type Stmt id = StmtLR id id
-data GroupByClause id
- = GroupByNothing (LHsExpr id) -- Using expression, i.e.
- -- "then group using f" ==> GroupByNothing f
- | GroupBySomething (Either (LHsExpr id) (SyntaxExpr id)) (LHsExpr id)
- -- "then group using f by e" ==> GroupBySomething (Left f) e
- -- "then group by e" ==> GroupBySomething (Right _) e: in
- -- this case the expression is filled
- -- in by the renamer
-
-- The SyntaxExprs in here are used *only* for do-notation, which
-- has rebindable syntax. Otherwise they are unused.
data StmtLR idL idR
-- The fail operator is noSyntaxExpr
-- if the pattern match can't fail
- | ExprStmt (LHsExpr idR)
+ | ExprStmt (LHsExpr idR) -- See Note [ExprStmt]
(SyntaxExpr idR) -- The (>>) operator
PostTcType -- Element type of the RHS (used for arrows)
-- After renaming, the ids are the binders bound by the stmts and used
-- after them
- | TransformStmt ([LStmt idL], [idR]) (LHsExpr idR) (Maybe (LHsExpr idR))
- -- After renaming, the IDs are the binders occurring within this
- -- transform statement that are used after it
- -- "qs, then f by e" ==> TransformStmt (qs, binders) f (Just e)
- -- "qs, then f" ==> TransformStmt (qs, binders) f Nothing
+ -- "qs, then f by e" ==> TransformStmt qs binders f (Just e)
+ -- "qs, then f" ==> TransformStmt qs binders f Nothing
+ | TransformStmt
+ [LStmt idL] -- Stmts are the ones to the left of the 'then'
+
+ [idR] -- After renaming, the IDs are the binders occurring
+ -- within this transform statement that are used after it
+
+ (LHsExpr idR) -- "then f"
+
+ (Maybe (LHsExpr idR)) -- "by e" (optional)
- | GroupStmt ([LStmt idL], [(idR, idR)]) (GroupByClause idR)
- -- After renaming, the IDs are the binders occurring within this
- -- transform statement that are used after it which are paired with
- -- the names which they group over in statements
+ | GroupStmt
+ [LStmt idL] -- Stmts to the *left* of the 'group'
+ -- which generates the tuples to be grouped
- -- Recursive statement (see Note [RecStmt] below)
+ [(idR, idR)] -- See Note [GroupStmt binder map]
+
+ (Maybe (LHsExpr idR)) -- "by e" (optional)
+
+ (Either -- "using f"
+ (LHsExpr idR) -- Left f => explicit "using f"
+ (SyntaxExpr idR)) -- Right f => implicit; filled in with 'groupWith'
+
+
+ -- Recursive statement (see Note [How RecStmt works] below)
| RecStmt
{ recS_stmts :: [LStmtLR idL idR]
}
\end{code}
+Note [GroupStmt binder map]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
+The [(idR,idR)] in a GroupStmt behaves as follows:
+
+ * Before renaming: []
+
+ * After renaming:
+ [ (x27,x27), ..., (z35,z35) ]
+ These are the variables
+ bound by the stmts to the left of the 'group'
+ and used either in the 'by' clause,
+ or in the stmts following the 'group'
+ Each item is a pair of identical variables.
+
+ * After typechecking:
+ [ (x27:Int, x27:[Int]), ..., (z35:Bool, z35:[Bool]) ]
+ Each pair has the same unique, but different *types*.
+
+Note [ExprStmt]
+~~~~~~~~~~~~~~~
ExprStmts are a bit tricky, because what they mean
depends on the context. Consider the following contexts:
pprStmt (ExprStmt expr _ _) = ppr expr
pprStmt (ParStmt stmtss) = hsep (map doStmts stmtss)
where doStmts stmts = ptext (sLit "| ") <> ppr stmts
-pprStmt (TransformStmt (stmts, _) usingExpr maybeByExpr)
- = (hsep [stmtsDoc, ptext (sLit "then"), ppr usingExpr, byExprDoc])
- where stmtsDoc = interpp'SP stmts
- byExprDoc = maybe empty (\byExpr -> hsep [ptext (sLit "by"), ppr byExpr]) maybeByExpr
-pprStmt (GroupStmt (stmts, _) groupByClause) = (hsep [stmtsDoc, ptext (sLit "then group"), pprGroupByClause groupByClause])
- where stmtsDoc = interpp'SP stmts
-pprStmt (RecStmt { recS_stmts = segment, recS_rec_ids = rec_ids, recS_later_ids = later_ids })
+
+pprStmt (TransformStmt stmts _ using by)
+ = sep (ppr_lc_stmts stmts ++ [pprTransformStmt using by])
+
+pprStmt (GroupStmt stmts _ by using)
+ = sep (ppr_lc_stmts stmts ++ [pprGroupStmt by using])
+
+pprStmt (RecStmt { recS_stmts = segment, recS_rec_ids = rec_ids
+ , recS_later_ids = later_ids })
= ptext (sLit "rec") <+>
vcat [ braces (vcat (map ppr segment))
, ifPprDebug (vcat [ ptext (sLit "rec_ids=") <> ppr rec_ids
, ptext (sLit "later_ids=") <> ppr later_ids])]
-pprGroupByClause :: (OutputableBndr id) => GroupByClause id -> SDoc
-pprGroupByClause (GroupByNothing usingExpr) = hsep [ptext (sLit "using"), ppr usingExpr]
-pprGroupByClause (GroupBySomething eitherUsingExpr byExpr) = hsep [ptext (sLit "by"), ppr byExpr, usingExprDoc]
- where usingExprDoc = either (\usingExpr -> hsep [ptext (sLit "using"), ppr usingExpr]) (const empty) eitherUsingExpr
+pprTransformStmt :: OutputableBndr id => LHsExpr id -> Maybe (LHsExpr id) -> SDoc
+pprTransformStmt using by = sep [ ptext (sLit "then"), nest 2 (ppr using), nest 2 (pprBy by)]
+
+pprGroupStmt :: OutputableBndr id => Maybe (LHsExpr id)
+ -> Either (LHsExpr id) (SyntaxExpr is)
+ -> SDoc
+pprGroupStmt by using
+ = sep [ ptext (sLit "then group"), nest 2 (pprBy by), nest 2 (ppr_using using)]
+ where
+ ppr_using (Right _) = empty
+ ppr_using (Left e) = ptext (sLit "using") <+> ppr e
+
+pprBy :: OutputableBndr id => Maybe (LHsExpr id) -> SDoc
+pprBy Nothing = empty
+pprBy (Just e) = ptext (sLit "by") <+> ppr e
pprDo :: OutputableBndr id => HsStmtContext any -> [LStmt id] -> LHsExpr id -> SDoc
pprDo DoExpr stmts body = ptext (sLit "do") <+> ppr_do_stmts stmts body
pprDo GhciStmt stmts body = ptext (sLit "do") <+> ppr_do_stmts stmts body
pprDo (MDoExpr _) stmts body = ptext (sLit "mdo") <+> ppr_do_stmts stmts body
-pprDo ListComp stmts body = pprComp brackets stmts body
-pprDo PArrComp stmts body = pprComp pa_brackets stmts body
+pprDo ListComp stmts body = brackets $ pprComp stmts body
+pprDo PArrComp stmts body = pa_brackets $ pprComp stmts body
pprDo _ _ _ = panic "pprDo" -- PatGuard, ParStmtCxt
ppr_do_stmts :: OutputableBndr id => [LStmt id] -> LHsExpr id -> SDoc
-- Print a bunch of do stmts, with explicit braces and semicolons,
-- so that we are not vulnerable to layout bugs
ppr_do_stmts stmts body
- = lbrace <+> pprDeeperList vcat ([ ppr s <> semi | s <- stmts] ++ [ppr body])
+ = lbrace <+> pprDeeperList vcat ([ppr s <> semi | s <- stmts] ++ [ppr body])
<+> rbrace
-pprComp :: OutputableBndr id => (SDoc -> SDoc) -> [LStmt id] -> LHsExpr id -> SDoc
-pprComp brack quals body
- = brack $
- hang (ppr body <+> char '|')
- 4 (interpp'SP quals)
+ppr_lc_stmts :: OutputableBndr id => [LStmt id] -> [SDoc]
+ppr_lc_stmts stmts = [ppr s <> comma | s <- stmts]
+
+pprComp :: OutputableBndr id => [LStmt id] -> LHsExpr id -> SDoc
+pprComp quals body -- Prints: body | qual1, ..., qualn
+ = hang (ppr body <+> char '|') 2 (interpp'SP quals)
\end{code}
%************************************************************************
pprStmtInCtxt :: (OutputableBndr idL, OutputableBndr idR)
=> HsStmtContext idL -> StmtLR idL idR -> SDoc
pprStmtInCtxt ctxt stmt = hang (ptext (sLit "In a stmt of") <+> pprStmtContext ctxt <> colon)
- 4 (ppr stmt)
+ 4 (ppr_stmt stmt)
+ where
+ -- For Group and Transform Stmts, don't print the nested stmts!
+ ppr_stmt (GroupStmt _ _ by using) = pprGroupStmt by using
+ ppr_stmt (TransformStmt _ _ using by) = pprTransformStmt using by
+ ppr_stmt stmt = pprStmt stmt
\end{code}