Module Async_extended.Std.Reader

include Async.Reader

Reader is Async's main API for buffered input from a file descriptor. It is the analog of Core.In_channel.

Each reader has an internal buffer, which is filled via read() system calls when data is needed to satisfy a Reader.read* call.

Each of the read functions returns a deferred that will become determined when the read completes. It is an error to have two simultaneous reads. That is, if one calls a read function, one should not call another read function until the first one completes.

If the file descriptor underlying a reader is closed, the reader will return EOF (after all the buffered bytes have been read).

Any Reader.read* call could, rather than determine its result, send an exception to the monitor in effect when read was called. Such exceptions can be handled in the usual way by using try_with, e.g.:

      try_with (fun () -> Reader.read reader ...)
module Read_result = Async_unix.Reader.Read_result
type t
include sig ... end
val sexp_of_t : t ‑> Sexplib.Sexp.t
include Async_unix__.Import.Invariant.S with type t := t
type t
val io_stats : Async_unix.Io_stats.t

io_stats Overall IO statistics for all readers

val last_read_time : t ‑> Core.Time.t

last_read_time t returns time of the most recent read system call that returned data.

val stdin : t Core.Lazy.t

stdin is a reader for file descriptor 0. It is lazy because we don't want to create it in all programs that happen to link with Async.

val open_file : ?⁠buf_len:int ‑> string ‑> t Async_unix__.Import.Deferred.t

open_file file opens file for reading and returns a reader reading from it.

transfer t pipe_w transfers data from t into pipe_w one chunk at a time (whatever is read from the underlying file descriptor without post-processing). The result becomes determined after reaching EOF on t and the final bytes have been transferred, or if pipe_w is closed.

This function will normally not be needed (see pipe).

val pipe : t ‑> string Async_unix__.Import.Pipe.Reader.t

pipe t returns the reader end of a pipe that will continually be filled with chunks of data from the underlying Reader.t. When the reader reaches EOF or the pipe is closed, pipe closes the reader, and then after the reader close is finished, closes the pipe.

of_pipe info pipe_r returns a reader t that receives all the data from pipe_r. If pipe_r is closed, t will see an EOF (but will not be automatically closed). If t is closed, then pipe_r will stop being drained.

of_pipe is implemented by shuttling bytes from pipe_r to the write-end of a Unix pipe, with t being attached to the read end of the Unix pipe.

val create : ?⁠buf_len:int ‑> Async_unix.Fd.t ‑> t

create ~buf_len fd creates a new reader that is reading from fd.

  • Parameter access_raw_data: default = None if specified this function will be given access to the raw bits as they are read by the reader. No guarantee of granularity is made.
val of_in_channel : Core.In_channel.t ‑> Async_unix.Fd.Kind.t ‑> t
val with_file : ?⁠buf_len:int ‑> ?⁠exclusive:bool ‑> string ‑> f:(t ‑> 'a Async_unix__.Import.Deferred.t) ‑> 'a Async_unix__.Import.Deferred.t

with_file file f opens files, creates a reader with it, and passes the reader to f. It closes the reader when the result of f becomes determined, and returns f's result.

NOTE, you need to be careful that all your IO is done when the deferred you return becomes determined. If for example, you use with_file, and call lines, make sure you return a deferred that becomes determined when the EOF is reached on the pipe, not when you get the pipe (because you get it straight away).

val close : t ‑> unit Async_unix__.Import.Deferred.t

close t prevents further use of t and closes t's underlying file descriptor. The result of close becomes determined once the underlying file descriptor has been closed. It is an error to call other operations on t after close t has been called, except that calls of close subsequent to the original call to close will return the same deferred as the original call.

close_finished t becomes determined after t's underlying file descriptor has been closed, i.e. it is the same as the result of close. close_finished differs from close in that it does not have the side effect of initiating a close.

is_closed t returns true iff close t has been called.

with_close t ~f runs f (), and closes t after f finishes or raises.

val close_finished : t ‑> unit Async_unix__.Import.Deferred.t
val is_closed : t ‑> bool
val with_close : t ‑> f:(unit ‑> 'a Async_unix__.Import.Deferred.t) ‑> 'a Async_unix__.Import.Deferred.t
val id : t ‑> Id.t

id t

  • Returns a name for this reader that is unique across all instances of the reader module.
val fd : t ‑> Async_unix.Fd.t

fd t

  • Returns the Fd.t used to create this reader
val read : t ‑> ?⁠pos:int ‑> ?⁠len:int ‑> Core.Bytes.t ‑> int Read_result.t Async_unix__.Import.Deferred.t

read t ?pos ?len buf reads up to len bytes into buf, blocking until some data is available or end-of-input is reached. The resulting i satisfies 0 < i <= len.

val peek : t ‑> len:int ‑> string Read_result.t Async_unix__.Import.Deferred.t

peek t ~len peeks exactly len bytes from t's buffer. It blocks until len bytes are available or end-of-input is reached.

val drain : t ‑> unit Async_unix__.Import.Deferred.t

drain t reads and ignores all data from t until it hits EOF, and then closes t.

type 'a read_one_chunk_at_a_time_result = [
| `Eof
| `Stopped of 'a
| `Eof_with_unconsumed_data of string
]

read_one_chunk_at_a_time t ~handle_chunk reads into t's internal buffer, and whenever bytes are available, applies handle_chunk to them. It waits to read again until the deferred returned by handle_chunk becomes determined. read_one_chunk_at_a_time continues reading until it reaches `Eof or handle_chunk returns `Stop or `Stop_consumed. In the case of `Stop and `Stop_consumed, one may read from t after read_one_chunk_at_a_time returns.

include sig ... end
val sexp_of_read_one_chunk_at_a_time_result : ('a ‑> Sexplib.Sexp.t) ‑> 'a read_one_chunk_at_a_time_result ‑> Sexplib.Sexp.t
type 'a handle_chunk_result = [
| `Stop of 'a
| `Stop_consumed of 'a * int
| `Continue
| `Consumed of int * [ `Need of int | `Need_unknown ]
]
include sig ... end
val sexp_of_handle_chunk_result : ('a ‑> Sexplib.Sexp.t) ‑> 'a handle_chunk_result ‑> Sexplib.Sexp.t
val read_one_chunk_at_a_time : t ‑> handle_chunk:(Core.Bigstring.t ‑> pos:int ‑> len:int ‑> 'a handle_chunk_result Async_unix__.Import.Deferred.t) ‑> 'a read_one_chunk_at_a_time_result Async_unix__.Import.Deferred.t
type 'a handle_iobuf_result = [
| `Stop of 'a
| `Continue
]

`Stop a or `Continue respects the usual Iobuf semantics where data up to the Iobuf.Lo_bound is considered consumed.

include sig ... end
val sexp_of_handle_iobuf_result : ('a ‑> Sexplib.Sexp.t) ‑> 'a handle_iobuf_result ‑> Sexplib.Sexp.t

read_one_iobuf_at_a_time is like read_one_chunk_at_a_time, except that the user-supplied handle_chunk function receives its data in an Iobuf.t, and uses the Iobuf position to communicate how much data was consumed. read_one_iobuf_at_a_time is implemented as a wrapper around read_one_chunk_at_a_time.

read_substring t ss reads up to Substring.length ss bytes into ss, blocking until some data is available or Eof is reched. The resulting i satisfies 0 < i <= Substring.length ss.

val really_read : t ‑> ?⁠pos:int ‑> ?⁠len:int ‑> Core.Bytes.t ‑> [ `Ok | `Eof of int ] Async_unix__.Import.Deferred.t

really_read t buf ?pos ?len reads until it fills len bytes of buf starting at pos or runs out of input. In the former case it returns `Ok. In the latter, it returns `Eof n where n is the number of bytes that were read before end of input, and 0 <= n < String.length ss.

val really_read_substring : t ‑> Core.Substring.t ‑> [ `Ok | `Eof of int ] Async_unix__.Import.Deferred.t
val really_read_bigsubstring : t ‑> Core.Bigsubstring.t ‑> [ `Ok | `Eof of int ] Async_unix__.Import.Deferred.t
val read_until : t ‑> [ `Pred of char ‑> bool | `Char of char ] ‑> keep_delim:bool ‑> [ `Ok of string | `Eof_without_delim of string | `Eof ] Async_unix__.Import.Deferred.t

read_until t pred ~keep_delim reads until it hits a delimiter c such that:

  • if pred = `Char c' then c = c'
  • if pred = `Pred p then p c

`Char c' is equivalent to `Pred (fun c -> c = c') but the underlying implementation is more efficient, in particular it will not call a function on every input character.

read_until returns a freshly-allocated string consisting of all the characters read and optionally including the delimiter as per keep_delim.

val read_until_max : t ‑> [ `Pred of char ‑> bool | `Char of char ] ‑> keep_delim:bool ‑> max:int ‑> [ `Ok of string | `Eof_without_delim of string | `Eof | `Max_exceeded of string ] Async_unix__.Import.Deferred.t

just like read_until, except you have the option of specifiying a maximum number of chars to read.

val read_line : t ‑> string Read_result.t Async_unix__.Import.Deferred.t

read_line t reads up to, and including the next newline (\n) character (or \r\n) and returns a freshly-allocated string containing everything up to but not including the newline character. If read_line encounters EOF before the newline char then everything read up to but not including EOF will be returned as a line.

val really_read_line : wait_time:Core.Time.Span.t ‑> t ‑> string option Async_unix__.Import.Deferred.t

really_read_line ~wait_time t reads up to, and including the next newline (\n) character and returns an optional, freshly-allocated string containing everything up to but not including the newline character. If really_read_line encounters EOF before the newline char, then a time span of wait_time will be used before the input operation is retried. If the descriptor is closed, None will be returned.

type 'a read = ?⁠parse_pos:Core.Sexp.Parse_pos.t ‑> 'a

read_sexp t reads the next sexp.

read_sexps t reads all the sexps and returns them as a pipe. When the reader reaches EOF or the pipe is closed, read_sexps closes the the reader, and then after the reader close is finished, closes the pipe.

val read_bin_prot : ?⁠max_len:int ‑> t ‑> 'a Bin_prot.Type_class.reader ‑> 'a Read_result.t Async_unix__.Import.Deferred.t

read_bin_prot ?max_len t bp_reader reads the next binary protocol message using binary protocol reader bp_reader. The format is the "size-prefixed binary protocol", in which the length of the data is prefixed as a 64-bit integer to the data. This is the format that Writer.write_bin_prot writes.

For higher performance, consider Unpack_sequence.unpack_bin_prot_from_reader.

val peek_bin_prot : ?⁠max_len:int ‑> t ‑> 'a Bin_prot.Type_class.reader ‑> 'a Read_result.t Async_unix__.Import.Deferred.t

Similar to read_bin_prot, but doesn't consume any bytes from t.

Read and return a buffer containing one marshaled value, but don't unmarshal it. You can just call Marshal.from_string on the string, and cast it to the desired type (preferrably the actual type). similar to Marshal.from_channel, but suffers from the String-length limitation (16MB) on 32bit platforms.

Like read_marshal_raw, but unmarshal the value after reading it

recv t returns a string that was written with Writer.send

read_all t read_one returns a pipe that receives all values read from t by repeatedly using read_one t. When the reader reaches EOF, it closes the reader, and then after the reader close is finished, closes the pipe.

val lseek : t ‑> int64 ‑> mode:[< `Set | `End ] ‑> int64 Async_unix__.Import.Deferred.t

lseek t offset ~mode clears t's buffer and calls Unix.lseek on t's file descriptor. The `Cur mode is not exposed because seeking relative to the current position of the file descriptor is not the same as seeking to relative to the current position of the reader.

val ltell : t ‑> int64 Async_unix__.Import.Deferred.t

ltell t returns the file position of t from the perspective of a consumer of t. It uses Unix.lseek to find the file position of t's underlying file descriptor, and then subtracts the number of bytes in t's buffer, which have been read from the OS but not from t.

val lines : t ‑> string Async_unix__.Import.Pipe.Reader.t

lines t reads all the lines from t and puts them in the pipe, one line per pipe element. The lines do not contain the trailing newline. When the reader reaches EOF or the pipe is closed, lines closes the the reader, and then after the reader close is finished, closes the pipe.

val contents : t ‑> string Async_unix__.Import.Deferred.t

contents t returns the string corresponding to the full contents (up to EOF) of the reader. contents closes t before returning the string.

val file_contents : string ‑> string Async_unix__.Import.Deferred.t

file_contents file returns the string with the full contents of the file

val file_lines : string ‑> string list Async_unix__.Import.Deferred.t

file_lines file returns a list of the lines in the file. The lines do not contain the trailing newline.

type ('sexp, 'a, 'b) load = ?⁠exclusive:bool ‑> ?⁠expand_macros:bool ‑> string ‑> ('sexp ‑> 'a) ‑> 'b Async_unix__.Import.Deferred.t

load_sexp file conv loads a sexp from file and converts it to a value using conv. This function provides an accurate error location if convert raises Of_sexp_error.

load_sexps is similar, but converts a sequence of sexps.

Using ~expand_macros:true expands macros as defined in Macro. If ~expand_macros:true then the exclusive flag is ignored. Also, load_annotated* don't support ~expand_macros:true, and will raise.

val load_sexp : (Core.Sexp.t'a'a Core.Or_error.tload
val load_sexp_exn : (Core.Sexp.t'a'aload
val load_sexps : (Core.Sexp.t'a'a list Core.Or_error.tload
val load_sexps_exn : (Core.Sexp.t'a'a list) load
val load_annotated_sexp : (Core.Sexp.Annotated.t'a'a Core.Or_error.tload
val load_annotated_sexp_exn : (Core.Sexp.Annotated.t'a'aload
val load_annotated_sexps : (Core.Sexp.Annotated.t'a'a list Core.Or_error.tload
val load_annotated_sexps_exn : (Core.Sexp.Annotated.t'a'a list) load
type ('a, 'b) load_bin_prot = ?⁠exclusive:bool ‑> ?⁠max_len:int ‑> string ‑> 'a Bin_prot.Type_class.reader ‑> 'b Async_unix__.Import.Deferred.t
val load_bin_prot : ('a'a Core.Or_error.tload_bin_prot
val load_bin_prot_exn : ('a'aload_bin_prot
module Macro_loader = Async_unix.Reader.Macro_loader
include Reader_ext
val input_sexps : Async.Reader.t ‑> Async.Sexp.t list Async.Deferred.t
val open_gzip_file : string ‑> Async.Reader.t Async.Deferred.t
val with_input_from_process : prog:string ‑> args:string list ‑> f:(Async.Reader.t ‑> 'a Async.Deferred.t) ‑> 'a Async.Deferred.t

Start a process and read its stdout as input from a Reader.t.

If the process writes anything to stderr it will be thrown as an exception after reading is finished.

val with_gzip_file : string ‑> f:(Async.Reader.t ‑> 'a Async.Deferred.t) ‑> 'a Async.Deferred.t
val with_hadoop_gzip_file : hadoop_file:string ‑> (Async.Reader.t ‑> 'a Async.Deferred.t) ‑> 'a Async.Deferred.t
val with_xzip_file : string ‑> f:(Async.Reader.t ‑> 'a Async.Deferred.t) ‑> 'a Async.Deferred.t