# Standard IO Interfaces

The :std/io package provides interfaces for performing binary and textual IO. The interfaces are generic, easy to implement and compose, and the standard library provides implementations for files, sockets, buffers, and so on.

(import :std/io)

# IO Sources and Sinks

At the base of of the interface hierarchy sits the Closer interface, which is the general representation of closable IO sinks and sources.

# Closer

(interface Closer
  (close))

# Closer-close

(Closer-close closer)
  closer := instance of Closer

Closes the underlying IO source or sink.

# Binary IO

The Reader interface provides the basic input facilities, while the Writer interface provides the basic output facilities.

# Reader

The Reader interface represents binary input sources; the interface is defined as follows:

(interface (Reader Closer)
  (read output (start 0) (end (u8vector-length output)) (need 0)))

There are two methods in the Reader interface:

# Reader-read

(Reader-read reader output (start 0) (end (u8vector-length output)) (need 0)) -> fixnum
  reader := Reader implementation
  output := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length output)
  need   := fixnum; 0 <= need <= end-start

Reads from a reader into the output buffer, with the write range being [start, end). Returns the number of bytes read, with 0 denoting the end of input.

If need > 0, then it specifies the number of bytes needed; if less than need bytes are read before encountering the end of input, an error is raised.

# Writer

The Writer interface represents binary output sinks; the interface is defined as follows:

(interface (Writer Closer)
  (write input (start 0) (end (u8vector-length input))))

There are two methods in the Writer interface:

# Writer-write

(Writer-write writer input (start 0) (end (u8vector-length output)) (need 0)) -> fixnum
  writer := Writer implementation
  input  := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum;  start < end <= (u8vector-length input)

Writes into a writer from the input buffer, with the read range being [start, end). Returns the number of bytes written; if fewer bytes are written than expected, an error` is raised.

# File IO

You can operate on files using the Reader and Writer interfaces.

The following methods provide constructors for file Readers and Writers:

# open-file-reader

(open-file-reader path flags: (flags default-file-reader-flags)) -> Reader
  path  := string
  flags := fixnum

Opens a file for reading and returns a Reader instance reading from the file.

Notes:

• the path is expanded before opening the file.
• the default flags are O_NOATIME if available in the sytem, otherwise 0.
• see :std/os/fcntl for relevant flags.

# open-file-writer

(open-file-writer path flags: (flags default-file-writer-flags) mode: (mode #o644)) -> Writer
  path  := string
  flags := fixnum
  mode  := fixnum

Opens a file for writing and returns a Writer instance writing to the file.

Notes:

• the path is expanded before opening the file.
• the default flags are O_CREAT|O_TRUNC.
• mode is the permissions associated with the file if a new file is created.
• see :std/os/fcntl for relevant flags.

# Sockets

# Base Socket Functionality

The base Socket interface defines methods that are common for all sockets:

(interface (Socket Closer)
  (domain)
  (address)
  (peer-address)
  (getsockopt level option)
  (setsockopt level option value)
  (set-input-timeout! timeo)
  (set-output-timeout! timeo))

# Socket-domain

(Socket-domain socket) -> fixnum
  socket := Socket

Returns the domain (address family) of the socket.

# Socket-address

(Socket-address socket) -> address
  socket := Socket

Returns the local address of a socket.

# Socket-peer-address

(Socket-peer-address socket) -> address
  socket := Socket

Returns the peer address for a connected socket; this is undefined for ServerSockets.

# Socket-getsockopt

(Socket-getsockopt socket level option) -> any
  socket := Socket
  level  := fixnum
  option := fixnum

Gets a socket option. See :std/os/socket for supported sockopts and their value types.

# Socket-setsockopt

(Socket-setsockopt socket level option value)
  socket := Socket
  level  := fixnum
  option := fixnum
  value := any

Sets a socket option. See :std/os/socket for supported sockopts and their value types.

# Socket-set-input-timeout!

(Socket-set-input-timeout! socket timeo)
  socket := Socket
  timeo  := timeout or #f

Sets the timeout for input operations on the socket.

Notes:

• #f clears the timeout
• a real value sets a relative timeout.
• a time object sets an absolute timeout.

# Socket-set-output-timeout!

(Socket-set-output-timeout! socket timeo)
  socket := Socket
  timeo  := timeout or #f

Sets the timeout for output operations on the socket.

Notes:

• #f clears the timeout
• a real value sets a relative timeout.
• a time object sets an absolute timeout.

# Stream Sockets

Stream sockets extend the basic socket interface to do IO with a connected stream of bytes:

(interface (StreamSocket Socket)
  (recv output (start 0) (end (u8vector-length output)) (flags 0))
  (send input (start 0) (end (u8vector-length input)) (flags 0))
  (reader)
  (writer)
  (shutdown direction))

The following methods create and operate on StreamSocket instances:

# tcp-connect

(tcp-connect address (timeo #f)) -> StreamSocket
  address := address
  timeo   := timeout or #f

Connects to an Internet address using TCP and returns a StreamSocket.

Notes:

• the address is resolved, if necessary, using a DNS lookup.

# unix-connect

(unix-connect path (timeo #f)) -> StreamSocket
  path  := string
  timeo := timeout or #f

Connects to a UNIX address and returns a StreamSocket.

# StreamSocket-recv

(StreamSocket-recv socket output (start 0) (end (u8vector-length output)) (flags 0))
  -> fixnum
  socket := StreamSocket
  output := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length output)
  flags  := fixnum

Receives from a socket into the output buffer, with the write range being [start, end). Returns the number of bytes read, with 0 denoting the end of input.

# StreamSocket-send

(StreamSocket-send socket input (start 0) (end (u8vector-length input)) (flags 0))
  -> fixnum
  socket := StreamSocket
  input := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length input)
  flags  := fixnum

Send to a socket from the input buffer, with the write range being [start, end). Returns the number of bytes written.

# StreamSocket-reader

(StreamSocket-reader socket) -> Reader
  socket := StreamSocket

Returns a Reader instance reading from the socket. Closing the reader shuts down the input direction of the socket.

# StreamSocket-writer

(StreamSocket-writer socket) -> Writer
  socket := StreamSocket

Returns a Writer instance writing to the socket. Closing the writer shuts down the output of the socket.

# StreamSocket-shutdown

(StreamSocket-shutdown socket direction)
  socket := StreamSocket
  direction := 'in, 'out, or 'inout

Shuts down the socket in the direction specified; if both directions are shutdown, the socket is automatically closed.

# Server Sockets

Server sockets abstract listening sockets that can accept connections:

(interface (ServerSocket Socket)
  (accept))

The following methods create and operate on server sockets

# tcp-listen

(tcp-listen address
            backlog: (backlog default-backlog)
            sockopts: (sockopts default-listen-sockopts))
  -> ServerSocket
  address  := address
  backlog  := fixnum
  sockopts := list of fixnum.

Binds and listens to a local interface address and returns a ServerSocket.

Notes:

• the address is not resolved; you can use inaddr-any4 or inaddr-any6 as the host for binding to any interface with IPv4 and IPv6 respectively.
• backlog is the backlog of the listener; defaults to 10.
• sockopts is a list of SOL_SOCKET socket options to enable. Default is [SO_REUSEADDR].

# unix-listen

(unix-listen path
             backlog: (backlog default-backlog)
             sockopts: (sockopts default-listen-sockopts))
  -> ServerSocket
  path     := string
  backlog  := fixnum
  sockopts := list of fixnum.

Binds and listens to a local path and returns a ServerSocket.

# ServerSocket-accept

(ServerSocket-accept socket) -> StreamSocket
  socket := ServerSocket

Accepts an incoming connection from a server socket and returns the connected stream socket.

# Datagram Sockets

Datagram sockets abstract packet oriented socket IO:

(interface (DatagramSocket Socket)
  (recvfrom peer u8v (start 0) (end (u8vector-length u8v)) (flags 0))
  (sendto peer u8v (start 0) (end (u8vector-length u8v)) (flags 0))
  (connect peer)
  (recv u8v (start 0) (end (u8vector-length u8v)) (flags 0))
  (send u8v (start 0) (end (u8vector-length u8v)) (flags 0)))

The following methods create and operate on datagram sockets:

# udp-socket

(udp-socket (address #f)) -> DatagramSocket
  address := address or #f

Creates a UDP socket; if the address is not #f then it must be a local Internet address where the socket is bound.

# udp-multicast-socket

(udp-multicast-socket group-ip-address local-address (ifindex 0)) -> DatagramSocket
  group-ip-address := IP address; u8vector or string
  local-address    := address
  ifindex          := fixnum

Creates a multicast UDP socket.

# DatagramSocket-recvfrom

(DatagramSocket-recvfrom socket peer output (start 0) (end (u8vector-length output)) (flags 0))
  -> fixnum
  socket := DatagramSocket
  peer   := box
  output := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length output)
  flags  := fixnum

Receives a datagram from the socket, placing the peer's address in the supplied box. Returns the number of bytes read.

# DatagramSocket-sendto

(DatagramSocket-sendto socket peer input (start 0) (end (u8vector-length input)) (flags 0))
  -> fixnum
  socket := DatagramSocket
  peer   := address
  input := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length input)
  flags  := fixnum

Sends a datagram to a peer. Returns the number of bytes written.

# DatagramSocket-connect

(DatgramSocket-connect socket peer)

Connects a datagram socket to a peer.

# DatagramSocket-recv

(DatagramSocket-recv socket output (start 0) (end (u8vector-length output)) (flags 0))
  -> fixnum
  socket := DatagramSocket
  output := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length output)
  flags  := fixnum

Receives a datagram from the socket, which must have been previously connected. Returns the number of bytes read.

# DatagramSocket-send

(DatagramSocket-send socket input (start 0) (end (u8vector-length input)) (flags 0))
  -> fixnum
  socket := DatagramSocket
  input := u8vector
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (u8vector-length input)
  flags  := fixnum

Sends a datagram to the connected peer. Returns the number of bytes written.

# Addresses and default socket options

• Internet addresses are normalized as pairs, consing the host with the port; see the :std/net/address module.
• Unix addresses are just strings, representing file system paths.

The following are the default sockopts applied to sockets:

• stream sockets set TCP_NODELAY.
• server sockets set SO_REUSEADDR.
• datagram sockets that are bound set SO_REUSEADDR.

# Buffered IO

The BufferedReader and BufferedWriter interfaces provide buffered IO facilities. Buffers can be attached to any implementation of Reader and Writer.

# BufferedReader

The BufferedReader interface is defined as follows:

(interface (BufferedReader Reader)
  (read-u8)
  (peek-u8)
  (put-back previous-input)
  (skip count)
  (delimit limit)
  (reset! reader))

The following procedures create and apply to BufferedReader instances.

# open-buffered-reader

(open-buffered-reader reader (buffer-or-size default-buffer-size)) -> BufferedReader
  reader := Reader or u8vector
  buffer-or-size := fixnum or u8vector

Creates a BufferedReader using reader as the underlying source. If the reader argument is a u8vector then the new buffered reader use it as a source.

The default buffer size is 32KB.

# BufferedReader-peek-u8

(BufferedReader-peek-u8 buf) -> u8 or #!eof
  buf := BufferedReader

Peeks the next byt from the buffer, filling it if it is empty. Returns #!eof if the end of input is reached.

# BufferedReader-read-u8

(BufferedReader-read-u8 buf) -> u8 or #!eof
  buf := BufferedReader

Reads a byte from the buffer. Returns #!eof if the end of input is reached.

# BufferedReader-read-u8!

(BufferedReader-read-u8! buf) -> u8
  buf := BufferedReader

Like BufferedReader-read-u8, but raises an error if the end of input is reached.

# BufferedReader-read-u16

(BufferedReader-read-u16 buf) -> integer
  buf := BufferedReader

Reads an usigned 16 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-s16

(BufferedReader-read-s16 buf) -> integer
  buf := BufferedReader

Reads a signed 16 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-u32

(BufferedReader-read-u32 buf) -> integer
  buf := BufferedReader

Reads an usigned 32 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-s32

(BufferedReader-read-s32 buf) -> integer
  buf := BufferedReader

Reads a signed 32 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-u64

(BufferedReader-read-u64 buf) -> integer
  buf := BufferedReader

Reads an unsigned 64 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-s64

(BufferedReader-read-s64 buf) -> integer
  buf := BufferedReader

Reads signed 64 bit integer, encoded in network byte order. Raises an error if the end of input is reached.

# BufferedReader-read-varuint

(BufferedReader-read-varuint buf (max-bits 64)) -> integer
  buf      := BufferedReader
  max-bits := fixnum or #f

Reads an unsigned integer, with variadic encoding and a maximum integer length of max-bits if specified. Raises an error if the end of input is reached.

# BufferedReader-read-varint

(BufferedReader-read-varint buf (max-bits 64)) -> integer
  buf      := BufferedReader
  max-bits := fixnum or #f

Reads a signed integer, with variadic encoding and a maximum integer length of max-bits Raises an error if the end of input is reached.

# BufferedReader-read-char

(BufferedReader-read-char buf) -> char or #!eof
  buf := BufferedReader

Reads a utf8-encoded character. Returns #!eof if the endo if input is reached before reading the first byte. Raises an error if the end of input is reached prematurely for multibyte encoded characters. Returns the utf8 replacement character and only reads a single byte if a multibyte character cannot be decoded correctly.

# BufferedReader-read-char!

(BufferedReader-read-char! buf) -> char
  buf := BufferedReader

Like BufferedReader-read-char, but raises an error if the end of input is reached before reading the first byte.

# BufferedReader-read-string

(BufferedReader-read-string buf reader str (start 0) (end (string-length str)) (need 0))
  -> fixnum
  buf    := BufferedReader
  str    := string
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (string-length input)
  need   := fixnum

Reads a string from the buffer; semantics of the start, end and need arguments are the same as in Reader-read, but applying to number of characters. Returns the number of characters read. If need > 0 and fewer than need characters are read, an error is raised.

# BufferedReader-read-line

(BufferedReader-read-line buf (sep #\newline) (include-sep? #f) (max-chars #f)) -> string
  buf          := BufferedReader
  sep          := char or list of chars
  include-sep? := bool
  max-chars    := fixnum or #f

Reads a line, separated by sep and up to max-chars of length. The separator is either a single character or a list of characters. If include-sep? is true, then the separator is include in the stream. If the separator is not encountered within max-chars, then an error is raised.

# BufferedReader-read-delimited

(BufferedReader-read-delimited buf read-value)
  buf := BufferedReader
  read-value := lambda (BufferedReader) -> any

Reads a varint prefix length delimited value, with read-value reading the body.

# BufferedReader-read-delimited-u8vector

(BufferedReader-read-delimited-u8vector buf) -> u8vector
  buf := BufferedReader

Reads a varint prefix length delimited u8vector.

# BufferedReader-read-delimited-string

(BufferedReader-read-delimited-string buf) -> string
  buf := BufferedReader

Reads a varint prefix length delimited string.

# BufferedReader-put-back

(BufferedReader-put-back buf previous-input)
  buf := BufferedReader
  previous-input := u8 or list of u8

Puts back one or more previously read bytes.

Notes:

• when putting back multiple bytes, the order is the natural one: oldest first.
• the method is guaranteed to succeed, regardless of how many bytes you are putting back; the buffer may grow as needed to accommodate the putback.
• the bytes put back do not have to be the same as bytes previously read from the input stream. Thus the method allows you to inject bytes into the input stream, which may be useful for parsers.

# BufferedReader-skip

(BufferedReader-skip buf count)
  buf   := BufferedReader
  count := fixnum

Skips the next count bytes of input. If the end of input is encountered before count bytes are skipped, an error is raised.

# BufferedReader-delimit

(BufferedReader-delimit buf limit) -> BufferedReader
  buf   := BufferedReader
  limit := fixnum

returns a new BufferedReader, sharing the same buffer, that can read up to limit bytes. Once the limit is reached, the new buffer signals the end of input.

Note: there is no double buffering; reading from the delimited reader advances the input on the underlying BufferedWriter.

# BufferedReader-reset!

(BufferedReader-reset! buf reader)
  buf    := BufferedReader
  reader := Reader

Resets the underlying reader and buffer state, allowing reuse of buffers from a cache.

# BufferedWriter

The BufferedWriter interface is defined as follows:

(interface (BufferedWriter Writer)
  (write-u8 u8)
  (flush)
  (reset! output))

The following procedures create and apply to BufferedWriter.

# open-buffered-writer

(open-buffered-writer writer (buffer-or-size default-buffer-size)) -> BufferedWriter
  writer         := Writer or #f
  buffer-or-size := fixnum or u8vector

Creates a BufferedWriter using writer as the underlying sink. If writer is #f then a new buffered writer is created that collects bytes that can be retrieved with get-buffer-output-u8vector or get-buffered-output-chunks.

The default buffer size is 32KB.

# get-buffer-output-u8vector

(get-buffer-output-u8vector wr) -> u8vector
  wr := BufferedWriter

Retrieves the output from a BufferedWriter created with open-buffered-writer.

# get-buffer-output-chunks

(get-buffer-output-chunks wr) -> list of u8vector
  wr := BufferedWriter

Retrieves the output chunks from a BufferedWriter created with open-u8vector-buffered-writer.

# BufferedWriter-write-u8

(BufferedWriter-write-u8 buf u8) -> fixnum
  buf := BufferedWriter
  u8  := byte

Writes a byte to the buffer. Returns the number of bytes written.

# BufferedWriter-write-u16

(BufferedWriter-write-u16 buf u16) -> fixnum
  buf := BufferedWriter
  u16 := integer

Writes an usigned 16 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-s16

(BufferedWriter-write-s16 buf s16) -> fixnum
  buf := BufferedWriter
  s16 := integer

Writes a signed 16 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-u32

(BufferedWriter-write-u32 buf u32) -> fixnum
  buf := BufferedWriter
  u32 := integer

Writes an usigned 32 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-s32

(BufferedWriter-write-s32 buf s32) -> fixnum
  buf := BufferedWriter
  s32 := integer

Writes a signed 32 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-u64

(BufferedWriter-write-u64 buf u64) -> fixnum
  buf := BufferedWriter
  u64 := integer

Writes an unsigned 64 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-s64

(BufferedWriter-write-s64 buf s64) -> fixnum
  buf := BufferedWriter
  s64 := integer

Reads signed 64 bit integer, encoded in network byte order. Returns the number of bytes written.

# BufferedWriter-write-varuint

(BufferedWriter-write-varuint buf uint) -> fixnum
  buf  := BufferedWriter
  uint := integer

Writes an unsigned integer with variadic encoding. Returns the number of bytes written.

# BufferedWriter-write-varint

(BufferedWriter-write-varint buf int) -> fixnum
  buf := BufferedWriter
  int := integer

Writes signed integer with variadic encoding. Returns the number of bytes written.

# BufferedWriter-write-char

(BufferedWriter-write-char buf char) -> fixnum
  buf  := BufferedWriter
  char := character

Writes a character with utf8 encoding. Returns the number of bytes written.

# BufferedWriter-write-string

(BufferdWriter-write-string buf str (start 0) (end (string-length str))) -> fixnum
  buf := BufferedWriter
  str := string
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (string-length input)

Writes a string with utf8 encoding. Returns the number of bytes written.

# BufferedWriter-write-line

(BufferedWriter-write-line buf str (sep #\newline))
  buf := BufferedWriter
  str := string
  sep := char or list of chars

Writes a string, followed by a separator. Returns the number of bytes written

# BufferedWriter-write-delimited

(BufferedWriter-write-delimited buf write-value (buffer-or-size default-small-buffer-size))
  buf := BufferedWriter
  write-value := lambda (BufferedWriter) -> fixnum

Writes a varint prefix length delimited value, with write-value writing the body.

# BufferedWriter-write-delimited-u8vector

(BufferedWriter-read-delimited-u8vector buf bytes) -> fixnum
  buf := BufferedReader
  bytes := u8veftor

Writes a varint prefix length delimited u8vector.

# BufferedWriter-write-delimited-string

(BufferedWriter-write-delimited-string buf str) -> fixnum
  buf := BufferedWriter
  str := string

Writes a varint prefix length delimited string.

# BufferedWriter-flush

(BufferedWriter-flush buf)
  buf := BufferedWriter

Drains the buffer into the underlying sync.

# BufferedWriter-reset!

(BufferedWriter-reset! buf reader)
  buf    := BufferedWriter
  reader := Reader

Resets the underlying writer and buffer state, allowing reuse of buffers from a cache.

# Textual IO

The StringReader interface provides the basic input facilities, while the StringWriter interface provides the basic output facilities.

# StringReader

The StringReader interface represents textual input sources; the interface is defined as follows:

(interface (StringReader Closer)
  (read-string str (start 0) (end (string-length str)) (need 0)))

There is one constructor two methods in the StringReader interface:

# open-string-reader

(open-string-reader reader
                    (buffer-or-size default-buffer-size)
                    encoding: (codec 'UTF-8))
-> StringReader

 reader := Reader or BufferedReader

Creates a StringReader from an underlying binary Reader or BufferedReader, using the specified encoding.

The only encoding currently supported is UTF-8, but more codecs will be added in the future.

# StringReader-read

(StringReader-read reader output (start 0) (end (string-length output)) (need 0)) -> fixnum
  reader := StringReader implementation
  output := string
  start  := fixnum; 0 <= start < end
  end    := fixnum; start < end <= (string-length output)
  need   := fixnum; 0 <= need <= end-start

Reads from a reader into the output buffer, with the write range being [start, end). Returns the number of characters read, with 0 denoting the end of input.

If need > 0, then it specifies the number of bytes needed; if less than need characters are read before encountering the end of input, an error is raised.

# StringWriter

The StringWriter interface represents textual output sinks; the interface is defined as follows:

(interface (StringWriter Closer)
  (write-string input (start 0) (end (string-length input))))

There is one constructor two methods in the Writer interface:

# open-string-writer

(open-string-writer writer
                    (buffer-or-size default-buffer-size)
                    encoding: (codec 'UTF-8))
-> StringWriter

 writer := Writer or BufferedWriter

Creates a StringWriter for an underlying binary Writer or BufferedWriter, using the specified encoding.

The only encoding currently supported is UTF-8, but more codecs will be added in the future.

# StringWriter-write-string

(StringWriter-write-string writer input (start 0) (end (string-length output)) (need 0)) -> fixnum
  writer := StringWriter implementation
  input  := string
  start  := fixnum; 0 <= start < end
  end    := fixnum;  start < end <= (string-length input)

Writes into a writer from the input buffer, with the read range being [start, end). Returns the number of characters written; if fewer characters are written than expected, an error` is raised.

# Buffered Textual IO

The BufferedStringReader and BufferedStringWriter interfaces provide buffered textual IO facilities. Buffers can be attached to any implementation of StringReader and StringWriter.

# BufferedStringReader

The BufferedStringReader interface is defined as follows:

(interface (BufferedReader Reader)
  (read-char)
  (peek-char)
  (put-back previous-input)
  (skip count)
  (delimit limit)
  (reset! reader))

The following procedures create and apply to BufferedStringReader instances.

# open-buffered-string-reader

(open-buffered-string-reader reader (buffer-or-size default-buffer-size)) -> BufferedStringReader
  reader := StringReader or string
  buffer-or-size := fixnum or string

Creates a BufferedStringReader using reader as the underlying source. If the reader argument is a string then the new buffered reader use it as a source.

The default buffer size is 32KB.

# BufferedStringReader-peek-char

(BufferedStringReader-peek-char buf) -> char or #!eof
  buf := BufferedStringReader

Peeks the next char from the buffer, filling it if it is empty. Returns #!eof if the end of input is reached.

# BufferedStringReader-read-char

(BufferedStringReader-read-char buf) -> char or #!eof
  buf := BufferedStringReader

Reads a char from the buffer. Returns #!eof if the end of input is reached.

# BufferedStringReader-read-line

(BufferedStringReader-read-line buf (sep #\newline) (include-sep? #f) (max-chars #f)) -> string
  buf          := BufferedStringReader
  sep          := char or list of chars
  include-sep? := bool
  max-chars    := fixnum or #f

Reads a line, separated by sep and up to max-chars of length. The separator is either a single character or a list of characters. If include-sep? is true, then the separator is include in the stream. If the separator is not encountered within max-chars, then an error is raised.

# BufferedStringReader-put-back

(BufferedStringReader-put-back buf previous-input)
  buf := BufferedStringReader
  previous-input := char or list of char

Puts back one or more previously read chars.

Notes:

• when putting back multiple chars, the order is the natural one: oldest first.
• the method is guaranteed to succeed, regardless of how many chars you are putting back; the buffer may grow as needed to accommodate the putback.
• the chars put back do not have to be the same as bytes previously read from the input stream. Thus the method allows you to inject characters into the input stream, which may be useful for parsers.

# BufferedStringReader-skip

(BufferedStringReader-skip buf count)
  buf   := BufferedStringReader
  count := fixnum

Skips the next count chars of input. If the end of input is encountered before count chars are skipped, an error is raised.

# BufferedStringReader-delimit

(BufferedStringReader-delimit buf limit) -> BufferedStringReader
  buf   := BufferedStringReader
  limit := fixnum

returns a new BufferedStringReader, sharing the same buffer, that can read up to limit chars. Once the limit is reached, the new buffer signals the end of input.

Note: there is no double buffering; reading from the delimited reader advances the input on the underlying BufferedStringReader.

# BufferedStringReader-reset!

(BufferedStringReader-reset! buf reader)
  buf    := BufferedStringReader
  reader := Reader

Resets the underlying reader and buffer state, allowing reuse of buffers from a cache.

# BufferedStringWriter

The BufferedStringWriter interface is defined as follows:

(interface (BufferedStringWriter Writer)
  (write-char char)
  (flush)
  (reset! output))

The following procedures create and apply to BufferedStringWriter.

# open-buffered-string-writer

(open-buffered-writer writer (buffer-or-size default-buffer-size)) -> BufferedStringWriter
  writer         := StringWriter or #f
  buffer-or-size := fixnum or string

Creates a BufferedStringWriter using writer as the underlying sink. If writer is #f then a new buffered writer is created that collects bytes that can be retrieved with get-buffer-output-string or get-buffered-output-string-chunks.

The default buffer size is 32KB.

# get-buffer-output-string

(get-buffer-output-string wr) -> string
  wr := BufferedStringWriter

Retrieves the output from a BufferedStringWriter created with open-buffered-string-writer.

# get-buffer-output-string-chunks

(get-buffer-output-chunks wr) -> list of string
  wr := BufferedStringWriter

Retrieves the output chunks from a BufferedStringWriter created with open-buffered-string-writer.

# BufferedStringWriter-write-char

(BufferedStringWriter-write-char buf char) -> fixnum
  buf  := BufferedStringWriter
  char := char

Writes a char to the buffer.

# BufferedStringWriter-write-line

(BufferedStringWriter-write-line buf str (sep #\newline))
  buf := BufferedStringWriter
  str := string
  sep := char or list of chars

Writes a string, followed by a separator. Returns the number of bytes written

# BufferedStringWriter-flush

(BufferedStringWriter-flush buf)
  buf := BufferedStringWriter

Drains the buffer into the underlying sync.

# BufferedStringWriter-reset!

(BufferedStringWriter-reset! buf reader)
  buf    := BufferedStringWriter
  reader := Reader

Resets the underlying writer and buffer state, allowing reuse of buffers from a cache.

# Utilities

# delimited-reader

(delimted-reader reader limit) -> Reader
  reader := Reader
  limit  := fixnum

Creates a delimited reader that can read up to limit bytes from reader.

# delimited-string-reader

(delimted-string-reader reader limit) -> StringReader
  reader := StringReader
  limit  := fixnum

Creates a delimited string reader that can read up to limit chars from reader.

# io-copy!

(io-copy! reader writer (buffer-or-size default-buffer-size)) -> fixnum
  reader := Reader or StringReader
  writer := Writer or StringWriter, symmetric to reader
  buffer-or-size := #f, fixnum or buffer (u8vector or string)

Copies from a reader to a writer. Returns the number of bytes copied.

# A Note on thread-safety

In general you should use a Reader from a single thread. There is no mutex protection for the simple reason that if you are reading from multiple threads concurrently you are already shooting yourself in the foot because your input will be non-deterministic.

Similarly for writers, you should use a Writer from a single thread at a time.

For sockets, which are full duplex, you can read and write with two threads concurrently; it is also safe to close the socket from yet another thread.