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|
module CPM.Diff.Behavior
( ComparisonInfo (..)
, getBaseTemp
, genCurryCheckProgram
, diffBehavior
, preparePackageDirs
, preparePackageAndDir
, preparePackages
, findFunctionsToCompare
) where
import Char ( isAlphaNum )
import Directory ( createDirectory, doesDirectoryExist )
import FilePath ( (</>), joinPath )
import Function ( both )
import List ( intercalate, intersect, nub, splitOn, isPrefixOf, isInfixOf
, find, delete, (\\), nubBy )
import Maybe ( isJust, fromJust, fromMaybe, listToMaybe )
import System ( getEnviron, setEnviron, unsetEnviron )
import AbstractCurry.Build
import AbstractCurry.Pretty ( defaultOptions, ppCTypeExpr, showCProg )
import AbstractCurry.Select ( publicFuncNames, funcName, functions, funcArity
, funcType, argTypes, typeName, types, tconsOfType
, tconsArgsOfType, resultType, isIOType
, typeOfQualType )
import AbstractCurry.Transform (updCFuncDecl)
import AbstractCurry.Types ( CurryProg (..), CFuncDecl (..), CVisibility (..)
, CTypeExpr (..), CPattern (..), CExpr (..)
, CTypeDecl (..), CConsDecl (..), CFieldDecl (..)
, CVarIName, QName)
import Analysis.Types ( Analysis )
import Analysis.ProgInfo ( ProgInfo, emptyProgInfo, combineProgInfo
, lookupProgInfo)
import Analysis.Termination ( productivityAnalysis, Productivity(..) )
import Analysis.TypeUsage ( typesInValuesAnalysis )
import CASS.Server ( analyzeGeneric )
import System.CurryPath ( lookupModuleSource )
import Text.Pretty ( pPrint, text, indent, vcat, (<+>), (<$$>) )
import CPM.AbstractCurry ( readAbstractCurryFromDeps, loadPathForPackage )
import CPM.Config ( Config (curryExec) )
import CPM.Diff.API as APIDiff
import CPM.Diff.CurryComments (readComments, getFuncComment)
import CPM.Diff.Rename (prefixPackageAndDeps)
import CPM.ErrorLogger
import CPM.FileUtil ( copyDirectory, recreateDirectory, inDirectory
, joinSearchPath, tempDir )
import CPM.Package ( Package, Version, name, version, showVersion, packageId
, exportedModules, loadPackageSpec)
import CPM.PackageCache.Global as GC
import CPM.PackageCopy (resolveAndCopyDependencies)
import CPM.Repository (Repository)
data ComparisonInfo = ComparisonInfo
{ infPackageA :: Package
, infPackageB :: Package
, infDirA :: String
, infDirB :: String
, infSourceDirA :: String
, infSourceDirB :: String
, infPrefixA :: String
, infPrefixB :: String
, infModMapA :: [(String, String)]
, infModMapB :: [(String, String)]
}
getBaseTemp :: IO (ErrorLogger String)
getBaseTemp = do
tmpdir <- tempDir
succeedIO $ tmpdir </> "bdiff"
createBaseTemp :: IO (ErrorLogger String)
createBaseTemp =
getBaseTemp |>= \tmp -> recreateDirectory tmp >> succeedIO tmp
infoText :: String
infoText = unlines
[ "Running behavior diff where the raw output of CurryCheck is shown."
, "The test operations are named after the operations they compare."
, "If a test fails, their implementations semantically differ." ]
diffBehavior :: Config
-> Repository
-> GC.GlobalCache
-> ComparisonInfo
-> Bool
-> Bool
-> Maybe [String]
-> IO (ErrorLogger ())
diffBehavior cfg repo gc info groundequiv useanalysis cmods =
getBaseTemp |>= \baseTmp ->
findFunctionsToCompare cfg repo gc (infSourceDirA info) (infSourceDirB info)
useanalysis cmods |>=
\(acyCache, loadpath, funcs, removed) ->
let
filteredFuncs =
maybe funcs
(\mods -> filter ((`elem` mods) . fst . funcName . snd) funcs)
cmods
filteredNames = map snd filteredFuncs
in log Debug ("Filtered operations to be checked: " ++
showFuncNames filteredNames) |>
case funcs of
[] -> printRemoved removed >> succeedIO ()
_ -> do
putStrLn infoText
printRemoved removed
putStrLn $
"Comparing operations " ++ showFuncNames filteredNames ++ "\n"
genCurryCheckProgram cfg repo gc filteredFuncs info groundequiv
acyCache loadpath
|> callCurryCheck cfg info baseTmp
where
printRemoved removed =
if null removed then done
else putStrLn (renderRemoved removed) >> putStrLn ""
renderRemoved :: [(CFuncDecl, FilterReason)] -> String
renderRemoved rs =
pPrint $ text "The following operations are not compared:" <$$>
vcat (map renderReason rs)
where
renderReason (f, r) = indent 4 $ (text $ showQName (funcName f)) <+>
text "-" <+> reasonText r
reasonText NoReason = text "Unknown reason"
reasonText Diffing = text "Different function types or function missing"
reasonText NonMatchingTypes = text "Some types inside the function type differ"
reasonText HighArity = text "Arity too high"
reasonText IOAction = text "IO action"
reasonText NoCompare = text "Marked NOCOMPARE"
reasonText FuncArg = text "Takes functions as arguments"
reasonText NonTerm = text "Possibly non-terminating"
callCurryCheck :: Config -> ComparisonInfo -> String -> IO (ErrorLogger ())
callCurryCheck cfg info baseTmp = do
oldPath <- getEnviron "CURRYPATH"
let currybin = curryExec cfg
currypath = infDirA info ++ ":" ++ infDirB info
setEnviron "CURRYPATH" currypath
log Debug ("Run `curry check Compare' in `" ++ baseTmp ++ "' with") |>
log Debug ("CURRYPATH=" ++ currypath) |> succeedIO ()
ecode <- inDirectory baseTmp $ showExecCmd (currybin ++ " check Compare")
setEnviron "CURRYPATH" oldPath
log Debug "CurryCheck finished" |> succeedIO ()
if ecode==0
then succeedIO ()
else log Error "CurryCheck detected behavior error!"
genCurryCheckProgram :: Config
-> Repository
-> GC.GlobalCache
-> [(Bool,CFuncDecl)]
-> ComparisonInfo
-> Bool
-> ACYCache -> [String]
-> IO (ErrorLogger ())
genCurryCheckProgram cfg repo gc prodfuncs info groundequiv acyCache loadpath =
getBaseTemp |>= \baseTmp ->
let translatorGenerator = uncurry $ genTranslatorFunction cfg repo gc info in
foldEL translatorGenerator (acyCache, emptyTrans)
translateTypes |>= \(_, transMap) ->
let (limittypes,testFunctions) =
unzip (map (genTestFunction info groundequiv transMap) prodfuncs)
transFunctions = transFuncs transMap
limittconss = nub (concatMap tconsOfType (concat limittypes))
limittcmods = nub (map fst limittconss)
in
foldEL addLimitType (acyCache,[]) limittconss |>= \ (_,limittdecls) -> do
typeinfos <- analyzeModules "recursive type" typesInValuesAnalysis loadpath
limittcmods
let limitFunctions = concatMap (genLimitFunction typeinfos) limittdecls
prog = simpleCurryProg "Compare" imports []
(concat testFunctions ++ transFunctions ++
(if groundequiv then limitFunctions else []))
[]
let prodops = map snd (filter fst prodfuncs)
unless (null prodops) $ putStrLn $
"Productive operations (currently not fully supported for all types):\n" ++
showFuncNames prodops ++ "\n"
writeFile (baseTmp </> "Compare.curry")
(progcmts ++ "\n" ++ showCProg prog ++ "\n")
succeedIO ()
where
addLimitType (acy,tdecls) qn =
findTypeInModules cfg repo gc info acy qn |>= \ (acy',tdecl) ->
succeedIO (acy', tdecl:tdecls)
progcmts = unlines $ map ("-- "++)
[ "This file contains properties to compare packages"
, packageId (infPackageA info) ++
" and " ++ packageId (infPackageB info) ++ "."
, ""
, "It should be processed by 'curry check Compare' with setting"
, "export CURRYPATH=" ++ infDirA info ++ ":" ++ infDirB info
]
allReferencedTypes =
nub ((concat $ map (argTypes . typeOfQualType . funcType . snd) prodfuncs)
++ map (resultType . typeOfQualType . funcType . snd) prodfuncs)
translateTypes = filter (needToTranslatePart info) allReferencedTypes
mods = map (fst . funcName . snd) prodfuncs
modsA = map (\mod -> (infPrefixA info) ++ "_" ++ mod) mods
modsB = map (\mod -> (infPrefixB info) ++ "_" ++ mod) mods
imports = modsA ++ modsB ++ ["Test.Prop"]
genLimitFunction :: ProgInfo [QName] -> CTypeDecl -> [CFuncDecl]
genLimitFunction typeinfos tdecl = case tdecl of
CType tc _ tvs consdecls _ ->
[stCmtFunc ("Limit operation for type " ++ tcname)
(transCTCon2Limit tc) (length tvs + 2) Private
(foldr (~>) (limitFunType (applyTC tc (map CTVar tvs)))
(map (limitFunType . CTVar) tvs))
(cdecls2rules tc tvs consdecls)]
_ -> error $ "Cannot generate limit function for type " ++ tcname
where
tcname = showQName (typeName tdecl)
limitFunType texp = baseType ("Nat","Nat") ~> texp ~> texp
var2limitfun (i,ti) = (i,"lf"++ti)
cdecls2rules tc tvs cdecls =
if null cdecls
then [simpleRule [CPVar (0,"_"), CPVar (1,"x")] (CVar (1,"x"))]
else concatMap (cdecl2rules tvs (nullaryConsOf cdecls)) cdecls
where
nullaryConsOf [] = error $ "Cannot generate limit operation for types " ++
"without nullary constructors: " ++ showQName tc
nullaryConsOf (CCons _ _ qc _ [] : _ ) = qc
nullaryConsOf (CCons _ _ _ _ (_:_) : cs) = nullaryConsOf cs
nullaryConsOf (CRecord _ _ _ _ _ : cs) = nullaryConsOf cs
cdecl2rules tvs tnull (CCons _ _ qc _ texps) =
let lfunargs = map (CPVar . var2limitfun) tvs
argvars = map (\i -> (i,"x"++show i)) [0 .. length texps - 1]
isRecursive t = t `elem` fromMaybe [] (lookupProgInfo t typeinfos)
isRecursiveCons = any isRecursive (concatMap tconsOfType texps)
in
(if isRecursiveCons
then [simpleRule (lfunargs ++ [CPComb ("Nat","Z") [],
CPComb qc (map CPVar argvars)])
(applyF tnull [])]
else []) ++
[simpleRule
(lfunargs ++ [if isRecursiveCons then CPComb ("Nat","S") [CPVar (0,"n")]
else CPVar (0,"n"),
CPComb qc (map CPVar argvars)])
(applyF qc (map (\ (te,v) -> applyE (type2LimOp te)
[CVar (0,"n"), CVar v]) (zip texps argvars)))]
cdecl2rules _ _ (CRecord _ _ qc _ _) =
error $ "Cannot generate limit operation for record field " ++ showQName qc
type2LimOp texp = case texp of
CTVar tv -> CVar (var2limitfun tv)
CFuncType _ _ ->
error "type2LimOp: cannot generate limit operation for function type"
_ -> maybe (error "type2LimOp: cannot generate limit operation for type application")
(\ (tc,ts) -> applyF (transCTCon2Limit tc) (map type2LimOp ts))
(tconsArgsOfType texp)
genTestFunction :: ComparisonInfo -> Bool -> TransMap -> (Bool, CFuncDecl)
-> ([CTypeExpr], [CFuncDecl])
genTestFunction info groundequiv tm (isprod,f) =
(if isprod && groundequiv then [newResultTypeA] else [],
if groundequiv
then
[stCmtFunc ("Check ground equivalence of operation " ++ fmod ++ "." ++
fname ++ if isprod then " up to a depth limit" else "")
(modName, testName ++ "_GroundEquiv") (realArity f) Private newType
[if isprod
then let limitvar = (100,"limit") in
simpleRule (if isprod then CPVar limitvar : vars else vars)
(applyF (easyCheckMod "<~>")
[applyE (type2LimitFunc newResultTypeA)
[CVar limitvar, callA],
applyE (type2LimitFunc newResultTypeA)
[CVar limitvar, callB]])
else simpleRule vars (applyF (easyCheckMod "<~>") [callA, callB])]
]
else
[stFunc testName1 (realArity f) Private
(replaceResultType newType newResultTypeB)
[simpleRule vars callA]
,stFunc testName2 (realArity f) Private
(replaceResultType newType newResultTypeB)
[simpleRule vars callB]
,stCmtFunc ("Check equivalence of operation " ++ fmod ++ "." ++ fname)
(modName, testName ++ "_Equivalent") 0 Private
(baseType (easyCheckMod "Prop"))
[simpleRule [] (applyF (easyCheckMod "<=>")
[constF testName1, constF testName2])]]
)
where
(fmod,fname) = funcName f
modName = "Compare"
testName = "test_" ++
combineTuple (both (replace' '.' '_') $ (fmod, encodeCurryId fname)) "_"
testName1 = (modName, testName++"_1")
testName2 = (modName, testName++"_2")
vars = pVars (realArity f)
modA = infPrefixA info ++ "_" ++ fmod
modB = infPrefixB info ++ "_" ++ fmod
instantiatedFunc = instantiateBool $ typeOfQualType $ funcType f
newResultTypeA = mapTypes (infModMapA info)
(instantiateBool (resultType (typeOfQualType (funcType f))))
newResultTypeB = mapTypes (infModMapB info)
(instantiateBool (resultType (typeOfQualType (funcType f))))
newType = let ftype = mapTypes (infModMapA info) $ genTestFuncType f
in if isprod then baseType ("Nat","Nat") ~> ftype
else ftype
returnTransform = case findTrans tm (resultType $ instantiatedFunc) of
Nothing -> id
Just tr -> \t -> applyF (modName, tr) [t]
callA = returnTransform $ applyF (modA, fname)
$ map (\(CPVar v) -> CVar v) vars
callB = applyF (modB, fname) $ map transformedVar
$ zip (argTypes $ instantiatedFunc) vars
transformedVar (texp,exp) = case (texp,exp) of
(CTVar _, CPVar v) -> CVar v
(CFuncType _ _, CPVar v) -> CVar v
(_, CPVar v) ->
maybe (CVar v)
(\_ -> case findTrans tm texp of
Just n -> applyF (modName, n) [CVar v]
Nothing -> CVar v)
(tconsArgsOfType texp)
_ -> error "CPM.Diff.Behavior.transformedVar: This case should be impossible to reach"
encodeCurryId :: String -> String
encodeCurryId [] = []
encodeCurryId (c:cs)
| isAlphaNum c || c == '_' = c : encodeCurryId cs
| otherwise = let oc = ord c
in int2hex (oc `div` 16) : int2hex (oc `mod` 16) : encodeCurryId cs
where
int2hex i = if i<10 then chr (ord '0' + i)
else chr (ord 'A' + i - 10)
needToTranslatePart :: ComparisonInfo -> CTypeExpr -> Bool
needToTranslatePart _ (CTVar _) = False
needToTranslatePart info (CFuncType e1 e2) =
needToTranslatePart info e1 || needToTranslatePart info e2
needToTranslatePart info (CTApply e1 e2) =
needToTranslatePart info e1 || needToTranslatePart info e2
needToTranslatePart info (CTCons n) =
isMappedType info n
isMappedType :: ComparisonInfo -> (String, String) -> Bool
isMappedType info (mod, _) = isJust $ lookup mod (infModMapA info)
data TransMap = TransMap [(CTypeExpr, String)] Int [CFuncDecl]
emptyTrans :: TransMap
emptyTrans = TransMap [] 0 []
addEntry :: TransMap -> CTypeExpr -> (TransMap, String)
addEntry (TransMap m n fs) e =
(TransMap ((e, "tt_" ++ show n) : m) (n + 1) fs, "tt_" ++ show n)
addFunc :: TransMap -> CFuncDecl -> TransMap
addFunc (TransMap m n fs) f = TransMap m n (f:fs)
findTrans :: TransMap -> CTypeExpr -> Maybe String
findTrans (TransMap m _ _) e = lookup e m
transFuncs :: TransMap -> [CFuncDecl]
transFuncs (TransMap _ _ fs) = fs
predefinedType :: (String, String) -> Maybe CTypeDecl
predefinedType x = case x of
("Prelude", "[]") -> Just $ CType ("Prelude", "[]") Public [(0, "a")] [
simpleCCons ("Prelude", "[]") Public []
, simpleCCons ("Prelude", ":") Public
[CTVar (0, "a"), listType (CTVar (0, "a"))]] []
("Prelude", "(,)") -> Just $ CType ("Prelude", "(,)") Public [(0, "a"), (1, "b")] [
simpleCCons ("Prelude", "(,)") Public [CTVar (0, "a"), CTVar (1, "b")]] []
("Prelude", "(,,)") -> Just $ CType ("Prelude", "(,,)") Public [(0, "a"), (1, "b"), (2, "c")] [
simpleCCons ("Prelude", "(,,)") Public [CTVar (0, "a"), CTVar (1, "b"), CTVar (2, "c")]] []
("Prelude", "(,,,)") -> Just $ CType ("Prelude", "(,,,)") Public [(0, "a"), (1, "b"), (2, "c"), (3, "d")] [
simpleCCons ("Prelude", "(,,,)") Public [CTVar (0, "a"), CTVar (1, "b"), CTVar (2, "c"), CTVar (3, "d")]] []
_ -> Nothing
data ACYCache = ACYCache [(String, [(String, CurryProg)])]
emptyACYCache :: ACYCache
emptyACYCache = ACYCache []
findModule :: String -> ACYCache -> Maybe CurryProg
findModule mod (ACYCache ps) = case lookup mod ps of
Nothing -> Nothing
Just ms -> listToMaybe $ map snd ms
findModuleDir :: String -> String -> ACYCache -> Maybe CurryProg
findModuleDir dir mod (ACYCache ps) = case lookup mod ps of
Nothing -> Nothing
Just ms -> lookup dir ms
addModule :: String -> CurryProg -> ACYCache -> ACYCache
addModule mod p (ACYCache ps) = case lookup mod ps of
Just _ -> ACYCache ps
Nothing -> ACYCache $ (mod, [("", p)]):ps
addModuleDir :: String -> String -> CurryProg -> ACYCache -> ACYCache
addModuleDir dir mod p (ACYCache ps) = case lookup mod ps of
Just ms -> case lookup dir ms of
Just _ -> ACYCache ps
Nothing -> ACYCache $ (mod, (dir, p):ms):(delete (mod, ms) ps)
Nothing -> ACYCache $ (mod, [(dir, p)]):ps
genTranslatorFunction :: Config
-> Repository
-> GC.GlobalCache
-> ComparisonInfo
-> ACYCache
-> TransMap
-> CTypeExpr
-> IO (ErrorLogger (ACYCache, TransMap))
genTranslatorFunction cfg repo gc info acy tm texp =
let (mod, n) = maybe
(error $ "CPM.Diff.Behavior.genTranslatorFunction: " ++
"cannot generate type translation function for type:\n" ++
pPrint (ppCTypeExpr defaultOptions texp))
fst
(tconsArgsOfType texp)
in
if isJust $ findTrans tm t'
then succeedIO (acy, tm)
else findTypeInModules cfg repo gc info acy (mod,n) |>=
\(acy', typeDecl) -> (succeedIO $ instantiate typeDecl t') |>=
\instTypeDecl -> (succeedIO $ addEntry tm t') |>=
\(tm', name) -> foldEL (uncurry $ genTranslatorFunction cfg repo gc info)
(acy', tm') (transExprs instTypeDecl) |>=
\(acy'', tm'') ->
let
aType = prefixMappedTypes (infPrefixA info) t'
bType = prefixMappedTypes (infPrefixB info) t'
fType = CFuncType aType bType
fName = ("Compare", name)
mapIfNeeded modMap m =
if isMappedType info (m, "") then fromJust $ lookup m modMap
else m
mapIfNeededA = mapIfNeeded (infModMapA info)
mapIfNeededB = mapIfNeeded (infModMapB info)
transformer (i,te) = case te of
CTVar _ -> CVar (i, "x" ++ show i)
CFuncType _ _ -> CVar (i, "x" ++ show i)
_ -> case findTrans tm'' te of
Nothing -> CVar (i, "x" ++ show i)
Just tn -> applyF ("Compare", tn) [CVar (i, "x" ++ show i)]
ruleForCons (CCons _ _ (m, cn) _ es) = simpleRule [pattern] call
where
pattern = CPComb (mapIfNeededA m, cn) (pVars (length es))
call = applyF (mapIfNeededB m, cn) $ map transformer
$ zip (take (length es) [0..]) es
ruleForCons (CRecord _ _ (m, cn) _ fs) = simpleRule [pattern] call
where
pattern = CPComb (mapIfNeededA m, cn) (pVars (length fs))
call = applyF (mapIfNeededB m, cn) $ map transformer
$ zip (take (length fs) [0..]) (map (\(CField _ _ es) -> es) fs)
synRule e = simpleRule [CPVar (0, "x0")] call
where
call = transformer (0, e)
in case instTypeDecl of
CType _ _ _ cs _ -> succeedIO $
(acy'', addFunc tm'' (stFunc fName 1 Public fType (map ruleForCons cs)))
CTypeSyn _ _ _ e -> succeedIO $
(acy'', addFunc tm'' (stFunc fName 1 Public fType [synRule e]))
CNewType _ _ _ c _ -> succeedIO $
(acy'', addFunc tm'' (stFunc fName 1 Public fType [ruleForCons c]))
where
t' = instantiateBool texp
transExprs cs = filter (needToTranslatePart info) $ nub $ extractExprs cs
extractExprs (CType _ _ _ es _) = concat $ map extractExprsCons es
extractExprs (CTypeSyn _ _ _ e) = [e]
extractExprs (CNewType _ _ _ c _) = extractExprsCons c
extractExprsCons (CCons _ _ _ _ es) = es
extractExprsCons (CRecord _ _ _ _ fs) = map (\(CField _ _ es) -> es) fs
prefixMappedTypes pre (CTCons (mod', n')) =
if isMappedType info (mod', n')
then CTCons (pre ++ "_" ++ mod', n')
else CTCons (mod', n')
prefixMappedTypes _ (CTVar v) = CTVar v
prefixMappedTypes pre (CFuncType e1 e2) =
CFuncType (prefixMappedTypes pre e1) (prefixMappedTypes pre e2)
prefixMappedTypes pre (CTApply e1 e2) =
CTApply (prefixMappedTypes pre e1) (prefixMappedTypes pre e2)
findTypeInModules :: Config -> Repository -> GC.GlobalCache -> ComparisonInfo
-> ACYCache -> QName -> IO (ErrorLogger (ACYCache, CTypeDecl))
findTypeInModules cfg repo gc info acy (mod,n) =
case predefinedType (mod, n) of
Just ty -> succeedIO (acy, ty)
Nothing ->
(case findModule mod acy of
Just p -> succeedIO $ p
Nothing -> fromELM (resolveAndCopyDependencies cfg repo gc
(infSourceDirA info)) |>= \deps ->
readAbstractCurryFromDeps (infSourceDirA info) deps mod >>=
succeedIO) |>= \prog ->
case filter ((== n) . snd . typeName) (types prog) of
[] -> failIO $ "No type defined '" ++ n ++ "' in module '"
++ mod ++ "'"
(x:_) -> succeedIO (addModule mod prog acy, x)
maybeReplaceVar :: [(CVarIName, CTypeExpr)] -> CTypeExpr -> CTypeExpr
maybeReplaceVar vm (CTVar v) = case lookup v vm of
Nothing -> CTVar v
Just e' -> e'
maybeReplaceVar _ (CTCons n) = CTCons n
maybeReplaceVar vm (CFuncType e1 e2) =
CFuncType (maybeReplaceVar vm e1) (maybeReplaceVar vm e2)
maybeReplaceVar vm (CTApply e1 e2) =
CTApply (maybeReplaceVar vm e1) (maybeReplaceVar vm e2)
instantiate :: CTypeDecl -> CTypeExpr -> CTypeDecl
instantiate tdecl texp = case texp of
CTVar _ -> error "CPM.Diff.Behavior.instantiate: Cannot instantiate CTVar"
CFuncType _ _ -> error "CPM.Diff.Behavior.instantiate: Cannot instantiate CFuncType"
_ -> maybe (error "CPM.Diff.Behavior.instantiate: Cannot instantiate CTApply")
(\ (_,texps) -> instantiate' tdecl texps)
(tconsArgsOfType texp)
where
instantiate' (CType n v vs cs d) es = CType n v vs (map cons cs) d
where
varMap = zip vs es
cons (CCons tvs ct n' v' es') =
CCons tvs ct n' v' $ map (maybeReplaceVar varMap) es'
cons (CRecord tvs ct n' v' fs') =
CRecord tvs ct n' v' $ map maybeReplaceField fs'
maybeReplaceField (CField n'' v'' e) =
CField n'' v'' $ maybeReplaceVar varMap e
instantiate' (CTypeSyn n v vs e) es =
CTypeSyn n v vs $ maybeReplaceVar varMap e
where
varMap = zip vs es
instantiate' (CNewType n v vs c d) es = CNewType n v vs (cons c) d
where
varMap = zip vs es
cons (CCons tvs ct n' v' es') =
CCons tvs ct n' v' $ map (maybeReplaceVar varMap) es'
cons (CRecord tvs ct n' v' fs') =
CRecord tvs ct n' v' $ map maybeReplaceField fs'
maybeReplaceField (CField n'' v'' e) =
CField n'' v'' $ maybeReplaceVar varMap e
mapTypes :: [(String,String)] -> CTypeExpr -> CTypeExpr
mapTypes mmap (CFuncType a b) = CFuncType (mapTypes mmap a) (mapTypes mmap b)
mapTypes mmap (CTApply a b) = CTApply (mapTypes mmap a) (mapTypes mmap b)
mapTypes _ v@(CTVar _) = v
mapTypes mmap (CTCons (m, n)) =
case lookup m mmap of
Nothing -> CTCons (m, n)
Just m' -> CTCons (m', n)
realArity :: CFuncDecl -> Int
realArity (CFunc _ _ _ t _) = arityOfType (typeOfQualType t)
realArity (CmtFunc _ _ _ _ t _) = arityOfType (typeOfQualType t)
arityOfType :: CTypeExpr -> Int
arityOfType (CFuncType _ b) = 1 + arityOfType b
arityOfType (CTVar _) = 0
arityOfType (CTCons _) = 0
arityOfType (CTApply _ _) = 0
type2LimitFunc :: CTypeExpr -> CExpr
type2LimitFunc texp = case texp of
CTVar _ ->
error "type2LimitFunc: cannot generate limit operation for type variable"
CFuncType _ _ ->
error "type2LimitFunc: cannot generate limit operation for function type"
_ -> maybe
(error
"type2LimitFunc: cannot generate limit operation for type application")
(\ (tc,ts) -> applyF (transCTCon2Limit tc) (map type2LimitFunc ts))
(tconsArgsOfType texp)
transCTCon2Limit :: QName -> QName
transCTCon2Limit (_,tcn) = ("Compare", "limit" ++ trans tcn)
where
trans n | n=="[]" = "List"
| n=="()" = "Unit"
| "(," `isPrefixOf` n = "Tuple" ++ show (length n - 1)
| otherwise = n
easyCheckMod :: String -> QName
easyCheckMod n = ("Test.Prop", n)
genTestFuncType :: CFuncDecl -> CTypeExpr
genTestFuncType f = replaceResultType t (baseType (easyCheckMod "Prop"))
where t = instantiateBool $ typeOfQualType $ funcType f
instantiateBool :: CTypeExpr -> CTypeExpr
instantiateBool (CTVar _) = boolType
instantiateBool (CTCons n) = CTCons n
instantiateBool (CTApply a b) = CTApply (instantiateBool a) (instantiateBool b)
instantiateBool (CFuncType a b) =
CFuncType (instantiateBool a) (instantiateBool b)
replaceResultType :: CTypeExpr -> CTypeExpr -> CTypeExpr
replaceResultType (CFuncType a (CTVar _)) z = CFuncType a z
replaceResultType (CFuncType a (CTCons _)) z = CFuncType a z
replaceResultType (CFuncType a (CTApply _ _)) z = CFuncType a z
replaceResultType (CFuncType a b@(CFuncType _ _)) z =
CFuncType a (replaceResultType b z)
replaceResultType (CTVar _) z = z
replaceResultType (CTCons _) z = z
replaceResultType (CTApply _ _) z = z
combineTuple :: (String, String) -> String -> String
combineTuple (a, b) s = a ++ s ++ b
showQName :: QName -> String
showQName qn = combineTuple qn "."
showFuncNames :: [CFuncDecl] -> String
showFuncNames = intercalate ", " . map (showQName . funcName)
replace' :: Eq a => a -> a -> [a] -> [a]
replace' _ _ [] = []
replace' o n (x:xs) | x == o = n : replace' o n xs
| otherwise = x : replace' o n xs
findFunctionsToCompare :: Config
-> Repository
-> GC.GlobalCache
-> String
-> String
-> Bool
-> Maybe [String]
-> IO (ErrorLogger (ACYCache, [String],
[(Bool,CFuncDecl)], [(CFuncDecl, FilterReason)]))
findFunctionsToCompare cfg repo gc dirA dirB useanalysis onlymods =
loadPackageSpec dirA |>= \pkgA ->
loadPackageSpec dirB |>= \pkgB ->
fromELM (resolveAndCopyDependencies cfg repo gc dirA) |>= \depsA ->
succeedIO (let cmods = intersect (exportedModules pkgA) (exportedModules pkgB)
in maybe cmods (intersect cmods) onlymods) |>= \mods ->
if null mods
then log Info "No exported modules to compare" |>
succeedIO (emptyACYCache,[],[],[])
else
log Info ("Comparing modules: "++ intercalate " " mods) |>
APIDiff.compareModulesInDirs cfg repo gc dirA dirB (Just mods) |>= \diffs ->
findAllFunctions dirA dirB pkgA depsA emptyACYCache mods |>=
\(acy, allFuncs) ->
log Debug ("All public functions: " ++ showFuncNames allFuncs) |>
let areDiffThenFilter = thenFilter allFuncs Diffing
areHighArityThenFilter = thenFilter allFuncs HighArity
areIOActionThenFilter = thenFilter allFuncs IOAction
areNoCompareThenFilter = thenFilter allFuncs NoCompare
areNonMatchingThenFilter = thenFilter allFuncs NonMatchingTypes
haveFuncArgThenFilter = thenFilter allFuncs FuncArg
in
(emptyFilter ((liftFilter $ filterDiffingFunctions diffs) acy allFuncs)
`areDiffThenFilter`
liftFilter filterHighArity `areHighArityThenFilter`
liftFilter filterIOAction `areIOActionThenFilter`
filterNoCompare dirA dirB depsA `areNoCompareThenFilter`
filterNonMatchingTypes dirA dirB depsA `areNonMatchingThenFilter`
filterFuncArg dirA dirB depsA `haveFuncArgThenFilter`
liftFilter id ) |>= terminationFilter pkgA dirA depsA useanalysis
terminationFilter :: Package -> String -> [Package] -> Bool
-> (ACYCache, [CFuncDecl], [(CFuncDecl, FilterReason)])
-> IO (ErrorLogger (ACYCache, [String], [(Bool,CFuncDecl)],
[(CFuncDecl, FilterReason)]))
terminationFilter _ _ _ False (a,fs,rm) =
succeedIO (a, [], map (\f->(False,f)) fs, rm)
terminationFilter pkgA dirA depsA True (acy, funcs, rm) = do
let currypath = loadPathForPackage pkgA dirA depsA
mods = nub (map (fst . funcName) funcs)
ainfo <- analyzeModules "productivity" productivityAnalysis currypath mods
modscmts <- mapIO (getCompare currypath) mods
let termfuns = concatMap (\md -> md ("TERMINATE" `isInfixOf`)) modscmts
prodfuns = concatMap (\md -> md ("PRODUCTIVE" `isInfixOf`)) modscmts
log Debug ("Functions marked with TERMINATE: " ++ showFuncNames termfuns)
|> succeedIO ()
log Debug ("Functions marked with PRODUCTIVE: " ++ showFuncNames prodfuns)
|> succeedIO ()
let infoOf f = fromMaybe Looping (lookupProgInfo (funcName f) ainfo)
ntfuncs = filter (\f -> infoOf f == Looping &&
f `notElem` termfuns && f `notElem` prodfuns)
funcs
succeedIO (acy, currypath,
map (\f -> (not (infoOf f == Terminating || f `elem` termfuns), f))
(funcs \\ ntfuncs),
rm ++ map (\f -> (f,NonTerm)) ntfuncs)
where
getCompare currypath modname = do
src <- lookupModuleSource currypath modname
(_,comments) <- case src of
Nothing -> error $ "Module not found: " ++ modname
Just (_, file) -> readComments file
return (\p -> filter (\f -> let (mn,fn) = funcName f
in mn == modname &&
p (getFuncComment fn comments))
funcs)
analyzeModules :: String -> Analysis a -> [String] -> [String]
-> IO (ProgInfo a)
analyzeModules ananame analysis currypath mods = do
log Debug ("Running " ++ ananame ++ " analysis on modules: " ++
intercalate ", " mods) |>
log Debug ("CURRYPATH=" ++ joinSearchPath currypath) |> succeedIO ()
anainfos <- mapIO (analyzeModule analysis currypath) mods
log Debug "Analysis finished" |> succeedIO ()
return $ foldr combineProgInfo emptyProgInfo anainfos
analyzeModule :: Analysis a -> [String] -> String -> IO (ProgInfo a)
analyzeModule analysis currypath mod = do
setEnviron "CURRYPATH" (joinSearchPath currypath)
aresult <- analyzeGeneric analysis mod
unsetEnviron "CURRYPATH"
either return
(\e -> do putStrLn "WARNING: error occurred during analysis:"
putStrLn e
putStrLn "Ignoring analysis information"
return emptyProgInfo)
aresult
emptyFilter :: IO (ErrorLogger (ACYCache, [CFuncDecl]))
-> IO (ErrorLogger (ACYCache, [CFuncDecl], [(CFuncDecl, FilterReason)]))
emptyFilter st = st |>= \(a, fs) -> succeedIO (a, fs, [])
data FilterReason = NoReason
| HighArity
| IOAction
| NoCompare
| NonMatchingTypes
| Diffing
| FuncArg
| NonTerm
thenFilter :: [CFuncDecl]
-> FilterReason
-> IO (ErrorLogger (ACYCache, [CFuncDecl], [(CFuncDecl, FilterReason)]))
-> (ACYCache -> [CFuncDecl] -> IO (ErrorLogger (ACYCache, [CFuncDecl])))
-> IO (ErrorLogger (ACYCache, [CFuncDecl], [(CFuncDecl, FilterReason)]))
thenFilter allFuncs r st f =
st |>=
\(a, fs, rm) -> f a fs |>=
\(a', fs') -> succeedIO (a', fs', rm ++ zip (findMissing rm fs) (repeat r))
where
findMissing rm fs = (allFuncs \\ (map fst rm)) \\ fs
liftFilter :: ([CFuncDecl] -> [CFuncDecl])
-> (ACYCache -> [CFuncDecl] -> IO (ErrorLogger (ACYCache, [CFuncDecl])))
liftFilter f = \a fs -> succeedIO (a, f fs)
filterFuncArg :: String -> String -> [Package] -> ACYCache -> [CFuncDecl]
-> IO (ErrorLogger (ACYCache, [CFuncDecl]))
filterFuncArg = filterFuncsDeep checkFunc
where
checkFunc (CFuncType _ _) = True
checkFunc (CTVar _) = False
checkFunc (CTCons _) = False
checkFunc (CTApply _ _) = False
filterFuncsDeep :: (CTypeExpr -> Bool) -> String -> String -> [Package]
-> ACYCache -> [CFuncDecl]
-> IO (ErrorLogger (ACYCache, [CFuncDecl]))
filterFuncsDeep tpred dirA _ deps acy allFuncs =
foldEL checkFunc (acy, [], []) allFuncs |>=
\(acy', _, fns) -> succeedIO (acy', fns)
where
findType n m = case predefinedType n of
Nothing -> find ((== n) . typeName) $ filter isTypePublic $ types m
Just ty -> Just ty
checkFunc (a, c, fs) f =
(foldEL checkTypeExpr (a, c, False) $ argTypes $ typeOfQualType $ funcType f) |>=
\(a', c', r) -> if r then succeedIO (a', c', fs)
else succeedIO (a', c', f:fs)
checkTypeExpr (a, c, r) t@(CFuncType e1 e2) =
if t `elem` c
then succeedIO (a, c, r)
else if tpred t
then succeedIO (a, c, True)
else checkTypeExpr (a, c, r) e1 |>=
\ (a', c', r') -> checkTypeExpr (a', e1:c', r') e2 |>=
\ (a'', c'', r'') -> succeedIO (a'', e2:c'', r || r' || r'')
checkTypeExpr (a, c, r) t@(CTApply e1 e2) =
if t `elem` c
then succeedIO (a, c, r)
else if tpred t
then succeedIO (a, c, True)
else checkTypeExpr (a, c, r) e1 |>=
\ (a', c', r') -> checkTypeExpr (a', e1:c', r') e2 |>=
\ (a'', c'', r'') -> succeedIO (a'', e2:c'', r || r' || r'')
checkTypeExpr (a, c, r) (CTVar _) = succeedIO (a, c, r)
checkTypeExpr (a, c, r) t@(CTCons n@(mod, _)) =
if t `elem` c
then succeedIO (a, c, r)
else if tpred t
then succeedIO (a, c, True)
else succeedIO (a, c, r) |>=
\(a', c', _) -> readCached dirA deps a' mod |>=
\(a'', prog) -> case findType n prog of
Nothing -> failIO $ "Type '" ++ show n ++ "' not found."
Just t' -> checkType a'' (t:c') t' |>=
\(a''', c'', r'') -> succeedIO (a''', c'', r || r'')
checkType a ts (CType _ _ _ cs _) = foldEL checkCons (a, ts, False) cs
checkType a ts (CTypeSyn _ _ _ e) = checkTypeExpr (a, ts, False) e
checkType a ts (CNewType _ _ _ c _) = checkCons (a, ts, False) c
checkCons (a, ts, r) (CCons _ _ _ _ es) = foldEL checkTypeExpr (a, ts, r) es
checkCons (a, ts, r) (CRecord _ _ _ _ fs) =
let es = map (\(CField _ _ e) -> e) fs
in foldEL checkTypeExpr (a, ts, r) es
filterNoCompare :: String -> String -> [Package] -> ACYCache -> [CFuncDecl]
-> IO (ErrorLogger (ACYCache, [CFuncDecl]))
filterNoCompare dirA dirB _ a fs =
mapIO (readComments . modPath dirA) modules >>= \allCommentsA ->
mapIO (readComments . modPath dirB) modules >>= \allCommentsB ->
let commentsA = funcsWithComments $ zip modules allCommentsA
commentsB = funcsWithComments $ zip modules allCommentsB
in succeedIO $ (a, filter (not . noCompare commentsA commentsB) fs)
where
modules = nub $ map (fst . funcName) fs
modPath dir mod = dir </> "src" </> joinPath (splitOn "." mod) ++ ".curry"
funcsWithComments cmts = zip fs (map (getFuncComment' cmts) fs)
getFuncComment' cmts f =
let
mname = fst $ funcName f
lname = snd $ funcName f
in case lookup mname cmts of
Nothing -> ""
Just cs -> getFuncComment lname $ snd cs
noCompare cmtsA cmtsB f = noCompare' cmtsA f || noCompare' cmtsB f
noCompare' cmts f = case lookup f cmts of
Nothing -> False
Just c -> "NOCOMPARE" `isInfixOf` c
filterHighArity :: [CFuncDecl] -> [CFuncDecl]
filterHighArity = filter ((<= 5) . length . argTypes . typeOfQualType . funcType)
filterIOAction :: [CFuncDecl] -> [CFuncDecl]
filterIOAction = filter (not . isIOType . resultType . typeOfQualType . funcType)
filterDiffingFunctions :: [(String, Differences)] -> [CFuncDecl] -> [CFuncDecl]
filterDiffingFunctions diffs allFuncs = nub $ concatMap filterModule modules
where
modules = nub $ map (fst . funcName) allFuncs
diffsForModule mod = case lookup mod diffs of
Nothing -> []
Just (_, funcDiffs, _, _) -> map funcDiffName funcDiffs
funcDiffName (Addition f) = funcName f
funcDiffName (Removal f) = funcName f
funcDiffName (Change _ f) = funcName f
filterModule mod = filter (not . (`elem` (diffsForModule mod)) . funcName)
(funcsForModule mod)
funcsForModule mod = filter ((== mod) . fst . funcName) allFuncs
filterNonMatchingTypes :: String -> String -> [Package] -> ACYCache
-> [CFuncDecl] -> IO (ErrorLogger (ACYCache, [CFuncDecl]))
filterNonMatchingTypes dirA dirB deps acyCache allFuncs =
foldEL funcTypesCompatible (acyCache, [], []) allFuncs |>=
\(acy, _, fns) -> succeedIO (acy, fns)
where
allTypes f = let ft = typeOfQualType (funcType f)
in (resultType ft) : (argTypes ft)
onlyCons = filter isConsType
funcTypesCompatible (a, seen, fs) f =
(foldEL typesCompatible (a, seen, True) $ onlyCons $ allTypes f) |>=
\(a', seen', c) -> if c
then succeedIO (a', seen', f:fs)
else succeedIO (a', seen', fs)
typesCompatible (a, seen, r) t = case lookup t seen of
Just b -> succeedIO (a, seen, b && r)
Nothing -> typesEqual t dirA dirB deps a [] |>=
\(a', r') -> succeedIO (a', ((t, r'):seen), r' && r)
typesEqual :: CTypeExpr -> String -> String -> [Package] -> ACYCache
-> [CTypeExpr] -> IO (ErrorLogger (ACYCache, Bool))
typesEqual texp dirA dirB deps acyCache checked =
maybe (failIO $ "typesEqual not called on type constructor: " ++ show texp)
(succeedIO . fst)
(tconsArgsOfType texp) |>= \n -> let (mod,_) = n in
if texp `elem` checked
then succeedIO (acyCache, True)
else readCached dirA deps acyCache mod |>= \(acy',modA) ->
readCached dirB deps acy' mod |>= \(acy'', modB) ->
let typeA = findType n modA
typeB = findType n modB
in typesEqual' typeA typeB acy''
where
findType n m = case predefinedType n of
Nothing -> find ((== n) . typeName) $ filter isTypePublic $ types m
Just ty -> Just ty
typesEqual' :: Maybe CTypeDecl -> Maybe CTypeDecl -> ACYCache
-> IO (ErrorLogger (ACYCache, Bool))
typesEqual' (Just (CType n1 v1 tvs1 cs1 _)) (Just (CType n2 v2 tvs2 cs2 _))
acy =
if n1 == n2 && v1 == v2 && tvs1 == tvs2 && cs1 == cs2
then foldEL (\(a, r) (c1, c2) -> consEqual a c1 c2 |>= \(a', r') ->
succeedIO (a', r && r')) (acy, True) (zip cs1 cs2)
else succeedIO (acy, False)
typesEqual' (Just (CTypeSyn n1 v1 tvs1 e1))
(Just (CTypeSyn n2 v2 tvs2 e2)) acy =
if n1 == n2 && v1 == v2 && tvs1 == tvs2 && e1 == e2
then if isConsType e1
then typesEqual e1 dirA dirB deps acy (texp:checked)
else succeedIO (acy, True)
else succeedIO (acy, False)
typesEqual' (Just (CNewType n1 v1 tvs1 c1 _))
(Just (CNewType n2 v2 tvs2 c2 _)) acy =
if n1 == n2 && v1 == v2 && tvs1 == tvs2 && c1 == c2
then consEqual acy c1 c2
else succeedIO (acy, False)
typesEqual' (Just (CType _ _ _ _ _)) (Just (CTypeSyn _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' (Just (CType _ _ _ _ _)) (Just (CNewType _ _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' (Just (CTypeSyn _ _ _ _)) (Just (CType _ _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' (Just (CTypeSyn _ _ _ _)) (Just (CNewType _ _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' (Just (CNewType _ _ _ _ _)) (Just (CType _ _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' (Just (CNewType _ _ _ _ _)) (Just (CTypeSyn _ _ _ _)) acy =
succeedIO (acy, False)
typesEqual' Nothing (Just _) acy = succeedIO (acy, False)
typesEqual' (Just _) Nothing acy = succeedIO (acy, False)
typesEqual' Nothing Nothing acy = succeedIO (acy, False)
consEqual :: ACYCache -> CConsDecl -> CConsDecl
-> IO (ErrorLogger (ACYCache, Bool))
consEqual acy (CCons _ _ _ _ es1) (CCons _ _ _ _ es2) =
foldEL esEqual (acy, True) (zip es1 es2)
where
esEqual (a, r) (e1, e2) = if e1 == e2
then if isConsType e1
then typesEqual e1 dirA dirB deps a (texp:checked)
else succeedIO (acy, r)
else succeedIO (acy, False)
consEqual acy (CRecord _ _ _ _ fs1) (CRecord _ _ _ _ fs2) =
foldEL fEqual (acy, True) (zip fs1 fs2)
where
fEqual (a, r) (f1@(CField _ _ e1), f2@(CField _ _ _)) = if f1 == f2
then if isConsType e1
then typesEqual e1 dirA dirB deps a (texp:checked)
else succeedIO (acy, r)
else succeedIO (acy, False)
consEqual acy (CCons _ _ _ _ _) (CRecord _ _ _ _ _) = succeedIO (acy, False)
consEqual acy (CRecord _ _ _ _ _) (CCons _ _ _ _ _) = succeedIO (acy, False)
isTypePublic :: CTypeDecl -> Bool
isTypePublic (CType _ v _ _ _) = v == Public
isTypePublic (CTypeSyn _ v _ _) = v == Public
isTypePublic (CNewType _ v _ _ _) = v == Public
isConsType :: CTypeExpr -> Bool
isConsType (CTCons _) = True
isConsType (CTVar _) = False
isConsType (CFuncType _ _) = False
isConsType (CTApply t _) = isConsType t
readCached :: String -> [Package] -> ACYCache -> String
-> IO (ErrorLogger (ACYCache, CurryProg))
readCached dir deps acyCache mod = case findModuleDir dir mod acyCache of
Just p -> succeedIO (acyCache, p)
Nothing -> do prog <- readAbstractCurryFromDeps dir deps mod
succeedIO (addModuleDir dir mod prog acyCache, prog)
findAllFunctions :: String -> String -> Package -> [Package] -> ACYCache
-> [String] -> IO (ErrorLogger (ACYCache, [CFuncDecl]))
findAllFunctions dirA dirB _ deps acyCache mods =
log Debug ("Finding public functions of modules: " ++ intercalate "," mods) |>
log Debug ("in package directories " ++ dirA ++ " and " ++ dirB) |>
foldEL findForMod (acyCache, []) mods |>=
\(a, fs) -> succeedIO (a, nub fs)
where
findForMod (acy,fdecls) mod =
readCached dirA deps acy mod |>= \(_, progA) ->
readCached dirB deps acy mod |>= \(acy'', progB) ->
let funcsA = filter isPublic $ functions progA
funcsB = filter isPublic $ functions progB
in succeedIO (acy'', fdecls ++ nubBy (\a b -> funcName a == funcName b)
(funcsA ++ funcsB))
isPublic :: CFuncDecl -> Bool
isPublic (CFunc _ _ Public _ _) = True
isPublic (CFunc _ _ Private _ _) = False
isPublic (CmtFunc _ _ _ Public _ _) = True
isPublic (CmtFunc _ _ _ Private _ _) = False
preparePackages :: Config
-> Repository
-> GC.GlobalCache
-> String
-> Version
-> String
-> Version
-> IO (ErrorLogger ComparisonInfo)
preparePackages cfg repo gc nameA verA nameB verB =
GC.tryFindPackage gc nameA verA |>= \pkgA ->
findPackageDir cfg pkgA |>= \dirA ->
GC.tryFindPackage gc nameB verB |>= \pkgB ->
findPackageDir cfg pkgB |>= \dirB ->
preparePackageDirs cfg repo gc dirA dirB
preparePackageAndDir :: Config
-> Repository
-> GC.GlobalCache
-> String
-> String
-> Version
-> IO (ErrorLogger ComparisonInfo)
preparePackageAndDir cfg repo gc dirA nameB verB =
GC.tryFindPackage gc nameB verB |>= \pkgB ->
findPackageDir cfg pkgB |>= \dirB ->
preparePackageDirs cfg repo gc dirA dirB
preparePackageDirs :: Config
-> Repository
-> GC.GlobalCache
-> String
-> String
-> IO (ErrorLogger ComparisonInfo)
preparePackageDirs cfg repo gc dirA dirB =
createBaseTemp |>= \baseTmp ->
loadPackageSpec dirA |>= \specA ->
loadPackageSpec dirB |>= \specB ->
let versionPrefixA = versionPrefix specA
versionPrefixB = versionPrefix specB
copyDirA = baseTmp </> ("src_" ++ versionPrefixA)
copyDirB = baseTmp </> ("src_" ++ versionPrefixB)
destDirA = baseTmp </> ("dest_" ++ versionPrefixA)
destDirB = baseTmp </> ("dest_" ++ versionPrefixB)
in
log Debug ("Copying " ++ packageId specA ++
" from " ++ dirA ++ " into " ++ copyDirA) |>
log Debug ("and transforming it into " ++ destDirA) |>
log Debug ("Copying " ++ packageId specB ++
" from " ++ dirB ++ " into " ++ copyDirB) |>
log Debug ("and transforming it into " ++ destDirB) |>
copyAndPrefixPackage cfg repo gc dirA versionPrefixA
copyDirA destDirA |>= \modMapA ->
copyAndPrefixPackage cfg repo gc dirB versionPrefixB
copyDirB destDirB |>= \modMapB ->
succeedIO $ ComparisonInfo
{ infPackageA = specA
, infPackageB = specB
, infDirA = destDirA
, infDirB = destDirB
, infSourceDirA = copyDirA
, infSourceDirB = copyDirB
, infPrefixA = versionPrefixA
, infPrefixB = versionPrefixB
, infModMapA = modMapA
, infModMapB = modMapB }
versionPrefix :: Package -> String
versionPrefix pkg = "V_" ++ (showVersion' $ version pkg)
copyAndPrefixPackage :: Config
-> Repository
-> GC.GlobalCache
-> String
-> String
-> String
-> String
-> IO (ErrorLogger [(String, String)])
copyAndPrefixPackage cfg repo gc pkgDir prefix srcDir destDir =
copyDirectory pkgDir srcDir >> createDirectory destDir >> succeedIO () |>
prefixPackageAndDeps cfg repo gc srcDir (prefix ++ "_") destDir
showVersion' :: Version -> String
showVersion' (maj, min, pat, Nothing) =
intercalate "_" [show maj, show min, show pat]
showVersion' (maj, min, pat, Just pre) =
intercalate "_" [show maj, show min, show pat, pre]
findPackageDir :: Config -> Package -> IO (ErrorLogger String)
findPackageDir cfg pkg = do
exists <- doesDirectoryExist srcDir
if not exists
then failIO $ "Package " ++ (packageId pkg) ++ " not installed"
else succeedIO srcDir
where
srcDir = GC.installedPackageDir cfg pkg
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