{- | Module : ACSpans.PositionUtils Description : Auxiliary functions for positions This module provides some auxiliary functions concerning positions. -} module ACSpans.PositionUtils where import qualified ACSpans.Ident as I import ACSpans.Span (Pos, Span, start, virtualPos) import ACSpans.SpanAST import ACSpans.Token -- |Return the line of a position line :: Pos -> Int line pos = fst pos -- |Return the column of a position col :: Pos -> Int col pos = snd pos -- |Check whether the columns in a list of positions are all equal allColEq :: [Pos] -> Bool allColEq xs = case xs of [] -> True _ -> all (== col (head xs)) (map col (tail xs)) -- |Check whether the lines in a list of positions are all equal allLinesEq :: [Pos] -> Bool allLinesEq xs = case xs of [] -> True _ -> all (== line (head xs)) (map line (tail xs)) -- |move given position by n columns moveColBy :: Pos -> Int -> Pos moveColBy (l,c) n = (l, c + n) --- |Change a position by a delta --- @param l - line --- @param c - column --- @param ml - delta line --- @param mc - delta column --- @return - input position changed by delta line and delta column relocate :: Pos -> (Int, Int) -> Pos relocate (l, c) (ml, mc) = (l + ml, c + mc) -- ---------------------------------------------------------------------------- -- Get positions of AST elements -- ---------------------------------------------------------------------------- -- |Get start position of QualIdent qidPos :: I.QualIdent -> Pos qidPos (I.QualIdent _ i) = idPos i -- |Get start position of Ident idPos :: I.Ident -> Pos idPos (I.Ident sp _ _) = start sp -- |Get start position of Ident that might be surrounded by -- |some kind of symbols, e.g. parens or backticks sidPos :: I.SymIdent -> Pos sidPos (I.SymIdent mpl i _) = case mpl of Just pl -> start pl Nothing -> idPos i -- |Get start position of QualIdent that might be surrounded by -- |some kind of symbols, e.g. parens or backticks sqidPos :: I.SymQualIdent -> Pos sqidPos (I.SymQualIdent mpl qi _) = case mpl of Just pl -> start pl Nothing -> qidPos qi -- |Get start position of Export exportPos :: Export -> Pos exportPos e = case e of Export qi -> sqidPos qi ExportTypeWith qi _ _ _ _ -> qidPos qi ExportTypeAll qi _ _ _ -> qidPos qi ExportModule _ mi -> start (I.midSpan mi) -- |Get start position of Decl declPos :: Decl -> Pos declPos d = case d of PatternDecl pat _ -> patPos pat _ -> virtualPos -- |Get position of equality sign in Decl declPosEq :: Decl -> Pos declPosEq d = case d of PatternDecl _ rhs -> rhsPos rhs _ -> virtualPos -- |Get position of Infix Keyword infPos :: Infix -> Pos infPos i = case i of InfixL s -> start s InfixR s -> start s Infix s -> start s -- |Get start position of ConstrDecl constrDeclPos :: ConstrDecl -> Pos constrDeclPos c = case c of ConstrDecl _ i _ -> idPos i ConOpDecl _ te _ _ -> typeExprPos te RecordDecl _ i _ _ _ _ -> idPos i -- |Get Type positions of ConstrDecl constrDeclConstrTypePos :: ConstrDecl -> [Pos] constrDeclConstrTypePos cd = case cd of ConstrDecl _ _ cts -> if null cts then [virtualPos] else map typeExprPos cts RecordDecl _ _ _ fds _ _ -> if null fds then [virtualPos] else map fieldDeclTEPos fds _ -> [virtualPos] -- |Get position of first Type in ConstrDecl firstCDConstrTypePos :: ConstrDecl -> Pos firstCDConstrTypePos cd = case cd of ConstrDecl _ _ cts -> if null cts then virtualPos else typeExprPos $ head cts _ -> virtualPos -- |Get position of commas in FieldDecl fieldDeclCPos :: FieldDecl -> [Pos] fieldDeclCPos (FieldDecl _ sps _ _) = map start sps -- | Get position of doublecolon in FieldDecl fieldDeclDCPos :: FieldDecl -> Pos fieldDeclDCPos (FieldDecl _ _ sp _) = start sp -- |Get position of first constructor in FieldDecl fieldDeclIDPos :: FieldDecl -> Pos fieldDeclIDPos (FieldDecl ids _ _ _) = idPos $ head ids -- |Get position of TypeExpression in FieldDecl fieldDeclTEPos :: FieldDecl -> Pos fieldDeclTEPos (FieldDecl _ _ _ te) = typeExprPos te -- |Get start position of TypeExpr typeExprPos :: TypeExpr -> Pos typeExprPos te = case te of ConstructorType msp qi _ _ -> case msp of Just sp -> start sp Nothing -> qidPos qi VariableType i -> idPos i TupleType sp _ _ _ -> start sp ListType sp _ _ -> start sp ArrowType te1 _ _ -> typeExprPos te1 ParenType sp _ _ -> start sp -- |Get position of equality sign or rightarrow in Rhs rhsPos :: Rhs -> Pos rhsPos rhs = case rhs of SimpleRhs sp _ _ _ -> start sp GuardedRhs sp _ _ _ _ -> start sp -- |Get start position of Lhs lhsPos :: Lhs -> Pos lhsPos lhs = case lhs of FunLhs si _ -> sidPos si OpLhs p _ _ -> patPos p ApLhs l _ -> lhsPos l -- |Get start position of CondExpr condExprPos :: CondExpr -> Pos condExprPos (CondExpr _ sp _) = start sp -- |Get start position of Literal litPos :: Literal -> Pos litPos l = case l of Char sp _ -> start sp Int sp _ -> start sp Float sp _ -> start sp String sp _ -> start sp -- |Get start position of Pattern patPos :: Pattern -> Pos patPos p = case p of LiteralPattern l -> litPos l NegativePattern i _ -> idPos i VariablePattern i -> idPos i ConstructorPattern qi _ -> qidPos qi InfixPattern pat _ _ -> patPos pat ParenPattern _ pat _ -> patPos pat RecordPattern qi _ _ _ _ -> qidPos qi TuplePattern spl _ _ _ -> start spl ListPattern spl _ _ _ -> start spl AsPattern i _ _ -> idPos i LazyPattern sp _ -> start sp FunctionPattern qi _ -> qidPos qi InfixFuncPattern pat _ _ -> patPos pat -- |Get start position of Expression exprPos :: Expression -> Pos exprPos e = case e of Literal l -> litPos l Variable v -> sqidPos v Constructor qi -> sqidPos qi Paren spl _ _ -> start spl Typed e1 _ _ -> exprPos e1 Record qi _ _ _ _ -> qidPos qi RecordUpdate e1 _ _ _ _ -> exprPos e1 Tuple spl _ _ _ -> start spl List spl _ _ _ -> start spl ListCompr spl _ _ _ _ _ -> start spl EnumFrom spl _ _ _ -> start spl EnumFromThen spl _ _ _ _ _ -> start spl EnumFromTo spl _ _ _ _ -> start spl EnumFromThenTo spl _ _ _ _ _ _ -> start spl UnaryMinus i _ -> idPos i Apply e1 _ -> exprPos e1 InfixApply e1 _ _ -> exprPos e1 LeftSection spl _ _ _ -> start spl RightSection spl _ _ _ -> start spl Lambda sp _ _ _ -> start sp Let sp _ _ _ -> start sp Do sp _ _ -> start sp IfThenElse spi _ _ _ _ _ -> start spi Case _ sp _ _ _ -> start sp -- |Get start position of Statement stmtPos :: Statement -> Pos stmtPos s = case s of StmtExpr e -> exprPos e StmtDecl sp _ -> start sp StmtBind _ pat _ -> patPos pat -- |Get position of rightarrow in Alt altPos :: Alt -> Pos altPos (Alt _ rhs) = rhsPos rhs -- span computation -- TODO: Remove when curry-frontend was extended correspondingly -- | Compute for a given token and its starting position a corresponding span spanToken :: (Pos,Token) -> (Span,Token) spanToken posTok = case posTok of (p, CharTok c) -> ((p, moveColBy p (length (show c) - 1)), CharTok c) (p, IntTok i) -> ((p, moveColBy p (length (show i) - 1)), IntTok i) (p, FloatTok f) -> ((p, moveColBy p (length (show f) - 1)), FloatTok f) (p, StringTok s) -> ((p, moveColBy p (length (show s) - 1)), StringTok s) (p, Id i) -> ((p, moveColBy p (length i - 1)), Id i) (p, QId qi) -> ((p, moveColBy p (length qi - 1)), QId qi) (p, Sym s) -> ((p, moveColBy p (length s - 1)), Sym s) (p, QSym qs) -> ((p, moveColBy p (length qs - 1)), QSym qs) (p, KW_case) -> ((p, moveColBy p 3), KW_case) (p, KW_data) -> ((p, moveColBy p 3), KW_data) (p, KW_do) -> ((p, moveColBy p 1), KW_do) (p, KW_else) -> ((p, moveColBy p 3), KW_else) (p, KW_external) -> ((p, moveColBy p 7), KW_external) (p, KW_fcase) -> ((p, moveColBy p 4), KW_fcase) (p, KW_foreign) -> ((p, moveColBy p 6), KW_foreign) (p, KW_free) -> ((p, moveColBy p 3), KW_free) (p, KW_if) -> ((p, moveColBy p 1), KW_if) (p, KW_import) -> ((p, moveColBy p 5), KW_import) (p, KW_in) -> ((p, moveColBy p 1), KW_in) (p, KW_infix) -> ((p, moveColBy p 4), KW_infix) (p, KW_infixl) -> ((p, moveColBy p 5), KW_infixl) (p, KW_infixr) -> ((p, moveColBy p 5), KW_infixr) (p, KW_let) -> ((p, moveColBy p 2), KW_let) (p, KW_module) -> ((p, moveColBy p 5), KW_module) (p, KW_newtype) -> ((p, moveColBy p 6), KW_newtype) (p, KW_of) -> ((p, moveColBy p 1), KW_of) (p, KW_then) -> ((p, moveColBy p 3), KW_then) (p, KW_type) -> ((p, moveColBy p 3), KW_type) (p, KW_where) -> ((p, moveColBy p 4), KW_where) (p, DotDot) -> ((p, moveColBy p 1), DotDot) (p, DoubleColon) -> ((p, moveColBy p 1), DoubleColon) (p, LeftArrow) -> ((p, moveColBy p 1), LeftArrow) (p, RightArrow) -> ((p, moveColBy p 1), RightArrow) (p, Bind) -> ((p, moveColBy p 1), Bind) (p, Select) -> ((p, moveColBy p 1), Select) (p, Id_as) -> ((p, moveColBy p 1), Id_as) (p, Id_ccall) -> ((p, moveColBy p 4), Id_ccall) (p, Id_forall) -> ((p, moveColBy p 5), Id_forall) (p, Id_hiding) -> ((p, moveColBy p 5), Id_hiding) (p, Id_interface) -> ((p, moveColBy p 8), Id_interface) (p, Id_primitive) -> ((p, moveColBy p 8), Id_primitive) (p, Id_qualified) -> ((p, moveColBy p 8), Id_qualified) (p, SymMinusDot) -> ((p, moveColBy p 1), SymMinusDot) (p, PragmaLanguage ) -> ((p, moveColBy p 11), PragmaLanguage) (p, PragmaOptions ms s) -> ((p, moveColBy p (length s + 11)), PragmaOptions ms s) (p, PragmaHiding ) -> ((p, moveColBy p 9), PragmaHiding) (p, PragmaEnd ) -> ((p, moveColBy p 2), PragmaEnd) (p, tok) -> ((p, p), tok)