@Internal public class Tuple0Serializer extends TupleSerializer<Tuple0>
Modifier and Type | Field and Description |
---|---|
static Tuple0Serializer |
INSTANCE |
arity, fieldSerializers, tupleClass
Modifier and Type | Method and Description |
---|---|
void |
copy(DataInputView source,
DataOutputView target)
Copies exactly one record from the source input view to the target output view.
|
Tuple0 |
copy(Tuple0 from)
Creates a deep copy of the given element in a new element.
|
Tuple0 |
copy(Tuple0 from,
Tuple0 reuse)
Creates a copy from the given element.
|
Tuple0 |
createInstance()
Creates a new instance of the data type.
|
Tuple0 |
createInstance(Object[] fields) |
Tuple0 |
deserialize(DataInputView source)
De-serializes a record from the given source input view.
|
Tuple0 |
deserialize(Tuple0 reuse,
DataInputView source)
De-serializes a record from the given source input view into the given reuse record instance
if mutable.
|
Tuple0Serializer |
duplicate()
Creates a deep copy of this serializer if it is necessary, i.e.
|
boolean |
equals(Object obj) |
int |
getLength()
Gets the length of the data type, if it is a fix length data type.
|
int |
hashCode() |
void |
serialize(Tuple0 record,
DataOutputView target)
Serializes the given record to the given target output view.
|
TypeSerializerSnapshot<Tuple0> |
snapshotConfiguration()
Snapshots the configuration of this TypeSerializer.
|
String |
toString() |
createOrReuseInstance
getArity, getFieldSerializers, getTupleClass, isImmutableType
public static final Tuple0Serializer INSTANCE
public Tuple0Serializer duplicate()
TypeSerializer
We need this because Serializers might be used in several threads. Stateless serializers are inherently thread-safe while stateful serializers might not be thread-safe.
duplicate
in class TupleSerializer<Tuple0>
public Tuple0 createInstance()
TypeSerializer
createInstance
in class TupleSerializer<Tuple0>
public Tuple0 createInstance(Object[] fields)
createInstance
in class TupleSerializer<Tuple0>
public Tuple0 copy(Tuple0 from)
TypeSerializer
copy
in class TupleSerializer<Tuple0>
from
- The element reuse be copied.public Tuple0 copy(Tuple0 from, Tuple0 reuse)
TypeSerializer
copy
in class TupleSerializer<Tuple0>
from
- The element to be copied.reuse
- The element to be reused. May or may not be used.public int getLength()
TypeSerializer
getLength
in class TupleSerializerBase<Tuple0>
-1
for variable length data types.public void serialize(Tuple0 record, DataOutputView target) throws IOException
TypeSerializer
serialize
in class TupleSerializer<Tuple0>
record
- The record to serialize.target
- The output view to write the serialized data to.IOException
- Thrown, if the serialization encountered an I/O related error. Typically
raised by the output view, which may have an underlying I/O channel to which it
delegates.public Tuple0 deserialize(DataInputView source) throws IOException
TypeSerializer
deserialize
in class TupleSerializer<Tuple0>
source
- The input view from which to read the data.IOException
- Thrown, if the de-serialization encountered an I/O related error.
Typically raised by the input view, which may have an underlying I/O channel from which
it reads.public Tuple0 deserialize(Tuple0 reuse, DataInputView source) throws IOException
TypeSerializer
deserialize
in class TupleSerializer<Tuple0>
reuse
- The record instance into which to de-serialize the data.source
- The input view from which to read the data.IOException
- Thrown, if the de-serialization encountered an I/O related error.
Typically raised by the input view, which may have an underlying I/O channel from which
it reads.public void copy(DataInputView source, DataOutputView target) throws IOException
TypeSerializer
target.write(source, 8);
.copy
in class TupleSerializerBase<Tuple0>
source
- The input view from which to read the record.target
- The target output view to which to write the record.IOException
- Thrown if any of the two views raises an exception.public TypeSerializerSnapshot<Tuple0> snapshotConfiguration()
TypeSerializer
The snapshot of the TypeSerializer is supposed to contain all information that affects the serialization format of the serializer. The snapshot serves two purposes: First, to reproduce the serializer when the checkpoint/savepoint is restored, and second, to check whether the serialization format is compatible with the serializer used in the restored program.
IMPORTANT: TypeSerializerSnapshots changed after Flink 1.6. Serializers implemented against Flink versions up to 1.6 should still work, but adjust to new model to enable state evolution and be future-proof. See the class-level comments, section "Upgrading TypeSerializers to the new TypeSerializerSnapshot model" for details.
snapshotConfiguration
in class TupleSerializer<Tuple0>
null
).TypeSerializerSnapshot.resolveSchemaCompatibility(TypeSerializer)
public int hashCode()
hashCode
in class TupleSerializerBase<Tuple0>
public boolean equals(Object obj)
equals
in class TupleSerializerBase<Tuple0>
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