CCCanonical_sexp.Make
type t = Sexp.t
type sexp = t
val atom : string -> t
Make an atom out of this string.
val of_int : int -> t
val of_bool : bool -> t
val of_float : float -> t
val of_unit : t
of_variant name args
is used to encode algebraic variants into a S-expr. For instance of_variant "some" [of_int 1]
represents the value Some 1
.
val to_buf : Stdlib.Buffer.t -> t -> unit
val to_string : t -> string
val to_file : string -> t -> unit
val to_file_iter : string -> t CCSexp_intf.iter -> unit
Print the given iter of expressions to a file.
val to_chan : out_channel -> t -> unit
val pp : Stdlib.Format.formatter -> t -> unit
Pretty-printer nice on human eyes (including indentation).
val pp_noindent : Stdlib.Format.formatter -> t -> unit
Raw, direct printing as compact as possible.
val parse_string : string -> t CCSexp_intf.or_error
Parse a string.
val parse_string_list : string -> t list CCSexp_intf.or_error
Parse a string into a list of S-exprs.
val parse_chan : in_channel -> t CCSexp_intf.or_error
Parse a S-expression from the given channel. Can read more data than necessary, so don't use this if you need finer-grained control (e.g. to read something else after the S-exp).
val parse_chan_gen : in_channel -> t CCSexp_intf.or_error CCSexp_intf.gen
Parse a channel into a generator of S-expressions.
val parse_chan_list : in_channel -> t list CCSexp_intf.or_error
val parse_file : string -> t CCSexp_intf.or_error
Open the file and read a S-exp from it.
val parse_file_list : string -> t list CCSexp_intf.or_error
Open the file and read a S-exp from it.