--
module VHDL where
-import qualified Data.Foldable as Foldable
+-- Standard modules
import qualified Data.List as List
import qualified Data.Map as Map
import qualified Maybe
import qualified Control.Monad as Monad
import qualified Control.Arrow as Arrow
-import qualified Data.Traversable as Traversable
+import qualified Control.Monad.Trans.State as State
import qualified Data.Monoid as Monoid
import Data.Accessor
+import Debug.Trace
-import qualified Type
-import qualified TysWiredIn
+-- ForSyDe
+import qualified ForSyDe.Backend.VHDL.AST as AST
+
+-- GHC API
+import CoreSyn
+--import qualified Type
import qualified Name
+import qualified Var
+import qualified Id
+import qualified IdInfo
import qualified TyCon
+import qualified DataCon
+--import qualified CoreSubst
+import qualified CoreUtils
import Outputable ( showSDoc, ppr )
-import qualified ForSyDe.Backend.VHDL.AST as AST
-
+-- Local imports
import VHDLTypes
-import Flatten
-import FlattenTypes
-import TranslatorTypes
+import VHDLTools
import Pretty
+import CoreTools
+import Constants
+import Generate
-getDesignFiles :: [FuncData] -> [AST.DesignFile]
-getDesignFiles funcs =
- map (AST.DesignFile context) units
- where
- units = filter (not.null) $ map getLibraryUnits funcs
- context = [
- AST.Library $ mkVHDLId "IEEE",
- AST.Use $ (AST.NSimple $ mkVHDLId "IEEE.std_logic_1164") AST.:.: AST.All]
+createDesignFiles ::
+ [(CoreSyn.CoreBndr, CoreSyn.CoreExpr)]
+ -> [(AST.VHDLId, AST.DesignFile)]
+
+createDesignFiles binds =
+ (mkVHDLBasicId "types", AST.DesignFile ieee_context [type_package_dec, type_package_body]) :
+ map (Arrow.second $ AST.DesignFile full_context) units
+ where
+ init_session = VHDLState Map.empty Map.empty Map.empty Map.empty
+ (units, final_session) =
+ State.runState (createLibraryUnits binds) init_session
+ tyfun_decls = map snd $ Map.elems (final_session ^.vsTypeFuns)
+ ty_decls = map mktydecl $ Map.elems (final_session ^. vsTypes)
+ vec_decls = map (\(v_id, v_def) -> AST.PDITD $ AST.TypeDec v_id v_def) (Map.elems (final_session ^. vsElemTypes))
+ tfvec_index_decl = AST.PDISD $ AST.SubtypeDec tfvec_indexTM tfvec_index_def
+ tfvec_range = AST.ConstraintRange $ AST.SubTypeRange (AST.PrimLit "-1") (AST.PrimName $ AST.NAttribute $ AST.AttribName (AST.NSimple integerTM) highId Nothing)
+ tfvec_index_def = AST.SubtypeIn integerTM (Just tfvec_range)
+ ieee_context = [
+ AST.Library $ mkVHDLBasicId "IEEE",
+ mkUseAll ["IEEE", "std_logic_1164"],
+ mkUseAll ["IEEE", "numeric_std"]
+ ]
+ full_context =
+ mkUseAll ["work", "types"]
+ : (mkUseAll ["work"]
+ : ieee_context)
+ type_package_dec = AST.LUPackageDec $ AST.PackageDec (mkVHDLBasicId "types") ([tfvec_index_decl] ++ vec_decls ++ ty_decls ++ subProgSpecs)
+ type_package_body = AST.LUPackageBody $ AST.PackageBody typesId tyfun_decls
+ subProgSpecs = map subProgSpec tyfun_decls
+ subProgSpec = \(AST.SubProgBody spec _ _) -> AST.PDISS spec
+ mktydecl :: (AST.VHDLId, Either AST.TypeDef AST.SubtypeIn) -> AST.PackageDecItem
+ mktydecl (ty_id, Left ty_def) = AST.PDITD $ AST.TypeDec ty_id ty_def
+ mktydecl (ty_id, Right ty_def) = AST.PDISD $ AST.SubtypeDec ty_id ty_def
+
+-- Create a use foo.bar.all statement. Takes a list of components in the used
+-- name. Must contain at least two components
+mkUseAll :: [String] -> AST.ContextItem
+mkUseAll ss =
+ AST.Use $ from AST.:.: AST.All
+ where
+ base_prefix = (AST.NSimple $ mkVHDLBasicId $ head ss)
+ from = foldl select base_prefix (tail ss)
+ select prefix s = AST.NSelected $ prefix AST.:.: (AST.SSimple $ mkVHDLBasicId s)
+
+createLibraryUnits ::
+ [(CoreSyn.CoreBndr, CoreSyn.CoreExpr)]
+ -> VHDLSession [(AST.VHDLId, [AST.LibraryUnit])]
+
+createLibraryUnits binds = do
+ entities <- Monad.mapM createEntity binds
+ archs <- Monad.mapM createArchitecture binds
+ return $ zipWith
+ (\ent arch ->
+ let AST.EntityDec id _ = ent in
+ (id, [AST.LUEntity ent, AST.LUArch arch])
+ )
+ entities archs
+
-- | Create an entity for a given function
createEntity ::
- HsFunction -- | The function signature
- -> FuncData -- | The function data collected so far
- -> Maybe Entity -- | The resulting entity. Should return the existing
- --- Entity for builtin functions.
-
-createEntity hsfunc fdata =
- case fdata ^. fdFlatFunc of
- -- Skip (builtin) functions without a FlatFunction
- Nothing -> fdata ^. fdEntity
- -- Create an entity for all other functions
- Just flatfunc ->
- let
- sigs = flat_sigs flatfunc
- args = flat_args flatfunc
- res = flat_res flatfunc
- (ty_decls, args') = Traversable.traverse (Traversable.traverse (mkMap sigs)) args
- (ty_decls', res') = Traversable.traverse (mkMap sigs) res
- -- TODO: Unique ty_decls
- ent_decl' = createEntityAST hsfunc args' res'
- pkg_id = mkVHDLId $ (AST.fromVHDLId entity_id) ++ "_types"
- pkg_decl = if null ty_decls && null ty_decls'
- then Nothing
- else Just $ AST.PackageDec pkg_id (map AST.PDITD $ ty_decls ++ ty_decls')
- AST.EntityDec entity_id _ = ent_decl'
- in
- Just $ Entity entity_id args' res' (Just ent_decl') pkg_decl
+ (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -- | The function
+ -> VHDLSession AST.EntityDec -- | The resulting entity
+
+createEntity (fname, expr) = do
+ -- Strip off lambda's, these will be arguments
+ let (args, letexpr) = CoreSyn.collectBinders expr
+ args' <- Monad.mapM mkMap args
+ -- There must be a let at top level
+ let (CoreSyn.Let binds (CoreSyn.Var res)) = letexpr
+ res' <- mkMap res
+ let vhdl_id = mkVHDLBasicId $ varToString fname ++ "_" ++ varToStringUniq fname
+ let ent_decl' = createEntityAST vhdl_id args' res'
+ let AST.EntityDec entity_id _ = ent_decl'
+ let signature = Entity entity_id args' res'
+ modA vsSignatures (Map.insert fname signature)
+ return ent_decl'
where
- mkMap ::
- [(SignalId, SignalInfo)]
- -> SignalId
- -> ([AST.TypeDec], Maybe (AST.VHDLId, AST.TypeMark))
- mkMap sigmap id =
- if isPortSigUse $ sigUse info
- then
- let (decs, type_mark) = vhdl_ty ty in
- (decs, Just (mkVHDLId nm, type_mark))
- else
- (Monoid.mempty, Nothing)
- where
- info = Maybe.fromMaybe
- (error $ "Signal not found in the name map? This should not happen!")
- (lookup id sigmap)
- nm = Maybe.fromMaybe
- (error $ "Signal not named? This should not happen!")
- (sigName info)
- ty = sigTy info
+ mkMap ::
+ --[(SignalId, SignalInfo)]
+ CoreSyn.CoreBndr
+ -> VHDLSession Port
+ -- We only need the vsTypes element from the state
+ mkMap = (\bndr ->
+ let
+ --info = Maybe.fromMaybe
+ -- (error $ "Signal not found in the name map? This should not happen!")
+ -- (lookup id sigmap)
+ -- Assume the bndr has a valid VHDL id already
+ id = varToVHDLId bndr
+ ty = Var.varType bndr
+ error_msg = "\nVHDL.createEntity.mkMap: Can not create entity: " ++ pprString fname ++ "\nbecause no type can be created for port: " ++ pprString bndr
+ in do
+ type_mark <- vhdl_ty error_msg ty
+ return (id, type_mark)
+ )
-- | Create the VHDL AST for an entity
createEntityAST ::
- HsFunction -- | The signature of the function we're working with
- -> [VHDLSignalMap] -- | The entity's arguments
- -> VHDLSignalMap -- | The entity's result
- -> AST.EntityDec -- | The entity with the ent_decl filled in as well
+ AST.VHDLId -- | The name of the function
+ -> [Port] -- | The entity's arguments
+ -> Port -- | The entity's result
+ -> AST.EntityDec -- | The entity with the ent_decl filled in as well
-createEntityAST hsfunc args res =
+createEntityAST vhdl_id args res =
AST.EntityDec vhdl_id ports
where
- vhdl_id = mkEntityId hsfunc
- ports = concatMap (mapToPorts AST.In) args
- ++ mapToPorts AST.Out res
- ++ clk_port
- mapToPorts :: AST.Mode -> VHDLSignalMap -> [AST.IfaceSigDec]
- mapToPorts mode m =
- Maybe.catMaybes $ map (mkIfaceSigDec mode) (Foldable.toList m)
+ -- Create a basic Id, since VHDL doesn't grok filenames with extended Ids.
+ ports = map (mkIfaceSigDec AST.In) args
+ ++ [mkIfaceSigDec AST.Out res]
+ ++ [clk_port]
-- Add a clk port if we have state
- clk_port = if hasState hsfunc
- then
- [AST.IfaceSigDec (mkVHDLId "clk") AST.In VHDL.std_logic_ty]
- else
- []
+ clk_port = AST.IfaceSigDec (mkVHDLExtId "clk") AST.In std_logicTM
-- | Create a port declaration
mkIfaceSigDec ::
AST.Mode -- | The mode for the port (In / Out)
- -> Maybe (AST.VHDLId, AST.TypeMark) -- | The id and type for the port
- -> Maybe AST.IfaceSigDec -- | The resulting port declaration
+ -> (AST.VHDLId, AST.TypeMark) -- | The id and type for the port
+ -> AST.IfaceSigDec -- | The resulting port declaration
-mkIfaceSigDec mode (Just (id, ty)) = Just $ AST.IfaceSigDec id mode ty
-mkIfaceSigDec _ Nothing = Nothing
+mkIfaceSigDec mode (id, ty) = AST.IfaceSigDec id mode ty
+{-
-- | Generate a VHDL entity name for the given hsfunc
mkEntityId hsfunc =
-- TODO: This doesn't work for functions with multiple signatures!
- mkVHDLId $ hsFuncName hsfunc
+ -- Use a Basic Id, since using extended id's for entities throws off
+ -- precision and causes problems when generating filenames.
+ mkVHDLBasicId $ hsFuncName hsfunc
+-}
-- | Create an architecture for a given function
createArchitecture ::
- FuncMap -- ^ The functions in the current session
- -> HsFunction -- ^ The function signature
- -> FuncData -- ^ The function data collected so far
- -> Maybe AST.ArchBody -- ^ The architecture for this function
-
-createArchitecture funcs hsfunc fdata =
- case fdata ^. fdFlatFunc of
- -- Skip (builtin) functions without a FlatFunction
- Nothing -> fdata ^. fdArch
- -- Create an architecture for all other functions
- Just flatfunc ->
- let
- sigs = flat_sigs flatfunc
- args = flat_args flatfunc
- res = flat_res flatfunc
- defs = flat_defs flatfunc
- entity_id = Maybe.fromMaybe
- (error $ "Building architecture without an entity? This should not happen!")
- (getEntityId fdata)
- -- Create signal declarations for all signals that are not in args and
- -- res
- (ty_decls, sig_decs) = Arrow.second Maybe.catMaybes $ Traversable.traverse (mkSigDec . snd) sigs
- -- TODO: Unique ty_decls
- -- TODO: Store ty_decls somewhere
- -- Create concurrent statements for all signal definitions
- statements = zipWith (mkConcSm funcs sigs) defs [0..]
- procs = map mkStateProcSm (makeStatePairs flatfunc)
- procs' = map AST.CSPSm procs
- in
- Just $ AST.ArchBody (mkVHDLId "structural") (AST.NSimple entity_id) (map AST.BDISD sig_decs) (statements ++ procs')
+ (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -- ^ The function
+ -> VHDLSession AST.ArchBody -- ^ The architecture for this function
+
+createArchitecture (fname, expr) = do
+ signaturemap <- getA vsSignatures
+ let signature = Maybe.fromMaybe
+ (error $ "\nVHDL.createArchitecture: Generating architecture for function \n" ++ (pprString fname) ++ "\nwithout signature? This should not happen!")
+ (Map.lookup fname signaturemap)
+ let entity_id = ent_id signature
+ -- Strip off lambda's, these will be arguments
+ let (args, letexpr) = CoreSyn.collectBinders expr
+ -- There must be a let at top level
+ let (CoreSyn.Let (CoreSyn.Rec binds) (Var res)) = letexpr
+
+ -- Create signal declarations for all binders in the let expression, except
+ -- for the output port (that will already have an output port declared in
+ -- the entity).
+ sig_dec_maybes <- mapM (mkSigDec' . fst) (filter ((/=res).fst) binds)
+ let sig_decs = Maybe.catMaybes $ sig_dec_maybes
+
+ statementss <- Monad.mapM mkConcSm binds
+ let statements = concat statementss
+ return $ AST.ArchBody (mkVHDLBasicId "structural") (AST.NSimple entity_id) (map AST.BDISD sig_decs) (statements ++ procs')
+ where
+ procs = [] --map mkStateProcSm [] -- (makeStatePairs flatfunc)
+ procs' = map AST.CSPSm procs
+ -- mkSigDec only uses vsTypes from the state
+ mkSigDec' = mkSigDec
+{-
-- | Looks up all pairs of old state, new state signals, together with
-- the state id they represent.
makeStatePairs :: FlatFunction -> [(StateId, SignalInfo, SignalInfo)]
mkStateProcSm (num, old, new) =
AST.ProcSm label [clk] [statement]
where
- label = mkVHDLId $ "state_" ++ (show num)
- clk = mkVHDLId "clk"
- rising_edge = AST.NSimple $ mkVHDLId "rising_edge"
+ label = mkVHDLExtId $ "state_" ++ (show num)
+ clk = mkVHDLExtId "clk"
+ rising_edge = AST.NSimple $ mkVHDLBasicId "rising_edge"
wform = AST.Wform [AST.WformElem (AST.PrimName $ AST.NSimple $ getSignalId new) Nothing]
assign = AST.SigAssign (AST.NSimple $ getSignalId old) wform
rising_edge_clk = AST.PrimFCall $ AST.FCall rising_edge [Nothing AST.:=>: (AST.ADName $ AST.NSimple clk)]
statement = AST.IfSm rising_edge_clk [assign] [] Nothing
-mkSigDec :: SignalInfo -> ([AST.TypeDec], Maybe AST.SigDec)
-mkSigDec info =
- let use = sigUse info in
- if isInternalSigUse use || isStateSigUse use then
- let (ty_decls, type_mark) = vhdl_ty ty in
- (ty_decls, Just $ AST.SigDec (getSignalId info) type_mark Nothing)
- else
- ([], Nothing)
- where
- ty = sigTy info
-
-- | Creates a VHDL Id from a named SignalInfo. Errors out if the SignalInfo
-- is not named.
getSignalId :: SignalInfo -> AST.VHDLId
getSignalId info =
- mkVHDLId $ Maybe.fromMaybe
- (error $ "Unnamed signal? This should not happen!")
- (sigName info)
+ mkVHDLExtId $ Maybe.fromMaybe
+ (error $ "Unnamed signal? This should not happen!")
+ (sigName info)
+-}
+
+mkSigDec :: CoreSyn.CoreBndr -> VHDLSession (Maybe AST.SigDec)
+mkSigDec bndr =
+ if True then do --isInternalSigUse use || isStateSigUse use then do
+ let error_msg = "\nVHDL.mkSigDec: Can not make signal declaration for type: \n" ++ pprString bndr
+ type_mark <- (vhdl_ty error_msg) $ Var.varType bndr
+ return $ Just (AST.SigDec (varToVHDLId bndr) type_mark Nothing)
+ else
+ return Nothing
--- | Transforms a signal definition into a VHDL concurrent statement
+-- | Transforms a core binding into a VHDL concurrent statement
mkConcSm ::
- FuncMap -- ^ The functions in the current session
- -> [(SignalId, SignalInfo)] -- ^ The signals in the current architecture
- -> SigDef -- ^ The signal definition
- -> Int -- ^ A number that will be unique for all
- -- concurrent statements in the architecture.
- -> AST.ConcSm -- ^ The corresponding VHDL component instantiation.
-
-mkConcSm funcs sigs (FApp hsfunc args res) num =
- let
- fdata_maybe = Map.lookup hsfunc funcs
- fdata = Maybe.fromMaybe
- (error $ "Using function '" ++ (prettyShow hsfunc) ++ "' that is not in the session? This should not happen!")
- fdata_maybe
- entity = Maybe.fromMaybe
- (error $ "Using function '" ++ (prettyShow hsfunc) ++ "' without entity declaration? This should not happen!")
- (fdata ^. fdEntity)
- entity_id = ent_id entity
- label = (AST.fromVHDLId entity_id) ++ "_" ++ (show num)
- -- Add a clk port if we have state
- clk_port = Maybe.fromJust $ mkAssocElem (Just $ mkVHDLId "clk") "clk"
- portmaps = mkAssocElems sigs args res entity ++ (if hasState hsfunc then [clk_port] else [])
- in
- AST.CSISm $ AST.CompInsSm (mkVHDLId label) (AST.IUEntity (AST.NSimple entity_id)) (AST.PMapAspect portmaps)
-
-mkConcSm _ sigs (UncondDef src dst) _ =
+ (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -- ^ The binding to process
+ -> VHDLSession [AST.ConcSm] -- ^ The corresponding VHDL component instantiations.
+
+
+-- Ignore Cast expressions, they should not longer have any meaning as long as
+-- the type works out.
+mkConcSm (bndr, Cast expr ty) = mkConcSm (bndr, expr)
+
+-- For simple a = b assignments, just generate an unconditional signal
+-- assignment. This should only happen for dataconstructors without arguments.
+-- TODO: Integrate this with the below code for application (essentially this
+-- is an application without arguments)
+mkConcSm (bndr, Var v) = return $ [mkUncondAssign (Left bndr) (varToVHDLExpr v)]
+
+mkConcSm (bndr, app@(CoreSyn.App _ _))= do
+ let (CoreSyn.Var f, args) = CoreSyn.collectArgs app
+ let valargs = get_val_args (Var.varType f) args
+ genApplication (Left bndr) f (map Left valargs)
+
+-- A single alt case must be a selector. This means thee scrutinee is a simple
+-- variable, the alternative is a dataalt with a single non-wild binder that
+-- is also returned.
+mkConcSm (bndr, expr@(Case (Var scrut) b ty [alt])) =
+ case alt of
+ (DataAlt dc, bndrs, (Var sel_bndr)) -> do
+ case List.elemIndex sel_bndr bndrs of
+ Just i -> do
+ labels <- getFieldLabels (Id.idType scrut)
+ let label = labels!!i
+ let sel_name = mkSelectedName (varToVHDLName scrut) label
+ let sel_expr = AST.PrimName sel_name
+ return [mkUncondAssign (Left bndr) sel_expr]
+ Nothing -> error $ "\nVHDL.mkConcSM: Not in normal form: Not a selector case:\n" ++ (pprString expr)
+
+ _ -> error $ "\nVHDL.mkConcSM: Not in normal form: Not a selector case:\n" ++ (pprString expr)
+
+-- Multiple case alt are be conditional assignments and have only wild
+-- binders in the alts and only variables in the case values and a variable
+-- for a scrutinee. We check the constructor of the second alt, since the
+-- first is the default case, if there is any.
+mkConcSm (bndr, (Case (Var scrut) b ty [(_, _, Var false), (con, _, Var true)])) =
let
- src_expr = vhdl_expr src
- src_wform = AST.Wform [AST.WformElem src_expr Nothing]
- dst_name = AST.NSimple (getSignalId $ signalInfo sigs dst)
- assign = dst_name AST.:<==: (AST.ConWforms [] src_wform Nothing)
+ cond_expr = (varToVHDLExpr scrut) AST.:=: (altconToVHDLExpr con)
+ true_expr = (varToVHDLExpr true)
+ false_expr = (varToVHDLExpr false)
in
- AST.CSSASm assign
- where
- vhdl_expr (Left id) = mkIdExpr sigs id
- vhdl_expr (Right expr) =
- case expr of
- (EqLit id lit) ->
- (mkIdExpr sigs id) AST.:=: (AST.PrimLit lit)
- (Literal lit) ->
- AST.PrimLit lit
- (Eq a b) ->
- (mkIdExpr sigs a) AST.:=: (mkIdExpr sigs b)
-
-mkConcSm _ sigs (CondDef cond true false dst) _ =
- let
- cond_expr = mkIdExpr sigs cond
- true_expr = mkIdExpr sigs true
- false_expr = mkIdExpr sigs false
- false_wform = AST.Wform [AST.WformElem false_expr Nothing]
- true_wform = AST.Wform [AST.WformElem true_expr Nothing]
- whenelse = AST.WhenElse true_wform cond_expr
- dst_name = AST.NSimple (getSignalId $ signalInfo sigs dst)
- assign = dst_name AST.:<==: (AST.ConWforms [whenelse] false_wform Nothing)
- in
- AST.CSSASm assign
-
--- | Turn a SignalId into a VHDL Expr
-mkIdExpr :: [(SignalId, SignalInfo)] -> SignalId -> AST.Expr
-mkIdExpr sigs id =
- let src_name = AST.NSimple (getSignalId $ signalInfo sigs id) in
- AST.PrimName src_name
-
-mkAssocElems ::
- [(SignalId, SignalInfo)] -- | The signals in the current architecture
- -> [SignalMap] -- | The signals that are applied to function
- -> SignalMap -- | the signals in which to store the function result
- -> Entity -- | The entity to map against.
- -> [AST.AssocElem] -- | The resulting port maps
-
-mkAssocElems sigmap args res entity =
- -- Create the actual AssocElems
- Maybe.catMaybes $ zipWith mkAssocElem ports sigs
- where
- -- Turn the ports and signals from a map into a flat list. This works,
- -- since the maps must have an identical form by definition. TODO: Check
- -- the similar form?
- arg_ports = concat (map Foldable.toList (ent_args entity))
- res_ports = Foldable.toList (ent_res entity)
- arg_sigs = (concat (map Foldable.toList args))
- res_sigs = Foldable.toList res
- -- Extract the id part from the (id, type) tuple
- ports = (map (fmap fst) (arg_ports ++ res_ports))
- -- Translate signal numbers into names
- sigs = (map (lookupSigName sigmap) (arg_sigs ++ res_sigs))
-
--- | Look up a signal in the signal name map
-lookupSigName :: [(SignalId, SignalInfo)] -> SignalId -> String
-lookupSigName sigs sig = name
- where
- info = Maybe.fromMaybe
- (error $ "Unknown signal " ++ (show sig) ++ " used? This should not happen!")
- (lookup sig sigs)
- name = Maybe.fromMaybe
- (error $ "Unnamed signal " ++ (show sig) ++ " used? This should not happen!")
- (sigName info)
-
--- | Create an VHDL port -> signal association
-mkAssocElem :: Maybe AST.VHDLId -> String -> Maybe AST.AssocElem
-mkAssocElem (Just port) signal = Just $ Just port AST.:=>: (AST.ADName (AST.NSimple (mkVHDLId signal)))
-mkAssocElem Nothing _ = Nothing
-
--- | Extracts the generated entity id from the given funcdata
-getEntityId :: FuncData -> Maybe AST.VHDLId
-getEntityId fdata =
- case fdata ^. fdEntity of
- Nothing -> Nothing
- Just e -> case ent_decl e of
- Nothing -> Nothing
- Just (AST.EntityDec id _) -> Just id
-
-getLibraryUnits ::
- FuncData -- | A function from the session
- -> [AST.LibraryUnit] -- | The entity, architecture and optional package for the function
-
-getLibraryUnits fdata =
- case fdata ^. fdEntity of
- Nothing -> []
- Just ent ->
- case ent_decl ent of
- Nothing -> []
- Just decl ->
- case fdata ^. fdArch of
- Nothing -> []
- Just arch ->
- [AST.LUEntity decl, AST.LUArch arch]
- ++ (Maybe.maybeToList (fmap AST.LUPackageDec $ ent_pkg_decl ent))
-
--- | The VHDL Bit type
-bit_ty :: AST.TypeMark
-bit_ty = AST.unsafeVHDLBasicId "Bit"
-
--- | The VHDL Boolean type
-bool_ty :: AST.TypeMark
-bool_ty = AST.unsafeVHDLBasicId "Boolean"
-
--- | The VHDL std_logic
-std_logic_ty :: AST.TypeMark
-std_logic_ty = AST.unsafeVHDLBasicId "std_logic"
-
--- Translate a Haskell type to a VHDL type
-vhdl_ty :: Type.Type -> ([AST.TypeDec], AST.TypeMark)
-vhdl_ty ty = Maybe.fromMaybe
- (error $ "Unsupported Haskell type: " ++ (showSDoc $ ppr ty))
- (vhdl_ty_maybe ty)
-
--- Translate a Haskell type to a VHDL type, optionally generating a type
--- declaration for the type.
-vhdl_ty_maybe :: Type.Type -> Maybe ([AST.TypeDec], AST.TypeMark)
-vhdl_ty_maybe ty =
- if Type.coreEqType ty TysWiredIn.boolTy
- then
- Just ([], bool_ty)
- else
- case Type.splitTyConApp_maybe ty of
- Just (tycon, args) ->
- let name = TyCon.tyConName tycon in
- -- TODO: Do something more robust than string matching
- case Name.getOccString name of
- "Bit" -> Just ([], std_logic_ty)
- "FSVec" ->
- let
- [len, el_ty] = args
- -- TODO: Find actual number
- ty_id = mkVHDLId ("vector_" ++ (show len))
- -- TODO: Use el_ty
- range = AST.IndexConstraint [AST.ToRange (AST.PrimLit "0") (AST.PrimLit "16")]
- ty_def = AST.TDA $ AST.ConsArrayDef range std_logic_ty
- ty_dec = AST.TypeDec ty_id ty_def
- in
- Just ([ty_dec], ty_id)
- otherwise -> Nothing
- otherwise -> Nothing
-
--- Shortcut
-mkVHDLId :: String -> AST.VHDLId
-mkVHDLId s =
- AST.unsafeVHDLBasicId $ (strip_multiscore . strip_invalid) s
- where
- -- Strip invalid characters.
- strip_invalid = filter (`elem` ['A'..'Z'] ++ ['a'..'z'] ++ ['0'..'9'] ++ "_.")
- -- Strip multiple adjacent underscores
- strip_multiscore = concat . map (\cs ->
- case cs of
- ('_':_) -> "_"
- _ -> cs
- ) . List.group
+ return [mkCondAssign (Left bndr) cond_expr true_expr false_expr]
+mkConcSm (_, (Case (Var _) _ _ alts)) = error "\nVHDL.mkConcSm: Not in normal form: Case statement with more than two alternatives"
+mkConcSm (_, Case _ _ _ _) = error "\nVHDL.mkConcSm: Not in normal form: Case statement has does not have a simple variable as scrutinee"
+mkConcSm (bndr, expr) = error $ "\nVHDL.mkConcSM: Unsupported binding in let expression: " ++ pprString bndr ++ " = " ++ pprString expr