@GwtIncompatible public interface ByteArrayDataInput extends DataInput
DataInput
for reading from in-memory byte arrays; its methods offer
identical functionality but do not throw IOException
.
Warning: The caller is responsible for not attempting to read past the end of the
array. If any method encounters the end of the array prematurely, it throws
IllegalStateException
to signify programmer error. This behavior is a technical
violation of the supertype's contract, which specifies a checked exception.
Modifier and Type | Method and Description |
---|---|
boolean |
readBoolean()
Reads one input byte and returns
true if that byte is nonzero,
false if that byte is zero. |
byte |
readByte()
Reads and returns one input byte.
|
char |
readChar()
Reads two input bytes and returns a
char value. |
double |
readDouble()
Reads eight input bytes and returns
a
double value. |
float |
readFloat()
Reads four input bytes and returns
a
float value. |
void |
readFully(byte[] b)
Reads some bytes from an input
stream and stores them into the buffer
array
b . |
void |
readFully(byte[] b,
int off,
int len)
Reads
len
bytes from
an input stream. |
int |
readInt()
Reads four input bytes and returns an
int value. |
String |
readLine()
Reads the next line of text from the input stream.
|
long |
readLong()
Reads eight input bytes and returns
a
long value. |
short |
readShort()
Reads two input bytes and returns
a
short value. |
int |
readUnsignedByte()
Reads one input byte, zero-extends
it to type
int , and returns
the result, which is therefore in the range
0
through 255 . |
int |
readUnsignedShort()
Reads two input bytes and returns
an
int value in the range 0
through 65535 . |
String |
readUTF()
Reads in a string that has been encoded using a
modified UTF-8
format.
|
int |
skipBytes(int n)
Makes an attempt to skip over
n bytes
of data from the input
stream, discarding the skipped bytes. |
void readFully(byte[] b)
java.io.DataInput
b
. The number of bytes
read is equal
to the length of b
.
This method blocks until one of the following conditions occurs:
b.length
bytes of input data are available, in which
case a normal return is made.
EOFException
is thrown.
IOException
other
than EOFException
is thrown.
If b
is null
,
a NullPointerException
is thrown.
If b.length
is zero, then
no bytes are read. Otherwise, the first
byte read is stored into element b[0]
,
the next one into b[1]
, and
so on.
If an exception is thrown from
this method, then it may be that some but
not all bytes of b
have been
updated with data from the input stream.
void readFully(byte[] b, int off, int len)
java.io.DataInput
len
bytes from
an input stream.
This method blocks until one of the following conditions occurs:
len
bytes
of input data are available, in which case
a normal return is made.
EOFException
is thrown.
IOException
other
than EOFException
is thrown.
If b
is null
,
a NullPointerException
is thrown.
If off
is negative, or len
is negative, or off+len
is
greater than the length of the array b
,
then an IndexOutOfBoundsException
is thrown.
If len
is zero,
then no bytes are read. Otherwise, the first
byte read is stored into element b[off]
,
the next one into b[off+1]
,
and so on. The number of bytes read is,
at most, equal to len
.
int skipBytes(int n)
java.io.DataInput
n
bytes
of data from the input
stream, discarding the skipped bytes. However,
it may skip
over some smaller number of
bytes, possibly zero. This may result from
any of a
number of conditions; reaching
end of file before n
bytes
have been skipped is
only one possibility.
This method never throws an EOFException
.
The actual
number of bytes skipped is returned.boolean readBoolean()
java.io.DataInput
true
if that byte is nonzero,
false
if that byte is zero.
This method is suitable for reading
the byte written by the writeBoolean
method of interface DataOutput
.readBoolean
in interface DataInput
boolean
value read.byte readByte()
java.io.DataInput
-128
through 127
,
inclusive.
This method is suitable for
reading the byte written by the writeByte
method of interface DataOutput
.int readUnsignedByte()
java.io.DataInput
int
, and returns
the result, which is therefore in the range
0
through 255
.
This method is suitable for reading
the byte written by the writeByte
method of interface DataOutput
if the argument to writeByte
was intended to be a value in the range
0
through 255
.readUnsignedByte
in interface DataInput
short readShort()
java.io.DataInput
short
value. Let a
be the first byte read and b
be the second byte. The value
returned
is:
(short)((a << 8) | (b & 0xff))
This method
is suitable for reading the bytes written
by the writeShort
method of
interface DataOutput
.int readUnsignedShort()
java.io.DataInput
int
value in the range 0
through 65535
. Let a
be the first byte read and
b
be the second byte. The value returned is:
(((a & 0xff) << 8) | (b & 0xff))
This method is suitable for reading the bytes
written by the writeShort
method
of interface DataOutput
if
the argument to writeShort
was intended to be a value in the range
0
through 65535
.readUnsignedShort
in interface DataInput
char readChar()
java.io.DataInput
char
value.
Let a
be the first byte read and b
be the second byte. The value
returned is:
(char)((a << 8) | (b & 0xff))
This method
is suitable for reading bytes written by
the writeChar
method of interface
DataOutput
.int readInt()
java.io.DataInput
int
value. Let a-d
be the first through fourth bytes read. The value returned is:
(((a & 0xff) << 24) | ((b & 0xff) << 16) |
((c & 0xff) << 8) | (d & 0xff))
This method is suitable
for reading bytes written by the writeInt
method of interface DataOutput
.long readLong()
java.io.DataInput
long
value. Let a-h
be the first through eighth bytes read.
The value returned is:
(((long)(a & 0xff) << 56) |
((long)(b & 0xff) << 48) |
((long)(c & 0xff) << 40) |
((long)(d & 0xff) << 32) |
((long)(e & 0xff) << 24) |
((long)(f & 0xff) << 16) |
((long)(g & 0xff) << 8) |
((long)(h & 0xff)))
This method is suitable
for reading bytes written by the writeLong
method of interface DataOutput
.
float readFloat()
java.io.DataInput
float
value. It does this
by first constructing an int
value in exactly the manner
of the readInt
method, then converting this int
value to a float
in
exactly the manner of the method Float.intBitsToFloat
.
This method is suitable for reading
bytes written by the writeFloat
method of interface DataOutput
.double readDouble()
java.io.DataInput
double
value. It does this
by first constructing a long
value in exactly the manner
of the readLong
method, then converting this long
value to a double
in exactly
the manner of the method Double.longBitsToDouble
.
This method is suitable for reading
bytes written by the writeDouble
method of interface DataOutput
.readDouble
in interface DataInput
double
value read.String readLine()
java.io.DataInput
String
. Note
that because this
method processes bytes,
it does not support input of the full Unicode
character set.
If end of file is encountered
before even one byte can be read, then null
is returned. Otherwise, each byte that is
read is converted to type char
by zero-extension. If the character '\n'
is encountered, it is discarded and reading
ceases. If the character '\r'
is encountered, it is discarded and, if
the following byte converts to the
character '\n'
, then that is
discarded also; reading then ceases. If
end of file is encountered before either
of the characters '\n'
and
'\r'
is encountered, reading
ceases. Once reading has ceased, a String
is returned that contains all the characters
read and not discarded, taken in order.
Note that every character in this string
will have a value less than \u0100
,
that is, (char)256
.
String readUTF()
java.io.DataInput
readUTF
is that it reads a representation of a Unicode
character string encoded in modified
UTF-8 format; this string of characters
is then returned as a String
.
First, two bytes are read and used to
construct an unsigned 16-bit integer in
exactly the manner of the readUnsignedShort
method . This integer value is called the
UTF length and specifies the number
of additional bytes to be read. These bytes
are then converted to characters by considering
them in groups. The length of each group
is computed from the value of the first
byte of the group. The byte following a
group, if any, is the first byte of the
next group.
If the first byte of a group
matches the bit pattern 0xxxxxxx
(where x
means "may be 0
or 1
"), then the group consists
of just that byte. The byte is zero-extended
to form a character.
If the first byte
of a group matches the bit pattern 110xxxxx
,
then the group consists of that byte a
and a second byte b
. If there
is no byte b
(because byte
a
was the last of the bytes
to be read), or if byte b
does
not match the bit pattern 10xxxxxx
,
then a UTFDataFormatException
is thrown. Otherwise, the group is converted
to the character:
(char)(((a & 0x1F) << 6) | (b & 0x3F))
If the first byte of a group
matches the bit pattern 1110xxxx
,
then the group consists of that byte a
and two more bytes b
and c
.
If there is no byte c
(because
byte a
was one of the last
two of the bytes to be read), or either
byte b
or byte c
does not match the bit pattern 10xxxxxx
,
then a UTFDataFormatException
is thrown. Otherwise, the group is converted
to the character:
(char)(((a & 0x0F) << 12) | ((b & 0x3F) << 6) | (c & 0x3F))
If the first byte of a group matches the
pattern 1111xxxx
or the pattern
10xxxxxx
, then a UTFDataFormatException
is thrown.
If end of file is encountered
at any time during this entire process,
then an EOFException
is thrown.
After every group has been converted to
a character by this process, the characters
are gathered, in the same order in which
their corresponding groups were read from
the input stream, to form a String
,
which is returned.
The writeUTF
method of interface DataOutput
may be used to write data that is suitable
for reading by this method.
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