- ast <- read <$> getContents
- let mdl = buildModule "main" $
- function "expr" [] float $ \_ -> build ast >>= ret
- Text.hPutStrLn stderr (ppllvm mdl)
- withContext $ \ctx ->
- withMCJIT ctx Nothing Nothing Nothing Nothing $ \mcjit ->
- withModuleFromAST ctx mdl $ \mdl' ->
- withModuleInEngine mcjit mdl' $ \emdl -> do
- Just f <- getFunction emdl "expr"
- let f' = castFunPtr f :: FunPtr (IO Float)
- exprFun f' >>= print
-
-build :: AST.Expr -> IRBuilderT ModuleBuilder Operand
-build (AST.Num a) = pure $ ConstantOperand (Float (Single a))
-build (AST.BinOp op a b) = do
- va <- build a
- vb <- build b
+ AST.Program asts <- read <$> getContents
+ let eitherMdl = buildModuleT "main" $ mapM buildAST asts
+
+ case eitherMdl of
+ Left err -> die err
+ Right mdl' -> withContext $ \ctx ->
+ withHostTargetMachine $ \tm -> do
+ hPutStrLn stderr "Before optimisation:"
+ Text.hPutStrLn stderr (ppllvm mdl')
+
+ withModuleFromAST ctx mdl' $ \mdl -> do
+ let spec = defaultCuratedPassSetSpec { optLevel = Just 3 }
+ withPassManager spec $ flip runPassManager mdl
+ hPutStrLn stderr "After optimisation:"
+ Text.hPutStrLn stderr . ppllvm =<< moduleAST mdl
+ jit tm mdl >>= print
+
+jit :: TargetMachine -> Module -> IO Double
+jit tm mdl = do
+ loadLibraryPermanently (Just "stdlib.dylib") >>= guard . not
+ compLayerVar <- newEmptyMVar
+
+ -- jit time
+ withExecutionSession $ \exSession ->
+ withSymbolResolver exSession (SymbolResolver (symResolver compLayerVar)) $ \symResolverPtr ->
+ withObjectLinkingLayer exSession (const $ pure symResolverPtr) $ \linkingLayer ->
+ withModuleKey exSession $ \mdlKey ->
+ withIRCompileLayer linkingLayer tm $ \compLayer -> do
+ putMVar compLayerVar compLayer
+
+ withModule compLayer mdlKey mdl $ do
+ mangled <- mangleSymbol compLayer "expr"
+ Right (JITSymbol fPtr _) <- findSymbolIn compLayer mdlKey mangled False
+ mkFun (castPtrToFunPtr (wordPtrToPtr fPtr))
+
+ where symResolver clv sym = do
+ cl <- readMVar clv
+ ms <- findSymbol cl sym False
+ case ms of
+ Right s -> return (return s)
+ _ -> do
+ addr <- getSymbolAddressInProcess sym
+ return $ return (JITSymbol addr (JITSymbolFlags False False True True))
+
+evalProg :: AST.Program -> IO (Maybe Double)
+evalProg (AST.Program asts) = do
+ let eitherMdl = buildModuleT "main" $ mapM buildAST asts
+ case eitherMdl of
+ Left _ -> return Nothing
+ Right mdl' -> withContext $ \ctx ->
+ withHostTargetMachine $ \tm ->
+ withModuleFromAST ctx mdl' (fmap Just . jit tm)
+
+-- | Builds up programs at the top-level of an LLVM Module
+-- >>> evalProg (read "31 - 5")
+-- Just 26.0
+buildAST :: AST.AST -> ModuleBuilderE Operand
+buildAST (AST.Function nameStr paramStrs body) = do
+ let n = fromString nameStr
+ function n params Type.double $ \binds -> do
+ let bindMap = Map.fromList (zip paramStrs binds)
+ buildExpr bindMap body >>= ret
+ where params = zip (repeat Type.double) (map fromString paramStrs)
+buildAST (AST.Extern nameStr params) =
+ extern (fromString nameStr) (replicate (length params) Type.double) Type.double
+buildAST (AST.Eval e) =
+ function "expr" [] Type.double $ \_ -> buildExpr mempty e >>= ret
+
+-- | Builds up expressions, which are operands in LLVM IR
+-- >>> evalProg (read "def foo(x) x * 2; foo(6)")
+-- Just 12.0
+-- >>> evalProg (read "if 3 > 2 then 42 else 12")
+-- Just 42.0
+buildExpr :: Map.Map String Operand -> AST.Expr -> IRBuilderT ModuleBuilderE Operand
+buildExpr _ (AST.Num a) = pure $ ConstantOperand (Float (Double a))
+buildExpr binds (AST.Var n) = case binds Map.!? n of
+ Just x -> pure x
+ Nothing -> lift $ lift $ Left $ "'" <> n <> "' doesn't exist in scope"
+
+buildExpr binds (AST.Call nameStr params) = do
+ paramOps <- mapM (buildExpr binds) params
+ let name = fromString nameStr
+ -- get a pointer to the function
+ typ = FunctionType Type.double (replicate (length params) Type.double) False
+ ptrTyp = Type.PointerType typ (AddrSpace 0)
+ ref = GlobalReference ptrTyp name
+ call (ConstantOperand ref) (zip paramOps (repeat []))
+
+buildExpr binds (AST.BinOp op a b) = do
+ va <- buildExpr binds a
+ vb <- buildExpr binds b