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removed unuseful classes

This commit is contained in:
Miriam Baglioni 2020-04-15 12:45:49 +02:00
parent 964b22d418
commit 3577219127
3 changed files with 0 additions and 673 deletions

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@ -1,333 +0,0 @@
package eu.dnetlib.dhp.countrypropagation;
import com.fasterxml.jackson.databind.ObjectMapper;
import eu.dnetlib.dhp.PropagationConstant;
import eu.dnetlib.dhp.TypedRow;
import eu.dnetlib.dhp.application.ArgumentApplicationParser;
import eu.dnetlib.dhp.schema.oaf.*;
import net.sf.saxon.expr.ContextMappingFunction;
import net.sf.saxon.expr.flwor.Tuple;
import net.sf.saxon.om.Item;
import org.apache.commons.io.IOUtils;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.io.Text;
import org.apache.spark.SparkConf;
import org.apache.spark.api.java.JavaPairRDD;
import org.apache.spark.api.java.JavaRDD;
import org.apache.spark.api.java.JavaSparkContext;
import org.apache.spark.sql.*;
import org.apache.spark.sql.Dataset;
import org.codehaus.janino.Java;
import scala.Tuple2;
import javax.sql.DataSource;
import java.beans.Encoder;
import java.io.File;
import java.io.IOException;
import java.util.*;
import static eu.dnetlib.dhp.PropagationConstant.*;
public class SparkCountryPropagationJob {
public static void main(String[] args) throws Exception {
final ArgumentApplicationParser parser = new ArgumentApplicationParser(IOUtils.toString(SparkCountryPropagationJob.class.getResourceAsStream("/eu/dnetlib/dhp/countrypropagation/input_countrypropagation_parameters.json")));
parser.parseArgument(args);
SparkConf conf = new SparkConf();
conf.set("hive.metastore.uris", parser.get("hive_metastore_uris"));
final SparkSession spark = SparkSession
.builder()
.appName(SparkCountryPropagationJob.class.getSimpleName())
.master(parser.get("master"))
.config(conf)
.enableHiveSupport()
.getOrCreate();
final String inputPath = parser.get("sourcePath");
final String outputPath = "/tmp/provision/propagation/countrytoresultfrominstitutionalrepositories";
createOutputDirs(outputPath, FileSystem.get(spark.sparkContext().hadoopConfiguration()));
List<String> whitelist = Arrays.asList(parser.get("whitelist").split(";"));
List<String> allowedtypes = Arrays.asList(parser.get("allowedtypes").split(";"));
boolean writeUpdates = TRUE.equals(parser.get("writeUpdate"));
boolean saveGraph = TRUE.equals(parser.get("saveGraph"));
// datasource(spark, whitelist, outputPath, inputPath, "true".equals(parser.get("writeUpdate")),
// "true".equals(parser.get("saveGraph")), allowedtypes);
//
// }
//
//
// private static void datasource(SparkSession spark, List<String> whitelist, String outputPath, String inputPath,
// boolean writeUpdates, boolean saveGraph, List<String> allowedtypes){
String whitelisted = "";
for (String i : whitelist){
whitelisted += " OR id = '" + i + "'";
}
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
Dataset<Datasource> datasource = spark.createDataset(sc.textFile(inputPath + "/datasource")
.map(item -> new ObjectMapper().readValue(item, Datasource.class)).rdd(), Encoders.bean(Datasource.class));
Dataset<Relation> relation = spark.createDataset(sc.textFile(inputPath + "/relation")
.map(item -> new ObjectMapper().readValue(item, Relation.class)).rdd(), Encoders.bean(Relation.class));
Dataset<Organization> organization = spark.createDataset(sc.textFile(inputPath + "/organization")
.map(item -> new ObjectMapper().readValue(item, Organization.class)).rdd(), Encoders.bean(Organization.class));
Dataset<eu.dnetlib.dhp.schema.oaf.Dataset> dataset = spark.createDataset(sc.textFile(inputPath + "/dataset")
.map(item -> new ObjectMapper().readValue(item, eu.dnetlib.dhp.schema.oaf.Dataset.class)).rdd(),
Encoders.bean(eu.dnetlib.dhp.schema.oaf.Dataset.class));
Dataset<OtherResearchProduct> other = spark.createDataset(sc.textFile(inputPath + "/otherresearchproduct")
.map(item -> new ObjectMapper().readValue(item, eu.dnetlib.dhp.schema.oaf.OtherResearchProduct.class)).rdd(),
Encoders.bean(eu.dnetlib.dhp.schema.oaf.OtherResearchProduct.class));
Dataset<Software> software = spark.createDataset(sc.textFile(inputPath + "/software")
.map(item -> new ObjectMapper().readValue(item, eu.dnetlib.dhp.schema.oaf.Software.class)).rdd(),
Encoders.bean(eu.dnetlib.dhp.schema.oaf.Software.class));
Dataset<Publication> publication = spark.createDataset(sc.textFile(inputPath + "/publication")
.map(item -> new ObjectMapper().readValue(item, eu.dnetlib.dhp.schema.oaf.Publication.class)).rdd(),
Encoders.bean(eu.dnetlib.dhp.schema.oaf.Publication.class));
datasource.createOrReplaceTempView("datasource");
relation.createOrReplaceTempView("relation");
organization.createOrReplaceTempView("organization");
//todo add length(country.classid)>0
String query = "SELECT source ds, target org, country.classid country " +
"FROM ( SELECT id " +
"FROM datasource " +
"WHERE (datainfo.deletedbyinference = false " + whitelisted + ") " +
getConstraintList("datasourcetype.classid = '", allowedtypes) +
// "datasourcetype.classid = 'pubsrepository::institutional' " +
// "AND (datainfo.deletedbyinference = false " + whitelisted + ") ) d " +
"JOIN ( SELECT source, target " +
"FROM relation " +
"WHERE relclass = 'provides' " +
"AND datainfo.deletedbyinference = false ) rel " +
"ON d.id = rel.source " +
"JOIN (SELECT id, country " +
"FROM organization " +
"WHERE datainfo.deletedbyinference = false ) o " +
"ON o.id = rel.target";
//todo broadcast
Dataset<Row> rels = spark.sql(query);
rels.createOrReplaceTempView("rels");
software.createOrReplaceTempView("software");
final JavaRDD<Row> toupdateresultsoftware = propagateOnResult(spark, "software");
dataset.createOrReplaceTempView("dataset");
final JavaRDD<Row> toupdateresultdataset = propagateOnResult(spark, "dataset");
other.createOrReplaceTempView("other");
final JavaRDD<Row> toupdateresultother = propagateOnResult(spark, "other");
publication.createOrReplaceTempView("publication");
final JavaRDD<Row> toupdateresultpublication = propagateOnResult(spark, "publication");
if(writeUpdates){
writeUpdates(toupdateresultsoftware, toupdateresultdataset, toupdateresultother, toupdateresultpublication, outputPath);
}
if(saveGraph){
createUpdateForSoftwareDataset(toupdateresultsoftware, inputPath, spark)
.map(s -> new ObjectMapper().writeValueAsString(s))
.saveAsTextFile(outputPath + "/software");
createUpdateForDatasetDataset(toupdateresultdataset,inputPath,spark)
.map(d -> new ObjectMapper().writeValueAsString(d))
.saveAsTextFile(outputPath + "/dataset");
createUpdateForOtherDataset(toupdateresultother, inputPath, spark)
.map(o -> new ObjectMapper().writeValueAsString(o))
.saveAsTextFile(outputPath + "/otherresearchproduct");
createUpdateForPublicationDataset(toupdateresultpublication, inputPath, spark)
.map(p -> new ObjectMapper().writeValueAsString(p))
.saveAsTextFile(outputPath + "/publication");
}
}
private static void writeUpdates(JavaRDD<Row> software, JavaRDD<Row> dataset, JavaRDD<Row> other , JavaRDD<Row> publication, String outputPath){
createUpdateForResultDatasetWrite(software, outputPath, "update_software");
createUpdateForResultDatasetWrite(dataset, outputPath, "update_dataset");
createUpdateForResultDatasetWrite(other, outputPath, "update_other");
createUpdateForResultDatasetWrite(publication, outputPath, "update_publication");
}
private static JavaRDD<OtherResearchProduct> createUpdateForOtherDataset(JavaRDD<Row> toupdateresult, String inputPath, SparkSession spark) {
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
return sc.textFile(inputPath + "/otherresearchproduct")
.map(item -> new ObjectMapper().readValue(item, OtherResearchProduct.class))
.mapToPair(s -> new Tuple2<>(s.getId(), s)).leftOuterJoin(getStringResultJavaPairRDD(toupdateresult))
.map(c -> {
OtherResearchProduct oaf = c._2()._1();
List<Country> countryList = oaf.getCountry();
if (c._2()._2().isPresent()) {
HashSet<String> countries = new HashSet<>();
for (Qualifier country : countryList) {
countries.add(country.getClassid());
}
Result r = c._2()._2().get();
for (Country country : r.getCountry()) {
if (!countries.contains(country.getClassid())) {
countryList.add(country);
}
}
oaf.setCountry(countryList);
}
return oaf;
});
}
private static JavaRDD<Publication> createUpdateForPublicationDataset(JavaRDD<Row> toupdateresult, String inputPath, SparkSession spark) {
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
return sc.textFile(inputPath + "/publication")
.map(item -> new ObjectMapper().readValue(item, Publication.class))
.mapToPair(s -> new Tuple2<>(s.getId(), s)).leftOuterJoin(getStringResultJavaPairRDD(toupdateresult))
.map(c -> {
Publication oaf = c._2()._1();
List<Country> countryList = oaf.getCountry();
if (c._2()._2().isPresent()) {
HashSet<String> countries = new HashSet<>();
for (Qualifier country : countryList) {
countries.add(country.getClassid());
}
Result r = c._2()._2().get();
for (Country country : r.getCountry()) {
if (!countries.contains(country.getClassid())) {
countryList.add(country);
}
}
oaf.setCountry(countryList);
}
return oaf;
});
}
private static JavaRDD<Software> createUpdateForSoftwareDataset(JavaRDD<Row> toupdateresult, String inputPath, SparkSession spark) {
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
return sc.textFile(inputPath + "/software")
.map(item -> new ObjectMapper().readValue(item, Software.class))
.mapToPair(s -> new Tuple2<>(s.getId(), s)).leftOuterJoin(getStringResultJavaPairRDD(toupdateresult))
.map(c -> {
Software oaf = c._2()._1();
List<Country> countryList = oaf.getCountry();
if (c._2()._2().isPresent()) {
HashSet<String> countries = new HashSet<>();
for (Qualifier country : countryList) {
countries.add(country.getClassid());
}
Result r = c._2()._2().get();
for (Country country : r.getCountry()) {
if (!countries.contains(country.getClassid())) {
countryList.add(country);
}
}
oaf.setCountry(countryList);
}
return oaf;
});
}
private static JavaRDD<eu.dnetlib.dhp.schema.oaf.Dataset> createUpdateForDatasetDataset(JavaRDD<Row> toupdateresult, String inputPath, SparkSession spark) {
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
return sc.textFile(inputPath + "/dataset")
.map(item -> new ObjectMapper().readValue(item, eu.dnetlib.dhp.schema.oaf.Dataset.class))
.mapToPair(d -> new Tuple2<>(d.getId(), d)).leftOuterJoin(getStringResultJavaPairRDD(toupdateresult))
.map(c -> {
eu.dnetlib.dhp.schema.oaf.Dataset oaf = c._2()._1();
List<Country> countryList = oaf.getCountry();
if (c._2()._2().isPresent()) {
HashSet<String> countries = new HashSet<>();
for (Qualifier country : countryList) {
countries.add(country.getClassid());
}
Result r = c._2()._2().get();
for (Country country : r.getCountry()) {
if (!countries.contains(country.getClassid())) {
countryList.add(country);
}
}
oaf.setCountry(countryList);
}
return oaf;
});
}
private static JavaRDD<Row> propagateOnResult(SparkSession spark, String result_type) {
String query;
query = "SELECT id, inst.collectedfrom.key cf , inst.hostedby.key hb " +
"FROM ( SELECT id, instance " +
"FROM " + result_type +
" WHERE datainfo.deletedbyinference = false) ds " +
"LATERAL VIEW EXPLODE(instance) i AS inst";
Dataset<Row> cfhb = spark.sql(query);
cfhb.createOrReplaceTempView("cfhb");
return countryPropagationAssoc(spark, "cfhb").toJavaRDD();
}
private static Dataset<Row> countryPropagationAssoc(SparkSession spark, String cfhbTable){
String query = "SELECT id, collect_set(country) country "+
"FROM ( SELECT id, country " +
"FROM rels " +
"JOIN " + cfhbTable +
" ON cf = ds " +
"UNION ALL " +
"SELECT id , country " +
"FROM rels " +
"JOIN " + cfhbTable +
" ON hb = ds ) tmp " +
"GROUP BY id";
return spark.sql(query);
}
private static JavaPairRDD<String, Result> getStringResultJavaPairRDD(JavaRDD<Row> toupdateresult) {
return toupdateresult.map(c -> {
List<Country> countryList = new ArrayList<>();
List<String> tmp = c.getList(1);
for (String country : tmp) {
countryList.add(getCountry(country));
}
Result r = new Result();
r.setId(c.getString(0));
r.setCountry(countryList);
return r;
}).mapToPair(r -> new Tuple2<>(r.getId(), r));
}
private static void createUpdateForResultDatasetWrite(JavaRDD<Row> toupdateresult, String outputPath, String type){
toupdateresult.map(c -> {
List<Country> countryList = new ArrayList<>();
List<String> tmp = c.getList(1);
for (String country : tmp) {
countryList.add(getCountry(country));
}
Result r = new Result();
r.setId(c.getString(0));
r.setCountry(countryList);
return r;
}).map(r ->new ObjectMapper().writeValueAsString(r))
.saveAsTextFile(outputPath+"/"+type);
}
}

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package eu.dnetlib.dhp.projecttoresult;
import com.fasterxml.jackson.databind.ObjectMapper;
import eu.dnetlib.dhp.TypedRow;
import eu.dnetlib.dhp.application.ArgumentApplicationParser;
import eu.dnetlib.dhp.schema.oaf.*;
import org.apache.commons.io.IOUtils;
import org.apache.hadoop.io.Text;
import org.apache.spark.api.java.JavaPairRDD;
import org.apache.spark.api.java.JavaRDD;
import org.apache.spark.api.java.JavaSparkContext;
import org.apache.spark.sql.SparkSession;
import scala.Tuple2;
import java.io.File;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashSet;
import java.util.List;
import static eu.dnetlib.dhp.PropagationConstant.*;
import static eu.dnetlib.dhp.PropagationConstant.toPair;
public class SparkResultToProjectThroughSemRelJob {
public static void main(String[] args) throws Exception {
final ArgumentApplicationParser parser = new ArgumentApplicationParser(IOUtils.toString(SparkResultToProjectThroughSemRelJob.class.getResourceAsStream("/eu/dnetlib/dhp/projecttoresult/input_projecttoresult_parameters.json")));
parser.parseArgument(args);
final SparkSession spark = SparkSession
.builder()
.appName(SparkResultToProjectThroughSemRelJob.class.getSimpleName())
.master(parser.get("master"))
.enableHiveSupport()
.getOrCreate();
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
final String inputPath = parser.get("sourcePath");
final String outputPath = "/tmp/provision/propagation/projecttoresult";
final List<String> allowedsemrel = Arrays.asList(parser.get("allowedsemrels").split(";"));
File directory = new File(outputPath);
if (!directory.exists()) {
directory.mkdirs();
}
JavaRDD<Relation> relations = sc.sequenceFile(inputPath + "/relation", Text.class, Text.class)
.map(item -> new ObjectMapper().readValue(item._2().toString(), Relation.class)).cache();
JavaPairRDD<String, TypedRow> result_result = getResultResultSemRel(allowedsemrel, relations);
JavaPairRDD<String, TypedRow> result_project = relations
.filter(r -> !r.getDataInfo().getDeletedbyinference())
.filter(r -> RELATION_RESULT_PROJECT_REL_CLASS.equals(r.getRelClass()) && RELATION_RESULTPROJECT_REL_TYPE.equals(r.getRelType()))
.map(r -> new TypedRow().setSourceId(r.getSource()).setTargetId(r.getTarget()))
.mapToPair(toPair());
//relationships from project to result. One pair for each relationship for results having allowed semantics relation with another result
JavaPairRDD<String, TypedRow> project_result = result_project.join(result_result)
.map(c -> {
String projectId = c._2()._1().getTargetId();
String resultId = c._2()._2().getTargetId();
return new TypedRow().setSourceId(projectId).setTargetId(resultId);
})
.mapToPair(toPair());
//relationships from project to result. One Pair for each project => project id list of results related to the project
JavaPairRDD<String, TypedRow> project_results = relations
.filter(r -> !r.getDataInfo().getDeletedbyinference())
.filter(r -> RELATION_PROJECT_RESULT_REL_CLASS.equals(r.getRelClass()) && RELATION_RESULTPROJECT_REL_TYPE.equals(r.getRelType()))
.map(r -> new TypedRow().setSourceId(r.getSource()).setTargetId(r.getTarget()))
.mapToPair(toPair())
.reduceByKey((a, b) -> {
if (a == null) {
return b;
}
if (b == null) {
return a;
}
a.addAll(b.getAccumulator());
return a;
});
JavaRDD<Relation> newRels = project_result.join(project_results)
.flatMap(c -> {
String resId = c._2()._1().getTargetId();
if (c._2()._2().getAccumulator().contains(resId)) {
return null;
}
String progId = c._2()._1().getSourceId();
List<Relation> rels = new ArrayList();
rels.add(getRelation(progId, resId, RELATION_PROJECT_RESULT_REL_CLASS,
RELATION_RESULTPROJECT_REL_TYPE, RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID, PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
rels.add(getRelation(resId, progId, RELATION_RESULT_PROJECT_REL_CLASS,
RELATION_RESULTPROJECT_REL_TYPE, RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID, PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
return rels.iterator();
})
.cache();
newRels.map(p -> new ObjectMapper().writeValueAsString(p))
.saveAsTextFile(outputPath + "/relation_new");
newRels.union(relations).map(p -> new ObjectMapper().writeValueAsString(p))
.saveAsTextFile(outputPath + "/relation");
}
}

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package eu.dnetlib.dhp.projecttoresult;
import com.fasterxml.jackson.databind.ObjectMapper;
import eu.dnetlib.dhp.TypedRow;
import eu.dnetlib.dhp.application.ArgumentApplicationParser;
import eu.dnetlib.dhp.schema.oaf.Relation;
import org.apache.commons.io.IOUtils;
import org.apache.hadoop.fs.FileSystem;
import org.apache.spark.SparkConf;
import org.apache.spark.api.java.JavaPairRDD;
import org.apache.spark.api.java.JavaRDD;
import org.apache.spark.api.java.JavaSparkContext;
import org.apache.spark.sql.Dataset;
import org.apache.spark.sql.Encoders;
import org.apache.spark.sql.Row;
import org.apache.spark.sql.SparkSession;
import scala.Tuple2;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.Set;
import static eu.dnetlib.dhp.PropagationConstant.*;
public class SparkResultToProjectThroughSemRelJob2 {
public static void main(String[] args) throws Exception {
final ArgumentApplicationParser parser = new ArgumentApplicationParser(
IOUtils.toString(SparkResultToProjectThroughSemRelJob2.class
.getResourceAsStream("/eu/dnetlib/dhp/projecttoresult/input_projecttoresult_parameters.json")));
parser.parseArgument(args);
parser.getObjectMap().keySet().stream().forEach(k -> System.out.println(k + " = " + parser.getObjectMap().get(k)));
SparkConf conf = new SparkConf();
conf.set("hive.metastore.uris", parser.get("hive_metastore_uris"));
final SparkSession spark = SparkSession
.builder()
.appName(SparkResultToProjectThroughSemRelJob2.class.getSimpleName())
.master(parser.get("master"))
.config(conf)
.enableHiveSupport()
.getOrCreate();
final JavaSparkContext sc = new JavaSparkContext(spark.sparkContext());
final String inputPath = parser.get("sourcePath");
final String outputPath = "/tmp/provision/propagation/projecttoresult";
boolean writeUpdates = "true".equals(parser.get("writeUpdate"));
boolean saveGraph = "true".equals(parser.get("saveGraph"));
final List<String> allowedsemrel = Arrays.asList(parser.get("allowedsemrels").split(";"));
createOutputDirs(outputPath, FileSystem.get(spark.sparkContext().hadoopConfiguration()));
Dataset<Relation> relation = spark.createDataset(sc.textFile(inputPath + "/relation")
.map(item -> new ObjectMapper().readValue(item, Relation.class)).rdd(), Encoders.bean(Relation.class));
relation.createOrReplaceTempView("relation");
String query = "Select source, target " +
"from relation " +
"where datainfo.deletedbyinference = false and relClass = '" + RELATION_RESULT_PROJECT_REL_CLASS + "'";
Dataset<Row> resproj_relation = spark.sql(query);
query = "Select source, target " +
"from relation " +
"where datainfo.deletedbyinference = false " + getConstraintList(" relClass = '", allowedsemrel );
Dataset<Row> resres_relation = spark.sql(query);
resres_relation.createOrReplaceTempView("resres_relation");
resproj_relation.createOrReplaceTempView("resproj_relation");
query ="SELECT proj, collect_set(r1target) result_set " +
"FROM (" +
" SELECT r1.source as source, r1.target as r1target, r2.target as proj " +
" FROM resres_relation r1 " +
" JOIN resproj_relation r2 " +
" ON r1.source = r2.source " +
" ) tmp " +
"GROUP BY proj ";
Dataset<Row> toaddrelations = spark.sql(query);
query = "select target, collect_set(source) result_list from " +
"resproj_relation " +
"group by target";
Dataset<Row> project_resultlist = spark.sql(query);
//if (writeUpdaes){
toaddrelations.toJavaRDD().map(r->new ObjectMapper().writeValueAsString(r))
.saveAsTextFile(outputPath + "/toupdaterelations");
//}
if(saveGraph){
JavaRDD<Relation> new_relations = toaddrelations.toJavaRDD().mapToPair(r -> new Tuple2<>(r.getString(0), r.getList(1)))
.leftOuterJoin(project_resultlist.toJavaRDD().mapToPair(pr -> new Tuple2<>(pr.getString(0), pr.getList(1))))
.flatMap(c -> {
List<Object> toAddRel = new ArrayList<>();
toAddRel.addAll(c._2()._1());
if (c._2()._2().isPresent()) {
List<Object> originalRels = c._2()._2().get();
for (Object o : originalRels) {
if (toAddRel.contains(o)) {
toAddRel.remove(o);
}
}
}
List<Relation> relationList = new ArrayList<>();
String projId = c._1();
for (Object r : toAddRel) {
String rId = (String) r;
relationList.add(getRelation(rId, projId, RELATION_RESULT_PROJECT_REL_CLASS, RELATION_RESULTPROJECT_REL_TYPE,
RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
relationList.add(getRelation(projId, rId, RELATION_PROJECT_RESULT_REL_CLASS, RELATION_RESULTPROJECT_REL_TYPE,
RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID,
PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
}
if(relationList.size()==0){
return null;
}
return relationList.iterator();
}).filter(r -> !(r==null));
new_relations.map(r-> new ObjectMapper().writeValueAsString(r))
.saveAsTextFile(outputPath + "/new_relations" );
sc.textFile(inputPath + "/relation")
.map(item -> new ObjectMapper().readValue(item, Relation.class))
.union(new_relations)
.map(r -> new ObjectMapper().writeValueAsString(r))
.saveAsTextFile(outputPath + "/relation");
}
//JavaPairRDD<String, TypedRow> result_result = getResultResultSemRel(allowedsemrel, relations);
// JavaPairRDD<String, TypedRow> result_project = relations
// .filter(r -> !r.getDataInfo().getDeletedbyinference())
// .filter(r -> RELATION_RESULT_PROJECT_REL_CLASS.equals(r.getRelClass())
// && RELATION_RESULTPROJECT_REL_TYPE.equals(r.getRelType()))
// .map(rel ->{
//
// TypedRow tr = new TypedRow();
// tr.setSourceId(rel.getSource());
// tr.setTargetId(rel.getTarget());
// return tr;
// })
// .mapToPair(toPair());
//
// //relationships from project to result. One pair for each relationship for results having allowed semantics relation with another result
// JavaPairRDD<String, TypedRow> project_result = result_project.join(result_result)
// .map(c -> {
// String projectId = c._2()._1().getTargetId();
// String resultId = c._2()._2().getTargetId();
// TypedRow tr = new TypedRow(); tr.setSourceId(projectId); tr.setTargetId(resultId);
// return tr;
// })
// .mapToPair(toPair());
//
// //relationships from project to result. One Pair for each project => project id list of results related to the project
// JavaPairRDD<String, TypedRow> project_results = relations
// .filter(r -> !r.getDataInfo().getDeletedbyinference())
// .filter(r -> RELATION_PROJECT_RESULT_REL_CLASS.equals(r.getRelClass()) && RELATION_RESULTPROJECT_REL_TYPE.equals(r.getRelType()))
// .map(r -> {
// TypedRow tr = new TypedRow(); tr.setSourceId(r.getSource()); tr.setTargetId(r.getTarget());
// return tr;
// })
// .mapToPair(toPair())
// .reduceByKey((a, b) -> {
// if (a == null) {
// return b;
// }
// if (b == null) {
// return a;
// }
// a.addAll(b.getAccumulator());
// return a;
// });
//
//
//
// JavaRDD<Relation> newRels = project_result.join(project_results)
// .flatMap(c -> {
// String resId = c._2()._1().getTargetId();
//
// if (c._2()._2().getAccumulator().contains(resId)) {
// return null;
// }
// String progId = c._2()._1().getSourceId();
// List<Relation> rels = new ArrayList();
//
// rels.add(getRelation(progId, resId, RELATION_PROJECT_RESULT_REL_CLASS,
// RELATION_RESULTPROJECT_REL_TYPE, RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
// PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID, PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
// rels.add(getRelation(resId, progId, RELATION_RESULT_PROJECT_REL_CLASS,
// RELATION_RESULTPROJECT_REL_TYPE, RELATION_RESULTPROJECT_SUBREL_TYPE, PROPAGATION_DATA_INFO_TYPE,
// PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_ID, PROPAGATION_RELATION_RESULT_PROJECT_SEM_REL_CLASS_NAME));
// return rels.iterator();
// })
// .cache();
//
// newRels.map(p -> new ObjectMapper().writeValueAsString(p))
// .saveAsTextFile(outputPath + "/relation_new");
//
// newRels.union(relations).map(p -> new ObjectMapper().writeValueAsString(p))
// .saveAsTextFile(outputPath + "/relation");
}
}