Java 类名:com.alibaba.alink.operator.batch.clustering.BisectingKMeansPredictBatchOp
Python 类名:BisectingKMeansPredictBatchOp
二分k均值算法(BisectingKmeansTrainBatchOp)对应的预测组件,基于训练好的二分k均值模型进行聚类预测。
| 名称 | 中文名称 | 描述 | 类型 | 是否必须? | 取值范围 | 默认值 |
|---|---|---|---|---|---|---|
| predictionCol | 预测结果列名 | 预测结果列名 | String | ✓ | ||
| modelFilePath | 模型的文件路径 | 模型的文件路径 | String | null | ||
| predictionDetailCol | 预测详细信息列名 | 预测详细信息列名 | String | |||
| reservedCols | 算法保留列名 | 算法保留列 | String[] | null | ||
| numThreads | 组件多线程线程个数 | 组件多线程线程个数 | Integer | 1 |
from pyalink.alink import *
import pandas as pd
useLocalEnv(1)
df = pd.DataFrame([
[0, "0 0 0"],
[1, "0.1,0.1,0.1"],
[2, "0.2,0.2,0.2"],
[3, "9 9 9"],
[4, "9.1 9.1 9.1"],
[5, "9.2 9.2 9.2"]
])
inBatch = BatchOperator.fromDataframe(df, schemaStr='id int, vec string')
inStream = StreamOperator.fromDataframe(df, schemaStr='id int, vec string')
kmeansTrain = BisectingKMeansTrainBatchOp()\
.setVectorCol("vec")\
.setK(2)\
.linkFrom(inBatch)
kmeansTrain.lazyPrint(10)
predictBatch = BisectingKMeansPredictBatchOp()\
.setPredictionCol("pred")\
.linkFrom(kmeansTrain, inBatch)
predictBatch.print()
predictStream = BisectingKMeansPredictStreamOp(kmeansTrain)\
.setPredictionCol("pred")\
.linkFrom(inStream)
predictStream.print()
StreamOperator.execute()
import org.apache.flink.types.Row;
import com.alibaba.alink.operator.batch.BatchOperator;
import com.alibaba.alink.operator.batch.clustering.BisectingKMeansPredictBatchOp;
import com.alibaba.alink.operator.batch.clustering.BisectingKMeansTrainBatchOp;
import com.alibaba.alink.operator.batch.source.MemSourceBatchOp;
import com.alibaba.alink.operator.stream.StreamOperator;
import com.alibaba.alink.operator.stream.clustering.BisectingKMeansPredictStreamOp;
import com.alibaba.alink.operator.stream.source.MemSourceStreamOp;
import org.junit.Test;
import java.util.Arrays;
import java.util.List;
public class BisectingKMeansPredictBatchOpTest {
@Test
public void testBisectingKMeansPredictBatchOp() throws Exception {
List <Row> df = Arrays.asList(
Row.of(0, "0 0 0"),
Row.of(1, "0.1,0.1,0.1"),
Row.of(2, "0.2,0.2,0.2"),
Row.of(3, "9 9 9"),
Row.of(4, "9.1 9.1 9.1"),
Row.of(5, "9.2 9.2 9.2")
);
BatchOperator <?> inBatch = new MemSourceBatchOp(df, "id int, vec string");
StreamOperator <?> inStream = new MemSourceStreamOp(df, "id int, vec string");
BatchOperator <?> kmeansTrain = new BisectingKMeansTrainBatchOp()
.setVectorCol("vec")
.setK(2)
.linkFrom(inBatch);
kmeansTrain.lazyPrint(10);
BatchOperator <?> predictBatch = new BisectingKMeansPredictBatchOp()
.setPredictionCol("pred")
.linkFrom(kmeansTrain, inBatch);
predictBatch.print();
StreamOperator <?> predictStream = new BisectingKMeansPredictStreamOp(kmeansTrain)
.setPredictionCol("pred")
.linkFrom(inStream);
predictStream.print();
StreamOperator.execute();
}
}
| model_id | model_info |
|---|---|
| 0 | {“vectorCol”:“"vec"”,“distanceType”:“"EUCLIDEAN"”,“k”:“2”,“vectorSize”:“3”} |
| 1048576 | {“clusterId”:1,“size”:6,“center”:{“data”:[4.6,4.6,4.6]},“cost”:364.61999999999995} |
| 2097152 | {“clusterId”:2,“size”:3,“center”:{“data”:[0.1,0.1,0.1]},“cost”:0.06} |
| 3145728 | {“clusterId”:3,“size”:3,“center”:{“data”:[9.099999999999998,9.099999999999998,9.099999999999998]},“cost”:0.060000000000172804} |
| id | vec | pred |
|---|---|---|
| 0 | 0 0 0 | 0 |
| 1 | 0.1,0.1,0.1 | 0 |
| 2 | 0.2,0.2,0.2 | 0 |
| 3 | 9 9 9 | 1 |
| 4 | 9.1 9.1 9.1 | 1 |
| 5 | 9.2 9.2 9.2 | 1 |