package ocp-indent
A simple tool to indent OCaml programs
Install
Dune Dependency
Authors
Maintainers
Sources
1.8.1.tar.gz
md5=70db6649a8c08a682ad63730c9752e31
sha512=565353de333dd44375366fff75e85a6256c3cd9ff52b3db79803141f975e77cda04dfe32f5e0f2d4c82c59be8f04e9c2bf4d066b113b2cdf267f4c3dcfa401da
doc/src/ocp-indent.lib/indentBlock.ml.html
Source file indentBlock.ml
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*) (* but WITHOUT ANY WARRANTY; without even the implied warranty of *) (* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *) (* Lesser GNU General Public License for more details. *) (* *) (**************************************************************************) open Pos open Nstream open Approx_lexer open Util module Node = struct type extension_kind = ExtNode | Attr (* Node kind *) type kind = | KParen | KBrace | KBracket | KBracketBar | KLet | KAnd of kind | KLetIn | KIn | KExpr of int (* actually handles also patterns / types / ... *) (* Parameter:Priority - next expression is deindented if the op has lower priority *) | KBody of kind | KArrow of kind | KColon | KType | KConstraint | KException | KOpen | KInclude | KVal | KBar of kind (* Stores the original token and line offset for alignment of comment continuations *) | KComment of Nstream.token * int (* ocamldoc verbatim block *) | KVerbatim of Nstream.token * int | KUnknown | KStruct | KSig | KModule | KBegin | KObject | KMatch | KTry | KWith of kind | KLoop | KIf | KThen | KElse | KDo | KFun | KWhen | KExternal | KCodeInComment | KExtendedExpr of string list * extension_kind | KExtendedItem of string list * extension_kind | KAttrId of string list * bool (* Priority of open expression constructs (see below for operators) *) let prio = function | KIn | KArrow _ -> 0 | KThen | KElse -> 10 | KExpr i -> i | _ -> -10 let prio_max = 200 let prio_dot = 160 let prio_apply = 140 let expr_atom = KExpr prio_max let expr_apply = KExpr 140 let prio_lbracketat = 30 (* Special operators that should break arrow indentation have this prio (eg monad operators, >>=) *) let prio_flatop = 59 let prio_colon = 35 let prio_arrow = 32 let prio_semi = 5 let rec follow = function | KAnd k | KBody k | KWith k -> follow k | k -> k let rec string_of_kind = function | KExpr i -> Printf.sprintf "KExpr(%d)" i | KParen -> "KParen" | KBrace -> "KBrace" | KBracket -> "KBracket" | KBracketBar -> "KBracketBar" (* | KField -> "KField" *) | KLet -> "KLet" | KIn -> "KIn" | KAnd k -> aux "KAnd" k | KLetIn -> "KLetIn" | KBody k -> aux "KBody" k | KArrow k -> aux "KArrow" k | KColon -> "KColon" | KVal -> "KVal" | KBar k -> aux "KBar" k | KOpen -> "KOpen" | KInclude -> "KInclude" | KComment _ -> "KComment" | KVerbatim _ -> "KVerbatim" | KUnknown -> "KUnknown" | KType -> "Ktype" | KConstraint -> "KConstraint" | KException -> "KException" | KStruct -> "KStruct" | KSig -> "KSig" | KModule -> "KModule" | KBegin -> "KBegin" | KObject -> "KObject" | KMatch -> "KMatch" | KTry -> "KTry" | KWith k -> aux "KWith" k | KLoop -> "KLoop" | KIf -> "KIf" | KThen -> "Kthen" | KElse -> "KElse" | KDo -> "KDo" | KFun -> "KFun" | KWhen -> "KWhen" | KExternal -> "KExternal" | KCodeInComment -> "KCodeInComment" | KExtendedExpr (name, kind) -> Printf.sprintf "KExtendedExpr(%s,%s)" (String.concat "." (List.rev name)) (match kind with ExtNode -> "node" | Attr -> "attr") | KExtendedItem (name, kind) -> Printf.sprintf "KExtendedItem(%s,%s)" (String.concat "." (List.rev name)) (match kind with ExtNode -> "node" | Attr -> "attr") | KAttrId(name, dotted) -> Printf.sprintf "KAttrId(%s,%B)" (String.concat "." (List.rev name)) dotted and aux str k = Printf.sprintf "%s(%s)" str (string_of_kind k) (* A node: - has a kind - has the current line offset [indent] - has the current token offset [column] - has a inner padding [pad] - has a line count [count] XXX XXX XXX [ XXX ] XXX XXX XXX [ XXX ] <indent> <----------x--------> <-pad-> <-pad-> *) type t = { kind: kind; indent: int; (* expression starting column *) column: int; (* starting column of the token*) pad: int; (* padding: how much children should be indented from current line *) line_indent: int; (* starting column of the current line *) line: int; (* starting line of the expression *) } let to_string i t = Printf.sprintf "%s%s %d|%d-%d-%d(%d)" (String.make i ' ') (string_of_kind t.kind) t.line t.line_indent t.indent t.column t.pad let default = { kind = KUnknown; indent = 0; column = 0; pad = 0; line = 0; line_indent = 0; } let shift node n = let n = max n (- node.indent) in { node with indent = node.indent + n; column = node.column + n } end module Path = struct open Node type t = Node.t list let to_string t = String.concat " \027[35m/\027[m " (List.map (fun n -> Node.to_string 0 n) (List.rev t)) let top = function | [] -> Node.default | t :: _ -> t let indent = function | [] -> 0 | t :: _ -> t.indent let pad = function | [] -> 0 | t :: _ -> t.pad let maptop f = function | [] | {kind=KCodeInComment}::_ as l -> l | t::l -> f t :: l let shift path n = maptop (fun t -> Node.shift t n) path end open Node (* A block is: - a node path to go to this block - the last token of this block (when a comment, it is stacked to keep the last meaningful token) - the last token offset - the original starting column for this block *) type t = { path: Path.t; last: Nstream.token list; toff: int; orig: int; } let shift t n = { t with path = Path.shift t.path n } let to_string t = Path.to_string t.path (* Printf.sprintf "%s\n%d %b" (Path.to_string t.path) t.toff *) let empty = { path = []; last = []; toff = 0; orig = 0; } (* (* Does the token close a top LET construct ? *) (* NB: we do this with another way below, but this one might be more robust *) let rec close_top_let = function | None -> true | Some t -> match t.token with | COMMENT _ -> assert false (* COMMENT must be skipped *) (* Tokens that allow a let-in after them *) | AMPERSAND | AMPERAMPER | BARBAR | BEGIN | COLONCOLON | COLONEQUAL | COMMA | DO | DOWNTO | ELSE | EQUAL | GREATER | IF | IN | INFIXOP0 _ | INFIXOP1 _ | INFIXOP2 _ | INFIXOP3 _ | INFIXOP4 _ | LBRACE | LBRACELESS | LBRACKET | LBRACKETBAR | LBRACKETLESS | LBRACKETGREATER | LESS | LESSMINUS | LPAREN | MATCH | MINUS | MINUSDOT | MINUSGREATER | OR | PLUS | PLUSDOT | QUESTION | QUESTIONQUESTION | SEMI | STAR | THEN | TO | TRY | WHEN | WHILE | TILDE -> false | _ -> true *) (* Go back to the node path path until [f] holds *) let rec unwind f path = match path with | { kind } :: _ when f kind -> path | { kind=KCodeInComment } :: _ -> path | _ :: path -> unwind f path | [] -> [] (* Unwinds the path while [f] holds, returning the last step for which it does *) let unwind_while f path = let rec aux acc = function | { kind=KCodeInComment } :: _ as p -> acc :: p | { kind } as h :: p when f kind -> aux h p | p -> acc :: p in match path with | { kind=KCodeInComment } :: _ -> None | { kind } as h :: p when f kind -> Some (aux h p) | _ -> None let top_kind = function | KStruct|KSig|KParen|KBegin|KObject|KExtendedItem _|KAttrId _|KExtendedExpr _ -> true | _ -> false let stritem_kind = function | KModule|KVal|KLet|KExternal|KType|KException|KOpen|KInclude -> true | _ -> false (* Unwind the struct/sig top *) let unwind_top = unwind top_kind (* Get the parent node *) let parent = function | [] | {kind=KCodeInComment}::_ as t -> t | _ :: t -> t (* Get the next token, skipping comments (and in-comment tokens) *) let next_token_full = let rec skip depth stream = match Nstream.next stream with | None -> None | Some (tok,stream) -> match tok.token with | COMMENT -> skip depth stream | OCAMLDOC_VERB | OCAMLDOC_CODE -> skip (depth + 1) stream | COMMENTCONT -> if depth = 0 then None else skip (depth-1) stream | _ when depth = 0 -> Some (tok,stream) | _ -> skip depth stream in skip 0 let next_token stream = match next_token_full stream with | None -> None | Some (t,_) -> Some t.token let next_2_tokens stream = match next_token_full stream with | None -> None | Some (t1,s) -> match next_token s with | None -> None | Some t2 -> Some (t1.token, t2) let last_token t = let rec aux = function | [] -> None | {token = COMMENT | COMMENTCONT} :: r -> aux r | t :: _ -> Some t.token in aux t.last (* a more efficient way to do this would be to store a "context-type" in the stack *) let rec is_inside_type path = match unwind (function | KParen | KBegin | KBracket | KBrace | KBracketBar | KVal | KLet | KLetIn | KBody (KVal | KLet | KLetIn) | KBody(KType|KExternal) | KColon | KStruct | KSig | KObject -> true | _ -> false) path with | {kind=KBody(KVal|KType|KExternal) | KColon}::_ -> true | {kind=KParen | KBegin | KBracket | KBrace}::p -> is_inside_type p | _ -> false (* Returns None if the current token ends a line, the offset of the next token otherwise *) let next_offset tok stream = match next_token_full stream with | None -> None | Some (next,_) -> if Region.end_line tok.region < Region.start_line next.region then None else Some next.offset let reset_padding ?(pad=0) path = Path.maptop (fun n -> {n with pad}) path let reset_line_indent config current_line path = let limit_overindent = match config.IndentConfig.i_max_indent with | Some m -> let m = max 0 (m - config.IndentConfig.i_base) in fun i -> min i m | None -> fun i -> i in let rec aux acc = function | {line} as t :: r when line = current_line -> aux (t::acc) r | p -> let p, acc, extra = match acc with | {kind = KParen|KBracket|KBrace|KBracketBar} as acc1 :: acc when acc1.line_indent = acc1.column -> (* ignore those if at start of line *) acc1 :: p, acc, acc1.pad | _ -> p, acc, 0 in List.fold_left (fun p t -> {t with indent = t.line_indent + limit_overindent (t.indent - t.line_indent) + extra} ::p) p acc in aux [] path let dump t = Printf.eprintf "\027[35m# \027[32m%8s\027[m %s\n%!" (match t.last with tok::_ -> shorten_string 30 (Lazy.force tok.substr) | _ -> "") (to_string t) (* different kinds of position: [T]: token aligned: the child is aligned with the token position [L]: line aligned: the child is aligned with the begining of line [A]: absolute position *) type pos = L | T | A of int (* position *) (* indent configuration of the infix operators *) let op_prio_align_indent config = let open IndentConfig in let align, indent = match config.i_align_ops with | true -> T, 0 | false -> L, config.i_base in let is_monadop s = match String.sub s 0 (min 2 (String.length s)) with | ">>" | ">|" | "@@" | "@>" -> true | _ -> false in let is_monadop s = is_monadop s (* "*>>=", "+>>>", "/>>|", etc. *) || (String.length s > 3 && is_monadop (String.sub s 1 2)) in function (* anything else : -10 *) (* in -> : 0 *) | SEMI -> prio_semi,L,-2 (* special negative indent is only honored at beginning of line *) (* then else : 10 *) | BAR -> 10,T,-2 | OF -> 20,L,2 | LESSMINUS | COLONEQUAL -> 20,L,config.i_base | COMMA -> 30,align,-2 | MINUSGREATER -> prio_arrow,L,0 (* is an operator only in types *) | COLON -> prio_colon,T,config.i_base | COLONGREATER -> prio_colon,L,config.i_base | OR | BARBAR -> 40,T,0 | AMPERSAND | AMPERAMPER -> 50,T,0 | (INFIXOP0 s | INFIXOP1 s | INFIXOP2 s | INFIXOP3 s | INFIXOP4 s) (* these should deindent fun -> *) when is_monadop s -> prio_flatop,L,0 | INFIXOP0 s -> (match String.sub s 0 (min 2 (String.length s)) with | "|!" | "|>" -> prio_flatop,T,0 | _ -> 60,align,indent) | EQUAL | LESS | GREATER -> 60,align,0 | INFIXOP1 _ -> 70,align,indent | LBRACKETAT -> prio_lbracketat,align,indent | COLONCOLON -> 80,align,indent | INFIXOP2 _ | PLUSDOT | PLUS | MINUSDOT | MINUS -> 90,align,indent | INFIXOP3 _ | STAR -> 100,align,indent | INFIXOP4 _ -> 110,align,indent (* apply: 140 *) | AS -> prio_apply,L,0 | TILDE | QUESTION -> prio_apply,L,config.i_base | LABEL _ | OPTLABEL _ -> if config.i_align_params = Always then 145,T,config.i_base else 145,L,config.i_base | SHARP -> 150,align,config.i_base | DOT -> prio_dot,align,config.i_base | _ -> assert false let handle_dotted block tok = let starts_line = tok.newlines > 0 in let current_line = Region.start_line tok.region in let is_attr_id = function | { kind = KAttrId (_, dotted) } :: _ -> not dotted | _ -> false in let make_dotted_attr_id = function | { kind = KAttrId (names, _) } as node :: ({ kind = (KExtendedItem ([],_) | KExtendedExpr ([],_))} :: _ as path) -> { node with kind = KAttrId (names, true) } :: path | _ -> assert false in let is_dotted_attr_id = function | { kind = KExtendedExpr ([],_) } :: _ -> true | { kind = KExtendedItem ([],_) } :: _ -> true | { kind = KAttrId (_, dotted) } :: _ -> dotted | _ -> false in let make_attr_id name = function | ({ kind = (KExtendedItem ([],_) | KExtendedExpr ([],_)); indent; pad; } :: _ as path) -> let indent = if starts_line then indent + pad else indent + pad + String.length (Lazy.force tok.between) - 1 in let column = if starts_line then indent else block.toff + tok.offset in { kind = (KAttrId ([name], false)); indent; line_indent = indent; column; line = current_line; pad = 0 } :: path | ({ kind = KAttrId (names, _)} as node) :: path -> { node with kind = KAttrId (name :: names, false); } :: path | _ -> assert false in if is_dotted_attr_id block.path then match tok.token with | LIDENT s | UIDENT s -> Some (make_attr_id s block.path) | AND | AS | ASSERT | BEGIN | CLASS | CONSTRAINT | DO | DONE | DOWNTO | ELSE | END | EXCEPTION | EXTERNAL | FALSE | FOR | FUN | FUNCTION | FUNCTOR | IF | IN | INCLUDE | INHERIT | INITIALIZER | LAZY | LET | MATCH | METHOD | MODULE | MUTABLE | NEW | OBJECT | OF | OPEN | OR | PRIVATE | REC | SIG | STRUCT | THEN | TO | TRUE | TRY | TYPE | VAL | VIRTUAL | WHEN | WHILE | WITH -> Some (make_attr_id (Lazy.force tok.substr) block.path) | _ -> None else if is_attr_id block.path then match tok.token with | DOT -> Some (make_dotted_attr_id block.path) | _ -> None else None let ext_kind = function | LBRACKETPERCENT | LBRACKETPERCENTPERCENT -> ExtNode | LBRACKETAT | LBRACKETATAT | LBRACKETATATAT -> Attr | _ -> invalid_arg "ext_kind" (* Take a block, a token stream and a token. Return the new block stack. *) let rec update_path config block stream tok = let open IndentConfig in let starts_line = tok.newlines > 0 in let current_line = Region.start_line tok.region in let node replace kind pos pad path = let parent = Path.top path in if starts_line then let indent = match pos with | A p -> p | L -> parent.indent + if replace then 0 else parent.pad | T -> parent.column + if replace then 0 else parent.pad in { kind; indent; line_indent=indent; column=indent; pad; line = current_line } else let column = block.toff + tok.offset in { kind; indent = parent.indent; line_indent=parent.line_indent; column; pad; line = current_line } in (* Add a new child block *) let append kind pos ?(pad=config.i_base) = function | {kind = KAttrId (names, _)} :: ({kind = KExtendedItem ([],_) | KExtendedExpr ([],_) } as n) :: path -> let n = { n with kind = match n.kind with | KExtendedItem ([],k) -> KExtendedItem (List.rev names,k) | KExtendedExpr ([],k) -> KExtendedExpr (List.rev names,k) | _ -> assert false } in let path = {n with pad = config.i_ppx_stritem_ext } :: path in node false kind pos pad path :: path | path -> node false kind pos pad path :: path in (* replace the current block with a new one *) let replace kind pos ?(pad=config.i_base) path = match path with | [] | {kind=KCodeInComment} :: _ -> node true kind pos pad path :: path | _::t -> node true kind pos pad path :: t in (* Used when expressions are merged together (for example in "3 +" the "+" extends the lower-priority expression "3") *) let extend kind pos ?(pad=config.i_base) = function | [] | {kind=KCodeInComment} :: _ as path -> node true kind pos pad path :: path | h::p -> let negative_indent () = (* Special negative indent: relative, only at beginning of line, and when prio is changed or there is a paren to back-align to *) if pad >= 0 || not starts_line then None else match p with | {kind=KParen|KBracket|KBracketBar |KBrace|KBar _|KWith KBrace|KBody _} as paren :: _ when paren.line = h.line -> let paren_len = match paren.kind with | KParen | KBracket | KBrace | KBar _ | KBody _ -> 1 | KBracketBar -> 2 | KWith KBrace -> 4 | _ -> assert false in let indent = paren.column + paren_len + 1 (* usually 1 space *) + pad in Some ({ h with kind; indent; column=indent; line_indent = indent-pad; pad = max h.pad (h.indent-indent)} :: p) | _ -> match kind,h.kind with | KExpr pk, KExpr ph when ph = pk -> (* respect the indent of the above same-priority term, we assume it was already back-indented *) Some ({ h with kind; indent=h.column; column=h.column; line_indent = h.column; pad = h.pad } :: p) | _ -> let indent = h.column + pad in if indent < 0 then None else Some ({ h with kind; indent; column=indent; line_indent = indent-pad; pad = -pad } :: p) in match negative_indent () with | Some p -> p | None -> (* normal case *) (* change indent to set the starting column of the expression *) let pad = max 0 pad in let indent,pad = if pos = T then h.column, pad else (* set indent of the whole expr accoring to its parent *) Path.indent p + Path.pad p, pad in let line_indent = if starts_line then indent else h.line_indent in { h with kind; indent; line_indent; pad } :: p in (* use before appending a new expr_atom: checks if that may cause an apply and folds parent exprs accordingly *) let fold_expr path = match path with | {kind=KExpr _} as e :: ({kind=KFun} as fn) :: p -> {fn with line_indent = e.line_indent} :: p | {kind=KExpr i} as e :: _ when i = prio_max -> (* we are appending two expr_atom next to each other: this is an apply. *) (* this "folds" the left-side of the apply *) let p = match unwind_while (fun kind -> prio kind >= prio_apply) path with | Some({kind=KExpr i} as e1 :: p) when i = prio_apply -> {e1 with line_indent = e.line_indent} :: p | Some({kind=KExpr _; line} :: {kind=KModule|KInclude|KOpen|KBody KModule} :: _ as p) -> (* ignore align_params for functor application *) extend (KExpr prio_apply) L (reset_line_indent config line p) | Some({kind=KExpr _; line} :: {kind=KArrow (KMatch|KTry) | KTry | KMatch; line=arrow_line}::_ as p) when config.i_align_params = Auto && line = arrow_line -> (* Special case: switch to token-aligned (see test js-args) *) extend (KExpr prio_apply) T p | Some p -> extend (KExpr prio_apply) (if config.i_align_params = Always then T else L) p | None -> assert false in p | _ -> path in let before_append_atom = function | {kind=KWith(KTry|KMatch as m)}::parent as path -> (* Special case: 'match with' and no bar for the 1st case: we append a virtual bar for alignment *) let path = match parent with | {kind = KExpr i} :: _ when i = prio_flatop -> reset_padding path | _ -> path in let p = append (KBar m) L ~pad:2 path in if not starts_line then let column = max 0 (block.toff + tok.offset - 2) in Path.maptop (fun h -> {h with column}) p else p | path -> fold_expr path in let atom path = let path = before_append_atom path in let pad = match path with {kind=KExpr _; pad}::_ -> pad | _ -> config.i_base in append expr_atom L ~pad path in let open_paren kind path = let path = before_append_atom path in let path = if config.i_align_params = Never || next_offset tok stream = None then reset_line_indent config current_line path else path in let p = append kind L path in let p = match p with (* Special case: paren after arrow has extra indent (see test js-begin) *) | {kind=KParen|KBegin|KBracket|KBracketBar|KBrace} :: {kind=KArrow _} :: _ when not starts_line -> Path.shift p config.i_base | p -> p in match p with | [] -> [] | h::p as path -> if config.i_align_params = Never then path else match kind with | KBegin -> path | KParen when if not config.i_align_ops then not starts_line else match next_token_full stream with | Some({token = SIG|STRUCT|OBJECT}, _) -> true | Some({token = MODULE}, stream) when next_token stream = Some STRUCT -> true | _ -> false -> path | _ -> (* set alignment for next lines relative to [ *) (match next_offset tok stream with | Some pad -> let indent = if starts_line then h.indent else block.toff + tok.offset in { h with indent; column=indent; pad } :: p | None -> if starts_line then path else {h with column = h.indent + h.pad} :: p) in let close f path = (* Remove the padding for the closing brace/bracket/paren/etc. *) Path.maptop (fun h -> {h with kind=expr_atom; pad=0}) (unwind f path) in let make_infix tok path = let op_prio, align, indent = op_prio_align_indent config tok.token in let in_delim_block () = match unwind_while (fun kind -> prio kind >= op_prio) path with | Some ({ kind = KExpr _; line } :: { kind = (KBrace|KParen|KBracket|KBracketBar); line = bline } :: _) -> line = bline | _ -> false in (* special cases *) let indent = (* don't back-indent operators when alone on their line (except BAR because that would disrupt typing) *) if indent < 0 && tok.token <> BAR && not (tok.token = SEMI && in_delim_block ()) && next_offset tok stream = None then 0 else indent in match path with | {kind=KExpr prio}::_ when prio >= op_prio && prio < prio_max -> (* we are just after another operator (should be an atom). handle as unary (eg. x + -y) : indented but no effect on following expressions *) (* append KUnknown L path *) append (KExpr prio) L ~pad:(max 0 indent) path | _ -> match unwind_while (fun kind -> prio kind >= op_prio) path with | Some p -> extend (KExpr op_prio) align ~pad:indent p | None -> (* used as prefix ? Don't apply T indent *) append (KExpr op_prio) L ~pad:(max 0 indent) path in (* KComment/KUnknown nodes correspond to comments or top-level stuff, they shouldn't be taken into account when indenting the next token *) let block0 = block in let block = match block.path with | {kind=KComment _|KVerbatim _|KUnknown}::path -> {block with path} | _ -> block in let (>>!) opt f = match opt with Some x -> x | None -> f () in handle_dotted block tok >>! fun () -> match tok.token with | SEMISEMI -> append KUnknown L ~pad:0 (unwind_top block.path) | INCLUDE -> append KInclude L (unwind_top block.path) | EXCEPTION -> (match last_token block with | Some LET -> append KUnknown L block.path (* let exception *) | _ -> let p = unwind (function KExpr _ -> false | _ -> true) block.path in (match p with | {kind=KWith KMatch|KBar KMatch}::_ -> append expr_atom L block.path | _ -> append KException L (unwind_top block.path))) | BEGIN -> open_paren KBegin block.path | OBJECT -> append KObject L block.path | VAL -> append KVal L (unwind_top block.path) | MATCH | TRY -> let k = match tok.token with | MATCH -> KMatch | TRY -> KTry | _ -> assert false in let p = fold_expr block.path in if starts_line then append k L p else let enforce_strict = config.i_strict_with = Always || config.i_strict_with = Auto && match p with | {kind=KBegin; indent; column} :: _ -> column = indent | _ -> false in if enforce_strict then let p = reset_line_indent config current_line p in append k L (reset_padding p) else append k L ~pad:(Path.pad p + config.i_base) p | LPAREN -> open_paren KParen block.path | LBRACKET | LBRACKETGREATER | LBRACKETLESS -> open_paren KBracket block.path | LBRACKETPERCENT -> let path = before_append_atom block.path in append ~pad:4 (KExtendedExpr ([], ExtNode)) L path | LBRACKETAT -> let p = match block.path with | {kind=KExpr _} :: _ as p -> make_infix tok p | p -> p in append ~pad:4 (KExtendedExpr ([], Attr)) L p | LBRACKETATAT -> (* Indented as below parent, but we actually keep the stack (this is turned into a KUnknown when closed, causing the next token to be indented as if it was absent) *) let parent_path = unwind (function KBody KLetIn | KLetIn -> true | KBody k | k -> top_kind k || stritem_kind k) block.path in node false (KExtendedItem ([], ext_kind tok.token)) L 4 (parent parent_path) :: block.path | LBRACKETPERCENTPERCENT | LBRACKETATATAT -> append ~pad:4 (KExtendedItem ([], ext_kind tok.token)) L (unwind_top block.path) | LBRACKETBAR -> open_paren KBracketBar block.path | LBRACE | LBRACELESS -> open_paren KBrace block.path | FUNCTION -> (match fold_expr block.path with | l :: _ as p when not starts_line && l.kind <> KExpr 0 && (config.i_strict_with = Never || config.i_strict_with = Auto && l.kind <> KBegin) -> let p = reset_line_indent config current_line p in append (KWith KMatch) L ~pad:(max (max l.pad config.i_base) config.i_with) p | p -> let p = reset_line_indent config current_line p in append (KWith KMatch) L ~pad:config.i_with p) | FUN | FUNCTOR -> (match block.path with | {kind=KArrow KFun}::path -> let path = unwind (function KFun -> true | _ -> false) path in (match path with | {line; column; line_indent}::_ when line = current_line || column = line_indent -> replace KFun L path | _ -> append KFun L block.path) | p -> append KFun L (fold_expr p)) | STRUCT | SIG -> let k = match tok.token with | STRUCT -> KStruct | SIG -> KSig | _ -> assert false in let expr_start = unwind (function | KParen | KBegin | KLet | KLetIn | KBody _ | KInclude | KOpen -> true | _ -> false) block.path in let indent, path = match expr_start with | {kind=KParen|KBegin}::{kind=KExpr prio}:: {kind=KBody KLet; line; indent; pad}::_ when prio = prio_apply && line = current_line -> (* reset indent due to align_params for functor application within [let module in] *) indent + pad, reset_padding block.path | {kind=KParen|KBegin}::{kind=KExpr prio; line; indent}::_ when prio = prio_apply && line = current_line -> indent, reset_padding block.path | {kind=KInclude; line; indent; pad}::_ when line < current_line -> indent + pad, block.path | _ -> Path.indent block.path, reset_padding block.path in Path.maptop (fun n -> {n with indent}) (append k L path) | WHEN -> append KWhen L ~pad:(config.i_base + if starts_line then 0 else 2) (unwind (function | KWith(KTry|KMatch) | KBar(KTry|KMatch) | KFun | KExtendedExpr _ -> true | _ -> false) block.path) | OPEN -> if last_token block = Some LET then append KOpen L block.path else append KOpen L (unwind_top block.path) | LET -> (* Two ways to detect let vs letin ; both seem to work, but need to check which one is the most robust (for example w.r.t. unfinished expressions) *) (* - it's a top Let if it is after a closed expression *) (match block.path with | {kind=KExpr i}::p when i = prio_max -> append KLet L (unwind_top p) | [] | {kind=KCodeInComment}::_ | {kind=KBar KType}::_ as p-> append KLet L (unwind_top p) | _ -> append KLetIn L (fold_expr block.path)) (* - or if after a specific token *) (* if close_top_let block.last then *) (* append KLet L config.i_base (unwind_top block.path) *) (* else *) (* append KLetIn L config.i_base (fold_expr block.path) *) | CLASS -> append KLet L (unwind_top block.path) | METHOD -> append KLet L (unwind_top block.path) | INITIALIZER -> append (KBody KLet) L (unwind_top block.path) | CONSTRAINT -> let path = unwind (function KType | KBody KType | KObject -> true | _ -> false) block.path in append KConstraint L path | AND -> let unwind_to = function | KLet | KLetIn | KType | KModule | KParen -> true | _ -> false in let path = unwind (unwind_to @* follow) block.path in (match path with | [] | {kind=KCodeInComment}::_ -> append (KAnd KUnknown) L path | {kind=KType|KModule|KBody (KType|KModule)} :: ({kind=KWith _} as m) :: p -> (* hack to align "and" with the 'i' of "with": consider "with" was 1 column further to the right *) let m = if starts_line then {m with column = m.column+1} else m in replace (KAnd m.kind) T ~pad:0 (m :: p) | {kind=KType|KModule|KBody (KType|KModule)} :: ({kind=KAnd (KWith _)} as m) :: p -> replace m.kind T ~pad:0 (m :: p) | {kind=KParen} :: _ -> (* e.g. let (and+) = ... *) append expr_atom L path | h::_ -> append (KAnd (follow h.kind)) L (parent path)) | IN -> let path = unwind ((function KLetIn | KLet -> true | _ -> false) @* follow) block.path in let pad = match next_token stream with | Some LET -> 0 | _ -> config.i_in in (match unwind_while ((=) KIn) (parent path) with | Some p -> extend KIn L ~pad p | None -> extend KIn L ~pad path) | TYPE -> (match last_token block with | Some (MODULE | CLASS) -> append KUnknown L block.path (* module type *) | Some (WITH|AND) | Some COLON (* 'type' inside type decl, for GADTs *) -> append KType L block.path | _ -> append KType L (unwind_top block.path)) | MODULE -> (match last_token block with | Some LET -> append KUnknown L block.path (* let module *) | Some (COLON|EQUAL|INCLUDE) when next_2_tokens stream = Some (TYPE, OF) -> append KUnknown L block.path (* : module type of *) | Some (WITH|AND) -> append KType L block.path | Some INCLUDE -> append KModule L (reset_padding block.path) | _ -> append KModule L (unwind_top block.path)) | END -> close (function KStruct|KSig|KBegin|KObject -> true | _ -> false) block.path | WITH -> (match next_token_full stream with | Some ({token = TYPE|MODULE as tm}, _) -> let path = unwind (function | KModule | KOpen | KInclude | KParen | KBegin | KColon | KBody KModule -> true | _ -> false) block.path in let kind = match tm with TYPE -> KType | MODULE -> KModule | _ -> assert false in append (KWith kind) L path | next -> let path = unwind (function |KTry|KMatch |KVal|KType|KBody KType|KException (* type-conv *) |KColon |KBrace -> true |KWith KTry -> (* useful for lwt's try-finally *) Lazy.force tok.substr = "finally" | _ -> false ) block.path in match path with | {kind=KBrace; pad} :: _ -> (match next with | Some (next, _) when Region.start_line next.region = Region.end_line tok.region -> Path.maptop (fun n -> {n with indent=n.column}) (append (KWith KBrace) L ~pad:next.offset path) | _ -> append (KWith KBrace) L ~pad:(pad + config.i_with) path) | {kind=KVal|KType|KException as kind}::_ -> replace (KWith kind) L path | {kind=KTry|KMatch as kind} as n :: parent :: _ when n.line = current_line && n.column <> n.line_indent && config.i_strict_with <> Always -> let path,pad = if parent.line_indent = parent.column then path, max parent.pad config.i_with else reset_line_indent config n.line path, max config.i_with (if parent.pad > 0 then config.i_base else 0) in replace (KWith kind) L ~pad path | {kind=(KTry|KMatch as kind)}::p -> if starts_line then append (KWith kind) L ~pad:config.i_with p else replace (KWith kind) L ~pad:config.i_with (reset_line_indent config current_line path) | {kind=KColon}::_ as p -> (* may happen with sexp extension, 'with default' *) append expr_atom L p | _ -> path) | IF -> (match last_token block with | Some ELSE -> replace KIf L block.path | _ -> append KIf L (fold_expr block.path)) | THEN -> extend KThen L (unwind ((=) KIf) block.path) | ELSE -> let pad = match config.i_strict_else with | Always -> config.i_base | Never -> if next_offset tok stream <> None then config.i_base else 0 | Auto -> if next_offset tok stream <> None then config.i_base else match next_token stream with | Some (LET|MATCH|TRY|FUN|FUNCTION) -> 0 | _ -> config.i_base in extend KElse L ~pad (unwind ((=) KThen) block.path) | WHILE | FOR -> append KLoop L (fold_expr block.path) | TO | DOWNTO -> let p = Path.maptop (fun n -> { n with indent = n.indent + config.i_base }) (unwind ((=) KLoop) block.path) in replace KLoop L p | DO -> extend KDo L (unwind ((=) KLoop) block.path) | DONE -> close ((=) KDo) block.path | BARRBRACKET -> close ((=) KBracketBar) block.path | RPAREN -> close ((=) KParen) block.path | RBRACE | GREATERRBRACE -> close ((=) KBrace) block.path | RBRACKET -> let p = unwind (function | KBracket | KExtendedItem _ | KExtendedExpr _ -> true | _ -> false) block.path in (match p with | {kind=KExtendedExpr (_, Attr)} :: ({kind=KExpr _} :: _ as p) -> extend expr_atom L ~pad:0 p | {kind=KExtendedItem (_, Attr)|KExtendedExpr (_, Attr)} :: _ -> extend KUnknown L ~pad:0 p | p -> close (fun _ -> true) p) | GREATERRBRACKET -> close ((=) KBracket) block.path | BAR -> let path = unwind (function | KParen | KBegin | KBracket | KBrace | KBracketBar | KWith(KMatch|KTry) | KBar(KMatch|KTry) | KArrow(KMatch|KTry) | KLet | KLetIn | KBody(KType) -> true | _ -> false) block.path in (match path with | {kind=KWith m} :: {kind=KExpr i} :: _ when i = prio_flatop -> append (KBar m) L (reset_padding path) | {kind=KWith m} :: _ -> append (KBar m) L path | {kind=KArrow (KMatch|KTry as m)} :: ({kind=KBar _} as h:: _ as p) -> Path.maptop (fun x -> {x with column = h.column}) (replace (KBar m) (A h.column) p) | {kind=KArrow m} :: p -> append (KBar m) L p | _ -> match block.path with | {kind = KExpr _}::_ -> make_infix tok block.path | _ -> append (KBar KType) L block.path) | MINUSGREATER -> let rec find_parent path = let path = unwind (function | KParen | KBegin | KBracket | KBrace | KBracketBar | KWith(KMatch|KTry) | KBar(KMatch|KTry) | KArrow(KMatch|KTry) | KFun | KBody(KType|KExternal) | KColon | KStruct | KSig | KObject | KExtendedItem _ | KExtendedExpr _ -> true | _ -> false) path in match path with | {kind=KFun} :: ({kind=KExpr i} as e) :: path when i = prio_flatop -> (* eg '>>= fun x ->': indent like the top of the expression *) {e with kind = KExpr 0} :: path | {kind=KFun; line } :: {kind=KBody KLet; line=letline} :: _ when next_offset tok stream = None && line = current_line && line <> letline -> append (KArrow KFun) L ~pad:0 (reset_line_indent config line path) | {kind=KFun; line; _ } :: _ when next_offset tok stream = None && line = current_line -> (* Special case: [fun ->] at eol, this should be strictly indented wrt the above line, independently of the structure *) append (KArrow KFun) L (reset_line_indent config line path) | {kind=KFun} :: _ -> append (KArrow KFun) L path | {kind=KBar m}::{kind=KWith _; line}::_ when line = current_line -> (* Special case: don't respect match_clause when 'with X ->' is on a single line *) let pad = if next_offset tok stream <> None then config.i_base else match next_token stream with | Some (MATCH|TRY|FUN|FUNCTION) -> 0 | _ -> config.i_base in append (KArrow m) L ~pad (reset_line_indent config line path) | {kind=KWith m | KBar m} :: _ -> let pad = config.i_match_clause - if starts_line then config.i_base else 0 in append (KArrow m) L ~pad path | {kind=KArrow(KMatch|KTry)} :: p -> (* might happen if doing 'when match' for example *) (match unwind (function | KParen | KBegin | KBracket | KBrace | KBracketBar | KWith(KMatch|KTry) | KFun | KBody(KType|KExternal) | KColon | KStruct | KSig | KObject -> true | _ -> false) p with | {kind=KWith(_)}::p -> find_parent p | _ -> make_infix tok block.path) | _ -> make_infix tok block.path in find_parent block.path | EQUAL -> let unwind_to = function | KParen | KBegin | KBrace | KBracket | KBracketBar | KBody _ | KExternal | KModule | KType | KLet | KLetIn | KException | KVal | KBar KType | KStruct | KSig | KObject | KAnd(KModule|KType|KLet|KLetIn) | KConstraint | KExtendedItem _ | KExtendedExpr _ -> true | _ -> false in let rec find_parent path = let path = unwind unwind_to path in (match path with | [] | {kind=KCodeInComment|KExtendedItem _|KExtendedExpr _}::_ -> make_infix tok block.path | {kind=KBody KType}::p -> (* type t = t' = ... *) (match p with | {kind = KWith (KType|KModule) | KAnd KWith (KType|KModule)}::_ -> find_parent p | _ -> replace (KBody KType) L ~pad:config.i_type path) | {kind=KBrace}::_ -> (match unwind_while (fun kind -> kind = KColon || prio kind > prio_semi) block.path with | Some ({kind=KExpr prio}::_) when prio = prio_semi + 1 -> (* already after a field binding: this '=' must be the normal operator *) make_infix tok block.path | Some p -> extend (KExpr (prio_semi+1)) T ~pad:config.i_base p | None -> make_infix tok block.path) | {kind=KParen|KBegin|KBracket|KBracketBar|KBody _|KBar KType}::_ -> make_infix tok block.path | {kind=KAnd kind | kind} as h::p -> let indent = match next_token stream, kind with | Some (STRUCT|SIG), _ -> 0 | Some BAR, KType when config.i_strict_with = Always -> config.i_with | _, (KType | KBody KType) -> config.i_type | _ -> config.i_base in if starts_line then let h = {h with indent = h.indent + indent; pad = 0} in replace (KBody kind) L ~pad:0 (h :: p) else let h = {h with indent = h.column} in replace (KBody kind) T ~pad:indent (h :: p)) in find_parent block.path | COLONEQUAL | INFIXOP2 "+=" -> (match unwind_while (function KExpr _ | KType -> true | _ -> false) block.path with | Some ({kind=KType}::_ as p) -> (* type t := t' *) replace (KBody KType) L p | _ -> make_infix tok block.path) | COLON -> let path = unwind (function | KParen | KBegin | KBrace | KBracket | KBracketBar | KBody _ | KModule | KLet | KLetIn | KExternal | KVal | KColon | KAnd(KModule|KLet|KLetIn) | KBar KType -> true | _ -> false) block.path in (match path with | {kind = KBody(KVal|KType|KExternal) | KColon} :: _ -> (match unwind_while (fun kind -> prio kind > prio_arrow) block.path with | Some path -> extend (KExpr prio_colon) (if config.i_align_params = Never then L else T) path | None -> make_infix tok block.path) | {kind = KModule|KLet|KLetIn | KAnd(KModule|KLet|KLetIn)} :: _ -> append KColon L path | {kind = KExternal} :: _ as path -> append KColon L ~pad:(if starts_line then 0 else config.i_base) path | {kind=KVal} :: {kind=KObject} :: _ -> make_infix tok path | {kind=KVal} as h :: p -> let indent = config.i_base in if starts_line then let h = {h with indent = h.indent + indent; pad = 0} in replace (KBody h.kind) L ~pad:0 (h :: p) else replace (KBody h.kind) L ~pad:indent (h :: p) | {kind=KBrace}::_ -> (* record type *) (match block.path with | {kind=KExpr i}::{kind=KBrace}::_ as p when i = prio_max -> extend KColon L p | {kind=KExpr i}::({kind=KExpr j}::{kind=KBrace}::_ as p) when i = prio_max && j = prio_apply -> (* "mutable" *) extend KColon L p | _ -> make_infix tok block.path) | {kind = KBar KType} :: _ -> make_infix {tok with token = OF} block.path | _ -> make_infix tok block.path) | SEMI -> (match unwind (fun kind -> prio kind < prio_semi) block.path with | {kind=KColon}::({kind=KBrace}::_ as p) -> p | _ -> make_infix tok block.path) (* Some commom preprocessor directives *) | UIDENT ("INCLUDE"|"IFDEF"|"THEN"|"ELSE"|"ENDIF" |"TEST"|"TEST_UNIT"|"TEST_MODULE" |"BENCH"|"BENCH_FUN"|"BENCH_MODULE"|"BENCH_INDEXED" as s) when starts_line -> if String.sub s 0 4 = "TEST" || (String.length s > 4 && String.sub s 0 5 = "BENCH") then append KLet L ~pad:(2 * config.i_base) (unwind_top block.path) else replace KUnknown L (unwind_top block.path) | EXTERNAL -> append KExternal L (unwind_top block.path) | DOT -> (match block.path with | {kind = KArrow KMatch} :: _ -> append expr_atom L block.path | _ -> let last_expr = unwind_while (function KExpr _ -> true | _ -> false) block.path in match last_expr with | Some ({kind=KExpr _} :: {kind=KType} :: ({kind=KColon} :: _ as p)) -> (* let f: type t. t -> t = ... *) p | Some ({kind=KExpr 200} :: ({kind=KColon} :: {kind=KLet|KLetIn} :: _ as p))-> (* method m : 'x 'y . ... = (KLet is actually "method") *) (* let m : 'x 'y . ... = (in) *) (match last_token block with | Some (UIDENT _) -> make_infix tok block.path | _ -> p) | Some ({kind=KExpr i} :: ({kind=KBrace|KWith KBrace} as h :: p)) when (i = prio_max || i = prio_dot) && next_offset tok stream = None -> (* special case: distributive { Module. field; field } *) { h with pad = config.i_base } :: p | _ -> make_infix tok block.path) | AMPERAMPER | BARBAR -> (* back-indented when after if or when and not alone *) let op_prio, _align, _indent = op_prio_align_indent config tok.token in (match unwind_while (fun kind -> prio kind >= op_prio) block.path with | Some ({kind=KExpr _; line}::{kind=KWhen|KIf; line=line_if}::_ as p) when line = line_if && next_offset tok stream <> None -> extend (KExpr op_prio) T ~pad:(-3) p | _ -> make_infix tok block.path) | LESS -> if is_inside_type block.path then (* object type *) open_paren KBrace block.path else make_infix tok block.path | GREATER -> if is_inside_type block.path then match unwind (function | KParen | KBegin | KBracket | KBrace | KBracketBar | KBody(KType|KExternal) -> true | _ -> false) block.path with | {kind=KBrace}::_ as p -> close (fun _ -> true) p | _ -> append expr_apply L (fold_expr block.path) else make_infix tok block.path | OF -> (match last_token block with | Some TYPE -> append KUnknown L block.path | _ -> make_infix tok block.path) | LESSMINUS | COMMA | OR | AMPERSAND | INFIXOP0 _ | INFIXOP1 _ | COLONCOLON | INFIXOP2 _ | PLUSDOT | PLUS | MINUSDOT | MINUS | INFIXOP3 _ | STAR | INFIXOP4 _ | SHARP | AS | COLONGREATER -> make_infix tok block.path | LABEL _ | OPTLABEL _ -> (match unwind_while (function | KExpr _ | KLet | KLetIn | KFun | KAnd(KLet|KLetIn) -> true | _ -> false) block.path with | Some ( (* (opt)labels in types *) {kind = KExpr 32 (* prio_arrow *)} :: ({kind = KBody(KVal|KType|KExternal) | KColon} :: _) | ({kind = KBody(KVal|KType|KExternal) | KColon} :: _) ) -> (* this is for the case [?foo:], parsed as OPTLABEL, but make sure we are consistent with [foo:] or [? foo:], which are parsed as 2 or 3 tokens *) extend (KExpr prio_colon) (if config.i_align_params = Never then L else T) (append expr_atom L block.path) | Some ({kind=KExpr _}::_) | None -> (* considered as infix, but forcing function application *) make_infix tok (fold_expr block.path) | _ -> (* in function definition *) atom block.path) | UIDENT _ -> (match block.path with | {kind=KBody KType}::_ when starts_line && next_token stream <> Some DOT -> (* type =\nA\n| B : append a virtual bar before A for alignment *) let path = append (KBar KType) L ~pad:2 block.path in atom path | {kind=KBracket} as br::({kind=KBody KType; line}::_ as p) when starts_line -> (* type = [\n`A\n| `B ]: append a virtual bar before `A *) let path = if br.line > line then {br with pad = 0} :: p else block.path in let path = append (KBar KType) L ~pad:2 path in atom path | {kind=KModule | KInclude | KOpen}::_ when not starts_line -> (* indent functor parameters as if indent was flushed (like after a newline) *) Path.maptop (fun n -> let indent = n.indent + n.pad in {n with indent; line_indent = indent; pad = config.i_base} ) (atom block.path) | _ -> atom block.path) | LIDENT s when String.length s > 0 && s.[0] = '\'' -> append (KExpr prio_max) L ~pad:0 block.path | INT64 _ | INT32 _ | INT _ | LIDENT _ | FLOAT _ | CHAR _ | STRING _ | TRUE | FALSE | NATIVEINT _ | UNDERSCORE | TILDE | QUESTION | QUOTE | QUOTATION _ -> atom block.path | PREFIXOP _ | BANG | QUESTIONQUESTION -> (* FIXME: should be highest priority, > atom ( append is not right for atoms ) *) atom block.path | ASSERT | LAZY | NEW | MUTABLE -> append expr_apply L (before_append_atom block.path) | INHERIT -> append (KExpr 0) L (unwind_top block.path) | OCAMLDOC_CODE -> let indent = Path.indent block0.path + if Lazy.force tok.substr = "$" then 0 (* cinaps comment (*$ code *) *) else Path.pad block0.path in { kind = KCodeInComment; line = Region.start_line tok.region; indent = indent; line_indent = indent; column = indent; pad = config.i_base } :: block0.path | OCAMLDOC_VERB -> (match block0.path with | {kind=KComment (tok,toff);indent;pad}::_ -> { kind = KVerbatim (tok,toff); line = Region.start_line tok.region; indent = indent + pad; line_indent = indent + pad; column = indent + pad; pad = 0 } :: block0.path | _ -> dump block0; assert false) | COMMENTCONT -> (match unwind (function KCodeInComment | KVerbatim _ -> true | _ -> false) block0.path with | {kind=KCodeInComment|KVerbatim _} :: p -> p | _ -> block.path) | COMMENT -> let s = Lazy.force tok.substr in let pad = let len = String.length s in let i = ref 2 in while !i < len && s.[!i] = '*' do incr i done; while !i < len && s.[!i] = ' ' do incr i done; if !i >= len || s.[!i] = '\n' || s.[!i] = '\r' then 3 else !i in if not starts_line then let col = block.toff + tok.offset in Path.maptop (fun n -> {n with indent = col}) (append (KComment (tok, col)) L ~pad block.path) else (match block.path with | {kind=KExpr i}::_ when i = prio_max -> let blocklevel () = let p = unwind_top block.path in let col = Path.indent p + Path.pad p in append (KComment (tok, col)) (A col) ~pad block.path in (* if we are directly after a case in a sum-type, use that for alignment *) let align_bar = if tok.newlines > 1 || not (is_inside_type block0.path) then None else let find_bar = unwind_while (function KBar _ | KExpr _ -> true | _ -> false) block0.path in match find_bar with | Some ({kind=KBar _; column}::_) -> Some column | _ -> None in (* after a closed expr: look-ahead *) (match next_token_full stream, align_bar with | None, None -> blocklevel () | Some ((* full block-closing tokens + newline *) {token = SEMISEMI | DONE | END | GREATERRBRACE | GREATERRBRACKET | RBRACE | RBRACKET | RPAREN } , _), _ when tok.newlines > 1 -> blocklevel () | Some ((* semi block-closing tokens *) {token = SEMISEMI | DONE | END | GREATERRBRACE | GREATERRBRACKET | RBRACE | RBRACKET | RPAREN | THEN | ELSE | IN | EQUAL } , _), None when tok.newlines <= 1 -> (* indent as above *) let col = (Path.top block0.path).line_indent in append (KComment (tok, col)) (A col) ~pad block.path | _, Some indent -> append (KComment (tok,indent)) (A indent) ~pad block.path | next, None -> (* recursive call to indent like next line *) let path = match next with | Some ({token = EOF }, _) | None -> [] | Some (next,stream) -> update_path config block stream { next with newlines = tok.newlines } in let col = Path.indent path in append (KComment (tok,col)) (A col) ~pad block.path) | _ -> let col = Path.indent block.path + Path.pad block.path in append (KComment (tok,col)) (A col) ~pad block.path) |DOTDOT -> (match block.path with | {kind = KBody KType} :: p -> p | _ -> append KUnknown L block.path) |VIRTUAL |REC |PRIVATE|EOF |BACKQUOTE|ILLEGAL_CHAR _ -> (* indent the token, but otherwise ignored *) append KUnknown L block.path | LINE_DIRECTIVE -> append KUnknown (A 0) ~pad:0 block.path | EOL | SPACES -> assert false let update config block stream tok = let path = update_path config block stream tok in let last = match tok.token with | COMMENT | COMMENTCONT | OCAMLDOC_VERB | EOF -> tok :: block.last | _ -> [tok] in let toff = if tok.newlines > 0 then Path.indent path else block.toff + tok.offset in let orig = Region.start_column tok.region in { path; last; toff; orig } let indent t = Path.indent t.path let original_column t = match t.path with | {kind=KComment (tok,_)|KVerbatim (tok,_)} :: _ -> Region.start_column tok.region | _ -> t.orig let offset t = match t.path with | {kind=KComment (_,toff)|KVerbatim(_,toff)} :: _ -> toff | _ -> t.toff let padding t = Path.pad t.path let set_column t col = { t with path = Path.maptop (fun n -> {n with indent = col}) t.path; toff = col } let reverse t = let col = t.orig in let expected = t.toff in if col = expected then t else match t.last with | {token=COMMENTCONT}::_ -> (* don't adapt indent on the ']}' because there is a hack with its padding *) t | tok :: _ when tok.newlines > 0 -> let diff = col - expected in let path = match t.path with | n::[] -> { n with indent = col; column = col } :: [] | ({kind=KComment (tok,_)} as n)::r -> { n with kind=KComment (tok,col); indent = col; column = col } :: r | ({kind=KVerbatim (tok,_)} as n)::r -> { n with kind=KVerbatim (tok,col); indent = col; column = col } :: r | n1::n2::p -> { n1 with indent = col; column = col } :: { n2 with indent = n2.indent + diff } :: p | [] -> [] in { t with path; toff = col } | _ -> { t with toff = col } let guess_indent line t = let path = unwind (function KUnknown | KComment _ | KVerbatim _ -> false | _ -> true) t.path in match path, t.last with | _, ({token = COMMENT | COMMENTCONT} as tok :: _) when line <= Region.end_line tok.region -> (* Inside comment *) Path.indent t.path + Path.pad t.path | {kind=KExpr i}::p, ({token=EOF} :: tok :: _ | tok::_) when i = prio_max && line > Region.end_line tok.region + 1 -> (* closed expr and newline: we probably want a toplevel block *) let p = unwind_top p in Path.indent p + Path.pad p | path, _ -> (* we probably want to write a child of the current node *) let path = match unwind_while (function KExpr p -> p >= prio_apply | _ -> false) path with Some p -> p | None -> path in match path with | {indent;pad}::_ -> indent + pad | [] -> 0 let is_clean t = List.for_all (fun node -> match node.kind with | KCodeInComment -> false | KVerbatim _ -> false | KComment _ -> false (* we need the next token to decide, because that may be "(* *)" but also "(* {[". In the last case, it will be followed by OCAMLDOC_* or COMMENTCONT, and until then the lexer stores a state *) (* **tuareg hack** "*)" (who says we want ocp-indent to handle coloration too ?) *) | _ -> true) t.path let is_at_top t = match t.path with | [] -> true | [{kind}] -> stritem_kind kind | _ -> false let no_parents t = match t.path with | [_] -> true | _ -> false let is_declaration t = is_clean t && match t.path with | [] -> true | {kind=KStruct|KSig|KBegin|KObject} :: _ -> true | _ -> false let is_in_comment t = match t.path with | {kind = KComment _ | KVerbatim _}::_ -> true | p -> List.exists (fun n -> n.kind = KCodeInComment) p (* (* for syntax highlighting: returns kind of construct at point *) type construct_kind = | CK_paren (* parens and begin/end *) | CK_block (* struct/end sig/end etc. *) | CK_toplevel let construct_kind t token = *)