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|
----------------------------------------------------------------------
-- |
-- Module : (Module)
-- Maintainer : (Maintainer)
-- Stability : (stable)
-- Portability : (portable)
--
-- > CVS $Date $
-- > CVS $Author $
-- > CVS $Revision $
--
-- (Description of the module)
-----------------------------------------------------------------------------
module ModDeps where
import Grammar
import Ident
import Option
import PrGrammar
import Update
import Lookup
import Modules
import Operations
import Monad
import List
-- AR 13/5/2003
-- to check uniqueness of module names and import names, the
-- appropriateness of import and extend types,
-- to build a dependency graph of modules, and to sort them topologically
mkSourceGrammar :: [(Ident,SourceModInfo)] -> Err SourceGrammar
mkSourceGrammar ms = do
let ns = map fst ms
checkUniqueErr ns
mapM (checkUniqueImportNames ns . snd) ms
deps <- moduleDeps ms
deplist <- either
return
(\ms -> Bad $ "circular modules" +++ unwords (map show ms)) $
topoTest deps
return $ MGrammar [(m, maybe undefined id $ lookup m ms) | IdentM m _ <- deplist]
checkUniqueErr :: (Show i, Eq i) => [i] -> Err ()
checkUniqueErr ms = do
let msg = checkUnique ms
if null msg then return () else Bad $ unlines msg
-- check that import names don't clash with module names
checkUniqueImportNames :: [Ident] -> SourceModInfo -> Err ()
checkUniqueImportNames ns mo = case mo of
ModMod m -> test [n | OQualif _ n v <- opens m, n /= v]
where
test ms = testErr (all (`notElem` ns) ms)
("import names clashing with module names among" +++
unwords (map prt ms))
-- to decide what modules immediately depend on what, and check if the
-- dependencies are appropriate
type Dependencies = [(IdentM Ident,[IdentM Ident])]
moduleDeps :: [(Ident,SourceModInfo)] -> Err Dependencies
moduleDeps ms = mapM deps ms where
deps (c,mi) = errIn ("checking dependencies of module" +++ prt c) $ case mi of
ModMod m -> case mtype m of
MTConcrete a -> do
aty <- lookupModuleType gr a
testErr (aty == MTAbstract) "the for-module is not an abstract syntax"
chDep (IdentM c (MTConcrete a))
(extends m) (MTConcrete a) (opens m) MTResource
t -> chDep (IdentM c t) (extends m) t (opens m) t
chDep it es ety os oty = do
ests <- mapM (lookupModuleType gr) es
testErr (all (compatMType ety) ests) "inappropriate extension module type"
osts <- mapM (lookupModuleType gr . openedModule) os
testErr (all (compatOType oty) osts) "inappropriate open module type"
let ab = case it of
IdentM _ (MTConcrete a) -> [IdentM a MTAbstract]
_ -> [] ----
return (it, ab ++
[IdentM e ety | e <- es] ++
[IdentM (openedModule o) oty | o <- os])
-- check for superficial compatibility, not submodule relation etc: what can be extended
compatMType mt0 mt = case (mt0,mt) of
(MTConcrete _, MTConcrete _) -> True
(MTInstance _, MTInstance _) -> True
(MTReuse _, MTReuse _) -> True
(MTInstance _, MTResource) -> True
(MTResource, MTInstance _) -> True
---- some more?
_ -> mt0 == mt
-- in the same way; this defines what can be opened
compatOType mt0 mt = case mt0 of
MTAbstract -> mt == MTAbstract
MTTransfer _ _ -> mt == MTAbstract
_ -> case mt of
MTResource -> True
MTReuse _ -> True
MTInterface -> True
MTInstance _ -> True
_ -> False
gr = MGrammar ms --- hack
openInterfaces :: Dependencies -> Ident -> Err [Ident]
openInterfaces ds m = do
let deps = [(i,ds) | (IdentM i _,ds) <- ds]
let more (c,_) = [(i,mt) | Just is <- [lookup c deps], IdentM i mt <- is]
let mods = iterFix (concatMap more) (more (m,undefined))
return $ [i | (i,MTInterface) <- mods]
-- this function finds out what modules are really needed in the canoncal gr.
-- its argument is typically a concrete module name
requiredCanModules :: (Eq i, Show i) => MGrammar i f a -> i -> [i]
requiredCanModules gr = nub . iterFix (concatMap more) . singleton where
more i = errVal [] $ do
m <- lookupModMod gr i
return $ extends m ++ map openedModule (opens m)
{-
-- to test
exampleDeps = [
(ir "Nat",[ii "Gen", ir "Adj"]),
(ir "Adj",[ii "Num", ii "Gen", ir "Nou"]),
(ir "Nou",[ii "Cas"])
]
ii s = IdentM (IC s) MTInterface
ir s = IdentM (IC s) MTResource
-}
|
