module Data.GI.CodeGen.Properties
( genInterfaceProperties
, genObjectProperties
, genNamespacedPropLabels
) where
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative ((<$>))
#endif
import Control.Monad (forM_, when, unless)
#if !MIN_VERSION_base(4,11,0)
import Data.Monoid ((<>))
#endif
import Data.Text (Text)
import qualified Data.Text as T
import qualified Data.Set as S
import Foreign.C.Types (CInt, CUInt)
import Foreign.Storable (sizeOf)
import Data.GI.CodeGen.API
import Data.GI.CodeGen.Conversions
import Data.GI.CodeGen.Code
import Data.GI.CodeGen.GObject
import Data.GI.CodeGen.Haddock (addSectionDocumentation, writeHaddock,
RelativeDocPosition(DocBeforeSymbol))
import Data.GI.CodeGen.Inheritance (fullObjectPropertyList, fullInterfacePropertyList)
import Data.GI.CodeGen.ModulePath (dotModulePath)
import Data.GI.CodeGen.SymbolNaming (lowerName, upperName, classConstraint,
hyphensToCamelCase, qualifiedSymbol,
typeConstraint, callbackDynamicWrapper,
callbackHaskellToForeign,
callbackWrapperAllocator, safeCast,
hackageModuleLink, moduleLocation,
haddockAttrAnchor)
import Data.GI.CodeGen.Type
import Data.GI.CodeGen.Util
propTypeStr :: Type -> ExcCodeGen Text
propTypeStr t = case t of
TBasicType TUTF8 -> return "String"
TBasicType TFileName -> return "String"
TBasicType TPtr -> return "Ptr"
TByteArray -> return "ByteArray"
TGHash _ _ -> return "Hash"
TVariant -> return "Variant"
TParamSpec -> return "ParamSpec"
TGClosure _ -> return "Closure"
TError -> return "GError"
TGValue -> return "GValue"
TBasicType TInt -> case sizeOf (0 :: CInt) of
4 -> return "Int32"
n -> error ("Unsupported `gint' type length: " ++
show n)
TBasicType TUInt -> case sizeOf (0 :: CUInt) of
4 -> return "UInt32"
n -> error ("Unsupported `guint' type length: " ++
show n)
TBasicType TLong -> return "Long"
TBasicType TULong -> return "ULong"
TBasicType TInt32 -> return "Int32"
TBasicType TUInt32 -> return "UInt32"
TBasicType TInt64 -> return "Int64"
TBasicType TUInt64 -> return "UInt64"
TBasicType TBoolean -> return "Bool"
TBasicType TFloat -> return "Float"
TBasicType TDouble -> return "Double"
TBasicType TGType -> return "GType"
TCArray True _ _ (TBasicType TUTF8) -> return "StringArray"
TCArray True _ _ (TBasicType TFileName) -> return "StringArray"
TGList (TBasicType TPtr) -> return "PtrGList"
t@(TInterface n) -> do
api <- findAPIByName n
case api of
APIEnum _ -> return "Enum"
APIFlags _ -> return "Flags"
APICallback _ -> return "Callback"
APIStruct s -> if structIsBoxed s
then return "Boxed"
else notImplementedError $ "Unboxed struct property : " <> tshow t
APIUnion u -> if unionIsBoxed u
then return "Boxed"
else notImplementedError $ "Unboxed union property : " <> tshow t
APIObject o -> do
isGO <- isGObject t
if isGO
then return "Object"
else case (objGetValueFunc o, objSetValueFunc o) of
(Just _, Just _) -> return "IsGValueInstance"
_ -> notImplementedError $ "Non-GObject object property without known gvalue_set and/or gvalue_get: " <> tshow t
APIInterface _ -> do
isGO <- isGObject t
if isGO
then return "Object"
else notImplementedError $ "Non-GObject interface property : " <> tshow t
_ -> notImplementedError $ "Unknown interface property of type : " <> tshow t
_ -> notImplementedError $ "Don't know how to handle properties of type " <> tshow t
-- | Some types need casting to a concrete type before we can set or
-- construct properties. For example, for non-GObject object
-- properties we accept any instance of @IsX@ for convenience, but
-- instance resolution of the IsGValueSetter requires a concrete
-- type. The following code implements the cast on the given variable,
-- if needed, and returns the name of the new variable of concrete
-- type.
castProp :: Type -> Text -> CodeGen e Text
castProp t@(TInterface n) val = do
api <- findAPIByName n
case api of
APIObject o -> do
isGO <- isGObject t
if not isGO
then case (objGetValueFunc o, objSetValueFunc o) of
(Just _, Just _) -> do
let val' = prime val
cast <- safeCast n
line $ val' <> " <- " <> cast <> " " <> val
return val'
_ -> return val
else return val
_ -> return val
castProp _ val = return val
-- | The constraint for setting the given type in properties.
propSetTypeConstraint :: Type -> CodeGen e Text
propSetTypeConstraint (TGClosure Nothing) =
return $ "(~) " <> parenthesize (typeShow ("GClosure" `con` [con0 "()"]))
propSetTypeConstraint t = do
isGO <- isGObject t
if isGO
then typeConstraint t
else do
isCallback <- typeIsCallback t
hInType <- if isCallback
then typeShow <$> foreignType t
else typeShow <$> haskellType t
return $ "(~) " <> if T.any (== ' ') hInType
then parenthesize hInType
else hInType
-- | The constraint for transferring the given type into a property.
propTransferTypeConstraint :: Type -> CodeGen e Text
propTransferTypeConstraint t = do
isGO <- isGObject t
if isGO
then typeConstraint t
else do
hInType <- typeShow <$> isoHaskellType t
return $ "(~) " <> if T.any (== ' ') hInType
then parenthesize hInType
else hInType
-- | The type of the return value of @attrTransfer@ for the given
-- type.
propTransferType :: Type -> CodeGen e Text
propTransferType (TGClosure Nothing) =
return $ typeShow ("GClosure" `con` [con0 "()"])
propTransferType t = do
isCallback <- typeIsCallback t
if isCallback
then typeShow <$> foreignType t
else typeShow <$> haskellType t
-- | Given a value "v" of the given Haskell type, satisfying the
-- constraint generated by 'propTransferTypeConstraint', convert it
-- (allocating memory is necessary) to the type given by 'propTransferType'.
genPropTransfer :: Text -> Type -> CodeGen e ()
genPropTransfer var (TGClosure Nothing) = line $ "return " <> var
genPropTransfer var t = do
isGO <- isGObject t
if isGO
then do
ht <- typeShow <$> haskellType t
line $ "unsafeCastTo " <> ht <> " " <> var
else case t of
TInterface tn@(Name _ n) -> do
isCallback <- typeIsCallback t
if not isCallback
then line $ "return " <> var
else do
-- Callbacks need to be wrapped
wrapper <- qualifiedSymbol (callbackHaskellToForeign n) tn
maker <- qualifiedSymbol (callbackWrapperAllocator n) tn
line $ maker <> " " <>
parenthesize (wrapper <> " Nothing " <> var)
_ -> line $ "return " <> var
-- | Given a property, return the set of constraints on the types, and
-- the type variables for the object and its value.
attrType :: Property -> CodeGen e ([Text], Text)
attrType prop = do
resetTypeVariableScope
isCallback <- typeIsCallback (propType prop)
if isCallback
then do
ftype <- foreignType (propType prop)
return ([], typeShow ftype)
else do
(t,constraints) <- argumentType (propType prop) WithoutClosures
return (constraints, t)
-- | Generate documentation for the given setter.
setterDoc :: Name -> Property -> Text
setterDoc n prop = T.unlines [
"Set the value of the “@" <> propName prop <> "@” property."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.set' " <> lowerName n <> " [ #" <> hPropName prop
<> " 'Data.GI.Base.Attributes.:=' value ]"
, "@"]
genPropertySetter :: Text -> Name -> HaddockSection -> Property -> ExcCodeGen ()
genPropertySetter setter n docSection prop = group $ do
(constraints, t) <- attrType prop
isNullable <- typeIsNullable (propType prop)
isCallback <- typeIsCallback (propType prop)
cls <- classConstraint n
let constraints' = "MonadIO m":(cls <> " o"):constraints
tStr <- propTypeStr $ propType prop
writeHaddock DocBeforeSymbol (setterDoc n prop)
line $ setter <> " :: (" <> T.intercalate ", " constraints'
<> ") => o -> " <> t <> " -> m ()"
line $ setter <> " obj val = MIO.liftIO $ do"
indent $ do
val' <- castProp (propType prop) "val"
line $ "B.Properties.setObjectProperty" <> tStr
<> " obj \"" <> propName prop
<> if isNullable && (not isCallback)
then "\" (Just " <> val' <> ")"
else "\" " <> val'
export docSection setter
-- | Generate documentation for the given getter.
getterDoc :: Name -> Property -> Text
getterDoc n prop = T.unlines [
"Get the value of the “@" <> propName prop <> "@” property."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.get' " <> lowerName n <> " #" <> hPropName prop
, "@"]
genPropertyGetter :: Text -> Name -> HaddockSection -> Property -> ExcCodeGen ()
genPropertyGetter getter n docSection prop = group $ do
isNullable <- typeIsNullable (propType prop)
let isMaybe = isNullable && propReadNullable prop /= Just False
constructorType <- isoHaskellType (propType prop)
tStr <- propTypeStr $ propType prop
cls <- classConstraint n
let constraints = "(MonadIO m, " <> cls <> " o)"
outType = if isMaybe
then maybeT constructorType
else constructorType
returnType = typeShow $ "m" `con` [outType]
getProp = if isNullable && not isMaybe
then "checkUnexpectedNothing \"" <> getter
<> "\" $ B.Properties.getObjectProperty" <> tStr
else "B.Properties.getObjectProperty" <> tStr
-- Some property getters require in addition a constructor, which
-- will convert the foreign value to the wrapped Haskell one.
constructorArg <-
if tStr `elem` ["Object", "Boxed"]
then return $ " " <> typeShow constructorType
else (if tStr == "Callback"
then do
callbackType <- haskellType (propType prop)
return $ " " <> callbackDynamicWrapper (typeShow callbackType)
else return "")
writeHaddock DocBeforeSymbol (getterDoc n prop)
line $ getter <> " :: " <> constraints <>
" => o -> " <> returnType
line $ getter <> " obj = MIO.liftIO $ " <> getProp
<> " obj \"" <> propName prop <> "\"" <> constructorArg
export docSection getter
-- | Generate documentation for the given constructor.
constructorDoc :: Property -> Text
constructorDoc prop = T.unlines [
"Construct a `GValueConstruct` with valid value for the “@" <> propName prop <> "@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`."
]
genPropertyConstructor :: Text -> Name -> HaddockSection -> Property -> ExcCodeGen ()
genPropertyConstructor constructor n docSection prop = group $ do
(constraints, t) <- attrType prop
tStr <- propTypeStr $ propType prop
isNullable <- typeIsNullable (propType prop)
isCallback <- typeIsCallback (propType prop)
cls <- classConstraint n
let constraints' = (cls <> " o") : "MIO.MonadIO m" : constraints
pconstraints = parenthesize (T.intercalate ", " constraints') <> " => "
writeHaddock DocBeforeSymbol (constructorDoc prop)
line $ constructor <> " :: " <> pconstraints
<> t <> " -> m (GValueConstruct o)"
line $ constructor <> " val = MIO.liftIO $ do"
indent $ do
val' <- castProp (propType prop) "val"
line $ "MIO.liftIO $ B.Properties.constructObjectProperty" <> tStr
<> " \"" <> propName prop
<> if isNullable && (not isCallback)
then "\" (P.Just " <> val' <> ")"
else "\" " <> val'
export docSection constructor
-- | Generate documentation for the given setter.
clearDoc :: Property -> Text
clearDoc prop = T.unlines [
"Set the value of the “@" <> propName prop <> "@” property to `Nothing`."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.clear'" <> " #" <> hPropName prop
, "@"]
genPropertyClear :: Text -> Name -> HaddockSection -> Property -> ExcCodeGen ()
genPropertyClear clear n docSection prop = group $ do
cls <- classConstraint n
let constraints = ["MonadIO m", cls <> " o"]
tStr <- propTypeStr $ propType prop
writeHaddock DocBeforeSymbol (clearDoc prop)
nothingType <- typeShow . maybeT <$> haskellType (propType prop)
isCallback <- typeIsCallback (propType prop)
let nothing = if isCallback
then "FP.nullFunPtr"
else "(Nothing :: " <> nothingType <> ")"
line $ clear <> " :: (" <> T.intercalate ", " constraints
<> ") => o -> m ()"
line $ clear <> " obj = liftIO $ B.Properties.setObjectProperty" <> tStr
<> " obj \"" <> propName prop <> "\" " <> nothing
export docSection clear
-- | The property name as a lexically valid Haskell identifier. Note
-- that this is not escaped, since it is assumed that it will be used
-- with a prefix, so if a property is named "class", for example, this
-- will return "class".
hPropName :: Property -> Text
hPropName = lcFirst . hyphensToCamelCase . propName
genObjectProperties :: Name -> Object -> CodeGen e ()
genObjectProperties n o = do
isGO <- apiIsGObject n (APIObject o)
-- We do not generate bindings for objects not descending from GObject.
when isGO $ do
allProps <- fullObjectPropertyList n o >>=
mapM (\(owner, prop) -> do
pi <- infoType owner prop
return $ "'(\"" <> hPropName prop
<> "\", " <> pi <> ")")
genProperties n (objProperties o) allProps
genInterfaceProperties :: Name -> Interface -> CodeGen e ()
genInterfaceProperties n iface = do
allProps <- fullInterfacePropertyList n iface >>=
mapM (\(owner, prop) -> do
pi <- infoType owner prop
return $ "'(\"" <> hPropName prop
<> "\", " <> pi <> ")")
genProperties n (ifProperties iface) allProps
-- If the given accesor is available (indicated by available == True),
-- generate a fully qualified accesor name, otherwise just return
-- "undefined". accessor is "get", "set" or "construct"
accessorOrUndefined :: Bool -> Text -> Name -> Text -> CodeGen e Text
accessorOrUndefined available accessor owner@(Name _ on) cName =
if not available
then return "undefined"
else qualifiedSymbol (accessor <> on <> cName) owner
-- | The name of the type encoding the information for the property of
-- the object.
infoType :: Name -> Property -> CodeGen e Text
infoType owner prop =
let infoType = upperName owner <> (hyphensToCamelCase . propName) prop
<> "PropertyInfo"
in qualifiedSymbol infoType owner
genOneProperty :: Name -> Property -> ExcCodeGen ()
genOneProperty owner prop = do
let name = upperName owner
cName = (hyphensToCamelCase . propName) prop
lcAttr = lcFirst cName
docSection = NamedSubsection PropertySection lcAttr
pName = name <> cName
flags = propFlags prop
writable = PropertyWritable `elem` flags &&
(PropertyConstructOnly `notElem` flags)
readable = PropertyReadable `elem` flags
constructOnly = PropertyConstructOnly `elem` flags
addSectionDocumentation docSection (propDoc prop)
-- For properties the meaning of having transfer /= TransferNothing
-- is not clear (what are the right semantics for GValue setters?),
-- and the other possibilities are very uncommon, so let us just
-- assume that TransferNothing is always the case.
when (propTransfer prop /= TransferNothing) $
notImplementedError $ "Property " <> pName
<> " has unsupported transfer type "
<> tshow (propTransfer prop)
isNullable <- typeIsNullable (propType prop)
unless (readable || writable || constructOnly) $
notImplementedError $ "Property is not readable, writable, or constructible: "
<> tshow pName
group $ do
line $ "-- VVV Prop \"" <> propName prop <> "\""
line $ " -- Type: " <> tshow (propType prop)
line $ " -- Flags: " <> tshow (propFlags prop)
line $ " -- Nullable: " <> tshow (propReadNullable prop,
propWriteNullable prop)
getter <- accessorOrUndefined readable "get" owner cName
setter <- accessorOrUndefined writable "set" owner cName
constructor <- accessorOrUndefined (writable || constructOnly)
"construct" owner cName
clear <- accessorOrUndefined (isNullable && writable &&
propWriteNullable prop /= Just False)
"clear" owner cName
when (getter /= "undefined") $ genPropertyGetter getter owner docSection prop
when (setter /= "undefined") $ genPropertySetter setter owner docSection prop
when (constructor /= "undefined") $
genPropertyConstructor constructor owner docSection prop
when (clear /= "undefined") $ genPropertyClear clear owner docSection prop
outType <- if not readable
then return "()"
else do
sOutType <- if isNullable && propReadNullable prop /= Just False
then typeShow . maybeT <$> isoHaskellType (propType prop)
else typeShow <$> isoHaskellType (propType prop)
return $ if T.any (== ' ') sOutType
then parenthesize sOutType
else sOutType
-- Polymorphic #label style lens
cppIf CPPOverloading $ do
cls <- classConstraint owner
inConstraint <- if writable || constructOnly
then propSetTypeConstraint (propType prop)
else return "(~) ()"
transferConstraint <- if writable || constructOnly
then propTransferTypeConstraint (propType prop)
else return "(~) ()"
transferType <- if writable || constructOnly
then propTransferType (propType prop)
else return "()"
let allowedOps = (if writable
then ["'AttrSet", "'AttrConstruct"]
else [])
<> (if constructOnly
then ["'AttrConstruct"]
else [])
<> (if readable
then ["'AttrGet"]
else [])
<> (if isNullable && propWriteNullable prop /= Just False
then ["'AttrClear"]
else [])
it <- infoType owner prop
export docSection it
api <- findAPIByName owner
hackageLink <- hackageModuleLink owner
let qualifiedAttrName = dotModulePath (moduleLocation owner api)
<> "." <> lcAttr
attrInfoURL = hackageLink <> "#" <> haddockAttrAnchor <> lcAttr
bline $ "data " <> it
line $ "instance AttrInfo " <> it <> " where"
indent $ do
line $ "type AttrAllowedOps " <> it
<> " = '[ " <> T.intercalate ", " allowedOps <> "]"
line $ "type AttrBaseTypeConstraint " <> it <> " = " <> cls
line $ "type AttrSetTypeConstraint " <> it
<> " = " <> inConstraint
line $ "type AttrTransferTypeConstraint " <> it
<> " = " <> transferConstraint
line $ "type AttrTransferType " <> it <> " = " <> transferType
line $ "type AttrGetType " <> it <> " = " <> outType
line $ "type AttrLabel " <> it <> " = \"" <> propName prop <> "\""
line $ "type AttrOrigin " <> it <> " = " <> name
line $ "attrGet = " <> getter
line $ "attrSet = " <> setter
if writable || constructOnly
then do line $ "attrTransfer _ v = do"
indent $ genPropTransfer "v" (propType prop)
else line $ "attrTransfer _ = undefined"
line $ "attrConstruct = " <> constructor
line $ "attrClear = " <> clear
line $ "dbgAttrInfo = P.Just (O.ResolvedSymbolInfo {"
indent $ do
line $ "O.resolvedSymbolName = \"" <> qualifiedAttrName <> "\""
line $ ", O.resolvedSymbolURL = \"" <> attrInfoURL <> "\""
line $ "})"
-- | Generate a placeholder property for those cases in which code
-- generation failed.
genPlaceholderProperty :: Name -> Property -> CodeGen e ()
genPlaceholderProperty owner prop = do
line $ "-- XXX Placeholder"
it <- infoType owner prop
let cName = (hyphensToCamelCase . propName) prop
docSection = NamedSubsection PropertySection (lcFirst cName)
export docSection it
bline $ "data " <> it
line $ "instance AttrInfo " <> it <> " where"
indent $ do
line $ "type AttrAllowedOps " <> it <> " = '[]"
line $ "type AttrSetTypeConstraint " <> it <> " = (~) ()"
line $ "type AttrTransferTypeConstraint " <> it <> " = (~) ()"
line $ "type AttrTransferType " <> it <> " = ()"
line $ "type AttrBaseTypeConstraint " <> it <> " = (~) ()"
line $ "type AttrGetType " <> it <> " = ()"
line $ "type AttrLabel " <> it <> " = \"\""
line $ "type AttrOrigin " <> it <> " = " <> upperName owner
line $ "attrGet = undefined"
line $ "attrSet = undefined"
line $ "attrConstruct = undefined"
line $ "attrClear = undefined"
line $ "attrTransfer = undefined"
genProperties :: Name -> [Property] -> [Text] -> CodeGen e ()
genProperties n ownedProps allProps = do
let name = upperName n
forM_ ownedProps $ \prop -> do
handleCGExc (\err -> do
line $ "-- XXX Generation of property \""
<> propName prop <> "\" of object \""
<> name <> "\" failed."
printCGError err
cppIf CPPOverloading (genPlaceholderProperty n prop))
(genOneProperty n prop)
cppIf CPPOverloading $ do
let propListType = name <> "AttributeList"
line $ "instance O.HasAttributeList " <> name
line $ "type instance O.AttributeList " <> name <> " = " <> propListType
line $ "type " <> propListType <> " = ('[ "
<> T.intercalate ", " allProps <> "] :: [(Symbol, DK.Type)])"
-- | Generate gtk2hs compatible attribute labels (to ease
-- porting). These are namespaced labels, for examples
-- `widgetSensitive`. We take the list of methods, since there may be
-- name clashes (an example is Auth::is_for_proxy method in libsoup,
-- and the corresponding Auth::is-for-proxy property). When there is a
-- clash we give priority to the method.
genNamespacedPropLabels :: Name -> [Property] -> [Method] -> CodeGen e ()
genNamespacedPropLabels owner props methods =
let lName = lcFirst . hyphensToCamelCase . propName
in genNamespacedAttrLabels owner (map lName props) methods
genNamespacedAttrLabels :: Name -> [Text] -> [Method] -> CodeGen e ()
genNamespacedAttrLabels owner attrNames methods = do
let name = upperName owner
let methodNames = S.fromList (map (lowerName . methodName) methods)
filteredAttrs = filter (`S.notMember` methodNames) attrNames
forM_ filteredAttrs $ \attr -> group $ do
let cName = ucFirst attr
labelProxy = lcFirst name <> cName
docSection = NamedSubsection PropertySection (lcFirst cName)
line $ labelProxy <> " :: AttrLabelProxy \"" <> lcFirst cName <> "\""
line $ labelProxy <> " = AttrLabelProxy"
export docSection labelProxy