SeaQuery is a query builder to help you construct dynamic SQL queries in Rust. You can construct expressions, queries and schema as abstract syntax trees using an ergonomic API. We support MySQL, Postgres and SQLite behind a common interface that aligns their behaviour where appropriate.
We provide integration for SQLx, postgres and rusqlite. See examples for usage.
SeaQuery is the foundation of SeaORM, an async & dynamic ORM for Rust.
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# Cargo.toml
[dependencies]
sea-query = "0"
SeaQuery is very lightweight, all dependencies are optional.
Macro: derive
attr
Async support: thread-safe
(use Arc
inplace of Rc
)
SQL engine: backend-mysql
, backend-postgres
, backend-sqlite
Type support: with-chrono
, with-time
, with-json
, with-rust_decimal
, with-bigdecimal
, with-uuid
,
with-ipnetwork
, with-mac_address
, postgres-array
, postgres-interval
Table of Content
-
Basics
-
Query Statement
-
Advanced
-
Schema Statement
Why would you want to use a dynamic query builder?
- Parameter bindings
One of the headaches when using raw SQL is parameter binding. With SeaQuery you can:
assert_eq!(
Query::select()
.column(Glyph::Image)
.from(Glyph::Table)
.and_where(Expr::col(Glyph::Image).like("A"))
.and_where(Expr::col(Glyph::Id).is_in([1, 2, 3]))
.build(PostgresQueryBuilder),
(
r#"SELECT "image" FROM "glyph" WHERE "image" LIKE $1 AND "id" IN ($2, $3, $4)"#
.to_owned(),
Values(vec![
Value::String(Some(Box::new("A".to_owned()))),
Value::Int(Some(1)),
Value::Int(Some(2)),
Value::Int(Some(3))
])
)
);
- Dynamic query
You can construct the query at runtime based on user inputs:
Query::select()
.column(Char::Character)
.from(Char::Table)
.conditions(
// some runtime condition
true,
// if condition is true then add the following condition
|q| {
q.and_where(Expr::col(Char::Id).eq(1));
},
// otherwise leave it as is
|q| {},
);
Iden
is a trait for identifiers used in any query statement.
Commonly implemented by Enum where each Enum represents a table found in a database, and its variants include table name and column name.
[Iden::unquoted()
] must be implemented to provide a mapping between Enum variants and its
corresponding string value.
use sea_query::*;
// For example Character table with column id, character, font_size...
pub enum Character {
Table,
Id,
FontId,
FontSize,
}
// Mapping between Enum variant and its corresponding string value
impl Iden for Character {
fn unquoted(&self, s: &mut dyn std::fmt::Write) {
write!(
s,
"{}",
match self {
Self::Table => "character",
Self::Id => "id",
Self::FontId => "font_id",
Self::FontSize => "font_size",
}
)
.unwrap();
}
}
If you're okay with running another procedural macro, you can activate
the derive
or attr
feature on the crate to save you some boilerplate.
For more usage information, look at
the derive examples
or the attribute examples.
#[cfg(feature = "derive")]
use sea_query::Iden;
// This will implement Iden exactly as shown above
#[derive(Iden)]
enum Character {
Table,
}
assert_eq!(Character::Table.to_string(), "character");
// You can also derive a unit struct
#[derive(Iden)]
struct Glyph;
assert_eq!(Glyph.to_string(), "glyph");
#[cfg(feature = "attr")]
use sea_query::{enum_def, Iden};
#[enum_def]
struct Character {
pub foo: u64,
}
// It generates the following along with Iden impl
enum CharacterIden {
Table,
Foo,
}
assert_eq!(CharacterIden::Table.to_string(), "character");
assert_eq!(CharacterIden::Foo.to_string(), "foo");
Use [Expr
] to construct select, join, where and having expression in query.
assert_eq!(
Query::select()
.column(Char::Character)
.from(Char::Table)
.and_where(
Expr::expr(Expr::col(Char::SizeW).add(1))
.mul(2)
.eq(Expr::expr(Expr::col(Char::SizeH).div(2)).sub(1))
)
.and_where(
Expr::col(Char::SizeW).in_subquery(
Query::select()
.expr(Expr::cust_with_values("ln($1 ^ $2)", [2.4, 1.2]))
.take()
)
)
.and_where(
Expr::col(Char::Character)
.like("D")
.and(Expr::col(Char::Character).like("E"))
)
.to_string(PostgresQueryBuilder),
[
r#"SELECT "character" FROM "character""#,
r#"WHERE ("size_w" + 1) * 2 = ("size_h" / 2) - 1"#,
r#"AND "size_w" IN (SELECT ln(2.4 ^ 1.2))"#,
r#"AND (("character" LIKE 'D') AND ("character" LIKE 'E'))"#,
]
.join(" ")
);
If you have complex conditions to express, you can use the [Condition
] builder,
usable for [ConditionalStatement::cond_where
] and [SelectStatement::cond_having
].
assert_eq!(
Query::select()
.column(Glyph::Id)
.from(Glyph::Table)
.cond_where(
Cond::any()
.add(
Cond::all()
.add(Expr::col(Glyph::Aspect).is_null())
.add(Expr::col(Glyph::Image).is_null())
)
.add(
Cond::all()
.add(Expr::col(Glyph::Aspect).is_in([3, 4]))
.add(Expr::col(Glyph::Image).like("A%"))
)
)
.to_string(PostgresQueryBuilder),
[
r#"SELECT "id" FROM "glyph""#,
r#"WHERE"#,
r#"("aspect" IS NULL AND "image" IS NULL)"#,
r#"OR"#,
r#"("aspect" IN (3, 4) AND "image" LIKE 'A%')"#,
]
.join(" ")
);
There is also the [any!
] and [all!
] macro at your convenience:
Query::select().cond_where(any![
Expr::col(Glyph::Aspect).is_in([3, 4]),
all![
Expr::col(Glyph::Aspect).is_null(),
Expr::col(Glyph::Image).like("A%")
]
]);
Statements are divided into 2 categories: Query and Schema, and to be serialized into SQL
with [QueryStatementBuilder
] and [SchemaStatementBuilder
] respectively.
Schema statement has the following interface:
fn build<T: SchemaBuilder>(&self, schema_builder: T) -> String;
Query statement has the following interfaces:
fn build<T: QueryBuilder>(&self, query_builder: T) -> (String, Values);
fn to_string<T: QueryBuilder>(&self, query_builder: T) -> String;
build
builds a SQL statement as string and parameters to be passed to the database driver
through the binary protocol. This is the preferred way as it has less overhead and is more secure.
to_string
builds a SQL statement as string with parameters injected. This is good for testing
and debugging.
let query = Query::select()
.column(Char::Character)
.column((Font::Table, Font::Name))
.from(Char::Table)
.left_join(Font::Table, Expr::col((Char::Table, Char::FontId)).equals((Font::Table, Font::Id)))
.and_where(Expr::col(Char::SizeW).is_in([3, 4]))
.and_where(Expr::col(Char::Character).like("A%"))
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"SELECT `character`, `font`.`name` FROM `character` LEFT JOIN `font` ON `character`.`font_id` = `font`.`id` WHERE `size_w` IN (3, 4) AND `character` LIKE 'A%'"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"SELECT "character", "font"."name" FROM "character" LEFT JOIN "font" ON "character"."font_id" = "font"."id" WHERE "size_w" IN (3, 4) AND "character" LIKE 'A%'"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"SELECT "character", "font"."name" FROM "character" LEFT JOIN "font" ON "character"."font_id" = "font"."id" WHERE "size_w" IN (3, 4) AND "character" LIKE 'A%'"#
);
let query = Query::insert()
.into_table(Glyph::Table)
.columns([Glyph::Aspect, Glyph::Image])
.values_panic([5.15.into(), "12A".into()])
.values_panic([4.21.into(), "123".into()])
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"INSERT INTO `glyph` (`aspect`, `image`) VALUES (5.15, '12A'), (4.21, '123')"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"INSERT INTO "glyph" ("aspect", "image") VALUES (5.15, '12A'), (4.21, '123')"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"INSERT INTO "glyph" ("aspect", "image") VALUES (5.15, '12A'), (4.21, '123')"#
);
let query = Query::update()
.table(Glyph::Table)
.values([(Glyph::Aspect, 1.23.into()), (Glyph::Image, "123".into())])
.and_where(Expr::col(Glyph::Id).eq(1))
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"UPDATE `glyph` SET `aspect` = 1.23, `image` = '123' WHERE `id` = 1"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"UPDATE "glyph" SET "aspect" = 1.23, "image" = '123' WHERE "id" = 1"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"UPDATE "glyph" SET "aspect" = 1.23, "image" = '123' WHERE "id" = 1"#
);
let query = Query::delete()
.from_table(Glyph::Table)
.cond_where(
Cond::any()
.add(Expr::col(Glyph::Id).lt(1))
.add(Expr::col(Glyph::Id).gt(10)),
)
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"DELETE FROM `glyph` WHERE `id` < 1 OR `id` > 10"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"DELETE FROM "glyph" WHERE "id" < 1 OR "id" > 10"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"DELETE FROM "glyph" WHERE "id" < 1 OR "id" > 10"#
);
max
, min
, sum
, avg
, count
etc
let query = Query::select()
.expr(Func::sum(Expr::col((Char::Table, Char::SizeH))))
.from(Char::Table)
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"SELECT SUM(`character`.`size_h`) FROM `character`"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"SELECT SUM("character"."size_h") FROM "character""#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"SELECT SUM("character"."size_h") FROM "character""#
);
let query = Query::select()
.expr(Func::cast_as("hello", Alias::new("MyType")))
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"SELECT CAST('hello' AS MyType)"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"SELECT CAST('hello' AS MyType)"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"SELECT CAST('hello' AS MyType)"#
);
struct MyFunction;
impl Iden for MyFunction {
fn unquoted(&self, s: &mut dyn Write) {
write!(s, "MY_FUNCTION").unwrap();
}
}
let query = Query::select()
.expr(Func::cust(MyFunction).arg(Expr::val("hello")))
.to_owned();
assert_eq!(
query.to_string(MysqlQueryBuilder),
r#"SELECT MY_FUNCTION('hello')"#
);
assert_eq!(
query.to_string(PostgresQueryBuilder),
r#"SELECT MY_FUNCTION('hello')"#
);
assert_eq!(
query.to_string(SqliteQueryBuilder),
r#"SELECT MY_FUNCTION('hello')"#
);
let table = Table::create()
.table(Char::Table)
.if_not_exists()
.col(ColumnDef::new(Char::Id).integer().not_null().auto_increment().primary_key())
.col(ColumnDef::new(Char::FontSize).integer().not_null())
.col(ColumnDef::new(Char::Character).string().not_null())
.col(ColumnDef::new(Char::SizeW).integer().not_null())
.col(ColumnDef::new(Char::SizeH).integer().not_null())
.col(ColumnDef::new(Char::FontId).integer().default(Value::Int(None)))
.foreign_key(
ForeignKey::create()
.name("FK_2e303c3a712662f1fc2a4d0aad6")
.from(Char::Table, Char::FontId)
.to(Font::Table, Font::Id)
.on_delete(ForeignKeyAction::Cascade)
.on_update(ForeignKeyAction::Cascade)
)
.to_owned();
assert_eq!(
table.to_string(MysqlQueryBuilder),
[
r#"CREATE TABLE IF NOT EXISTS `character` ("#,
r#"`id` int NOT NULL AUTO_INCREMENT PRIMARY KEY,"#,
r#"`font_size` int NOT NULL,"#,
r#"`character` varchar(255) NOT NULL,"#,
r#"`size_w` int NOT NULL,"#,
r#"`size_h` int NOT NULL,"#,
r#"`font_id` int DEFAULT NULL,"#,
r#"CONSTRAINT `FK_2e303c3a712662f1fc2a4d0aad6`"#,
r#"FOREIGN KEY (`font_id`) REFERENCES `font` (`id`)"#,
r#"ON DELETE CASCADE ON UPDATE CASCADE"#,
r#")"#,
].join(" ")
);
assert_eq!(
table.to_string(PostgresQueryBuilder),
[
r#"CREATE TABLE IF NOT EXISTS "character" ("#,
r#""id" serial NOT NULL PRIMARY KEY,"#,
r#""font_size" integer NOT NULL,"#,
r#""character" varchar NOT NULL,"#,
r#""size_w" integer NOT NULL,"#,
r#""size_h" integer NOT NULL,"#,
r#""font_id" integer DEFAULT NULL,"#,
r#"CONSTRAINT "FK_2e303c3a712662f1fc2a4d0aad6""#,
r#"FOREIGN KEY ("font_id") REFERENCES "font" ("id")"#,
r#"ON DELETE CASCADE ON UPDATE CASCADE"#,
r#")"#,
].join(" ")
);
assert_eq!(
table.to_string(SqliteQueryBuilder),
[
r#"CREATE TABLE IF NOT EXISTS "character" ("#,
r#""id" integer NOT NULL PRIMARY KEY AUTOINCREMENT,"#,
r#""font_size" integer NOT NULL,"#,
r#""character" text NOT NULL,"#,
r#""size_w" integer NOT NULL,"#,
r#""size_h" integer NOT NULL,"#,
r#""font_id" integer DEFAULT NULL,"#,
r#"FOREIGN KEY ("font_id") REFERENCES "font" ("id") ON DELETE CASCADE ON UPDATE CASCADE"#,
r#")"#,
].join(" ")
);
let table = Table::alter()
.table(Font::Table)
.add_column(
ColumnDef::new(Alias::new("new_col"))
.integer()
.not_null()
.default(100),
)
.to_owned();
assert_eq!(
table.to_string(MysqlQueryBuilder),
r#"ALTER TABLE `font` ADD COLUMN `new_col` int NOT NULL DEFAULT 100"#
);
assert_eq!(
table.to_string(PostgresQueryBuilder),
r#"ALTER TABLE "font" ADD COLUMN "new_col" integer NOT NULL DEFAULT 100"#
);
assert_eq!(
table.to_string(SqliteQueryBuilder),
r#"ALTER TABLE "font" ADD COLUMN "new_col" integer NOT NULL DEFAULT 100"#,
);
let table = Table::drop()
.table(Glyph::Table)
.table(Char::Table)
.to_owned();
assert_eq!(
table.to_string(MysqlQueryBuilder),
r#"DROP TABLE `glyph`, `character`"#
);
assert_eq!(
table.to_string(PostgresQueryBuilder),
r#"DROP TABLE "glyph", "character""#
);
assert_eq!(
table.to_string(SqliteQueryBuilder),
r#"DROP TABLE "glyph", "character""#
);
let table = Table::rename()
.table(Font::Table, Alias::new("font_new"))
.to_owned();
assert_eq!(
table.to_string(MysqlQueryBuilder),
r#"RENAME TABLE `font` TO `font_new`"#
);
assert_eq!(
table.to_string(PostgresQueryBuilder),
r#"ALTER TABLE "font" RENAME TO "font_new""#
);
assert_eq!(
table.to_string(SqliteQueryBuilder),
r#"ALTER TABLE "font" RENAME TO "font_new""#
);
let table = Table::truncate().table(Font::Table).to_owned();
assert_eq!(
table.to_string(MysqlQueryBuilder),
r#"TRUNCATE TABLE `font`"#
);
assert_eq!(
table.to_string(PostgresQueryBuilder),
r#"TRUNCATE TABLE "font""#
);
assert_eq!(
table.to_string(SqliteQueryBuilder),
r#"TRUNCATE TABLE "font""#
);
let foreign_key = ForeignKey::create()
.name("FK_character_font")
.from(Char::Table, Char::FontId)
.to(Font::Table, Font::Id)
.on_delete(ForeignKeyAction::Cascade)
.on_update(ForeignKeyAction::Cascade)
.to_owned();
assert_eq!(
foreign_key.to_string(MysqlQueryBuilder),
[
r#"ALTER TABLE `character`"#,
r#"ADD CONSTRAINT `FK_character_font`"#,
r#"FOREIGN KEY (`font_id`) REFERENCES `font` (`id`)"#,
r#"ON DELETE CASCADE ON UPDATE CASCADE"#,
]
.join(" ")
);
assert_eq!(
foreign_key.to_string(PostgresQueryBuilder),
[
r#"ALTER TABLE "character" ADD CONSTRAINT "FK_character_font""#,
r#"FOREIGN KEY ("font_id") REFERENCES "font" ("id")"#,
r#"ON DELETE CASCADE ON UPDATE CASCADE"#,
]
.join(" ")
);
// Sqlite does not support modification of foreign key constraints to existing tables
let foreign_key = ForeignKey::drop()
.name("FK_character_font")
.table(Char::Table)
.to_owned();
assert_eq!(
foreign_key.to_string(MysqlQueryBuilder),
r#"ALTER TABLE `character` DROP FOREIGN KEY `FK_character_font`"#
);
assert_eq!(
foreign_key.to_string(PostgresQueryBuilder),
r#"ALTER TABLE "character" DROP CONSTRAINT "FK_character_font""#
);
// Sqlite does not support modification of foreign key constraints to existing tables
let index = Index::create()
.name("idx-glyph-aspect")
.table(Glyph::Table)
.col(Glyph::Aspect)
.to_owned();
assert_eq!(
index.to_string(MysqlQueryBuilder),
r#"CREATE INDEX `idx-glyph-aspect` ON `glyph` (`aspect`)"#
);
assert_eq!(
index.to_string(PostgresQueryBuilder),
r#"CREATE INDEX "idx-glyph-aspect" ON "glyph" ("aspect")"#
);
assert_eq!(
index.to_string(SqliteQueryBuilder),
r#"CREATE INDEX "idx-glyph-aspect" ON "glyph" ("aspect")"#
);
let index = Index::drop()
.name("idx-glyph-aspect")
.table(Glyph::Table)
.to_owned();
assert_eq!(
index.to_string(MysqlQueryBuilder),
r#"DROP INDEX `idx-glyph-aspect` ON `glyph`"#
);
assert_eq!(
index.to_string(PostgresQueryBuilder),
r#"DROP INDEX "idx-glyph-aspect""#
);
assert_eq!(
index.to_string(SqliteQueryBuilder),
r#"DROP INDEX "idx-glyph-aspect""#
);
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
SeaQuery is a community driven project. We welcome you to participate, contribute and together build for Rust's future.
A big shout out to our contributors: