sv2v/src/Convert/Typedef.hs

{- sv2v
 - Author: Zachary Snow <zach@zachjs.com>
 -
 - Conversion for `typedef`
 -
 - Aliased types can appear in all data declarations, including modules, blocks,
 - and function parameters. They are also found in type cast expressions.
 -}

module Convert.Typedef (convert) where

import Control.Monad.Writer
import qualified Data.Map as Map

import Convert.Traverse
import Language.SystemVerilog.AST

type Types = Map.Map Identifier Type

convert :: [AST] -> [AST]
convert =
    traverseFiles
        (collectDescriptionsM getTypedef)
        (\a -> traverseDescriptions $ removeTypedef . convertDescription a)
    where
        getTypedef :: Description -> Writer Types ()
        getTypedef (PackageItem (Typedef a b)) = tell $ Map.singleton b a
        getTypedef (Part _ _ Interface _ x _ _) =
            tell $ Map.singleton x (InterfaceT x Nothing [])
        getTypedef _ = return ()
        removeTypedef :: Description -> Description
        removeTypedef (PackageItem (Typedef _ x)) =
            PackageItem $ Comment $ "removed typedef: " ++ x
        removeTypedef other = other

convertDescription :: Types -> Description -> Description
convertDescription globalTypes description =
    traverseModuleItems removeTypedef $
    traverseModuleItems convertModuleItem $
    traverseModuleItems (traverseExprs $ traverseNestedExprs $ convertExpr) $
    traverseModuleItems (traverseTypes $ resolveType types) $
    description
    where
        types = Map.union globalTypes $
            execWriter $ collectModuleItemsM getTypedef description
        getTypedef :: ModuleItem -> Writer Types ()
        getTypedef (MIPackageItem (Typedef a b)) = tell $ Map.singleton b a
        getTypedef _ = return ()
        removeTypedef :: ModuleItem -> ModuleItem
        removeTypedef (MIPackageItem (Typedef _ x)) =
            MIPackageItem $ Comment $ "removed typedef: " ++ x
        removeTypedef other = other
        convertTypeOrExpr :: TypeOrExpr -> TypeOrExpr
        convertTypeOrExpr (Right (Ident x)) =
            if Map.member x types
                then Left $ resolveType types (Alias Nothing x [])
                else Right $ Ident x
        convertTypeOrExpr other = other
        convertExpr :: Expr -> Expr
        convertExpr (Cast v e) = Cast (convertTypeOrExpr v) e
        convertExpr (DimsFn f v) = DimsFn f (convertTypeOrExpr v)
        convertExpr (DimFn f v e) = DimFn f (convertTypeOrExpr v) e
        convertExpr other = other
        convertModuleItem :: ModuleItem -> ModuleItem
        convertModuleItem (Instance m params x r p) =
            Instance m (map mapParam params) x r p
            where mapParam (i, v) = (i, convertTypeOrExpr v)
        convertModuleItem other = other

resolveItem :: Types -> (Type, Identifier) -> (Type, Identifier)
resolveItem types (t, x) = (resolveType types t, x)

resolveType :: Types -> Type -> Type
resolveType _ (Net           kw    rs) = Net           kw    rs
resolveType _ (Implicit         sg rs) = Implicit         sg rs
resolveType _ (IntegerVector kw sg rs) = IntegerVector kw sg rs
resolveType _ (IntegerAtom   kw sg   ) = IntegerAtom   kw sg
resolveType _ (NonInteger    kw      ) = NonInteger    kw
resolveType _ (InterfaceT     x my rs) = InterfaceT     x my rs
resolveType _ (Enum Nothing   vals rs) = Enum Nothing   vals rs
resolveType _ (Alias (Just ps)  st rs) = Alias (Just ps)  st rs
resolveType types (Enum (Just t) vals rs) = Enum (Just $ resolveType types t) vals rs
resolveType types (Struct p items rs) = Struct p (map (resolveItem types) items) rs
resolveType types (Union  p items rs) = Union  p (map (resolveItem types) items) rs
resolveType types (Alias Nothing st rs1) =
    if Map.notMember st types
    then Alias Nothing st rs1
    else case resolveType types $ types Map.! st of
        (Net           kw    rs2) -> Net           kw    $ rs1 ++ rs2
        (Implicit         sg rs2) -> Implicit         sg $ rs1 ++ rs2
        (IntegerVector kw sg rs2) -> IntegerVector kw sg $ rs1 ++ rs2
        (Enum            t v rs2) -> Enum            t v $ rs1 ++ rs2
        (Struct          p l rs2) -> Struct          p l $ rs1 ++ rs2
        (Union           p l rs2) -> Union           p l $ rs1 ++ rs2
        (InterfaceT     x my rs2) -> InterfaceT     x my $ rs1 ++ rs2
        (Alias          ps x rs2) -> Alias          ps x $ rs1 ++ rs2
        (IntegerAtom   kw _ ) -> error $ "resolveType encountered packed `" ++ (show kw) ++ "` on " ++ st
        (NonInteger    kw   ) -> error $ "resolveType encountered packed `" ++ (show kw) ++ "` on " ++ st
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`{- sv2v`
			`- Author: Zachary Snow <zach@zachjs.com>`
			`-`
			- Conversion for `typedef`
huge pass at revamping AST to be more general, easy to work with 2019-02-24 09:06:40 +01:00			`-`
random documentation and cleanup 2019-04-23 06:23:32 +02:00			`- Aliased types can appear in all data declarations, including modules, blocks,`
			`- and function parameters. They are also found in type cast expressions.`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`-}`

			`module Convert.Typedef (convert) where`

rewrite Typedef conversion to use Traverse 2019-03-01 02:30:21 +01:00			`import Control.Monad.Writer`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`import qualified Data.Map as Map`

rewrite Typedef conversion to use Traverse 2019-03-01 02:30:21 +01:00			`import Convert.Traverse`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`import Language.SystemVerilog.AST`

			`type Types = Map.Map Identifier Type`

conversions are applied per-file - NestTF refactored to cover all package items - fixed issue where type traverse skipped typedefs 2019-04-24 00:44:45 +02:00			`convert :: [AST] -> [AST]`
standardized handling of resolution across source files 2019-04-30 21:44:52 +02:00			`convert =`
			`traverseFiles`
			`(collectDescriptionsM getTypedef)`
			`(\a -> traverseDescriptions $ removeTypedef . convertDescription a)`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`where`
rewrite Typedef conversion to use Traverse 2019-03-01 02:30:21 +01:00			`getTypedef :: Description -> Writer Types ()`
functions and typedefs can now appear at the top level 2019-03-07 19:19:31 +01:00			`getTypedef (PackageItem (Typedef a b)) = tell $ Map.singleton b a`
support for module attributes (resolves #39) 2019-09-16 05:17:14 +02:00			`getTypedef (Part _ _ Interface _ x _ _) =`
typedef traversal only marks interfaces as such 2019-09-09 18:44:45 +02:00			`tell $ Map.singleton x (InterfaceT x Nothing [])`
rewrite Typedef conversion to use Traverse 2019-03-01 02:30:21 +01:00			`getTypedef _ = return ()`
functions and typedefs can now appear at the top level 2019-03-07 19:19:31 +01:00			`removeTypedef :: Description -> Description`
			`removeTypedef (PackageItem (Typedef _ x)) =`
			`PackageItem $ Comment $ "removed typedef: " ++ x`
			`removeTypedef other = other`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00
			`convertDescription :: Types -> Description -> Description`
functions and typedefs can now appear at the top level 2019-03-07 19:19:31 +01:00			`convertDescription globalTypes description =`
			`traverseModuleItems removeTypedef $`
functional parameter type conversion 2019-09-11 17:58:03 +02:00			`traverseModuleItems convertModuleItem $`
added support and conversion handling of the $bits system function This also entailed further fleshing out the expression traversal helper to cover expressions in generate blocks, which could, of course, use $bits. 2019-04-02 06:16:06 +02:00			`traverseModuleItems (traverseExprs $ traverseNestedExprs $ convertExpr) $`
functions and typedefs can now appear at the top level 2019-03-07 19:19:31 +01:00			`traverseModuleItems (traverseTypes $ resolveType types) $`
			`description`
			`where`
			`types = Map.union globalTypes $`
			`execWriter $ collectModuleItemsM getTypedef description`
			`getTypedef :: ModuleItem -> Writer Types ()`
			`getTypedef (MIPackageItem (Typedef a b)) = tell $ Map.singleton b a`
			`getTypedef _ = return ()`
			`removeTypedef :: ModuleItem -> ModuleItem`
			`removeTypedef (MIPackageItem (Typedef _ x)) =`
			`MIPackageItem $ Comment $ "removed typedef: " ++ x`
			`removeTypedef other = other`
functional parameter type conversion 2019-09-11 17:58:03 +02:00			`convertTypeOrExpr :: TypeOrExpr -> TypeOrExpr`
			`convertTypeOrExpr (Right (Ident x)) =`
added support and conversion handling of the $bits system function This also entailed further fleshing out the expression traversal helper to cover expressions in generate blocks, which could, of course, use $bits. 2019-04-02 06:16:06 +02:00			`if Map.member x types`
functional parameter type conversion 2019-09-11 17:58:03 +02:00			`then Left $ resolveType types (Alias Nothing x [])`
			`else Right $ Ident x`
			`convertTypeOrExpr other = other`
			`convertExpr :: Expr -> Expr`
substitution conversion for size casts (closes #27) 2019-09-12 04:52:01 +02:00			`convertExpr (Cast v e) = Cast (convertTypeOrExpr v) e`
generalization of array dimension(s) system functions 2019-09-14 18:31:44 +02:00			`convertExpr (DimsFn f v) = DimsFn f (convertTypeOrExpr v)`
			`convertExpr (DimFn f v e) = DimFn f (convertTypeOrExpr v) e`
added support and conversion handling of the $bits system function This also entailed further fleshing out the expression traversal helper to cover expressions in generate blocks, which could, of course, use $bits. 2019-04-02 06:16:06 +02:00			`convertExpr other = other`
functional parameter type conversion 2019-09-11 17:58:03 +02:00			`convertModuleItem :: ModuleItem -> ModuleItem`
			`convertModuleItem (Instance m params x r p) =`
			`Instance m (map mapParam params) x r p`
			`where mapParam (i, v) = (i, convertTypeOrExpr v)`
			`convertModuleItem other = other`
very preliminary support for typedefs 2019-02-18 09:59:17 +01:00
added language support for (untagged) unions 2019-08-09 05:12:06 +02:00			`resolveItem :: Types -> (Type, Identifier) -> (Type, Identifier)`
			`resolveItem types (t, x) = (resolveType types t, x)`

very preliminary support for typedefs 2019-02-18 09:59:17 +01:00			`resolveType :: Types -> Type -> Type`
revamped support system with most SystemVerilog types and signed types 2019-03-22 21:57:13 +01:00			`resolveType _ (Net kw rs) = Net kw rs`
			`resolveType _ (Implicit sg rs) = Implicit sg rs`
			`resolveType _ (IntegerVector kw sg rs) = IntegerVector kw sg rs`
			`resolveType _ (IntegerAtom kw sg ) = IntegerAtom kw sg`
			`resolveType _ (NonInteger kw ) = NonInteger kw`
random documentation and cleanup 2019-04-23 06:23:32 +02:00			`resolveType _ (InterfaceT x my rs) = InterfaceT x my rs`
			`resolveType _ (Enum Nothing vals rs) = Enum Nothing vals rs`
added language support for package-scoped calls and typenames 2019-04-24 09:37:47 +02:00			`resolveType _ (Alias (Just ps) st rs) = Alias (Just ps) st rs`
preliminary support for enums 2019-02-24 03:24:13 +01:00			`resolveType types (Enum (Just t) vals rs) = Enum (Just $ resolveType types t) vals rs`
added language support for (untagged) unions 2019-08-09 05:12:06 +02:00			`resolveType types (Struct p items rs) = Struct p (map (resolveItem types) items) rs`
			`resolveType types (Union p items rs) = Union p (map (resolveItem types) items) rs`
added language support for package-scoped calls and typenames 2019-04-24 09:37:47 +02:00			`resolveType types (Alias Nothing st rs1) =`
support for interfaces; new "declaration parser" 2019-03-04 08:58:00 +01:00			`if Map.notMember st types`
typedef traversal only marks interfaces as such 2019-09-09 18:44:45 +02:00			`then Alias Nothing st rs1`
support for interfaces; new "declaration parser" 2019-03-04 08:58:00 +01:00			`else case resolveType types $ types Map.! st of`
several major fixes surrounding packed arrays - entirely new PackedArray conversion (always flattens) - typedef and struct correctly order packed ranges when combining types - Stmt LHS traversal no longer traverses nested statements to avoid double conversion - Logic conversion applies to `initial` blocks` - new and modified tests to cover these cases 2019-04-09 03:28:33 +02:00			`(Net kw rs2) -> Net kw $ rs1 ++ rs2`
			`(Implicit sg rs2) -> Implicit sg $ rs1 ++ rs2`
			`(IntegerVector kw sg rs2) -> IntegerVector kw sg $ rs1 ++ rs2`
			`(Enum t v rs2) -> Enum t v $ rs1 ++ rs2`
			`(Struct p l rs2) -> Struct p l $ rs1 ++ rs2`
added language support for (untagged) unions 2019-08-09 05:12:06 +02:00			`(Union p l rs2) -> Union p l $ rs1 ++ rs2`
several major fixes surrounding packed arrays - entirely new PackedArray conversion (always flattens) - typedef and struct correctly order packed ranges when combining types - Stmt LHS traversal no longer traverses nested statements to avoid double conversion - Logic conversion applies to `initial` blocks` - new and modified tests to cover these cases 2019-04-09 03:28:33 +02:00			`(InterfaceT x my rs2) -> InterfaceT x my $ rs1 ++ rs2`
typedef conversion gracefully skips yet-unknown typenames 2019-09-15 02:59:41 +02:00			`(Alias ps x rs2) -> Alias ps x $ rs1 ++ rs2`
revamped support system with most SystemVerilog types and signed types 2019-03-22 21:57:13 +01:00			(IntegerAtom kw _ ) -> error $ "resolveType encountered packed `" ++ (show kw) ++ "` on " ++ st
			(NonInteger kw ) -> error $ "resolveType encountered packed `" ++ (show kw) ++ "` on " ++ st