The abstract input type.

The abstract output type, 'a is the accumulator data, it is returned when the close_out function is called.

This exception is raised when reading on an input with the read or nread functions while there is no available token to read.

This exception is raised when reading on a closed input.

This exception is raised when reading on a closed output.

Read a single char from an input or raise No_more_input if no input available.

nread i n reads a byte sequence of size up to n from an input. The function will raise No_more_input if no input is available. It will raise Invalid_argument if n < 0.

really_nread i n reads a byte sequence of exactly n characters from the input. Raises No_more_input if at least n characters are not available. Raises Invalid_argument if n < 0.

as nread, but reads a string.

as really_nread, but reads a string.

input i b p l reads up to l characters from the given input, storing them in buffer b, starting at character number p. It returns the actual number of characters read or raise No_more_input if no character can be read. It will raise Invalid_argument if p and l do not designate a valid subsequence of b.

really_input i b p l reads exactly l characters from the given input, storing them in the buffer b, starting at position p. For consistency with IO.input it returns l. Raises No_more_input if at l characters are not available. Raises Invalid_argument if p and l do not designate a valid subsequence of b.

Close the input. It can no longer be read from.

Write a single char to an output.

Write a byte sequence to an output.

Write a string to an output.

output o b p l writes up to l characters from byte sequence b, starting at offset p. It returns the number of characters written. It will raise Invalid_argument if p and l do not designate a valid subsequence of b.

really_output o b p l writes exactly l characters from byte sequence b onto the the output, starting with the character at offset p. For consistency with IO.output it returns l. Raises Invalid_argument if p and l do not designate a valid subsequence of b.

Flush an output.

Close the output and return its accumulator data. It can no longer be written.

Create an input that will read from a string.

Create an input that will read from a byte sequence.

Create an output that will write into a string in an efficient way. When closed, the output returns all the data written into it.

Create an output that will write into a byte sequence in an efficient way. When closed, the output returns all the data written into it.

Create an output that will write into a string in an efficient way. When closed, the output returns all the data written into it. Several strings are used in case the output size excess max_string_length

Create an input that will read from a channel.

Create an output that will write into a channel.

Create an input that will read from an enum.

Create an output that will write into an enum. The final enum is returned when the output is closed.

Fully create an input by giving all the needed functions.

Fully create an output by giving all the needed functions.

The scanf function works for any input.

The printf function works for any output.

read all the contents of the input until No_more_input is raised.

Create a pipe between an input and an ouput. Data written from the output can be read from the input.

Create an input that provide a count function of the number of Bytes.t read from it.

Create an output that provide a count function of the number of Bytes.t written through it.

You can safely transform any output to an unit output in a safe way by using this function.

Exception raised when a read or write operation cannot be completed.

Read an unsigned 8-bit integer.

Read an signed 8-bit integer.

Read an unsigned 16-bit word.

Read a signed 16-bit word.

Read a signed 32-bit integer. Raise Overflow if the read integer cannot be represented as an OCaml 31-bit integer.

Deprecated, same as read_i31

Read a signed 32-bit integer, represented as OCaml integer, wrapping around 31-bit int on 32-bit architecture

Read a signed 32-bit integer as an OCaml int32.

Read a signed 64-bit integer as an OCaml int64.

Read an IEEE single precision floating point value (32 bits).

Read an IEEE double precision floating point value (64 bits).

Read a null-terminated string.

Read a null-terminated byte sequence.

Read a LF or CRLF terminated string.

Write an unsigned 8-bit byte.

Write an unsigned 16-bit word.

Write a signed 16-bit word.

Write a signed 31-bit integer as 4 bytes.

Write a signed 32-bit integer.

Write an OCaml int32.

Write an OCaml int64.

Write an IEEE single precision floating point value (32 bits).

Write an IEEE double precision floating point value (64 bits).

Write a string and append an null character.

Write a byte sequence and append an null character.

Write a line and append a LF (it might be converted to CRLF on some systems depending on the underlying IO).

Same as operations above, but use big-endian encoding

Read bits from an input

Write bits to an output

Read up to 31 bits, raise Bits_error if n < 0 or n > 31

Write up to 31 bits represented as a value, raise Bits_error if nbits < 0 or nbits > 31 or the value representation excess nbits.

Flush remaining unwritten bits, adding up to 7 bits which values 0.

Drop up to 7 buffered bits and restart to next input character.