{-# LINE 1 "Database/SQLite3/Bindings/Types.hsc" #-}
{-# LANGUAGE EmptyDataDecls #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
module Database.SQLite3.Bindings.Types (
CDatabase,
CStatement,
CValue,
CContext,
CBlob,
CBackup,
CError(..),
decodeError,
encodeError,
Error(..),
CColumnType(..),
decodeColumnType,
encodeColumnType,
ColumnType(..),
ParamIndex(..),
ColumnIndex(..),
ColumnCount,
CParamIndex(..),
CColumnIndex(..),
CColumnCount,
CNumBytes(..),
CDestructor,
c_SQLITE_STATIC,
c_SQLITE_TRANSIENT,
c_SQLITE_UTF8,
ArgCount(..),
ArgIndex,
CArgCount(..),
c_SQLITE_DETERMINISTIC,
FFIType(..),
) where
{-# LINE 59 "Database/SQLite3/Bindings/Types.hsc" #-}
{-# LINE 61 "Database/SQLite3/Bindings/Types.hsc" #-}
import Foreign.C.Types
import Foreign.Ptr
data Error = ErrorOK
| ErrorError
| ErrorInternal
| ErrorPermission
| ErrorAbort
| ErrorBusy
| ErrorLocked
| ErrorNoMemory
| ErrorReadOnly
| ErrorInterrupt
| ErrorIO
| ErrorCorrupt
| ErrorNotFound
| ErrorFull
| ErrorCan'tOpen
| ErrorProtocol
| ErrorEmpty
| ErrorSchema
| ErrorTooBig
| ErrorConstraint
| ErrorMismatch
| ErrorMisuse
| ErrorNoLargeFileSupport
| ErrorAuthorization
| ErrorFormat
| ErrorRange
| ErrorNotADatabase
| ErrorNotice
| ErrorWarning
| ErrorRow
| ErrorDone
deriving (Error -> Error -> Bool
(Error -> Error -> Bool) -> (Error -> Error -> Bool) -> Eq Error
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: Error -> Error -> Bool
$c/= :: Error -> Error -> Bool
== :: Error -> Error -> Bool
$c== :: Error -> Error -> Bool
Eq, Int -> Error -> ShowS
[Error] -> ShowS
Error -> String
(Int -> Error -> ShowS)
-> (Error -> String) -> ([Error] -> ShowS) -> Show Error
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [Error] -> ShowS
$cshowList :: [Error] -> ShowS
show :: Error -> String
$cshow :: Error -> String
showsPrec :: Int -> Error -> ShowS
$cshowsPrec :: Int -> Error -> ShowS
Show)
data ColumnType = IntegerColumn
| FloatColumn
| TextColumn
| BlobColumn
| NullColumn
deriving (ColumnType -> ColumnType -> Bool
(ColumnType -> ColumnType -> Bool)
-> (ColumnType -> ColumnType -> Bool) -> Eq ColumnType
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: ColumnType -> ColumnType -> Bool
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[ColumnType] -> ShowS
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-> ([ColumnType] -> ShowS)
-> Show ColumnType
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showList :: [ColumnType] -> ShowS
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show :: ColumnType -> String
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showsPrec :: Int -> ColumnType -> ShowS
$cshowsPrec :: Int -> ColumnType -> ShowS
Show)
data CDatabase
data CStatement
data CValue
data CContext
data CBlob
data CBackup
newtype ParamIndex = ParamIndex Int
deriving (ParamIndex -> ParamIndex -> Bool
(ParamIndex -> ParamIndex -> Bool)
-> (ParamIndex -> ParamIndex -> Bool) -> Eq ParamIndex
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: ParamIndex -> ParamIndex -> Bool
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Eq, Eq ParamIndex
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min :: ParamIndex -> ParamIndex -> ParamIndex
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max :: ParamIndex -> ParamIndex -> ParamIndex
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enumFromThenTo :: ParamIndex -> ParamIndex -> ParamIndex -> [ParamIndex]
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enumFromTo :: ParamIndex -> ParamIndex -> [ParamIndex]
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enumFromThen :: ParamIndex -> ParamIndex -> [ParamIndex]
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enumFrom :: ParamIndex -> [ParamIndex]
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fromEnum :: ParamIndex -> Int
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signum :: ParamIndex -> ParamIndex
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forall a. (Num a, Ord a) => (a -> Rational) -> Real a
toRational :: ParamIndex -> Rational
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-> (ParamIndex -> Integer)
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ParamIndex -> Integer
ParamIndex -> ParamIndex -> (ParamIndex, ParamIndex)
ParamIndex -> ParamIndex -> ParamIndex
forall a.
(Real a, Enum a) =>
(a -> a -> a)
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toInteger :: ParamIndex -> Integer
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divMod :: ParamIndex -> ParamIndex -> (ParamIndex, ParamIndex)
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quotRem :: ParamIndex -> ParamIndex -> (ParamIndex, ParamIndex)
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mod :: ParamIndex -> ParamIndex -> ParamIndex
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div :: ParamIndex -> ParamIndex -> ParamIndex
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$cp2Integral :: Enum ParamIndex
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Integral)
instance Show ParamIndex where
show :: ParamIndex -> String
show (ParamIndex n :: Int
n) = Int -> String
forall a. Show a => a -> String
show Int
n
instance Bounded ParamIndex where
minBound :: ParamIndex
minBound = Int -> ParamIndex
ParamIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (CInt
forall a. Bounded a => a
minBound :: CInt))
maxBound :: ParamIndex
maxBound = Int -> ParamIndex
ParamIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (CInt
forall a. Bounded a => a
maxBound :: CInt))
newtype ColumnIndex = ColumnIndex Int
deriving (ColumnIndex -> ColumnIndex -> Bool
(ColumnIndex -> ColumnIndex -> Bool)
-> (ColumnIndex -> ColumnIndex -> Bool) -> Eq ColumnIndex
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signum :: ColumnIndex -> ColumnIndex
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abs :: ColumnIndex -> ColumnIndex
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negate :: ColumnIndex -> ColumnIndex
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toRational :: ColumnIndex -> Rational
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-> (ColumnIndex -> ColumnIndex -> (ColumnIndex, ColumnIndex))
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ColumnIndex -> ColumnIndex -> ColumnIndex
forall a.
(Real a, Enum a) =>
(a -> a -> a)
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toInteger :: ColumnIndex -> Integer
$ctoInteger :: ColumnIndex -> Integer
divMod :: ColumnIndex -> ColumnIndex -> (ColumnIndex, ColumnIndex)
$cdivMod :: ColumnIndex -> ColumnIndex -> (ColumnIndex, ColumnIndex)
quotRem :: ColumnIndex -> ColumnIndex -> (ColumnIndex, ColumnIndex)
$cquotRem :: ColumnIndex -> ColumnIndex -> (ColumnIndex, ColumnIndex)
mod :: ColumnIndex -> ColumnIndex -> ColumnIndex
$cmod :: ColumnIndex -> ColumnIndex -> ColumnIndex
div :: ColumnIndex -> ColumnIndex -> ColumnIndex
$cdiv :: ColumnIndex -> ColumnIndex -> ColumnIndex
rem :: ColumnIndex -> ColumnIndex -> ColumnIndex
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quot :: ColumnIndex -> ColumnIndex -> ColumnIndex
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$cp2Integral :: Enum ColumnIndex
$cp1Integral :: Real ColumnIndex
Integral)
instance Show ColumnIndex where
show :: ColumnIndex -> String
show (ColumnIndex n :: Int
n) = Int -> String
forall a. Show a => a -> String
show Int
n
instance Bounded ColumnIndex where
minBound :: ColumnIndex
minBound = Int -> ColumnIndex
ColumnIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (CInt
forall a. Bounded a => a
minBound :: CInt))
maxBound :: ColumnIndex
maxBound = Int -> ColumnIndex
ColumnIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (CInt
forall a. Bounded a => a
maxBound :: CInt))
type ColumnCount = ColumnIndex
newtype CParamIndex = CParamIndex CInt
deriving (CParamIndex -> CParamIndex -> Bool
(CParamIndex -> CParamIndex -> Bool)
-> (CParamIndex -> CParamIndex -> Bool) -> Eq CParamIndex
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
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min :: CParamIndex -> CParamIndex -> CParamIndex
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-> Enum CParamIndex
forall a.
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signum :: CParamIndex -> CParamIndex
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toRational :: CParamIndex -> Rational
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CParamIndex -> Integer
CParamIndex -> CParamIndex -> (CParamIndex, CParamIndex)
CParamIndex -> CParamIndex -> CParamIndex
forall a.
(Real a, Enum a) =>
(a -> a -> a)
-> (a -> a -> a)
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toInteger :: CParamIndex -> Integer
$ctoInteger :: CParamIndex -> Integer
divMod :: CParamIndex -> CParamIndex -> (CParamIndex, CParamIndex)
$cdivMod :: CParamIndex -> CParamIndex -> (CParamIndex, CParamIndex)
quotRem :: CParamIndex -> CParamIndex -> (CParamIndex, CParamIndex)
$cquotRem :: CParamIndex -> CParamIndex -> (CParamIndex, CParamIndex)
mod :: CParamIndex -> CParamIndex -> CParamIndex
$cmod :: CParamIndex -> CParamIndex -> CParamIndex
div :: CParamIndex -> CParamIndex -> CParamIndex
$cdiv :: CParamIndex -> CParamIndex -> CParamIndex
rem :: CParamIndex -> CParamIndex -> CParamIndex
$crem :: CParamIndex -> CParamIndex -> CParamIndex
quot :: CParamIndex -> CParamIndex -> CParamIndex
$cquot :: CParamIndex -> CParamIndex -> CParamIndex
$cp2Integral :: Enum CParamIndex
$cp1Integral :: Real CParamIndex
Integral)
instance Show CParamIndex where
show :: CParamIndex -> String
show (CParamIndex n :: CInt
n) = CInt -> String
forall a. Show a => a -> String
show CInt
n
newtype CColumnIndex = CColumnIndex CInt
deriving (CColumnIndex -> CColumnIndex -> Bool
(CColumnIndex -> CColumnIndex -> Bool)
-> (CColumnIndex -> CColumnIndex -> Bool) -> Eq CColumnIndex
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: CColumnIndex -> CColumnIndex -> Bool
$c/= :: CColumnIndex -> CColumnIndex -> Bool
== :: CColumnIndex -> CColumnIndex -> Bool
$c== :: CColumnIndex -> CColumnIndex -> Bool
Eq, Eq CColumnIndex
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(CColumnIndex -> CColumnIndex -> Ordering)
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-> (a -> a -> a)
-> Ord a
min :: CColumnIndex -> CColumnIndex -> CColumnIndex
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max :: CColumnIndex -> CColumnIndex -> CColumnIndex
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>= :: CColumnIndex -> CColumnIndex -> Bool
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> :: CColumnIndex -> CColumnIndex -> Bool
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<= :: CColumnIndex -> CColumnIndex -> Bool
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< :: CColumnIndex -> CColumnIndex -> Bool
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compare :: CColumnIndex -> CColumnIndex -> Ordering
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$cp1Ord :: Eq CColumnIndex
Ord, Int -> CColumnIndex
CColumnIndex -> Int
CColumnIndex -> [CColumnIndex]
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CColumnIndex -> CColumnIndex -> CColumnIndex -> [CColumnIndex]
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-> (CColumnIndex -> CColumnIndex)
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-> (CColumnIndex -> CColumnIndex -> [CColumnIndex])
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-> (CColumnIndex -> CColumnIndex -> CColumnIndex -> [CColumnIndex])
-> Enum CColumnIndex
forall a.
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-> (a -> a)
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enumFromThenTo :: CColumnIndex -> CColumnIndex -> CColumnIndex -> [CColumnIndex]
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enumFromTo :: CColumnIndex -> CColumnIndex -> [CColumnIndex]
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enumFromThen :: CColumnIndex -> CColumnIndex -> [CColumnIndex]
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enumFrom :: CColumnIndex -> [CColumnIndex]
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fromEnum :: CColumnIndex -> Int
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toEnum :: Int -> CColumnIndex
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pred :: CColumnIndex -> CColumnIndex
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succ :: CColumnIndex -> CColumnIndex
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fromInteger :: Integer -> CColumnIndex
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signum :: CColumnIndex -> CColumnIndex
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abs :: CColumnIndex -> CColumnIndex
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negate :: CColumnIndex -> CColumnIndex
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* :: CColumnIndex -> CColumnIndex -> CColumnIndex
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Ord CColumnIndex
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toRational :: CColumnIndex -> Rational
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-> (CColumnIndex -> CColumnIndex -> CColumnIndex)
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-> (CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex))
-> (CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex))
-> (CColumnIndex -> Integer)
-> Integral CColumnIndex
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forall a.
(Real a, Enum a) =>
(a -> a -> a)
-> (a -> a -> a)
-> (a -> a -> a)
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-> (a -> a -> (a, a))
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-> Integral a
toInteger :: CColumnIndex -> Integer
$ctoInteger :: CColumnIndex -> Integer
divMod :: CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex)
$cdivMod :: CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex)
quotRem :: CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex)
$cquotRem :: CColumnIndex -> CColumnIndex -> (CColumnIndex, CColumnIndex)
mod :: CColumnIndex -> CColumnIndex -> CColumnIndex
$cmod :: CColumnIndex -> CColumnIndex -> CColumnIndex
div :: CColumnIndex -> CColumnIndex -> CColumnIndex
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rem :: CColumnIndex -> CColumnIndex -> CColumnIndex
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quot :: CColumnIndex -> CColumnIndex -> CColumnIndex
$cquot :: CColumnIndex -> CColumnIndex -> CColumnIndex
$cp2Integral :: Enum CColumnIndex
$cp1Integral :: Real CColumnIndex
Integral)
instance Show CColumnIndex where
show :: CColumnIndex -> String
show (CColumnIndex n :: CInt
n) = CInt -> String
forall a. Show a => a -> String
show CInt
n
type CColumnCount = CColumnIndex
newtype CNumBytes = CNumBytes CInt
deriving (CNumBytes -> CNumBytes -> Bool
(CNumBytes -> CNumBytes -> Bool)
-> (CNumBytes -> CNumBytes -> Bool) -> Eq CNumBytes
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: CNumBytes -> CNumBytes -> Bool
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== :: CNumBytes -> CNumBytes -> Bool
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min :: CNumBytes -> CNumBytes -> CNumBytes
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max :: CNumBytes -> CNumBytes -> CNumBytes
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>= :: CNumBytes -> CNumBytes -> Bool
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[CNumBytes] -> ShowS
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showList :: [CNumBytes] -> ShowS
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enumFromThenTo :: CNumBytes -> CNumBytes -> CNumBytes -> [CNumBytes]
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enumFromTo :: CNumBytes -> CNumBytes -> [CNumBytes]
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enumFromThen :: CNumBytes -> CNumBytes -> [CNumBytes]
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enumFrom :: CNumBytes -> [CNumBytes]
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fromEnum :: CNumBytes -> Int
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toEnum :: Int -> CNumBytes
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pred :: CNumBytes -> CNumBytes
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succ :: CNumBytes -> CNumBytes
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signum :: CNumBytes -> CNumBytes
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abs :: CNumBytes -> CNumBytes
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negate :: CNumBytes -> CNumBytes
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data CDestructor
c_SQLITE_STATIC :: Ptr CDestructor
c_SQLITE_STATIC :: Ptr CDestructor
c_SQLITE_STATIC = IntPtr -> Ptr CDestructor
forall a. IntPtr -> Ptr a
intPtrToPtr 0
c_SQLITE_TRANSIENT :: Ptr CDestructor
c_SQLITE_TRANSIENT :: Ptr CDestructor
c_SQLITE_TRANSIENT = IntPtr -> Ptr CDestructor
forall a. IntPtr -> Ptr a
intPtrToPtr (-1)
c_SQLITE_UTF8 :: CInt
c_SQLITE_UTF8 :: CInt
c_SQLITE_UTF8 = 1
{-# LINE 218 "Database/SQLite3/Bindings/Types.hsc" #-}
newtype ArgCount = ArgCount Int
deriving (ArgCount -> ArgCount -> Bool
(ArgCount -> ArgCount -> Bool)
-> (ArgCount -> ArgCount -> Bool) -> Eq ArgCount
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: ArgCount -> ArgCount -> Bool
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min :: ArgCount -> ArgCount -> ArgCount
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max :: ArgCount -> ArgCount -> ArgCount
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enumFromThenTo :: ArgCount -> ArgCount -> ArgCount -> [ArgCount]
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enumFromTo :: ArgCount -> ArgCount -> [ArgCount]
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enumFrom :: ArgCount -> [ArgCount]
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fromEnum :: ArgCount -> Int
$cfromEnum :: ArgCount -> Int
toEnum :: Int -> ArgCount
$ctoEnum :: Int -> ArgCount
pred :: ArgCount -> ArgCount
$cpred :: ArgCount -> ArgCount
succ :: ArgCount -> ArgCount
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fromInteger :: Integer -> ArgCount
$cfromInteger :: Integer -> ArgCount
signum :: ArgCount -> ArgCount
$csignum :: ArgCount -> ArgCount
abs :: ArgCount -> ArgCount
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negate :: ArgCount -> ArgCount
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toInteger :: ArgCount -> Integer
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divMod :: ArgCount -> ArgCount -> (ArgCount, ArgCount)
$cdivMod :: ArgCount -> ArgCount -> (ArgCount, ArgCount)
quotRem :: ArgCount -> ArgCount -> (ArgCount, ArgCount)
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mod :: ArgCount -> ArgCount -> ArgCount
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instance Show ArgCount where
show :: ArgCount -> String
show (ArgCount n :: Int
n) = Int -> String
forall a. Show a => a -> String
show Int
n
instance Bounded ArgCount where
minBound :: ArgCount
minBound = Int -> ArgCount
ArgCount 0
maxBound :: ArgCount
maxBound = Int -> ArgCount
ArgCount (6)
{-# LINE 230 "Database/SQLite3/Bindings/Types.hsc" #-}
type ArgIndex = ArgCount
newtype CArgCount = CArgCount CInt
deriving (CArgCount -> CArgCount -> Bool
(CArgCount -> CArgCount -> Bool)
-> (CArgCount -> CArgCount -> Bool) -> Eq CArgCount
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enumFromThenTo :: CArgCount -> CArgCount -> CArgCount -> [CArgCount]
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Num, Num CArgCount
Ord CArgCount
(Num CArgCount, Ord CArgCount) =>
(CArgCount -> Rational) -> Real CArgCount
CArgCount -> Rational
forall a. (Num a, Ord a) => (a -> Rational) -> Real a
toRational :: CArgCount -> Rational
$ctoRational :: CArgCount -> Rational
$cp2Real :: Ord CArgCount
$cp1Real :: Num CArgCount
Real, Enum CArgCount
Real CArgCount
(Real CArgCount, Enum CArgCount) =>
(CArgCount -> CArgCount -> CArgCount)
-> (CArgCount -> CArgCount -> CArgCount)
-> (CArgCount -> CArgCount -> CArgCount)
-> (CArgCount -> CArgCount -> CArgCount)
-> (CArgCount -> CArgCount -> (CArgCount, CArgCount))
-> (CArgCount -> CArgCount -> (CArgCount, CArgCount))
-> (CArgCount -> Integer)
-> Integral CArgCount
CArgCount -> Integer
CArgCount -> CArgCount -> (CArgCount, CArgCount)
CArgCount -> CArgCount -> CArgCount
forall a.
(Real a, Enum a) =>
(a -> a -> a)
-> (a -> a -> a)
-> (a -> a -> a)
-> (a -> a -> a)
-> (a -> a -> (a, a))
-> (a -> a -> (a, a))
-> (a -> Integer)
-> Integral a
toInteger :: CArgCount -> Integer
$ctoInteger :: CArgCount -> Integer
divMod :: CArgCount -> CArgCount -> (CArgCount, CArgCount)
$cdivMod :: CArgCount -> CArgCount -> (CArgCount, CArgCount)
quotRem :: CArgCount -> CArgCount -> (CArgCount, CArgCount)
$cquotRem :: CArgCount -> CArgCount -> (CArgCount, CArgCount)
mod :: CArgCount -> CArgCount -> CArgCount
$cmod :: CArgCount -> CArgCount -> CArgCount
div :: CArgCount -> CArgCount -> CArgCount
$cdiv :: CArgCount -> CArgCount -> CArgCount
rem :: CArgCount -> CArgCount -> CArgCount
$crem :: CArgCount -> CArgCount -> CArgCount
quot :: CArgCount -> CArgCount -> CArgCount
$cquot :: CArgCount -> CArgCount -> CArgCount
$cp2Integral :: Enum CArgCount
$cp1Integral :: Real CArgCount
Integral)
instance Show CArgCount where
show :: CArgCount -> String
show (CArgCount n :: CInt
n) = CInt -> String
forall a. Show a => a -> String
show CInt
n
instance Bounded CArgCount where
minBound :: CArgCount
minBound = CInt -> CArgCount
CArgCount (-1)
maxBound :: CArgCount
maxBound = CInt -> CArgCount
CArgCount 6
{-# LINE 244 "Database/SQLite3/Bindings/Types.hsc" #-}
c_SQLITE_DETERMINISTIC :: CInt
c_SQLITE_DETERMINISTIC :: CInt
c_SQLITE_DETERMINISTIC = 2048
{-# LINE 248 "Database/SQLite3/Bindings/Types.hsc" #-}
newtype CError = CError CInt
deriving (CError -> CError -> Bool
(CError -> CError -> Bool)
-> (CError -> CError -> Bool) -> Eq CError
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: CError -> CError -> Bool
$c/= :: CError -> CError -> Bool
== :: CError -> CError -> Bool
$c== :: CError -> CError -> Bool
Eq, Int -> CError -> ShowS
[CError] -> ShowS
CError -> String
(Int -> CError -> ShowS)
-> (CError -> String) -> ([CError] -> ShowS) -> Show CError
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [CError] -> ShowS
$cshowList :: [CError] -> ShowS
show :: CError -> String
$cshow :: CError -> String
showsPrec :: Int -> CError -> ShowS
$cshowsPrec :: Int -> CError -> ShowS
Show)
decodeError :: CError -> Error
decodeError :: CError -> Error
decodeError (CError n :: CInt
n) = case CInt
n of
0 -> Error
ErrorOK
{-# LINE 266 "Database/SQLite3/Bindings/Types.hsc" #-}
1 -> ErrorError
{-# LINE 267 "Database/SQLite3/Bindings/Types.hsc" #-}
2 -> ErrorInternal
{-# LINE 268 "Database/SQLite3/Bindings/Types.hsc" #-}
3 -> ErrorPermission
{-# LINE 269 "Database/SQLite3/Bindings/Types.hsc" #-}
4 -> ErrorAbort
{-# LINE 270 "Database/SQLite3/Bindings/Types.hsc" #-}
5 -> ErrorBusy
{-# LINE 271 "Database/SQLite3/Bindings/Types.hsc" #-}
6 -> ErrorLocked
{-# LINE 272 "Database/SQLite3/Bindings/Types.hsc" #-}
7 -> ErrorNoMemory
{-# LINE 273 "Database/SQLite3/Bindings/Types.hsc" #-}
8 -> ErrorReadOnly
{-# LINE 274 "Database/SQLite3/Bindings/Types.hsc" #-}
9 -> ErrorInterrupt
{-# LINE 275 "Database/SQLite3/Bindings/Types.hsc" #-}
10 -> ErrorIO
{-# LINE 276 "Database/SQLite3/Bindings/Types.hsc" #-}
11 -> ErrorCorrupt
{-# LINE 277 "Database/SQLite3/Bindings/Types.hsc" #-}
12 -> ErrorNotFound
{-# LINE 278 "Database/SQLite3/Bindings/Types.hsc" #-}
13 -> ErrorFull
{-# LINE 279 "Database/SQLite3/Bindings/Types.hsc" #-}
14 -> ErrorCan'tOpen
{-# LINE 280 "Database/SQLite3/Bindings/Types.hsc" #-}
15 -> ErrorProtocol
{-# LINE 281 "Database/SQLite3/Bindings/Types.hsc" #-}
16 -> ErrorEmpty
{-# LINE 282 "Database/SQLite3/Bindings/Types.hsc" #-}
17 -> ErrorSchema
{-# LINE 283 "Database/SQLite3/Bindings/Types.hsc" #-}
18 -> ErrorTooBig
{-# LINE 284 "Database/SQLite3/Bindings/Types.hsc" #-}
19 -> ErrorConstraint
{-# LINE 285 "Database/SQLite3/Bindings/Types.hsc" #-}
20 -> ErrorMismatch
{-# LINE 286 "Database/SQLite3/Bindings/Types.hsc" #-}
21 -> ErrorMisuse
{-# LINE 287 "Database/SQLite3/Bindings/Types.hsc" #-}
22 -> ErrorNoLargeFileSupport
{-# LINE 288 "Database/SQLite3/Bindings/Types.hsc" #-}
23 -> ErrorAuthorization
{-# LINE 289 "Database/SQLite3/Bindings/Types.hsc" #-}
24 -> ErrorFormat
{-# LINE 290 "Database/SQLite3/Bindings/Types.hsc" #-}
25 -> ErrorRange
{-# LINE 291 "Database/SQLite3/Bindings/Types.hsc" #-}
26 -> ErrorNotADatabase
{-# LINE 292 "Database/SQLite3/Bindings/Types.hsc" #-}
27 -> ErrorNotice
{-# LINE 293 "Database/SQLite3/Bindings/Types.hsc" #-}
28 -> ErrorWarning
{-# LINE 294 "Database/SQLite3/Bindings/Types.hsc" #-}
100 -> ErrorRow
{-# LINE 295 "Database/SQLite3/Bindings/Types.hsc" #-}
101 -> ErrorDone
{-# LINE 296 "Database/SQLite3/Bindings/Types.hsc" #-}
_ -> error $ "decodeError " ++ show n
encodeError :: Error -> CError
encodeError :: Error -> CError
encodeError err :: Error
err = CInt -> CError
CError (CInt -> CError) -> CInt -> CError
forall a b. (a -> b) -> a -> b
$ case Error
err of
ErrorOK -> 0
{-# LINE 301 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorError -> 1
{-# LINE 302 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorInternal -> 2
{-# LINE 303 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorPermission -> 3
{-# LINE 304 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorAbort -> 4
{-# LINE 305 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorBusy -> 5
{-# LINE 306 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorLocked -> 6
{-# LINE 307 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorNoMemory -> 7
{-# LINE 308 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorReadOnly -> 8
{-# LINE 309 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorInterrupt -> 9
{-# LINE 310 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorIO -> 10
{-# LINE 311 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorCorrupt -> 11
{-# LINE 312 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorNotFound -> 12
{-# LINE 313 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorFull -> 13
{-# LINE 314 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorCan'tOpen -> 14
{-# LINE 315 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorProtocol -> 15
{-# LINE 316 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorEmpty -> 16
{-# LINE 317 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorSchema -> 17
{-# LINE 318 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorTooBig -> 18
{-# LINE 319 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorConstraint -> 19
{-# LINE 320 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorMismatch -> 20
{-# LINE 321 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorMisuse -> 21
{-# LINE 322 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorNoLargeFileSupport -> 22
{-# LINE 323 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorAuthorization -> 23
{-# LINE 324 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorFormat -> 24
{-# LINE 325 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorRange -> 25
{-# LINE 326 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorNotADatabase -> 26
{-# LINE 327 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorNotice -> 27
{-# LINE 328 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorWarning -> 28
{-# LINE 329 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorRow -> 100
{-# LINE 330 "Database/SQLite3/Bindings/Types.hsc" #-}
ErrorDone -> 101
{-# LINE 331 "Database/SQLite3/Bindings/Types.hsc" #-}
newtype CColumnType = CColumnType CInt
deriving (CColumnType -> CColumnType -> Bool
(CColumnType -> CColumnType -> Bool)
-> (CColumnType -> CColumnType -> Bool) -> Eq CColumnType
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: CColumnType -> CColumnType -> Bool
$c/= :: CColumnType -> CColumnType -> Bool
== :: CColumnType -> CColumnType -> Bool
$c== :: CColumnType -> CColumnType -> Bool
Eq, Int -> CColumnType -> ShowS
[CColumnType] -> ShowS
CColumnType -> String
(Int -> CColumnType -> ShowS)
-> (CColumnType -> String)
-> ([CColumnType] -> ShowS)
-> Show CColumnType
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [CColumnType] -> ShowS
$cshowList :: [CColumnType] -> ShowS
show :: CColumnType -> String
$cshow :: CColumnType -> String
showsPrec :: Int -> CColumnType -> ShowS
$cshowsPrec :: Int -> CColumnType -> ShowS
Show)
decodeColumnType :: CColumnType -> ColumnType
decodeColumnType :: CColumnType -> ColumnType
decodeColumnType (CColumnType n :: CInt
n) = case CInt
n of
1 -> ColumnType
IntegerColumn
{-# LINE 341 "Database/SQLite3/Bindings/Types.hsc" #-}
2 -> FloatColumn
{-# LINE 342 "Database/SQLite3/Bindings/Types.hsc" #-}
3 -> TextColumn
{-# LINE 343 "Database/SQLite3/Bindings/Types.hsc" #-}
4 -> BlobColumn
{-# LINE 344 "Database/SQLite3/Bindings/Types.hsc" #-}
5 -> NullColumn
{-# LINE 345 "Database/SQLite3/Bindings/Types.hsc" #-}
_ -> error $ "decodeColumnType " ++ show n
encodeColumnType :: ColumnType -> CColumnType
encodeColumnType :: ColumnType -> CColumnType
encodeColumnType t :: ColumnType
t = CInt -> CColumnType
CColumnType (CInt -> CColumnType) -> CInt -> CColumnType
forall a b. (a -> b) -> a -> b
$ case ColumnType
t of
IntegerColumn -> 1
{-# LINE 350 "Database/SQLite3/Bindings/Types.hsc" #-}
FloatColumn -> 2
{-# LINE 351 "Database/SQLite3/Bindings/Types.hsc" #-}
TextColumn -> 3
{-# LINE 352 "Database/SQLite3/Bindings/Types.hsc" #-}
BlobColumn -> 4
{-# LINE 353 "Database/SQLite3/Bindings/Types.hsc" #-}
NullColumn -> 5
{-# LINE 354 "Database/SQLite3/Bindings/Types.hsc" #-}
class FFIType public ffi | public -> ffi, ffi -> public where
toFFI :: public -> ffi
fromFFI :: ffi -> public
instance FFIType ParamIndex CParamIndex where
toFFI :: ParamIndex -> CParamIndex
toFFI (ParamIndex n :: Int
n) = CInt -> CParamIndex
CParamIndex (Int -> CInt
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n)
fromFFI :: CParamIndex -> ParamIndex
fromFFI (CParamIndex n :: CInt
n) = Int -> ParamIndex
ParamIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral CInt
n)
instance FFIType ColumnIndex CColumnIndex where
toFFI :: ColumnIndex -> CColumnIndex
toFFI (ColumnIndex n :: Int
n) = CInt -> CColumnIndex
CColumnIndex (Int -> CInt
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n)
fromFFI :: CColumnIndex -> ColumnIndex
fromFFI (CColumnIndex n :: CInt
n) = Int -> ColumnIndex
ColumnIndex (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral CInt
n)
instance FFIType Error CError where
toFFI :: Error -> CError
toFFI = Error -> CError
encodeError
fromFFI :: CError -> Error
fromFFI = CError -> Error
decodeError
instance FFIType ColumnType CColumnType where
toFFI :: ColumnType -> CColumnType
toFFI = ColumnType -> CColumnType
encodeColumnType
fromFFI :: CColumnType -> ColumnType
fromFFI = CColumnType -> ColumnType
decodeColumnType
instance FFIType ArgCount CArgCount where
toFFI :: ArgCount -> CArgCount
toFFI (ArgCount n :: Int
n) = CInt -> CArgCount
CArgCount (Int -> CInt
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n)
fromFFI :: CArgCount -> ArgCount
fromFFI (CArgCount n :: CInt
n) = Int -> ArgCount
ArgCount (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral CInt
n)