heroes 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()
:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35, Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35, Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35, Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(Hero.age >= 35, Hero.age < 40)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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_
:
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
# Code below omitted 👇
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
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:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, create_engine, or_, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(or_(Hero.age <= 35, Hero.age > 90))
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
When we run it, this generates the output:
$ 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:
Hero.age > 35
It would be an error telling you that
Hero.age
is potentiallyNone
, and you cannot compareNone
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"):
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
# Code below omitted 👇
from typing import Optional
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
And then put the class attribute inside col()
when using it in a .where()
:
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
# Code above omitted 👆
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
# Code below omitted 👇
👀 Full file preview
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
class Hero(SQLModel, table=True):
id: int | None = Field(default=None, primary_key=True)
name: str
secret_name: str
age: int | None = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
from typing import Optional
from sqlmodel import Field, Session, SQLModel, col, create_engine, select
class Hero(SQLModel, table=True):
id: Optional[int] = Field(default=None, primary_key=True)
name: str
secret_name: str
age: Optional[int] = None
sqlite_file_name = "database.db"
sqlite_url = f"sqlite:///{sqlite_file_name}"
engine = create_engine(sqlite_url, echo=True)
def create_db_and_tables():
SQLModel.metadata.create_all(engine)
def create_heroes():
hero_1 = Hero(name="Deadpond", secret_name="Dive Wilson")
hero_2 = Hero(name="Spider-Boy", secret_name="Pedro Parqueador")
hero_3 = Hero(name="Rusty-Man", secret_name="Tommy Sharp", age=48)
hero_4 = Hero(name="Tarantula", secret_name="Natalia Roman-on", age=32)
hero_5 = Hero(name="Black Lion", secret_name="Trevor Challa", age=35)
hero_6 = Hero(name="Dr. Weird", secret_name="Steve Weird", age=36)
hero_7 = Hero(name="Captain North America", secret_name="Esteban Rogelios", age=93)
with Session(engine) as session:
session.add(hero_1)
session.add(hero_2)
session.add(hero_3)
session.add(hero_4)
session.add(hero_5)
session.add(hero_6)
session.add(hero_7)
session.commit()
def select_heroes():
with Session(engine) as session:
statement = select(Hero).where(col(Hero.age) >= 35)
results = session.exec(statement)
for hero in results:
print(hero)
def main():
create_db_and_tables()
create_heroes()
select_heroes()
if __name__ == "__main__":
main()
So, now the comparison is not:
Hero.age > 35
...but:
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. 😎