module Distribution.Types.Component (
Component(..),
foldComponent,
componentBuildInfo,
componentBuildable,
componentName,
partitionComponents,
) where
import Prelude ()
import Distribution.Compat.Prelude
import Distribution.Types.Library
import Distribution.Types.ForeignLib
import Distribution.Types.Executable
import Distribution.Types.TestSuite
import Distribution.Types.Benchmark
import Distribution.Types.ComponentName
import Distribution.Types.BuildInfo
data Component = CLib Library
| CFLib ForeignLib
| CExe Executable
| CTest TestSuite
| CBench Benchmark
deriving (Show, Eq, Read)
instance Semigroup Component where
CLib l <> CLib l' = CLib (l <> l')
CFLib l <> CFLib l' = CFLib (l <> l')
CExe e <> CExe e' = CExe (e <> e')
CTest t <> CTest t' = CTest (t <> t')
CBench b <> CBench b' = CBench (b <> b')
_ <> _ = error "Cannot merge Component"
foldComponent :: (Library -> a)
-> (ForeignLib -> a)
-> (Executable -> a)
-> (TestSuite -> a)
-> (Benchmark -> a)
-> Component
-> a
foldComponent f _ _ _ _ (CLib lib) = f lib
foldComponent _ f _ _ _ (CFLib flib)= f flib
foldComponent _ _ f _ _ (CExe exe) = f exe
foldComponent _ _ _ f _ (CTest tst) = f tst
foldComponent _ _ _ _ f (CBench bch) = f bch
componentBuildInfo :: Component -> BuildInfo
componentBuildInfo =
foldComponent libBuildInfo foreignLibBuildInfo buildInfo testBuildInfo benchmarkBuildInfo
componentBuildable :: Component -> Bool
componentBuildable = buildable . componentBuildInfo
componentName :: Component -> ComponentName
componentName =
foldComponent getLibName
(CFLibName . foreignLibName)
(CExeName . exeName)
(CTestName . testName)
(CBenchName . benchmarkName)
where
getLibName lib = case libName lib of
Nothing -> CLibName
Just n -> CSubLibName n
partitionComponents
:: [Component]
-> ([Library], [ForeignLib], [Executable], [TestSuite], [Benchmark])
partitionComponents = foldr (foldComponent fa fb fc fd fe) ([],[],[],[],[])
where
fa x ~(a,b,c,d,e) = (x:a,b,c,d,e)
fb x ~(a,b,c,d,e) = (a,x:b,c,d,e)
fc x ~(a,b,c,d,e) = (a,b,x:c,d,e)
fd x ~(a,b,c,d,e) = (a,b,c,x:d,e)
fe x ~(a,b,c,d,e) = (a,b,c,d,x:e)