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https://github.com/hasura/graphql-engine.git
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4815fcd500
This PR generalizes a bunch of metadata structures. Most importantly, it changes `SourceCache` to hold existentially quantified values: ``` data BackendSourceInfo = forall b. Backend b => BackendSourceInfo (SourceInfo b) type SourceCache = HashMap SourceName BackendSourceInfo ``` This changes a *lot* of things throughout the code. For now, all code using the schema cache explicitly casts sources to Postgres, meaning that if any non-Postgres `SourceInfo` makes it to the cache, it'll be ignored. That means that after this PR is submitted, we can split work between two different aspects: - creating `SourceInfo` for other backends - handling those other sources down the line GitOrigin-RevId: fb9ea00f32e840fc33c5467896fb1dfa5283ab42
250 lines
9.4 KiB
Haskell
250 lines
9.4 KiB
Haskell
module Hasura.RQL.DDL.Schema.Diff
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( TableMeta(..)
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, ComputedFieldMeta(..)
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, fetchMeta
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, getDifference
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, TableDiff(..)
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, getTableDiff
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, getTableChangeDeps
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, ComputedFieldDiff(..)
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, SchemaDiff(..)
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, getSchemaDiff
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, getSchemaChangeDeps
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, FunctionMeta(..)
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, FunctionDiff(..)
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, getFuncDiff
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, getOverloadedFuncs
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) where
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import Hasura.Prelude
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import qualified Data.HashMap.Strict as M
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import qualified Data.HashSet as HS
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import qualified Data.List.NonEmpty as NE
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import Data.Aeson.TH
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import Data.List.Extended (duplicates)
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import Hasura.Backends.Postgres.SQL.Types hiding (TableName)
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import Hasura.RQL.DDL.Schema.Common
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import Hasura.RQL.Types hiding (ConstraintName, fmFunction,
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tmComputedFields, tmTable)
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data FunctionMeta
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= FunctionMeta
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{ fmOid :: !OID
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, fmFunction :: !QualifiedFunction
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, fmType :: !FunctionVolatility
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} deriving (Show, Eq)
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$(deriveJSON hasuraJSON ''FunctionMeta)
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data ComputedFieldMeta
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= ComputedFieldMeta
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{ ccmName :: !ComputedFieldName
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, ccmFunctionMeta :: !FunctionMeta
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} deriving (Show, Eq)
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$(deriveJSON hasuraJSON{omitNothingFields=True} ''ComputedFieldMeta)
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data TableMeta (b :: BackendType)
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= TableMeta
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{ tmTable :: !QualifiedTable
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, tmInfo :: !(DBTableMetadata b)
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, tmComputedFields :: ![ComputedFieldMeta]
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} deriving (Show, Eq)
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fetchMeta
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:: (MonadTx m)
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=> TableCache 'Postgres
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-> FunctionCache 'Postgres
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-> m ([TableMeta 'Postgres], [FunctionMeta])
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fetchMeta tables functions = do
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tableMetaInfos <- fetchTableMetadata
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functionMetaInfos <- fetchFunctionMetadata
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let getFunctionMetas function =
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let mkFunctionMeta rawInfo =
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FunctionMeta (rfiOid rawInfo) function (rfiFunctionType rawInfo)
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in maybe [] (map mkFunctionMeta) $ M.lookup function functionMetaInfos
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mkComputedFieldMeta computedField =
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let function = _cffName $ _cfiFunction computedField
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in map (ComputedFieldMeta (_cfiName computedField)) $ getFunctionMetas function
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tableMetas = flip map (M.toList tableMetaInfos) $ \(table, tableMetaInfo) ->
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TableMeta table tableMetaInfo $ fromMaybe [] $
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M.lookup table tables <&> \tableInfo ->
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let tableCoreInfo = _tiCoreInfo tableInfo
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computedFields = getComputedFieldInfos $ _tciFieldInfoMap tableCoreInfo
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in concatMap mkComputedFieldMeta computedFields
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functionMetas = concatMap getFunctionMetas $ M.keys functions
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pure (tableMetas, functionMetas)
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getOverlap :: (Eq k, Hashable k) => (v -> k) -> [v] -> [v] -> [(v, v)]
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getOverlap getKey left right =
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M.elems $ M.intersectionWith (,) (mkMap left) (mkMap right)
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where
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mkMap = M.fromList . map (\v -> (getKey v, v))
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getDifference :: (Eq k, Hashable k) => (v -> k) -> [v] -> [v] -> [v]
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getDifference getKey left right =
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M.elems $ M.difference (mkMap left) (mkMap right)
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where
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mkMap = M.fromList . map (\v -> (getKey v, v))
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data ComputedFieldDiff
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= ComputedFieldDiff
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{ _cfdDropped :: [ComputedFieldName]
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, _cfdAltered :: [(ComputedFieldMeta, ComputedFieldMeta)]
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, _cfdOverloaded :: [(ComputedFieldName, QualifiedFunction)]
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} deriving (Show, Eq)
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data TableDiff (b :: BackendType)
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= TableDiff
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{ _tdNewName :: !(Maybe QualifiedTable)
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, _tdDroppedCols :: ![Column b]
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, _tdAddedCols :: ![RawColumnInfo b]
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, _tdAlteredCols :: ![(RawColumnInfo b, RawColumnInfo b)]
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, _tdDroppedFKeyCons :: ![ConstraintName]
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, _tdComputedFields :: !ComputedFieldDiff
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-- The final list of uniq/primary constraint names
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-- used for generating types on_conflict clauses
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-- TODO: this ideally should't be part of TableDiff
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, _tdUniqOrPriCons :: ![ConstraintName]
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, _tdNewDescription :: !(Maybe PGDescription)
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}
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getTableDiff :: TableMeta 'Postgres -> TableMeta 'Postgres -> TableDiff 'Postgres
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getTableDiff oldtm newtm =
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TableDiff mNewName droppedCols addedCols alteredCols
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droppedFKeyConstraints computedFieldDiff uniqueOrPrimaryCons mNewDesc
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where
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mNewName = bool (Just $ tmTable newtm) Nothing $ tmTable oldtm == tmTable newtm
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oldCols = _ptmiColumns $ tmInfo oldtm
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newCols = _ptmiColumns $ tmInfo newtm
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uniqueOrPrimaryCons = map _cName $
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maybeToList (_pkConstraint <$> _ptmiPrimaryKey (tmInfo newtm))
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<> toList (_ptmiUniqueConstraints $ tmInfo newtm)
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mNewDesc = _ptmiDescription $ tmInfo newtm
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droppedCols = map prciName $ getDifference prciPosition oldCols newCols
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addedCols = getDifference prciPosition newCols oldCols
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existingCols = getOverlap prciPosition oldCols newCols
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alteredCols = filter (uncurry (/=)) existingCols
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-- foreign keys are considered dropped only if their oid
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-- and (ref-table, column mapping) are changed
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droppedFKeyConstraints = map (_cName . _fkConstraint) $ HS.toList $
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droppedFKeysWithOid `HS.intersection` droppedFKeysWithUniq
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tmForeignKeys = fmap unForeignKeyMetadata . toList . _ptmiForeignKeys . tmInfo
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droppedFKeysWithOid = HS.fromList $
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(getDifference (_cOid . _fkConstraint) `on` tmForeignKeys) oldtm newtm
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droppedFKeysWithUniq = HS.fromList $
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(getDifference mkFKeyUniqId `on` tmForeignKeys) oldtm newtm
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mkFKeyUniqId (ForeignKey _ reftn colMap) = (reftn, colMap)
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-- calculate computed field diff
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oldComputedFieldMeta = tmComputedFields oldtm
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newComputedFieldMeta = tmComputedFields newtm
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droppedComputedFields = map ccmName $
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getDifference (fmOid . ccmFunctionMeta) oldComputedFieldMeta newComputedFieldMeta
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alteredComputedFields =
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getOverlap (fmOid . ccmFunctionMeta) oldComputedFieldMeta newComputedFieldMeta
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overloadedComputedFieldFunctions =
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let getFunction = fmFunction . ccmFunctionMeta
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getSecondElement (_ NE.:| list) = listToMaybe list
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in mapMaybe (fmap ((&&&) ccmName getFunction) . getSecondElement) $
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flip NE.groupBy newComputedFieldMeta $ \l r ->
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ccmName l == ccmName r && getFunction l == getFunction r
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computedFieldDiff = ComputedFieldDiff droppedComputedFields alteredComputedFields
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overloadedComputedFieldFunctions
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getTableChangeDeps
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:: (QErrM m, CacheRM m)
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=> SourceName -> QualifiedTable -> TableDiff 'Postgres -> m [SchemaObjId]
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getTableChangeDeps source tn tableDiff = do
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sc <- askSchemaCache
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-- for all the dropped columns
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droppedColDeps <- fmap concat $ forM droppedCols $ \droppedCol -> do
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let objId = SOSourceObj source $ SOITableObj tn $ TOCol droppedCol
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return $ getDependentObjs sc objId
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-- for all dropped constraints
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droppedConsDeps <- fmap concat $ forM droppedFKeyConstraints $ \droppedCons -> do
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let objId = SOSourceObj source $ SOITableObj tn $ TOForeignKey droppedCons
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return $ getDependentObjs sc objId
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return $ droppedConsDeps <> droppedColDeps <> droppedComputedFieldDeps
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where
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TableDiff _ droppedCols _ _ droppedFKeyConstraints computedFieldDiff _ _ = tableDiff
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droppedComputedFieldDeps = map (SOSourceObj source . SOITableObj tn . TOComputedField) $ _cfdDropped computedFieldDiff
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data SchemaDiff (b :: BackendType)
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= SchemaDiff
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{ _sdDroppedTables :: ![QualifiedTable]
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, _sdAlteredTables :: ![(QualifiedTable, TableDiff b)]
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}
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getSchemaDiff :: [TableMeta 'Postgres] -> [TableMeta 'Postgres] -> SchemaDiff 'Postgres
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getSchemaDiff oldMeta newMeta =
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SchemaDiff droppedTables survivingTables
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where
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droppedTables = map tmTable $ getDifference (_ptmiOid . tmInfo) oldMeta newMeta
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survivingTables =
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flip map (getOverlap (_ptmiOid . tmInfo) oldMeta newMeta) $ \(oldtm, newtm) ->
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(tmTable oldtm, getTableDiff oldtm newtm)
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getSchemaChangeDeps
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:: (QErrM m, CacheRM m)
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=> SourceName -> SchemaDiff 'Postgres -> m [SchemaObjId]
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getSchemaChangeDeps source schemaDiff = do
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-- Get schema cache
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sc <- askSchemaCache
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let tableIds = map (SOSourceObj source . SOITable) droppedTables
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-- Get the dependent of the dropped tables
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let tableDropDeps = concatMap (getDependentObjs sc) tableIds
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tableModDeps <- concat <$> traverse (uncurry (getTableChangeDeps source)) alteredTables
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return $ filter (not . isDirectDep) $
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HS.toList $ HS.fromList $ tableDropDeps <> tableModDeps
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where
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SchemaDiff droppedTables alteredTables = schemaDiff
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isDirectDep (SOSourceObj s (SOITableObj tn _)) =
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s == source && tn `HS.member` HS.fromList droppedTables
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isDirectDep _ = False
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data FunctionDiff
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= FunctionDiff
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{ fdDropped :: ![QualifiedFunction]
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, fdAltered :: ![(QualifiedFunction, FunctionVolatility)]
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} deriving (Show, Eq)
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getFuncDiff :: [FunctionMeta] -> [FunctionMeta] -> FunctionDiff
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getFuncDiff oldMeta newMeta =
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FunctionDiff droppedFuncs alteredFuncs
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where
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droppedFuncs = map fmFunction $ getDifference fmOid oldMeta newMeta
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alteredFuncs = mapMaybe mkAltered $ getOverlap fmOid oldMeta newMeta
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mkAltered (oldfm, newfm) =
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let isTypeAltered = fmType oldfm /= fmType newfm
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alteredFunc = (fmFunction oldfm, fmType newfm)
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in bool Nothing (Just alteredFunc) $ isTypeAltered
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getOverloadedFuncs
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:: [QualifiedFunction] -> [FunctionMeta] -> [QualifiedFunction]
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getOverloadedFuncs trackedFuncs newFuncMeta =
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toList $ duplicates $ map fmFunction trackedMeta
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where
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trackedMeta = flip filter newFuncMeta $ \fm ->
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fmFunction fm `elem` trackedFuncs
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