{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
-- |
-- Module : Database.Record.TH
-- Copyright : 2013 Kei Hibino
-- License : BSD3
--
-- Maintainer : ex8k.hibino@gmail.com
-- Stability : experimental
-- Portability : unknown
--
-- This module defines templates for Haskell record type and
-- type class instances to map between list of untyped SQL type and Haskell record type.
module Database.Record.TH (
-- * Generate all templates about record
defineRecord,
defineRecordDefault,
-- * Deriving class symbols
derivingEq, derivingShow, derivingRead, derivingData, derivingTypeable,
-- * Table constraint specified by key
defineHasColumnConstraintInstance,
defineHasPrimaryConstraintInstanceDerived,
defineHasNotNullKeyInstance,
defineHasPrimaryKeyInstance,
defineHasPrimaryKeyInstanceDefault,
defineHasNotNullKeyInstanceDefault,
-- * Record type
defineRecordType, defineRecordTypeDefault,
-- * Function declarations depending on SQL type
makeRecordPersistableWithSqlType,
makeRecordPersistableWithSqlTypeDefault,
-- * Function declarations against defined record types
makeRecordPersistableWithSqlTypeFromDefined,
makeRecordPersistableWithSqlTypeDefaultFromDefined,
defineColumnOffsets,
recordWidthTemplate,
defineRecordParser,
defineRecordPrinter,
definePersistableInstance,
-- * Reify
reifyRecordType,
-- * Templates about record type name
recordTypeNameDefault, recordTypeDefault,
columnOffsetsVarNameDefault,
persistableFunctionNamesDefault,
-- * Not nullable single column type
deriveNotNullType
) where
import Control.Applicative (pure, (<*>))
import Data.List (foldl')
import Data.Array (Array, listArray, (!))
import Language.Haskell.TH.Name.CamelCase
(ConName(conName), VarName(varName),
conCamelcaseName, varCamelcaseName, varNameWithPrefix,
toTypeCon, toDataCon, toVarExp)
import Language.Haskell.TH.Lib.Extra (integralE, simpleValD)
import Language.Haskell.TH
(Q, newName, nameBase, reify, Info(TyConI), Name,
TypeQ, conT, Con (NormalC, RecC),
Dec(DataD), dataD, sigD, valD,
ExpQ, Exp(ConE), conE, varE, lamE, listE, sigE,
varP, conP, normalB, recC,
cxt, varStrictType, strictType, isStrict)
import Database.Record
(HasColumnConstraint(columnConstraint), Primary, NotNull,
HasKeyConstraint(keyConstraint), derivedCompositePrimary,
PersistableRecordWidth, PersistableWidth(persistableWidth),
FromSql(recordFromSql), RecordFromSql,
ToSql(recordToSql), RecordToSql, wrapToSql, putRecord, putEmpty)
import Database.Record.KeyConstraint
(unsafeSpecifyColumnConstraint, unsafeSpecifyNotNullValue, unsafeSpecifyKeyConstraint)
import Database.Record.Persistable (unsafePersistableRecordWidth, runPersistableRecordWidth)
import qualified Database.Record.Persistable as Persistable
-- | Generate default name of record type constructor from SQL table name 'String'
recordTypeNameDefault :: String -- ^ Table name in SQL
-> ConName -- ^ Result name
recordTypeNameDefault = conCamelcaseName
-- | Record type constructor template from SQL table name 'String'.
-- Type name is generated by 'recordTypeNameDefault'.
recordTypeDefault :: String -- ^ Table name in SQL
-> TypeQ -- ^ Result type template
recordTypeDefault = toTypeCon . recordTypeNameDefault
-- | Variable expression of record column offset array.
columnOffsetsVarNameDefault :: Name -- ^ Table type name
-> VarName -- ^ Result expression variable name
columnOffsetsVarNameDefault = (`varNameWithPrefix` "columnOffsets") . nameBase
-- | Template of 'HasColumnConstraint' instance.
defineHasColumnConstraintInstance :: TypeQ -- ^ Type which represent constraint type
-> TypeQ -- ^ Type constructor of record
-> Int -- ^ Key index which specifies this constraint
-> Q [Dec] -- ^ Result declaration template
defineHasColumnConstraintInstance constraint typeCon index =
[d| instance HasColumnConstraint $constraint $typeCon where
columnConstraint = unsafeSpecifyColumnConstraint $(integralE index) |]
-- | Template of 'HasKeyConstraint' instance.
defineHasPrimaryConstraintInstanceDerived ::TypeQ -- ^ Type constructor of record
-> Q [Dec] -- ^ Result declaration template
defineHasPrimaryConstraintInstanceDerived typeCon =
[d| instance HasKeyConstraint Primary $typeCon where
keyConstraint = derivedCompositePrimary |]
-- | Template of 'HasColumnConstraint' 'Primary' instance.
defineHasPrimaryKeyInstance :: TypeQ -- ^ Type constructor of record
-> [Int] -- ^ Key index which specifies this constraint
-> Q [Dec] -- ^ Declaration of primary key constraint instance
defineHasPrimaryKeyInstance typeCon = d where
d [] = return []
d [ix] = do
col <- defineHasColumnConstraintInstance [t| Primary |] typeCon ix
comp <- defineHasPrimaryConstraintInstanceDerived typeCon
return $ col ++ comp
d ixs =
[d| instance HasKeyConstraint Primary $typeCon where
keyConstraint = unsafeSpecifyKeyConstraint
$(listE [integralE ix | ix <- ixs ])
|]
-- | Template of 'HasColumnConstraint' 'NotNull' instance.
defineHasNotNullKeyInstance :: TypeQ -- ^ Type constructor of record
-> Int -- ^ Key index which specifies this constraint
-> Q [Dec] -- ^ Declaration of not null key constraint instance
defineHasNotNullKeyInstance =
defineHasColumnConstraintInstance [t| NotNull |]
-- | Template of 'HasColumnConstraint' 'Primary' instance
-- from SQL table name 'String' and key index.
defineHasPrimaryKeyInstanceDefault :: String -- ^ Table name
-> [Int] -- ^ Key index which specifies this constraint
-> Q [Dec] -- ^ Declaration of primary key constraint instance
defineHasPrimaryKeyInstanceDefault =
defineHasPrimaryKeyInstance . recordTypeDefault
-- | Template of 'HasColumnConstraint' 'NotNull' instance
-- from SQL table name 'String' and key index.
defineHasNotNullKeyInstanceDefault :: String -- ^ Table name
-> Int -- ^ Key index which specifies this constraint
-> Q [Dec] -- ^ Declaration of not null key constraint instance
defineHasNotNullKeyInstanceDefault =
defineHasNotNullKeyInstance . recordTypeDefault
-- | Name to specify deriving 'Eq'
derivingEq :: ConName
derivingEq = conCamelcaseName "Eq"
-- | Name to specify deriving 'Show'
derivingShow :: ConName
derivingShow = conCamelcaseName "Show"
-- | Name to specify deriving 'Read'
derivingRead :: ConName
derivingRead = conCamelcaseName "Read"
-- | Name to specify deriving 'Data'
derivingData :: ConName
derivingData = conCamelcaseName "Data"
-- | Name to specify deriving 'Typeable'
derivingTypeable :: ConName
derivingTypeable = conCamelcaseName "Typeable"
-- | Record type width expression template.
recordWidthTemplate :: TypeQ -- ^ Record type constructor.
-> ExpQ -- ^ Expression to get record width.
recordWidthTemplate ty =
[| runPersistableRecordWidth
$(sigE [| persistableWidth |] [t| PersistableRecordWidth $(ty) |])
|]
-- | Column offset array and 'PersistableWidth' instance declaration.
defineColumnOffsets :: ConName -- ^ Record type constructor.
-> [TypeQ] -- ^ Types of record columns.
-> Q [Dec] -- ^ Declaration of 'PersistableWidth' instance.
defineColumnOffsets typeName' tys = do
let ofsVar = columnOffsetsVarNameDefault $ conName typeName'
widthIxE = integralE $ length tys
ar <- simpleValD (varName ofsVar) [t| Array Int Int |]
[| listArray (0 :: Int, $widthIxE) $
scanl (+) (0 :: Int) $(listE $ map recordWidthTemplate tys) |]
pw <- [d| instance PersistableWidth $(toTypeCon typeName') where
persistableWidth = unsafePersistableRecordWidth $ $(toVarExp ofsVar) ! $widthIxE
|]
return $ ar ++ pw
-- | Record type declaration template.
defineRecordType :: ConName -- ^ Name of the data type of table record type.
-> [(VarName, TypeQ)] -- ^ List of columns in the table. Must be legal, properly cased record columns.
-> [ConName] -- ^ Deriving type class names.
-> Q [Dec] -- ^ The data type record declaration.
defineRecordType typeName' columns derives = do
let typeName = conName typeName'
fld (n, tq) = varStrictType (varName n) (strictType isStrict tq)
rec <- dataD (cxt []) typeName [] [recC typeName (map fld columns)] (map conName derives)
offs <- defineColumnOffsets typeName' [ty | (_, ty) <- columns]
return $ rec : offs
-- | Generate column name from 'String'.
columnDefault :: String -> TypeQ -> (VarName, TypeQ)
columnDefault n t = (varCamelcaseName n, t)
-- | Record type declaration template from SQL table name 'String'
-- and column name 'String' - type pairs, derivings.
defineRecordTypeDefault :: String -> [(String, TypeQ)] -> [ConName] -> Q [Dec]
defineRecordTypeDefault table columns =
defineRecordType
(recordTypeNameDefault table)
[ columnDefault n t | (n, t) <- columns ]
-- | Record parser template.
defineRecordParser :: TypeQ -- ^ SQL value type.
-> VarName -- ^ Name of record parser.
-> (TypeQ, ExpQ) -- ^ Record type constructor and data constructor.
-> Int -- ^ Count of record columns.
-> Q [Dec] -- ^ Declaration of record construct function from SQL values.
defineRecordParser sqlValType name' (tyCon, dataCon) width = do
let name = varName name'
sig <- sigD name [t| RecordFromSql $sqlValType $tyCon |]
var <- valD (varP name)
(normalB
(foldl' (\a x -> [| $a <*> $x |]) [| pure $dataCon |]
$ replicate width [| recordFromSql |])
)
[]
return [sig, var]
dataConInfo :: Exp -> Q Name
dataConInfo = d where
d (ConE n) = return n
d e = fail $ "Not record data constructor: " ++ show e
-- | Record printer template.
defineRecordPrinter :: TypeQ -- ^ SQL value type.
-> VarName -- ^ Name of record printer.
-> (TypeQ, ExpQ) -- ^ Record type constructor and data constructor.
-> Int -- ^ Count of record columns.
-> Q [Dec] -- ^ Declaration of record construct function from SQL values.
defineRecordPrinter sqlValType name' (tyCon, dataCon) width = do
let name = varName name'
sig <- sigD name [t| RecordToSql $sqlValType $tyCon |]
names <- mapM (newName . ('f':) . show) [1 .. width]
dcn <- dataCon >>= dataConInfo
var <- valD (varP name)
(normalB [| wrapToSql
$(lamE
[ conP dcn [ varP n | n <- names ] ]
(foldr (\a x -> [| $a >> $x |]) [| putEmpty () |]
[ [| putRecord $(varE n) |] | n <- names ])) |])
[]
return [sig, var]
-- | Record parser and printer instance templates for converting
-- between list of SQL type and Haskell record type.
definePersistableInstance :: TypeQ -- ^ SQL value type.
-> TypeQ -- ^ Record type constructor.
-> VarName -- ^ Record parser name.
-> VarName -- ^ Record printer name.
-> Int -- ^ Count of record columns.
-> Q [Dec] -- ^ Instance declarations for 'Persistable'.
definePersistableInstance sqlType typeCon parserName printerName _width = do
[d| instance FromSql $sqlType $typeCon where
recordFromSql = $(toVarExp parserName)
instance ToSql $sqlType $typeCon where
recordToSql = $(toVarExp printerName)
|]
-- | All templates depending on SQL value type.
makeRecordPersistableWithSqlType :: TypeQ -- ^ SQL value type.
-> (VarName, VarName) -- ^ Constructor function name and decompose function name.
-> (TypeQ, ExpQ) -- ^ Record type constructor and data constructor.
-> Int -- ^ Count of record columns.
-> Q [Dec] -- ^ Result declarations.
makeRecordPersistableWithSqlType
sqlValueType
(cF, dF) conPair@(tyCon, _)
width = do
fromSQL <- defineRecordParser sqlValueType cF conPair width
toSQL <- defineRecordPrinter sqlValueType dF conPair width
instSQL <- definePersistableInstance sqlValueType tyCon cF dF width
return $ fromSQL ++ toSQL ++ instSQL
-- | Default name of record construction function from SQL table name.
fromSqlNameDefault :: String -> VarName
fromSqlNameDefault = (`varNameWithPrefix` "fromSqlOf")
-- | Default name of record decomposition function from SQL table name.
toSqlNameDefault :: String -> VarName
toSqlNameDefault = (`varNameWithPrefix` "toSqlOf")
-- | All templates depending on SQL value type with default names.
makeRecordPersistableWithSqlTypeDefault :: TypeQ -- ^ SQL value type
-> String -- ^ Table name of database
-> Int -- ^ Count of record columns
-> Q [Dec] -- ^ Result declarations
makeRecordPersistableWithSqlTypeDefault sqlValueType table width = do
makeRecordPersistableWithSqlType
sqlValueType
(persistableFunctionNamesDefault . conName . conCamelcaseName $ table)
(recordTypeDefault table, toDataCon . recordTypeNameDefault $ table)
width
recordInfo' :: Info -> Maybe ((TypeQ, ExpQ), (Maybe [Name], [TypeQ]))
recordInfo' = d where
d (TyConI (DataD _cxt tcn _bs [r] _ds)) = case r of
NormalC dcn ts -> Just ((conT tcn, conE dcn), (Nothing, [return t | (_, t) <- ts]))
RecC dcn vts -> Just ((conT tcn, conE dcn), (Just ns, ts))
where (ns, ts) = unzip [(n, return t) | (n, _, t) <- vts]
_ -> Nothing
d _ = Nothing
-- | Low-level reify interface for record type name.
reifyRecordType :: Name -> Q ((TypeQ, ExpQ), (Maybe [Name], [TypeQ]))
reifyRecordType recTypeName = do
tyConInfo <- reify recTypeName
maybe
(fail $ "Defined record type constructor not found: " ++ show recTypeName)
return
(recordInfo' tyConInfo)
-- | Generate persistable function symbol names using default rule.
persistableFunctionNamesDefault :: Name -> (VarName, VarName)
persistableFunctionNamesDefault recTypeName = (fromSqlNameDefault bn, toSqlNameDefault bn) where
bn = nameBase recTypeName
-- | All templates depending on SQL value type. Defined record type information is used.
makeRecordPersistableWithSqlTypeFromDefined :: TypeQ -- ^ SQL value type
-> (VarName, VarName) -- ^ Constructor function name and decompose function name
-> Name -- ^ Record type constructor name
-> Q [Dec] -- ^ Result declarations
makeRecordPersistableWithSqlTypeFromDefined sqlValueType fnames recTypeName = do
(conPair, (_, cts)) <- reifyRecordType recTypeName
makeRecordPersistableWithSqlType sqlValueType fnames conPair $ length cts
-- | All templates depending on SQL value type with default names. Defined record type information is used.
makeRecordPersistableWithSqlTypeDefaultFromDefined :: TypeQ -- ^ SQL value type
-> Name -- ^ Record type constructor name
-> Q [Dec] -- ^ Result declarations
makeRecordPersistableWithSqlTypeDefaultFromDefined sqlValueType recTypeName =
makeRecordPersistableWithSqlTypeFromDefined sqlValueType (persistableFunctionNamesDefault recTypeName) recTypeName
-- | All templates for record type.
defineRecord :: TypeQ -- ^ SQL value type
-> (VarName, VarName) -- ^ Constructor function name and decompose function name
-> ConName -- ^ Record type name
-> [(VarName, TypeQ)] -- ^ Column schema
-> [ConName] -- ^ Record derivings
-> Q [Dec] -- ^ Result declarations
defineRecord
sqlValueType
fnames tyC
columns drvs = do
typ <- defineRecordType tyC columns drvs
withSql <- makeRecordPersistableWithSqlType sqlValueType fnames (toTypeCon tyC, toDataCon tyC) $ length columns
return $ typ ++ withSql
-- | All templates for record type with default names.
defineRecordDefault :: TypeQ -- ^ SQL value type
-> String -- ^ Table name
-> [(String, TypeQ)] -- ^ Column names and types
-> [ConName] -- ^ Record derivings
-> Q [Dec] -- ^ Result declarations
defineRecordDefault sqlValueType table columns derives = do
typ <- defineRecordTypeDefault table columns derives
withSql <- makeRecordPersistableWithSqlTypeDefault sqlValueType table $ length columns
return $ typ ++ withSql
-- | Templates for single column value type.
deriveNotNullType :: TypeQ -> Q [Dec]
deriveNotNullType typeCon =
[d| instance PersistableWidth $typeCon where
persistableWidth = Persistable.unsafeValueWidth
instance HasColumnConstraint NotNull $typeCon where
columnConstraint = unsafeSpecifyNotNullValue
|]