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Rewrite SparkPropagateRelation exploiting Dataframe API

This commit is contained in:
Giambattista Bloisi 2023-08-28 10:34:54 +02:00
parent 9c8b41475a
commit 0d7b2bf83d
1 changed files with 127 additions and 175 deletions

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@ -1,19 +1,6 @@
package eu.dnetlib.dhp.oa.dedup; package eu.dnetlib.dhp.oa.dedup;
import static org.apache.spark.sql.functions.col;
import java.util.Objects;
import org.apache.commons.io.IOUtils;
import org.apache.commons.lang3.StringUtils;
import org.apache.spark.SparkConf;
import org.apache.spark.api.java.function.FilterFunction;
import org.apache.spark.api.java.function.MapFunction;
import org.apache.spark.sql.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import eu.dnetlib.dhp.application.ArgumentApplicationParser; import eu.dnetlib.dhp.application.ArgumentApplicationParser;
import eu.dnetlib.dhp.schema.common.ModelConstants; import eu.dnetlib.dhp.schema.common.ModelConstants;
import eu.dnetlib.dhp.schema.common.ModelSupport; import eu.dnetlib.dhp.schema.common.ModelSupport;
@ -21,198 +8,163 @@ import eu.dnetlib.dhp.schema.oaf.DataInfo;
import eu.dnetlib.dhp.schema.oaf.Relation; import eu.dnetlib.dhp.schema.oaf.Relation;
import eu.dnetlib.dhp.utils.ISLookupClientFactory; import eu.dnetlib.dhp.utils.ISLookupClientFactory;
import eu.dnetlib.enabling.is.lookup.rmi.ISLookUpService; import eu.dnetlib.enabling.is.lookup.rmi.ISLookUpService;
import org.apache.commons.io.IOUtils;
import org.apache.commons.lang3.StringUtils;
import org.apache.spark.SparkConf;
import org.apache.spark.api.java.function.FilterFunction;
import org.apache.spark.api.java.function.MapFunction;
import org.apache.spark.api.java.function.ReduceFunction;
import org.apache.spark.sql.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import scala.Tuple2; import scala.Tuple2;
import scala.Tuple3; import scala.Tuple3;
import java.util.Objects;
import static org.apache.spark.sql.functions.col;
public class SparkPropagateRelation extends AbstractSparkAction { public class SparkPropagateRelation extends AbstractSparkAction {
private static final Logger log = LoggerFactory.getLogger(SparkPropagateRelation.class); private static final Logger log = LoggerFactory.getLogger(SparkPropagateRelation.class);
enum FieldType { private static Encoder<Relation> REL_BEAN_ENC = Encoders.bean(Relation.class);
SOURCE, TARGET
}
public SparkPropagateRelation(ArgumentApplicationParser parser, SparkSession spark) { private static Encoder<Relation> REL_KRYO_ENC = Encoders.kryo(Relation.class);
super(parser, spark);
}
public static void main(String[] args) throws Exception { public SparkPropagateRelation(ArgumentApplicationParser parser, SparkSession spark) {
ArgumentApplicationParser parser = new ArgumentApplicationParser( super(parser, spark);
IOUtils }
.toString(
SparkPropagateRelation.class
.getResourceAsStream(
"/eu/dnetlib/dhp/oa/dedup/propagateRelation_parameters.json")));
parser.parseArgument(args); public static void main(String[] args) throws Exception {
ArgumentApplicationParser parser = new ArgumentApplicationParser(
IOUtils
.toString(
SparkPropagateRelation.class
.getResourceAsStream(
"/eu/dnetlib/dhp/oa/dedup/propagateRelation_parameters.json")));
SparkConf conf = new SparkConf(); parser.parseArgument(args);
conf.set("spark.serializer", "org.apache.spark.serializer.KryoSerializer");
conf.registerKryoClasses(ModelSupport.getOafModelClasses());
new SparkPropagateRelation(parser, getSparkSession(conf)) SparkConf conf = new SparkConf();
.run(ISLookupClientFactory.getLookUpService(parser.get("isLookUpUrl"))); conf.set("spark.serializer", "org.apache.spark.serializer.KryoSerializer");
} conf.registerKryoClasses(ModelSupport.getOafModelClasses());
@Override new SparkPropagateRelation(parser, getSparkSession(conf))
public void run(ISLookUpService isLookUpService) { .run(ISLookupClientFactory.getLookUpService(parser.get("isLookUpUrl")));
}
final String graphBasePath = parser.get("graphBasePath"); @Override
final String workingPath = parser.get("workingPath"); public void run(ISLookUpService isLookUpService) {
final String graphOutputPath = parser.get("graphOutputPath");
log.info("graphBasePath: '{}'", graphBasePath); final String graphBasePath = parser.get("graphBasePath");
log.info("workingPath: '{}'", workingPath); final String workingPath = parser.get("workingPath");
log.info("graphOutputPath: '{}'", graphOutputPath); final String graphOutputPath = parser.get("graphOutputPath");
final String outputRelationPath = DedupUtility.createEntityPath(graphOutputPath, "relation"); log.info("graphBasePath: '{}'", graphBasePath);
removeOutputDir(spark, outputRelationPath); log.info("workingPath: '{}'", workingPath);
log.info("graphOutputPath: '{}'", graphOutputPath);
Dataset<Relation> mergeRels = spark final String outputRelationPath = DedupUtility.createEntityPath(graphOutputPath, "relation");
.read() removeOutputDir(spark, outputRelationPath);
.load(DedupUtility.createMergeRelPath(workingPath, "*", "*"))
.as(Encoders.bean(Relation.class));
// <mergedObjectID, dedupID> Dataset<Relation> mergeRels = spark
Dataset<Tuple2<String, String>> mergedIds = mergeRels .read()
.where(col("relClass").equalTo(ModelConstants.MERGES)) .load(DedupUtility.createMergeRelPath(workingPath, "*", "*"))
.select(col("source"), col("target")) .as(REL_BEAN_ENC);
.distinct()
.map(
(MapFunction<Row, Tuple2<String, String>>) r -> new Tuple2<>(r.getString(1), r.getString(0)),
Encoders.tuple(Encoders.STRING(), Encoders.STRING()))
.cache();
final String relationPath = DedupUtility.createEntityPath(graphBasePath, "relation"); // <mergedObjectID, dedupID>
Dataset<Row> mergedIds = mergeRels
.where(col("relClass").equalTo(ModelConstants.MERGES))
.select(col("source").as("dedupID"), col("target").as("mergedObjectID"))
.distinct()
.cache();
Dataset<Relation> rels = spark.read().textFile(relationPath).map(patchRelFn(), Encoders.bean(Relation.class)); final String inputRelationPath = DedupUtility.createEntityPath(graphBasePath, "relation");
Dataset<Relation> newRels = createNewRels(rels, mergedIds, getFixRelFn()); Dataset<Relation> rels = spark.read().schema(REL_BEAN_ENC.schema()).json(inputRelationPath)
.as(REL_BEAN_ENC)
// .map((MapFunction<Relation, Relation>) rel -> {
// if (rel.getDataInfo() == null) {
// rel.setDataInfo(new DataInfo());
// }
// return rel;
// }, REL_BEAN_ENC)
;
Dataset<Relation> updated = processDataset( Dataset<Tuple3<Relation, String, String>> dedupedRels = rels
processDataset(rels, mergedIds, FieldType.SOURCE, getDeletedFn()), .joinWith(mergedIds, rels.col("source").equalTo(mergedIds.col("mergedObjectID")), "left_outer")
mergedIds, .joinWith(mergedIds, col("_1.target").equalTo(mergedIds.col("mergedObjectID")), "left_outer")
FieldType.TARGET, .filter("_1._2 IS NOT NULL OR _2 IS NOT NULL")
getDeletedFn()); .select("_1._1", "_1._2.dedupID", "_2.dedupID")
.as(Encoders.tuple(REL_BEAN_ENC, Encoders.STRING(), Encoders.STRING()))
.cache();
save( mergedIds.unpersist();
distinctRelations(
newRels
.union(updated)
.union(mergeRels)
.map((MapFunction<Relation, Relation>) r -> r, Encoders.kryo(Relation.class)))
.filter((FilterFunction<Relation>) r -> !Objects.equals(r.getSource(), r.getTarget())),
outputRelationPath, SaveMode.Overwrite);
}
private Dataset<Relation> distinctRelations(Dataset<Relation> rels) { Dataset<Relation> newRels = dedupedRels
return rels .map((MapFunction<Tuple3<Relation, String, String>, Relation>) t -> {
.filter(getRelationFilterFunction()) Relation r = t._1();
.groupByKey( String newSource = t._2();
(MapFunction<Relation, String>) r -> String String newTarget = t._3();
.join(r.getSource(), r.getTarget(), r.getRelType(), r.getSubRelType(), r.getRelClass()),
Encoders.STRING())
.agg(new RelationAggregator().toColumn())
.map((MapFunction<Tuple2<String, Relation>, Relation>) Tuple2::_2, Encoders.bean(Relation.class));
}
// redirect the relations to the dedupID if (r.getDataInfo() == null) {
private static Dataset<Relation> createNewRels( r.setDataInfo(new DataInfo());
Dataset<Relation> rels, // all the relations to be redirected }
Dataset<Tuple2<String, String>> mergedIds, // merge rels: <mergedObjectID, dedupID> r.getDataInfo().setDeletedbyinference(false);
MapFunction<Tuple2<Tuple2<Tuple3<String, Relation, String>, Tuple2<String, String>>, Tuple2<String, String>>, Relation> mapRel) {
// <sourceID, relation, targetID> if (newSource != null)
Dataset<Tuple3<String, Relation, String>> mapped = rels r.setSource(newSource);
.map(
(MapFunction<Relation, Tuple3<String, Relation, String>>) r -> new Tuple3<>(getId(r, FieldType.SOURCE),
r, getId(r, FieldType.TARGET)),
Encoders.tuple(Encoders.STRING(), Encoders.kryo(Relation.class), Encoders.STRING()));
// < <sourceID, relation, target>, <sourceID, dedupID> > if (newTarget != null)
Dataset<Tuple2<Tuple3<String, Relation, String>, Tuple2<String, String>>> relSource = mapped r.setTarget(newTarget);
.joinWith(mergedIds, mapped.col("_1").equalTo(mergedIds.col("_1")), "left_outer");
// < <<sourceID, relation, targetID>, <sourceID, dedupID>>, <targetID, dedupID> > return r;
Dataset<Tuple2<Tuple2<Tuple3<String, Relation, String>, Tuple2<String, String>>, Tuple2<String, String>>> relSourceTarget = relSource }, REL_BEAN_ENC)
.joinWith(mergedIds, relSource.col("_1._3").equalTo(mergedIds.col("_1")), "left_outer"); .distinct();
return relSourceTarget Dataset<Relation> updated = dedupedRels
.filter( .map((MapFunction<Tuple3<Relation, String, String>, Relation>) t -> {
(FilterFunction<Tuple2<Tuple2<Tuple3<String, Relation, String>, Tuple2<String, String>>, Tuple2<String, String>>>) r -> r Relation r = t._1();
._1() if (r.getDataInfo() == null) {
._1() != null || r._2() != null) r.setDataInfo(new DataInfo());
.map(mapRel, Encoders.bean(Relation.class)) }
.distinct(); r.getDataInfo().setDeletedbyinference(true);
} return r;
}, REL_BEAN_ENC);
private static Dataset<Relation> processDataset( save(
Dataset<Relation> rels, distinctRelations(
Dataset<Tuple2<String, String>> mergedIds, newRels
FieldType type, .union(updated)
MapFunction<Tuple2<Tuple2<String, Relation>, Tuple2<String, String>>, Relation> mapFn) { .union(mergeRels)
final Dataset<Tuple2<String, Relation>> mapped = rels .map((MapFunction<Relation, Relation>) r -> r, REL_KRYO_ENC)
.map( )
(MapFunction<Relation, Tuple2<String, Relation>>) r -> new Tuple2<>(getId(r, type), r), .filter((FilterFunction<Relation>) r -> !Objects.equals(r.getSource(), r.getTarget())),
Encoders.tuple(Encoders.STRING(), Encoders.kryo(Relation.class))); outputRelationPath, SaveMode.Overwrite);
return mapped }
.joinWith(mergedIds, mapped.col("_1").equalTo(mergedIds.col("_1")), "left_outer")
.map(mapFn, Encoders.bean(Relation.class));
}
private FilterFunction<Relation> getRelationFilterFunction() { private Dataset<Relation> distinctRelations(Dataset<Relation> rels) {
return r -> StringUtils.isNotBlank(r.getSource()) || return rels
StringUtils.isNotBlank(r.getTarget()) || .filter(getRelationFilterFunction())
StringUtils.isNotBlank(r.getRelType()) || .groupByKey(
StringUtils.isNotBlank(r.getSubRelType()) || (MapFunction<Relation, String>) r -> String
StringUtils.isNotBlank(r.getRelClass()); .join(" ", r.getSource(), r.getTarget(), r.getRelType(), r.getSubRelType(), r.getRelClass()),
} Encoders.STRING())
.reduceGroups((ReduceFunction<Relation>) (b, a) -> {
b.mergeFrom(a);
return b;
}
)
private static String getId(Relation r, FieldType type) { .map((MapFunction<Tuple2<String, Relation>, Relation>) Tuple2::_2, REL_BEAN_ENC);
switch (type) { }
case SOURCE:
return r.getSource();
case TARGET:
return r.getTarget();
default:
throw new IllegalArgumentException("");
}
}
private static MapFunction<Tuple2<Tuple2<Tuple3<String, Relation, String>, Tuple2<String, String>>, Tuple2<String, String>>, Relation> getFixRelFn() {
return value -> {
Relation r = value._1()._1()._2();
String newSource = value._1()._2() != null ? value._1()._2()._2() : null;
String newTarget = value._2() != null ? value._2()._2() : null;
if (r.getDataInfo() == null) {
r.setDataInfo(new DataInfo());
}
r.getDataInfo().setDeletedbyinference(false);
if (newSource != null)
r.setSource(newSource);
if (newTarget != null)
r.setTarget(newTarget);
return r;
};
}
private static MapFunction<Tuple2<Tuple2<String, Relation>, Tuple2<String, String>>, Relation> getDeletedFn() {
return value -> {
if (value._2() != null) {
Relation r = value._1()._2();
if (r.getDataInfo() == null) {
r.setDataInfo(new DataInfo());
}
r.getDataInfo().setDeletedbyinference(true);
return r;
}
return value._1()._2();
};
}
private FilterFunction<Relation> getRelationFilterFunction() {
return r -> StringUtils.isNotBlank(r.getSource()) ||
StringUtils.isNotBlank(r.getTarget()) ||
StringUtils.isNotBlank(r.getRelType()) ||
StringUtils.isNotBlank(r.getSubRelType()) ||
StringUtils.isNotBlank(r.getRelClass());
}
} }