Map
DataStream → DataStream:输入一个参数产生一个参数。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.generateSequence(1,10)
val streamMap = stream.map { x => x * 2 }
streamFilter.print()
env.execute("FirstJob")
注意:stream.print():每一行前面的数字代表这一行是哪一个并行线程输出的。 import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.java.DataSet;
import org.apache.flink.api.java.ExecutionEnvironment;
import org.apache.flink.api.java.operators.MapOperator;
import org.apache.flink.api.java.utils.ParameterTool;
import scala.Tuple2;
import java.util.Random;
public class StuScore {
private static Random rand = new Random();
public static void main(String[] args) throws Exception {
ParameterTool params = ParameterTool.fromArgs(args);
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.getConfig().setGlobalJobParameters(params);
DataSet<String> text;
if (params.has("input")) {
text = env.readTextFile("F:\\date\\flinkdata\\stu.txt");
}else{
System.out.println("请检查你的输入");
return;
}
MapOperator<String, Tuple2<String, Integer>> stuscore = text.map(new MapFunction<String, Tuple2<String, Integer>>() {
@Override
public Tuple2<String, Integer> map(String s) throws Exception {
return new Tuple2<>(s, rand.nextInt(100) + 1);
}
});
if (params.has("output")) {
stuscore.writeAsCsv("F:\\date\\flinkdata\\personinput\\A");
}else {
System.out.println("打印到控制台");
stuscore.print();
}
}
}
FlatMap
DataStream → DataStream:输入一个参数,产生0个、1个或者多个输出。
import org.apache.flink.streaming.api.scala._
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("F:\date\flinkdata\stu.tsv")
val streamFlatMap = stream.flatMap{
x => x.split(" ")
}
streamFilter.print()
env.execute("FirstJob")
Filter DataStream → DataStream:结算每个元素的布尔值,并返回布尔值为true的元素。下面这个例子是过滤出非0的元素:
import org.apache.flink.streaming.api.scala._
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.generateSequence(1,10)
val streamFilter = stream.filter{
//打印奇数
x => (x % 2 != 0)
}
streamFilter.print()
env.execute("FirstJob")
Connect
DataStream,DataStream → ConnectedStreams:连接两个保持他们类型的数据流,两个数据流被Connect之后,只是被放在了一个同一个流中,内部依然保持各自的数据和形式不发生任何变化,两个流相互独立。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("F:\date\flinkdata\stu.tsv")
val streamMap = stream.flatMap(item => item.split(" ")).filter(item => item.equals("hadoop"))
val streamCollect = env.fromCollection(List(1,2,3,4))
//streamMap和streamCollect交换顺序不会影响结果
val streamConnect = streamMap.connect(streamCollect)
streamConnect.map(item=>println(item), item=>println(item))
env.execute("FirstJob")
CoMap,CoFlatMap
ConnectedStreams → DataStream:作用于ConnectedStreams上,功能与map和flatMap一样,对ConnectedStreams中的每一个Stream分别进行map和flatMap处理。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream1 = env.readTextFile("F:\date\flinkdata\stu.tsv")
val streamFlatMap = stream1.flatMap(x => x.split(" "))
val stream2 = env.fromCollection(List(1,2,3,4))
val streamConnect = streamFlatMap.connect(stream2)
val streamCoMap = streamConnect.map(
(str) => str + "connect",
(in) => in + 100
)
streamCoMap.print()
env.execute("FirstJob")
//========================
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream1 = env.readTextFile("test.txt")
val stream2 = env.readTextFile("test1.txt")
val streamConnect = stream1.connect(stream2)
val streamCoMap = streamConnect.flatMap(
(str1) => str1.split(" "),
(str2) => str2.split(" ")
)
streamConnect.map(item=>println(item), item=>println(item))
env.execute("FirstJob")
Split
DataStream → SplitStream:根据某些特征把一个DataStream拆分成两个或者多个DataStream。注:此代码无法运行出结果,使用Select即可运行
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("F:\date\flinkdata\stu.tsv")
val streamFlatMap = stream.flatMap(x => x.split(" "))
val streamSplit = streamFlatMap.split(
num =>
//字符串内容为hadoop的组成一个DataStream,其余的组成一个DataStream
(num.equals("hadoop")) match{
case true => List("hadoop")
case false => List("other")
}
)
env.execute("FirstJob")
Select
SplitStream→DataStream:从一个SplitStream中获取一个或者多个DataStream。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("F:\date\flinkdata\stu.tsv")
val streamFlatMap = stream.flatMap(x => x.split(" "))
val streamSplit = streamFlatMap.split(
num =>
(num.equals("hadoop")) match{
case true => List("hadoop")
case false => List("other")
}
)
val hadoop = streamSplit.select("hadoop")
val other = streamSplit.select("other")
other.print()
env.execute("FirstJob")
Union
DataStream → DataStream:对两个或者两个以上的DataStream进行union操作,产生一个包含所有DataStream元素的新DataStream。注意:如果你将一个DataStream跟它自己做union操作,在新的DataStream中,你将看到每一个元素都出现两次。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream1 = env.readTextFile("test.txt")
val streamFlatMap1 = stream1.flatMap(x => x.split(" "))
val stream2 = env.readTextFile("test1.txt")
val streamFlatMap2 = stream2.flatMap(x => x.split(" "))
val streamConnect = streamFlatMap1.union(streamFlatMap2)
env.execute("FirstJob")
KeyBy
DataStream → KeyedStream:输入必须是Tuple类型,逻辑地将一个流拆分成不相交的分区,每个分区包含具有相同key的元素,在内部以hash的形式实现的。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("test.txt")
val streamFlatMap = stream.flatMap{
x => x.split(" ")
}
val streamMap = streamFlatMap.map{
x => (x,1)
}
val streamKeyBy = streamMap.keyBy(0)
env.execute("FirstJob")
Reduce
KeyedStream → DataStream:一个分组数据流的聚合操作,合并当前的元素和上次聚合的结果,产生一个新的值,返回的流中包含每一次聚合的结果,而不是只返回最后一次聚合的最终结果。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("test.txt").flatMap(item => item.split(" ")).map(item => (item, 1)).keyBy(0)
val streamReduce = stream.reduce(
(item1, item2) => (item1._1, item1._2 + item2._2)
)
streamReduce.print()
env.execute("FirstJob")
Fold
KeyedStream → DataStream:一个有初始值的分组数据流的滚动折叠操作,合并当前元素和前一次折叠操作的结果,并产生一个新的值,返回的流中包含每一次折叠的结果,而不是只返回最后一次折叠的最终结果。
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("test.txt").flatMap(item => item.split(" ")).map(item => (item, 1)).keyBy(0)
val streamReduce = stream.fold(100)(
(begin, item) => (begin + item._2)
)
streamReduce.print()
env.execute("FirstJob")
Aggregations
KeyedStream → DataStream:分组数据流上的滚动聚合操作。min和minBy的区别是min返回的是一个最小值,而minBy返回的是其字段中包含最小值的元素(同样原理适用于max和maxBy),返回的流中包含每一次聚合的结果,而不是只返回最后一次聚合的最终结果。
keyedStream.sum(0)
keyedStream.sum("key")
keyedStream.min(0)
keyedStream.min("key")
keyedStream.max(0)
keyedStream.max("key")
keyedStream.minBy(0)
keyedStream.minBy("key")
keyedStream.maxBy(0)
keyedStream.maxBy("key")
val env = StreamExecutionEnvironment.getExecutionEnvironment
val stream = env.readTextFile("test02.txt").map(item => (item.split(" ")(0), item.split(" ")(1).toLong)).keyBy(0)
val streamReduce = stream.sum(1)
streamReduce.print()
env.execute("FirstJob")
在2.3.10之前的算子都是可以直接作用在Stream上的,因为他们不是聚合类型的操作,但是到2.3.10后你会发现,我们虽然可以对一个无边界的流数据直接应用聚合算子,但是它会记录下每一次的聚合结果,这往往不是我们想要的,其实,reduce、fold、aggregation这些聚合算子都是和Window配合使用的,只有配合Window,才能得到想要的结果。