-- GHC API
import qualified GHC
import qualified Type
+import qualified TcType
import qualified HsExpr
import qualified HsTypes
import qualified HsBinds
import qualified Unique
import qualified CoreUtils
import qualified CoreFVs
+import qualified Literal
+-- Local imports
import GhcTools
import HsTools
+import Pretty
-- | Evaluate a core Type representing type level int from the tfp
-- library to a real int.
-- | Get the width of a SizedWord type
sized_word_len :: Type.Type -> Int
-sized_word_len ty =
- eval_tfp_int len
- where
- (tycon, args) = Type.splitTyConApp ty
- [len] = args
+sized_word_len ty = eval_tfp_int (sized_word_len_ty ty)
+
+sized_word_len_ty :: Type.Type -> Type.Type
+sized_word_len_ty ty = len
+ where
+ args = case Type.splitTyConApp_maybe ty of
+ Just (tycon, args) -> args
+ Nothing -> error $ "\nCoreTools.sized_word_len_ty: Not a sized word type: " ++ (pprString ty)
+ [len] = args
+
+-- | Get the width of a SizedInt type
+sized_int_len :: Type.Type -> Int
+sized_int_len ty = eval_tfp_int (sized_int_len_ty ty)
+
+sized_int_len_ty :: Type.Type -> Type.Type
+sized_int_len_ty ty = len
+ where
+ args = case Type.splitTyConApp_maybe ty of
+ Just (tycon, args) -> args
+ Nothing -> error $ "\nCoreTools.sized_int_len_ty: Not a sized int type: " ++ (pprString ty)
+ [len] = args
+
+-- | Get the upperbound of a RangedWord type
+ranged_word_bound :: Type.Type -> Int
+ranged_word_bound ty = eval_tfp_int (ranged_word_bound_ty ty)
+
+ranged_word_bound_ty :: Type.Type -> Type.Type
+ranged_word_bound_ty ty = len
+ where
+ args = case Type.splitTyConApp_maybe ty of
+ Just (tycon, args) -> args
+ Nothing -> error $ "\nCoreTools.ranged_word_bound_ty: Not a sized word type: " ++ (pprString ty)
+ [len] = args
-- | Evaluate a core Type representing type level int from the TypeLevel
-- library to a real int.
-- | Get the length of a FSVec type
tfvec_len :: Type.Type -> Int
-tfvec_len ty =
- eval_tfp_int len
- where
- (tycon, args) = Type.splitTyConApp ty
+tfvec_len ty = eval_tfp_int (tfvec_len_ty ty)
+
+tfvec_len_ty :: Type.Type -> Type.Type
+tfvec_len_ty ty = len
+ where
+ args = case Type.splitTyConApp_maybe ty of
+ Just (tycon, args) -> args
+ Nothing -> error $ "\nCoreTools.tfvec_len_ty: Not a vector type: " ++ (pprString ty)
+ [len, el_ty] = args
+
+-- | Get the element type of a TFVec type
+tfvec_elem :: Type.Type -> Type.Type
+tfvec_elem ty = el_ty
+ where
+ args = case Type.splitTyConApp_maybe ty of
+ Just (tycon, args) -> args
+ Nothing -> error $ "\nCoreTools.tfvec_len: Not a vector type: " ++ (pprString ty)
[len, el_ty] = args
-- Is this a wild binder?
is_var (CoreSyn.Var _) = True
is_var _ = False
+is_lit :: CoreSyn.CoreExpr -> Bool
+is_lit (CoreSyn.Lit _) = True
+is_lit _ = False
+
-- Can the given core expression be applied to something? This is true for
-- applying to a value as well as a type.
is_applicable :: CoreSyn.CoreExpr -> Bool
is_applicable expr = is_fun expr || is_poly expr
+-- Is the given core expression a variable or an application?
+is_simple :: CoreSyn.CoreExpr -> Bool
+is_simple (CoreSyn.App _ _) = True
+is_simple (CoreSyn.Var _) = True
+is_simple (CoreSyn.Cast expr _) = is_simple expr
+is_simple _ = False
+
-- Does the given CoreExpr have any free type vars?
has_free_tyvars :: CoreSyn.CoreExpr -> Bool
has_free_tyvars = not . VarSet.isEmptyVarSet . (CoreFVs.exprSomeFreeVars Var.isTyVar)
+
+-- Does the given CoreExpr have any free local vars?
+has_free_vars :: CoreSyn.CoreExpr -> Bool
+has_free_vars = not . VarSet.isEmptyVarSet . CoreFVs.exprFreeVars
+
+-- Turns a Var CoreExpr into the Id inside it. Will of course only work for
+-- simple Var CoreExprs, not complexer ones.
+exprToVar :: CoreSyn.CoreExpr -> Var.Id
+exprToVar (CoreSyn.Var id) = id
+exprToVar expr = error $ "\nCoreTools.exprToVar: Not a var: " ++ show expr
+
+-- Turns a Lit CoreExpr into the Literal inside it.
+exprToLit :: CoreSyn.CoreExpr -> Literal.Literal
+exprToLit (CoreSyn.Lit lit) = lit
+exprToLit expr = error $ "\nCoreTools.exprToLit: Not a lit: " ++ show expr
+
+-- Removes all the type and dictionary arguments from the given argument list,
+-- leaving only the normal value arguments. The type given is the type of the
+-- expression applied to this argument list.
+get_val_args :: Type.Type -> [CoreSyn.CoreExpr] -> [CoreSyn.CoreExpr]
+get_val_args ty args = drop n args
+ where
+ (tyvars, predtypes, _) = TcType.tcSplitSigmaTy ty
+ -- The first (length tyvars) arguments should be types, the next
+ -- (length predtypes) arguments should be dictionaries. We drop this many
+ -- arguments, to get at the value arguments.
+ n = length tyvars + length predtypes
+
+getLiterals :: CoreSyn.CoreExpr -> [CoreSyn.CoreExpr]
+getLiterals app@(CoreSyn.App _ _) = literals
+ where
+ (CoreSyn.Var f, args) = CoreSyn.collectArgs app
+ literals = filter (is_lit) args
\ No newline at end of file
projects / matthijs / master-project / cλash.git / blobdiff