T
- the type of values being encoded and decodedpublic abstract class Coder<T>
extends java.lang.Object
implements java.io.Serializable
Coder<T>
defines how to encode and decode values of type T
into
byte streams.
Coder
instances are serialized during job creation and deserialized
before use. This will generally be performed by serializing the object via Java Serialization.
Coder
classes for compound types are often composed from coder classes for types
contains therein. The composition of Coder
instances into a coder for the compound
class is the subject of the CoderProvider
type, which enables automatic generic
composition of Coder
classes within the CoderRegistry
. See CoderProvider
and CoderRegistry
for more information about how coders are inferred.
All methods of a Coder
are required to be thread safe.
Modifier and Type | Class and Description |
---|---|
static class |
Coder.Context
Deprecated.
|
static class |
Coder.NonDeterministicException
Exception thrown by
verifyDeterministic() if the encoding is
not deterministic, including details of why the encoding is not deterministic. |
Constructor and Description |
---|
Coder() |
Modifier and Type | Method and Description |
---|---|
boolean |
consistentWithEquals()
|
abstract T |
decode(java.io.InputStream inStream)
Decodes a value of type
T from the given input stream in
the given context. |
T |
decode(java.io.InputStream inStream,
Coder.Context context)
Deprecated.
|
abstract void |
encode(T value,
java.io.OutputStream outStream)
Encodes the given value of type
T onto the given output stream. |
void |
encode(T value,
java.io.OutputStream outStream,
Coder.Context context)
Deprecated.
|
abstract java.util.List<? extends Coder<?>> |
getCoderArguments()
|
protected long |
getEncodedElementByteSize(T value)
Returns the size in bytes of the encoded value using this coder.
|
TypeDescriptor<T> |
getEncodedTypeDescriptor()
Returns the
TypeDescriptor for the type encoded. |
boolean |
isRegisterByteSizeObserverCheap(T value)
Returns whether
registerByteSizeObserver(T, org.apache.beam.sdk.util.common.ElementByteSizeObserver) cheap enough to
call for every element, that is, if this Coder can
calculate the byte size of the element to be coded in roughly
constant time (or lazily). |
void |
registerByteSizeObserver(T value,
org.apache.beam.sdk.util.common.ElementByteSizeObserver observer)
Notifies the
ElementByteSizeObserver about the byte size
of the encoded value using this Coder . |
java.lang.Object |
structuralValue(T value)
Returns an object with an
Object.equals() method that represents structural equality on
the argument. |
abstract void |
verifyDeterministic()
Throw
Coder.NonDeterministicException if the coding is not deterministic. |
static void |
verifyDeterministic(Coder<?> target,
java.lang.String message,
Coder<?>... coders)
Verifies all of the provided coders are deterministic.
|
static void |
verifyDeterministic(Coder<?> target,
java.lang.String message,
java.lang.Iterable<Coder<?>> coders)
Verifies all of the provided coders are deterministic.
|
public abstract void encode(T value, java.io.OutputStream outStream) throws CoderException, java.io.IOException
T
onto the given output stream.java.io.IOException
- if writing to the OutputStream
fails
for some reasonCoderException
- if the value could not be encoded for some reason@Deprecated @Experimental(value=CODER_CONTEXT) public void encode(T value, java.io.OutputStream outStream, Coder.Context context) throws CoderException, java.io.IOException
T
onto the given output stream
in the given context.java.io.IOException
- if writing to the OutputStream
fails
for some reasonCoderException
- if the value could not be encoded for some reasonpublic abstract T decode(java.io.InputStream inStream) throws CoderException, java.io.IOException
T
from the given input stream in
the given context. Returns the decoded value.java.io.IOException
- if reading from the InputStream
fails
for some reasonCoderException
- if the value could not be decoded for some reason@Deprecated @Experimental(value=CODER_CONTEXT) public T decode(java.io.InputStream inStream, Coder.Context context) throws CoderException, java.io.IOException
T
from the given input stream in
the given context. Returns the decoded value.java.io.IOException
- if reading from the InputStream
fails
for some reasonCoderException
- if the value could not be decoded for some reasonpublic abstract java.util.List<? extends Coder<?>> getCoderArguments()
public abstract void verifyDeterministic() throws Coder.NonDeterministicException
Coder.NonDeterministicException
if the coding is not deterministic.
In order for a Coder
to be considered deterministic,
the following must be true:
Object.equals()
or Comparable.compareTo()
, if supported) have the same
encoding.
Coder
always produces a canonical encoding, which is the
same for an instance of an object even if produced on different
computers at different times.
Coder.NonDeterministicException
- if this coder is not deterministic.public static void verifyDeterministic(Coder<?> target, java.lang.String message, java.lang.Iterable<Coder<?>> coders) throws Coder.NonDeterministicException
Coder.NonDeterministicException
for the target
Coder
.Coder.NonDeterministicException
public static void verifyDeterministic(Coder<?> target, java.lang.String message, Coder<?>... coders) throws Coder.NonDeterministicException
Coder.NonDeterministicException
for the target
Coder
.Coder.NonDeterministicException
public boolean consistentWithEquals()
true
if this Coder
is injective with respect to Object.equals(java.lang.Object)
.
Whenever the encoded bytes of two values are equal, then the original values are equal
according to Objects.equals()
. Note that this is well-defined for null
.
This condition is most notably false for arrays. More generally, this condition is false
whenever equals()
compares object identity, rather than performing a
semantic/structural comparison.
By default, returns false.
public java.lang.Object structuralValue(T value)
Object.equals()
method that represents structural equality on
the argument.
For any two values x
and y
of type T
, if their encoded bytes are the
same, then it must be the case that structuralValue(x).equals(@code structuralValue(y)
.
Most notably:
null
should be a proper object with an
equals()
method, even if the input value is null
.
See also consistentWithEquals()
.
By default, if this coder is consistentWithEquals()
, and the value is not null,
returns the provided object. Otherwise, encodes the value into a byte[]
, and returns
an object that performs array equality on the encoded bytes.
public boolean isRegisterByteSizeObserverCheap(T value)
registerByteSizeObserver(T, org.apache.beam.sdk.util.common.ElementByteSizeObserver)
cheap enough to
call for every element, that is, if this Coder
can
calculate the byte size of the element to be coded in roughly
constant time (or lazily).
Not intended to be called by user code, but instead by
PipelineRunner
implementations.
By default, returns false. The default registerByteSizeObserver(T, org.apache.beam.sdk.util.common.ElementByteSizeObserver)
implementation
invokes getEncodedElementByteSize(T)
which requires re-encoding an element
unless it is overridden. This is considered expensive.
public void registerByteSizeObserver(T value, org.apache.beam.sdk.util.common.ElementByteSizeObserver observer) throws java.lang.Exception
ElementByteSizeObserver
about the byte size
of the encoded value using this Coder
.
Not intended to be called by user code, but instead by
PipelineRunner
implementations.
By default, this notifies observer
about the byte size
of the encoded value using this coder as returned by getEncodedElementByteSize(T)
.
java.lang.Exception
protected long getEncodedElementByteSize(T value) throws java.lang.Exception
java.lang.Exception
@Experimental(value=CODER_TYPE_ENCODING) public TypeDescriptor<T> getEncodedTypeDescriptor()
TypeDescriptor
for the type encoded.