聊聊flink DataStream的window coGroup操作
聊聊flink DataStream的window coGroup操作
code4it
发布于 2019-01-23 11:16:58
发布于 2019-01-23 11:16:58
序
本文主要研究一下flink DataStream的window coGroup操作
实例
dataStream.coGroup(otherStream)
.where(0).equalTo(1)
.window(TumblingEventTimeWindows.of(Time.seconds(3)))
.apply (new CoGroupFunction () {...});- 这里展示了DataStream的window coGroup操作的基本用法
DataStream.coGroup
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/DataStream.java
@Public
public class DataStream<T> {
//......
public <T2> CoGroupedStreams<T, T2> coGroup(DataStream<T2> otherStream) {
return new CoGroupedStreams<>(this, otherStream);
}
//......
}- DataStream的coGroup操作创建的是CoGroupedStreams
CoGroupedStreams
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
@Public
public class CoGroupedStreams<T1, T2> {
private final DataStream<T1> input1;
private final DataStream<T2> input2;
public CoGroupedStreams(DataStream<T1> input1, DataStream<T2> input2) {
this.input1 = requireNonNull(input1);
this.input2 = requireNonNull(input2);
}
public <KEY> Where<KEY> where(KeySelector<T1, KEY> keySelector) {
Preconditions.checkNotNull(keySelector);
final TypeInformation<KEY> keyType = TypeExtractor.getKeySelectorTypes(keySelector, input1.getType());
return where(keySelector, keyType);
}
public <KEY> Where<KEY> where(KeySelector<T1, KEY> keySelector, TypeInformation<KEY> keyType) {
Preconditions.checkNotNull(keySelector);
Preconditions.checkNotNull(keyType);
return new Where<>(input1.clean(keySelector), keyType);
}
//.......
}- CoGroupedStreams提供了where操作,用于指定input1的keySelector,它创建并返回Where对象
Where
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
@Public
public class Where<KEY> {
private final KeySelector<T1, KEY> keySelector1;
private final TypeInformation<KEY> keyType;
Where(KeySelector<T1, KEY> keySelector1, TypeInformation<KEY> keyType) {
this.keySelector1 = keySelector1;
this.keyType = keyType;
}
public EqualTo equalTo(KeySelector<T2, KEY> keySelector) {
Preconditions.checkNotNull(keySelector);
final TypeInformation<KEY> otherKey = TypeExtractor.getKeySelectorTypes(keySelector, input2.getType());
return equalTo(keySelector, otherKey);
}
public EqualTo equalTo(KeySelector<T2, KEY> keySelector, TypeInformation<KEY> keyType) {
Preconditions.checkNotNull(keySelector);
Preconditions.checkNotNull(keyType);
if (!keyType.equals(this.keyType)) {
throw new IllegalArgumentException("The keys for the two inputs are not equal: " +
"first key = " + this.keyType + " , second key = " + keyType);
}
return new EqualTo(input2.clean(keySelector));
}
//......
} - Where对象提供了equalTo操作,用于指定input2的keySelector,它创建并返回EqualTo对象
EqualTo
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
@Public
public class EqualTo {
private final KeySelector<T2, KEY> keySelector2;
EqualTo(KeySelector<T2, KEY> keySelector2) {
this.keySelector2 = requireNonNull(keySelector2);
}
@PublicEvolving
public <W extends Window> WithWindow<T1, T2, KEY, W> window(WindowAssigner<? super TaggedUnion<T1, T2>, W> assigner) {
return new WithWindow<>(input1, input2, keySelector1, keySelector2, keyType, assigner, null, null, null);
}
}- EqualTo对象提供了window操作,它创建并返回WithWindow对象
WithWindow
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
@Public
public static class WithWindow<T1, T2, KEY, W extends Window> {
private final DataStream<T1> input1;
private final DataStream<T2> input2;
private final KeySelector<T1, KEY> keySelector1;
private final KeySelector<T2, KEY> keySelector2;
private final TypeInformation<KEY> keyType;
private final WindowAssigner<? super TaggedUnion<T1, T2>, W> windowAssigner;
private final Trigger<? super TaggedUnion<T1, T2>, ? super W> trigger;
private final Evictor<? super TaggedUnion<T1, T2>, ? super W> evictor;
private final Time allowedLateness;
private WindowedStream<TaggedUnion<T1, T2>, KEY, W> windowedStream;
protected WithWindow(DataStream<T1> input1,
DataStream<T2> input2,
KeySelector<T1, KEY> keySelector1,
KeySelector<T2, KEY> keySelector2,
TypeInformation<KEY> keyType,
WindowAssigner<? super TaggedUnion<T1, T2>, W> windowAssigner,
Trigger<? super TaggedUnion<T1, T2>, ? super W> trigger,
Evictor<? super TaggedUnion<T1, T2>, ? super W> evictor,
Time allowedLateness) {
this.input1 = input1;
this.input2 = input2;
this.keySelector1 = keySelector1;
this.keySelector2 = keySelector2;
this.keyType = keyType;
this.windowAssigner = windowAssigner;
this.trigger = trigger;
this.evictor = evictor;
this.allowedLateness = allowedLateness;
}
@PublicEvolving
public WithWindow<T1, T2, KEY, W> trigger(Trigger<? super TaggedUnion<T1, T2>, ? super W> newTrigger) {
return new WithWindow<>(input1, input2, keySelector1, keySelector2, keyType,
windowAssigner, newTrigger, evictor, allowedLateness);
}
@PublicEvolving
public WithWindow<T1, T2, KEY, W> evictor(Evictor<? super TaggedUnion<T1, T2>, ? super W> newEvictor) {
return new WithWindow<>(input1, input2, keySelector1, keySelector2, keyType,
windowAssigner, trigger, newEvictor, allowedLateness);
}
@PublicEvolving
public WithWindow<T1, T2, KEY, W> allowedLateness(Time newLateness) {
return new WithWindow<>(input1, input2, keySelector1, keySelector2, keyType,
windowAssigner, trigger, evictor, newLateness);
}
public <T> DataStream<T> apply(CoGroupFunction<T1, T2, T> function) {
TypeInformation<T> resultType = TypeExtractor.getCoGroupReturnTypes(
function,
input1.getType(),
input2.getType(),
"CoGroup",
false);
return apply(function, resultType);
}
@PublicEvolving
@Deprecated
public <T> SingleOutputStreamOperator<T> with(CoGroupFunction<T1, T2, T> function) {
return (SingleOutputStreamOperator<T>) apply(function);
}
public <T> DataStream<T> apply(CoGroupFunction<T1, T2, T> function, TypeInformation<T> resultType) {
//clean the closure
function = input1.getExecutionEnvironment().clean(function);
UnionTypeInfo<T1, T2> unionType = new UnionTypeInfo<>(input1.getType(), input2.getType());
UnionKeySelector<T1, T2, KEY> unionKeySelector = new UnionKeySelector<>(keySelector1, keySelector2);
DataStream<TaggedUnion<T1, T2>> taggedInput1 = input1
.map(new Input1Tagger<T1, T2>())
.setParallelism(input1.getParallelism())
.returns(unionType);
DataStream<TaggedUnion<T1, T2>> taggedInput2 = input2
.map(new Input2Tagger<T1, T2>())
.setParallelism(input2.getParallelism())
.returns(unionType);
DataStream<TaggedUnion<T1, T2>> unionStream = taggedInput1.union(taggedInput2);
// we explicitly create the keyed stream to manually pass the key type information in
windowedStream =
new KeyedStream<TaggedUnion<T1, T2>, KEY>(unionStream, unionKeySelector, keyType)
.window(windowAssigner);
if (trigger != null) {
windowedStream.trigger(trigger);
}
if (evictor != null) {
windowedStream.evictor(evictor);
}
if (allowedLateness != null) {
windowedStream.allowedLateness(allowedLateness);
}
return windowedStream.apply(new CoGroupWindowFunction<T1, T2, T, KEY, W>(function), resultType);
}
@PublicEvolving
@Deprecated
public <T> SingleOutputStreamOperator<T> with(CoGroupFunction<T1, T2, T> function, TypeInformation<T> resultType) {
return (SingleOutputStreamOperator<T>) apply(function, resultType);
}
@VisibleForTesting
Time getAllowedLateness() {
return allowedLateness;
}
@VisibleForTesting
WindowedStream<TaggedUnion<T1, T2>, KEY, W> getWindowedStream() {
return windowedStream;
}
}- WithWindow可以设置windowAssigner、trigger、evictor、allowedLateness,它提供apply操作(
with操作被标记为废弃) - apply操作接收CoGroupFunction,它内部是先根据两个keySelector创建UnionKeySelector,然后对两个input stream分别使用Input1Tagger及Input2Tagger进行map转换为TaggedUnion对象的stream,然后执行taggedInput1.union(taggedInput2)得到unionStream,之后使用UnionKeySelector将unionStream转换为KeyedStream,之后在对KeyedStream执行window操作,把原来的windowAssigner、trigger、evictor、allowedLateness都赋值过去,最后将用户定义的CoGroupFunction包装为CoGroupWindowFunction,然后调用windowedStream.apply方法
- 可以看到apply操作内部转化的WindowedStream,其element类型为TaggedUnion;WindowedStream使用的KeyedStream,它的KeySelector为UnionKeySelector;而KeyedStream是基于TaggedUnion类型的DataStream,是taggedInput1.union(taggedInput2)操作而来;而taggedInput1及taggedInput2是对原始input stream进行map操作而来,使用的MapFunction分别是Input1Tagger及Input2Tagger
CoGroupFunction
flink-core-1.7.0-sources.jar!/org/apache/flink/api/common/functions/CoGroupFunction.java
@Public
@FunctionalInterface
public interface CoGroupFunction<IN1, IN2, O> extends Function, Serializable {
void coGroup(Iterable<IN1> first, Iterable<IN2> second, Collector<O> out) throws Exception;
}- CoGroupFunction继承了Function,它定义了coGroup方法,该方法接收两个Iterable类型的element集合
Input1Tagger及Input2Tagger
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
private static class Input1Tagger<T1, T2> implements MapFunction<T1, TaggedUnion<T1, T2>> {
private static final long serialVersionUID = 1L;
@Override
public TaggedUnion<T1, T2> map(T1 value) throws Exception {
return TaggedUnion.one(value);
}
}
private static class Input2Tagger<T1, T2> implements MapFunction<T2, TaggedUnion<T1, T2>> {
private static final long serialVersionUID = 1L;
@Override
public TaggedUnion<T1, T2> map(T2 value) throws Exception {
return TaggedUnion.two(value);
}
}- Input1Tagger及Input2Tagger实现了MapFunction,该map方法返回的类型为TaggedUnion
TaggedUnion
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
@Internal
public static class TaggedUnion<T1, T2> {
private final T1 one;
private final T2 two;
private TaggedUnion(T1 one, T2 two) {
this.one = one;
this.two = two;
}
public boolean isOne() {
return one != null;
}
public boolean isTwo() {
return two != null;
}
public T1 getOne() {
return one;
}
public T2 getTwo() {
return two;
}
public static <T1, T2> TaggedUnion<T1, T2> one(T1 one) {
return new TaggedUnion<>(one, null);
}
public static <T1, T2> TaggedUnion<T1, T2> two(T2 two) {
return new TaggedUnion<>(null, two);
}
}- TaggedUnion里头有one、two两个属性,它提供了两个静态工厂方法one及two,可以看到TaggedUnion对象要么one为null,要么two为null,不可能两个同时有值
UnionKeySelector
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
private static class UnionKeySelector<T1, T2, KEY> implements KeySelector<TaggedUnion<T1, T2>, KEY> {
private static final long serialVersionUID = 1L;
private final KeySelector<T1, KEY> keySelector1;
private final KeySelector<T2, KEY> keySelector2;
public UnionKeySelector(KeySelector<T1, KEY> keySelector1,
KeySelector<T2, KEY> keySelector2) {
this.keySelector1 = keySelector1;
this.keySelector2 = keySelector2;
}
@Override
public KEY getKey(TaggedUnion<T1, T2> value) throws Exception{
if (value.isOne()) {
return keySelector1.getKey(value.getOne());
} else {
return keySelector2.getKey(value.getTwo());
}
}
}- UnionKeySelector有两个KeySelector属性,它的getKey操作根据TaggedUnion来判断,如果是one,则使用keySelector1.getKey(value.getOne()),否则使用keySelector2.getKey(value.getTwo())
DataStream.union
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/DataStream.java
@Public
public class DataStream<T> {
//......
@SafeVarargs
public final DataStream<T> union(DataStream<T>... streams) {
List<StreamTransformation<T>> unionedTransforms = new ArrayList<>();
unionedTransforms.add(this.transformation);
for (DataStream<T> newStream : streams) {
if (!getType().equals(newStream.getType())) {
throw new IllegalArgumentException("Cannot union streams of different types: "
+ getType() + " and " + newStream.getType());
}
unionedTransforms.add(newStream.getTransformation());
}
return new DataStream<>(this.environment, new UnionTransformation<>(unionedTransforms));
}
//......
}- DataStream的union操作,使用UnionTransformation创建了一个新的DataStream;注意union操作需要两个stream使用相同类型的element,这就是为什么WithWindow的apply操作对两个input stream分别使用Input1Tagger及Input2Tagger进行map转换为TaggedUnion对象来统一两个stream的element类型的原因
CoGroupWindowFunction
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/datastream/CoGroupedStreams.java
private static class CoGroupWindowFunction<T1, T2, T, KEY, W extends Window>
extends WrappingFunction<CoGroupFunction<T1, T2, T>>
implements WindowFunction<TaggedUnion<T1, T2>, T, KEY, W> {
private static final long serialVersionUID = 1L;
public CoGroupWindowFunction(CoGroupFunction<T1, T2, T> userFunction) {
super(userFunction);
}
@Override
public void apply(KEY key,
W window,
Iterable<TaggedUnion<T1, T2>> values,
Collector<T> out) throws Exception {
List<T1> oneValues = new ArrayList<>();
List<T2> twoValues = new ArrayList<>();
for (TaggedUnion<T1, T2> val: values) {
if (val.isOne()) {
oneValues.add(val.getOne());
} else {
twoValues.add(val.getTwo());
}
}
wrappedFunction.coGroup(oneValues, twoValues, out);
}
}- CoGroupWindowFunction继承了WrappingFunction(
WrappingFunction继承了AbstractRichFunction,覆盖了父类的open、close、setRuntimeContext方法,用于管理wrappedFunction),实现了WindowFunction接口,其apply方法对TaggedUnion类型的Iterable数据进行拆解,分别拆分到oneValues及twoValues中,然后调用用户定义的CoGroupFunction的coGroup方法
小结
- DataStream提供了coGroup方法,用于执行window coGroup操作,它返回的是CoGroupedStreams;CoGroupedStreams主要是提供where操作来构建Where对象;Where对象主要提供equalTo操作用于构建EqualTo对象;EqualTo对象提供window操作用于构建WithWindow对象;WithWindow可以设置windowAssigner、trigger、evictor、allowedLateness,它提供apply操作
- CoGroupedStreams的WithWindow对象的apply操作接收CoGroupFunction,它内部是先根据两个keySelector创建UnionKeySelector,然后对两个input stream分别使用Input1Tagger及Input2Tagger进行map转换为TaggedUnion对象的stream,然后执行taggedInput1.union(taggedInput2)得到unionStream,之后使用UnionKeySelector将unionStream转换为KeyedStream,之后在对KeyedStream执行window操作,把原来的windowAssigner、trigger、evictor、allowedLateness都赋值过去,最后将用户定义的CoGroupFunction包装为CoGroupWindowFunction,然后调用windowedStream.apply方法
- CoGroupedStreams的WithWindow对象的apply操作借助了DataStream的union操作类合并两个stream,然后转换为KeyedStream,这里关键的两个类分别是TaggedUnion及UnionKeySelector;TaggedUnion里头有one、two两个属性,它提供了两个静态工厂方法one及two,可以看到TaggedUnion对象要么one为null,要么two为null,不可能两个同时有值;UnionKeySelector有两个KeySelector属性,它的getKey操作根据TaggedUnion来判断,如果是one,则使用keySelector1.getKey(value.getOne()),否则使用keySelector2.getKey(value.getTwo())(
借助TaggedUnion类统一两个stream的element类型,然后好执行union操作) - CoGroupWindowFunction继承了WrappingFunction(
WrappingFunction继承了AbstractRichFunction,覆盖了父类的open、close、setRuntimeContext方法,用于管理wrappedFunction),实现了WindowFunction接口,其apply方法对TaggedUnion类型的Iterable数据进行拆解,分别拆分到oneValues及twoValues中,然后调用用户定义的CoGroupFunction的coGroup方法 - CoGroupFunction继承了Function,它定义了coGroup方法,该方法接收两个Iterable类型的element集合;JoinedStreams的WithWindow对象的apply方法内部将JoinFunction或者FlatJoinFunction包装为CoGroupFunction(JoinFunction使用JoinCoGroupFunction包装,FlatJoinFunction使用FlatJoinCoGroupFunction包装),然后去调用CoGroupedStreams的WithWindow的apply方法;而JoinCoGroupFunction及FlatJoinCoGroupFunction继承了WrappingFunction,同时实现CoGroupFunction接口定义的coGroup方法,默认是遍历第一个集合,对其每个元素遍历第二个集合,挨个执行JoinFunction或FlatJoinFunction的join方法(
这里的操作对集合为空的情况不做任何操作,因而实现的就是inner join效果;用户使用coGroup操作可以自定义CoGroupFunction实现outer join)
doc
- DataStream Transformations
- 聊聊flink DataStream的join操作
- Apache Flink using coGroup to achieve left-outer join
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原始发表:2019-01-12,如有侵权请联系 cloudcommunity@tencent.com 删除
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