#include "HsVersions.h"
+import PrelNames ( lazyIdKey, hasKey )
import CoreUtils
import CoreArity
import CoreFVs
We want curried definitions for all of these in case they
aren't inlined by some caller.
+9. Replace (lazy e) by e. See Note [lazyId magic] in MkId.lhs
+
This is all done modulo type applications and abstractions, so that
when type erasure is done for conversion to STG, we don't end up with
any trivial or useless bindings.
cpeRhsE _env expr@(Type _) = return (emptyFloats, expr)
cpeRhsE _env expr@(Lit _) = return (emptyFloats, expr)
-cpeRhsE env expr@(App {}) = cpeApp env expr
cpeRhsE env expr@(Var {}) = cpeApp env expr
+cpeRhsE env (Var f `App` _ `App` arg)
+ | f `hasKey` lazyIdKey -- Replace (lazy a) by a
+ = cpeRhsE env arg -- See Note [lazyId magic] in MkId
+
+cpeRhsE env expr@(App {}) = cpeApp env expr
+
cpeRhsE env (Let bind expr)
= do { (env', new_binds) <- cpeBind NotTopLevel env bind
; (floats, body) <- cpeRhsE env' expr
--------
rhsToBody :: CpeRhs -> UniqSM (Floats, CpeBody)
--- Remove top level lambdas by let-bindinig
+-- Remove top level lambdas by let-binding
rhsToBody (Note n expr)
-- You can get things like
collect_args (App fun arg) depth
= do { (fun',hd,fun_ty,floats,ss) <- collect_args fun (depth+1)
- ; let
+ ; let
(ss1, ss_rest) = case ss of
(ss1:ss_rest) -> (ss1, ss_rest)
[] -> (lazyDmd, [])
= collect_args fun depth -- They aren't used by the code generator
-- N-variable fun, better let-bind it
- -- ToDo: perhaps we can case-bind rather than let-bind this closure,
- -- since it is sure to be evaluated.
collect_args fun depth
= do { (fun_floats, fun') <- cpeArg env True fun ty
+ -- The True says that it's sure to be evaluated,
+ -- so we'll end up case-binding it
; return (fun', (fun', depth), ty, fun_floats, []) }
where
ty = exprType fun