module Data.GI.CodeGen.Struct ( genStructOrUnionFields
, genZeroStruct
, genZeroUnion
, extractCallbacksInStruct
, fixAPIStructs
, ignoreStruct
, genWrappedPtr
) where
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative ((<$>))
#endif
import Control.Monad (forM, when)
import Data.Maybe (mapMaybe, isJust, catMaybes)
import Data.Monoid ((<>))
import Data.Text (Text)
import qualified Data.Text as T
import Data.GI.CodeGen.API
import Data.GI.CodeGen.Conversions
import Data.GI.CodeGen.Code
import Data.GI.CodeGen.Haddock (addSectionDocumentation, writeHaddock,
RelativeDocPosition(DocBeforeSymbol))
import Data.GI.CodeGen.SymbolNaming
import Data.GI.CodeGen.Type
import Data.GI.CodeGen.Util
ignoreStruct :: Name -> Struct -> Bool
ignoreStruct (Name _ name) s = isJust (gtypeStructFor s) ||
"Private" `T.isSuffixOf` name
fieldCallbackType :: Text -> Field -> Text
fieldCallbackType structName field =
structName <> (underscoresToCamelCase . fieldName) field <> "FieldCallback"
fixCallbackStructFields :: Name -> Struct -> Struct
fixCallbackStructFields (Name ns structName) s = s {structFields = fixedFields}
where fixedFields :: [Field]
fixedFields = map fixField (structFields s)
fixField :: Field -> Field
fixField field =
case fieldCallback field of
Nothing -> field
Just _ -> let n' = fieldCallbackType structName field
in field {fieldType = TInterface (Name ns n')}
fixAPIStructs :: (Name, API) -> (Name, API)
fixAPIStructs (n, APIStruct s) = (n, APIStruct $ fixCallbackStructFields n s)
fixAPIStructs api = api
extractCallbacksInStruct :: (Name, API) -> [(Name, API)]
extractCallbacksInStruct (n@(Name ns structName), APIStruct s)
| ignoreStruct n s = []
| otherwise =
mapMaybe callbackInField (structFields s)
where callbackInField :: Field -> Maybe (Name, API)
callbackInField field = do
callback <- fieldCallback field
let n' = fieldCallbackType structName field
return (Name ns n', APICallback callback)
extractCallbacksInStruct _ = []
infoType :: Name -> Field -> CodeGen Text
infoType owner field = do
let name = upperName owner
let fName = (underscoresToCamelCase . fieldName) field
return $ name <> fName <> "FieldInfo"
isEmbedded :: Field -> ExcCodeGen Bool
isEmbedded field = do
api <- findAPI (fieldType field)
case api of
Just (APIStruct _) -> checkEmbedding
Just (APIUnion _) -> checkEmbedding
_ -> return False
where
checkEmbedding :: ExcCodeGen Bool
checkEmbedding = case fieldIsPointer field of
Nothing -> badIntroError "Cannot determine whether the field is embedded."
Just isPtr -> return (not isPtr)
fieldGetter :: Name -> Field -> Text
fieldGetter name' field = "get" <> upperName name' <> fName field
getterDoc :: Name -> Field -> Text
getterDoc n field = T.unlines [
"Get the value of the “@" <> fieldName field <> "@” field."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.get' " <> lowerName n <> " #" <> labelName field
, "@"]
buildFieldReader :: Name -> Field -> ExcCodeGen ()
buildFieldReader n field = group $ do
let name' = upperName n
getter = fieldGetter n field
embedded <- isEmbedded field
nullConvert <- if embedded
then return Nothing
else maybeNullConvert (fieldType field)
hType <- typeShow <$> if isJust nullConvert
then maybeT <$> inboundHaskellType (fieldType field)
else inboundHaskellType (fieldType field)
fType <- typeShow <$> foreignType (fieldType field)
writeHaddock DocBeforeSymbol (getterDoc n field)
line $ getter <> " :: MonadIO m => " <> name' <> " -> m " <>
if T.any (== ' ') hType
then parenthesize hType
else hType
line $ getter <> " s = liftIO $ withManagedPtr s $ \\ptr -> do"
indent $ do
let peekedType = if T.any (== ' ') fType
then parenthesize fType
else fType
if embedded
then line $ "let val = ptr `plusPtr` " <> tshow (fieldOffset field)
<> " :: " <> peekedType
else line $ "val <- peek (ptr `plusPtr` " <> tshow (fieldOffset field)
<> ") :: IO " <> peekedType
result <- case nullConvert of
Nothing -> convert "val" $ fToH (fieldType field) TransferNothing
Just nullConverter -> do
line $ "result <- " <> nullConverter <> " val $ \\val' -> do"
indent $ do
val' <- convert "val'" $ fToH (fieldType field) TransferNothing
line $ "return " <> val'
return "result"
line $ "return " <> result
fieldSetter :: Name -> Field -> Text
fieldSetter name' field = "set" <> upperName name' <> fName field
setterDoc :: Name -> Field -> Text
setterDoc n field = T.unlines [
"Set the value of the “@" <> fieldName field <> "@” field."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.set' " <> lowerName n <> " [ #" <> labelName field
<> " 'Data.GI.Base.Attributes.:=' value ]"
, "@"]
buildFieldWriter :: Name -> Field -> ExcCodeGen ()
buildFieldWriter n field = group $ do
let name' = upperName n
let setter = fieldSetter n field
isPtr <- typeIsPtr (fieldType field)
fType <- typeShow <$> foreignType (fieldType field)
hType <- if isPtr
then return fType
else typeShow <$> haskellType (fieldType field)
writeHaddock DocBeforeSymbol (setterDoc n field)
line $ setter <> " :: MonadIO m => " <> name' <> " -> "
<> hType <> " -> m ()"
line $ setter <> " s val = liftIO $ withManagedPtr s $ \\ptr -> do"
indent $ do
converted <- if isPtr
then return "val"
else convert "val" $ hToF (fieldType field) TransferNothing
line $ "poke (ptr `plusPtr` " <> tshow (fieldOffset field)
<> ") (" <> converted <> " :: " <> fType <> ")"
fieldClear :: Name -> Field -> Text
fieldClear name' field = "clear" <> upperName name' <> fName field
clearDoc :: Field -> Text
clearDoc field = T.unlines [
"Set the value of the “@" <> fieldName field <> "@” field to `Nothing`."
, "When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to"
, ""
, "@"
, "'Data.GI.Base.Attributes.clear'" <> " #" <> labelName field
, "@"]
buildFieldClear :: Name -> Field -> Text -> ExcCodeGen ()
buildFieldClear n field nullPtr = group $ do
let name' = upperName n
let clear = fieldClear n field
fType <- typeShow <$> foreignType (fieldType field)
writeHaddock DocBeforeSymbol (clearDoc field)
line $ clear <> " :: MonadIO m => " <> name' <> " -> m ()"
line $ clear <> " s = liftIO $ withManagedPtr s $ \\ptr -> do"
indent $
line $ "poke (ptr `plusPtr` " <> tshow (fieldOffset field)
<> ") (" <> nullPtr <> " :: " <> fType <> ")"
fName :: Field -> Text
fName = underscoresToCamelCase . fieldName
labelName :: Field -> Text
labelName = lcFirst . fName
genAttrInfo :: Name -> Field -> ExcCodeGen Text
genAttrInfo owner field = do
it <- infoType owner field
let on = upperName owner
isPtr <- typeIsPtr (fieldType field)
embedded <- isEmbedded field
isNullable <- typeIsNullable (fieldType field)
outType <- typeShow <$> if not embedded && isNullable
then maybeT <$> inboundHaskellType (fieldType field)
else inboundHaskellType (fieldType field)
inType <- if isPtr
then typeShow <$> foreignType (fieldType field)
else typeShow <$> haskellType (fieldType field)
line $ "data " <> it
line $ "instance AttrInfo " <> it <> " where"
indent $ do
line $ "type AttrAllowedOps " <> it <>
if embedded
then " = '[ 'AttrGet]"
else if isPtr
then " = '[ 'AttrSet, 'AttrGet, 'AttrClear]"
else " = '[ 'AttrSet, 'AttrGet]"
line $ "type AttrSetTypeConstraint " <> it <> " = (~) "
<> if T.any (== ' ') inType
then parenthesize inType
else inType
line $ "type AttrBaseTypeConstraint " <> it <> " = (~) " <> on
line $ "type AttrGetType " <> it <> " = " <> outType
line $ "type AttrLabel " <> it <> " = \"" <> fieldName field <> "\""
line $ "type AttrOrigin " <> it <> " = " <> on
line $ "attrGet _ = " <> fieldGetter owner field
line $ "attrSet _ = " <> if not embedded
then fieldSetter owner field
else "undefined"
line $ "attrConstruct = undefined"
line $ "attrClear _ = " <> if not embedded && isPtr
then fieldClear owner field
else "undefined"
blank
group $ do
let labelProxy = lcFirst on <> "_" <> lcFirst (fName field)
line $ labelProxy <> " :: AttrLabelProxy \"" <> lcFirst (fName field) <> "\""
line $ labelProxy <> " = AttrLabelProxy"
export (NamedSubsection PropertySection $ lcFirst $ fName field) labelProxy
return $ "'(\"" <> labelName field <> "\", " <> it <> ")"
buildFieldAttributes :: Name -> Field -> ExcCodeGen (Maybe Text)
buildFieldAttributes n field
| not (fieldVisible field) = return Nothing
| privateType (fieldType field) = return Nothing
| otherwise = group $ do
nullPtr <- nullPtrForType (fieldType field)
embedded <- isEmbedded field
addSectionDocumentation docSection (fieldDocumentation field)
buildFieldReader n field
export docSection (fieldGetter n field)
when (not embedded) $ do
buildFieldWriter n field
export docSection (fieldSetter n field)
case nullPtr of
Just null -> do
buildFieldClear n field null
export docSection (fieldClear n field)
Nothing -> return ()
Just <$> cppIf CPPOverloading (genAttrInfo n field)
where privateType :: Type -> Bool
privateType (TInterface n) = "Private" `T.isSuffixOf` name n
privateType _ = False
docSection = NamedSubsection PropertySection $ lcFirst $ fName field
genStructOrUnionFields :: Name -> [Field] -> CodeGen ()
genStructOrUnionFields n fields = do
let name' = upperName n
attrs <- forM fields $ \field ->
handleCGExc (\e -> line ("-- XXX Skipped attribute for \"" <> name' <>
":" <> fieldName field <> "\" :: " <>
describeCGError e) >>
return Nothing)
(buildFieldAttributes n field)
blank
cppIf CPPOverloading $ do
let attrListName = name' <> "AttributeList"
line $ "instance O.HasAttributeList " <> name'
line $ "type instance O.AttributeList " <> name' <> " = " <> attrListName
line $ "type " <> attrListName <> " = ('[ " <>
T.intercalate ", " (catMaybes attrs) <> "] :: [(Symbol, *)])"
genZeroSU :: Name -> Int -> Bool -> CodeGen ()
genZeroSU n size isBoxed = group $ do
let name = upperName n
let builder = "newZero" <> name
tsize = tshow size
writeHaddock DocBeforeSymbol ("Construct a `" <> name <>
"` struct initialized to zero.")
line $ builder <> " :: MonadIO m => m " <> name
line $ builder <> " = liftIO $ " <>
if isBoxed
then "callocBoxedBytes " <> tsize <> " >>= wrapBoxed " <> name
else "wrappedPtrCalloc >>= wrapPtr " <> name
exportDecl builder
blank
group $ do
line $ "instance tag ~ 'AttrSet => Constructible " <> name <> " tag where"
indent $ do
line $ "new _ attrs = do"
indent $ do
line $ "o <- " <> builder
line $ "GI.Attributes.set o attrs"
line $ "return o"
genZeroStruct :: Name -> Struct -> CodeGen ()
genZeroStruct n s =
when (allocCalloc (structAllocationInfo s) /= AllocationOp "none" &&
structSize s /= 0) $
genZeroSU n (structSize s) (structIsBoxed s)
genZeroUnion :: Name -> Union -> CodeGen ()
genZeroUnion n u =
when (allocCalloc (unionAllocationInfo u ) /= AllocationOp "none" &&
unionSize u /= 0) $
genZeroSU n (unionSize u) (unionIsBoxed u)
prefixedForeignImport :: Text -> Text -> Text -> CodeGen Text
prefixedForeignImport prefix symbol prototype = group $ do
line $ "foreign import ccall \"" <> symbol <> "\" " <> prefix <> symbol
<> " :: " <> prototype
return (prefix <> symbol)
prefixedFunPtrImport :: Text -> Text -> Text -> CodeGen Text
prefixedFunPtrImport prefix symbol prototype = group $ do
line $ "foreign import ccall \"&" <> symbol <> "\" " <> prefix <> symbol
<> " :: FunPtr (" <> prototype <> ")"
return (prefix <> symbol)
genWrappedPtr :: Name -> AllocationInfo -> Int -> CodeGen ()
genWrappedPtr n info size = group $ do
let name' = upperName n
let prefix = \op -> "_" <> name' <> "_" <> op <> "_"
when (size == 0 && allocFree info == AllocationOpUnknown) $
line $ "-- XXX Wrapping a foreign struct/union with no known destructor or size, leak?"
calloc <- case allocCalloc info of
AllocationOp "none" ->
return ("error \"calloc not permitted for " <> name' <> "\"")
AllocationOp op ->
prefixedForeignImport (prefix "calloc") op "IO (Ptr a)"
AllocationOpUnknown ->
if size > 0
then return ("callocBytes " <> tshow size)
else return "return nullPtr"
copy <- case allocCopy info of
AllocationOp op -> do
copy <- prefixedForeignImport (prefix "copy") op "Ptr a -> IO (Ptr a)"
return ("\\p -> withManagedPtr p (" <> copy <>
" >=> wrapPtr " <> name' <> ")")
AllocationOpUnknown ->
if size > 0
then return ("\\p -> withManagedPtr p (copyBytes "
<> tshow size <> " >=> wrapPtr " <> name' <> ")")
else return "return"
free <- case allocFree info of
AllocationOp op -> ("Just " <>) <$>
prefixedFunPtrImport (prefix "free") op "Ptr a -> IO ()"
AllocationOpUnknown ->
if size > 0
then return "Just ptr_to_g_free"
else return "Nothing"
line $ "instance WrappedPtr " <> name' <> " where"
indent $ do
line $ "wrappedPtrCalloc = " <> calloc
line $ "wrappedPtrCopy = " <> copy
line $ "wrappedPtrFree = " <> free
hsBoot $ line $ "instance WrappedPtr " <> name' <> " where"