使用Flink编写代码,步骤非常固定,大概分为以下几步,只要牢牢抓住步骤,基本轻松拿下:
1. env-准备环境
2. source-加载数据
3. transformation-数据处理转换
4. sink-数据输出
5. execute-执行
DataStream API开发
//nightlies.apache.org/flink/flink-docs-release-1.13/docs/dev/datastream/overview/
0. 添加依赖
<properties><flink.version>1.13.6</flink.version>
</properties><dependencies><dependency><groupId>org.apache.flink</groupId><artifactId>flink-streaming-java_2.11</artifactId><version>${flink.version}</version></dependency><dependency><groupId>org.apache.flink</groupId><artifactId>flink-java</artifactId><version>${flink.version}</version></dependency><dependency><groupId>org.apache.flink</groupId><artifactId>flink-clients_2.11</artifactId><version>${flink.version}</version></dependency><dependency><groupId>org.apache.flink</groupId><artifactId>flink-table-api-java-bridge_2.11</artifactId><version>${flink.version}</version></dependency><dependency><groupId>org.apache.flink</groupId><artifactId>flink-table-planner-blink_2.11</artifactId><version>${flink.version}</version></dependency><dependency><groupId>org.apache.flink</groupId><artifactId>flink-shaded-hadoop-2-uber</artifactId><version>2.7.5-10.0</version></dependency><dependency><groupId>log4j</groupId><artifactId>log4j</artifactId><version>1.2.17</version></dependency><dependency><groupId>org.projectlombok</groupId><artifactId>lombok</artifactId><version>1.18.24</version></dependency></dependencies><build><extensions><extension><groupId>org.apache.maven.wagon</groupId><artifactId>wagon-ssh</artifactId><version>2.8</version></extension></extensions><plugins><plugin><groupId>org.codehaus.mojo</groupId><artifactId>wagon-maven-plugin</artifactId><version>1.0</version><configuration><!--上传的本地jar的位置--><fromFile>target/${project.build.finalName}.jar</fromFile><!--远程拷贝的地址--><url>scp://root:root@bigdata01:/opt/app</url></configuration></plugin></plugins></build>-
编写代码
package com.bigdata.day01;import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.java.functions.KeySelector;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.datastream.DataStreamSource;
import org.apache.flink.streaming.api.datastream.SingleOutputStreamOperator;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;public class WordCount01 {/*** 1. env-准备环境* 2. source-加载数据* 3. transformation-数据处理转换* 4. sink-数据输出* 5. execute-执行*/public static void main(String[] args) throws Exception {// 导入常用类时要注意 不管是在本地开发运行还是在集群上运行,都这么写,非常方便StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();// 这个是 自动 ,根据流的性质,决定是批处理还是流处理//env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);// 批处理流, 一口气把数据算出来// env.setRuntimeMode(RuntimeExecutionMode.BATCH);// 流处理,默认是这个 可以通过打印批和流的处理结果,体会流和批的含义env.setRuntimeMode(RuntimeExecutionMode.STREAMING);// 获取数据 多态的写法 DataStreamSource 它是 DataStream 的子类DataStream<String> dataStream01 = env.fromElements("spark flink kafka", "spark sqoop flink", "kakfa hadoop flink");DataStream<String> flatMapStream = dataStream01.flatMap(new FlatMapFunction<String, String>() {@Overridepublic void flatMap(String line, Collector<String> collector) throws Exception {String[] arr = line.split(" ");for (String word : arr) {// 循环遍历每一个切割完的数据,放入到收集器中,就可以形成一个新的DataStreamcollector.collect(word);}}});//flatMapStream.print();// Tuple2 指的是2元组DataStream<Tuple2<String, Integer>> mapStream = flatMapStream.map(new MapFunction<String, Tuple2<String, Integer>>() {@Overridepublic Tuple2<String, Integer> map(String word) throws Exception {return Tuple2.of(word, 1); // ("hello",1)}});DataStream<Tuple2<String, Integer>> sumResult = mapStream.keyBy(new KeySelector<Tuple2<String, Integer>, String>() {@Overridepublic String getKey(Tuple2<String, Integer> tuple2) throws Exception {return tuple2.f0;}// 此处的1 指的是元组的第二个元素,进行相加的意思}).sum(1);sumResult.print();// 执行env.execute();}
}查看本机的CPU的逻辑处理器的数量,逻辑处理器的数量就是你的分区数量。
12> spark
13> kakfa
11> spark
11> flink
11> kafka
13> hadoop
12> sqoop
13> flink
12> flink前面的数字是分区数,默认跟逻辑处理器的数量有关系。对结果进行解释:
什么是批,什么是流?
批处理结果:前面的序号代表分区
流处理结果:
也可以通过如下方式修改分区数量:
env.setParallelism(2);关于并行度的代码演示:
系统以及算子都可以设置并行度,或者获取并行度
package com.bigdata.day01;import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.java.functions.KeySelector;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.datastream.DataStreamSource;
import org.apache.flink.streaming.api.datastream.SingleOutputStreamOperator;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;public class WordCount01 {/*** 1. env-准备环境* 2. source-加载数据* 3. transformation-数据处理转换* 4. sink-数据输出* 5. execute-执行*/public static void main(String[] args) throws Exception {// 导入常用类时要注意 不管是在本地开发运行还是在集群上运行,都这么写,非常方便StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();// 这个是 自动 ,根据流的性质,决定是批处理还是流处理//env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);// 批处理流, 一口气把数据算出来// env.setRuntimeMode(RuntimeExecutionMode.BATCH);// 流处理,默认是这个 可以通过打印批和流的处理结果,体会流和批的含义env.setRuntimeMode(RuntimeExecutionMode.STREAMING);// 将任务的并行度设置为2// env.setParallelism(2);// 通过这个获取系统的并行度int parallelism = env.getParallelism();System.out.println(parallelism);// 获取数据 多态的写法 DataStreamSource 它是 DataStream 的子类DataStream<String> dataStream01 = env.fromElements("spark flink kafka", "spark sqoop flink", "kakfa hadoop flink");DataStream<String> flatMapStream = dataStream01.flatMap(new FlatMapFunction<String, String>() {@Overridepublic void flatMap(String line, Collector<String> collector) throws Exception {String[] arr = line.split(" ");for (String word : arr) {// 循环遍历每一个切割完的数据,放入到收集器中,就可以形成一个新的DataStreamcollector.collect(word);}}});// 每一个算子也有自己的并行度,一般跟系统保持一致System.out.println("flatMap的并行度:"+flatMapStream.getParallelism());//flatMapStream.print();// Tuple2 指的是2元组DataStream<Tuple2<String, Integer>> mapStream = flatMapStream.map(new MapFunction<String, Tuple2<String, Integer>>() {@Overridepublic Tuple2<String, Integer> map(String word) throws Exception {return Tuple2.of(word, 1); // ("hello",1)}});DataStream<Tuple2<String, Integer>> sumResult = mapStream.keyBy(new KeySelector<Tuple2<String, Integer>, String>() {@Overridepublic String getKey(Tuple2<String, Integer> tuple2) throws Exception {return tuple2.f0;}// 此处的1 指的是元组的第二个元组,进行相加的意思}).sum(1);sumResult.print();// 执行env.execute();}
}
- 打包、上传
文件夹不需要提前准备好,它可以帮我创建
- 提交我们自己开发打包的任务
flink run -c com.bigdata.day01.WordCount01 /opt/app/FlinkDemo-1.0-SNAPSHOT.jar
去界面中查看运行结果:
因为你这个是集群运行的,所以标准输出流中查看,假如第一台没有,去第二台查看,一直点。
获取主函数参数工具类
可以通过外部传参的方式给定一个路径
以下代码可以做到,假如给定路径,就获取路径的数据,假如没给,就读取默认数据:
package com.bigdata.day01;import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.java.functions.KeySelector;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;public class WordCount02 {/*** 1. env-准备环境* 2. source-加载数据* 3. transformation-数据处理转换* 4. sink-数据输出* 5. execute-执行*/public static void main(String[] args) throws Exception {// 导入常用类时要注意 不管是在本地开发运行还是在集群上运行,都这么写,非常方便StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();// 这个是 自动 ,根据流的性质,决定是批处理还是流处理//env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);// 批处理流, 一口气把数据算出来// env.setRuntimeMode(RuntimeExecutionMode.BATCH);// 流处理,默认是这个 可以通过打印批和流的处理结果,体会流和批的含义env.setRuntimeMode(RuntimeExecutionMode.STREAMING);// 将任务的并行度设置为2// env.setParallelism(2);// 通过这个获取系统的并行度int parallelism = env.getParallelism();System.out.println(parallelism);// 获取数据 多态的写法 DataStreamSource 它是 DataStream 的子类// 连着写的本质就是 因为每一个算子的返回值都是DataStream的子类,所以可以这么写// 以下代码中路径是写死的,能不能通过外部传参进来,当然可以! agrsDataStream<String> dataStream = null;System.out.println(args.length);if(args.length !=0){String path = args[0];dataStream = env.readTextFile(path);}else{dataStream = env.fromElements("spark flink kafka", "spark sqoop flink", "kakfa hadoop flink");}dataStream.flatMap(new FlatMapFunction<String, String>() {@Overridepublic void flatMap(String line, Collector<String> collector) throws Exception {String[] arr = line.split(" ");for (String word : arr) {// 循环遍历每一个切割完的数据,放入到收集器中,就可以形成一个新的DataStreamcollector.collect(word);}}}).map(new MapFunction<String, Tuple2<String, Integer>>() {@Overridepublic Tuple2<String, Integer> map(String word) throws Exception {return Tuple2.of(word, 1); // ("hello",1)}}).keyBy(new KeySelector<Tuple2<String, Integer>, String>() {@Overridepublic String getKey(Tuple2<String, Integer> tuple2) throws Exception {return tuple2.f0;}// 此处的1 指的是元组的第二个元组,进行相加的意思}).sum(1).print();// 执行env.execute();}
}
flink run -c com.bigdata.day01.Demo02 FlinkDemo-1.0-SNAPSHOT.jar /home/wc.txt
这样做,跟我们以前的做法还是不一样。以前的运行方式是这样的
flink run /opt/installs/flink/examples/batch/WordCount.jar --input /home/wc.txt
这个写法,传递参数的时候,带有--字样,而我们的没有。
以上代码进行升级,我想将参数前面追加一个 --input 这样,怎么写?
ParameterTool parameterTool = ParameterTool.fromArgs(args);
if(parameterTool.has("output")){path = parameterTool.get("output");
}在代码中的使用:
ParameterTool parameterTool = ParameterTool.fromArgs(args);String output = "";if (parameterTool.has("output")) {output = parameterTool.get("output");System.out.println("指定了输出路径使用:" + output);} else {output = "hdfs://node01:9820/wordcount/output47_";System.out.println("可以指定输出路径使用 --output ,没有指定使用默认的:" + output);}
升级过的代码:
package com.bigdata.day01;import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.java.functions.KeySelector;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.api.java.utils.ParameterTool;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;public class WordCount02 {/*** 1. env-准备环境* 2. source-加载数据* 3. transformation-数据处理转换* 4. sink-数据输出* 5. execute-执行*/public static void main(String[] args) throws Exception {// 导入常用类时要注意 不管是在本地开发运行还是在集群上运行,都这么写,非常方便StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();// 这个是 自动 ,根据流的性质,决定是批处理还是流处理//env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);// 批处理流, 一口气把数据算出来// env.setRuntimeMode(RuntimeExecutionMode.BATCH);// 流处理,默认是这个 可以通过打印批和流的处理结果,体会流和批的含义env.setRuntimeMode(RuntimeExecutionMode.STREAMING);// 将任务的并行度设置为2// env.setParallelism(2);// 通过这个获取系统的并行度int parallelism = env.getParallelism();System.out.println(parallelism);// 获取数据 多态的写法 DataStreamSource 它是 DataStream 的子类// 连着写的本质就是 因为每一个算子的返回值都是DataStream的子类,所以可以这么写// 以下代码中路径是写死的,能不能通过外部传参进来,当然可以! agrsDataStream<String> dataStream = null;System.out.println(args.length);if(args.length !=0){String path ;ParameterTool parameterTool = ParameterTool.fromArgs(args);if(parameterTool.has("input")){path = parameterTool.get("input");}else{path = args[0];}dataStream = env.readTextFile(path);}else{dataStream = env.fromElements("spark flink kafka", "spark sqoop flink", "kakfa hadoop flink");}dataStream.flatMap(new FlatMapFunction<String, String>() {@Overridepublic void flatMap(String line, Collector<String> collector) throws Exception {String[] arr = line.split(" ");for (String word : arr) {// 循环遍历每一个切割完的数据,放入到收集器中,就可以形成一个新的DataStreamcollector.collect(word);}}}).map(new MapFunction<String, Tuple2<String, Integer>>() {@Overridepublic Tuple2<String, Integer> map(String word) throws Exception {return Tuple2.of(word, 1); // ("hello",1)}}).keyBy(new KeySelector<Tuple2<String, Integer>, String>() {@Overridepublic String getKey(Tuple2<String, Integer> tuple2) throws Exception {return tuple2.f0;}// 此处的1 指的是元组的第二个元组,进行相加的意思}).sum(1).print();// 执行env.execute();}
}
DataStream (Lambda表达式-扩展 了解)
import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.typeinfo.Types;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.datastream.KeyedStream;
import org.apache.flink.streaming.api.datastream.SingleOutputStreamOperator;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;import java.util.Arrays;/*** Desc 演示Flink-DataStream-流批一体API完成批处理WordCount* 使用Java8的lambda表示完成函数式风格的WordCount*/
public class WordCount02 {public static void main(String[] args) throws Exception {//TODO 1.env-准备环境StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();//env.setRuntimeMode(RuntimeExecutionMode.STREAMING);//指定计算模式为流//env.setRuntimeMode(RuntimeExecutionMode.BATCH);//指定计算模式为批env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);//自动//不设置的话默认是流模式defaultValue(RuntimeExecutionMode.STREAMING)//TODO 2.source-加载数据DataStream<String> dataStream = env.fromElements("flink hadoop spark", "flink hadoop spark", "flink hadoop", "flink");//TODO 3.transformation-数据转换处理//3.1对每一行数据进行分割并压扁/*public interface FlatMapFunction<T, O> extends Function, Serializable {void flatMap(T value, Collector<O> out) throws Exception;}*//*DataStream<String> wordsDS = dataStream.flatMap(new FlatMapFunction<String, String>() {@Overridepublic void flatMap(String value, Collector<String> out) throws Exception {String[] words = value.split(" ");for (String word : words) {out.collect(word);}}});*///注意:Java8的函数的语法/lambda表达式的语法: (参数)->{函数体}DataStream<String> wordsDS = dataStream.flatMap((String value, Collector<String> out) -> {String[] words = value.split(" ");for (String word : words) {out.collect(word);}}).returns(Types.STRING);//3.2 每个单词记为<单词,1>/*public interface MapFunction<T, O> extends Function, Serializable {O map(T value) throws Exception;}*//*DataStream<Tuple2<String, Integer>> wordAndOneDS = wordsDS.map(new MapFunction<String, Tuple2<String, Integer>>() {@Overridepublic Tuple2<String, Integer> map(String value) throws Exception {return Tuple2.of(value, 1);}});*/DataStream<Tuple2<String, Integer>> wordAndOneDS = wordsDS.map((String value) -> Tuple2.of(value, 1)).returns(Types.TUPLE(Types.STRING, Types.INT));//3.3分组//注意:DataSet中分组用groupBy,DataStream中分组用keyBy//KeyedStream<Tuple2<String, Integer>, Tuple> keyedDS = wordAndOneDS.keyBy(0);/*public interface KeySelector<IN, KEY> extends Function, Serializable {KEY getKey(IN value) throws Exception;}*//*KeyedStream<Tuple2<String, Integer>, String> keyedDS = wordAndOneDS.keyBy(new KeySelector<Tuple2<String, Integer>, String>() {@Overridepublic String getKey(Tuple2<String, Integer> value) throws Exception {return value.f0;}});*/KeyedStream<Tuple2<String, Integer>, String> keyedDS = wordAndOneDS.keyBy((Tuple2<String, Integer> value) -> value.f0);//3.4聚合SingleOutputStreamOperator<Tuple2<String, Integer>> result = keyedDS.sum(1);//TODO 4.sink-数据输出result.print();//TODO 5.execute-执行env.execute();}
}此处有一个大坑,就是使用完lambda表达式以后,需要添加一个returns(Types.STRING); 否则报错,这样的话,使用lambda也不是特别快了。
连着写的版本如下:
package com.bigdata.day01;import org.apache.flink.api.common.RuntimeExecutionMode;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.common.typeinfo.Types;
import org.apache.flink.api.java.functions.KeySelector;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.api.java.utils.ParameterTool;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.util.Collector;public class WordCount03 {/*** 1. env-准备环境* 2. source-加载数据* 3. transformation-数据处理转换* 4. sink-数据输出* 5. execute-执行*/public static void main(String[] args) throws Exception {// 导入常用类时要注意 不管是在本地开发运行还是在集群上运行,都这么写,非常方便StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();// 这个是 自动 ,根据流的性质,决定是批处理还是流处理//env.setRuntimeMode(RuntimeExecutionMode.AUTOMATIC);// 批处理流, 一口气把数据算出来// env.setRuntimeMode(RuntimeExecutionMode.BATCH);// 流处理,默认是这个 可以通过打印批和流的处理结果,体会流和批的含义//env.setRuntimeMode(RuntimeExecutionMode.STREAMING);// 将任务的并行度设置为2// env.setParallelism(2);// 通过这个获取系统的并行度int parallelism = env.getParallelism();System.out.println(parallelism);// 获取数据 多态的写法 DataStreamSource 它是 DataStream 的子类// 连着写的本质就是 因为每一个算子的返回值都是DataStream的子类,所以可以这么写// 以下代码中路径是写死的,能不能通过外部传参进来,当然可以! agrsDataStream<String> dataStream = null;System.out.println(args.length);if(args.length !=0){String path ;ParameterTool parameterTool = ParameterTool.fromArgs(args);if(parameterTool.has("input")){path = parameterTool.get("input");}else{path = args[0];}dataStream = env.readTextFile(path);}else{dataStream = env.fromElements("spark flink kafka", "spark sqoop flink", "kakfa hadoop flink");}dataStream.flatMap((String line, Collector<String> collector) -> {String[] arr = line.split(" ");for (String word : arr) {// 循环遍历每一个切割完的数据,放入到收集器中,就可以形成一个新的DataStreamcollector.collect(word);}}).returns(Types.STRING).map((String word)-> {return Tuple2.of(word, 1); // ("hello",1)}).returns(Types.TUPLE(Types.STRING, Types.INT)).keyBy((Tuple2<String, Integer> tuple2)-> {return tuple2.f0;}).sum(1).print();// 执行env.execute();}
}
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