public abstract class ByteString extends Object implements Iterable<Byte>, Serializable
String
. Concatenation is
likewise supported without copying (long strings) by building a tree of
pieces in RopeByteString
.
Like String
, the contents of a ByteString
can never be
observed to change, not even in the presence of a data race or incorrect
API usage in the client code.
Modifier and Type | Class and Description |
---|---|
static interface |
ByteString.ByteIterator
This interface extends
Iterator<Byte> , so that we can return an
unboxed byte . |
static class |
ByteString.Output
Outputs to a
ByteString instance. |
Modifier and Type | Field and Description |
---|---|
static ByteString |
EMPTY
Empty
ByteString . |
Modifier and Type | Method and Description |
---|---|
abstract ByteBuffer |
asReadOnlyByteBuffer()
Constructs a read-only
java.nio.ByteBuffer whose content
is equal to the contents of this byte string. |
abstract List<ByteBuffer> |
asReadOnlyByteBufferList()
Constructs a list of read-only
java.nio.ByteBuffer objects
such that the concatenation of their contents is equal to the contents
of this byte string. |
abstract byte |
byteAt(int index)
Gets the byte at the given index.
|
ByteString |
concat(ByteString other)
Concatenate the given
ByteString to this one. |
static ByteString |
copyFrom(byte[] bytes)
Copies the given bytes into a
ByteString . |
static ByteString |
copyFrom(byte[] bytes,
int offset,
int size)
Copies the given bytes into a
ByteString . |
static ByteString |
copyFrom(ByteBuffer bytes)
Copies the remaining bytes from a
java.nio.ByteBuffer into
a ByteString . |
static ByteString |
copyFrom(ByteBuffer bytes,
int size)
Copies the next
size bytes from a java.nio.ByteBuffer into
a ByteString . |
static ByteString |
copyFrom(Iterable<ByteString> byteStrings)
Concatenates all byte strings in the iterable and returns the result.
|
static ByteString |
copyFrom(String text,
Charset charset)
Encodes
text into a sequence of bytes using the named charset
and returns the result as a ByteString . |
static ByteString |
copyFrom(String text,
String charsetName)
Encodes
text into a sequence of bytes using the named charset
and returns the result as a ByteString . |
static ByteString |
copyFromUtf8(String text)
Encodes
text into a sequence of UTF-8 bytes and returns the
result as a ByteString . |
void |
copyTo(byte[] target,
int offset)
Copies bytes into a buffer at the given offset.
|
void |
copyTo(byte[] target,
int sourceOffset,
int targetOffset,
int numberToCopy)
Copies bytes into a buffer.
|
abstract void |
copyTo(ByteBuffer target)
Copies bytes into a ByteBuffer.
|
protected abstract void |
copyToInternal(byte[] target,
int sourceOffset,
int targetOffset,
int numberToCopy)
Internal (package private) implementation of
copyTo(byte[],int,int,int) . |
boolean |
endsWith(ByteString suffix)
Tests if this bytestring ends with the specified suffix.
|
abstract boolean |
equals(Object o) |
protected abstract int |
getTreeDepth()
Return the depth of the tree representing this
ByteString , if any,
whose root is this node. |
abstract int |
hashCode()
Return a non-zero hashCode depending only on the sequence of bytes
in this ByteString.
|
protected abstract boolean |
isBalanced()
Return
true if this ByteString is literal (a leaf node) or a
flat-enough tree in the sense of RopeByteString . |
boolean |
isEmpty()
Returns
true if the size is 0 , false otherwise. |
abstract boolean |
isValidUtf8()
Tells whether this
ByteString represents a well-formed UTF-8
byte sequence, such that the original bytes can be converted to a
String object and then round tripped back to bytes without loss. |
abstract ByteString.ByteIterator |
iterator()
Return a
ByteString.ByteIterator over the bytes in the ByteString. |
abstract CodedInputStream |
newCodedInput()
Creates a
CodedInputStream which can be used to read the bytes. |
abstract InputStream |
newInput()
Creates an
InputStream which can be used to read the bytes. |
static ByteString.Output |
newOutput()
Creates a new
ByteString.Output . |
static ByteString.Output |
newOutput(int initialCapacity)
Creates a new
ByteString.Output with the given initial capacity. |
protected abstract int |
partialHash(int h,
int offset,
int length)
Compute the hash across the value bytes starting with the given hash, and
return the result.
|
protected abstract int |
partialIsValidUtf8(int state,
int offset,
int length)
Tells whether the given byte sequence is a well-formed, malformed, or
incomplete UTF-8 byte sequence.
|
protected abstract int |
peekCachedHashCode()
Return the cached hash code if available.
|
static ByteString |
readFrom(InputStream streamToDrain)
Completely reads the given stream's bytes into a
ByteString , blocking if necessary until all bytes are
read through to the end of the stream. |
static ByteString |
readFrom(InputStream streamToDrain,
int chunkSize)
Completely reads the given stream's bytes into a
ByteString , blocking if necessary until all bytes are
read through to the end of the stream. |
static ByteString |
readFrom(InputStream streamToDrain,
int minChunkSize,
int maxChunkSize) |
abstract int |
size()
Gets the number of bytes.
|
boolean |
startsWith(ByteString prefix)
Tests if this bytestring starts with the specified prefix.
|
ByteString |
substring(int beginIndex)
Return the substring from
beginIndex , inclusive, to the end of the
string. |
abstract ByteString |
substring(int beginIndex,
int endIndex)
Return the substring from
beginIndex , inclusive, to endIndex , exclusive. |
byte[] |
toByteArray()
Copies bytes to a
byte[] . |
String |
toString() |
String |
toString(Charset charset)
Constructs a new
String by decoding the bytes using the
specified charset. |
String |
toString(String charsetName)
Constructs a new
String by decoding the bytes using the
specified charset. |
protected abstract String |
toStringInternal(Charset charset)
Constructs a new
String by decoding the bytes using the
specified charset. |
String |
toStringUtf8()
Constructs a new
String by decoding the bytes as UTF-8. |
abstract void |
writeTo(OutputStream out)
Writes the complete contents of this byte string to
the specified output stream argument.
|
public static final ByteString EMPTY
ByteString
.public abstract byte byteAt(int index)
ByteString.ByteIterator
returned by iterator()
, and call substring(int, int)
first if necessary.index
- index of byteArrayIndexOutOfBoundsException
- index
is < 0 or >= sizepublic abstract ByteString.ByteIterator iterator()
ByteString.ByteIterator
over the bytes in the ByteString.
To avoid auto-boxing, you may get the iterator manually and call
ByteString.ByteIterator.nextByte()
.public abstract int size()
public boolean isEmpty()
true
if the size is 0
, false
otherwise.public ByteString substring(int beginIndex)
beginIndex
, inclusive, to the end of the
string.beginIndex
- start at this indexIndexOutOfBoundsException
- if beginIndex < 0
or
beginIndex > size()
.public abstract ByteString substring(int beginIndex, int endIndex)
beginIndex
, inclusive, to endIndex
, exclusive.beginIndex
- start at this indexendIndex
- the last character is the one before this indexIndexOutOfBoundsException
- if beginIndex < 0
,
endIndex > size()
, or beginIndex > endIndex
.public boolean startsWith(ByteString prefix)
String.startsWith(String)
prefix
- the prefix.true
if the byte sequence represented by the
argument is a prefix of the byte sequence represented by
this string; false
otherwise.public boolean endsWith(ByteString suffix)
String.endsWith(String)
suffix
- the suffix.true
if the byte sequence represented by the
argument is a suffix of the byte sequence represented by
this string; false
otherwise.public static ByteString copyFrom(byte[] bytes, int offset, int size)
ByteString
.bytes
- source arrayoffset
- offset in source arraysize
- number of bytes to copyByteString
public static ByteString copyFrom(byte[] bytes)
ByteString
.bytes
- to copyByteString
public static ByteString copyFrom(ByteBuffer bytes, int size)
size
bytes from a java.nio.ByteBuffer
into
a ByteString
.bytes
- source buffersize
- number of bytes to copyByteString
public static ByteString copyFrom(ByteBuffer bytes)
java.nio.ByteBuffer
into
a ByteString
.bytes
- sourceBufferByteString
public static ByteString copyFrom(String text, String charsetName) throws UnsupportedEncodingException
text
into a sequence of bytes using the named charset
and returns the result as a ByteString
.text
- source stringcharsetName
- encoding to useByteString
UnsupportedEncodingException
- if the encoding isn't foundpublic static ByteString copyFrom(String text, Charset charset)
text
into a sequence of bytes using the named charset
and returns the result as a ByteString
.text
- source stringcharset
- encode using this charsetByteString
public static ByteString copyFromUtf8(String text)
text
into a sequence of UTF-8 bytes and returns the
result as a ByteString
.text
- source stringByteString
public static ByteString readFrom(InputStream streamToDrain) throws IOException
ByteString
, blocking if necessary until all bytes are
read through to the end of the stream.
Performance notes: The returned ByteString
is an
immutable tree of byte arrays ("chunks") of the stream data. The
first chunk is small, with subsequent chunks each being double
the size, up to 8K. If the caller knows the precise length of
the stream and wishes to avoid all unnecessary copies and
allocations, consider using the two-argument version of this
method, below.streamToDrain
- The source stream, which is read completely
but not closed.ByteString
which is made up of chunks of
various sizes, depending on the behavior of the underlying
stream.IOException
- IOException is thrown if there is a problem
reading the underlying stream.public static ByteString readFrom(InputStream streamToDrain, int chunkSize) throws IOException
ByteString
, blocking if necessary until all bytes are
read through to the end of the stream.
Performance notes: The returned ByteString
is an
immutable tree of byte arrays ("chunks") of the stream data. The
chunkSize parameter sets the size of these byte arrays. In
particular, if the chunkSize is precisely the same as the length
of the stream, unnecessary allocations and copies will be
avoided. Otherwise, the chunks will be of the given size, except
for the last chunk, which will be resized (via a reallocation and
copy) to contain the remainder of the stream.streamToDrain
- The source stream, which is read completely
but not closed.chunkSize
- The size of the chunks in which to read the
stream.ByteString
which is made up of chunks of
the given size.IOException
- IOException is thrown if there is a problem
reading the underlying stream.public static ByteString readFrom(InputStream streamToDrain, int minChunkSize, int maxChunkSize) throws IOException
IOException
public ByteString concat(ByteString other)
ByteString
to this one. Short concatenations,
of total size smaller than CONCATENATE_BY_COPY_SIZE
, are
produced by copying the underlying bytes (as per Rope.java,
BAP95 . In general, the concatenate involves no copying.other
- string to concatenateByteString
instancepublic static ByteString copyFrom(Iterable<ByteString> byteStrings)
The returned ByteString
is not necessarily a unique object.
If the list is empty, the returned object is the singleton empty
ByteString
. If the list has only one element, that
ByteString
will be returned without copying.
byteStrings
- strings to be concatenatedByteString
public void copyTo(byte[] target, int offset)
target
- buffer to copy intooffset
- in the target bufferIndexOutOfBoundsException
- if the offset is negative or too largepublic void copyTo(byte[] target, int sourceOffset, int targetOffset, int numberToCopy)
target
- buffer to copy intosourceOffset
- offset within these bytestargetOffset
- offset within the target buffernumberToCopy
- number of bytes to copyIndexOutOfBoundsException
- if an offset or size is negative or too
largeprotected abstract void copyToInternal(byte[] target, int sourceOffset, int targetOffset, int numberToCopy)
copyTo(byte[],int,int,int)
.
It assumes that all error checking has already been performed and that
numberToCopy > 0
.public abstract void copyTo(ByteBuffer target)
target
- ByteBuffer to copy into.ReadOnlyBufferException
- if the target
is read-onlyBufferOverflowException
- if the target
's
remaining() space is not large enough to hold the data.public byte[] toByteArray()
byte[]
.public abstract void writeTo(OutputStream out) throws IOException
out
- the output stream to which to write the data.IOException
- if an I/O error occurs.public abstract ByteBuffer asReadOnlyByteBuffer()
java.nio.ByteBuffer
whose content
is equal to the contents of this byte string.
The result uses the same backing array as the byte string, if possible.public abstract List<ByteBuffer> asReadOnlyByteBufferList()
java.nio.ByteBuffer
objects
such that the concatenation of their contents is equal to the contents
of this byte string. The result uses the same backing arrays as the
byte string.
By returning a list, implementations of this method may be able to avoid copying even when there are multiple backing arrays.
public String toString(String charsetName) throws UnsupportedEncodingException
String
by decoding the bytes using the
specified charset.charsetName
- encode using this charsetUnsupportedEncodingException
- if charset isn't recognizedpublic String toString(Charset charset)
String
by decoding the bytes using the
specified charset. Returns the same empty String if empty.charset
- encode using this charsetprotected abstract String toStringInternal(Charset charset)
String
by decoding the bytes using the
specified charset.charset
- encode using this charsetpublic String toStringUtf8()
String
by decoding the bytes as UTF-8.public abstract boolean isValidUtf8()
ByteString
represents a well-formed UTF-8
byte sequence, such that the original bytes can be converted to a
String object and then round tripped back to bytes without loss.
More precisely, returns true
whenever:
Arrays.equals(byteString.toByteArray(),
new String(byteString.toByteArray(), "UTF-8").getBytes("UTF-8"))
This method returns false
for "overlong" byte sequences,
as well as for 3-byte sequences that would map to a surrogate
character, in accordance with the restricted definition of UTF-8
introduced in Unicode 3.1. Note that the UTF-8 decoder included in
Oracle's JDK has been modified to also reject "overlong" byte
sequences, but (as of 2011) still accepts 3-byte surrogate
character byte sequences.
See the Unicode Standard, Table 3-6. UTF-8 Bit Distribution, Table 3-7. Well Formed UTF-8 Byte Sequences.
ByteString
are a
well-formed UTF-8 byte sequenceprotected abstract int partialIsValidUtf8(int state, int offset, int length)
ByteString
segments.state
- either 0
(if this is the initial decoding operation)
or the value returned from a call to a partial decoding method for the
previous bytesoffset
- offset of the first byte to checklength
- number of bytes to check-1
if the partial byte sequence is definitely malformed,
0
if it is well-formed (no additional input needed), or, if the
byte sequence is "incomplete", i.e. apparently terminated in the middle of
a character, an opaque integer "state" value containing enough information
to decode the character when passed to a subsequent invocation of a
partial decoding method.public abstract int hashCode()
public abstract InputStream newInput()
InputStream
which can be used to read the bytes.
The InputStream
returned by this method is guaranteed to be
completely non-blocking. The method InputStream.available()
returns the number of bytes remaining in the stream. The methods
InputStream.read(byte[])
, InputStream.read(byte[],int,int)
and InputStream.skip(long)
will read/skip as many bytes as are
available.
The methods in the returned InputStream
might not be
thread safe.
public abstract CodedInputStream newCodedInput()
CodedInputStream
which can be used to read the bytes.
Using this is often more efficient than creating a CodedInputStream
that wraps the result of newInput()
.public static ByteString.Output newOutput(int initialCapacity)
ByteString.Output
with the given initial capacity. Call ByteString.Output.toByteString()
to create the ByteString
instance.
A ByteString.Output
offers the same functionality as a
ByteArrayOutputStream
, except that it returns a ByteString
rather than a byte
array.
initialCapacity
- estimate of number of bytes to be writtenOutputStream
for building a ByteString
public static ByteString.Output newOutput()
ByteString.Output
. Call ByteString.Output.toByteString()
to create
the ByteString
instance.
A ByteString.Output
offers the same functionality as a
ByteArrayOutputStream
, except that it returns a ByteString
rather than a byte array
.
OutputStream
for building a ByteString
protected abstract int getTreeDepth()
ByteString
, if any,
whose root is this node. If this is a leaf node, return 0.protected abstract boolean isBalanced()
true
if this ByteString is literal (a leaf node) or a
flat-enough tree in the sense of RopeByteString
.protected abstract int peekCachedHashCode()
protected abstract int partialHash(int h, int offset, int length)
h
- starting hash valueoffset
- offset into this value to start looking at data valueslength
- number of data values to include in the hash computationCopyright © 2008–2015 Google. All rights reserved.