{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE RankNTypes #-} -- | The @esqueleto@ EDSL (embedded domain specific language). -- This module replaces @Database.Persist@, so instead of -- importing that module you should just import this one: -- -- @ -- -- For a module using just esqueleto. -- import Database.Esqueleto -- @ -- -- If you need to use @persistent@'s default support for queries -- as well, either import it qualified: -- -- @ -- -- For a module that mostly uses esqueleto. -- import Database.Esqueleto -- import qualified Database.Persist as P -- @ -- -- or import @esqueleto@ itself qualified: -- -- @ -- -- For a module that uses esqueleto just on some queries. -- import Database.Persist -- import qualified Database.Esqueleto as E -- @ -- -- Other than identifier name clashes, @esqueleto@ does not -- conflict with @persistent@ in any way. -- -- Note that the facilities for @JOIN@ have been significantly improved in the -- "Database.Esqueleto.Experimental" module. The definition of 'from' and 'on' -- in this module will be replaced with those at the 4.0.0.0 version, so you are -- encouraged to migrate to the new method. -- -- This module has an attached WARNING message indicating that the Experimental -- syntax will become the default. If you want to continue using the old syntax, -- please refer to "Database.Esqueleto.Legacy" as a drop-in replacement. module Database.Esqueleto {-# WARNING "This module will switch over to the Experimental syntax in an upcoming major version release. Please migrate to the Database.Esqueleto.Legacy module to continue using the old syntax, or translate to the new and improved syntax in Database.Esqueleto.Experimental." #-} ( -- * Setup -- $setup -- * Introduction -- $introduction -- * Getting started -- $gettingstarted -- * @esqueleto@'s Language where_, on, groupBy, orderBy, rand, asc, desc, limit, offset , distinct, distinctOn, don, distinctOnOrderBy, having, locking , sub_select, (^.), (?.) , val, isNothing, just, nothing, joinV, withNonNull , countRows, count, countDistinct , not_, (==.), (>=.), (>.), (<=.), (<.), (!=.), (&&.), (||.) , between, (+.), (-.), (/.), (*.) , random_, round_, ceiling_, floor_ , min_, max_, sum_, avg_, castNum, castNumM , coalesce, coalesceDefault , lower_, upper_, trim_, ltrim_, rtrim_, length_, left_, right_ , like, ilike, (%), concat_, (++.), castString , subList_select, valList, justList , in_, notIn, exists, notExists , set, (=.), (+=.), (-=.), (*=.), (/=.) , case_, toBaseId , subSelect , subSelectMaybe , subSelectCount , subSelectForeign , subSelectList , subSelectUnsafe , ToBaseId(..) , when_ , then_ , else_ , from , Value(..) , ValueList(..) , OrderBy , DistinctOn , LockingKind(..) , LockableEntity(..) , SqlString -- ** Joins , InnerJoin(..) , CrossJoin(..) , LeftOuterJoin(..) , RightOuterJoin(..) , FullOuterJoin(..) , JoinKind(..) , OnClauseWithoutMatchingJoinException(..) -- * SQL backend , SqlQuery , SqlExpr , SqlEntity , select , selectOne , selectSource , delete , deleteCount , update , updateCount , insertSelect , insertSelectCount , (<#) , (<&>) -- ** Rendering Queries , renderQueryToText , renderQuerySelect , renderQueryUpdate , renderQueryDelete , renderQueryInsertInto -- * Internal.Language , From -- * RDBMS-specific modules -- $rdbmsSpecificModules -- * Helpers , valkey , valJ , associateJoin -- * Re-exports -- $reexports , deleteKey , module Database.Esqueleto.Internal.PersistentImport ) where import Database.Esqueleto.Legacy import Database.Esqueleto.Internal.PersistentImport -- $setup -- -- If you're already using @persistent@, then you're ready to use -- @esqueleto@, no further setup is needed. If you're just -- starting a new project and would like to use @esqueleto@, take -- a look at @persistent@'s book first -- (<http://www.yesodweb.com/book/persistent>) to learn how to -- define your schema. ---------------------------------------------------------------------- -- $introduction -- -- The main goals of @esqueleto@ are to: -- -- * Be easily translatable to SQL. When you take a look at a -- @esqueleto@ query, you should be able to know exactly how -- the SQL query will end up. (As opposed to being a -- relational algebra EDSL such as HaskellDB, which is -- non-trivial to translate into SQL.) -- -- * Support the most widely used SQL features. We'd like you to be -- able to use @esqueleto@ for all of your queries, no -- exceptions. Send a pull request or open an issue on our -- project page (<https://github.com/prowdsponsor/esqueleto>) if -- there's anything missing that you'd like to see. -- -- * Be as type-safe as possible. We strive to provide as many -- type checks as possible. If you get bitten by some invalid -- code that type-checks, please open an issue on our project -- page so we can take a look. -- -- However, it is /not/ a goal to be able to write portable SQL. -- We do not try to hide the differences between DBMSs from you, -- and @esqueleto@ code that works for one database may not work -- on another. This is a compromise we have to make in order to -- give you as much control over the raw SQL as possible without -- losing too much convenience. This also means that you may -- type-check a query that doesn't work on your DBMS. ---------------------------------------------------------------------- -- $gettingstarted -- -- We like clean, easy-to-read EDSLs. However, in order to -- achieve this goal we've used a lot of type hackery, leading to -- some hard-to-read type signatures. On this section, we'll try -- to build some intuition about the syntax. -- -- For the following examples, we'll use this example schema: -- -- @ -- share [mkPersist sqlSettings, mkMigrate \"migrateAll\"] [persist| -- Person -- name String -- age Int Maybe -- deriving Eq Show -- BlogPost -- title String -- authorId PersonId -- deriving Eq Show -- Follow -- follower PersonId -- followed PersonId -- deriving Eq Show -- |] -- @ -- -- Most of @esqueleto@ was created with @SELECT@ statements in -- mind, not only because they're the most common but also -- because they're the most complex kind of statement. The most -- simple kind of @SELECT@ would be: -- -- @ -- SELECT * -- FROM Person -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- do people <- 'select' $ -- 'from' $ \\person -> do -- return person -- liftIO $ mapM_ (putStrLn . personName . entityVal) people -- @ -- -- The expression above has type @SqlPersist m ()@, while -- @people@ has type @[Entity Person]@. The query above will be -- translated into exactly the same query we wrote manually, but -- instead of @SELECT *@ it will list all entity fields (using -- @*@ is not robust). Note that @esqueleto@ knows that we want -- an @Entity Person@ just because of the @personName@ that we're -- printing later. -- -- However, most of the time we need to filter our queries using -- @WHERE@. For example: -- -- @ -- SELECT * -- FROM Person -- WHERE Person.name = \"John\" -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'select' $ -- 'from' $ \\p -> do -- 'where_' (p '^.' PersonName '==.' 'val' \"John\") -- return p -- @ -- -- Although @esqueleto@'s code is a bit more noisy, it's has -- almost the same structure (save from the @return@). The -- @('^.')@ operator is used to project a field from an entity. -- The field name is the same one generated by @persistent@'s -- Template Haskell functions. We use 'val' to lift a constant -- Haskell value into the SQL query. -- -- Another example would be: -- -- @ -- SELECT * -- FROM Person -- WHERE Person.age >= 18 -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'select' $ -- 'from' $ \\p -> do -- 'where_' (p '^.' PersonAge '>=.' 'just' ('val' 18)) -- return p -- @ -- -- Since @age@ is an optional @Person@ field, we use 'just' to lift -- @'val' 18 :: SqlExpr (Value Int)@ into @just ('val' 18) :: -- SqlExpr (Value (Maybe Int))@. -- -- Implicit joins are represented by tuples. For example, to get -- the list of all blog posts and their authors, we could write: -- -- @ -- SELECT BlogPost.*, Person.* -- FROM BlogPost, Person -- WHERE BlogPost.authorId = Person.id -- ORDER BY BlogPost.title ASC -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'select' $ -- 'from' $ \\(b, p) -> do -- 'where_' (b '^.' BlogPostAuthorId '==.' p '^.' PersonId) -- 'orderBy' ['asc' (b '^.' BlogPostTitle)] -- return (b, p) -- @ -- -- However, you may want your results to include people who don't -- have any blog posts as well using a @LEFT OUTER JOIN@: -- -- @ -- SELECT Person.*, BlogPost.* -- FROM Person LEFT OUTER JOIN BlogPost -- ON Person.id = BlogPost.authorId -- ORDER BY Person.name ASC, BlogPost.title ASC -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'select' $ -- 'from' $ \\(p `'LeftOuterJoin`` mb) -> do -- 'on' ('just' (p '^.' PersonId) '==.' mb '?.' BlogPostAuthorId) -- 'orderBy' ['asc' (p '^.' PersonName), 'asc' (mb '?.' BlogPostTitle)] -- return (p, mb) -- @ -- -- On a @LEFT OUTER JOIN@ the entity on the right hand side may -- not exist (i.e. there may be a @Person@ without any -- @BlogPost@s), so while @p :: SqlExpr (Entity Person)@, we have -- @mb :: SqlExpr (Maybe (Entity BlogPost))@. The whole -- expression above has type @SqlPersist m [(Entity Person, Maybe -- (Entity BlogPost))]@. Instead of using @(^.)@, we used -- @('?.')@ to project a field from a @Maybe (Entity a)@. -- -- We are by no means limited to joins of two tables, nor by -- joins of different tables. For example, we may want a list -- of the @Follow@ entity: -- -- @ -- SELECT P1.*, Follow.*, P2.* -- FROM Person AS P1 -- INNER JOIN Follow ON P1.id = Follow.follower -- INNER JOIN Person AS P2 ON P2.id = Follow.followed -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'select' $ -- 'from' $ \\(p1 `'InnerJoin`` f `'InnerJoin`` p2) -> do -- 'on' (p1 '^.' PersonId '==.' f '^.' FollowFollower) -- 'on' (p2 '^.' PersonId '==.' f '^.' FollowFollowed) -- return (p1, f, p2) -- @ -- -- We also currently support @UPDATE@ and @DELETE@ statements. -- For example: -- -- @ -- do 'update' $ \\p -> do -- 'set' p [ PersonName '=.' 'val' \"João\" ] -- 'where_' (p '^.' PersonName '==.' 'val' \"Joao\") -- 'delete' $ -- 'from' $ \\p -> do -- 'where_' (p '^.' PersonAge '<.' 'just' ('val' 14)) -- @ -- -- The results of queries can also be used for insertions. -- In @SQL@, we might write the following, inserting a new blog -- post for every user: -- -- @ -- INSERT INTO BlogPost -- SELECT ('Group Blog Post', id) -- FROM Person -- @ -- -- In @esqueleto@, we may write the same query above as: -- -- @ -- 'insertSelect' $ 'from' $ \\p-> -- return $ BlogPost '<#' \"Group Blog Post\" '<&>' (p '^.' PersonId) -- @ -- -- Individual insertions can be performed through Persistent's -- 'insert' function, reexported for convenience. ---------------------------------------------------------------------- -- $reexports -- -- We re-export many symbols from @persistent@ for convenince: -- -- * \"Store functions\" from "Database.Persist". -- -- * Everything from "Database.Persist.Class" except for -- @PersistQuery@ and @delete@ (use 'deleteKey' instead). -- -- * Everything from "Database.Persist.Types" except for -- @Update@, @SelectOpt@, @BackendSpecificFilter@ and @Filter@. -- -- * Everything from "Database.Persist.Sql" except for -- @deleteWhereCount@ and @updateWhereCount@. ---------------------------------------------------------------------- -- $rdbmsSpecificModules -- -- There are many differences between SQL syntax and functions -- supported by different RDBMSs. Since version 2.2.8, -- @esqueleto@ includes modules containing functions that are -- specific to a given RDBMS. -- -- * PostgreSQL: "Database.Esqueleto.PostgreSQL". -- -- In order to use these functions, you need to explicitly import -- their corresponding modules, they're not re-exported here.