Module Delimited__.Read
include module type of Delimited_kernel.Read
exception
Bad_csv_formatting of string list * string
Row up to the error, and the field with the error up to the point of failure. Same as
Expert.Parse_state.Bad_csv_formatting
.
type 'a t
This provides an applicative interface for constructing values from a csv file.
An
'a t
describes how to build an OCaml model'a
for each row.Simple example:
type t = { foo : int ; bar : string } (* Describes how to generate a [t] from a row of a csv file *) let parse : t Delimited_kernel.Parse.t = let open Delimited_kernel.Parse.Let_syntax in let%map_open foo = at_header "foo" ~f:Int.of_string and bar = at_header "bar" ~f:String.of_string in { foo; bar } ;; let _ = Delimited_kernel.Parse.list_of_string ~header:`Yes parse "foo,bar\n2,\"hello, world\"\n" ;;
include Core_kernel.Applicative.S with type 'a t := 'a t
val apply : ('a -> 'b) t -> 'a t -> 'b t
val map2 : 'a t -> 'b t -> f:('a -> 'b -> 'c) -> 'c t
val map3 : 'a t -> 'b t -> 'c t -> f:('a -> 'b -> 'c -> 'd) -> 'd t
val all : 'a t list -> 'a list t
val all_unit : unit t list -> unit t
module Applicative_infix : Base__.Applicative_intf.Applicative_infix with type 'a t := 'a t
module Open_on_rhs_intf : sig ... end
include Core_kernel.Applicative.Let_syntax with type 'a t := 'a t with module Open_on_rhs_intf := Open_on_rhs_intf
module Open_on_rhs_intf : sig ... end
module Let_syntax : sig ... end
val at_index : int -> f:(string -> 'a) -> 'a t
Read a field at the given index. Use
f
to convert the field from string.
val at_header : string -> f:(string -> 'a) -> 'a t
Read a field at the given header. Use
f
to convert the field from string.Note that if the given header is not provided through either the file or the
~header
argument to the parsers, this will fail at runtime.
val at_header_opt : string -> f:(string option -> 'a) -> 'a t
Read a field at the given header, if it exists. Use
f
to convert the field from string.
module Header = Delimited_kernel__.Header
Header parsing control
module Row : sig ... end
Whole-row parsing.
val fold_string : ?strip:bool -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> init:'b -> f:('b -> 'a -> 'b) -> string -> 'b
Fold the CSV rows contained in the given string.
val list_of_string : ?strip:bool -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> string -> 'a list
Load the CSV as a list
module Expert = Delimited_kernel.Read.Expert
Experts only. If you really think you need a function in this module, please talk to a delimited dev first.
val fold_reader : ?strip:bool -> ?skip_lines:int -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> init:'b -> f:('b -> 'a -> 'b Async.Deferred.t) -> Async.Reader.t -> 'b Async.Deferred.t
fold_reader ?strip ?skip_lines ?sep ?quote ~init ~f r
produces a value by folding over a csv document read fromr
. The reader will be closed on EOF.If
strip
is true, leading and trailing whitespace is stripped from each field. Default value is false.If
skip_lines
> 0, that many lines are skipped at the start of the input. Note that this skips lines without doing any CSV parsing of the lines being skipped, so newlines within a quoted field are treated identically to newlines outside a quoted field. Default value is 0.sep
is the character that separates fields within a row. Default value is ','quote
defines a character to use for quoting.`Using '"'
implements the MS Excel convention: either a field is unquoted, or it has leading and trailing quotes and internal escaped characters are represented as quote-char char, e.g., "\n to escape a newline.`No_quoting
means all characters are literal. The default is`Using '"'
val fold_reader' : ?strip:bool -> ?skip_lines:int -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> init:'b -> f:('b -> 'a Core.Queue.t -> 'b Async.Deferred.t) -> Async.Reader.t -> 'b Async.Deferred.t
fold_reader' ?strip ?skip_lines ?sep ?quote ~init ~f r
works similarly tofold_reader
, except for thef
argument.fold_reader'
runsf
on batches ofRow.t
s rather than runningf
on each individual row.
val fold_reader_without_pushback : ?strip:bool -> ?skip_lines:int -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> init:'b -> f:('b -> 'a -> 'b) -> Async.Reader.t -> 'b Async.Deferred.t
Same as
fold_reader
but the fold function does not exert pushback on the fold.
val pipe_of_reader : ?strip:bool -> ?skip_lines:int -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> Async.Reader.t -> 'a Async.Pipe.Reader.t
pipe_of_reader t reader
produces a pipe reader of parsed values.
val create_reader : ?strip:bool -> ?skip_lines:int -> ?sep:char -> ?quote:[ `No_quoting | `Using of char ] -> ?header:Header.t -> ?on_invalid_row:'a On_invalid_row.t -> 'a t -> string -> 'a Async.Pipe.Reader.t Async.Deferred.t
create_reader filename
opens a reader for the given filename & returns a pipe of its parsed values.