com.ericsson.otp.erlang
Class OtpOutputStream

java.lang.Object
  java.io.OutputStream
      java.io.ByteArrayOutputStream
          com.ericsson.otp.erlang.OtpOutputStream

All Implemented Interfaces:

java.io.Closeable, java.io.Flushable

public class OtpOutputStream
extends java.io.ByteArrayOutputStream

Provides a stream for encoding Erlang terms to external format, for transmission or storage.

Note that this class is not synchronized, if you need synchronization you must provide it yourself.

Field Summary

static int	defaultIncrement The default increment used when growing the stream.
static int	defaultInitialSize The default initial size of the stream.

Fields inherited from class java.io.ByteArrayOutputStream

buf, count

Constructor Summary

OtpOutputStream()
Create a stream with the default initial size (2048 bytes).

OtpOutputStream(int size)
Create a stream with the specified initial size.

OtpOutputStream(OtpErlangObject o)
Create a stream containing the encoded version of the given Erlang term.

Method Summary

int	count() Deprecated. As of Jinterface 1.4, replaced by super.size().
int	getPos() Get the current position in the stream.
int	length() Get the current capacity of the stream.
void	poke4BE(int offset, long n) Write the low four bytes of a value to the stream in bif endian order, at the specified position.
void	write_any(OtpErlangObject o) Write an arbitrary Erlang term to the stream.
void	write_atom(java.lang.String atom) Write a string to the stream as an Erlang atom.
void	write_big_integer(java.math.BigInteger v)
void	write_binary(byte[] bin) Write an array of bytes to the stream as an Erlang binary.
void	write_bitstr(byte[] bin, int pad_bits) Write an array of bytes to the stream as an Erlang bitstr.
void	write_boolean(boolean b) Write a boolean value to the stream as the Erlang atom 'true' or 'false'.
void	write_byte(byte b) Write a single byte to the stream as an Erlang integer.
void	write_char(char c) Write a character to the stream as an Erlang integer.
void	write_compressed(OtpErlangObject o) Write an arbitrary Erlang term to the stream in compressed format.
void	write_double(double d) Write a double value to the stream.
void	write_external_fun(java.lang.String module, java.lang.String function, int arity)
void	write_float(float f) Write a float value to the stream.
void	write_fun(OtpErlangPid pid, java.lang.String module, long old_index, int arity, byte[] md5, long index, long uniq, OtpErlangObject[] freeVars)
void	write_int(int i) Write an integer to the stream.
void	write_list_head(int arity) Write an Erlang list header to the stream.
void	write_long(long l) Write a long to the stream.
void	write_nil() Write an empty Erlang list to the stream.
void	write_pid(java.lang.String node, int id, int serial, int creation) Write an Erlang PID to the stream.
void	write_port(java.lang.String node, int id, int creation) Write an Erlang port to the stream.
void	write_ref(java.lang.String node, int[] ids, int creation) Write a new style (R6 and later) Erlang ref to the stream.
void	write_ref(java.lang.String node, int id, int creation) Write an old style Erlang ref to the stream.
void	write_short(short s) Write a short to the stream.
void	write_string(java.lang.String s) Write a string to the stream.
void	write_tuple_head(int arity) Write an Erlang tuple header to the stream.
void	write_uint(int ui) Write a positive integer to the stream.
void	write_ulong(long ul) Write a positive long to the stream.
void	write_ushort(short us) Write a positive short to the stream.
void	write(byte b) Write one byte to the stream.
void	write(byte[] buf) Write an array of bytes to the stream.
void	write1(long n) Write the low byte of a value to the stream.
void	write2BE(long n) Write the low two bytes of a value to the stream in big endian order.
void	write2LE(long n) Write the low two bytes of a value to the stream in little endian order.
void	write4BE(long n) Write the low four bytes of a value to the stream in big endian order.
void	write4LE(long n) Write the low four bytes of a value to the stream in little endian order.
void	write8BE(long n) Write the low eight (all) bytes of a value to the stream in big endian order.
void	write8LE(long n) Write the low eight bytes of a value to the stream in little endian order.
void	writeLE(long n, int b) Write any number of bytes in little endian format.
void	writeN(byte[] bytes) Write an array of bytes to the stream.

Methods inherited from class java.io.ByteArrayOutputStream

close, reset, size, toByteArray, toString, toString, toString, write, write, writeTo

Methods inherited from class java.io.OutputStream

flush

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Field Detail

defaultInitialSize

public static final int defaultInitialSize

The default initial size of the stream. *

See Also:

Constant Field Values

defaultIncrement

public static final int defaultIncrement

The default increment used when growing the stream. *

See Also:

Constant Field Values

Constructor Detail

OtpOutputStream

public OtpOutputStream()

Create a stream with the default initial size (2048 bytes).

OtpOutputStream

public OtpOutputStream(int size)

Create a stream with the specified initial size.

OtpOutputStream

public OtpOutputStream(OtpErlangObject o)

Create a stream containing the encoded version of the given Erlang term.

Method Detail

getPos

public int getPos()

Get the current position in the stream.

Returns:

the current position in the stream.

write

public void write(byte b)

Write one byte to the stream.

Parameters:

b - the byte to write.

write

public void write(byte[] buf)

Write an array of bytes to the stream.

Overrides:

write in class java.io.OutputStream

Parameters:

buf - the array of bytes to write.

write1

public void write1(long n)

Write the low byte of a value to the stream.

Parameters:

n - the value to use.

writeN

public void writeN(byte[] bytes)

Write an array of bytes to the stream.

Parameters:

buf - the array of bytes to write.

length

public int length()

Get the current capacity of the stream. As bytes are added the capacity of the stream is increased automatically, however this method returns the current size.

Returns:

the size of the internal buffer used by the stream.

count

@Deprecated
public int count()

Deprecated. As of Jinterface 1.4, replaced by super.size().

Get the number of bytes in the stream.

Returns:

the number of bytes in the stream.

See Also:

ByteArrayOutputStream.size()

write2BE

public void write2BE(long n)

Write the low two bytes of a value to the stream in big endian order.

Parameters:

n - the value to use.

write4BE

public void write4BE(long n)

Write the low four bytes of a value to the stream in big endian order.

Parameters:

n - the value to use.

write8BE

public void write8BE(long n)

Write the low eight (all) bytes of a value to the stream in big endian order.

Parameters:

n - the value to use.

writeLE

public void writeLE(long n,
                    int b)

Write any number of bytes in little endian format.

Parameters:

n - the value to use.

b - the number of bytes to write from the little end.

write2LE

public void write2LE(long n)

Write the low two bytes of a value to the stream in little endian order.

Parameters:

n - the value to use.

write4LE

public void write4LE(long n)

Write the low four bytes of a value to the stream in little endian order.

Parameters:

n - the value to use.

write8LE

public void write8LE(long n)

Write the low eight bytes of a value to the stream in little endian order.

Parameters:

n - the value to use.

poke4BE

public void poke4BE(int offset,
                    long n)

Write the low four bytes of a value to the stream in bif endian order, at the specified position. If the position specified is beyond the end of the stream, this method will have no effect. Normally this method should be used in conjunction with size(), when is is necessary to insert data into the stream before it is known what the actual value should be. For example:

 int pos = s.size();
    s.write4BE(0); // make space for length data,
                   // but final value is not yet known
     [ ...more write statements...]
    // later... when we know the length value
    s.poke4BE(pos, length);
 

Parameters:

offset - the position in the stream.

n - the value to use.

write_atom

public void write_atom(java.lang.String atom)

Write a string to the stream as an Erlang atom.

Parameters:

atom - the string to write.

write_binary

public void write_binary(byte[] bin)

Write an array of bytes to the stream as an Erlang binary.

Parameters:

bin - the array of bytes to write.

write_bitstr

public void write_bitstr(byte[] bin,
                         int pad_bits)

Write an array of bytes to the stream as an Erlang bitstr.

Parameters:

bin - the array of bytes to write.

pad_bits - the number of zero pad bits at the low end of the last byte

write_boolean

public void write_boolean(boolean b)

Write a boolean value to the stream as the Erlang atom 'true' or 'false'.

Parameters:

b - the boolean value to write.

write_byte

public void write_byte(byte b)

Write a single byte to the stream as an Erlang integer. The byte is really an IDL 'octet', that is, unsigned.

Parameters:

b - the byte to use.

write_char

public void write_char(char c)

Write a character to the stream as an Erlang integer. The character may be a 16 bit character, kind of IDL 'wchar'. It is up to the Erlang side to take care of souch, if they should be used.

Parameters:

c - the character to use.

write_double

public void write_double(double d)

Write a double value to the stream.

Parameters:

d - the double to use.

write_float

public void write_float(float f)

Write a float value to the stream.

Parameters:

f - the float to use.

write_big_integer

public void write_big_integer(java.math.BigInteger v)

write_long

public void write_long(long l)

Write a long to the stream.

Parameters:

l - the long to use.

write_ulong

public void write_ulong(long ul)

Write a positive long to the stream. The long is interpreted as a two's complement unsigned long even if it is negative.

Parameters:

ul - the long to use.

write_int

public void write_int(int i)

Write an integer to the stream.

Parameters:

i - the integer to use.

write_uint

public void write_uint(int ui)

Write a positive integer to the stream. The integer is interpreted as a two's complement unsigned integer even if it is negative.

Parameters:

ui - the integer to use.

write_short

public void write_short(short s)

Write a short to the stream.

Parameters:

s - the short to use.

write_ushort

public void write_ushort(short us)

Write a positive short to the stream. The short is interpreted as a two's complement unsigned short even if it is negative.

Parameters:

s - the short to use.

write_list_head

public void write_list_head(int arity)

Write an Erlang list header to the stream. After calling this method, you must write 'arity' elements to the stream followed by nil, or it will not be possible to decode it later.

Parameters:

arity - the number of elements in the list.

write_nil

public void write_nil()

Write an empty Erlang list to the stream.

write_tuple_head

public void write_tuple_head(int arity)

Write an Erlang tuple header to the stream. After calling this method, you must write 'arity' elements to the stream or it will not be possible to decode it later.

Parameters:

arity - the number of elements in the tuple.

write_pid

public void write_pid(java.lang.String node,
                      int id,
                      int serial,
                      int creation)

Write an Erlang PID to the stream.

Parameters:

node - the nodename.

id - an arbitrary number. Only the low order 15 bits will be used.

serial - another arbitrary number. Only the low order 13 bits will be used.

creation - yet another arbitrary number. Only the low order 2 bits will be used.

write_port

public void write_port(java.lang.String node,
                       int id,
                       int creation)

Write an Erlang port to the stream.

Parameters:

node - the nodename.

id - an arbitrary number. Only the low order 28 bits will be used.

creation - another arbitrary number. Only the low order 2 bits will be used.

write_ref

public void write_ref(java.lang.String node,
                      int id,
                      int creation)

Write an old style Erlang ref to the stream.

Parameters:

node - the nodename.

id - an arbitrary number. Only the low order 18 bits will be used.

creation - another arbitrary number. Only the low order 2 bits will be used.

write_ref

public void write_ref(java.lang.String node,
                      int[] ids,
                      int creation)

Write a new style (R6 and later) Erlang ref to the stream.

Parameters:

node - the nodename.

ids - an array of arbitrary numbers. Only the low order 18 bits of the first number will be used. If the array contains only one number, an old style ref will be written instead. At most three numbers will be read from the array.

creation - another arbitrary number. Only the low order 2 bits will be used.

write_string

public void write_string(java.lang.String s)

Write a string to the stream.

Parameters:

s - the string to write.

write_compressed

public void write_compressed(OtpErlangObject o)

Write an arbitrary Erlang term to the stream in compressed format.

Parameters:

o - the Erlang tem to write.

write_any

public void write_any(OtpErlangObject o)

Write an arbitrary Erlang term to the stream.

Parameters:

o - the Erlang term to write.

write_fun

public void write_fun(OtpErlangPid pid,
                      java.lang.String module,
                      long old_index,
                      int arity,
                      byte[] md5,
                      long index,
                      long uniq,
                      OtpErlangObject[] freeVars)

write_external_fun

public void write_external_fun(java.lang.String module,
                               java.lang.String function,
                               int arity)