{- Copyright (C) 2014 Michal Antkiewicz Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. -} -- | Support for dealing with unique IDs (UIDs), fully- and least-partially qualified names. module Language.Clafer.QNameUID ( QName, FQName, PQName, QNameMaps, UID, deriveQNameMaps, getUIDs, getFQName, getLPQName, getQNameUIDTriples ) where import Data.Maybe import Data.List.Split import qualified Data.Map as Map import qualified Data.StringMap as SMap import Language.Clafer.Intermediate.Intclafer -- | a fully- or partially-qualified name type QName = String -- | fully-qualified name, must begin with :: -- | e.g., `::Person::name`, `::Company::Department::chair` type FQName = String -- a reversed FQName used as a key in the FQNameUIDMap type FQKey = String -- | partially-qualified name, must not begin with :: -- | e.g., `Person::name`, `chair` type PQName = String -- a map from reversed FQName (FQKey) to UID type FQNameUIDMap = SMap.StringMap UID type UIDFqNameMap = Map.Map UID FQName type UIDLpqNameMap = Map.Map UID PQName -- | maps between fully-, least-partially-qualified names and UIDs data QNameMaps = QNameMaps FQNameUIDMap UIDFqNameMap UIDLpqNameMap -- | get the UID of a clafer given a fully qualifed name or potentially many UIDs given a partially qualified name getUIDs :: QNameMaps -> QName -> [UID] getUIDs (QNameMaps fqNameUIDMap _ _) qName = findUIDsByFQName fqNameUIDMap qName -- | get the fully-qualified name of a clafer given its UID getFQName :: QNameMaps -> UID -> Maybe FQName getFQName (QNameMaps _ uidFqNameMap _) uid' = Map.lookup uid' uidFqNameMap -- | get the least-partially-qualified name of a clafer given its UID getLPQName :: QNameMaps -> UID -> Maybe PQName getLPQName (QNameMaps _ _ uidLpqNameMap) uid' = Map.lookup uid' uidLpqNameMap -- | derive maps between fully-, partially-qualified names, and UIDs deriveQNameMaps :: IModule -> QNameMaps deriveQNameMaps iModule = let (fqNameUIDMap, uidFqNameMap) = deriveFQNameUIDMaps iModule uidLpqNameMap = deriveUidLpqNameMap fqNameUIDMap in QNameMaps fqNameUIDMap uidFqNameMap uidLpqNameMap deriveFQNameUIDMaps :: IModule -> (FQNameUIDMap, UIDFqNameMap) deriveFQNameUIDMaps iModule = addElements ["::"] (_mDecls iModule) (SMap.empty, Map.empty) addElements :: [String] -> [IElement] -> (FQNameUIDMap, UIDFqNameMap) -> (FQNameUIDMap, UIDFqNameMap) addElements path elems maps = foldl (addClafer path) maps elems addClafer :: [String] -> (FQNameUIDMap, UIDFqNameMap) -> IElement -> (FQNameUIDMap, UIDFqNameMap) addClafer path (fqNameUIDMap, uidFqNameMap) (IEClafer iClaf) = let newPath = (_ident iClaf) : path fqKey :: FQKey fqKey = concat newPath fqName :: FQName fqName = getQNameFromKey fqKey fqNameUIDMap' = SMap.insert fqKey (_uid iClaf) fqNameUIDMap uidFqNameMap' = Map.insert (_uid iClaf) fqName uidFqNameMap in addElements ("::" : newPath) (_elements iClaf) (fqNameUIDMap', uidFqNameMap') addClafer _ maps _ = maps findUIDsByFQName :: FQNameUIDMap -> FQName -> [ UID ] findUIDsByFQName fqNameUIDMap fqName@(':':':':_) = SMap.lookup (getFQKey fqName) fqNameUIDMap findUIDsByFQName fqNameUIDMap fqName = SMap.prefixFind (getFQKey fqName) fqNameUIDMap reverseOnQualifier :: FQName -> FQName reverseOnQualifier fqName = concat $ reverse $ split (onSublist "::") fqName getFQKey :: FQName -> FQKey getFQKey = reverseOnQualifier getQNameFromKey :: FQKey -> QName getQNameFromKey = reverseOnQualifier deriveUidLpqNameMap :: FQNameUIDMap -> UIDLpqNameMap deriveUidLpqNameMap fqNameUIDMap = SMap.foldrWithKey (generateUIDLpqMapEntry fqNameUIDMap) Map.empty fqNameUIDMap generateUIDLpqMapEntry :: FQNameUIDMap -> SMap.Key -> UID -> UIDLpqNameMap -> UIDLpqNameMap generateUIDLpqMapEntry fqNameUIDMap fqKey uid' uidLpqNameMap = Map.insert uid' lpqName uidLpqNameMap where -- need to reverse the key to get a fully qualified name fqName :: FQName fqName = getQNameFromKey fqKey -- name qualified just sufficiently to uniquely identify the clafer -- can be both FQName or PQName lpqName :: QName lpqName = findLeastQualifiedName fqName fqNameUIDMap findLeastQualifiedName :: String -> FQNameUIDMap -> String -- handle fully qualified name case findLeastQualifiedName fqName'@(':':':':pqName) fqNameUIDMap' = if (length (findUIDsByFQName fqNameUIDMap' pqName) > 1) then fqName' else findLeastQualifiedName pqName fqNameUIDMap' -- handle partially qualified name case findLeastQualifiedName pqName fqNameUIDMap' = let -- remove one segment of qualification lessQName = concat $ drop 2 $ split (onSublist "::") pqName in if (length (findUIDsByFQName fqNameUIDMap' lessQName) > 1) then pqName else findLeastQualifiedName lessQName fqNameUIDMap' getQNameUIDTriples :: QNameMaps -> [(FQName, PQName, UID)] getQNameUIDTriples qNameMaps@(QNameMaps _ uidFqNameMap _) = let uidFqNameList :: [(UID, FQName)] uidFqNameList = Map.toList uidFqNameMap in map (\(uid', fqName) -> (fqName, fromMaybe fqName $ getLPQName qNameMaps uid', uid')) uidFqNameList