Source file syntax.ml

(* This module is a recursive descent parser for the ocamldoc syntax. The parser
   consumes a token stream of type [Token.t Stream.t], provided by the lexer,
   and produces a comment AST of the type defined in [Parser_.Ast].

   The AST has two main levels: inline elements, which can appear inside
   paragraphs, and are spaced horizontally when presented, and block elements,
   such as paragraphs and lists, which are spaced vertically when presented.
   Block elements contain inline elements, but not vice versa.

   Corresponding to this, the parser has three "main" functions:

   - [delimited_inline_element_list] parses a run of inline elements that is
     delimited by curly brace markup ([{...}]).
   - [paragraph] parses a run of inline elements that make up a paragraph, and
     is not explicitly delimited with curly braces.
   - [block_element_list] parses a sequence of block elements. A comment is a
     sequence of block elements, so [block_element_list] is the top-level
     parser. It is also used for list item and tag content. *)

type 'a with_location = 'a Loc.with_location

(* {2 Input} *)

type input = {
  tokens : Token.t Loc.with_location Stream.t;
  warnings : Warning.t list ref;
}

(* {2 Output} *)

let add_warning input warning = input.warnings := warning :: !(input.warnings)
let junk input = Stream.junk input.tokens

let peek input =
  match Stream.peek input.tokens with
  | Some token -> token
  | None -> assert false

module Table = struct
  module Light_syntax = struct
    let valid_align = function
      | [ { Loc.value = `Word w; _ } ] -> (
          match String.length w with
          | 0 -> `Valid None
          | 1 -> (
              match w with
              | "-" -> `Valid None
              | ":" -> `Valid (Some `Center)
              | _ -> `Invalid)
          | len ->
              if String.for_all (Char.equal '-') (String.sub w 1 (len - 2)) then
                match (String.get w 0, String.get w (len - 1)) with
                | ':', ':' -> `Valid (Some `Center)
                | ':', '-' -> `Valid (Some `Left)
                | '-', ':' -> `Valid (Some `Right)
                | '-', '-' -> `Valid None
                | _ -> `Invalid
              else `Invalid)
      | _ -> `Invalid

    let valid_align_row lx =
      let rec loop acc = function
        | [] -> Some (List.rev acc)
        | x :: q -> (
            match valid_align x with
            | `Invalid -> None
            | `Valid alignment -> loop (alignment :: acc) q)
      in
      loop [] lx

    let create ~grid ~align : Ast.table =
      let cell_to_block (x, k) =
        let whole_loc = Loc.span (List.map (fun x -> x.Loc.location) x) in
        match x with
        | [] -> ([], k)
        | _ -> ([ Loc.at whole_loc (`Paragraph x) ], k)
      in
      let row_to_block = List.map cell_to_block in
      let grid_to_block = List.map row_to_block in
      ((grid_to_block grid, align), `Light)

    let with_kind kind : 'a with_location list list -> 'a Ast.row =
      List.map (fun c -> (c, kind))

    let from_raw_data grid : Ast.table =
      match grid with
      | [] -> create ~grid:[] ~align:None
      | row1 :: rows2_N -> (
          match valid_align_row row1 with
          (* If the first line is the align row, everything else is data. *)
          | Some _ as align ->
              create ~grid:(List.map (with_kind `Data) rows2_N) ~align
          | None -> (
              match rows2_N with
              (* Only 1 line, if this is not the align row this is data. *)
              | [] -> create ~grid:[ with_kind `Data row1 ] ~align:None
              | row2 :: rows3_N -> (
                  match valid_align_row row2 with
                  (* If the second line is the align row, the first one is the
                     header and the rest is data. *)
                  | Some _ as align ->
                      let header = with_kind `Header row1 in
                      let data = List.map (with_kind `Data) rows3_N in
                      create ~grid:(header :: data) ~align
                  (* No align row in the first 2 lines, everything is considered
                     data. *)
                  | None ->
                      create ~grid:(List.map (with_kind `Data) grid) ~align:None
                  )))
  end

  module Heavy_syntax = struct
    let create ~grid : Ast.table = ((grid, None), `Heavy)
    let from_grid grid : Ast.table = create ~grid
  end
end

module Reader = struct
  let until_rbrace_or_eof input acc =
    let rec consume () =
      let next_token = peek input in
      match next_token.value with
      | `Right_brace ->
          junk input;
          `End (acc, next_token.location)
      | `End ->
          Parse_error.end_not_allowed next_token.location ~in_what:"table"
          |> add_warning input;
          junk input;
          `End (acc, next_token.location)
      | `Space _ | `Single_newline _ | `Blank_line _ ->
          junk input;
          consume ()
      | _ -> `Token next_token
    in
    consume ()

  module Infix = struct
    let ( >>> ) consume if_token =
      match consume with
      | `End (ret, loc) -> (ret, loc)
      | `Token t -> if_token t
  end
end

open Reader.Infix

(* The last token in the stream is always [`End], and it is never consumed by
   the parser, so the [None] case is impossible. *)

let npeek n input = Stream.npeek n input.tokens

(* {2 Non-link inline elements} *)
type style = [ `Bold | `Italic | `Emphasis | `Superscript | `Subscript ]

(* Convenient abbreviation for use in patterns. *)
type token_that_always_begins_an_inline_element =
  [ `Word of string
  | `Code_span of string
  | `Raw_markup of string option * string
  | `Begin_style of style
  | `Simple_reference of string
  | `Begin_reference_with_replacement_text of string
  | `Simple_link of string
  | `Begin_link_with_replacement_text of string
  | `Math_span of string ]

(* Check that the token constructors above actually are all in [Token.t]. *)
let _check_subset : token_that_always_begins_an_inline_element -> Token.t =
 fun t -> (t :> Token.t)

(* Consumes tokens that make up a single non-link inline element:

   - a horizontal space ([`Space], significant in inline elements),
   - a word (see [word]),
   - a code span ([...], [`Code_span _]), or
   - styled text ({e ...}).

   The latter requires a recursive call to [delimited_inline_element_list],
   defined below.

   This should be part of [delimited_inline_element_list]; however, it is also
   called by function [paragraph]. As a result, it is factored out, and made
   mutually-recursive with [delimited_inline_element_list].

   This is called only when it is known that the first token in the list is the
   beginning of an inline element. In the case of [`Minus] and [`Plus], that
   means the caller has determined that they are not a list bullet (i.e., not
   the first non-whitespace tokens on their line).

   This function consumes exactly the tokens that make up the element. *)
let rec inline_element :
    input -> Loc.span -> _ -> Ast.inline_element with_location =
 fun input location next_token ->
  match next_token with
  | `Space _ as token ->
      junk input;
      Loc.at location token
  | `Word _ as token ->
      junk input;
      Loc.at location token
      (* This is actually the same memory representation as the token, complete
         with location, and is probably the most common case. Perhaps the token
         can be reused somehow. The same is true of [`Space], [`Code_span]. *)
  | `Minus ->
      junk input;
      Loc.at location (`Word "-")
  | `Plus ->
      junk input;
      Loc.at location (`Word "+")
  | `Bar ->
      junk input;
      Loc.at location (`Word "|")
  | (`Code_span _ | `Math_span _ | `Raw_markup _) as token ->
      junk input;
      Loc.at location token
  | `Begin_style s as parent_markup ->
      junk input;

      let requires_leading_whitespace =
        match s with
        | `Bold | `Italic | `Emphasis -> true
        | `Superscript | `Subscript -> false
      in
      let content, brace_location =
        delimited_inline_element_list ~parent_markup
          ~parent_markup_location:location ~requires_leading_whitespace input
      in

      let location = Loc.span [ location; brace_location ] in

      if content = [] then
        Parse_error.should_not_be_empty
          ~what:(Token.describe parent_markup)
          location
        |> add_warning input;

      Loc.at location (`Styled (s, content))
  | `Simple_reference r ->
      junk input;

      let r_location = Loc.nudge_start (String.length "{!") location in
      let r = Loc.at r_location r in

      Loc.at location (`Reference (`Simple, r, []))
  | `Begin_reference_with_replacement_text r as parent_markup ->
      junk input;

      let r_location = Loc.nudge_start (String.length "{{!") location in
      let r = Loc.at r_location r in

      let content, brace_location =
        delimited_inline_element_list ~parent_markup
          ~parent_markup_location:location ~requires_leading_whitespace:false
          input
      in

      let location = Loc.span [ location; brace_location ] in

      if content = [] then
        Parse_error.should_not_be_empty
          ~what:(Token.describe parent_markup)
          location
        |> add_warning input;

      Loc.at location (`Reference (`With_text, r, content))
  | `Simple_link u ->
      junk input;

      let u = String.trim u in

      if u = "" then
        Parse_error.should_not_be_empty
          ~what:(Token.describe next_token)
          location
        |> add_warning input;

      Loc.at location (`Link (u, []))
  | `Begin_link_with_replacement_text u as parent_markup ->
      junk input;

      let u = String.trim u in

      if u = "" then
        Parse_error.should_not_be_empty
          ~what:(Token.describe parent_markup)
          location
        |> add_warning input;

      let content, brace_location =
        delimited_inline_element_list ~parent_markup
          ~parent_markup_location:location ~requires_leading_whitespace:false
          input
      in

      `Link (u, content) |> Loc.at (Loc.span [ location; brace_location ])

(* Consumes tokens that make up a sequence of inline elements that is ended by
   a '}', a [`Right_brace] token. The brace token is also consumed.

   The sequences are also preceded by some markup like '{b'. Some of these
   markup tokens require whitespace immediately after the token, and others not.
   The caller indicates which way that is through the
   [~requires_leading_whitespace] argument.

   Whitespace is significant in inline element lists. In particular, "foo [bar]"
   is represented as [`Word "foo"; `Space; `Code_span "bar"], while "foo[bar]"
   is [`Word "foo"; `Code_span "bar"]. It doesn't matter how much whitespace is
   there, just whether it is present or not. Single newlines and horizontal
   space in any amount are allowed. Blank lines are not, as these are separators
   for {e block} elements.

   In correct input, the first and last elements emitted will not be [`Space],
   i.e. [`Space] appears only between other non-link inline elements. In
   incorrect input, there might be [`Space] followed immediately by something
   like an @author tag.

   The [~parent_markup] and [~parent_markup_location] arguments are used for
   generating error messages. *)
and delimited_inline_element_list :
    parent_markup:[< Token.t ] ->
    parent_markup_location:Loc.span ->
    requires_leading_whitespace:bool ->
    input ->
    Ast.inline_element with_location list * Loc.span =
 fun ~parent_markup ~parent_markup_location ~requires_leading_whitespace input ->
  (* [~at_start_of_line] is used to interpret [`Minus] and [`Plus]. These are
     word tokens if not the first non-whitespace tokens on their line. Then,
     they are allowed in a non-link element list. *)
  let rec consume_elements :
      at_start_of_line:bool ->
      Ast.inline_element with_location list ->
      Ast.inline_element with_location list * Loc.span =
   fun ~at_start_of_line acc ->
    let next_token = peek input in
    match next_token.value with
    | `Right_brace ->
        junk input;
        (List.rev acc, next_token.location)
    (* The [`Space] token is not space at the beginning or end of line, because
       that is combined into [`Single_newline] or [`Blank_line] tokens. It is
       also not at the beginning of markup (after e.g. '{b'), because that is
       handled separately before calling
       [consume_non_link_inline_elements], and not immediately before '}',
       because that is combined into the [`Right_brace] token by the lexer. So,
       it is an internal space, and we want to add it to the non-link inline
       element list. *)
    | (`Space _ | #token_that_always_begins_an_inline_element) as token ->
        let acc = inline_element input next_token.location token :: acc in
        consume_elements ~at_start_of_line:false acc
    | `Single_newline ws ->
        junk input;
        let element = Loc.same next_token (`Space ws) in
        consume_elements ~at_start_of_line:true (element :: acc)
    | `Blank_line ws as blank ->
        Parse_error.not_allowed ~what:(Token.describe blank)
          ~in_what:(Token.describe parent_markup)
          next_token.location
        |> add_warning input;

        junk input;
        let element = Loc.same next_token (`Space ws) in
        consume_elements ~at_start_of_line:true (element :: acc)
    | `Bar as token ->
        let acc = inline_element input next_token.location token :: acc in
        consume_elements ~at_start_of_line:false acc
    | (`Minus | `Plus) as bullet ->
        (if at_start_of_line then
           let suggestion =
             Printf.sprintf "move %s so it isn't the first thing on the line."
               (Token.print bullet)
           in
           Parse_error.not_allowed ~what:(Token.describe bullet)
             ~in_what:(Token.describe parent_markup)
             ~suggestion next_token.location
           |> add_warning input);

        let acc = inline_element input next_token.location bullet :: acc in
        consume_elements ~at_start_of_line:false acc
    | other_token ->
        Parse_error.not_allowed
          ~what:(Token.describe other_token)
          ~in_what:(Token.describe parent_markup)
          next_token.location
        |> add_warning input;

        let last_location =
          match acc with
          | last_token :: _ -> last_token.location
          | [] -> parent_markup_location
        in

        (List.rev acc, last_location)
  in

  let first_token = peek input in
  match first_token.value with
  | `Space _ ->
      (* Preserve leading spaces in markups
         junk input; *)
      consume_elements ~at_start_of_line:false []
      (* [~at_start_of_line] is [false] here because the preceding token was some
         some markup like '{b', and we didn't move to the next line, so the next
         token will not be the first non-whitespace token on its line. *)
  | `Single_newline _ ->
      (* Preserve leading spaces in markups
         junk input; *)
      consume_elements ~at_start_of_line:true []
  | `Blank_line _ as blank ->
      (* In case the markup is immediately followed by a blank line, the error
         message printed by the catch-all case below can be confusing, as it will
         suggest that the markup must be followed by a newline (which it is). It
         just must not be followed by two newlines. To explain that clearly,
         handle that case specifically. *)
      Parse_error.not_allowed ~what:(Token.describe blank)
        ~in_what:(Token.describe parent_markup)
        first_token.location
      |> add_warning input;

      junk input;
      consume_elements ~at_start_of_line:true []
  | `Right_brace ->
      junk input;
      ([], first_token.location)
  | _ ->
      if requires_leading_whitespace then
        Parse_error.should_be_followed_by_whitespace
          ~what:(Token.print parent_markup)
          parent_markup_location
        |> add_warning input;
      consume_elements ~at_start_of_line:false []

(* {2 Paragraphs} *)

(* Consumes tokens that make up a paragraph.

   A paragraph is a sequence of inline elements that ends on a blank line, or
   explicit block markup such as a verbatim block on a new line.

   Because of the significance of newlines, paragraphs are parsed line-by-line.
   The function [paragraph] is called only when the current token is the first
   non-whitespace token on its line, and begins an inline element. [paragraph]
   then parses a line of inline elements. Afterwards, it looks ahead to the next
   line. If that line also begins with an inline element, it parses that line,
   and so on. *)
let paragraph : input -> Ast.nestable_block_element with_location =
 fun input ->
  (* Parses a single line of a paragraph, consisting of inline elements. The
     only valid ways to end a paragraph line are with [`End], [`Single_newline],
     [`Blank_line], and [`Right_brace]. Everything else either belongs in the
     paragraph, or signifies an attempt to begin a block element inside a
     paragraph line, which is an error. These errors are caught elsewhere; the
     paragraph parser just stops. *)
  let rec paragraph_line :
      Ast.inline_element with_location list ->
      Ast.inline_element with_location list =
   fun acc ->
    let next_token = peek input in
    match next_token.value with
    | ( `Space _ | `Minus | `Plus | `Bar
      | #token_that_always_begins_an_inline_element ) as token ->
        let element = inline_element input next_token.location token in
        paragraph_line (element :: acc)
    | _ -> acc
  in

  (* After each line is parsed, decides whether to parse more lines. *)
  let rec additional_lines :
      Ast.inline_element with_location list ->
      Ast.inline_element with_location list =
   fun acc ->
    match npeek 2 input with
    | { value = `Single_newline ws; location }
      :: { value = #token_that_always_begins_an_inline_element | `Bar; _ }
      :: _ ->
        junk input;
        let acc = Loc.at location (`Space ws) :: acc in
        let acc = paragraph_line acc in
        additional_lines acc
    | _ -> List.rev acc
  in

  let elements = paragraph_line [] |> additional_lines in
  `Paragraph elements |> Loc.at (Loc.span (List.map Loc.location elements))

(* {2 Block elements} *)

(* {3 Helper types} *)

(* The interpretation of tokens in the block parser depends on where on a line
    each token appears. The six possible "locations" are:

    - [`At_start_of_line], when only whitespace has been read on the current
      line.
    - [`After_tag], when a valid tag token, such as [@deprecated], has been read,
      and only whitespace has been read since.
    - [`After_shorthand_bullet], when a valid shorthand list item bullet, such as
      [-], has been read, and only whitespace has been read since.
    - [`After_explicit_list_bullet], when a valid explicit bullet, such as [{li],
      has been read, and only whitespace has been read since.
    - [`After_table_cell], when a table cell opening markup ('{th' or '{td') has been read.
    - [`After_text], when any other valid non-whitespace token has already been
      read on the current line.

    Here are some examples of how this affects the interpretation of tokens:

    - A paragraph can start anywhere except [`After_text] (two paragraphs cannot
      be on the same line, but paragraphs can be nested in just about anything).
    - [`Minus] is interpreted as a list item bullet [`At_start_of_line],
      [`After_tag], and [`After_explicit_list_bullet].
    - Tags are only allowed [`At_start_of_line].

   To track the location accurately, the functions that make up the block parser
   pass explicit [where_in_line] values around and return them.

   In a few cases, [where_in_line] can be inferred from what helper was called.
   For example, the [paragraph] parser always stops on the same line as the last
   significant token that is in the paragraph it consumed, so the location must
   be [`After_text]. *)
type where_in_line =
  [ `At_start_of_line
  | `After_tag
  | `After_shorthand_bullet
  | `After_explicit_list_bullet
  | `After_table_cell
  | `After_text ]

(* The block parsing loop, function [block_element_list], stops when it
   encounters certain tokens.

   When it is called for the whole comment, or for in explicit list item
   ([{li foo}]), it can only stop on end of input or a right brace.

   When it is called inside a shorthand list item ([- foo]), it stops on end of
   input, right brace, a blank line (indicating end of shorthand list), plus or
   minus (indicating the start of the next list item), or a section heading or
   tag, which cannot be nested in list markup.

   The block parser [block_element_list] explicitly returns the token that
   stopped it, with a type more precise than [Token.t stream_head]: if it was
   called for the whole comment or an explicit list item, the stop token will
   have type [stops_at_delimiters stream_head], and if it was called for a
   shorthand list item, the stop token will have type
   [implicit_stop stream_head]. This allows the calling parsers to write precise
   cases for exactly the tokens that might be at the front of the stream after
   the block parser returns. *)
type stops_at_delimiters = [ `End | `Right_brace ]
type code_stop = [ `End | `Right_code_delimiter ]

type stopped_implicitly =
  [ `End
  | `Blank_line of string
  | `Right_brace
  | `Minus
  | `Plus
  | Token.section_heading
  | Token.media_markup
  | Token.tag ]

(* Ensure that the above two types are really subsets of [Token.t]. *)
let _check_subset : stops_at_delimiters -> Token.t = fun t -> (t :> Token.t)
let _check_subset : stopped_implicitly -> Token.t = fun t -> (t :> Token.t)

(* The different contexts in which the block parser [block_element_list] can be
   called. The block parser's behavior depends somewhat on the context. For
   example, while paragraphs are allowed anywhere, shorthand lists are not
   allowed immediately inside other shorthand lists, while tags are not allowed
   anywhere except at the comment top level.

   Besides telling the block parser how to behave, each context also carries two
   types, which determine the return type of the block parser:

   - The type of blocks the parser returns. Note that [nestable_block_element]
     is included in [block_element]. However, the extra block kinds in
     [block_element] are only allowed at the comment top level.
   - The type of token that the block parser stops at. See discussion above. *)
type ('block, 'stops_at_which_tokens) context =
  | Top_level : (Ast.block_element, stops_at_delimiters) context
  | In_implicitly_ended :
      [ `Tag | `Shorthand_list ]
      -> (Ast.nestable_block_element, stopped_implicitly) context
  | In_explicit_list : (Ast.nestable_block_element, stops_at_delimiters) context
  | In_table_cell : (Ast.nestable_block_element, stops_at_delimiters) context
  | In_code_results : (Ast.nestable_block_element, code_stop) context

(* This is a no-op. It is needed to prove to the type system that nestable block
   elements are acceptable block elements in all contexts. *)
let accepted_in_all_contexts :
    type block stops_at_which_tokens.
    (block, stops_at_which_tokens) context ->
    Ast.nestable_block_element ->
    block =
 fun context block ->
  match context with
  | Top_level -> (block :> Ast.block_element)
  | In_implicitly_ended (`Tag | `Shorthand_list) -> block
  | In_explicit_list -> block
  | In_table_cell -> block
  | In_code_results -> block

(* Converts a tag to a series of words. This is used in error recovery, when a
   tag cannot be generated. *)
let tag_to_words = function
  | `Author s -> [ `Word "@author"; `Space " "; `Word s ]
  | `Before s -> [ `Word "@before"; `Space " "; `Word s ]
  | `Canonical s -> [ `Word "@canonical"; `Space " "; `Word s ]
  | `Deprecated -> [ `Word "@deprecated" ]
  | `Inline -> [ `Word "@inline" ]
  | `Open -> [ `Word "@open" ]
  | `Closed -> [ `Word "@closed" ]
  | `Hidden -> [ `Word "@hidden" ]
  | `Param s -> [ `Word "@param"; `Space " "; `Word s ]
  | `Raise s -> [ `Word "@raise"; `Space " "; `Word s ]
  | `Return -> [ `Word "@return" ]
  | `See (`Document, s) -> [ `Word "@see"; `Space " "; `Word ("\"" ^ s ^ "\"") ]
  | `See (`File, s) -> [ `Word "@see"; `Space " "; `Word ("'" ^ s ^ "'") ]
  | `See (`Url, s) -> [ `Word "@see"; `Space " "; `Word ("<" ^ s ^ ">") ]
  | `Since s -> [ `Word "@since"; `Space " "; `Word s ]
  | `Version s -> [ `Word "@version"; `Space " "; `Word s ]
  | `Children_order -> [ `Word "@children_order" ]
  | `Short_title -> [ `Word "@short_title" ]

(* {3 Block element lists} *)

(* Consumes tokens making up a sequence of block elements. These are:

   - paragraphs,
   - code blocks,
   - verbatim text blocks,
   - tables,
   - lists, and
   - section headings. *)
let rec block_element_list :
    type block stops_at_which_tokens.
    (block, stops_at_which_tokens) context ->
    parent_markup:[< Token.t | `Comment ] ->
    input ->
    block with_location list
    * stops_at_which_tokens with_location
    * where_in_line =
 fun context ~parent_markup input ->
  let rec consume_block_elements :
      where_in_line ->
      block with_location list ->
      block with_location list
      * stops_at_which_tokens with_location
      * where_in_line =
   fun where_in_line acc ->
    let describe token =
      match token with
      | #token_that_always_begins_an_inline_element -> "paragraph"
      | _ -> Token.describe token
    in

    let warn_if_after_text { Loc.location; value = token } =
      if where_in_line = `After_text then
        Parse_error.should_begin_on_its_own_line ~what:(describe token) location
        |> add_warning input
    in

    let warn_because_not_at_top_level { Loc.location; value = token } =
      let suggestion =
        Printf.sprintf "move %s outside of any other markup."
          (Token.print token)
      in
      Parse_error.not_allowed ~what:(Token.describe token)
        ~in_what:(Token.describe parent_markup)
        ~suggestion location
      |> add_warning input
    in

    match peek input with
    (* Terminators: the two tokens that terminate anything. *)
    | { value = `End; _ } as next_token -> (
        match context with
        | Top_level -> (List.rev acc, next_token, where_in_line)
        | In_implicitly_ended (`Tag | `Shorthand_list) ->
            (List.rev acc, next_token, where_in_line)
        | In_explicit_list -> (List.rev acc, next_token, where_in_line)
        | In_table_cell -> (List.rev acc, next_token, where_in_line)
        | In_code_results -> (List.rev acc, next_token, where_in_line))
    | { value = `Right_brace; _ } as next_token -> (
        (* This little absurdity is needed to satisfy the type system. Without it,
           OCaml is unable to prove that [stream_head] has the right type for all
           possible values of [context]. *)
        match context with
        | Top_level -> (List.rev acc, next_token, where_in_line)
        | In_implicitly_ended (`Tag | `Shorthand_list) ->
            (List.rev acc, next_token, where_in_line)
        | In_explicit_list -> (List.rev acc, next_token, where_in_line)
        | In_table_cell -> (List.rev acc, next_token, where_in_line)
        | In_code_results ->
            junk input;
            consume_block_elements where_in_line acc)
    | { value = `Right_code_delimiter; _ } as next_token -> (
        match context with
        | In_code_results -> (List.rev acc, next_token, where_in_line)
        | _ ->
            junk input;
            consume_block_elements where_in_line acc)
    (* Whitespace. This can terminate some kinds of block elements. It is also
       necessary to track it to interpret [`Minus] and [`Plus] correctly, as
       well as to ensure that all block elements begin on their own line. *)
    | { value = `Space _; _ } ->
        junk input;
        consume_block_elements where_in_line acc
    | { value = `Single_newline _; _ } ->
        junk input;
        consume_block_elements `At_start_of_line acc
    | { value = `Blank_line _; _ } as next_token -> (
        match context with
        (* Blank lines terminate shorthand lists ([- foo]) and tags. They also
           terminate paragraphs, but the paragraph parser is aware of that
           internally. *)
        | In_implicitly_ended (`Tag | `Shorthand_list) ->
            (List.rev acc, next_token, where_in_line)
        (* Otherwise, blank lines are pretty much like single newlines. *)
        | _ ->
            junk input;
            consume_block_elements `At_start_of_line acc)
    (* Explicit list items ([{li ...}] and [{- ...}]) can never appear directly
       in block content. They can only appear inside [{ul ...}] and [{ol ...}].
       So, catch those. *)
    | { value = `Begin_list_item _ as token; location } ->
        let suggestion =
          Printf.sprintf "move %s into %s, or use %s." (Token.print token)
            (Token.describe (`Begin_list `Unordered))
            (Token.describe `Minus)
        in
        Parse_error.not_allowed ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion location
        |> add_warning input;

        junk input;
        consume_block_elements where_in_line acc
    (* Table rows ([{tr ...}]) can never appear directly
       in block content. They can only appear inside [{table ...}]. *)
    | { value = `Begin_table_row as token; location } ->
        let suggestion =
          Printf.sprintf "move %s into %s." (Token.print token)
            (Token.describe `Begin_table_heavy)
        in
        Parse_error.not_allowed ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion location
        |> add_warning input;
        junk input;
        consume_block_elements where_in_line acc
    (* Table cells ([{th ...}] and [{td ...}]) can never appear directly
       in block content. They can only appear inside [{tr ...}]. *)
    | { value = `Begin_table_cell _ as token; location } ->
        let suggestion =
          Printf.sprintf "move %s into %s." (Token.print token)
            (Token.describe `Begin_table_row)
        in
        Parse_error.not_allowed ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion location
        |> add_warning input;
        junk input;
        consume_block_elements where_in_line acc
    (* Tags. These can appear at the top level only. *)
    | { value = `Tag tag as token; location } as next_token -> (
        let recover_when_not_at_top_level context =
          warn_because_not_at_top_level next_token;
          junk input;
          let words = List.map (Loc.at location) (tag_to_words tag) in
          let paragraph =
            `Paragraph words
            |> accepted_in_all_contexts context
            |> Loc.at location
          in
          consume_block_elements `At_start_of_line (paragraph :: acc)
        in

        match context with
        (* Tags cannot make sense in an explicit list ([{ul {li ...}}]). *)
        | In_explicit_list -> recover_when_not_at_top_level context
        (* If a tag starts at the beginning of a line, it terminates the preceding
           tag and/or the current shorthand list. In this case, return to the
           caller, and let the caller decide how to interpret the tag token. *)
        | In_implicitly_ended (`Tag | `Shorthand_list) ->
            if where_in_line = `At_start_of_line then
              (List.rev acc, next_token, where_in_line)
            else recover_when_not_at_top_level context
        | In_table_cell -> recover_when_not_at_top_level context
        | In_code_results -> recover_when_not_at_top_level context
        (* If this is the top-level call to [block_element_list], parse the
           tag. *)
        | Top_level -> (
            if where_in_line <> `At_start_of_line then
              Parse_error.should_begin_on_its_own_line
                ~what:(Token.describe token) location
              |> add_warning input;

            junk input;

            match tag with
            | (`Author s | `Since s | `Version s | `Canonical s) as tag ->
                let s = String.trim s in
                if s = "" then
                  Parse_error.should_not_be_empty ~what:(Token.describe token)
                    location
                  |> add_warning input;
                let tag =
                  match tag with
                  | `Author _ -> `Author s
                  | `Since _ -> `Since s
                  | `Version _ -> `Version s
                  | `Canonical _ ->
                      (* TODO The location is only approximate, as we need lexer
                         cooperation to get the real location. *)
                      let r_location =
                        Loc.nudge_start (String.length "@canonical ") location
                      in
                      `Canonical (Loc.at r_location s)
                in

                let tag = Loc.at location (`Tag tag) in
                consume_block_elements `After_text (tag :: acc)
            | (`Deprecated | `Return | `Children_order | `Short_title) as tag ->
                let content, _stream_head, where_in_line =
                  block_element_list (In_implicitly_ended `Tag)
                    ~parent_markup:token input
                in
                let tag =
                  match tag with
                  | `Deprecated -> `Deprecated content
                  | `Return -> `Return content
                  | `Children_order -> `Children_order content
                  | `Short_title -> `Short_title content
                in
                let location =
                  location :: List.map Loc.location content |> Loc.span
                in
                let tag = Loc.at location (`Tag tag) in
                consume_block_elements where_in_line (tag :: acc)
            | (`Param _ | `Raise _ | `Before _) as tag ->
                let content, _stream_head, where_in_line =
                  block_element_list (In_implicitly_ended `Tag)
                    ~parent_markup:token input
                in
                let tag =
                  match tag with
                  | `Param s -> `Param (s, content)
                  | `Raise s -> `Raise (s, content)
                  | `Before s -> `Before (s, content)
                in
                let location =
                  location :: List.map Loc.location content |> Loc.span
                in
                let tag = Loc.at location (`Tag tag) in
                consume_block_elements where_in_line (tag :: acc)
            | `See (kind, target) ->
                let content, _next_token, where_in_line =
                  block_element_list (In_implicitly_ended `Tag)
                    ~parent_markup:token input
                in
                let location =
                  location :: List.map Loc.location content |> Loc.span
                in
                let tag = `Tag (`See (kind, target, content)) in
                let tag = Loc.at location tag in
                consume_block_elements where_in_line (tag :: acc)
            | (`Inline | `Open | `Closed | `Hidden) as tag ->
                let tag = Loc.at location (`Tag tag) in
                consume_block_elements `After_text (tag :: acc)))
    | ( { value = #token_that_always_begins_an_inline_element; _ }
      | { value = `Bar; _ } ) as next_token ->
        warn_if_after_text next_token;

        let block = paragraph input in
        let block = Loc.map (accepted_in_all_contexts context) block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = `Verbatim s as token; location } as next_token ->
        warn_if_after_text next_token;
        if s = "" then
          Parse_error.should_not_be_empty ~what:(Token.describe token) location
          |> add_warning input;

        junk input;
        let block = accepted_in_all_contexts context token in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = `Math_block s as token; location } as next_token ->
        warn_if_after_text next_token;
        if s = "" then
          Parse_error.should_not_be_empty ~what:(Token.describe token) location
          |> add_warning input;

        junk input;
        let block = accepted_in_all_contexts context token in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | {
        value =
          `Code_block (meta, delim, { value = s; location = v_loc }, has_outputs)
          as token;
        location;
      } as next_token ->
        warn_if_after_text next_token;
        junk input;
        let delimiter = if delim = "" then None else Some delim in
        let output, location =
          if not has_outputs then (None, location)
          else
            let content, next_token, _where_in_line =
              block_element_list In_code_results ~parent_markup:token input
            in
            junk input;
            let locations =
              location :: List.map (fun content -> content.Loc.location) content
            in
            let location = Loc.span locations in
            let location = { location with end_ = next_token.location.end_ } in
            (Some content, location)
        in

        if s = "" then
          Parse_error.should_not_be_empty ~what:(Token.describe token) location
          |> add_warning input;

        let meta =
          match meta with
          | None -> None
          | Some (language, tags) -> Some { Ast.language; tags }
        in
        let block =
          accepted_in_all_contexts context
            (`Code_block
              {
                Ast.meta;
                delimiter;
                content = { value = s; location = v_loc };
                output;
              })
        in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = `Modules s as token; location } as next_token ->
        warn_if_after_text next_token;

        junk input;

        (* TODO Use some library for a splitting function, or move this out into a
           Util module. *)
        let split_string delimiters s =
          let rec scan_delimiters acc index =
            if index >= String.length s then List.rev acc
            else if String.contains delimiters s.[index] then
              scan_delimiters acc (index + 1)
            else scan_word acc index (index + 1)
          and scan_word acc start_index index =
            if index >= String.length s then
              let word = String.sub s start_index (index - start_index) in
              List.rev (word :: acc)
            else if String.contains delimiters s.[index] then
              let word = String.sub s start_index (index - start_index) in
              scan_delimiters (word :: acc) (index + 1)
            else scan_word acc start_index (index + 1)
          in

          scan_delimiters [] 0
        in

        (* TODO Correct locations await a full implementation of {!modules}
           parsing. *)
        let modules =
          split_string " \t\r\n" s |> List.map (fun r -> Loc.at location r)
        in

        if modules = [] then
          Parse_error.should_not_be_empty ~what:(Token.describe token) location
          |> add_warning input;

        let block = accepted_in_all_contexts context (`Modules modules) in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = `Begin_list kind as token; location } as next_token ->
        warn_if_after_text next_token;

        junk input;

        let items, brace_location =
          explicit_list_items ~parent_markup:token input
        in
        if items = [] then
          Parse_error.should_not_be_empty ~what:(Token.describe token) location
          |> add_warning input;

        let location = Loc.span [ location; brace_location ] in
        let block = `List (kind, `Heavy, items) in
        let block = accepted_in_all_contexts context block in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = (`Begin_table_light | `Begin_table_heavy) as token; location }
      as next_token ->
        warn_if_after_text next_token;
        junk input;
        let block, brace_location =
          let parent_markup = token in
          let parent_markup_location = location in
          match token with
          | `Begin_table_light ->
              light_table input ~parent_markup ~parent_markup_location
          | `Begin_table_heavy ->
              heavy_table input ~parent_markup ~parent_markup_location
        in
        let location = Loc.span [ location; brace_location ] in
        let block = accepted_in_all_contexts context (`Table block) in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { value = (`Minus | `Plus) as token; location } as next_token -> (
        (match where_in_line with
        | `After_text | `After_shorthand_bullet ->
            Parse_error.should_begin_on_its_own_line
              ~what:(Token.describe token) location
            |> add_warning input
        | _ -> ());

        match context with
        | In_implicitly_ended `Shorthand_list ->
            (List.rev acc, next_token, where_in_line)
        | _ ->
            let items, where_in_line =
              shorthand_list_items next_token where_in_line input
            in
            let kind =
              match token with `Minus -> `Unordered | `Plus -> `Ordered
            in
            let location =
              location :: List.map Loc.location (List.flatten items) |> Loc.span
            in
            let block = `List (kind, `Light, items) in
            let block = accepted_in_all_contexts context block in
            let block = Loc.at location block in
            let acc = block :: acc in
            consume_block_elements where_in_line acc)
    | { value = `Begin_section_heading (level, label) as token; location } as
      next_token -> (
        let recover_when_not_at_top_level context =
          warn_because_not_at_top_level next_token;
          junk input;
          let content, brace_location =
            delimited_inline_element_list ~parent_markup:token
              ~parent_markup_location:location ~requires_leading_whitespace:true
              input
          in
          let location = Loc.span [ location; brace_location ] in
          let paragraph =
            `Paragraph content
            |> accepted_in_all_contexts context
            |> Loc.at location
          in
          consume_block_elements `At_start_of_line (paragraph :: acc)
        in

        match context with
        | In_implicitly_ended (`Tag | `Shorthand_list) ->
            if where_in_line = `At_start_of_line then
              (List.rev acc, next_token, where_in_line)
            else recover_when_not_at_top_level context
        | In_explicit_list -> recover_when_not_at_top_level context
        | In_table_cell -> recover_when_not_at_top_level context
        | In_code_results -> recover_when_not_at_top_level context
        | Top_level ->
            if where_in_line <> `At_start_of_line then
              Parse_error.should_begin_on_its_own_line
                ~what:(Token.describe token) location
              |> add_warning input;

            let label =
              match label with
              | Some "" ->
                  Parse_error.should_not_be_empty ~what:"heading label" location
                  |> add_warning input;
                  None
              | _ -> label
            in

            junk input;

            let content, brace_location =
              delimited_inline_element_list ~parent_markup:token
                ~parent_markup_location:location
                ~requires_leading_whitespace:true input
            in
            if content = [] then
              Parse_error.should_not_be_empty ~what:(Token.describe token)
                location
              |> add_warning input;

            let location = Loc.span [ location; brace_location ] in
            let heading = `Heading (level, label, content) in
            let heading = Loc.at location heading in
            let acc = heading :: acc in
            consume_block_elements `After_text acc)
    | { value = `Begin_paragraph_style _ as token; location } ->
        junk input;
        let content, brace_location =
          delimited_inline_element_list ~parent_markup:token
            ~parent_markup_location:location ~requires_leading_whitespace:true
            input
        in
        let location = Loc.span [ location; brace_location ] in

        Parse_error.markup_should_not_be_used ~what:(Token.describe token)
          location
        |> add_warning input;

        let paragraph =
          `Paragraph content
          |> accepted_in_all_contexts context
          |> Loc.at location
        in
        consume_block_elements `At_start_of_line (paragraph :: acc)
    | {
     location;
     value = `Media_with_replacement_text (href, media, content) as token;
    } ->
        junk input;

        let r_location =
          Loc.nudge_start
            (String.length @@ Token.s_of_media `Replaced media)
            location
          |> Loc.nudge_end (String.length content + 1)
          (* +1 for closing character *)
        in
        let c_location =
          Loc.nudge_start
            (String.length (Token.s_of_media `Replaced media)
            + String.length (match href with `Reference s | `Link s -> s))
            location
          |> Loc.nudge_end 1
        in
        let content = String.trim content in
        let href = href |> Loc.at r_location in

        if content = "" then
          Parse_error.should_not_be_empty ~what:(Token.describe token)
            c_location
          |> add_warning input;

        let block = `Media (`Simple, href, content, media) in
        let block = accepted_in_all_contexts context block in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
    | { location; value = `Simple_media (href, media) } ->
        junk input;

        let r_location =
          Loc.nudge_start
            (String.length @@ Token.s_of_media `Simple media)
            location
          |> Loc.nudge_end 1
        in
        let href = href |> Loc.at r_location in
        let block = `Media (`Simple, href, "", media) in
        let block = accepted_in_all_contexts context block in
        let block = Loc.at location block in
        let acc = block :: acc in
        consume_block_elements `After_text acc
  in

  let where_in_line =
    match context with
    | Top_level -> `At_start_of_line
    | In_implicitly_ended `Shorthand_list -> `After_shorthand_bullet
    | In_explicit_list -> `After_explicit_list_bullet
    | In_table_cell -> `After_table_cell
    | In_code_results -> `After_tag
    | In_implicitly_ended `Tag -> `After_tag
  in

  consume_block_elements where_in_line []

(* {3 Lists} *)

(* Consumes a sequence of implicit list items. Each one consists of a [`Minus]
   or [`Plus] token, followed by block elements until:

   - a blank line, or
   - a list bullet of the opposite kind (e.g. [`Plus] for a [`Minus] list).

   This function is called when the next token is known to be [`Minus] or
   [`Plus]. It consumes that token, and calls the block element parser (see
   above). That parser returns to [implicit_list_items] only on [`Blank_line],
   [`End], [`Minus] or [`Plus] at the start of a line, or [`Right_brace]. *)
and shorthand_list_items :
    [ `Minus | `Plus ] with_location ->
    where_in_line ->
    input ->
    Ast.nestable_block_element with_location list list * where_in_line =
 fun first_token where_in_line input ->
  let bullet_token = first_token.value in

  let rec consume_list_items :
      [> ] with_location ->
      where_in_line ->
      Ast.nestable_block_element with_location list list ->
      Ast.nestable_block_element with_location list list * where_in_line =
   fun next_token where_in_line acc ->
    match next_token.value with
    | `End | `Right_brace | `Blank_line _ | `Tag _ | `Begin_section_heading _
    | `Simple_media _ | `Media_with_replacement_text _ ->
        (List.rev acc, where_in_line)
    | (`Minus | `Plus) as bullet ->
        if bullet = bullet_token then (
          junk input;

          let content, stream_head, where_in_line =
            block_element_list (In_implicitly_ended `Shorthand_list)
              ~parent_markup:bullet input
          in
          if content = [] then
            Parse_error.should_not_be_empty ~what:(Token.describe bullet)
              next_token.location
            |> add_warning input;

          let acc = content :: acc in
          consume_list_items stream_head where_in_line acc)
        else (List.rev acc, where_in_line)
  in

  consume_list_items
    (first_token :> stopped_implicitly with_location)
    where_in_line []

(* Consumes a sequence of explicit list items (starting with '{li ...}' and
   '{-...}', which are represented by [`Begin_list_item _] tokens).

   This function is called immediately after '{ul' or '{ol' ([`Begin_list _]) is
   read. The only "valid" way to exit is by reading a [`Right_brace] token,
   which is consumed.

   Whitespace inside the list, but outside list items, is not significant – this
   parsing function consumes all of it. Otherwise, only list item start tokens
   are accepted. Everything else is an error. *)
and explicit_list_items :
    parent_markup:[< Token.t ] ->
    input ->
    Ast.nestable_block_element with_location list list * Loc.span =
 fun ~parent_markup input ->
  let rec consume_list_items :
      Ast.nestable_block_element with_location list list ->
      Ast.nestable_block_element with_location list list * Loc.span =
   fun acc ->
    let next_token = peek input in
    match next_token.value with
    | `End ->
        Parse_error.end_not_allowed next_token.location
          ~in_what:(Token.describe parent_markup)
        |> add_warning input;
        (List.rev acc, next_token.location)
    | `Right_brace ->
        junk input;
        (List.rev acc, next_token.location)
    | `Space _ | `Single_newline _ | `Blank_line _ ->
        junk input;
        consume_list_items acc
    | `Begin_list_item kind as token ->
        junk input;

        (* '{li', represented by [`Begin_list_item `Li], must be followed by
           whitespace. *)
        (if kind = `Li then
           match (peek input).value with
           | `Space _ | `Single_newline _ | `Blank_line _ | `Right_brace ->
               ()
               (* The presence of [`Right_brace] above requires some explanation:

                  - It is better to be silent about missing whitespace if the next
                    token is [`Right_brace], because the error about an empty list
                    item will be generated below, and that error is more important to
                    the user.
                  - The [`Right_brace] token also happens to include all whitespace
                    before it, as a convenience for the rest of the parser. As a
                    result, not ignoring it could be wrong: there could in fact be
                    whitespace in the concrete syntax immediately after '{li', just
                    it is not represented as [`Space], [`Single_newline], or
                    [`Blank_line]. *)
           | _ ->
               Parse_error.should_be_followed_by_whitespace next_token.location
                 ~what:(Token.print token)
               |> add_warning input);

        let content, token_after_list_item, _where_in_line =
          block_element_list In_explicit_list ~parent_markup:token input
        in

        if content = [] then
          Parse_error.should_not_be_empty next_token.location
            ~what:(Token.describe token)
          |> add_warning input;

        (match token_after_list_item.value with
        | `Right_brace -> junk input
        | `End ->
            Parse_error.end_not_allowed token_after_list_item.location
              ~in_what:(Token.describe token)
            |> add_warning input);

        let acc = content :: acc in
        consume_list_items acc
    | token ->
        let suggestion =
          match token with
          | `Begin_section_heading _ | `Tag _ ->
              Printf.sprintf "move %s outside the list." (Token.describe token)
          | _ ->
              Printf.sprintf "move %s into a list item, %s or %s."
                (Token.describe token)
                (Token.print (`Begin_list_item `Li))
                (Token.print (`Begin_list_item `Dash))
        in
        Parse_error.not_allowed next_token.location ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion
        |> add_warning input;

        junk input;
        consume_list_items acc
  in

  consume_list_items []

(* Consumes a sequence of table rows that might start with [`Bar].

   This function is called immediately after '{t' ([`Begin_table `Light]) is
   read. The only "valid" way to exit is by reading a [`Right_brace] token,
   which is consumed. *)
and light_table ~parent_markup ~parent_markup_location input =
  let rec consume_rows acc ~last_loc =
    Reader.until_rbrace_or_eof input acc >>> fun next_token ->
    match next_token.Loc.value with
    | `Bar | #token_that_always_begins_an_inline_element -> (
        let next, row, last_loc =
          light_table_row ~parent_markup ~last_loc input
        in
        match next with
        | `Continue -> consume_rows (row :: acc) ~last_loc
        | `Stop -> (row :: acc, last_loc))
    | other_token ->
        Parse_error.not_allowed next_token.location
          ~what:(Token.describe other_token)
          ~in_what:(Token.describe parent_markup)
        |> add_warning input;
        junk input;
        consume_rows acc ~last_loc
  in
  let rows, brace_location = consume_rows [] ~last_loc:parent_markup_location in
  let grid = List.rev rows in
  (Table.Light_syntax.from_raw_data grid, brace_location)

(* Consumes a table row that might start with [`Bar]. *)
and light_table_row ~parent_markup ~last_loc input =
  let rec consume_row acc_row acc_cell acc_space ~new_line ~last_loc =
    let push_cells row cell =
      match cell with [] -> row | _ -> List.rev cell :: row
    in
    let return row cell = List.rev (push_cells row cell) in
    let next_token = peek input in
    match next_token.value with
    | `End ->
        Parse_error.end_not_allowed next_token.location ~in_what:"table"
        |> add_warning input;
        junk input;
        (`Stop, return acc_row acc_cell, next_token.location)
    | `Right_brace ->
        junk input;
        (`Stop, return acc_row acc_cell, next_token.location)
    | `Space _ as token ->
        junk input;
        let i = Loc.at next_token.location token in
        consume_row acc_row acc_cell (i :: acc_space) ~new_line ~last_loc
    | `Single_newline _ | `Blank_line _ ->
        junk input;
        (`Continue, return acc_row acc_cell, last_loc)
    | `Bar ->
        junk input;
        let acc_row = if new_line then [] else List.rev acc_cell :: acc_row in
        consume_row acc_row [] [] ~new_line:false ~last_loc
    | #token_that_always_begins_an_inline_element as token ->
        let i = inline_element input next_token.location token in
        if Loc.spans_multiple_lines i then
          Parse_error.not_allowed
            ~what:(Token.describe (`Single_newline ""))
            ~in_what:(Token.describe `Begin_table_light)
            i.location
          |> add_warning input;
        let acc_cell =
          if acc_cell = [] then [ i ] else (i :: acc_space) @ acc_cell
        in
        consume_row acc_row acc_cell [] ~new_line:false
          ~last_loc:next_token.location
    | other_token ->
        Parse_error.not_allowed next_token.location
          ~what:(Token.describe other_token)
          ~in_what:(Token.describe parent_markup)
        |> add_warning input;
        junk input;
        consume_row acc_row acc_cell acc_space ~new_line ~last_loc
  in
  consume_row [] [] [] ~new_line:true ~last_loc

(* Consumes a sequence of table rows (starting with '{tr ...}', which are
   represented by [`Begin_table_row] tokens).

   This function is called immediately after '{table' ([`Begin_table `Heavy]) is
   read. The only "valid" way to exit is by reading a [`Right_brace] token,
   which is consumed. *)
and heavy_table ~parent_markup ~parent_markup_location input =
  let rec consume_rows acc ~last_loc =
    Reader.until_rbrace_or_eof input acc >>> fun next_token ->
    match next_token.Loc.value with
    | `Begin_table_row as token ->
        junk input;
        let items, last_loc = heavy_table_row ~parent_markup:token input in
        consume_rows (List.rev items :: acc) ~last_loc
    | token ->
        Parse_error.not_allowed next_token.location ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion:"Move outside of {table ...}, or inside {tr ...}"
        |> add_warning input;
        junk input;
        consume_rows acc ~last_loc
  in
  let rows, brace_location = consume_rows [] ~last_loc:parent_markup_location in
  let grid = List.rev rows in
  (Table.Heavy_syntax.from_grid grid, brace_location)

(* Consumes a sequence of table cells (starting with '{th ...}' or '{td ... }',
   which are represented by [`Begin_table_cell] tokens).

   This function is called immediately after '{tr' ([`Begin_table_row]) is
   read. The only "valid" way to exit is by reading a [`Right_brace] token,
   which is consumed. *)
and heavy_table_row ~parent_markup input =
  let rec consume_cell_items acc =
    Reader.until_rbrace_or_eof input acc >>> fun next_token ->
    match next_token.Loc.value with
    | `Begin_table_cell kind as token ->
        junk input;
        let content, token_after_list_item, _where_in_line =
          block_element_list In_table_cell ~parent_markup:token input
        in
        (match token_after_list_item.value with
        | `Right_brace -> junk input
        | `End ->
            Parse_error.not_allowed token_after_list_item.location
              ~what:(Token.describe `End) ~in_what:(Token.describe token)
            |> add_warning input);
        consume_cell_items ((content, kind) :: acc)
    | token ->
        Parse_error.not_allowed next_token.location ~what:(Token.describe token)
          ~in_what:(Token.describe parent_markup)
          ~suggestion:
            "Move outside of {table ...}, or inside {td ...} or {th ...}"
        |> add_warning input;
        junk input;
        consume_cell_items acc
  in
  consume_cell_items []

(* {2 Entry point} *)

let parse warnings tokens =
  let input : input = { tokens; warnings } in

  let rec parse_block_elements () =
    let elements, last_token, _where_in_line =
      block_element_list Top_level ~parent_markup:`Comment input
    in

    match last_token.value with
    | `End -> elements
    | `Right_brace ->
        Parse_error.unpaired_right_brace last_token.location
        |> add_warning input;

        let block =
          Loc.same last_token (`Paragraph [ Loc.same last_token (`Word "}") ])
        in

        junk input;
        elements @ (block :: parse_block_elements ())
  in
  let ast = parse_block_elements () in
  (ast, List.rev !(input.warnings))