scalafmt: code style for scala #184

Merged
sandro.labruzzo merged 5 commits from scalafmt into beta 2022-01-12 09:58:40 +01:00
67 changed files with 4841 additions and 2629 deletions

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@ -0,0 +1,21 @@
style = defaultWithAlign
align.openParenCallSite = false
align.openParenDefnSite = false
align.tokens = [{code = "->"}, {code = "<-"}, {code = "=>", owner = "Case"}]
continuationIndent.callSite = 2
continuationIndent.defnSite = 2
danglingParentheses = true
indentOperator = spray
maxColumn = 120
newlines.alwaysBeforeTopLevelStatements = true
project.excludeFilters = [".*\\.sbt"]
rewrite.rules = [AvoidInfix]
rewrite.rules = [ExpandImportSelectors]
rewrite.rules = [RedundantBraces]
rewrite.rules = [RedundantParens]
rewrite.rules = [SortImports]
rewrite.rules = [SortModifiers]
rewrite.rules = [PreferCurlyFors]
spaces.inImportCurlyBraces = false
unindentTopLevelOperators = true

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@ -2,71 +2,72 @@ package eu.dnetlib.dhp.application
import scala.io.Source import scala.io.Source
/** /** This is the main Interface SparkApplication
* This is the main Interface SparkApplication * where all the Spark Scala class should inherit
* where all the Spark Scala class should inherit */
*
*/
trait SparkScalaApplication { trait SparkScalaApplication {
/**
* This is the path in the classpath of the json /** This is the path in the classpath of the json
* describes all the argument needed to run * describes all the argument needed to run
*/ */
val propertyPath: String val propertyPath: String
/** /** Utility to parse the arguments using the
* Utility to parse the arguments using the * property json in the classpath identified from
* property json in the classpath identified from * the variable propertyPath
* the variable propertyPath *
* * @param args the list of arguments
* @param args the list of arguments */
*/
def parseArguments(args: Array[String]): ArgumentApplicationParser = { def parseArguments(args: Array[String]): ArgumentApplicationParser = {
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream(propertyPath)).mkString) val parser = new ArgumentApplicationParser(
Source.fromInputStream(getClass.getResourceAsStream(propertyPath)).mkString
)
parser.parseArgument(args) parser.parseArgument(args)
parser parser
} }
/** /** Here all the spark applications runs this method
* Here all the spark applications runs this method * where the whole logic of the spark node is defined
* where the whole logic of the spark node is defined */
*/
def run(): Unit def run(): Unit
} }
import org.apache.spark.SparkConf import org.apache.spark.SparkConf
import org.apache.spark.sql.SparkSession import org.apache.spark.sql.SparkSession
import org.slf4j.Logger import org.slf4j.Logger
abstract class AbstractScalaApplication (val propertyPath:String, val args:Array[String], log:Logger) extends SparkScalaApplication { abstract class AbstractScalaApplication(
val propertyPath: String,
val args: Array[String],
log: Logger
) extends SparkScalaApplication {
var parser: ArgumentApplicationParser = null var parser: ArgumentApplicationParser = null
var spark:SparkSession = null var spark: SparkSession = null
def initialize(): SparkScalaApplication = {
def initialize():SparkScalaApplication = {
parser = parseArguments(args) parser = parseArguments(args)
spark = createSparkSession() spark = createSparkSession()
this this
} }
/** /** Utility for creating a spark session starting from parser
* Utility for creating a spark session starting from parser *
* * @return a spark Session
* @return a spark Session */
*/ private def createSparkSession(): SparkSession = {
private def createSparkSession():SparkSession = { require(parser != null)
require(parser!= null)
val conf:SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val master = parser.get("master") val master = parser.get("master")
log.info(s"Creating Spark session: Master: $master") log.info(s"Creating Spark session: Master: $master")
SparkSession.builder().config(conf) SparkSession
.builder()
.config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(master) .master(master)
.getOrCreate() .getOrCreate()
} }
} }

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@ -14,7 +14,6 @@ import scala.io.Source
object ScholixUtils extends Serializable { object ScholixUtils extends Serializable {
val DNET_IDENTIFIER_SCHEMA: String = "DNET Identifier" val DNET_IDENTIFIER_SCHEMA: String = "DNET Identifier"
val DATE_RELATION_KEY: String = "RelationDate" val DATE_RELATION_KEY: String = "RelationDate"
@ -24,7 +23,11 @@ object ScholixUtils extends Serializable {
case class RelatedEntities(id: String, relatedDataset: Long, relatedPublication: Long) {} case class RelatedEntities(id: String, relatedDataset: Long, relatedPublication: Long) {}
val relations: Map[String, RelationVocabulary] = { val relations: Map[String, RelationVocabulary] = {
val input = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/scholexplorer/relation/relations.json")).mkString val input = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/scholexplorer/relation/relations.json")
)
.mkString
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
@ -32,13 +35,14 @@ object ScholixUtils extends Serializable {
json.extract[Map[String, RelationVocabulary]] json.extract[Map[String, RelationVocabulary]]
} }
def extractRelationDate(relation: Relation): String = { def extractRelationDate(relation: Relation): String = {
if (relation.getProperties == null || !relation.getProperties.isEmpty) if (relation.getProperties == null || !relation.getProperties.isEmpty)
null null
else { else {
val date = relation.getProperties.asScala.find(p => DATE_RELATION_KEY.equalsIgnoreCase(p.getKey)).map(p => p.getValue) val date = relation.getProperties.asScala
.find(p => DATE_RELATION_KEY.equalsIgnoreCase(p.getKey))
.map(p => p.getValue)
if (date.isDefined) if (date.isDefined)
date.get date.get
else else
@ -58,78 +62,80 @@ object ScholixUtils extends Serializable {
def inverseRelationShip(rel: ScholixRelationship): ScholixRelationship = { def inverseRelationShip(rel: ScholixRelationship): ScholixRelationship = {
new ScholixRelationship(rel.getInverse, rel.getSchema, rel.getName) new ScholixRelationship(rel.getInverse, rel.getSchema, rel.getName)
} }
def generateScholixResourceFromResult(r: Result): ScholixResource = {
def generateScholixResourceFromResult(r:Result) :ScholixResource = {
generateScholixResourceFromSummary(ScholixUtils.resultToSummary(r)) generateScholixResourceFromSummary(ScholixUtils.resultToSummary(r))
} }
val statsAggregator: Aggregator[(String, String, Long), RelatedEntities, RelatedEntities] =
new Aggregator[(String, String, Long), RelatedEntities, RelatedEntities] with Serializable {
override def zero: RelatedEntities = null
val statsAggregator: Aggregator[(String, String, Long), RelatedEntities, RelatedEntities] = new Aggregator[(String, String, Long), RelatedEntities, RelatedEntities] with Serializable { override def reduce(b: RelatedEntities, a: (String, String, Long)): RelatedEntities = {
override def zero: RelatedEntities = null val relatedDataset = if ("dataset".equalsIgnoreCase(a._2)) a._3 else 0
val relatedPublication = if ("publication".equalsIgnoreCase(a._2)) a._3 else 0
override def reduce(b: RelatedEntities, a: (String, String, Long)): RelatedEntities = { if (b == null)
val relatedDataset = if ("dataset".equalsIgnoreCase(a._2)) a._3 else 0 RelatedEntities(a._1, relatedDataset, relatedPublication)
val relatedPublication = if ("publication".equalsIgnoreCase(a._2)) a._3 else 0 else
RelatedEntities(
if (b == null) a._1,
RelatedEntities(a._1, relatedDataset, relatedPublication) b.relatedDataset + relatedDataset,
else b.relatedPublication + relatedPublication
RelatedEntities(a._1, b.relatedDataset + relatedDataset, b.relatedPublication + relatedPublication) )
}
override def merge(b1: RelatedEntities, b2: RelatedEntities): RelatedEntities = {
if (b1 != null && b2 != null)
RelatedEntities(b1.id, b1.relatedDataset + b2.relatedDataset, b1.relatedPublication + b2.relatedPublication)
else if (b1 != null)
b1
else
b2
}
override def finish(reduction: RelatedEntities): RelatedEntities = reduction
override def bufferEncoder: Encoder[RelatedEntities] = Encoders.bean(classOf[RelatedEntities])
override def outputEncoder: Encoder[RelatedEntities] = Encoders.bean(classOf[RelatedEntities])
}
val scholixAggregator: Aggregator[(String, Scholix), Scholix, Scholix] = new Aggregator[(String, Scholix), Scholix, Scholix] with Serializable {
override def zero: Scholix = null
def scholix_complete(s: Scholix): Boolean = {
if (s == null || s.getIdentifier == null) {
false
} else if (s.getSource == null || s.getTarget == null) {
false
} }
else if (s.getLinkprovider == null || s.getLinkprovider.isEmpty)
false override def merge(b1: RelatedEntities, b2: RelatedEntities): RelatedEntities = {
else if (b1 != null && b2 != null)
true RelatedEntities(
b1.id,
b1.relatedDataset + b2.relatedDataset,
b1.relatedPublication + b2.relatedPublication
)
else if (b1 != null)
b1
else
b2
}
override def finish(reduction: RelatedEntities): RelatedEntities = reduction
override def bufferEncoder: Encoder[RelatedEntities] = Encoders.bean(classOf[RelatedEntities])
override def outputEncoder: Encoder[RelatedEntities] = Encoders.bean(classOf[RelatedEntities])
} }
override def reduce(b: Scholix, a: (String, Scholix)): Scholix = { val scholixAggregator: Aggregator[(String, Scholix), Scholix, Scholix] =
if (scholix_complete(b)) b else a._2 new Aggregator[(String, Scholix), Scholix, Scholix] with Serializable {
override def zero: Scholix = null
def scholix_complete(s: Scholix): Boolean = {
if (s == null || s.getIdentifier == null) {
false
} else if (s.getSource == null || s.getTarget == null) {
false
} else if (s.getLinkprovider == null || s.getLinkprovider.isEmpty)
false
else
true
}
override def reduce(b: Scholix, a: (String, Scholix)): Scholix = {
if (scholix_complete(b)) b else a._2
}
override def merge(b1: Scholix, b2: Scholix): Scholix = {
if (scholix_complete(b1)) b1 else b2
}
override def finish(reduction: Scholix): Scholix = reduction
override def bufferEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
override def outputEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
} }
override def merge(b1: Scholix, b2: Scholix): Scholix = {
if (scholix_complete(b1)) b1 else b2
}
override def finish(reduction: Scholix): Scholix = reduction
override def bufferEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
override def outputEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
}
def createInverseScholixRelation(scholix: Scholix): Scholix = { def createInverseScholixRelation(scholix: Scholix): Scholix = {
val s = new Scholix val s = new Scholix
s.setPublicationDate(scholix.getPublicationDate) s.setPublicationDate(scholix.getPublicationDate)
@ -138,16 +144,19 @@ object ScholixUtils extends Serializable {
s.setRelationship(inverseRelationShip(scholix.getRelationship)) s.setRelationship(inverseRelationShip(scholix.getRelationship))
s.setSource(scholix.getTarget) s.setSource(scholix.getTarget)
s.setTarget(scholix.getSource) s.setTarget(scholix.getSource)
s.setIdentifier(DHPUtils.md5(s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}")) s.setIdentifier(
DHPUtils.md5(
s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}"
)
)
s s
} }
def extractCollectedFrom(summary: ScholixResource): List[ScholixEntityId] = { def extractCollectedFrom(summary: ScholixResource): List[ScholixEntityId] = {
if (summary.getCollectedFrom != null && !summary.getCollectedFrom.isEmpty) { if (summary.getCollectedFrom != null && !summary.getCollectedFrom.isEmpty) {
val l: List[ScholixEntityId] = summary.getCollectedFrom.asScala.map { val l: List[ScholixEntityId] = summary.getCollectedFrom.asScala.map { d =>
d => new ScholixEntityId(d.getProvider.getName, d.getProvider.getIdentifiers) new ScholixEntityId(d.getProvider.getName, d.getProvider.getIdentifiers)
}(collection.breakOut) }(collection.breakOut)
l l
} else List() } else List()
@ -155,8 +164,11 @@ object ScholixUtils extends Serializable {
def extractCollectedFrom(summary: ScholixSummary): List[ScholixEntityId] = { def extractCollectedFrom(summary: ScholixSummary): List[ScholixEntityId] = {
if (summary.getDatasources != null && !summary.getDatasources.isEmpty) { if (summary.getDatasources != null && !summary.getDatasources.isEmpty) {
val l: List[ScholixEntityId] = summary.getDatasources.asScala.map { val l: List[ScholixEntityId] = summary.getDatasources.asScala.map { d =>
d => new ScholixEntityId(d.getDatasourceName, List(new ScholixIdentifier(d.getDatasourceId, "DNET Identifier", null)).asJava) new ScholixEntityId(
d.getDatasourceName,
List(new ScholixIdentifier(d.getDatasourceId, "DNET Identifier", null)).asJava
)
}(collection.breakOut) }(collection.breakOut)
l l
} else List() } else List()
@ -165,17 +177,16 @@ object ScholixUtils extends Serializable {
def extractCollectedFrom(relation: Relation): List[ScholixEntityId] = { def extractCollectedFrom(relation: Relation): List[ScholixEntityId] = {
if (relation.getCollectedfrom != null && !relation.getCollectedfrom.isEmpty) { if (relation.getCollectedfrom != null && !relation.getCollectedfrom.isEmpty) {
val l: List[ScholixEntityId] = relation.getCollectedfrom.asScala.map { c =>
val l: List[ScholixEntityId] = relation.getCollectedfrom.asScala.map { new ScholixEntityId(
c => c.getValue,
List(new ScholixIdentifier(c.getKey, DNET_IDENTIFIER_SCHEMA, null)).asJava
new ScholixEntityId(c.getValue, List(new ScholixIdentifier(c.getKey, DNET_IDENTIFIER_SCHEMA, null)).asJava) )
}.toList }.toList
l l
} else List() } else List()
} }
def generateCompleteScholix(scholix: Scholix, target: ScholixSummary): Scholix = { def generateCompleteScholix(scholix: Scholix, target: ScholixSummary): Scholix = {
val s = new Scholix val s = new Scholix
s.setPublicationDate(scholix.getPublicationDate) s.setPublicationDate(scholix.getPublicationDate)
@ -184,11 +195,14 @@ object ScholixUtils extends Serializable {
s.setRelationship(scholix.getRelationship) s.setRelationship(scholix.getRelationship)
s.setSource(scholix.getSource) s.setSource(scholix.getSource)
s.setTarget(generateScholixResourceFromSummary(target)) s.setTarget(generateScholixResourceFromSummary(target))
s.setIdentifier(DHPUtils.md5(s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}")) s.setIdentifier(
DHPUtils.md5(
s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}"
)
)
s s
} }
def generateCompleteScholix(scholix: Scholix, target: ScholixResource): Scholix = { def generateCompleteScholix(scholix: Scholix, target: ScholixResource): Scholix = {
val s = new Scholix val s = new Scholix
s.setPublicationDate(scholix.getPublicationDate) s.setPublicationDate(scholix.getPublicationDate)
@ -197,11 +211,14 @@ object ScholixUtils extends Serializable {
s.setRelationship(scholix.getRelationship) s.setRelationship(scholix.getRelationship)
s.setSource(scholix.getSource) s.setSource(scholix.getSource)
s.setTarget(target) s.setTarget(target)
s.setIdentifier(DHPUtils.md5(s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}")) s.setIdentifier(
DHPUtils.md5(
s"${s.getSource.getIdentifier}::${s.getRelationship.getName}::${s.getTarget.getIdentifier}"
)
)
s s
} }
def generateScholixResourceFromSummary(summaryObject: ScholixSummary): ScholixResource = { def generateScholixResourceFromSummary(summaryObject: ScholixSummary): ScholixResource = {
val r = new ScholixResource val r = new ScholixResource
r.setIdentifier(summaryObject.getLocalIdentifier) r.setIdentifier(summaryObject.getLocalIdentifier)
@ -214,7 +231,8 @@ object ScholixUtils extends Serializable {
r.setTitle(summaryObject.getTitle.get(0)) r.setTitle(summaryObject.getTitle.get(0))
if (summaryObject.getAuthor != null && !summaryObject.getAuthor.isEmpty) { if (summaryObject.getAuthor != null && !summaryObject.getAuthor.isEmpty) {
val l: List[ScholixEntityId] = summaryObject.getAuthor.asScala.map(a => new ScholixEntityId(a, null)).toList val l: List[ScholixEntityId] =
summaryObject.getAuthor.asScala.map(a => new ScholixEntityId(a, null)).toList
if (l.nonEmpty) if (l.nonEmpty)
r.setCreator(l.asJava) r.setCreator(l.asJava)
} }
@ -222,20 +240,27 @@ object ScholixUtils extends Serializable {
if (summaryObject.getDate != null && !summaryObject.getDate.isEmpty) if (summaryObject.getDate != null && !summaryObject.getDate.isEmpty)
r.setPublicationDate(summaryObject.getDate.get(0)) r.setPublicationDate(summaryObject.getDate.get(0))
if (summaryObject.getPublisher != null && !summaryObject.getPublisher.isEmpty) { if (summaryObject.getPublisher != null && !summaryObject.getPublisher.isEmpty) {
val plist: List[ScholixEntityId] = summaryObject.getPublisher.asScala.map(p => new ScholixEntityId(p, null)).toList val plist: List[ScholixEntityId] =
summaryObject.getPublisher.asScala.map(p => new ScholixEntityId(p, null)).toList
if (plist.nonEmpty) if (plist.nonEmpty)
r.setPublisher(plist.asJava) r.setPublisher(plist.asJava)
} }
if (summaryObject.getDatasources != null && !summaryObject.getDatasources.isEmpty) { if (summaryObject.getDatasources != null && !summaryObject.getDatasources.isEmpty) {
val l: List[ScholixCollectedFrom] = summaryObject.getDatasources.asScala.map(c => new ScholixCollectedFrom( val l: List[ScholixCollectedFrom] = summaryObject.getDatasources.asScala
new ScholixEntityId(c.getDatasourceName, List(new ScholixIdentifier(c.getDatasourceId, DNET_IDENTIFIER_SCHEMA, null)).asJava) .map(c =>
, "collected", "complete" new ScholixCollectedFrom(
new ScholixEntityId(
)).toList c.getDatasourceName,
List(new ScholixIdentifier(c.getDatasourceId, DNET_IDENTIFIER_SCHEMA, null)).asJava
),
"collected",
"complete"
)
)
.toList
if (l.nonEmpty) if (l.nonEmpty)
r.setCollectedFrom(l.asJava) r.setCollectedFrom(l.asJava)
@ -244,9 +269,7 @@ object ScholixUtils extends Serializable {
r r
} }
def scholixFromSource(relation: Relation, source: ScholixResource): Scholix = {
def scholixFromSource(relation: Relation, source: ScholixResource):Scholix = {
if (relation == null || source == null) if (relation == null || source == null)
return null return null
val s = new Scholix val s = new Scholix
@ -262,7 +285,6 @@ object ScholixUtils extends Serializable {
s.setPublicationDate(d) s.setPublicationDate(d)
if (source.getPublisher != null && !source.getPublisher.isEmpty) { if (source.getPublisher != null && !source.getPublisher.isEmpty) {
s.setPublisher(source.getPublisher) s.setPublisher(source.getPublisher)
} }
@ -270,13 +292,14 @@ object ScholixUtils extends Serializable {
val semanticRelation = relations.getOrElse(relation.getRelClass.toLowerCase, null) val semanticRelation = relations.getOrElse(relation.getRelClass.toLowerCase, null)
if (semanticRelation == null) if (semanticRelation == null)
return null return null
s.setRelationship(new ScholixRelationship(semanticRelation.original, "datacite", semanticRelation.inverse)) s.setRelationship(
new ScholixRelationship(semanticRelation.original, "datacite", semanticRelation.inverse)
)
s.setSource(source) s.setSource(source)
s s
} }
def scholixFromSource(relation: Relation, source: ScholixSummary): Scholix = { def scholixFromSource(relation: Relation, source: ScholixSummary): Scholix = {
if (relation == null || source == null) if (relation == null || source == null)
@ -298,12 +321,10 @@ object ScholixUtils extends Serializable {
s.setPublicationDate(d) s.setPublicationDate(d)
if (source.getPublisher != null && !source.getPublisher.isEmpty) { if (source.getPublisher != null && !source.getPublisher.isEmpty) {
val l: List[ScholixEntityId] = source.getPublisher.asScala val l: List[ScholixEntityId] = source.getPublisher.asScala
.map { .map { p =>
p => new ScholixEntityId(p, null)
new ScholixEntityId(p, null)
}(collection.breakOut) }(collection.breakOut)
if (l.nonEmpty) if (l.nonEmpty)
@ -313,31 +334,37 @@ object ScholixUtils extends Serializable {
val semanticRelation = relations.getOrElse(relation.getRelClass.toLowerCase, null) val semanticRelation = relations.getOrElse(relation.getRelClass.toLowerCase, null)
if (semanticRelation == null) if (semanticRelation == null)
return null return null
s.setRelationship(new ScholixRelationship(semanticRelation.original, "datacite", semanticRelation.inverse)) s.setRelationship(
new ScholixRelationship(semanticRelation.original, "datacite", semanticRelation.inverse)
)
s.setSource(generateScholixResourceFromSummary(source)) s.setSource(generateScholixResourceFromSummary(source))
s s
} }
def findURLForPID(
pidValue: List[StructuredProperty],
urls: List[String]
): List[(StructuredProperty, String)] = {
pidValue.map { p =>
val pv = p.getValue
def findURLForPID(pidValue: List[StructuredProperty], urls: List[String]): List[(StructuredProperty, String)] = { val r = urls.find(u => u.toLowerCase.contains(pv.toLowerCase))
pidValue.map { (p, r.orNull)
p =>
val pv = p.getValue
val r = urls.find(u => u.toLowerCase.contains(pv.toLowerCase))
(p, r.orNull)
} }
} }
def extractTypedIdentifierFromInstance(r: Result): List[ScholixIdentifier] = { def extractTypedIdentifierFromInstance(r: Result): List[ScholixIdentifier] = {
if (r.getInstance() == null || r.getInstance().isEmpty) if (r.getInstance() == null || r.getInstance().isEmpty)
return List() return List()
r.getInstance().asScala.filter(i => i.getUrl != null && !i.getUrl.isEmpty) r.getInstance()
.asScala
.filter(i => i.getUrl != null && !i.getUrl.isEmpty)
.filter(i => i.getPid != null && i.getUrl != null) .filter(i => i.getPid != null && i.getUrl != null)
.flatMap(i => findURLForPID(i.getPid.asScala.toList, i.getUrl.asScala.toList)) .flatMap(i => findURLForPID(i.getPid.asScala.toList, i.getUrl.asScala.toList))
.map(i => new ScholixIdentifier(i._1.getValue, i._1.getQualifier.getClassid, i._2)).distinct.toList .map(i => new ScholixIdentifier(i._1.getValue, i._1.getQualifier.getClassid, i._2))
.distinct
.toList
} }
def resultToSummary(r: Result): ScholixSummary = { def resultToSummary(r: Result): ScholixSummary = {
@ -371,7 +398,12 @@ object ScholixUtils extends Serializable {
s.setAuthor(authors.asJava) s.setAuthor(authors.asJava)
} }
if (r.getInstance() != null) { if (r.getInstance() != null) {
val dt: List[String] = r.getInstance().asScala.filter(i => i.getDateofacceptance != null).map(i => i.getDateofacceptance.getValue).toList val dt: List[String] = r
.getInstance()
.asScala
.filter(i => i.getDateofacceptance != null)
.map(i => i.getDateofacceptance.getValue)
.toList
if (dt.nonEmpty) if (dt.nonEmpty)
s.setDate(dt.distinct.asJava) s.setDate(dt.distinct.asJava)
} }
@ -382,7 +414,9 @@ object ScholixUtils extends Serializable {
} }
if (r.getSubject != null && !r.getSubject.isEmpty) { if (r.getSubject != null && !r.getSubject.isEmpty) {
val subjects: List[SchemeValue] = r.getSubject.asScala.map(s => new SchemeValue(s.getQualifier.getClassname, s.getValue)).toList val subjects: List[SchemeValue] = r.getSubject.asScala
.map(s => new SchemeValue(s.getQualifier.getClassname, s.getValue))
.toList
if (subjects.nonEmpty) if (subjects.nonEmpty)
s.setSubject(subjects.asJava) s.setSubject(subjects.asJava)
} }
@ -391,7 +425,9 @@ object ScholixUtils extends Serializable {
s.setPublisher(List(r.getPublisher.getValue).asJava) s.setPublisher(List(r.getPublisher.getValue).asJava)
if (r.getCollectedfrom != null && !r.getCollectedfrom.isEmpty) { if (r.getCollectedfrom != null && !r.getCollectedfrom.isEmpty) {
val cf: List[CollectedFromType] = r.getCollectedfrom.asScala.map(c => new CollectedFromType(c.getValue, c.getKey, "complete")).toList val cf: List[CollectedFromType] = r.getCollectedfrom.asScala
.map(c => new CollectedFromType(c.getValue, c.getKey, "complete"))
.toList
if (cf.nonEmpty) if (cf.nonEmpty)
s.setDatasources(cf.distinct.asJava) s.setDatasources(cf.distinct.asJava)
} }

View File

@ -7,16 +7,14 @@ import org.apache.spark.sql.{Dataset, Encoder, Encoders, SaveMode}
object CollectionUtils { object CollectionUtils {
/** /** This method in pipeline to the transformation phase,
* This method in pipeline to the transformation phase, * generates relations in both verse, typically it should be a phase of flatMap
* generates relations in both verse, typically it should be a phase of flatMap *
* * @param i input OAF
* @param i input OAF * @return
* @return * If the input OAF is an entity -> List(i)
* If the input OAF is an entity -> List(i) * If the input OAF is a relation -> List(relation, inverseRelation)
* If the input OAF is a relation -> List(relation, inverseRelation) */
*
*/
def fixRelations(i: Oaf): List[Oaf] = { def fixRelations(i: Oaf): List[Oaf] = {
if (i.isInstanceOf[OafEntity]) if (i.isInstanceOf[OafEntity])

View File

@ -6,7 +6,6 @@ import org.apache.http.client.methods.{HttpGet, HttpPost, HttpUriRequest}
import org.apache.http.entity.StringEntity import org.apache.http.entity.StringEntity
import org.apache.http.impl.client.HttpClientBuilder import org.apache.http.impl.client.HttpClientBuilder
abstract class AbstractRestClient extends Iterator[String] { abstract class AbstractRestClient extends Iterator[String] {
var buffer: List[String] = List() var buffer: List[String] = List()
@ -16,12 +15,10 @@ abstract class AbstractRestClient extends Iterator[String] {
var complete: Boolean = false var complete: Boolean = false
def extractInfo(input: String): Unit def extractInfo(input: String): Unit
protected def getBufferData(): Unit protected def getBufferData(): Unit
def doHTTPGETRequest(url: String): String = { def doHTTPGETRequest(url: String): String = {
val httpGet = new HttpGet(url) val httpGet = new HttpGet(url)
doHTTPRequest(httpGet) doHTTPRequest(httpGet)
@ -43,7 +40,6 @@ abstract class AbstractRestClient extends Iterator[String] {
buffer.nonEmpty && current_index < buffer.size buffer.nonEmpty && current_index < buffer.size
} }
override def next(): String = { override def next(): String = {
val next_item: String = buffer(current_index) val next_item: String = buffer(current_index)
current_index = current_index + 1 current_index = current_index + 1
@ -52,13 +48,14 @@ abstract class AbstractRestClient extends Iterator[String] {
next_item next_item
} }
private def doHTTPRequest[A <: HttpUriRequest](r: A): String = { private def doHTTPRequest[A <: HttpUriRequest](r: A): String = {
val timeout = 60; // seconds val timeout = 60; // seconds
val config = RequestConfig.custom() val config = RequestConfig
.custom()
.setConnectTimeout(timeout * 1000) .setConnectTimeout(timeout * 1000)
.setConnectionRequestTimeout(timeout * 1000) .setConnectionRequestTimeout(timeout * 1000)
.setSocketTimeout(timeout * 1000).build() .setSocketTimeout(timeout * 1000)
.build()
val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build() val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build()
try { try {
var tries = 4 var tries = 4
@ -69,8 +66,7 @@ abstract class AbstractRestClient extends Iterator[String] {
println(s"get response with status${response.getStatusLine.getStatusCode}") println(s"get response with status${response.getStatusLine.getStatusCode}")
if (response.getStatusLine.getStatusCode > 400) { if (response.getStatusLine.getStatusCode > 400) {
tries -= 1 tries -= 1
} } else
else
return IOUtils.toString(response.getEntity.getContent) return IOUtils.toString(response.getEntity.getContent)
} catch { } catch {
case e: Throwable => case e: Throwable =>
@ -87,4 +83,4 @@ abstract class AbstractRestClient extends Iterator[String] {
} }
getBufferData() getBufferData()
} }

View File

@ -3,7 +3,7 @@ package eu.dnetlib.dhp.datacite
import org.json4s.jackson.JsonMethods.{compact, parse, render} import org.json4s.jackson.JsonMethods.{compact, parse, render}
import org.json4s.{DefaultFormats, JValue} import org.json4s.{DefaultFormats, JValue}
class DataciteAPIImporter(timestamp: Long = 0, blocks: Long = 10, until:Long = -1) extends AbstractRestClient { class DataciteAPIImporter(timestamp: Long = 0, blocks: Long = 10, until: Long = -1) extends AbstractRestClient {
override def extractInfo(input: String): Unit = { override def extractInfo(input: String): Unit = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
@ -16,16 +16,18 @@ class DataciteAPIImporter(timestamp: Long = 0, blocks: Long = 10, until:Long = -
current_index = 0 current_index = 0
} }
def get_url():String ={ def get_url(): String = {
val to = if (until> 0) s"$until" else "*" val to = if (until > 0) s"$until" else "*"
s"https://api.datacite.org/dois?page[cursor]=1&page[size]=$blocks&query=updated:[$timestamp%20TO%20$to]" s"https://api.datacite.org/dois?page[cursor]=1&page[size]=$blocks&query=updated:[$timestamp%20TO%20$to]"
} }
override def getBufferData(): Unit = { override def getBufferData(): Unit = {
if (!complete) { if (!complete) {
val response = if (scroll_value.isDefined) doHTTPGETRequest(scroll_value.get) else doHTTPGETRequest(get_url()) val response =
if (scroll_value.isDefined) doHTTPGETRequest(scroll_value.get)
else doHTTPGETRequest(get_url())
extractInfo(response) extractInfo(response)
} }
} }
} }

View File

@ -10,24 +10,38 @@ import java.util.Locale
import java.util.regex.Pattern import java.util.regex.Pattern
import scala.io.Source import scala.io.Source
/** /** This class represent the dataModel of the input Dataset of Datacite
* This class represent the dataModel of the input Dataset of Datacite * @param doi THE DOI
* @param doi THE DOI * @param timestamp timestamp of last update date
* @param timestamp timestamp of last update date * @param isActive the record is active or deleted
* @param isActive the record is active or deleted * @param json the json native records
* @param json the json native records */
*/
case class DataciteType(doi: String, timestamp: Long, isActive: Boolean, json: String) {} case class DataciteType(doi: String, timestamp: Long, isActive: Boolean, json: String) {}
/* /*
The following class are utility class used for the mapping from The following class are utility class used for the mapping from
json datacite to OAF Shema json datacite to OAF Shema
*/ */
case class RelatedIdentifierType(relationType: String, relatedIdentifier: String, relatedIdentifierType: String) {} case class RelatedIdentifierType(
relationType: String,
relatedIdentifier: String,
relatedIdentifierType: String
) {}
case class NameIdentifiersType(nameIdentifierScheme: Option[String], schemeUri: Option[String], nameIdentifier: Option[String]) {} case class NameIdentifiersType(
nameIdentifierScheme: Option[String],
schemeUri: Option[String],
nameIdentifier: Option[String]
) {}
case class CreatorType(nameType: Option[String], nameIdentifiers: Option[List[NameIdentifiersType]], name: Option[String], familyName: Option[String], givenName: Option[String], affiliation: Option[List[String]]) {} case class CreatorType(
nameType: Option[String],
nameIdentifiers: Option[List[NameIdentifiersType]],
name: Option[String],
familyName: Option[String],
givenName: Option[String],
affiliation: Option[List[String]]
) {}
case class TitleType(title: Option[String], titleType: Option[String], lang: Option[String]) {} case class TitleType(title: Option[String], titleType: Option[String], lang: Option[String]) {}
@ -35,100 +49,230 @@ case class SubjectType(subject: Option[String], subjectScheme: Option[String]) {
case class DescriptionType(descriptionType: Option[String], description: Option[String]) {} case class DescriptionType(descriptionType: Option[String], description: Option[String]) {}
case class FundingReferenceType(funderIdentifierType: Option[String], awardTitle: Option[String], awardUri: Option[String], funderName: Option[String], funderIdentifier: Option[String], awardNumber: Option[String]) {} case class FundingReferenceType(
funderIdentifierType: Option[String],
awardTitle: Option[String],
awardUri: Option[String],
funderName: Option[String],
funderIdentifier: Option[String],
awardNumber: Option[String]
) {}
case class DateType(date: Option[String], dateType: Option[String]) {} case class DateType(date: Option[String], dateType: Option[String]) {}
case class OAFRelations(relation:String, inverse:String, relType:String) case class OAFRelations(relation: String, inverse: String, relType: String)
class DataciteModelConstants extends Serializable {}
class DataciteModelConstants extends Serializable {
}
object DataciteModelConstants { object DataciteModelConstants {
val REL_TYPE_VALUE:String = "resultResult" val REL_TYPE_VALUE: String = "resultResult"
val DATE_RELATION_KEY = "RelationDate" val DATE_RELATION_KEY = "RelationDate"
val DATACITE_FILTER_PATH = "/eu/dnetlib/dhp/datacite/datacite_filter" val DATACITE_FILTER_PATH = "/eu/dnetlib/dhp/datacite/datacite_filter"
val DOI_CLASS = "doi" val DOI_CLASS = "doi"
val SUBJ_CLASS = "keywords" val SUBJ_CLASS = "keywords"
val DATACITE_NAME = "Datacite" val DATACITE_NAME = "Datacite"
val dataInfo: DataInfo = dataciteDataInfo("0.9") val dataInfo: DataInfo = dataciteDataInfo("0.9")
val DATACITE_COLLECTED_FROM: KeyValue = OafMapperUtils.keyValue(ModelConstants.DATACITE_ID, DATACITE_NAME)
val subRelTypeMapping: Map[String,OAFRelations] = Map( val DATACITE_COLLECTED_FROM: KeyValue =
ModelConstants.REFERENCES -> OAFRelations(ModelConstants.REFERENCES, ModelConstants.IS_REFERENCED_BY, ModelConstants.RELATIONSHIP), OafMapperUtils.keyValue(ModelConstants.DATACITE_ID, DATACITE_NAME)
ModelConstants.IS_REFERENCED_BY -> OAFRelations(ModelConstants.IS_REFERENCED_BY,ModelConstants.REFERENCES, ModelConstants.RELATIONSHIP),
ModelConstants.IS_SUPPLEMENTED_BY -> OAFRelations(ModelConstants.IS_SUPPLEMENTED_BY,ModelConstants.IS_SUPPLEMENT_TO,ModelConstants.SUPPLEMENT), val subRelTypeMapping: Map[String, OAFRelations] = Map(
ModelConstants.IS_SUPPLEMENT_TO -> OAFRelations(ModelConstants.IS_SUPPLEMENT_TO,ModelConstants.IS_SUPPLEMENTED_BY,ModelConstants.SUPPLEMENT), ModelConstants.REFERENCES -> OAFRelations(
ModelConstants.REFERENCES,
ModelConstants.HAS_PART -> OAFRelations(ModelConstants.HAS_PART,ModelConstants.IS_PART_OF, ModelConstants.PART), ModelConstants.IS_REFERENCED_BY,
ModelConstants.IS_PART_OF -> OAFRelations(ModelConstants.IS_PART_OF,ModelConstants.HAS_PART, ModelConstants.PART), ModelConstants.RELATIONSHIP
),
ModelConstants.IS_VERSION_OF-> OAFRelations(ModelConstants.IS_VERSION_OF,ModelConstants.HAS_VERSION,ModelConstants.VERSION), ModelConstants.IS_REFERENCED_BY -> OAFRelations(
ModelConstants.HAS_VERSION-> OAFRelations(ModelConstants.HAS_VERSION,ModelConstants.IS_VERSION_OF,ModelConstants.VERSION), ModelConstants.IS_REFERENCED_BY,
ModelConstants.REFERENCES,
ModelConstants.IS_IDENTICAL_TO -> OAFRelations(ModelConstants.IS_IDENTICAL_TO,ModelConstants.IS_IDENTICAL_TO, ModelConstants.RELATIONSHIP), ModelConstants.RELATIONSHIP
),
ModelConstants.IS_CONTINUED_BY -> OAFRelations(ModelConstants.IS_CONTINUED_BY,ModelConstants.CONTINUES, ModelConstants.RELATIONSHIP), ModelConstants.IS_SUPPLEMENTED_BY -> OAFRelations(
ModelConstants.CONTINUES -> OAFRelations(ModelConstants.CONTINUES,ModelConstants.IS_CONTINUED_BY, ModelConstants.RELATIONSHIP), ModelConstants.IS_SUPPLEMENTED_BY,
ModelConstants.IS_SUPPLEMENT_TO,
ModelConstants.IS_NEW_VERSION_OF-> OAFRelations(ModelConstants.IS_NEW_VERSION_OF,ModelConstants.IS_PREVIOUS_VERSION_OF, ModelConstants.VERSION), ModelConstants.SUPPLEMENT
ModelConstants.IS_PREVIOUS_VERSION_OF ->OAFRelations(ModelConstants.IS_PREVIOUS_VERSION_OF,ModelConstants.IS_NEW_VERSION_OF, ModelConstants.VERSION), ),
ModelConstants.IS_SUPPLEMENT_TO -> OAFRelations(
ModelConstants.IS_DOCUMENTED_BY -> OAFRelations(ModelConstants.IS_DOCUMENTED_BY,ModelConstants.DOCUMENTS, ModelConstants.RELATIONSHIP), ModelConstants.IS_SUPPLEMENT_TO,
ModelConstants.DOCUMENTS -> OAFRelations(ModelConstants.DOCUMENTS,ModelConstants.IS_DOCUMENTED_BY, ModelConstants.RELATIONSHIP), ModelConstants.IS_SUPPLEMENTED_BY,
ModelConstants.SUPPLEMENT
ModelConstants.IS_SOURCE_OF -> OAFRelations(ModelConstants.IS_SOURCE_OF,ModelConstants.IS_DERIVED_FROM, ModelConstants.VERSION), ),
ModelConstants.IS_DERIVED_FROM -> OAFRelations(ModelConstants.IS_DERIVED_FROM,ModelConstants.IS_SOURCE_OF, ModelConstants.VERSION), ModelConstants.HAS_PART -> OAFRelations(
ModelConstants.HAS_PART,
ModelConstants.CITES -> OAFRelations(ModelConstants.CITES,ModelConstants.IS_CITED_BY, ModelConstants.CITATION), ModelConstants.IS_PART_OF,
ModelConstants.IS_CITED_BY -> OAFRelations(ModelConstants.IS_CITED_BY,ModelConstants.CITES, ModelConstants.CITATION), ModelConstants.PART
),
ModelConstants.IS_VARIANT_FORM_OF -> OAFRelations(ModelConstants.IS_VARIANT_FORM_OF,ModelConstants.IS_DERIVED_FROM, ModelConstants.VERSION), ModelConstants.IS_PART_OF -> OAFRelations(
ModelConstants.IS_OBSOLETED_BY -> OAFRelations(ModelConstants.IS_OBSOLETED_BY,ModelConstants.IS_NEW_VERSION_OF, ModelConstants.VERSION), ModelConstants.IS_PART_OF,
ModelConstants.HAS_PART,
ModelConstants.REVIEWS -> OAFRelations(ModelConstants.REVIEWS,ModelConstants.IS_REVIEWED_BY, ModelConstants.REVIEW), ModelConstants.PART
ModelConstants.IS_REVIEWED_BY -> OAFRelations(ModelConstants.IS_REVIEWED_BY,ModelConstants.REVIEWS, ModelConstants.REVIEW), ),
ModelConstants.IS_VERSION_OF -> OAFRelations(
ModelConstants.DOCUMENTS -> OAFRelations(ModelConstants.DOCUMENTS,ModelConstants.IS_DOCUMENTED_BY, ModelConstants.RELATIONSHIP), ModelConstants.IS_VERSION_OF,
ModelConstants.IS_DOCUMENTED_BY -> OAFRelations(ModelConstants.IS_DOCUMENTED_BY,ModelConstants.DOCUMENTS, ModelConstants.RELATIONSHIP), ModelConstants.HAS_VERSION,
ModelConstants.VERSION
ModelConstants.COMPILES -> OAFRelations(ModelConstants.COMPILES,ModelConstants.IS_COMPILED_BY, ModelConstants.RELATIONSHIP), ),
ModelConstants.IS_COMPILED_BY -> OAFRelations(ModelConstants.IS_COMPILED_BY,ModelConstants.COMPILES, ModelConstants.RELATIONSHIP) ModelConstants.HAS_VERSION -> OAFRelations(
ModelConstants.HAS_VERSION,
ModelConstants.IS_VERSION_OF,
ModelConstants.VERSION
),
ModelConstants.IS_IDENTICAL_TO -> OAFRelations(
ModelConstants.IS_IDENTICAL_TO,
ModelConstants.IS_IDENTICAL_TO,
ModelConstants.RELATIONSHIP
),
ModelConstants.IS_CONTINUED_BY -> OAFRelations(
ModelConstants.IS_CONTINUED_BY,
ModelConstants.CONTINUES,
ModelConstants.RELATIONSHIP
),
ModelConstants.CONTINUES -> OAFRelations(
ModelConstants.CONTINUES,
ModelConstants.IS_CONTINUED_BY,
ModelConstants.RELATIONSHIP
),
ModelConstants.IS_NEW_VERSION_OF -> OAFRelations(
ModelConstants.IS_NEW_VERSION_OF,
ModelConstants.IS_PREVIOUS_VERSION_OF,
ModelConstants.VERSION
),
ModelConstants.IS_PREVIOUS_VERSION_OF -> OAFRelations(
ModelConstants.IS_PREVIOUS_VERSION_OF,
ModelConstants.IS_NEW_VERSION_OF,
ModelConstants.VERSION
),
ModelConstants.IS_DOCUMENTED_BY -> OAFRelations(
ModelConstants.IS_DOCUMENTED_BY,
ModelConstants.DOCUMENTS,
ModelConstants.RELATIONSHIP
),
ModelConstants.DOCUMENTS -> OAFRelations(
ModelConstants.DOCUMENTS,
ModelConstants.IS_DOCUMENTED_BY,
ModelConstants.RELATIONSHIP
),
ModelConstants.IS_SOURCE_OF -> OAFRelations(
ModelConstants.IS_SOURCE_OF,
ModelConstants.IS_DERIVED_FROM,
ModelConstants.VERSION
),
ModelConstants.IS_DERIVED_FROM -> OAFRelations(
ModelConstants.IS_DERIVED_FROM,
ModelConstants.IS_SOURCE_OF,
ModelConstants.VERSION
),
ModelConstants.CITES -> OAFRelations(
ModelConstants.CITES,
ModelConstants.IS_CITED_BY,
ModelConstants.CITATION
),
ModelConstants.IS_CITED_BY -> OAFRelations(
ModelConstants.IS_CITED_BY,
ModelConstants.CITES,
ModelConstants.CITATION
),
ModelConstants.IS_VARIANT_FORM_OF -> OAFRelations(
ModelConstants.IS_VARIANT_FORM_OF,
ModelConstants.IS_DERIVED_FROM,
ModelConstants.VERSION
),
ModelConstants.IS_OBSOLETED_BY -> OAFRelations(
ModelConstants.IS_OBSOLETED_BY,
ModelConstants.IS_NEW_VERSION_OF,
ModelConstants.VERSION
),
ModelConstants.REVIEWS -> OAFRelations(
ModelConstants.REVIEWS,
ModelConstants.IS_REVIEWED_BY,
ModelConstants.REVIEW
),
ModelConstants.IS_REVIEWED_BY -> OAFRelations(
ModelConstants.IS_REVIEWED_BY,
ModelConstants.REVIEWS,
ModelConstants.REVIEW
),
ModelConstants.DOCUMENTS -> OAFRelations(
ModelConstants.DOCUMENTS,
ModelConstants.IS_DOCUMENTED_BY,
ModelConstants.RELATIONSHIP
),
ModelConstants.IS_DOCUMENTED_BY -> OAFRelations(
ModelConstants.IS_DOCUMENTED_BY,
ModelConstants.DOCUMENTS,
ModelConstants.RELATIONSHIP
),
ModelConstants.COMPILES -> OAFRelations(
ModelConstants.COMPILES,
ModelConstants.IS_COMPILED_BY,
ModelConstants.RELATIONSHIP
),
ModelConstants.IS_COMPILED_BY -> OAFRelations(
ModelConstants.IS_COMPILED_BY,
ModelConstants.COMPILES,
ModelConstants.RELATIONSHIP
)
) )
val datacite_filter: List[String] = { val datacite_filter: List[String] = {
val stream: InputStream = getClass.getResourceAsStream(DATACITE_FILTER_PATH) val stream: InputStream = getClass.getResourceAsStream(DATACITE_FILTER_PATH)
require(stream!= null) require(stream != null)
Source.fromInputStream(stream).getLines().toList Source.fromInputStream(stream).getLines().toList
} }
def dataciteDataInfo(trust: String): DataInfo = OafMapperUtils.dataInfo(
false,
null,
false,
false,
ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER,
trust
)
def dataciteDataInfo(trust: String): DataInfo = OafMapperUtils.dataInfo(false,null, false, false, ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER, trust) val df_en: DateTimeFormatter = DateTimeFormatter.ofPattern(
"[MM-dd-yyyy][MM/dd/yyyy][dd-MM-yy][dd-MMM-yyyy][dd/MMM/yyyy][dd-MMM-yy][dd/MMM/yy][dd-MM-yy][dd/MM/yy][dd-MM-yyyy][dd/MM/yyyy][yyyy-MM-dd][yyyy/MM/dd]",
Locale.ENGLISH
)
val df_en: DateTimeFormatter = DateTimeFormatter.ofPattern("[MM-dd-yyyy][MM/dd/yyyy][dd-MM-yy][dd-MMM-yyyy][dd/MMM/yyyy][dd-MMM-yy][dd/MMM/yy][dd-MM-yy][dd/MM/yy][dd-MM-yyyy][dd/MM/yyyy][yyyy-MM-dd][yyyy/MM/dd]", Locale.ENGLISH) val df_it: DateTimeFormatter =
val df_it: DateTimeFormatter = DateTimeFormatter.ofPattern("[dd-MM-yyyy][dd/MM/yyyy]", Locale.ITALIAN) DateTimeFormatter.ofPattern("[dd-MM-yyyy][dd/MM/yyyy]", Locale.ITALIAN)
val funder_regex: List[(Pattern, String)] = List( val funder_regex: List[(Pattern, String)] = List(
(Pattern.compile("(info:eu-repo/grantagreement/ec/h2020/)(\\d\\d\\d\\d\\d\\d)(.*)", Pattern.MULTILINE | Pattern.CASE_INSENSITIVE), "40|corda__h2020::"), (
(Pattern.compile("(info:eu-repo/grantagreement/ec/fp7/)(\\d\\d\\d\\d\\d\\d)(.*)", Pattern.MULTILINE | Pattern.CASE_INSENSITIVE), "40|corda_______::") Pattern.compile(
"(info:eu-repo/grantagreement/ec/h2020/)(\\d\\d\\d\\d\\d\\d)(.*)",
Pattern.MULTILINE | Pattern.CASE_INSENSITIVE
),
"40|corda__h2020::"
),
(
Pattern.compile(
"(info:eu-repo/grantagreement/ec/fp7/)(\\d\\d\\d\\d\\d\\d)(.*)",
Pattern.MULTILINE | Pattern.CASE_INSENSITIVE
),
"40|corda_______::"
)
) )
val Date_regex: List[Pattern] = List( val Date_regex: List[Pattern] = List(
//Y-M-D //Y-M-D
Pattern.compile("(18|19|20)\\d\\d([- /.])(0[1-9]|1[012])\\2(0[1-9]|[12][0-9]|3[01])", Pattern.MULTILINE), Pattern.compile(
"(18|19|20)\\d\\d([- /.])(0[1-9]|1[012])\\2(0[1-9]|[12][0-9]|3[01])",
Pattern.MULTILINE
),
//M-D-Y //M-D-Y
Pattern.compile("((0[1-9]|1[012])|([1-9]))([- /.])(0[1-9]|[12][0-9]|3[01])([- /.])(18|19|20)?\\d\\d", Pattern.MULTILINE), Pattern.compile(
"((0[1-9]|1[012])|([1-9]))([- /.])(0[1-9]|[12][0-9]|3[01])([- /.])(18|19|20)?\\d\\d",
Pattern.MULTILINE
),
//D-M-Y //D-M-Y
Pattern.compile("(?:(?:31(/|-|\\.)(?:0?[13578]|1[02]|(?:Jan|Mar|May|Jul|Aug|Oct|Dec)))\\1|(?:(?:29|30)(/|-|\\.)(?:0?[1,3-9]|1[0-2]|(?:Jan|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec))\\2))(?:(?:1[6-9]|[2-9]\\d)?\\d{2})|(?:29(/|-|\\.)(?:0?2|(?:Feb))\\3(?:(?:(?:1[6-9]|[2-9]\\d)?(?:0[48]|[2468][048]|[13579][26])|(?:(?:16|[2468][048]|[3579][26])00))))|(?:0?[1-9]|1\\d|2[0-8])(/|-|\\.)(?:(?:0?[1-9]|(?:Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep))|(?:1[0-2]|(?:Oct|Nov|Dec)))\\4(?:(?:1[6-9]|[2-9]\\d)?\\d{2})", Pattern.MULTILINE), Pattern.compile(
"(?:(?:31(/|-|\\.)(?:0?[13578]|1[02]|(?:Jan|Mar|May|Jul|Aug|Oct|Dec)))\\1|(?:(?:29|30)(/|-|\\.)(?:0?[1,3-9]|1[0-2]|(?:Jan|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec))\\2))(?:(?:1[6-9]|[2-9]\\d)?\\d{2})|(?:29(/|-|\\.)(?:0?2|(?:Feb))\\3(?:(?:(?:1[6-9]|[2-9]\\d)?(?:0[48]|[2468][048]|[13579][26])|(?:(?:16|[2468][048]|[3579][26])00))))|(?:0?[1-9]|1\\d|2[0-8])(/|-|\\.)(?:(?:0?[1-9]|(?:Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep))|(?:1[0-2]|(?:Oct|Nov|Dec)))\\4(?:(?:1[6-9]|[2-9]\\d)?\\d{2})",
Pattern.MULTILINE
),
//Y //Y
Pattern.compile("(19|20)\\d\\d", Pattern.MULTILINE) Pattern.compile("(19|20)\\d\\d", Pattern.MULTILINE)
) )
} }

View File

@ -20,19 +20,16 @@ import java.time.format.DateTimeFormatter
import java.util.{Date, Locale} import java.util.{Date, Locale}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
object DataciteToOAFTransformation { object DataciteToOAFTransformation {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
/** This method should skip record if json contains invalid text
/** * defined in gile datacite_filter
* This method should skip record if json contains invalid text *
* defined in gile datacite_filter * @param json
* * @return True if the record should be skipped
* @param json */
* @return True if the record should be skipped
*/
def skip_record(json: String): Boolean = { def skip_record(json: String): Boolean = {
datacite_filter.exists(f => json.contains(f)) datacite_filter.exists(f => json.contains(f))
} }
@ -74,35 +71,35 @@ object DataciteToOAFTransformation {
} }
def embargo_end(embargo_end_date: String): Boolean = { def embargo_end(embargo_end_date: String): Boolean = {
val dt = LocalDate.parse(embargo_end_date, DateTimeFormatter.ofPattern("[yyyy-MM-dd]")) val dt = LocalDate.parse(embargo_end_date, DateTimeFormatter.ofPattern("[yyyy-MM-dd]"))
val td = LocalDate.now() val td = LocalDate.now()
td.isAfter(dt) td.isAfter(dt)
} }
def extract_date(input: String): Option[String] = { def extract_date(input: String): Option[String] = {
val d = Date_regex.map(pattern => { val d = Date_regex
val matcher = pattern.matcher(input) .map(pattern => {
if (matcher.find()) val matcher = pattern.matcher(input)
matcher.group(0) if (matcher.find())
else matcher.group(0)
null else
} null
).find(s => s != null) })
.find(s => s != null)
if (d.isDefined) { if (d.isDefined) {
val a_date = if (d.get.length == 4) s"01-01-${d.get}" else d.get val a_date = if (d.get.length == 4) s"01-01-${d.get}" else d.get
try { try {
return Some(LocalDate.parse(a_date, df_en).toString) return Some(LocalDate.parse(a_date, df_en).toString)
} catch { } catch {
case _: Throwable => try { case _: Throwable =>
return Some(LocalDate.parse(a_date, df_it).toString) try {
} catch { return Some(LocalDate.parse(a_date, df_it).toString)
case _: Throwable => } catch {
return None case _: Throwable =>
} return None
}
} }
} }
d d
@ -118,31 +115,63 @@ object DataciteToOAFTransformation {
} }
} }
def getTypeQualifier(
def getTypeQualifier(resourceType: String, resourceTypeGeneral: String, schemaOrg: String, vocabularies: VocabularyGroup): (Qualifier, Qualifier) = { resourceType: String,
resourceTypeGeneral: String,
schemaOrg: String,
vocabularies: VocabularyGroup
): (Qualifier, Qualifier) = {
if (resourceType != null && resourceType.nonEmpty) { if (resourceType != null && resourceType.nonEmpty) {
val typeQualifier = vocabularies.getSynonymAsQualifier(ModelConstants.DNET_PUBLICATION_RESOURCE, resourceType) val typeQualifier =
vocabularies.getSynonymAsQualifier(ModelConstants.DNET_PUBLICATION_RESOURCE, resourceType)
if (typeQualifier != null) if (typeQualifier != null)
return (typeQualifier, vocabularies.getSynonymAsQualifier(ModelConstants.DNET_RESULT_TYPOLOGIES, typeQualifier.getClassid)) return (
typeQualifier,
vocabularies.getSynonymAsQualifier(
ModelConstants.DNET_RESULT_TYPOLOGIES,
typeQualifier.getClassid
)
)
} }
if (schemaOrg != null && schemaOrg.nonEmpty) { if (schemaOrg != null && schemaOrg.nonEmpty) {
val typeQualifier = vocabularies.getSynonymAsQualifier(ModelConstants.DNET_PUBLICATION_RESOURCE, schemaOrg) val typeQualifier =
vocabularies.getSynonymAsQualifier(ModelConstants.DNET_PUBLICATION_RESOURCE, schemaOrg)
if (typeQualifier != null) if (typeQualifier != null)
return (typeQualifier, vocabularies.getSynonymAsQualifier(ModelConstants.DNET_RESULT_TYPOLOGIES, typeQualifier.getClassid)) return (
typeQualifier,
vocabularies.getSynonymAsQualifier(
ModelConstants.DNET_RESULT_TYPOLOGIES,
typeQualifier.getClassid
)
)
} }
if (resourceTypeGeneral != null && resourceTypeGeneral.nonEmpty) { if (resourceTypeGeneral != null && resourceTypeGeneral.nonEmpty) {
val typeQualifier = vocabularies.getSynonymAsQualifier(ModelConstants.DNET_PUBLICATION_RESOURCE, resourceTypeGeneral) val typeQualifier = vocabularies.getSynonymAsQualifier(
ModelConstants.DNET_PUBLICATION_RESOURCE,
resourceTypeGeneral
)
if (typeQualifier != null) if (typeQualifier != null)
return (typeQualifier, vocabularies.getSynonymAsQualifier(ModelConstants.DNET_RESULT_TYPOLOGIES, typeQualifier.getClassid)) return (
typeQualifier,
vocabularies.getSynonymAsQualifier(
ModelConstants.DNET_RESULT_TYPOLOGIES,
typeQualifier.getClassid
)
)
} }
null null
} }
def getResult(
def getResult(resourceType: String, resourceTypeGeneral: String, schemaOrg: String, vocabularies: VocabularyGroup): Result = { resourceType: String,
val typeQualifiers: (Qualifier, Qualifier) = getTypeQualifier(resourceType, resourceTypeGeneral, schemaOrg, vocabularies) resourceTypeGeneral: String,
schemaOrg: String,
vocabularies: VocabularyGroup
): Result = {
val typeQualifiers: (Qualifier, Qualifier) =
getTypeQualifier(resourceType, resourceTypeGeneral, schemaOrg, vocabularies)
if (typeQualifiers == null) if (typeQualifiers == null)
return null return null
val i = new Instance val i = new Instance
@ -168,13 +197,12 @@ object DataciteToOAFTransformation {
null null
} }
def available_date(input: String): Boolean = { def available_date(input: String): Boolean = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: org.json4s.JValue = parse(input) lazy val json: org.json4s.JValue = parse(input)
val l: List[String] = for { val l: List[String] = for {
JObject(dates) <- json \\ "dates" JObject(dates) <- json \\ "dates"
JField("dateType", JString(dateTypes)) <- dates JField("dateType", JString(dateTypes)) <- dates
} yield dateTypes } yield dateTypes
@ -182,18 +210,19 @@ object DataciteToOAFTransformation {
} }
/** As describe in ticket #6377
/** * when the result come from figshare we need to remove subject
* As describe in ticket #6377 * and set Access rights OPEN.
* when the result come from figshare we need to remove subject *
* and set Access rights OPEN. * @param r
* */
* @param r
*/
def fix_figshare(r: Result): Unit = { def fix_figshare(r: Result): Unit = {
if (r.getInstance() != null) { if (r.getInstance() != null) {
val hosted_by_figshare = r.getInstance().asScala.exists(i => i.getHostedby != null && "figshare".equalsIgnoreCase(i.getHostedby.getValue)) val hosted_by_figshare = r
.getInstance()
.asScala
.exists(i => i.getHostedby != null && "figshare".equalsIgnoreCase(i.getHostedby.getValue))
if (hosted_by_figshare) { if (hosted_by_figshare) {
r.getInstance().asScala.foreach(i => i.setAccessright(ModelConstants.OPEN_ACCESS_RIGHT())) r.getInstance().asScala.foreach(i => i.setAccessright(ModelConstants.OPEN_ACCESS_RIGHT()))
val l: List[StructuredProperty] = List() val l: List[StructuredProperty] = List()
@ -201,10 +230,8 @@ object DataciteToOAFTransformation {
} }
} }
} }
def createDNetTargetIdentifier(pid: String, pidType: String, idPrefix: String): String = { def createDNetTargetIdentifier(pid: String, pidType: String, idPrefix: String): String = {
val f_part = s"$idPrefix|${pidType.toLowerCase}".padTo(15, '_') val f_part = s"$idPrefix|${pidType.toLowerCase}".padTo(15, '_')
s"$f_part::${IdentifierFactory.md5(pid.toLowerCase)}" s"$f_part::${IdentifierFactory.md5(pid.toLowerCase)}"
@ -214,7 +241,13 @@ object DataciteToOAFTransformation {
OafMapperUtils.structuredProperty(dt, q, null) OafMapperUtils.structuredProperty(dt, q, null)
} }
def generateRelation(sourceId: String, targetId: String, relClass: String, cf: KeyValue, di: DataInfo): Relation = { def generateRelation(
sourceId: String,
targetId: String,
relClass: String,
cf: KeyValue,
di: DataInfo
): Relation = {
val r = new Relation val r = new Relation
r.setSource(sourceId) r.setSource(sourceId)
@ -226,7 +259,6 @@ object DataciteToOAFTransformation {
r.setDataInfo(di) r.setDataInfo(di)
r r
} }
def get_projectRelation(awardUri: String, sourceId: String): List[Relation] = { def get_projectRelation(awardUri: String, sourceId: String): List[Relation] = {
@ -238,14 +270,18 @@ object DataciteToOAFTransformation {
val grantId = m.matcher(awardUri).replaceAll("$2") val grantId = m.matcher(awardUri).replaceAll("$2")
val targetId = s"$p${DHPUtils.md5(grantId)}" val targetId = s"$p${DHPUtils.md5(grantId)}"
List(generateRelation(sourceId, targetId, "isProducedBy", DATACITE_COLLECTED_FROM, dataInfo)) List(generateRelation(sourceId, targetId, "isProducedBy", DATACITE_COLLECTED_FROM, dataInfo))
} } else
else
List() List()
} }
def generateOAF(
def generateOAF(input: String, ts: Long, dateOfCollection: Long, vocabularies: VocabularyGroup, exportLinks: Boolean): List[Oaf] = { input: String,
ts: Long,
dateOfCollection: Long,
vocabularies: VocabularyGroup,
exportLinks: Boolean
): List[Oaf] = {
if (skip_record(input)) if (skip_record(input))
return List() return List()
@ -253,7 +289,8 @@ object DataciteToOAFTransformation {
lazy val json = parse(input) lazy val json = parse(input)
val resourceType = (json \ "attributes" \ "types" \ "resourceType").extractOrElse[String](null) val resourceType = (json \ "attributes" \ "types" \ "resourceType").extractOrElse[String](null)
val resourceTypeGeneral = (json \ "attributes" \ "types" \ "resourceTypeGeneral").extractOrElse[String](null) val resourceTypeGeneral =
(json \ "attributes" \ "types" \ "resourceTypeGeneral").extractOrElse[String](null)
val schemaOrg = (json \ "attributes" \ "types" \ "schemaOrg").extractOrElse[String](null) val schemaOrg = (json \ "attributes" \ "types" \ "schemaOrg").extractOrElse[String](null)
val doi = (json \ "attributes" \ "doi").extract[String] val doi = (json \ "attributes" \ "doi").extract[String]
@ -265,8 +302,12 @@ object DataciteToOAFTransformation {
if (result == null) if (result == null)
return List() return List()
val doi_q = OafMapperUtils.qualifier(
val doi_q = OafMapperUtils.qualifier("doi", "doi", ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES) "doi",
"doi",
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES
)
val pid = OafMapperUtils.structuredProperty(doi, doi_q, dataInfo) val pid = OafMapperUtils.structuredProperty(doi, doi_q, dataInfo)
result.setPid(List(pid).asJava) result.setPid(List(pid).asJava)
result.setId(OafMapperUtils.createOpenaireId(50, s"datacite____::$doi", true)) result.setId(OafMapperUtils.createOpenaireId(50, s"datacite____::$doi", true))
@ -275,48 +316,70 @@ object DataciteToOAFTransformation {
val d = new Date(dateOfCollection * 1000) val d = new Date(dateOfCollection * 1000)
val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US) val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US)
result.setDateofcollection(ISO8601FORMAT.format(d)) result.setDateofcollection(ISO8601FORMAT.format(d))
result.setDateoftransformation(ISO8601FORMAT.format(d)) result.setDateoftransformation(ISO8601FORMAT.format(d))
result.setDataInfo(dataInfo) result.setDataInfo(dataInfo)
val creators = (json \\ "creators").extractOrElse[List[CreatorType]](List()) val creators = (json \\ "creators").extractOrElse[List[CreatorType]](List())
val authors = creators.zipWithIndex.map { case (c, idx) => val authors = creators.zipWithIndex.map { case (c, idx) =>
val a = new Author val a = new Author
a.setFullname(c.name.orNull) a.setFullname(c.name.orNull)
a.setName(c.givenName.orNull) a.setName(c.givenName.orNull)
a.setSurname(c.familyName.orNull) a.setSurname(c.familyName.orNull)
if (c.nameIdentifiers != null && c.nameIdentifiers.isDefined && c.nameIdentifiers.get != null) { if (c.nameIdentifiers != null && c.nameIdentifiers.isDefined && c.nameIdentifiers.get != null) {
a.setPid(c.nameIdentifiers.get.map(ni => { a.setPid(
val q = if (ni.nameIdentifierScheme.isDefined) vocabularies.getTermAsQualifier(ModelConstants.DNET_PID_TYPES, ni.nameIdentifierScheme.get.toLowerCase()) else null c.nameIdentifiers.get
if (ni.nameIdentifier != null && ni.nameIdentifier.isDefined) { .map(ni => {
OafMapperUtils.structuredProperty(ni.nameIdentifier.get, q, dataInfo) val q =
} if (ni.nameIdentifierScheme.isDefined)
else vocabularies.getTermAsQualifier(
null ModelConstants.DNET_PID_TYPES,
ni.nameIdentifierScheme.get.toLowerCase()
)
else null
if (ni.nameIdentifier != null && ni.nameIdentifier.isDefined) {
OafMapperUtils.structuredProperty(ni.nameIdentifier.get, q, dataInfo)
} else
null
} })
.asJava
) )
.asJava)
} }
if (c.affiliation.isDefined) if (c.affiliation.isDefined)
a.setAffiliation(c.affiliation.get.filter(af => af.nonEmpty).map(af => OafMapperUtils.field(af, dataInfo)).asJava) a.setAffiliation(
c.affiliation.get
.filter(af => af.nonEmpty)
.map(af => OafMapperUtils.field(af, dataInfo))
.asJava
)
a.setRank(idx + 1) a.setRank(idx + 1)
a a
} }
val titles: List[TitleType] = (json \\ "titles").extractOrElse[List[TitleType]](List()) val titles: List[TitleType] = (json \\ "titles").extractOrElse[List[TitleType]](List())
result.setTitle(titles.filter(t => t.title.nonEmpty).map(t => { result.setTitle(
if (t.titleType.isEmpty) { titles
OafMapperUtils.structuredProperty(t.title.get, ModelConstants.MAIN_TITLE_QUALIFIER, null) .filter(t => t.title.nonEmpty)
} else { .map(t => {
OafMapperUtils.structuredProperty(t.title.get, t.titleType.get, t.titleType.get, ModelConstants.DNET_DATACITE_TITLE, ModelConstants.DNET_DATACITE_TITLE, null) if (t.titleType.isEmpty) {
} OafMapperUtils
}).asJava) .structuredProperty(t.title.get, ModelConstants.MAIN_TITLE_QUALIFIER, null)
} else {
OafMapperUtils.structuredProperty(
t.title.get,
t.titleType.get,
t.titleType.get,
ModelConstants.DNET_DATACITE_TITLE,
ModelConstants.DNET_DATACITE_TITLE,
null
)
}
})
.asJava
)
if (authors == null || authors.isEmpty || !authors.exists(a => a != null)) if (authors == null || authors.isEmpty || !authors.exists(a => a != null))
return List() return List()
@ -337,46 +400,81 @@ object DataciteToOAFTransformation {
if (a_date.isDefined) { if (a_date.isDefined) {
if (doi.startsWith("10.14457")) if (doi.startsWith("10.14457"))
result.setEmbargoenddate(OafMapperUtils.field(fix_thai_date(a_date.get, "[yyyy-MM-dd]"), null)) result.setEmbargoenddate(
OafMapperUtils.field(fix_thai_date(a_date.get, "[yyyy-MM-dd]"), null)
)
else else
result.setEmbargoenddate(OafMapperUtils.field(a_date.get, null)) result.setEmbargoenddate(OafMapperUtils.field(a_date.get, null))
} }
if (i_date.isDefined && i_date.get.isDefined) { if (i_date.isDefined && i_date.get.isDefined) {
if (doi.startsWith("10.14457")) { if (doi.startsWith("10.14457")) {
result.setDateofacceptance(OafMapperUtils.field(fix_thai_date(i_date.get.get, "[yyyy-MM-dd]"), null)) result.setDateofacceptance(
result.getInstance().get(0).setDateofacceptance(OafMapperUtils.field(fix_thai_date(i_date.get.get, "[yyyy-MM-dd]"), null)) OafMapperUtils.field(fix_thai_date(i_date.get.get, "[yyyy-MM-dd]"), null)
} )
else { result
.getInstance()
.get(0)
.setDateofacceptance(
OafMapperUtils.field(fix_thai_date(i_date.get.get, "[yyyy-MM-dd]"), null)
)
} else {
result.setDateofacceptance(OafMapperUtils.field(i_date.get.get, null)) result.setDateofacceptance(OafMapperUtils.field(i_date.get.get, null))
result.getInstance().get(0).setDateofacceptance(OafMapperUtils.field(i_date.get.get, null)) result.getInstance().get(0).setDateofacceptance(OafMapperUtils.field(i_date.get.get, null))
} }
} } else if (publication_year != null) {
else if (publication_year != null) {
if (doi.startsWith("10.14457")) { if (doi.startsWith("10.14457")) {
result.setDateofacceptance(OafMapperUtils.field(fix_thai_date(s"01-01-$publication_year", "[dd-MM-yyyy]"), null)) result.setDateofacceptance(
result.getInstance().get(0).setDateofacceptance(OafMapperUtils.field(fix_thai_date(s"01-01-$publication_year", "[dd-MM-yyyy]"), null)) OafMapperUtils.field(fix_thai_date(s"01-01-$publication_year", "[dd-MM-yyyy]"), null)
)
result
.getInstance()
.get(0)
.setDateofacceptance(
OafMapperUtils.field(fix_thai_date(s"01-01-$publication_year", "[dd-MM-yyyy]"), null)
)
} else { } else {
result.setDateofacceptance(OafMapperUtils.field(s"01-01-$publication_year", null)) result.setDateofacceptance(OafMapperUtils.field(s"01-01-$publication_year", null))
result.getInstance().get(0).setDateofacceptance(OafMapperUtils.field(s"01-01-$publication_year", null)) result
.getInstance()
.get(0)
.setDateofacceptance(OafMapperUtils.field(s"01-01-$publication_year", null))
} }
} }
result.setRelevantdate(
result.setRelevantdate(dates.filter(d => d.date.isDefined && d.dateType.isDefined) dates
.map(d => (extract_date(d.date.get), d.dateType.get)) .filter(d => d.date.isDefined && d.dateType.isDefined)
.filter(d => d._1.isDefined) .map(d => (extract_date(d.date.get), d.dateType.get))
.map(d => (d._1.get, vocabularies.getTermAsQualifier(ModelConstants.DNET_DATACITE_DATE, d._2.toLowerCase()))) .filter(d => d._1.isDefined)
.filter(d => d._2 != null) .map(d =>
.map(d => generateOAFDate(d._1, d._2)).asJava) (
d._1.get,
vocabularies.getTermAsQualifier(ModelConstants.DNET_DATACITE_DATE, d._2.toLowerCase())
)
)
.filter(d => d._2 != null)
.map(d => generateOAFDate(d._1, d._2))
.asJava
)
val subjects = (json \\ "subjects").extract[List[SubjectType]] val subjects = (json \\ "subjects").extract[List[SubjectType]]
result.setSubject(subjects.filter(s => s.subject.nonEmpty) result.setSubject(
.map(s => subjects
OafMapperUtils.structuredProperty(s.subject.get, SUBJ_CLASS, SUBJ_CLASS, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES, null) .filter(s => s.subject.nonEmpty)
).asJava) .map(s =>
OafMapperUtils.structuredProperty(
s.subject.get,
SUBJ_CLASS,
SUBJ_CLASS,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
null
)
)
.asJava
)
result.setCollectedfrom(List(DATACITE_COLLECTED_FROM).asJava) result.setCollectedfrom(List(DATACITE_COLLECTED_FROM).asJava)
@ -384,66 +482,86 @@ object DataciteToOAFTransformation {
result.setDescription( result.setDescription(
descriptions descriptions
.filter(d => d.description.isDefined). .filter(d => d.description.isDefined)
map(d => .map(d => OafMapperUtils.field(d.description.get, null))
OafMapperUtils.field(d.description.get, null) .filter(s => s != null)
).filter(s => s != null).asJava) .asJava
)
val publisher = (json \\ "publisher").extractOrElse[String](null) val publisher = (json \\ "publisher").extractOrElse[String](null)
if (publisher != null) if (publisher != null)
result.setPublisher(OafMapperUtils.field(publisher, null)) result.setPublisher(OafMapperUtils.field(publisher, null))
val language: String = (json \\ "language").extractOrElse[String](null) val language: String = (json \\ "language").extractOrElse[String](null)
if (language != null) if (language != null)
result.setLanguage(vocabularies.getSynonymAsQualifier(ModelConstants.DNET_LANGUAGES, language)) result.setLanguage(
vocabularies.getSynonymAsQualifier(ModelConstants.DNET_LANGUAGES, language)
)
val instance = result.getInstance().get(0) val instance = result.getInstance().get(0)
val client = (json \ "relationships" \ "client" \\ "id").extractOpt[String] val client = (json \ "relationships" \ "client" \\ "id").extractOpt[String]
val accessRights: List[String] = for { val accessRights: List[String] = for {
JObject(rightsList) <- json \\ "rightsList" JObject(rightsList) <- json \\ "rightsList"
JField("rightsUri", JString(rightsUri)) <- rightsList JField("rightsUri", JString(rightsUri)) <- rightsList
} yield rightsUri } yield rightsUri
val aRights: Option[AccessRight] = accessRights.map(r => { val aRights: Option[AccessRight] = accessRights
vocabularies.getSynonymAsQualifier(ModelConstants.DNET_ACCESS_MODES, r) .map(r => {
}).find(q => q != null).map(q => { vocabularies.getSynonymAsQualifier(ModelConstants.DNET_ACCESS_MODES, r)
val a = new AccessRight })
a.setClassid(q.getClassid) .find(q => q != null)
a.setClassname(q.getClassname) .map(q => {
a.setSchemeid(q.getSchemeid) val a = new AccessRight
a.setSchemename(q.getSchemename) a.setClassid(q.getClassid)
a a.setClassname(q.getClassname)
}) a.setSchemeid(q.getSchemeid)
a.setSchemename(q.getSchemename)
a
})
val access_rights_qualifier =
val access_rights_qualifier = if (aRights.isDefined) aRights.get else OafMapperUtils.accessRight(ModelConstants.UNKNOWN, ModelConstants.NOT_AVAILABLE, ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) if (aRights.isDefined) aRights.get
else
OafMapperUtils.accessRight(
ModelConstants.UNKNOWN,
ModelConstants.NOT_AVAILABLE,
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
if (client.isDefined) { if (client.isDefined) {
instance.setHostedby(OafMapperUtils.keyValue(generateDSId(ModelConstants.UNKNOWN_REPOSITORY_ORIGINALID), ModelConstants.UNKNOWN_REPOSITORY.getValue)) instance.setHostedby(
OafMapperUtils.keyValue(
generateDSId(ModelConstants.UNKNOWN_REPOSITORY_ORIGINALID),
ModelConstants.UNKNOWN_REPOSITORY.getValue
)
)
instance.setCollectedfrom(DATACITE_COLLECTED_FROM) instance.setCollectedfrom(DATACITE_COLLECTED_FROM)
instance.setUrl(List(s"https://dx.doi.org/$doi").asJava) instance.setUrl(List(s"https://dx.doi.org/$doi").asJava)
instance.setAccessright(access_rights_qualifier) instance.setAccessright(access_rights_qualifier)
instance.setPid(result.getPid) instance.setPid(result.getPid)
val license = accessRights val license = accessRights
.find(r => r.startsWith("http") && r.matches(".*(/licenses|/publicdomain|unlicense\\.org/|/legal-and-data-protection-notices|/download/license|/open-government-licence).*")) .find(r =>
r.startsWith("http") && r.matches(
".*(/licenses|/publicdomain|unlicense\\.org/|/legal-and-data-protection-notices|/download/license|/open-government-licence).*"
)
)
if (license.isDefined) if (license.isDefined)
instance.setLicense(OafMapperUtils.field(license.get, null)) instance.setLicense(OafMapperUtils.field(license.get, null))
} }
val awardUris: List[String] = for { val awardUris: List[String] = for {
JObject(fundingReferences) <- json \\ "fundingReferences" JObject(fundingReferences) <- json \\ "fundingReferences"
JField("awardUri", JString(awardUri)) <- fundingReferences JField("awardUri", JString(awardUri)) <- fundingReferences
} yield awardUri } yield awardUri
result.setId(IdentifierFactory.createIdentifier(result)) result.setId(IdentifierFactory.createIdentifier(result))
var relations: List[Relation] = awardUris.flatMap(a => get_projectRelation(a, result.getId)).filter(r => r != null) var relations: List[Relation] =
awardUris.flatMap(a => get_projectRelation(a, result.getId)).filter(r => r != null)
fix_figshare(result) fix_figshare(result)
@ -452,28 +570,35 @@ object DataciteToOAFTransformation {
if (exportLinks) { if (exportLinks) {
val rels: List[RelatedIdentifierType] = for { val rels: List[RelatedIdentifierType] = for {
JObject(relIdentifier) <- json \\ "relatedIdentifiers" JObject(relIdentifier) <- json \\ "relatedIdentifiers"
JField("relationType", JString(relationType)) <- relIdentifier JField("relationType", JString(relationType)) <- relIdentifier
JField("relatedIdentifierType", JString(relatedIdentifierType)) <- relIdentifier JField("relatedIdentifierType", JString(relatedIdentifierType)) <- relIdentifier
JField("relatedIdentifier", JString(relatedIdentifier)) <- relIdentifier JField("relatedIdentifier", JString(relatedIdentifier)) <- relIdentifier
} yield RelatedIdentifierType(relationType, relatedIdentifier, relatedIdentifierType) } yield RelatedIdentifierType(relationType, relatedIdentifier, relatedIdentifierType)
relations = relations ::: generateRelations(rels, result.getId, if (i_date.isDefined && i_date.get.isDefined) i_date.get.get else null) relations = relations ::: generateRelations(
rels,
result.getId,
if (i_date.isDefined && i_date.get.isDefined) i_date.get.get else null
)
} }
if (relations != null && relations.nonEmpty) { if (relations != null && relations.nonEmpty) {
List(result) ::: relations List(result) ::: relations
} } else
else
List(result) List(result)
} }
private def generateRelations(rels: List[RelatedIdentifierType], id: String, date: String): List[Relation] = { private def generateRelations(
rels: List[RelatedIdentifierType],
id: String,
date: String
): List[Relation] = {
rels rels
.filter(r => .filter(r =>
subRelTypeMapping.contains(r.relationType) && ( subRelTypeMapping
r.relatedIdentifierType.equalsIgnoreCase("doi") || .contains(r.relationType) && (r.relatedIdentifierType.equalsIgnoreCase("doi") ||
r.relatedIdentifierType.equalsIgnoreCase("pmid") || r.relatedIdentifierType.equalsIgnoreCase("pmid") ||
r.relatedIdentifierType.equalsIgnoreCase("arxiv")) r.relatedIdentifierType.equalsIgnoreCase("arxiv"))
) )
.map(r => { .map(r => {
val rel = new Relation val rel = new Relation
@ -490,19 +615,19 @@ object DataciteToOAFTransformation {
rel.setProperties(List(dateProps).asJava) rel.setProperties(List(dateProps).asJava)
rel.setSource(id) rel.setSource(id)
rel.setTarget(DHPUtils.generateUnresolvedIdentifier(r.relatedIdentifier, r.relatedIdentifierType)) rel.setTarget(
DHPUtils.generateUnresolvedIdentifier(r.relatedIdentifier, r.relatedIdentifierType)
)
rel.setCollectedfrom(List(DATACITE_COLLECTED_FROM).asJava) rel.setCollectedfrom(List(DATACITE_COLLECTED_FROM).asJava)
rel.getCollectedfrom.asScala.map(c => c.getValue).toList rel.getCollectedfrom.asScala.map(c => c.getValue).toList
rel rel
}) })
} }
def generateDSId(input: String): String = { def generateDSId(input: String): String = {
val b = StringUtils.substringBefore(input, "::") val b = StringUtils.substringBefore(input, "::")
val a = StringUtils.substringAfter(input, "::") val a = StringUtils.substringAfter(input, "::")
s"10|$b::${DHPUtils.md5(a)}" s"10|$b::${DHPUtils.md5(a)}"
} }
} }

View File

@ -12,12 +12,12 @@ import eu.dnetlib.dhp.utils.ISLookupClientFactory
import org.apache.spark.sql.{Encoder, Encoders, SparkSession} import org.apache.spark.sql.{Encoder, Encoders, SparkSession}
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
class GenerateDataciteDatasetSpark(propertyPath: String, args: Array[String], log: Logger)
extends AbstractScalaApplication(propertyPath, args, log: Logger) {
class GenerateDataciteDatasetSpark (propertyPath:String, args:Array[String], log:Logger) extends AbstractScalaApplication(propertyPath, args, log:Logger) { /** Here all the spark applications runs this method
/** * where the whole logic of the spark node is defined
* Here all the spark applications runs this method */
* where the whole logic of the spark node is defined
*/
override def run(): Unit = { override def run(): Unit = {
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
@ -46,49 +46,65 @@ class GenerateDataciteDatasetSpark (propertyPath:String, args:Array[String], log
reportTotalSize(targetPath, outputBasePath) reportTotalSize(targetPath, outputBasePath)
} }
/** For working with MDStore we need to store in a file on hdfs the size of
/** * the current dataset
* For working with MDStore we need to store in a file on hdfs the size of * @param targetPath
* the current dataset * @param outputBasePath
* @param targetPath */
* @param outputBasePath def reportTotalSize(targetPath: String, outputBasePath: String): Unit = {
*/
def reportTotalSize( targetPath: String, outputBasePath: String ):Unit = {
val total_items = spark.read.text(targetPath).count() val total_items = spark.read.text(targetPath).count()
writeHdfsFile(spark.sparkContext.hadoopConfiguration, s"$total_items", outputBasePath + MDSTORE_SIZE_PATH) writeHdfsFile(
spark.sparkContext.hadoopConfiguration,
s"$total_items",
outputBasePath + MDSTORE_SIZE_PATH
)
} }
/** /** Generate the transformed and cleaned OAF Dataset from the native one
* Generate the transformed and cleaned OAF Dataset from the native one *
* @param sourcePath sourcePath of the native Dataset in format JSON/Datacite
* @param sourcePath sourcePath of the native Dataset in format JSON/Datacite * @param exportLinks If true it generates unresolved links
* @param exportLinks If true it generates unresolved links * @param vocabularies vocabularies for cleaning
* @param vocabularies vocabularies for cleaning * @param targetPath the targetPath of the result Dataset
* @param targetPath the targetPath of the result Dataset */
*/ def generateDataciteDataset(
def generateDataciteDataset(sourcePath: String, exportLinks: Boolean, vocabularies: VocabularyGroup, targetPath: String, spark:SparkSession):Unit = { sourcePath: String,
require(spark!= null) exportLinks: Boolean,
vocabularies: VocabularyGroup,
targetPath: String,
spark: SparkSession
): Unit = {
require(spark != null)
import spark.implicits._ import spark.implicits._
implicit val mrEncoder: Encoder[MetadataRecord] = Encoders.kryo[MetadataRecord] implicit val mrEncoder: Encoder[MetadataRecord] = Encoders.kryo[MetadataRecord]
implicit val resEncoder: Encoder[Oaf] = Encoders.kryo[Oaf] implicit val resEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
CollectionUtils.saveDataset( CollectionUtils.saveDataset(
spark.read.load(sourcePath).as[DataciteType] spark.read
.load(sourcePath)
.as[DataciteType]
.filter(d => d.isActive) .filter(d => d.isActive)
.flatMap(d => DataciteToOAFTransformation.generateOAF(d.json, d.timestamp, d.timestamp, vocabularies, exportLinks)) .flatMap(d =>
DataciteToOAFTransformation
.generateOAF(d.json, d.timestamp, d.timestamp, vocabularies, exportLinks)
)
.filter(d => d != null), .filter(d => d != null),
targetPath) targetPath
)
} }
} }
object GenerateDataciteDatasetSpark { object GenerateDataciteDatasetSpark {
val log: Logger = LoggerFactory.getLogger(GenerateDataciteDatasetSpark.getClass) val log: Logger = LoggerFactory.getLogger(GenerateDataciteDatasetSpark.getClass)
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
new GenerateDataciteDatasetSpark("/eu/dnetlib/dhp/datacite/generate_dataset_params.json", args, log).initialize().run() new GenerateDataciteDatasetSpark(
"/eu/dnetlib/dhp/datacite/generate_dataset_params.json",
args,
log
).initialize().run()
} }
} }

View File

@ -22,7 +22,6 @@ object ImportDatacite {
val log: Logger = LoggerFactory.getLogger(ImportDatacite.getClass) val log: Logger = LoggerFactory.getLogger(ImportDatacite.getClass)
def convertAPIStringToDataciteItem(input: String): DataciteType = { def convertAPIStringToDataciteItem(input: String): DataciteType = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: org.json4s.JValue = parse(input) lazy val json: org.json4s.JValue = parse(input)
@ -32,14 +31,26 @@ object ImportDatacite {
val timestamp_string = (json \ "attributes" \ "updated").extract[String] val timestamp_string = (json \ "attributes" \ "updated").extract[String]
val dt = LocalDateTime.parse(timestamp_string, ISO_DATE_TIME) val dt = LocalDateTime.parse(timestamp_string, ISO_DATE_TIME)
DataciteType(doi = doi, timestamp = dt.toInstant(ZoneOffset.UTC).toEpochMilli / 1000, isActive = isActive, json = input) DataciteType(
doi = doi,
timestamp = dt.toInstant(ZoneOffset.UTC).toEpochMilli / 1000,
isActive = isActive,
json = input
)
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/actionmanager/datacite/import_from_api.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/actionmanager/datacite/import_from_api.json"
)
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val master = parser.get("master") val master = parser.get("master")
@ -60,7 +71,8 @@ object ImportDatacite {
val spkipImport = parser.get("skipImport") val spkipImport = parser.get("skipImport")
log.info(s"skipImport is $spkipImport") log.info(s"skipImport is $spkipImport")
val spark: SparkSession = SparkSession.builder() val spark: SparkSession = SparkSession
.builder()
.appName(ImportDatacite.getClass.getSimpleName) .appName(ImportDatacite.getClass.getSimpleName)
.master(master) .master(master)
.getOrCreate() .getOrCreate()
@ -78,45 +90,48 @@ object ImportDatacite {
import spark.implicits._ import spark.implicits._
val dataciteAggregator: Aggregator[DataciteType, DataciteType, DataciteType] =
new Aggregator[DataciteType, DataciteType, DataciteType] with Serializable {
val dataciteAggregator: Aggregator[DataciteType, DataciteType, DataciteType] = new Aggregator[DataciteType, DataciteType, DataciteType] with Serializable { override def zero: DataciteType = null
override def zero: DataciteType = null override def reduce(a: DataciteType, b: DataciteType): DataciteType = {
if (b == null)
override def reduce(a: DataciteType, b: DataciteType): DataciteType = { return a
if (b == null) if (a == null)
return a return b
if (a == null) if (a.timestamp > b.timestamp) {
return b return a
if (a.timestamp > b.timestamp) { }
return a b
} }
b
override def merge(a: DataciteType, b: DataciteType): DataciteType = {
reduce(a, b)
}
override def bufferEncoder: Encoder[DataciteType] = implicitly[Encoder[DataciteType]]
override def outputEncoder: Encoder[DataciteType] = implicitly[Encoder[DataciteType]]
override def finish(reduction: DataciteType): DataciteType = reduction
} }
override def merge(a: DataciteType, b: DataciteType): DataciteType = {
reduce(a, b)
}
override def bufferEncoder: Encoder[DataciteType] = implicitly[Encoder[DataciteType]]
override def outputEncoder: Encoder[DataciteType] = implicitly[Encoder[DataciteType]]
override def finish(reduction: DataciteType): DataciteType = reduction
}
val dump: Dataset[DataciteType] = spark.read.load(dataciteDump).as[DataciteType] val dump: Dataset[DataciteType] = spark.read.load(dataciteDump).as[DataciteType]
val ts = dump.select(max("timestamp")).first().getLong(0) val ts = dump.select(max("timestamp")).first().getLong(0)
println(s"last Timestamp is $ts") println(s"last Timestamp is $ts")
val cnt = if ("true".equalsIgnoreCase(spkipImport)) 1 else writeSequenceFile(hdfsTargetPath, ts, conf, bs) val cnt =
if ("true".equalsIgnoreCase(spkipImport)) 1
else writeSequenceFile(hdfsTargetPath, ts, conf, bs)
println(s"Imported from Datacite API $cnt documents") println(s"Imported from Datacite API $cnt documents")
if (cnt > 0) { if (cnt > 0) {
val inputRdd: RDD[DataciteType] = sc.sequenceFile(targetPath, classOf[Int], classOf[Text]) val inputRdd: RDD[DataciteType] = sc
.sequenceFile(targetPath, classOf[Int], classOf[Text])
.map(s => s._2.toString) .map(s => s._2.toString)
.map(s => convertAPIStringToDataciteItem(s)) .map(s => convertAPIStringToDataciteItem(s))
spark.createDataset(inputRdd).write.mode(SaveMode.Overwrite).save(s"${targetPath}_dataset") spark.createDataset(inputRdd).write.mode(SaveMode.Overwrite).save(s"${targetPath}_dataset")
@ -129,7 +144,9 @@ object ImportDatacite {
.agg(dataciteAggregator.toColumn) .agg(dataciteAggregator.toColumn)
.map(s => s._2) .map(s => s._2)
.repartition(4000) .repartition(4000)
.write.mode(SaveMode.Overwrite).save(s"${dataciteDump}_updated") .write
.mode(SaveMode.Overwrite)
.save(s"${dataciteDump}_updated")
val fs = FileSystem.get(sc.hadoopConfiguration) val fs = FileSystem.get(sc.hadoopConfiguration)
fs.delete(new Path(s"$dataciteDump"), true) fs.delete(new Path(s"$dataciteDump"), true)
@ -137,14 +154,24 @@ object ImportDatacite {
} }
} }
private def writeSequenceFile(hdfsTargetPath: Path, timestamp: Long, conf: Configuration, bs: Int): Long = { private def writeSequenceFile(
hdfsTargetPath: Path,
timestamp: Long,
conf: Configuration,
bs: Int
): Long = {
var from: Long = timestamp * 1000 var from: Long = timestamp * 1000
val delta: Long = 100000000L val delta: Long = 100000000L
var client: DataciteAPIImporter = null var client: DataciteAPIImporter = null
val now: Long = System.currentTimeMillis() val now: Long = System.currentTimeMillis()
var i = 0 var i = 0
try { try {
val writer = SequenceFile.createWriter(conf, SequenceFile.Writer.file(hdfsTargetPath), SequenceFile.Writer.keyClass(classOf[IntWritable]), SequenceFile.Writer.valueClass(classOf[Text])) val writer = SequenceFile.createWriter(
conf,
SequenceFile.Writer.file(hdfsTargetPath),
SequenceFile.Writer.keyClass(classOf[IntWritable]),
SequenceFile.Writer.valueClass(classOf[Text])
)
try { try {
var start: Long = System.currentTimeMillis var start: Long = System.currentTimeMillis
while (from < now) { while (from < now) {
@ -153,16 +180,16 @@ object ImportDatacite {
val key: IntWritable = new IntWritable(i) val key: IntWritable = new IntWritable(i)
val value: Text = new Text val value: Text = new Text
while (client.hasNext) { while (client.hasNext) {
key.set({ key.set {
i += 1; i += 1;
i - 1 i - 1
}) }
value.set(client.next()) value.set(client.next())
writer.append(key, value) writer.append(key, value)
writer.hflush() writer.hflush()
if (i % 1000 == 0) { if (i % 1000 == 0) {
end = System.currentTimeMillis end = System.currentTimeMillis
val time = (end - start) / 1000.0F val time = (end - start) / 1000.0f
println(s"Imported $i in $time seconds") println(s"Imported $i in $time seconds")
start = System.currentTimeMillis start = System.currentTimeMillis
} }
@ -174,8 +201,7 @@ object ImportDatacite {
case e: Throwable => case e: Throwable =>
println("Error", e) println("Error", e)
} finally if (writer != null) writer.close() } finally if (writer != null) writer.close()
} } catch {
catch {
case e: Throwable => case e: Throwable =>
log.error("Error", e) log.error("Error", e)
} }

View File

@ -17,7 +17,13 @@ object SparkDownloadUpdateDatacite {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf = new SparkConf val conf = new SparkConf
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/datacite/generate_dataset_params.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/datacite/generate_dataset_params.json")
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val master = parser.get("master") val master = parser.get("master")
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
@ -26,8 +32,9 @@ object SparkDownloadUpdateDatacite {
val hdfsuri = parser.get("namenode") val hdfsuri = parser.get("namenode")
log.info(s"namenode is $hdfsuri") log.info(s"namenode is $hdfsuri")
val spark: SparkSession = SparkSession
val spark: SparkSession = SparkSession.builder().config(conf) .builder()
.config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(master) .master(master)
.getOrCreate() .getOrCreate()
@ -37,13 +44,18 @@ object SparkDownloadUpdateDatacite {
import spark.implicits._ import spark.implicits._
val maxDate: String = spark.read
val maxDate: String = spark.read.load(workingPath).as[Oaf].filter(s => s.isInstanceOf[Result]).map(r => r.asInstanceOf[Result].getDateofcollection).select(max("value")).first().getString(0) .load(workingPath)
.as[Oaf]
.filter(s => s.isInstanceOf[Result])
.map(r => r.asInstanceOf[Result].getDateofcollection)
.select(max("value"))
.first()
.getString(0)
val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US) val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US)
val string_to_date = ISO8601FORMAT.parse(maxDate) val string_to_date = ISO8601FORMAT.parse(maxDate)
val ts = string_to_date.getTime val ts = string_to_date.getTime
} }
} }

View File

@ -12,39 +12,81 @@ object BioDBToOAF {
case class EBILinkItem(id: Long, links: String) {} case class EBILinkItem(id: Long, links: String) {}
case class EBILinks(relType: String, date: String, title: String, pmid: String, targetPid: String, targetPidType: String, targetUrl: String) {} case class EBILinks(
relType: String,
date: String,
title: String,
pmid: String,
targetPid: String,
targetPidType: String,
targetUrl: String
) {}
case class UniprotDate(date: String, date_info: String) {} case class UniprotDate(date: String, date_info: String) {}
case class ScholixResolved(pid: String, pidType: String, typology: String, tilte: List[String], datasource: List[String], date: List[String], authors: List[String]) {} case class ScholixResolved(
pid: String,
pidType: String,
typology: String,
tilte: List[String],
datasource: List[String],
date: List[String],
authors: List[String]
) {}
val DATA_INFO: DataInfo = OafMapperUtils.dataInfo(false, null, false, false, ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER, "0.9") val DATA_INFO: DataInfo = OafMapperUtils.dataInfo(
false,
null,
false,
false,
ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER,
"0.9"
)
val SUBJ_CLASS = "Keywords" val SUBJ_CLASS = "Keywords"
val DATE_RELATION_KEY = "RelationDate" val DATE_RELATION_KEY = "RelationDate"
val resolvedURL: Map[String, String] = Map( val resolvedURL: Map[String, String] = Map(
"genbank" -> "https://www.ncbi.nlm.nih.gov/nuccore/", "genbank" -> "https://www.ncbi.nlm.nih.gov/nuccore/",
"ncbi-n" -> "https://www.ncbi.nlm.nih.gov/nuccore/", "ncbi-n" -> "https://www.ncbi.nlm.nih.gov/nuccore/",
"ncbi-wgs" -> "https://www.ncbi.nlm.nih.gov/nuccore/", "ncbi-wgs" -> "https://www.ncbi.nlm.nih.gov/nuccore/",
"ncbi-p" -> "https://www.ncbi.nlm.nih.gov/protein/", "ncbi-p" -> "https://www.ncbi.nlm.nih.gov/protein/",
"ena" -> "https://www.ebi.ac.uk/ena/browser/view/", "ena" -> "https://www.ebi.ac.uk/ena/browser/view/",
"clinicaltrials.gov" -> "https://clinicaltrials.gov/ct2/show/", "clinicaltrials.gov" -> "https://clinicaltrials.gov/ct2/show/",
"onim" -> "https://omim.org/entry/", "onim" -> "https://omim.org/entry/",
"refseq" -> "https://www.ncbi.nlm.nih.gov/nuccore/", "refseq" -> "https://www.ncbi.nlm.nih.gov/nuccore/",
"geo" -> "https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=" "geo" -> "https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc="
) )
val collectedFromMap: Map[String, KeyValue] = { val collectedFromMap: Map[String, KeyValue] = {
val PDBCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|opendoar____::d1c373ab1570cfb9a7dbb53c186b37a2", "Protein Data Bank") val PDBCollectedFrom: KeyValue = OafMapperUtils.keyValue(
val enaCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|re3data_____::c2a591f440598b63d854556beaf01591", "European Nucleotide Archive") "10|opendoar____::d1c373ab1570cfb9a7dbb53c186b37a2",
val ncbiCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|re3data_____::7d4f90870fe1e493232c9e86c43ae6f6", "NCBI Nucleotide") "Protein Data Bank"
val UNIPROTCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|re3data_____::296e1abaf1302897a6838d3588cd0310", "UniProtKB/Swiss-Prot") )
val ElsevierCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|openaire____::8f87e10869299a5fe80b315695296b88", "Elsevier") val enaCollectedFrom: KeyValue = OafMapperUtils.keyValue(
val springerNatureCollectedFrom: KeyValue = OafMapperUtils.keyValue("10|openaire____::6e380d9cf51138baec8480f5a0ce3a2e", "Springer Nature") "10|re3data_____::c2a591f440598b63d854556beaf01591",
val EBICollectedFrom: KeyValue = OafMapperUtils.keyValue("10|opendoar____::83e60e09c222f206c725385f53d7e567c", "EMBL-EBIs Protein Data Bank in Europe (PDBe)") "European Nucleotide Archive"
val pubmedCollectedFrom: KeyValue = OafMapperUtils.keyValue(ModelConstants.EUROPE_PUBMED_CENTRAL_ID, "Europe PubMed Central") )
val ncbiCollectedFrom: KeyValue = OafMapperUtils.keyValue(
"10|re3data_____::7d4f90870fe1e493232c9e86c43ae6f6",
"NCBI Nucleotide"
)
val UNIPROTCollectedFrom: KeyValue = OafMapperUtils.keyValue(
"10|re3data_____::296e1abaf1302897a6838d3588cd0310",
"UniProtKB/Swiss-Prot"
)
val ElsevierCollectedFrom: KeyValue =
OafMapperUtils.keyValue("10|openaire____::8f87e10869299a5fe80b315695296b88", "Elsevier")
val springerNatureCollectedFrom: KeyValue = OafMapperUtils.keyValue(
"10|openaire____::6e380d9cf51138baec8480f5a0ce3a2e",
"Springer Nature"
)
val EBICollectedFrom: KeyValue = OafMapperUtils.keyValue(
"10|opendoar____::83e60e09c222f206c725385f53d7e567c",
"EMBL-EBIs Protein Data Bank in Europe (PDBe)"
)
val pubmedCollectedFrom: KeyValue =
OafMapperUtils.keyValue(ModelConstants.EUROPE_PUBMED_CENTRAL_ID, "Europe PubMed Central")
UNIPROTCollectedFrom.setDataInfo(DATA_INFO) UNIPROTCollectedFrom.setDataInfo(DATA_INFO)
PDBCollectedFrom.setDataInfo(DATA_INFO) PDBCollectedFrom.setDataInfo(DATA_INFO)
@ -56,14 +98,14 @@ object BioDBToOAF {
springerNatureCollectedFrom.setDataInfo(DATA_INFO) springerNatureCollectedFrom.setDataInfo(DATA_INFO)
Map( Map(
"uniprot" -> UNIPROTCollectedFrom, "uniprot" -> UNIPROTCollectedFrom,
"pdb" -> PDBCollectedFrom, "pdb" -> PDBCollectedFrom,
"elsevier" -> ElsevierCollectedFrom, "elsevier" -> ElsevierCollectedFrom,
"ebi" -> EBICollectedFrom, "ebi" -> EBICollectedFrom,
"Springer Nature" -> springerNatureCollectedFrom, "Springer Nature" -> springerNatureCollectedFrom,
"NCBI Nucleotide" -> ncbiCollectedFrom, "NCBI Nucleotide" -> ncbiCollectedFrom,
"European Nucleotide Archive" -> enaCollectedFrom, "European Nucleotide Archive" -> enaCollectedFrom,
"Europe PMC" -> pubmedCollectedFrom "Europe PMC" -> pubmedCollectedFrom
) )
} }
@ -80,18 +122,32 @@ object BioDBToOAF {
val date = GraphCleaningFunctions.cleanDate((json \ "LinkedPublicationDate").extract[String]) val date = GraphCleaningFunctions.cleanDate((json \ "LinkedPublicationDate").extract[String])
createRelation(target_pid, target_pid_type, generate_unresolved_id(source_pid, source_pid_type), collectedFromMap("elsevier"), "relationship", relation_semantic, date) createRelation(
target_pid,
target_pid_type,
generate_unresolved_id(source_pid, source_pid_type),
collectedFromMap("elsevier"),
"relationship",
relation_semantic,
date
)
} }
def scholixResolvedToOAF(input: ScholixResolved): Oaf = { def scholixResolvedToOAF(input: ScholixResolved): Oaf = {
val d = new Dataset val d = new Dataset
d.setPid( d.setPid(
List( List(
OafMapperUtils.structuredProperty(input.pid.toLowerCase, input.pidType.toLowerCase, input.pidType.toLowerCase, ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, DATA_INFO) OafMapperUtils.structuredProperty(
input.pid.toLowerCase,
input.pidType.toLowerCase,
input.pidType.toLowerCase,
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
DATA_INFO
)
).asJava ).asJava
) )
@ -101,7 +157,15 @@ object BioDBToOAF {
d.setId(OafMapperUtils.createOpenaireId(50, s"$nsPrefix::${input.pid.toLowerCase}", true)) d.setId(OafMapperUtils.createOpenaireId(50, s"$nsPrefix::${input.pid.toLowerCase}", true))
if (input.tilte != null && input.tilte.nonEmpty) if (input.tilte != null && input.tilte.nonEmpty)
d.setTitle(List(OafMapperUtils.structuredProperty(input.tilte.head, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)).asJava) d.setTitle(
List(
OafMapperUtils.structuredProperty(
input.tilte.head,
ModelConstants.MAIN_TITLE_QUALIFIER,
DATA_INFO
)
).asJava
)
d.setOriginalId(List(input.pid).asJava) d.setOriginalId(List(input.pid).asJava)
val i = new Instance val i = new Instance
@ -113,9 +177,23 @@ object BioDBToOAF {
} }
if (input.pidType.equalsIgnoreCase("clinicaltrials.gov")) if (input.pidType.equalsIgnoreCase("clinicaltrials.gov"))
i.setInstancetype(OafMapperUtils.qualifier("0037", "Clinical Trial", ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) i.setInstancetype(
OafMapperUtils.qualifier(
"0037",
"Clinical Trial",
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
else else
i.setInstancetype(OafMapperUtils.qualifier("0046", "Bioentity", ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) i.setInstancetype(
OafMapperUtils.qualifier(
"0046",
"Bioentity",
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
if (input.datasource == null || input.datasource.isEmpty) if (input.datasource == null || input.datasource.isEmpty)
return null return null
@ -141,7 +219,6 @@ object BioDBToOAF {
d d
} }
def uniprotToOAF(input: String): List[Oaf] = { def uniprotToOAF(input: String): List[Oaf] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json = parse(input) lazy val json = parse(input)
@ -151,7 +228,14 @@ object BioDBToOAF {
d.setPid( d.setPid(
List( List(
OafMapperUtils.structuredProperty(pid, "uniprot", "uniprot", ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, DATA_INFO) OafMapperUtils.structuredProperty(
pid,
"uniprot",
"uniprot",
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
DATA_INFO
)
).asJava ).asJava
) )
@ -162,32 +246,52 @@ object BioDBToOAF {
val title: String = (json \ "title").extractOrElse[String](null) val title: String = (json \ "title").extractOrElse[String](null)
if (title != null) if (title != null)
d.setTitle(List(OafMapperUtils.structuredProperty(title, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)).asJava) d.setTitle(
List(
OafMapperUtils.structuredProperty(title, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)
).asJava
)
d.setOriginalId(List(pid).asJava) d.setOriginalId(List(pid).asJava)
val i = new Instance val i = new Instance
i.setPid(d.getPid) i.setPid(d.getPid)
i.setUrl(List(s"https://www.uniprot.org/uniprot/$pid").asJava) i.setUrl(List(s"https://www.uniprot.org/uniprot/$pid").asJava)
i.setInstancetype(OafMapperUtils.qualifier("0046", "Bioentity", ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) i.setInstancetype(
OafMapperUtils.qualifier(
"0046",
"Bioentity",
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
i.setCollectedfrom(collectedFromMap("uniprot")) i.setCollectedfrom(collectedFromMap("uniprot"))
d.setInstance(List(i).asJava) d.setInstance(List(i).asJava)
val dates: List[UniprotDate] = for { val dates: List[UniprotDate] = for {
JObject(dateOBJ) <- json \ "dates" JObject(dateOBJ) <- json \ "dates"
JField("date", JString(date)) <- dateOBJ JField("date", JString(date)) <- dateOBJ
JField("date_info", JString(date_info)) <- dateOBJ JField("date_info", JString(date_info)) <- dateOBJ
} yield UniprotDate(GraphCleaningFunctions.cleanDate(date), date_info) } yield UniprotDate(GraphCleaningFunctions.cleanDate(date), date_info)
val subjects: List[String] = (json \\ "subjects").extractOrElse[List[String]](null) val subjects: List[String] = (json \\ "subjects").extractOrElse[List[String]](null)
if (subjects != null) { if (subjects != null) {
d.setSubject( d.setSubject(
subjects.map(s => subjects
OafMapperUtils.structuredProperty(s, SUBJ_CLASS, SUBJ_CLASS, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES, null) .map(s =>
).asJava) OafMapperUtils.structuredProperty(
s,
SUBJ_CLASS,
SUBJ_CLASS,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
null
)
)
.asJava
)
} }
var i_date: Option[UniprotDate] = None var i_date: Option[UniprotDate] = None
@ -197,45 +301,73 @@ object BioDBToOAF {
i.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO)) i.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO))
d.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO)) d.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO))
} }
val relevant_dates: List[StructuredProperty] = dates.filter(d => !d.date_info.contains("entry version")) val relevant_dates: List[StructuredProperty] = dates
.map(date => OafMapperUtils.structuredProperty(date.date, ModelConstants.UNKNOWN, ModelConstants.UNKNOWN, ModelConstants.DNET_DATACITE_DATE, ModelConstants.DNET_DATACITE_DATE, DATA_INFO)) .filter(d => !d.date_info.contains("entry version"))
.map(date =>
OafMapperUtils.structuredProperty(
date.date,
ModelConstants.UNKNOWN,
ModelConstants.UNKNOWN,
ModelConstants.DNET_DATACITE_DATE,
ModelConstants.DNET_DATACITE_DATE,
DATA_INFO
)
)
if (relevant_dates != null && relevant_dates.nonEmpty) if (relevant_dates != null && relevant_dates.nonEmpty)
d.setRelevantdate(relevant_dates.asJava) d.setRelevantdate(relevant_dates.asJava)
d.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO)) d.setDateofacceptance(OafMapperUtils.field(i_date.get.date, DATA_INFO))
} }
val references_pmid: List[String] = for { val references_pmid: List[String] = for {
JObject(reference) <- json \ "references" JObject(reference) <- json \ "references"
JField("PubMed", JString(pid)) <- reference JField("PubMed", JString(pid)) <- reference
} yield pid } yield pid
val references_doi: List[String] = for { val references_doi: List[String] = for {
JObject(reference) <- json \ "references" JObject(reference) <- json \ "references"
JField(" DOI", JString(pid)) <- reference JField(" DOI", JString(pid)) <- reference
} yield pid } yield pid
if (references_pmid != null && references_pmid.nonEmpty) { if (references_pmid != null && references_pmid.nonEmpty) {
val rel = createRelation(references_pmid.head, "pmid", d.getId, collectedFromMap("uniprot"), ModelConstants.RELATIONSHIP, ModelConstants.IS_RELATED_TO, if (i_date.isDefined) i_date.get.date else null) val rel = createRelation(
references_pmid.head,
"pmid",
d.getId,
collectedFromMap("uniprot"),
ModelConstants.RELATIONSHIP,
ModelConstants.IS_RELATED_TO,
if (i_date.isDefined) i_date.get.date else null
)
rel.getCollectedfrom rel.getCollectedfrom
List(d, rel) List(d, rel)
} } else if (references_doi != null && references_doi.nonEmpty) {
else if (references_doi != null && references_doi.nonEmpty) { val rel = createRelation(
val rel = createRelation(references_doi.head, "doi", d.getId, collectedFromMap("uniprot"), ModelConstants.RELATIONSHIP, ModelConstants.IS_RELATED_TO, if (i_date.isDefined) i_date.get.date else null) references_doi.head,
"doi",
d.getId,
collectedFromMap("uniprot"),
ModelConstants.RELATIONSHIP,
ModelConstants.IS_RELATED_TO,
if (i_date.isDefined) i_date.get.date else null
)
List(d, rel) List(d, rel)
} } else
else
List(d) List(d)
} }
def generate_unresolved_id(pid: String, pidType: String): String = { def generate_unresolved_id(pid: String, pidType: String): String = {
s"unresolved::$pid::$pidType" s"unresolved::$pid::$pidType"
} }
def createRelation(
def createRelation(pid: String, pidType: String, sourceId: String, collectedFrom: KeyValue, subRelType: String, relClass: String, date: String): Relation = { pid: String,
pidType: String,
sourceId: String,
collectedFrom: KeyValue,
subRelType: String,
relClass: String,
date: String
): Relation = {
val rel = new Relation val rel = new Relation
rel.setCollectedfrom(List(collectedFromMap("pdb")).asJava) rel.setCollectedfrom(List(collectedFromMap("pdb")).asJava)
@ -248,7 +380,6 @@ object BioDBToOAF {
rel.setSource(sourceId) rel.setSource(sourceId)
rel.setTarget(s"unresolved::$pid::$pidType") rel.setTarget(s"unresolved::$pid::$pidType")
val dateProps: KeyValue = OafMapperUtils.keyValue(DATE_RELATION_KEY, date) val dateProps: KeyValue = OafMapperUtils.keyValue(DATE_RELATION_KEY, date)
rel.setProperties(List(dateProps).asJava) rel.setProperties(List(dateProps).asJava)
@ -259,12 +390,24 @@ object BioDBToOAF {
} }
def createSupplementaryRelation(
def createSupplementaryRelation(pid: String, pidType: String, sourceId: String, collectedFrom: KeyValue, date: String): Relation = { pid: String,
createRelation(pid, pidType, sourceId, collectedFrom, ModelConstants.SUPPLEMENT, ModelConstants.IS_SUPPLEMENT_TO, date) pidType: String,
sourceId: String,
collectedFrom: KeyValue,
date: String
): Relation = {
createRelation(
pid,
pidType,
sourceId,
collectedFrom,
ModelConstants.SUPPLEMENT,
ModelConstants.IS_SUPPLEMENT_TO,
date
)
} }
def pdbTOOaf(input: String): List[Oaf] = { def pdbTOOaf(input: String): List[Oaf] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json = parse(input) lazy val json = parse(input)
@ -277,7 +420,14 @@ object BioDBToOAF {
d.setPid( d.setPid(
List( List(
OafMapperUtils.structuredProperty(pdb, "pdb", "Protein Data Bank Identifier", ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, DATA_INFO) OafMapperUtils.structuredProperty(
pdb,
"pdb",
"Protein Data Bank Identifier",
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
DATA_INFO
)
).asJava ).asJava
) )
@ -290,13 +440,16 @@ object BioDBToOAF {
if (title == null) if (title == null)
return List() return List()
d.setTitle(List(OafMapperUtils.structuredProperty(title, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)).asJava) d.setTitle(
List(
OafMapperUtils.structuredProperty(title, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)
).asJava
)
val authors: List[String] = (json \ "authors").extractOrElse[List[String]](null) val authors: List[String] = (json \ "authors").extractOrElse[List[String]](null)
if (authors != null) { if (authors != null) {
val convertedAuthors = authors.zipWithIndex.map { a => val convertedAuthors = authors.zipWithIndex.map { a =>
val res = new Author val res = new Author
res.setFullname(a._1) res.setFullname(a._1)
res.setRank(a._2 + 1) res.setRank(a._2 + 1)
@ -310,7 +463,14 @@ object BioDBToOAF {
i.setPid(d.getPid) i.setPid(d.getPid)
i.setUrl(List(s"https://www.rcsb.org/structure/$pdb").asJava) i.setUrl(List(s"https://www.rcsb.org/structure/$pdb").asJava)
i.setInstancetype(OafMapperUtils.qualifier("0046", "Bioentity", ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) i.setInstancetype(
OafMapperUtils.qualifier(
"0046",
"Bioentity",
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
i.setCollectedfrom(collectedFromMap("pdb")) i.setCollectedfrom(collectedFromMap("pdb"))
d.setInstance(List(i).asJava) d.setInstance(List(i).asJava)
@ -323,7 +483,6 @@ object BioDBToOAF {
List(d) List(d)
} }
def extractEBILinksFromDump(input: String): EBILinkItem = { def extractEBILinksFromDump(input: String): EBILinkItem = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json = parse(input) lazy val json = parse(input)
@ -333,49 +492,70 @@ object BioDBToOAF {
EBILinkItem(pmid.toLong, compact(render(links))) EBILinkItem(pmid.toLong, compact(render(links)))
} }
def EBITargetLinksFilter(input: EBILinks): Boolean = { def EBITargetLinksFilter(input: EBILinks): Boolean = {
input.targetPidType.equalsIgnoreCase("ena") || input.targetPidType.equalsIgnoreCase("pdb") || input.targetPidType.equalsIgnoreCase("uniprot") input.targetPidType.equalsIgnoreCase("ena") || input.targetPidType.equalsIgnoreCase(
"pdb"
) || input.targetPidType.equalsIgnoreCase("uniprot")
} }
def parse_ebi_links(input: String): List[EBILinks] = { def parse_ebi_links(input: String): List[EBILinks] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json = parse(input) lazy val json = parse(input)
val pmid = (json \ "request" \ "id").extract[String] val pmid = (json \ "request" \ "id").extract[String]
for { for {
JObject(link) <- json \\ "Link" JObject(link) <- json \\ "Link"
JField("Target", JObject(target)) <- link JField("Target", JObject(target)) <- link
JField("RelationshipType", JObject(relType)) <- link JField("RelationshipType", JObject(relType)) <- link
JField("Name", JString(relation)) <- relType JField("Name", JString(relation)) <- relType
JField("PublicationDate", JString(publicationDate)) <- link JField("PublicationDate", JString(publicationDate)) <- link
JField("Title", JString(title)) <- target JField("Title", JString(title)) <- target
JField("Identifier", JObject(identifier)) <- target JField("Identifier", JObject(identifier)) <- target
JField("IDScheme", JString(idScheme)) <- identifier JField("IDScheme", JString(idScheme)) <- identifier
JField("IDURL", JString(idUrl)) <- identifier JField("IDURL", JString(idUrl)) <- identifier
JField("ID", JString(id)) <- identifier JField("ID", JString(id)) <- identifier
} yield EBILinks(relation, GraphCleaningFunctions.cleanDate(publicationDate), title, pmid, id, idScheme, idUrl) } yield EBILinks(
relation,
GraphCleaningFunctions.cleanDate(publicationDate),
title,
pmid,
id,
idScheme,
idUrl
)
} }
def convertEBILinksToOaf(input: EBILinks): List[Oaf] = { def convertEBILinksToOaf(input: EBILinks): List[Oaf] = {
val d = new Dataset val d = new Dataset
d.setCollectedfrom(List(collectedFromMap("ebi")).asJava) d.setCollectedfrom(List(collectedFromMap("ebi")).asJava)
d.setDataInfo(DATA_INFO) d.setDataInfo(DATA_INFO)
d.setTitle(List(OafMapperUtils.structuredProperty(input.title, ModelConstants.MAIN_TITLE_QUALIFIER, DATA_INFO)).asJava) d.setTitle(
List(
OafMapperUtils.structuredProperty(
input.title,
ModelConstants.MAIN_TITLE_QUALIFIER,
DATA_INFO
)
).asJava
)
val nsPrefix = input.targetPidType.toLowerCase.padTo(12, '_') val nsPrefix = input.targetPidType.toLowerCase.padTo(12, '_')
d.setId(OafMapperUtils.createOpenaireId(50, s"$nsPrefix::${input.targetPid.toLowerCase}", true)) d.setId(OafMapperUtils.createOpenaireId(50, s"$nsPrefix::${input.targetPid.toLowerCase}", true))
d.setOriginalId(List(input.targetPid.toLowerCase).asJava) d.setOriginalId(List(input.targetPid.toLowerCase).asJava)
d.setPid( d.setPid(
List( List(
OafMapperUtils.structuredProperty(input.targetPid.toLowerCase, input.targetPidType.toLowerCase, "Protein Data Bank Identifier", ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, DATA_INFO) OafMapperUtils.structuredProperty(
input.targetPid.toLowerCase,
input.targetPidType.toLowerCase,
"Protein Data Bank Identifier",
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
DATA_INFO
)
).asJava ).asJava
) )
@ -383,13 +563,35 @@ object BioDBToOAF {
i.setPid(d.getPid) i.setPid(d.getPid)
i.setUrl(List(input.targetUrl).asJava) i.setUrl(List(input.targetUrl).asJava)
i.setInstancetype(OafMapperUtils.qualifier("0046", "Bioentity", ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) i.setInstancetype(
OafMapperUtils.qualifier(
"0046",
"Bioentity",
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
i.setCollectedfrom(collectedFromMap("ebi")) i.setCollectedfrom(collectedFromMap("ebi"))
d.setInstance(List(i).asJava) d.setInstance(List(i).asJava)
i.setDateofacceptance(OafMapperUtils.field(GraphCleaningFunctions.cleanDate(input.date), DATA_INFO)) i.setDateofacceptance(
d.setDateofacceptance(OafMapperUtils.field(GraphCleaningFunctions.cleanDate(input.date), DATA_INFO)) OafMapperUtils.field(GraphCleaningFunctions.cleanDate(input.date), DATA_INFO)
)
d.setDateofacceptance(
OafMapperUtils.field(GraphCleaningFunctions.cleanDate(input.date), DATA_INFO)
)
List(d, createRelation(input.pmid, "pmid", d.getId, collectedFromMap("ebi"), ModelConstants.RELATIONSHIP, ModelConstants.IS_RELATED_TO, GraphCleaningFunctions.cleanDate(input.date))) List(
d,
createRelation(
input.pmid,
"pmid",
d.getId,
collectedFromMap("ebi"),
ModelConstants.RELATIONSHIP,
ModelConstants.IS_RELATED_TO,
GraphCleaningFunctions.cleanDate(input.date)
)
)
} }
} }

View File

@ -14,7 +14,11 @@ object SparkTransformBioDatabaseToOAF {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/bio_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/bio_to_oaf_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val database: String = parser.get("database") val database: String = parser.get("database")
log.info("database: {}", database) log.info("database: {}", database)
@ -29,20 +33,33 @@ object SparkTransformBioDatabaseToOAF {
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sc = spark.sparkContext val sc = spark.sparkContext
implicit val resultEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf]) implicit val resultEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf])
import spark.implicits._ import spark.implicits._
database.toUpperCase() match { database.toUpperCase() match {
case "UNIPROT" => case "UNIPROT" =>
CollectionUtils.saveDataset(spark.createDataset(sc.textFile(dbPath).flatMap(i => BioDBToOAF.uniprotToOAF(i))), targetPath) CollectionUtils.saveDataset(
spark.createDataset(sc.textFile(dbPath).flatMap(i => BioDBToOAF.uniprotToOAF(i))),
targetPath
)
case "PDB" => case "PDB" =>
CollectionUtils.saveDataset(spark.createDataset(sc.textFile(dbPath).flatMap(i => BioDBToOAF.pdbTOOaf(i))), targetPath) CollectionUtils.saveDataset(
spark.createDataset(sc.textFile(dbPath).flatMap(i => BioDBToOAF.pdbTOOaf(i))),
targetPath
)
case "SCHOLIX" => case "SCHOLIX" =>
CollectionUtils.saveDataset(spark.read.load(dbPath).as[ScholixResolved].map(i => BioDBToOAF.scholixResolvedToOAF(i)), targetPath) CollectionUtils.saveDataset(
spark.read.load(dbPath).as[ScholixResolved].map(i => BioDBToOAF.scholixResolvedToOAF(i)),
targetPath
)
case "CROSSREF_LINKS" => case "CROSSREF_LINKS" =>
CollectionUtils.saveDataset(spark.createDataset(sc.textFile(dbPath).map(i => BioDBToOAF.crossrefLinksToOaf(i))), targetPath) CollectionUtils.saveDataset(
spark.createDataset(sc.textFile(dbPath).map(i => BioDBToOAF.crossrefLinksToOaf(i))),
targetPath
)
} }
} }

View File

@ -24,31 +24,37 @@ import scala.xml.pull.XMLEventReader
object SparkCreateBaselineDataFrame { object SparkCreateBaselineDataFrame {
def requestBaseLineUpdatePage(maxFile: String): List[(String, String)] = { def requestBaseLineUpdatePage(maxFile: String): List[(String, String)] = {
val data = requestPage("https://ftp.ncbi.nlm.nih.gov/pubmed/updatefiles/") val data = requestPage("https://ftp.ncbi.nlm.nih.gov/pubmed/updatefiles/")
val result = data.lines.filter(l => l.startsWith("<a href=")).map { l => val result = data.lines
val end = l.lastIndexOf("\">") .filter(l => l.startsWith("<a href="))
val start = l.indexOf("<a href=\"") .map { l =>
val end = l.lastIndexOf("\">")
val start = l.indexOf("<a href=\"")
if (start >= 0 && end > start) if (start >= 0 && end > start)
l.substring(start + 9, end - start) l.substring(start + 9, end - start)
else else
"" ""
}.filter(s => s.endsWith(".gz")).filter(s => s > maxFile).map(s => (s, s"https://ftp.ncbi.nlm.nih.gov/pubmed/updatefiles/$s")).toList }
.filter(s => s.endsWith(".gz"))
.filter(s => s > maxFile)
.map(s => (s, s"https://ftp.ncbi.nlm.nih.gov/pubmed/updatefiles/$s"))
.toList
result result
} }
def downloadBaselinePart(url: String): InputStream = { def downloadBaselinePart(url: String): InputStream = {
val r = new HttpGet(url) val r = new HttpGet(url)
val timeout = 60; // seconds val timeout = 60; // seconds
val config = RequestConfig.custom() val config = RequestConfig
.custom()
.setConnectTimeout(timeout * 1000) .setConnectTimeout(timeout * 1000)
.setConnectionRequestTimeout(timeout * 1000) .setConnectionRequestTimeout(timeout * 1000)
.setSocketTimeout(timeout * 1000).build() .setSocketTimeout(timeout * 1000)
.build()
val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build() val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build()
val response = client.execute(r) val response = client.execute(r)
println(s"get response with status${response.getStatusLine.getStatusCode}") println(s"get response with status${response.getStatusLine.getStatusCode}")
@ -59,10 +65,12 @@ object SparkCreateBaselineDataFrame {
def requestPage(url: String): String = { def requestPage(url: String): String = {
val r = new HttpGet(url) val r = new HttpGet(url)
val timeout = 60; // seconds val timeout = 60; // seconds
val config = RequestConfig.custom() val config = RequestConfig
.custom()
.setConnectTimeout(timeout * 1000) .setConnectTimeout(timeout * 1000)
.setConnectionRequestTimeout(timeout * 1000) .setConnectionRequestTimeout(timeout * 1000)
.setSocketTimeout(timeout * 1000).build() .setSocketTimeout(timeout * 1000)
.build()
val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build() val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build()
try { try {
var tries = 4 var tries = 4
@ -73,8 +81,7 @@ object SparkCreateBaselineDataFrame {
println(s"get response with status${response.getStatusLine.getStatusCode}") println(s"get response with status${response.getStatusLine.getStatusCode}")
if (response.getStatusLine.getStatusCode > 400) { if (response.getStatusLine.getStatusCode > 400) {
tries -= 1 tries -= 1
} } else
else
return IOUtils.toString(response.getEntity.getContent) return IOUtils.toString(response.getEntity.getContent)
} catch { } catch {
case e: Throwable => case e: Throwable =>
@ -90,10 +97,8 @@ object SparkCreateBaselineDataFrame {
} }
} }
def downloadBaseLineUpdate(baselinePath: String, hdfsServerUri: String): Unit = { def downloadBaseLineUpdate(baselinePath: String, hdfsServerUri: String): Unit = {
val conf = new Configuration val conf = new Configuration
conf.set("fs.defaultFS", hdfsServerUri) conf.set("fs.defaultFS", hdfsServerUri)
val fs = FileSystem.get(conf) val fs = FileSystem.get(conf)
@ -122,31 +127,36 @@ object SparkCreateBaselineDataFrame {
} }
val pmArticleAggregator: Aggregator[(String, PMArticle), PMArticle, PMArticle] =
new Aggregator[(String, PMArticle), PMArticle, PMArticle] with Serializable {
override def zero: PMArticle = new PMArticle
val pmArticleAggregator: Aggregator[(String, PMArticle), PMArticle, PMArticle] = new Aggregator[(String, PMArticle), PMArticle, PMArticle] with Serializable { override def reduce(b: PMArticle, a: (String, PMArticle)): PMArticle = {
override def zero: PMArticle = new PMArticle if (b != null && b.getPmid != null) b else a._2
}
override def reduce(b: PMArticle, a: (String, PMArticle)): PMArticle = { override def merge(b1: PMArticle, b2: PMArticle): PMArticle = {
if (b != null && b.getPmid != null) b else a._2 if (b1 != null && b1.getPmid != null) b1 else b2
}
override def finish(reduction: PMArticle): PMArticle = reduction
override def bufferEncoder: Encoder[PMArticle] = Encoders.kryo[PMArticle]
override def outputEncoder: Encoder[PMArticle] = Encoders.kryo[PMArticle]
} }
override def merge(b1: PMArticle, b2: PMArticle): PMArticle = {
if (b1 != null && b1.getPmid != null) b1 else b2
}
override def finish(reduction: PMArticle): PMArticle = reduction
override def bufferEncoder: Encoder[PMArticle] = Encoders.kryo[PMArticle]
override def outputEncoder: Encoder[PMArticle] = Encoders.kryo[PMArticle]
}
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val parser = new ArgumentApplicationParser(IOUtils.toString(SparkEBILinksToOaf.getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/baseline_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
SparkEBILinksToOaf.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/sx/bio/ebi/baseline_to_oaf_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val isLookupUrl: String = parser.get("isLookupUrl") val isLookupUrl: String = parser.get("isLookupUrl")
log.info("isLookupUrl: {}", isLookupUrl) log.info("isLookupUrl: {}", isLookupUrl)
@ -162,7 +172,6 @@ object SparkCreateBaselineDataFrame {
val skipUpdate = parser.get("skipUpdate") val skipUpdate = parser.get("skipUpdate")
log.info("skipUpdate: {}", skipUpdate) log.info("skipUpdate: {}", skipUpdate)
val isLookupService = ISLookupClientFactory.getLookUpService(isLookupUrl) val isLookupService = ISLookupClientFactory.getLookUpService(isLookupUrl)
val vocabularies = VocabularyGroup.loadVocsFromIS(isLookupService) val vocabularies = VocabularyGroup.loadVocsFromIS(isLookupService)
val spark: SparkSession = val spark: SparkSession =
@ -170,7 +179,8 @@ object SparkCreateBaselineDataFrame {
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkEBILinksToOaf.getClass.getSimpleName) .appName(SparkEBILinksToOaf.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sc = spark.sparkContext val sc = spark.sparkContext
import spark.implicits._ import spark.implicits._
@ -183,20 +193,30 @@ object SparkCreateBaselineDataFrame {
if (!"true".equalsIgnoreCase(skipUpdate)) { if (!"true".equalsIgnoreCase(skipUpdate)) {
downloadBaseLineUpdate(s"$workingPath/baseline", hdfsServerUri) downloadBaseLineUpdate(s"$workingPath/baseline", hdfsServerUri)
val k: RDD[(String, String)] = sc.wholeTextFiles(s"$workingPath/baseline", 2000) val k: RDD[(String, String)] = sc.wholeTextFiles(s"$workingPath/baseline", 2000)
val ds: Dataset[PMArticle] = spark.createDataset(k.filter(i => i._1.endsWith(".gz")).flatMap(i => { val ds: Dataset[PMArticle] = spark.createDataset(
val xml = new XMLEventReader(Source.fromBytes(i._2.getBytes())) k.filter(i => i._1.endsWith(".gz"))
new PMParser(xml) .flatMap(i => {
})) val xml = new XMLEventReader(Source.fromBytes(i._2.getBytes()))
ds.map(p => (p.getPmid, p))(Encoders.tuple(Encoders.STRING, PMEncoder)).groupByKey(_._1) new PMParser(xml)
})
)
ds.map(p => (p.getPmid, p))(Encoders.tuple(Encoders.STRING, PMEncoder))
.groupByKey(_._1)
.agg(pmArticleAggregator.toColumn) .agg(pmArticleAggregator.toColumn)
.map(p => p._2).write.mode(SaveMode.Overwrite).save(s"$workingPath/baseline_dataset") .map(p => p._2)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/baseline_dataset")
} }
val exported_dataset = spark.read.load(s"$workingPath/baseline_dataset").as[PMArticle] val exported_dataset = spark.read.load(s"$workingPath/baseline_dataset").as[PMArticle]
CollectionUtils.saveDataset(exported_dataset CollectionUtils.saveDataset(
.map(a => PubMedToOaf.convert(a, vocabularies)).as[Oaf] exported_dataset
.filter(p => p != null), .map(a => PubMedToOaf.convert(a, vocabularies))
targetPath) .as[Oaf]
.filter(p => p != null),
targetPath
)
} }
} }

View File

@ -25,10 +25,12 @@ object SparkDownloadEBILinks {
def requestPage(url: String): String = { def requestPage(url: String): String = {
val r = new HttpGet(url) val r = new HttpGet(url)
val timeout = 60; // seconds val timeout = 60; // seconds
val config = RequestConfig.custom() val config = RequestConfig
.custom()
.setConnectTimeout(timeout * 1000) .setConnectTimeout(timeout * 1000)
.setConnectionRequestTimeout(timeout * 1000) .setConnectionRequestTimeout(timeout * 1000)
.setSocketTimeout(timeout * 1000).build() .setSocketTimeout(timeout * 1000)
.build()
val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build() val client = HttpClientBuilder.create().setDefaultRequestConfig(config).build()
try { try {
var tries = 4 var tries = 4
@ -39,8 +41,7 @@ object SparkDownloadEBILinks {
println(s"get response with status${response.getStatusLine.getStatusCode}") println(s"get response with status${response.getStatusLine.getStatusCode}")
if (response.getStatusLine.getStatusCode > 400) { if (response.getStatusLine.getStatusCode > 400) {
tries -= 1 tries -= 1
} } else
else
return IOUtils.toString(response.getEntity.getContent) return IOUtils.toString(response.getEntity.getContent)
} catch { } catch {
case e: Throwable => case e: Throwable =>
@ -66,14 +67,19 @@ object SparkDownloadEBILinks {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val MAX_ITEM_PER_PARTITION = 20000 val MAX_ITEM_PER_PARTITION = 20000
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/ebi_download_update.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/ebi_download_update.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkEBILinksToOaf.getClass.getSimpleName) .appName(SparkEBILinksToOaf.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
import spark.implicits._ import spark.implicits._
@ -87,22 +93,40 @@ object SparkDownloadEBILinks {
log.info(s"workingPath -> $workingPath") log.info(s"workingPath -> $workingPath")
log.info("Getting max pubmedId where the links have already requested") log.info("Getting max pubmedId where the links have already requested")
val links: Dataset[EBILinkItem] = spark.read.load(s"$sourcePath/ebi_links_dataset").as[EBILinkItem] val links: Dataset[EBILinkItem] =
spark.read.load(s"$sourcePath/ebi_links_dataset").as[EBILinkItem]
val lastPMIDRequested = links.map(l => l.id).select(max("value")).first.getLong(0) val lastPMIDRequested = links.map(l => l.id).select(max("value")).first.getLong(0)
log.info("Retrieving PMID to request links") log.info("Retrieving PMID to request links")
val pubmed = spark.read.load(s"$sourcePath/baseline_dataset").as[PMArticle] val pubmed = spark.read.load(s"$sourcePath/baseline_dataset").as[PMArticle]
pubmed.map(p => p.getPmid.toLong).where(s"value > $lastPMIDRequested").write.mode(SaveMode.Overwrite).save(s"$workingPath/id_to_request") pubmed
.map(p => p.getPmid.toLong)
.where(s"value > $lastPMIDRequested")
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/id_to_request")
val pmidToReq: Dataset[Long] = spark.read.load(s"$workingPath/id_to_request").as[Long] val pmidToReq: Dataset[Long] = spark.read.load(s"$workingPath/id_to_request").as[Long]
val total = pmidToReq.count() val total = pmidToReq.count()
spark.createDataset(pmidToReq.rdd.repartition((total / MAX_ITEM_PER_PARTITION).toInt).map(pmid => createEBILinks(pmid)).filter(l => l != null)).write.mode(SaveMode.Overwrite).save(s"$workingPath/links_update") spark
.createDataset(
pmidToReq.rdd
.repartition((total / MAX_ITEM_PER_PARTITION).toInt)
.map(pmid => createEBILinks(pmid))
.filter(l => l != null)
)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/links_update")
val updates: Dataset[EBILinkItem] = spark.read.load(s"$workingPath/links_update").as[EBILinkItem] val updates: Dataset[EBILinkItem] =
spark.read.load(s"$workingPath/links_update").as[EBILinkItem]
links.union(updates).groupByKey(_.id) links
.union(updates)
.groupByKey(_.id)
.reduceGroups { (x, y) => .reduceGroups { (x, y) =>
if (x == null || x.links == null) if (x == null || x.links == null)
y y
@ -112,6 +136,10 @@ object SparkDownloadEBILinks {
x x
else else
y y
}.map(_._2).write.mode(SaveMode.Overwrite).save(s"$workingPath/links_final") }
.map(_._2)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/links_final")
} }
} }

View File

@ -15,15 +15,19 @@ object SparkEBILinksToOaf {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/ebi_to_df_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/bio/ebi/ebi_to_df_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkEBILinksToOaf.getClass.getSimpleName) .appName(SparkEBILinksToOaf.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
import spark.implicits._ import spark.implicits._
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
@ -32,11 +36,17 @@ object SparkEBILinksToOaf {
log.info(s"targetPath -> $targetPath") log.info(s"targetPath -> $targetPath")
implicit val PMEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf]) implicit val PMEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf])
val ebLinks: Dataset[EBILinkItem] = spark.read.load(sourcePath).as[EBILinkItem].filter(l => l.links != null && l.links.startsWith("{")) val ebLinks: Dataset[EBILinkItem] = spark.read
.load(sourcePath)
.as[EBILinkItem]
.filter(l => l.links != null && l.links.startsWith("{"))
CollectionUtils.saveDataset(ebLinks.flatMap(j => BioDBToOAF.parse_ebi_links(j.links)) CollectionUtils.saveDataset(
.filter(p => BioDBToOAF.EBITargetLinksFilter(p)) ebLinks
.flatMap(p => BioDBToOAF.convertEBILinksToOaf(p)), .flatMap(j => BioDBToOAF.parse_ebi_links(j.links))
targetPath) .filter(p => BioDBToOAF.EBITargetLinksFilter(p))
.flatMap(p => BioDBToOAF.convertEBILinksToOaf(p)),
targetPath
)
} }
} }

View File

@ -3,16 +3,13 @@ package eu.dnetlib.dhp.sx.bio.pubmed
import scala.xml.MetaData import scala.xml.MetaData
import scala.xml.pull.{EvElemEnd, EvElemStart, EvText, XMLEventReader} import scala.xml.pull.{EvElemEnd, EvElemStart, EvText, XMLEventReader}
/** @param xml
*/
class PMParser(xml: XMLEventReader) extends Iterator[PMArticle] {
/** var currentArticle: PMArticle = generateNextArticle()
*
* @param xml
*/
class PMParser(xml:XMLEventReader) extends Iterator[PMArticle] {
var currentArticle:PMArticle = generateNextArticle() override def hasNext: Boolean = currentArticle != null
override def hasNext: Boolean = currentArticle!= null
override def next(): PMArticle = { override def next(): PMArticle = {
val tmp = currentArticle val tmp = currentArticle
@ -20,33 +17,30 @@ class PMParser(xml:XMLEventReader) extends Iterator[PMArticle] {
tmp tmp
} }
def extractAttributes(attrs:MetaData, key:String):String = { def extractAttributes(attrs: MetaData, key: String): String = {
val res = attrs.get(key) val res = attrs.get(key)
if (res.isDefined) { if (res.isDefined) {
val s =res.get val s = res.get
if (s != null && s.nonEmpty) if (s != null && s.nonEmpty)
s.head.text s.head.text
else else
null null
} } else null
else null
} }
def validate_Date(year: String, month: String, day: String): String = {
def validate_Date(year:String, month:String, day:String):String = {
try { try {
f"${year.toInt}-${month.toInt}%02d-${day.toInt}%02d" f"${year.toInt}-${month.toInt}%02d-${day.toInt}%02d"
} catch { } catch {
case _: Throwable =>null case _: Throwable => null
} }
} }
def generateNextArticle():PMArticle = { def generateNextArticle(): PMArticle = {
var currentSubject: PMSubject = null
var currentSubject:PMSubject = null
var currentAuthor: PMAuthor = null var currentAuthor: PMAuthor = null
var currentJournal: PMJournal = null var currentJournal: PMJournal = null
var currentGrant: PMGrant = null var currentGrant: PMGrant = null
@ -54,12 +48,7 @@ class PMParser(xml:XMLEventReader) extends Iterator[PMArticle] {
var currentYear = "0" var currentYear = "0"
var currentMonth = "01" var currentMonth = "01"
var currentDay = "01" var currentDay = "01"
var currentArticleType:String = null var currentArticleType: String = null
while (xml.hasNext) { while (xml.hasNext) {
xml.next match { xml.next match {
@ -68,64 +57,67 @@ class PMParser(xml:XMLEventReader) extends Iterator[PMArticle] {
label match { label match {
case "PubmedArticle" => currentArticle = new PMArticle case "PubmedArticle" => currentArticle = new PMArticle
case "Author" => currentAuthor = new PMAuthor case "Author" => currentAuthor = new PMAuthor
case "Journal" => currentJournal = new PMJournal case "Journal" => currentJournal = new PMJournal
case "Grant" => currentGrant = new PMGrant case "Grant" => currentGrant = new PMGrant
case "PublicationType" | "DescriptorName" => case "PublicationType" | "DescriptorName" =>
currentSubject = new PMSubject currentSubject = new PMSubject
currentSubject.setMeshId(extractAttributes(attrs, "UI")) currentSubject.setMeshId(extractAttributes(attrs, "UI"))
case "ArticleId" => currentArticleType = extractAttributes(attrs,"IdType") case "ArticleId" => currentArticleType = extractAttributes(attrs, "IdType")
case _ => case _ =>
} }
case EvElemEnd(_, label) => case EvElemEnd(_, label) =>
label match { label match {
case "PubmedArticle" => return currentArticle case "PubmedArticle" => return currentArticle
case "Author" => currentArticle.getAuthors.add(currentAuthor) case "Author" => currentArticle.getAuthors.add(currentAuthor)
case "Journal" => currentArticle.setJournal(currentJournal) case "Journal" => currentArticle.setJournal(currentJournal)
case "Grant" => currentArticle.getGrants.add(currentGrant) case "Grant" => currentArticle.getGrants.add(currentGrant)
case "PubMedPubDate" => if (currentArticle.getDate== null) case "PubMedPubDate" =>
currentArticle.setDate(validate_Date(currentYear,currentMonth,currentDay)) if (currentArticle.getDate == null)
case "PubDate" => currentJournal.setDate(s"$currentYear-$currentMonth-$currentDay") currentArticle.setDate(validate_Date(currentYear, currentMonth, currentDay))
case "DescriptorName" => currentArticle.getSubjects.add(currentSubject) case "PubDate" => currentJournal.setDate(s"$currentYear-$currentMonth-$currentDay")
case "PublicationType" =>currentArticle.getPublicationTypes.add(currentSubject) case "DescriptorName" => currentArticle.getSubjects.add(currentSubject)
case _ => case "PublicationType" => currentArticle.getPublicationTypes.add(currentSubject)
case _ =>
} }
case EvText(text) => case EvText(text) =>
if (currNode!= null && text.trim.nonEmpty) if (currNode != null && text.trim.nonEmpty)
currNode match { currNode match {
case "ArticleTitle" => { case "ArticleTitle" => {
if (currentArticle.getTitle==null) if (currentArticle.getTitle == null)
currentArticle.setTitle(text.trim) currentArticle.setTitle(text.trim)
else else
currentArticle.setTitle(currentArticle.getTitle + text.trim) currentArticle.setTitle(currentArticle.getTitle + text.trim)
} }
case "AbstractText" => { case "AbstractText" => {
if (currentArticle.getDescription==null) if (currentArticle.getDescription == null)
currentArticle.setDescription(text.trim) currentArticle.setDescription(text.trim)
else else
currentArticle.setDescription(currentArticle.getDescription + text.trim) currentArticle.setDescription(currentArticle.getDescription + text.trim)
} }
case "PMID" => currentArticle.setPmid(text.trim) case "PMID" => currentArticle.setPmid(text.trim)
case "ArticleId" => if ("doi".equalsIgnoreCase(currentArticleType)) currentArticle.setDoi(text.trim) case "ArticleId" =>
case "Language" => currentArticle.setLanguage(text.trim) if ("doi".equalsIgnoreCase(currentArticleType)) currentArticle.setDoi(text.trim)
case "ISSN" => currentJournal.setIssn(text.trim) case "Language" => currentArticle.setLanguage(text.trim)
case "GrantID" => currentGrant.setGrantID(text.trim) case "ISSN" => currentJournal.setIssn(text.trim)
case "Agency" => currentGrant.setAgency(text.trim) case "GrantID" => currentGrant.setGrantID(text.trim)
case "Country" => if (currentGrant != null) currentGrant.setCountry(text.trim) case "Agency" => currentGrant.setAgency(text.trim)
case "Year" => currentYear = text.trim case "Country" => if (currentGrant != null) currentGrant.setCountry(text.trim)
case "Month" => currentMonth = text.trim case "Year" => currentYear = text.trim
case "Day" => currentDay = text.trim case "Month" => currentMonth = text.trim
case "Volume" => currentJournal.setVolume( text.trim) case "Day" => currentDay = text.trim
case "Issue" => currentJournal.setIssue (text.trim) case "Volume" => currentJournal.setVolume(text.trim)
case "Issue" => currentJournal.setIssue(text.trim)
case "PublicationType" | "DescriptorName" => currentSubject.setValue(text.trim) case "PublicationType" | "DescriptorName" => currentSubject.setValue(text.trim)
case "LastName" => { case "LastName" => {
if (currentAuthor != null) if (currentAuthor != null)
currentAuthor.setLastName(text.trim) currentAuthor.setLastName(text.trim)
} }
case "ForeName" => if (currentAuthor != null) case "ForeName" =>
currentAuthor.setForeName(text.trim) if (currentAuthor != null)
currentAuthor.setForeName(text.trim)
case "Title" => case "Title" =>
if (currentJournal.getTitle==null) if (currentJournal.getTitle == null)
currentJournal.setTitle(text.trim) currentJournal.setTitle(text.trim)
else else
currentJournal.setTitle(currentJournal.getTitle + text.trim) currentJournal.setTitle(currentJournal.getTitle + text.trim)
@ -139,8 +131,3 @@ class PMParser(xml:XMLEventReader) extends Iterator[PMArticle] {
null null
} }
} }

View File

@ -9,31 +9,38 @@ import collection.JavaConverters._
import java.util.regex.Pattern import java.util.regex.Pattern
/** /**
* */
*/
object PubMedToOaf { object PubMedToOaf {
val SUBJ_CLASS = "keywords" val SUBJ_CLASS = "keywords"
val urlMap = Map( val urlMap = Map(
"pmid" -> "https://pubmed.ncbi.nlm.nih.gov/", "pmid" -> "https://pubmed.ncbi.nlm.nih.gov/",
"doi" -> "https://dx.doi.org/" "doi" -> "https://dx.doi.org/"
) )
val dataInfo: DataInfo = OafMapperUtils.dataInfo(false, null, false, false, ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER, "0.9")
val collectedFrom: KeyValue = OafMapperUtils.keyValue(ModelConstants.EUROPE_PUBMED_CENTRAL_ID, "Europe PubMed Central")
val dataInfo: DataInfo = OafMapperUtils.dataInfo(
false,
null,
false,
false,
ModelConstants.PROVENANCE_ACTION_SET_QUALIFIER,
"0.9"
)
/** val collectedFrom: KeyValue =
* Cleaning the DOI Applying regex in order to OafMapperUtils.keyValue(ModelConstants.EUROPE_PUBMED_CENTRAL_ID, "Europe PubMed Central")
* remove doi starting with URL
* /** Cleaning the DOI Applying regex in order to
* @param doi input DOI * remove doi starting with URL
* @return cleaned DOI *
*/ * @param doi input DOI
* @return cleaned DOI
*/
def cleanDoi(doi: String): String = { def cleanDoi(doi: String): String = {
val regex = "^10.\\d{4,9}\\/[\\[\\]\\-\\<\\>._;()\\/:A-Z0-9]+$" val regex = "^10.\\d{4,9}\\/[\\[\\]\\-\\<\\>._;()\\/:A-Z0-9]+$"
val pattern = Pattern.compile(regex, Pattern.CASE_INSENSITIVE) val pattern = Pattern.compile(regex, Pattern.CASE_INSENSITIVE)
val matcher = pattern.matcher(doi) val matcher = pattern.matcher(doi)
@ -43,33 +50,34 @@ object PubMedToOaf {
null null
} }
/** /** Create an instance of class extends Result
* * starting from OAF instanceType value
* Create an instance of class extends Result *
* starting from OAF instanceType value * @param cobjQualifier OAF instance type
* * @param vocabularies All dnet vocabularies
* @param cobjQualifier OAF instance type * @return the correct instance
* @param vocabularies All dnet vocabularies */
* @return the correct instance
*/
def createResult(cobjQualifier: Qualifier, vocabularies: VocabularyGroup): Result = { def createResult(cobjQualifier: Qualifier, vocabularies: VocabularyGroup): Result = {
val result_typologies = getVocabularyTerm(ModelConstants.DNET_RESULT_TYPOLOGIES, vocabularies, cobjQualifier.getClassid) val result_typologies = getVocabularyTerm(
ModelConstants.DNET_RESULT_TYPOLOGIES,
vocabularies,
cobjQualifier.getClassid
)
result_typologies.getClassid match { result_typologies.getClassid match {
case "dataset" => new Dataset case "dataset" => new Dataset
case "publication" => new Publication case "publication" => new Publication
case "other" => new OtherResearchProduct case "other" => new OtherResearchProduct
case "software" => new Software case "software" => new Software
case _ => null case _ => null
} }
} }
/** /** Mapping the Pubmedjournal info into the OAF Journale
* Mapping the Pubmedjournal info into the OAF Journale *
* * @param j the pubmedJournal
* @param j the pubmedJournal * @return the OAF Journal
* @return the OAF Journal */
*/
def mapJournal(j: PMJournal): Journal = { def mapJournal(j: PMJournal): Journal = {
if (j == null) if (j == null)
return null return null
@ -83,40 +91,47 @@ object PubMedToOaf {
journal.setIss(j.getIssue) journal.setIss(j.getIssue)
journal journal
} }
/** /** Find vocabulary term into synonyms and term in the vocabulary
* *
* Find vocabulary term into synonyms and term in the vocabulary * @param vocabularyName the input vocabulary name
* * @param vocabularies all the vocabularies
* @param vocabularyName the input vocabulary name * @param term the term to find
* @param vocabularies all the vocabularies * @return the cleaned term value
* @param term the term to find */
* @return the cleaned term value def getVocabularyTerm(
*/ vocabularyName: String,
def getVocabularyTerm(vocabularyName: String, vocabularies: VocabularyGroup, term: String): Qualifier = { vocabularies: VocabularyGroup,
term: String
): Qualifier = {
val a = vocabularies.getSynonymAsQualifier(vocabularyName, term) val a = vocabularies.getSynonymAsQualifier(vocabularyName, term)
val b = vocabularies.getTermAsQualifier(vocabularyName, term) val b = vocabularies.getTermAsQualifier(vocabularyName, term)
if (a == null) b else a if (a == null) b else a
} }
/** Map the Pubmed Article into the OAF instance
/** *
* Map the Pubmed Article into the OAF instance * @param article the pubmed articles
* * @param vocabularies the vocabularies
* @param article the pubmed articles * @return The OAF instance if the mapping did not fail
* @param vocabularies the vocabularies */
* @return The OAF instance if the mapping did not fail
*/
def convert(article: PMArticle, vocabularies: VocabularyGroup): Oaf = { def convert(article: PMArticle, vocabularies: VocabularyGroup): Oaf = {
if (article.getPublicationTypes == null) if (article.getPublicationTypes == null)
return null return null
// MAP PMID into pid with classid = classname = pmid // MAP PMID into pid with classid = classname = pmid
val pidList: List[StructuredProperty] = List(OafMapperUtils.structuredProperty(article.getPmid, PidType.pmid.toString, PidType.pmid.toString, ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, dataInfo)) val pidList: List[StructuredProperty] = List(
OafMapperUtils.structuredProperty(
article.getPmid,
PidType.pmid.toString,
PidType.pmid.toString,
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
dataInfo
)
)
if (pidList == null) if (pidList == null)
return null return null
@ -125,7 +140,14 @@ object PubMedToOaf {
if (article.getDoi != null) { if (article.getDoi != null) {
val normalizedPid = cleanDoi(article.getDoi) val normalizedPid = cleanDoi(article.getDoi)
if (normalizedPid != null) if (normalizedPid != null)
alternateIdentifier = OafMapperUtils.structuredProperty(normalizedPid, PidType.doi.toString, PidType.doi.toString, ModelConstants.DNET_PID_TYPES, ModelConstants.DNET_PID_TYPES, dataInfo) alternateIdentifier = OafMapperUtils.structuredProperty(
normalizedPid,
PidType.doi.toString,
PidType.doi.toString,
ModelConstants.DNET_PID_TYPES,
ModelConstants.DNET_PID_TYPES,
dataInfo
)
} }
// INSTANCE MAPPING // INSTANCE MAPPING
@ -133,10 +155,12 @@ object PubMedToOaf {
// If the article contains the typology Journal Article then we apply this type // If the article contains the typology Journal Article then we apply this type
//else We have to find a terms that match the vocabulary otherwise we discard it //else We have to find a terms that match the vocabulary otherwise we discard it
val ja = article.getPublicationTypes.asScala.find(s => "Journal Article".equalsIgnoreCase(s.getValue)) val ja =
article.getPublicationTypes.asScala.find(s => "Journal Article".equalsIgnoreCase(s.getValue))
val pubmedInstance = new Instance val pubmedInstance = new Instance
if (ja.isDefined) { if (ja.isDefined) {
val cojbCategory = getVocabularyTerm(ModelConstants.DNET_PUBLICATION_RESOURCE, vocabularies, ja.get.getValue) val cojbCategory =
getVocabularyTerm(ModelConstants.DNET_PUBLICATION_RESOURCE, vocabularies, ja.get.getValue)
pubmedInstance.setInstancetype(cojbCategory) pubmedInstance.setInstancetype(cojbCategory)
} else { } else {
val i_type = article.getPublicationTypes.asScala val i_type = article.getPublicationTypes.asScala
@ -155,7 +179,9 @@ object PubMedToOaf {
if (alternateIdentifier != null) if (alternateIdentifier != null)
pubmedInstance.setAlternateIdentifier(List(alternateIdentifier).asJava) pubmedInstance.setAlternateIdentifier(List(alternateIdentifier).asJava)
result.setInstance(List(pubmedInstance).asJava) result.setInstance(List(pubmedInstance).asJava)
pubmedInstance.getPid.asScala.filter(p => "pmid".equalsIgnoreCase(p.getQualifier.getClassid)).map(p => p.getValue)(collection.breakOut) pubmedInstance.getPid.asScala
.filter(p => "pmid".equalsIgnoreCase(p.getQualifier.getClassid))
.map(p => p.getValue)(collection.breakOut)
//CREATE URL From pmid //CREATE URL From pmid
val urlLists: List[String] = pidList val urlLists: List[String] = pidList
.map(s => (urlMap.getOrElse(s.getQualifier.getClassid, ""), s.getValue)) .map(s => (urlMap.getOrElse(s.getQualifier.getClassid, ""), s.getValue))
@ -165,7 +191,9 @@ object PubMedToOaf {
pubmedInstance.setUrl(urlLists.asJava) pubmedInstance.setUrl(urlLists.asJava)
//ASSIGN DateofAcceptance //ASSIGN DateofAcceptance
pubmedInstance.setDateofacceptance(OafMapperUtils.field(GraphCleaningFunctions.cleanDate(article.getDate), dataInfo)) pubmedInstance.setDateofacceptance(
OafMapperUtils.field(GraphCleaningFunctions.cleanDate(article.getDate), dataInfo)
)
//ASSIGN COLLECTEDFROM //ASSIGN COLLECTEDFROM
pubmedInstance.setCollectedfrom(collectedFrom) pubmedInstance.setCollectedfrom(collectedFrom)
result.setPid(pidList.asJava) result.setPid(pidList.asJava)
@ -173,7 +201,6 @@ object PubMedToOaf {
//END INSTANCE MAPPING //END INSTANCE MAPPING
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
// JOURNAL MAPPING // JOURNAL MAPPING
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
if (article.getJournal != null && result.isInstanceOf[Publication]) if (article.getJournal != null && result.isInstanceOf[Publication])
@ -182,31 +209,48 @@ object PubMedToOaf {
//END JOURNAL MAPPING //END JOURNAL MAPPING
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
// RESULT MAPPING // RESULT MAPPING
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
result.setDateofacceptance(OafMapperUtils.field(GraphCleaningFunctions.cleanDate(article.getDate), dataInfo)) result.setDateofacceptance(
OafMapperUtils.field(GraphCleaningFunctions.cleanDate(article.getDate), dataInfo)
)
if (article.getTitle == null || article.getTitle.isEmpty) if (article.getTitle == null || article.getTitle.isEmpty)
return null return null
result.setTitle(List(OafMapperUtils.structuredProperty(article.getTitle, ModelConstants.MAIN_TITLE_QUALIFIER, dataInfo)).asJava) result.setTitle(
List(
OafMapperUtils.structuredProperty(
article.getTitle,
ModelConstants.MAIN_TITLE_QUALIFIER,
dataInfo
)
).asJava
)
if (article.getDescription != null && article.getDescription.nonEmpty) if (article.getDescription != null && article.getDescription.nonEmpty)
result.setDescription(List(OafMapperUtils.field(article.getDescription, dataInfo)).asJava) result.setDescription(List(OafMapperUtils.field(article.getDescription, dataInfo)).asJava)
if (article.getLanguage != null) { if (article.getLanguage != null) {
val term = vocabularies.getSynonymAsQualifier(ModelConstants.DNET_LANGUAGES, article.getLanguage) val term =
vocabularies.getSynonymAsQualifier(ModelConstants.DNET_LANGUAGES, article.getLanguage)
if (term != null) if (term != null)
result.setLanguage(term) result.setLanguage(term)
} }
val subjects: List[StructuredProperty] = article.getSubjects.asScala.map(s =>
val subjects: List[StructuredProperty] = article.getSubjects.asScala.map(s => OafMapperUtils.structuredProperty(s.getValue, SUBJ_CLASS, SUBJ_CLASS, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES, dataInfo))(collection.breakOut) OafMapperUtils.structuredProperty(
s.getValue,
SUBJ_CLASS,
SUBJ_CLASS,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
dataInfo
)
)(collection.breakOut)
if (subjects != null) if (subjects != null)
result.setSubject(subjects.asJava) result.setSubject(subjects.asJava)
val authors: List[Author] = article.getAuthors.asScala.zipWithIndex.map { case (a, index) => val authors: List[Author] = article.getAuthors.asScala.zipWithIndex.map { case (a, index) =>
val author = new Author() val author = new Author()
author.setName(a.getForeName) author.setName(a.getForeName)
@ -216,15 +260,12 @@ object PubMedToOaf {
author author
}(collection.breakOut) }(collection.breakOut)
if (authors != null && authors.nonEmpty) if (authors != null && authors.nonEmpty)
result.setAuthor(authors.asJava) result.setAuthor(authors.asJava)
result.setOriginalId(pidList.map(s => s.getValue).asJava) result.setOriginalId(pidList.map(s => s.getValue).asJava)
result.setId(article.getPmid) result.setId(article.getPmid)
// END RESULT MAPPING // END RESULT MAPPING
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
val id = IdentifierFactory.createIdentifier(result) val id = IdentifierFactory.createIdentifier(result)
@ -234,5 +275,4 @@ object PubMedToOaf {
result result
} }
} }

View File

@ -17,7 +17,8 @@ import org.slf4j.{Logger, LoggerFactory}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
import java.text.SimpleDateFormat import java.text.SimpleDateFormat
class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:Logger) extends AbstractScalaApplication(propertyPath, args, log:Logger) { class SparkRetrieveDataciteDelta(propertyPath: String, args: Array[String], log: Logger)
extends AbstractScalaApplication(propertyPath, args, log: Logger) {
val ISO_DATE_PATTERN = "yyyy-MM-dd'T'HH:mm:ssZ" val ISO_DATE_PATTERN = "yyyy-MM-dd'T'HH:mm:ssZ"
val simpleFormatter = new SimpleDateFormat(ISO_DATE_PATTERN) val simpleFormatter = new SimpleDateFormat(ISO_DATE_PATTERN)
@ -25,162 +26,190 @@ class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:L
val SCHOLIX_RESOURCE_PATH_NAME = "scholixResource" val SCHOLIX_RESOURCE_PATH_NAME = "scholixResource"
val DATACITE_OAF_PATH_NAME = "dataciteOAFUpdate" val DATACITE_OAF_PATH_NAME = "dataciteOAFUpdate"
val PID_MAP_PATH_NAME = "pidMap" val PID_MAP_PATH_NAME = "pidMap"
val RESOLVED_REL_PATH_NAME ="resolvedRelation" val RESOLVED_REL_PATH_NAME = "resolvedRelation"
val SCHOLIX_PATH_NAME = "scholix" val SCHOLIX_PATH_NAME = "scholix"
def scholixResourcePath(workingPath: String) = s"$workingPath/$SCHOLIX_RESOURCE_PATH_NAME"
def dataciteOAFPath(workingPath: String) = s"$workingPath/$DATACITE_OAF_PATH_NAME"
def pidMapPath(workingPath: String) = s"$workingPath/$PID_MAP_PATH_NAME"
def resolvedRelationPath(workingPath: String) = s"$workingPath/$RESOLVED_REL_PATH_NAME"
def scholixPath(workingPath: String) = s"$workingPath/$SCHOLIX_PATH_NAME"
def scholixResourcePath(workingPath:String) = s"$workingPath/$SCHOLIX_RESOURCE_PATH_NAME" /** Utility to parse Date in ISO8601 to epochMillis
def dataciteOAFPath(workingPath:String) = s"$workingPath/$DATACITE_OAF_PATH_NAME" * @param inputDate The String represents an input date in ISO8601
def pidMapPath(workingPath:String) = s"$workingPath/$PID_MAP_PATH_NAME" * @return The relative epochMillis of parsed date
def resolvedRelationPath(workingPath:String) = s"$workingPath/$RESOLVED_REL_PATH_NAME" */
def scholixPath(workingPath:String) = s"$workingPath/$SCHOLIX_PATH_NAME" def ISO8601toEpochMillis(inputDate: String): Long = {
/**
* Utility to parse Date in ISO8601 to epochMillis
* @param inputDate The String represents an input date in ISO8601
* @return The relative epochMillis of parsed date
*/
def ISO8601toEpochMillis(inputDate:String):Long = {
simpleFormatter.parse(inputDate).getTime simpleFormatter.parse(inputDate).getTime
} }
/** This method tries to retrieve the last collection date from all datacite
/** * records in HDFS.
* This method tries to retrieve the last collection date from all datacite * This method should be called before indexing scholexplorer to retrieve
* records in HDFS. * the delta of Datacite record to download, since from the generation of
* This method should be called before indexing scholexplorer to retrieve * raw graph to the generation of Scholexplorer sometimes it takes 20 days
* the delta of Datacite record to download, since from the generation of * @param spark
* raw graph to the generation of Scholexplorer sometimes it takes 20 days * @param entitiesPath
* @param spark * @return the last collection date from the current scholexplorer Graph of the datacite records
* @param entitiesPath */
* @return the last collection date from the current scholexplorer Graph of the datacite records def retrieveLastCollectedFrom(spark: SparkSession, entitiesPath: String): Long = {
*/
def retrieveLastCollectedFrom(spark:SparkSession, entitiesPath:String):Long = {
log.info("Retrieve last entities collected From") log.info("Retrieve last entities collected From")
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf] implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val resultEncoder:Encoder[Result] = Encoders.kryo[Result] implicit val resultEncoder: Encoder[Result] = Encoders.kryo[Result]
import spark.implicits._ import spark.implicits._
val entitiesDS = spark.read.load(s"$entitiesPath/*").as[Oaf].filter(o =>o.isInstanceOf[Result]).map(r => r.asInstanceOf[Result]) val entitiesDS = spark.read
.load(s"$entitiesPath/*")
.as[Oaf]
.filter(o => o.isInstanceOf[Result])
.map(r => r.asInstanceOf[Result])
val date = entitiesDS.filter(r => r.getDateofcollection!= null).map(_.getDateofcollection).select(max("value")).first.getString(0) val date = entitiesDS
.filter(r => r.getDateofcollection != null)
.map(_.getDateofcollection)
.select(max("value"))
.first
.getString(0)
ISO8601toEpochMillis(date) / 1000 ISO8601toEpochMillis(date) / 1000
} }
/** The method of update Datacite relationships on Scholexplorer
/** * needs some utilities data structures
* The method of update Datacite relationships on Scholexplorer * One is the scholixResource DS that stores all the nodes in the Scholix Graph
* needs some utilities data structures * in format ScholixResource
* One is the scholixResource DS that stores all the nodes in the Scholix Graph * @param summaryPath the path of the summary in Scholix
* in format ScholixResource * @param workingPath the working path
* @param summaryPath the path of the summary in Scholix * @param spark the spark session
* @param workingPath the working path */
* @param spark the spark session def generateScholixResource(
*/ summaryPath: String,
def generateScholixResource(summaryPath:String, workingPath: String, spark:SparkSession) :Unit = { workingPath: String,
implicit val summaryEncoder:Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary] spark: SparkSession
implicit val scholixResourceEncoder:Encoder[ScholixResource] = Encoders.kryo[ScholixResource] ): Unit = {
implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary]
implicit val scholixResourceEncoder: Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
log.info("Convert All summary to ScholixResource") log.info("Convert All summary to ScholixResource")
spark.read.load(summaryPath).as[ScholixSummary] spark.read
.load(summaryPath)
.as[ScholixSummary]
.map(ScholixUtils.generateScholixResourceFromSummary)(scholixResourceEncoder) .map(ScholixUtils.generateScholixResourceFromSummary)(scholixResourceEncoder)
.filter(r => r.getIdentifier!= null && r.getIdentifier.size>0) .filter(r => r.getIdentifier != null && r.getIdentifier.size > 0)
.write.mode(SaveMode.Overwrite).save(s"${scholixResourcePath(workingPath)}_native") .write
.mode(SaveMode.Overwrite)
.save(s"${scholixResourcePath(workingPath)}_native")
} }
/** /** This method convert the new Datacite Resource into Scholix Resource
* This method convert the new Datacite Resource into Scholix Resource * Needed to fill the source and the type of Scholix Relationships
* Needed to fill the source and the type of Scholix Relationships * @param workingPath the Working Path
* @param workingPath the Working Path * @param spark The spark Session
* @param spark The spark Session */
*/ def addMissingScholixResource(workingPath: String, spark: SparkSession): Unit = {
def addMissingScholixResource(workingPath:String, spark:SparkSession ) :Unit = { implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf] implicit val scholixResourceEncoder: Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
implicit val scholixResourceEncoder:Encoder[ScholixResource] = Encoders.kryo[ScholixResource] implicit val resultEncoder: Encoder[Result] = Encoders.kryo[Result]
implicit val resultEncoder:Encoder[Result] = Encoders.kryo[Result]
import spark.implicits._ import spark.implicits._
spark.read.load(dataciteOAFPath(workingPath)).as[Oaf] spark.read
.load(dataciteOAFPath(workingPath))
.as[Oaf]
.filter(_.isInstanceOf[Result]) .filter(_.isInstanceOf[Result])
.map(_.asInstanceOf[Result]) .map(_.asInstanceOf[Result])
.map(ScholixUtils.generateScholixResourceFromResult) .map(ScholixUtils.generateScholixResourceFromResult)
.filter(r => r.getIdentifier!= null && r.getIdentifier.size>0) .filter(r => r.getIdentifier != null && r.getIdentifier.size > 0)
.write.mode(SaveMode.Overwrite).save(s"${scholixResourcePath(workingPath)}_update") .write
.mode(SaveMode.Overwrite)
.save(s"${scholixResourcePath(workingPath)}_update")
val update = spark.read.load(s"${scholixResourcePath(workingPath)}_update").as[ScholixResource] val update = spark.read.load(s"${scholixResourcePath(workingPath)}_update").as[ScholixResource]
val native = spark.read.load(s"${scholixResourcePath(workingPath)}_native").as[ScholixResource] val native = spark.read.load(s"${scholixResourcePath(workingPath)}_native").as[ScholixResource]
val graph = update.union(native) val graph = update
.union(native)
.groupByKey(_.getDnetIdentifier) .groupByKey(_.getDnetIdentifier)
.reduceGroups((a,b) => if (a!= null && a.getDnetIdentifier!= null) a else b) .reduceGroups((a, b) => if (a != null && a.getDnetIdentifier != null) a else b)
.map(_._2) .map(_._2)
graph.write.mode(SaveMode.Overwrite).save(s"${scholixResourcePath(workingPath)}_graph") graph.write.mode(SaveMode.Overwrite).save(s"${scholixResourcePath(workingPath)}_graph")
} }
/** This method get and Transform only datacite records with
* timestamp greater than timestamp
* @param datacitePath the datacite input Path
* @param timestamp the timestamp
* @param workingPath the working path where save the generated Dataset
* @param spark SparkSession
* @param vocabularies Vocabularies needed for transformation
*/
/** def getDataciteUpdate(
* This method get and Transform only datacite records with datacitePath: String,
* timestamp greater than timestamp timestamp: Long,
* @param datacitePath the datacite input Path workingPath: String,
* @param timestamp the timestamp spark: SparkSession,
* @param workingPath the working path where save the generated Dataset vocabularies: VocabularyGroup
* @param spark SparkSession ): Long = {
* @param vocabularies Vocabularies needed for transformation
*/
def getDataciteUpdate(datacitePath:String, timestamp:Long, workingPath:String, spark:SparkSession,vocabularies: VocabularyGroup): Long = {
import spark.implicits._ import spark.implicits._
val ds = spark.read.load(datacitePath).as[DataciteType] val ds = spark.read.load(datacitePath).as[DataciteType]
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf] implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
val total = ds.filter(_.timestamp>=timestamp).count() val total = ds.filter(_.timestamp >= timestamp).count()
if (total >0) { if (total > 0) {
ds.filter(_.timestamp >= timestamp) ds.filter(_.timestamp >= timestamp)
.flatMap(d => DataciteToOAFTransformation.generateOAF(d.json, d.timestamp, d.timestamp, vocabularies, exportLinks = true)) .flatMap(d =>
.flatMap(i => fixRelations(i)).filter(i => i != null) DataciteToOAFTransformation
.write.mode(SaveMode.Overwrite).save(dataciteOAFPath(workingPath)) .generateOAF(d.json, d.timestamp, d.timestamp, vocabularies, exportLinks = true)
)
.flatMap(i => fixRelations(i))
.filter(i => i != null)
.write
.mode(SaveMode.Overwrite)
.save(dataciteOAFPath(workingPath))
} }
total total
} }
/** /** After added the new ScholixResource, we need to update the scholix Pid Map
* After added the new ScholixResource, we need to update the scholix Pid Map * to intersected with the new Datacite Relations
* to intersected with the new Datacite Relations *
* @param workingPath The working Path starting from save the new Map
* @param workingPath The working Path starting from save the new Map * @param spark the spark session
* @param spark the spark session */
*/ def generatePidMap(workingPath: String, spark: SparkSession): Unit = {
def generatePidMap(workingPath:String, spark:SparkSession ) :Unit = { implicit val scholixResourceEncoder: Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
implicit val scholixResourceEncoder:Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
import spark.implicits._ import spark.implicits._
spark.read.load(s"${scholixResourcePath(workingPath)}_graph").as[ScholixResource] spark.read
.flatMap(r=> .load(s"${scholixResourcePath(workingPath)}_graph")
r.getIdentifier.asScala .as[ScholixResource]
.map(i =>DHPUtils.generateUnresolvedIdentifier(i.getIdentifier, i.getSchema)) .flatMap(r =>
.map(t =>(t, r.getDnetIdentifier)) r.getIdentifier.asScala
)(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .map(i => DHPUtils.generateUnresolvedIdentifier(i.getIdentifier, i.getSchema))
.map(t => (t, r.getDnetIdentifier))
)(Encoders.tuple(Encoders.STRING, Encoders.STRING))
.groupByKey(_._1) .groupByKey(_._1)
.reduceGroups((a,b) => if (a!= null && a._2!= null) a else b) .reduceGroups((a, b) => if (a != null && a._2 != null) a else b)
.map(_._2)(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .map(_._2)(Encoders.tuple(Encoders.STRING, Encoders.STRING))
.write.mode(SaveMode.Overwrite).save(pidMapPath(workingPath)) .write
.mode(SaveMode.Overwrite)
.save(pidMapPath(workingPath))
} }
/** /** This method resolve the datacite relation and filter the resolved
* This method resolve the datacite relation and filter the resolved * relation
* relation * @param workingPath the working path
* @param workingPath the working path * @param spark the spark session
* @param spark the spark session */
*/
def resolveUpdateRelation(workingPath:String, spark:SparkSession) :Unit = { def resolveUpdateRelation(workingPath: String, spark: SparkSession): Unit = {
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf] implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val relationEncoder:Encoder[Relation] = Encoders.kryo[Relation] implicit val relationEncoder: Encoder[Relation] = Encoders.kryo[Relation]
import spark.implicits._ import spark.implicits._
val pidMap = spark.read.load(pidMapPath(workingPath)).as[(String,String)] val pidMap = spark.read.load(pidMapPath(workingPath)).as[(String, String)]
val unresolvedRelations:Dataset[(String,Relation)] = spark.read.load(dataciteOAFPath(workingPath)).as[Oaf] val unresolvedRelations: Dataset[(String, Relation)] = spark.read
.load(dataciteOAFPath(workingPath))
.as[Oaf]
.filter(_.isInstanceOf[Relation]) .filter(_.isInstanceOf[Relation])
.map(_.asInstanceOf[Relation]) .map(_.asInstanceOf[Relation])
.map { r => .map { r =>
@ -193,7 +222,7 @@ class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:L
unresolvedRelations unresolvedRelations
.joinWith(pidMap, unresolvedRelations("_1").equalTo(pidMap("_1"))) .joinWith(pidMap, unresolvedRelations("_1").equalTo(pidMap("_1")))
.map(t => { .map(t => {
val r =t._1._2 val r = t._1._2
val resolvedIdentifier = t._2._2 val resolvedIdentifier = t._2._2
if (r.getSource.startsWith("unresolved")) if (r.getSource.startsWith("unresolved"))
r.setSource(resolvedIdentifier) r.setSource(resolvedIdentifier)
@ -201,56 +230,62 @@ class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:L
r.setTarget(resolvedIdentifier) r.setTarget(resolvedIdentifier)
r r
})(relationEncoder) })(relationEncoder)
.filter(r => !(r.getSource.startsWith("unresolved") || r.getTarget.startsWith("unresolved") )) .filter(r => !(r.getSource.startsWith("unresolved") || r.getTarget.startsWith("unresolved")))
.write.mode(SaveMode.Overwrite) .write
.mode(SaveMode.Overwrite)
.save(resolvedRelationPath(workingPath)) .save(resolvedRelationPath(workingPath))
} }
/** This method generate scholix starting from resolved relation
*
* @param workingPath
* @param spark
*/
def generateScholixUpdate(workingPath: String, spark: SparkSession): Unit = {
implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val scholixEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
implicit val scholixResourceEncoder: Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
implicit val relationEncoder: Encoder[Relation] = Encoders.kryo[Relation]
implicit val intermediateEncoder: Encoder[(String, Scholix)] =
Encoders.tuple(Encoders.STRING, scholixEncoder)
val relations: Dataset[(String, Relation)] = spark.read
.load(resolvedRelationPath(workingPath))
.as[Relation]
.map(r => (r.getSource, r))(Encoders.tuple(Encoders.STRING, relationEncoder))
/** val id_summary: Dataset[(String, ScholixResource)] = spark.read
* This method generate scholix starting from resolved relation .load(s"${scholixResourcePath(workingPath)}_graph")
* .as[ScholixResource]
* .map(r => (r.getDnetIdentifier, r))(Encoders.tuple(Encoders.STRING, scholixResourceEncoder))
* @param workingPath
* @param spark
*/
def generateScholixUpdate(workingPath:String, spark:SparkSession) :Unit = {
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val scholixEncoder:Encoder[Scholix] = Encoders.kryo[Scholix]
implicit val scholixResourceEncoder:Encoder[ScholixResource] = Encoders.kryo[ScholixResource]
implicit val relationEncoder:Encoder[Relation] = Encoders.kryo[Relation]
implicit val intermediateEncoder :Encoder[(String,Scholix)] = Encoders.tuple(Encoders.STRING, scholixEncoder)
val relations:Dataset[(String, Relation)] = spark.read.load(resolvedRelationPath(workingPath)).as[Relation].map(r =>(r.getSource,r))(Encoders.tuple(Encoders.STRING, relationEncoder))
val id_summary:Dataset[(String,ScholixResource)] = spark.read.load(s"${scholixResourcePath(workingPath)}_graph").as[ScholixResource].map(r => (r.getDnetIdentifier,r))(Encoders.tuple(Encoders.STRING, scholixResourceEncoder))
id_summary.cache() id_summary.cache()
relations.joinWith(id_summary, relations("_1").equalTo(id_summary("_1")),"inner") relations
.map(t => (t._1._2.getTarget,ScholixUtils.scholixFromSource(t._1._2, t._2._2))) .joinWith(id_summary, relations("_1").equalTo(id_summary("_1")), "inner")
.write.mode(SaveMode.Overwrite).save(s"$workingPath/scholix_one_verse") .map(t => (t._1._2.getTarget, ScholixUtils.scholixFromSource(t._1._2, t._2._2)))
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/scholix_one_verse")
val source_scholix:Dataset[(String, Scholix)] =spark.read.load(s"$workingPath/scholix_one_verse").as[(String,Scholix)] val source_scholix: Dataset[(String, Scholix)] =
spark.read.load(s"$workingPath/scholix_one_verse").as[(String, Scholix)]
source_scholix.joinWith(id_summary, source_scholix("_1").equalTo(id_summary("_1")),"inner") source_scholix
.joinWith(id_summary, source_scholix("_1").equalTo(id_summary("_1")), "inner")
.map(t => { .map(t => {
val target:ScholixResource =t._2._2 val target: ScholixResource = t._2._2
val scholix:Scholix = t._1._2 val scholix: Scholix = t._1._2
ScholixUtils.generateCompleteScholix(scholix,target) ScholixUtils.generateCompleteScholix(scholix, target)
})(scholixEncoder).write.mode(SaveMode.Overwrite).save(s"$workingPath/scholix") })(scholixEncoder)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/scholix")
} }
/** Here all the spark applications runs this method
* where the whole logic of the spark node is defined
*/
/**
* Here all the spark applications runs this method
* where the whole logic of the spark node is defined
*/
override def run(): Unit = { override def run(): Unit = {
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"SourcePath is '$sourcePath'") log.info(s"SourcePath is '$sourcePath'")
@ -258,7 +293,7 @@ class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:L
val datacitePath = parser.get("datacitePath") val datacitePath = parser.get("datacitePath")
log.info(s"DatacitePath is '$datacitePath'") log.info(s"DatacitePath is '$datacitePath'")
val workingPath = parser.get("workingSupportPath") val workingPath = parser.get("workingSupportPath")
log.info(s"workingPath is '$workingPath'") log.info(s"workingPath is '$workingPath'")
val isLookupUrl: String = parser.get("isLookupUrl") val isLookupUrl: String = parser.get("isLookupUrl")
@ -268,38 +303,43 @@ class SparkRetrieveDataciteDelta (propertyPath:String, args:Array[String], log:L
val vocabularies = VocabularyGroup.loadVocsFromIS(isLookupService) val vocabularies = VocabularyGroup.loadVocsFromIS(isLookupService)
require(vocabularies != null) require(vocabularies != null)
val updateDS: Boolean = "true".equalsIgnoreCase(parser.get("updateDS"))
val updateDS:Boolean = "true".equalsIgnoreCase(parser.get("updateDS"))
log.info(s"updateDS is '$updateDS'") log.info(s"updateDS is '$updateDS'")
var lastCollectionDate = 0L var lastCollectionDate = 0L
if (updateDS) { if (updateDS) {
generateScholixResource(s"$sourcePath/provision/summaries", workingPath, spark) generateScholixResource(s"$sourcePath/provision/summaries", workingPath, spark)
log.info("Retrieve last entities collected From starting from scholix Graph") log.info("Retrieve last entities collected From starting from scholix Graph")
lastCollectionDate = retrieveLastCollectedFrom(spark, s"$sourcePath/entities") lastCollectionDate = retrieveLastCollectedFrom(spark, s"$sourcePath/entities")
} } else {
else {
val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration) val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration)
fs.delete(new Path(s"${scholixResourcePath(workingPath)}_native"), true) fs.delete(new Path(s"${scholixResourcePath(workingPath)}_native"), true)
fs.rename(new Path(s"${scholixResourcePath(workingPath)}_graph"), new Path(s"${scholixResourcePath(workingPath)}_native")) fs.rename(
lastCollectionDate = retrieveLastCollectedFrom(spark, dataciteOAFPath(workingPath)) new Path(s"${scholixResourcePath(workingPath)}_graph"),
new Path(s"${scholixResourcePath(workingPath)}_native")
)
lastCollectionDate = retrieveLastCollectedFrom(spark, dataciteOAFPath(workingPath))
} }
val numRecords = getDataciteUpdate(datacitePath, lastCollectionDate, workingPath, spark, vocabularies) val numRecords =
if (numRecords>0) { getDataciteUpdate(datacitePath, lastCollectionDate, workingPath, spark, vocabularies)
addMissingScholixResource(workingPath,spark) if (numRecords > 0) {
addMissingScholixResource(workingPath, spark)
generatePidMap(workingPath, spark) generatePidMap(workingPath, spark)
resolveUpdateRelation(workingPath,spark) resolveUpdateRelation(workingPath, spark)
generateScholixUpdate(workingPath, spark) generateScholixUpdate(workingPath, spark)
} }
} }
} }
object SparkRetrieveDataciteDelta { object SparkRetrieveDataciteDelta {
val log: Logger = LoggerFactory.getLogger(SparkRetrieveDataciteDelta.getClass) val log: Logger = LoggerFactory.getLogger(SparkRetrieveDataciteDelta.getClass)
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
new SparkRetrieveDataciteDelta("/eu/dnetlib/dhp/sx/graph/retrieve_datacite_delta_params.json", args, log).initialize().run() new SparkRetrieveDataciteDelta(
"/eu/dnetlib/dhp/sx/graph/retrieve_datacite_delta_params.json",
args,
log
).initialize().run()
} }
} }

View File

@ -1,6 +1,5 @@
package eu.dnetlib.dhp.datacite package eu.dnetlib.dhp.datacite
import com.fasterxml.jackson.databind.{ObjectMapper, SerializationFeature} import com.fasterxml.jackson.databind.{ObjectMapper, SerializationFeature}
import eu.dnetlib.dhp.aggregation.AbstractVocabularyTest import eu.dnetlib.dhp.aggregation.AbstractVocabularyTest
import eu.dnetlib.dhp.schema.oaf.Oaf import eu.dnetlib.dhp.schema.oaf.Oaf
@ -20,95 +19,90 @@ import java.util.Locale
import scala.io.Source import scala.io.Source
@ExtendWith(Array(classOf[MockitoExtension])) @ExtendWith(Array(classOf[MockitoExtension]))
class DataciteToOAFTest extends AbstractVocabularyTest{ class DataciteToOAFTest extends AbstractVocabularyTest {
private var workingDir:Path = null private var workingDir: Path = null
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
@BeforeEach @BeforeEach
def setUp() :Unit = { def setUp(): Unit = {
workingDir= Files.createTempDirectory(getClass.getSimpleName) workingDir = Files.createTempDirectory(getClass.getSimpleName)
super.setUpVocabulary() super.setUpVocabulary()
} }
@AfterEach @AfterEach
def tearDown() :Unit = { def tearDown(): Unit = {
FileUtils.deleteDirectory(workingDir.toFile) FileUtils.deleteDirectory(workingDir.toFile)
} }
@Test @Test
def testDateMapping:Unit = { def testDateMapping: Unit = {
val inputDate = "2021-07-14T11:52:54+0000" val inputDate = "2021-07-14T11:52:54+0000"
val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US) val ISO8601FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.US)
val dt = ISO8601FORMAT.parse(inputDate) val dt = ISO8601FORMAT.parse(inputDate)
println(dt.getTime) println(dt.getTime)
} }
@Test @Test
def testConvert(): Unit = { def testConvert(): Unit = {
val path = getClass.getResource("/eu/dnetlib/dhp/actionmanager/datacite/dataset").getPath val path = getClass.getResource("/eu/dnetlib/dhp/actionmanager/datacite/dataset").getPath
val conf = new SparkConf() val conf = new SparkConf()
val spark:SparkSession = SparkSession.builder().config(conf) val spark: SparkSession = SparkSession
.builder()
.config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master("local[*]") .master("local[*]")
.getOrCreate() .getOrCreate()
implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val oafEncoder:Encoder[Oaf] = Encoders.kryo[Oaf]
val instance = new GenerateDataciteDatasetSpark(null, null, log) val instance = new GenerateDataciteDatasetSpark(null, null, log)
val targetPath = s"$workingDir/result" val targetPath = s"$workingDir/result"
instance.generateDataciteDataset(path, exportLinks = true, vocabularies,targetPath, spark) instance.generateDataciteDataset(path, exportLinks = true, vocabularies, targetPath, spark)
import spark.implicits._ import spark.implicits._
val nativeSize =spark.read.load(path).count() val nativeSize = spark.read.load(path).count()
assertEquals(100, nativeSize) assertEquals(100, nativeSize)
val result:Dataset[Oaf] = spark.read.load(targetPath).as[Oaf] val result: Dataset[Oaf] = spark.read.load(targetPath).as[Oaf]
result
result.map(s => s.getClass.getSimpleName).groupBy(col("value").alias("class")).agg(count("value").alias("Total")).show(false) .map(s => s.getClass.getSimpleName)
.groupBy(col("value").alias("class"))
.agg(count("value").alias("Total"))
.show(false)
val t = spark.read.load(targetPath).count() val t = spark.read.load(targetPath).count()
assertTrue(t >0) assertTrue(t > 0)
spark.stop() spark.stop()
} }
@Test @Test
def testMapping() :Unit = { def testMapping(): Unit = {
val record =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/actionmanager/datacite/record.json")).mkString val record = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/actionmanager/datacite/record.json")
)
.mkString
val mapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT) val mapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT)
val res:List[Oaf] =DataciteToOAFTransformation.generateOAF(record, 0L,0L, vocabularies, true ) val res: List[Oaf] = DataciteToOAFTransformation.generateOAF(record, 0L, 0L, vocabularies, true)
res.foreach(r => { res.foreach(r => {
println (mapper.writeValueAsString(r)) println(mapper.writeValueAsString(r))
println("----------------------------") println("----------------------------")
}) })
} }
} }

View File

@ -20,14 +20,13 @@ import scala.io.Source
import scala.xml.pull.XMLEventReader import scala.xml.pull.XMLEventReader
@ExtendWith(Array(classOf[MockitoExtension])) @ExtendWith(Array(classOf[MockitoExtension]))
class BioScholixTest extends AbstractVocabularyTest{ class BioScholixTest extends AbstractVocabularyTest {
val mapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT) val mapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT)
mapper.configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES,false) mapper.configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false)
@BeforeEach @BeforeEach
def setUp() :Unit = { def setUp(): Unit = {
super.setUpVocabulary() super.setUpVocabulary()
} }
@ -38,52 +37,54 @@ class BioScholixTest extends AbstractVocabularyTest{
} }
object GzFileIterator { object GzFileIterator {
def apply(is: InputStream, encoding: String) = { def apply(is: InputStream, encoding: String) = {
new BufferedReaderIterator( new BufferedReaderIterator(
new BufferedReader( new BufferedReader(new InputStreamReader(new GZIPInputStream(is), encoding))
new InputStreamReader( )
new GZIPInputStream(
is), encoding)))
} }
} }
@Test @Test
def testEBIData() = { def testEBIData() = {
val inputXML = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pubmed.xml")).mkString val inputXML = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pubmed.xml"))
.mkString
val xml = new XMLEventReader(Source.fromBytes(inputXML.getBytes())) val xml = new XMLEventReader(Source.fromBytes(inputXML.getBytes()))
new PMParser(xml).foreach(s =>println(mapper.writeValueAsString(s))) new PMParser(xml).foreach(s => println(mapper.writeValueAsString(s)))
} }
@Test @Test
def testPubmedToOaf(): Unit = { def testPubmedToOaf(): Unit = {
assertNotNull(vocabularies) assertNotNull(vocabularies)
assertTrue(vocabularies.vocabularyExists("dnet:publication_resource")) assertTrue(vocabularies.vocabularyExists("dnet:publication_resource"))
val records:String =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pubmed_dump")).mkString val records: String = Source
val r:List[Oaf] = records.lines.toList.map(s=>mapper.readValue(s, classOf[PMArticle])).map(a => PubMedToOaf.convert(a, vocabularies)) .fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pubmed_dump"))
.mkString
val r: List[Oaf] = records.lines.toList
.map(s => mapper.readValue(s, classOf[PMArticle]))
.map(a => PubMedToOaf.convert(a, vocabularies))
assertEquals(10, r.size) assertEquals(10, r.size)
assertTrue(r.map(p => p.asInstanceOf[Result]).flatMap(p => p.getInstance().asScala.map(i => i.getInstancetype.getClassid)).exists(p => "0037".equalsIgnoreCase(p))) assertTrue(
r.map(p => p.asInstanceOf[Result])
.flatMap(p => p.getInstance().asScala.map(i => i.getInstancetype.getClassid))
.exists(p => "0037".equalsIgnoreCase(p))
)
println(mapper.writeValueAsString(r.head)) println(mapper.writeValueAsString(r.head))
} }
@Test @Test
def testPDBToOAF():Unit = { def testPDBToOAF(): Unit = {
assertNotNull(vocabularies) assertNotNull(vocabularies)
assertTrue(vocabularies.vocabularyExists("dnet:publication_resource")) assertTrue(vocabularies.vocabularyExists("dnet:publication_resource"))
val records:String =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pdb_dump")).mkString val records: String = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/pdb_dump"))
.mkString
records.lines.foreach(s => assertTrue(s.nonEmpty)) records.lines.foreach(s => assertTrue(s.nonEmpty))
val result:List[Oaf]= records.lines.toList.flatMap(o => BioDBToOAF.pdbTOOaf(o)) val result: List[Oaf] = records.lines.toList.flatMap(o => BioDBToOAF.pdbTOOaf(o))
assertTrue(result.nonEmpty) assertTrue(result.nonEmpty)
result.foreach(r => assertNotNull(r)) result.foreach(r => assertNotNull(r))
@ -93,19 +94,18 @@ class BioScholixTest extends AbstractVocabularyTest{
} }
@Test @Test
def testUNIprotToOAF():Unit = { def testUNIprotToOAF(): Unit = {
assertNotNull(vocabularies) assertNotNull(vocabularies)
assertTrue(vocabularies.vocabularyExists("dnet:publication_resource")) assertTrue(vocabularies.vocabularyExists("dnet:publication_resource"))
val records:String =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/uniprot_dump")).mkString val records: String = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/uniprot_dump"))
.mkString
records.lines.foreach(s => assertTrue(s.nonEmpty)) records.lines.foreach(s => assertTrue(s.nonEmpty))
val result:List[Oaf]= records.lines.toList.flatMap(o => BioDBToOAF.uniprotToOAF(o)) val result: List[Oaf] = records.lines.toList.flatMap(o => BioDBToOAF.uniprotToOAF(o))
assertTrue(result.nonEmpty) assertTrue(result.nonEmpty)
result.foreach(r => assertNotNull(r)) result.foreach(r => assertNotNull(r))
@ -115,35 +115,42 @@ class BioScholixTest extends AbstractVocabularyTest{
} }
case class EBILinks(relType:String, date:String, title:String, pmid:String, targetPid:String, targetPidType:String) {} case class EBILinks(
relType: String,
date: String,
title: String,
pmid: String,
targetPid: String,
targetPidType: String
) {}
def parse_ebi_links(input:String):List[EBILinks] ={ def parse_ebi_links(input: String): List[EBILinks] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json = parse(input) lazy val json = parse(input)
val pmid = (json \ "publication" \"pmid").extract[String] val pmid = (json \ "publication" \ "pmid").extract[String]
for { for {
JObject(link) <- json \\ "Link" JObject(link) <- json \\ "Link"
JField("Target",JObject(target)) <- link JField("Target", JObject(target)) <- link
JField("RelationshipType",JObject(relType)) <- link JField("RelationshipType", JObject(relType)) <- link
JField("Name", JString(relation)) <- relType JField("Name", JString(relation)) <- relType
JField("PublicationDate",JString(publicationDate)) <- link JField("PublicationDate", JString(publicationDate)) <- link
JField("Title", JString(title)) <- target JField("Title", JString(title)) <- target
JField("Identifier",JObject(identifier)) <- target JField("Identifier", JObject(identifier)) <- target
JField("IDScheme", JString(idScheme)) <- identifier JField("IDScheme", JString(idScheme)) <- identifier
JField("ID", JString(id)) <- identifier JField("ID", JString(id)) <- identifier
} yield EBILinks(relation, publicationDate, title, pmid, id, idScheme) } yield EBILinks(relation, publicationDate, title, pmid, id, idScheme)
} }
@Test @Test
def testCrossrefLinksToOAF():Unit = { def testCrossrefLinksToOAF(): Unit = {
val records:String =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/crossref_links")).mkString val records: String = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/crossref_links"))
.mkString
records.lines.foreach(s => assertTrue(s.nonEmpty)) records.lines.foreach(s => assertTrue(s.nonEmpty))
val result: List[Oaf] = records.lines.map(s => BioDBToOAF.crossrefLinksToOaf(s)).toList
val result:List[Oaf] =records.lines.map(s => BioDBToOAF.crossrefLinksToOaf(s)).toList
assertNotNull(result) assertNotNull(result)
assertTrue(result.nonEmpty) assertTrue(result.nonEmpty)
@ -153,36 +160,41 @@ class BioScholixTest extends AbstractVocabularyTest{
} }
@Test @Test
def testEBILinksToOAF():Unit = { def testEBILinksToOAF(): Unit = {
val iterator = GzFileIterator(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/ebi_links.gz"), "UTF-8") val iterator = GzFileIterator(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/ebi_links.gz"),
"UTF-8"
)
val data = iterator.next() val data = iterator.next()
val res = BioDBToOAF.parse_ebi_links(BioDBToOAF.extractEBILinksFromDump(data).links).filter(BioDBToOAF.EBITargetLinksFilter).flatMap(BioDBToOAF.convertEBILinksToOaf) val res = BioDBToOAF
.parse_ebi_links(BioDBToOAF.extractEBILinksFromDump(data).links)
.filter(BioDBToOAF.EBITargetLinksFilter)
.flatMap(BioDBToOAF.convertEBILinksToOaf)
print(res.length) print(res.length)
println(mapper.writeValueAsString(res.head)) println(mapper.writeValueAsString(res.head))
} }
@Test @Test
def scholixResolvedToOAF():Unit ={ def scholixResolvedToOAF(): Unit = {
val records:String =Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/scholix_resolved")).mkString val records: String = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/bio/scholix_resolved")
)
.mkString
records.lines.foreach(s => assertTrue(s.nonEmpty)) records.lines.foreach(s => assertTrue(s.nonEmpty))
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
val l:List[ScholixResolved] = records.lines.map{input => val l: List[ScholixResolved] = records.lines.map { input =>
lazy val json = parse(input) lazy val json = parse(input)
json.extract[ScholixResolved] json.extract[ScholixResolved]
}.toList }.toList
val result: List[Oaf] = l.map(s => BioDBToOAF.scholixResolvedToOAF(s))
val result:List[Oaf] = l.map(s => BioDBToOAF.scholixResolvedToOAF(s))
assertTrue(result.nonEmpty) assertTrue(result.nonEmpty)
} }

View File

@ -16,10 +16,22 @@ import java.time.LocalDate
import java.time.format.DateTimeFormatter import java.time.format.DateTimeFormatter
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
case class HostedByItemType(
id: String,
officialname: String,
issn: String,
eissn: String,
lissn: String,
openAccess: Boolean
) {}
case class HostedByItemType(id: String, officialname: String, issn: String, eissn: String, lissn: String, openAccess: Boolean) {} case class DoiBoostAffiliation(
PaperId: Long,
case class DoiBoostAffiliation(PaperId:Long, AffiliationId:Long, GridId:Option[String], OfficialPage:Option[String], DisplayName:Option[String]){} AffiliationId: Long,
GridId: Option[String],
OfficialPage: Option[String],
DisplayName: Option[String]
) {}
object DoiBoostMappingUtil { object DoiBoostMappingUtil {
@ -43,9 +55,19 @@ object DoiBoostMappingUtil {
val DOI_PREFIX_REGEX = "(^10\\.|\\/10.)" val DOI_PREFIX_REGEX = "(^10\\.|\\/10.)"
val DOI_PREFIX = "10." val DOI_PREFIX = "10."
val invalidName = List(",", "none none", "none, none", "none &na;", "(:null)", "test test test", "test test", "test", "&na; &na;") val invalidName = List(
",",
"none none",
"none, none",
"none &na;",
"(:null)",
"test test test",
"test test",
"test",
"&na; &na;"
)
def toActionSet(item:Oaf) :(String, String) = { def toActionSet(item: Oaf): (String, String) = {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
item match { item match {
@ -75,59 +97,56 @@ object DoiBoostMappingUtil {
} }
def toHostedByItem(input: String): (String, HostedByItemType) = {
def toHostedByItem(input:String): (String, HostedByItemType) = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val c :Map[String,HostedByItemType] = json.extract[Map[String, HostedByItemType]] val c: Map[String, HostedByItemType] = json.extract[Map[String, HostedByItemType]]
(c.keys.head, c.values.head) (c.keys.head, c.values.head)
} }
def toISSNPair(publication: Publication): (String, Publication) = {
def toISSNPair(publication: Publication) : (String, Publication) = {
val issn = if (publication.getJournal == null) null else publication.getJournal.getIssnPrinted val issn = if (publication.getJournal == null) null else publication.getJournal.getIssnPrinted
val eissn =if (publication.getJournal == null) null else publication.getJournal.getIssnOnline val eissn = if (publication.getJournal == null) null else publication.getJournal.getIssnOnline
val lissn =if (publication.getJournal == null) null else publication.getJournal.getIssnLinking val lissn = if (publication.getJournal == null) null else publication.getJournal.getIssnLinking
if (issn!= null && issn.nonEmpty) if (issn != null && issn.nonEmpty)
(issn, publication) (issn, publication)
else if(eissn!= null && eissn.nonEmpty) else if (eissn != null && eissn.nonEmpty)
(eissn, publication) (eissn, publication)
else if(lissn!= null && lissn.nonEmpty) else if (lissn != null && lissn.nonEmpty)
(lissn, publication) (lissn, publication)
else else
(publication.getId, publication) (publication.getId, publication)
} }
def generateGridAffiliationId(gridId: String): String = {
def generateGridAffiliationId(gridId:String) :String = {
s"20|grid________::${DHPUtils.md5(gridId.toLowerCase().trim())}" s"20|grid________::${DHPUtils.md5(gridId.toLowerCase().trim())}"
} }
def fixResult(result: Dataset): Dataset = {
def fixResult(result: Dataset) :Dataset = {
val instanceType = extractInstance(result) val instanceType = extractInstance(result)
if (instanceType.isDefined) { if (instanceType.isDefined) {
result.getInstance().asScala.foreach(i => i.setInstancetype(instanceType.get.getInstancetype)) result.getInstance().asScala.foreach(i => i.setInstancetype(instanceType.get.getInstancetype))
} }
result.getInstance().asScala.foreach(i => { result
i.setHostedby(ModelConstants.UNKNOWN_REPOSITORY) .getInstance()
}) .asScala
.foreach(i => {
i.setHostedby(ModelConstants.UNKNOWN_REPOSITORY)
})
result result
} }
def decideAccessRight(lic: Field[String], date: String): AccessRight = {
def decideAccessRight(lic : Field[String], date:String) : AccessRight = { if (lic == null) {
if(lic == null){
//Default value Unknown //Default value Unknown
return getUnknownQualifier() return getUnknownQualifier()
} }
val license : String = lic.getValue val license: String = lic.getValue
//CC licenses //CC licenses
if(license.startsWith("cc") || if (
license.startsWith("cc") ||
license.startsWith("http://creativecommons.org/licenses") || license.startsWith("http://creativecommons.org/licenses") ||
license.startsWith("https://creativecommons.org/licenses") || license.startsWith("https://creativecommons.org/licenses") ||
@ -137,40 +156,44 @@ object DoiBoostMappingUtil {
license.equals("http://pubs.acs.org/page/policy/authorchoice_ccbyncnd_termsofuse.html") || license.equals("http://pubs.acs.org/page/policy/authorchoice_ccbyncnd_termsofuse.html") ||
//APA (considered OPEN also by Unpaywall) //APA (considered OPEN also by Unpaywall)
license.equals("http://www.apa.org/pubs/journals/resources/open-access.aspx")){ license.equals("http://www.apa.org/pubs/journals/resources/open-access.aspx")
) {
val oaq : AccessRight = getOpenAccessQualifier() val oaq: AccessRight = getOpenAccessQualifier()
oaq.setOpenAccessRoute(OpenAccessRoute.hybrid) oaq.setOpenAccessRoute(OpenAccessRoute.hybrid)
return oaq return oaq
} }
//OUP (BUT ONLY AFTER 12 MONTHS FROM THE PUBLICATION DATE, OTHERWISE THEY ARE EMBARGOED) //OUP (BUT ONLY AFTER 12 MONTHS FROM THE PUBLICATION DATE, OTHERWISE THEY ARE EMBARGOED)
if(license.equals("https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model")){ if (
license.equals(
"https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"
)
) {
val now = java.time.LocalDate.now val now = java.time.LocalDate.now
try{ try {
val pub_date = LocalDate.parse(date, DateTimeFormatter.ofPattern("yyyy-MM-dd")) val pub_date = LocalDate.parse(date, DateTimeFormatter.ofPattern("yyyy-MM-dd"))
if (((now.toEpochDay - pub_date.toEpochDay)/365.0) > 1){ if (((now.toEpochDay - pub_date.toEpochDay) / 365.0) > 1) {
val oaq : AccessRight = getOpenAccessQualifier() val oaq: AccessRight = getOpenAccessQualifier()
oaq.setOpenAccessRoute(OpenAccessRoute.hybrid) oaq.setOpenAccessRoute(OpenAccessRoute.hybrid)
return oaq return oaq
} } else {
else{
return getEmbargoedAccessQualifier() return getEmbargoedAccessQualifier()
} }
}catch { } catch {
case e: Exception => { case e: Exception => {
try{ try {
val pub_date = LocalDate.parse(date, DateTimeFormatter.ofPattern("yyyy-MM-dd'T'HH:mm:ss'Z'")) val pub_date =
if (((now.toEpochDay - pub_date.toEpochDay)/365.0) > 1){ LocalDate.parse(date, DateTimeFormatter.ofPattern("yyyy-MM-dd'T'HH:mm:ss'Z'"))
val oaq : AccessRight = getOpenAccessQualifier() if (((now.toEpochDay - pub_date.toEpochDay) / 365.0) > 1) {
oaq.setOpenAccessRoute(OpenAccessRoute.hybrid) val oaq: AccessRight = getOpenAccessQualifier()
return oaq oaq.setOpenAccessRoute(OpenAccessRoute.hybrid)
} return oaq
else{ } else {
return getEmbargoedAccessQualifier() return getEmbargoedAccessQualifier()
} }
}catch{ } catch {
case ex: Exception => return getClosedAccessQualifier() case ex: Exception => return getClosedAccessQualifier()
} }
} }
@ -183,64 +206,91 @@ object DoiBoostMappingUtil {
} }
def getOpenAccessQualifier(): AccessRight = {
OafMapperUtils.accessRight(
def getOpenAccessQualifier():AccessRight = { ModelConstants.ACCESS_RIGHT_OPEN,
"Open Access",
OafMapperUtils.accessRight(ModelConstants.ACCESS_RIGHT_OPEN,"Open Access", ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
} }
def getRestrictedQualifier():AccessRight = { def getRestrictedQualifier(): AccessRight = {
OafMapperUtils.accessRight( "RESTRICTED","Restricted",ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) OafMapperUtils.accessRight(
"RESTRICTED",
"Restricted",
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
} }
def getUnknownQualifier(): AccessRight = {
def getUnknownQualifier():AccessRight = { OafMapperUtils.accessRight(
OafMapperUtils.accessRight(ModelConstants.UNKNOWN, ModelConstants.NOT_AVAILABLE,ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) ModelConstants.UNKNOWN,
ModelConstants.NOT_AVAILABLE,
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
} }
def getEmbargoedAccessQualifier(): AccessRight = {
def getEmbargoedAccessQualifier():AccessRight = { OafMapperUtils.accessRight(
OafMapperUtils.accessRight("EMBARGO","Embargo",ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) "EMBARGO",
"Embargo",
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
} }
def getClosedAccessQualifier():AccessRight = { def getClosedAccessQualifier(): AccessRight = {
OafMapperUtils.accessRight("CLOSED","Closed Access", ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES) OafMapperUtils.accessRight(
"CLOSED",
"Closed Access",
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
} }
def extractInstance(r: Result): Option[Instance] = {
def extractInstance(r:Result):Option[Instance] = { r.getInstance()
r.getInstance().asScala.find(i => i.getInstancetype != null && i.getInstancetype.getClassid.nonEmpty) .asScala
.find(i => i.getInstancetype != null && i.getInstancetype.getClassid.nonEmpty)
} }
def fixPublication(input:((String,Publication), (String,HostedByItemType))): Publication = { def fixPublication(input: ((String, Publication), (String, HostedByItemType))): Publication = {
val publication = input._1._2 val publication = input._1._2
val item = if (input._2 != null) input._2._2 else null val item = if (input._2 != null) input._2._2 else null
val instanceType:Option[Instance] = extractInstance(publication) val instanceType: Option[Instance] = extractInstance(publication)
if (instanceType.isDefined) { if (instanceType.isDefined) {
publication.getInstance().asScala.foreach(i => i.setInstancetype(instanceType.get.getInstancetype)) publication
.getInstance()
.asScala
.foreach(i => i.setInstancetype(instanceType.get.getInstancetype))
} }
publication.getInstance().asScala.foreach(i => { publication
var hb = new KeyValue .getInstance()
if (item != null) { .asScala
hb.setValue(item.officialname) .foreach(i => {
hb.setKey(item.id) var hb = new KeyValue
if (item.openAccess) { if (item != null) {
i.setAccessright(getOpenAccessQualifier()) hb.setValue(item.officialname)
i.getAccessright.setOpenAccessRoute(OpenAccessRoute.gold) hb.setKey(item.id)
} if (item.openAccess) {
i.setAccessright(getOpenAccessQualifier())
i.getAccessright.setOpenAccessRoute(OpenAccessRoute.gold)
}
} } else {
else { hb = ModelConstants.UNKNOWN_REPOSITORY
hb = ModelConstants.UNKNOWN_REPOSITORY }
} i.setHostedby(hb)
i.setHostedby(hb) })
})
publication.setBestaccessright(OafMapperUtils.createBestAccessRights(publication.getInstance())) publication.setBestaccessright(OafMapperUtils.createBestAccessRights(publication.getInstance()))
@ -270,17 +320,22 @@ object DoiBoostMappingUtil {
if (publication.getTitle == null || publication.getTitle.size == 0) if (publication.getTitle == null || publication.getTitle.size == 0)
return false return false
val s = publication.getTitle.asScala.count(p =>
val s = publication.getTitle.asScala.count(p => p.getValue != null p.getValue != null
&& p.getValue.nonEmpty && !p.getValue.equalsIgnoreCase("[NO TITLE AVAILABLE]")) && p.getValue.nonEmpty && !p.getValue.equalsIgnoreCase("[NO TITLE AVAILABLE]")
)
if (s == 0) if (s == 0)
return false return false
// fixes #4360 (test publisher) // fixes #4360 (test publisher)
val publisher = if (publication.getPublisher != null) publication.getPublisher.getValue else null val publisher =
if (publication.getPublisher != null) publication.getPublisher.getValue else null
if (publisher != null && (publisher.equalsIgnoreCase("Test accounts") || publisher.equalsIgnoreCase("CrossRef Test Account"))) { if (
publisher != null && (publisher.equalsIgnoreCase("Test accounts") || publisher
.equalsIgnoreCase("CrossRef Test Account"))
) {
return false; return false;
} }
@ -288,18 +343,12 @@ object DoiBoostMappingUtil {
if (publication.getAuthor == null || publication.getAuthor.size() == 0) if (publication.getAuthor == null || publication.getAuthor.size() == 0)
return false return false
//filter invalid author //filter invalid author
val authors = publication.getAuthor.asScala.map(s => { val authors = publication.getAuthor.asScala.map(s => {
if (s.getFullname.nonEmpty) { if (s.getFullname.nonEmpty) {
s.getFullname s.getFullname
} } else
else s"${s.getName} ${s.getSurname}"
s"${
s.getName
} ${
s.getSurname
}"
}) })
val c = authors.count(isValidAuthorName) val c = authors.count(isValidAuthorName)
@ -307,13 +356,16 @@ object DoiBoostMappingUtil {
return false return false
// fixes #4368 // fixes #4368
if (authors.count(s => s.equalsIgnoreCase("Addie Jackson")) > 0 && "Elsevier BV".equalsIgnoreCase(publication.getPublisher.getValue)) if (
authors.count(s => s.equalsIgnoreCase("Addie Jackson")) > 0 && "Elsevier BV".equalsIgnoreCase(
publication.getPublisher.getValue
)
)
return false return false
true true
} }
def isValidAuthorName(fullName: String): Boolean = { def isValidAuthorName(fullName: String): Boolean = {
if (fullName == null || fullName.isEmpty) if (fullName == null || fullName.isEmpty)
return false return false
@ -322,32 +374,47 @@ object DoiBoostMappingUtil {
true true
} }
def generateDataInfo(trust: String): DataInfo = { def generateDataInfo(trust: String): DataInfo = {
val di = new DataInfo val di = new DataInfo
di.setDeletedbyinference(false) di.setDeletedbyinference(false)
di.setInferred(false) di.setInferred(false)
di.setInvisible(false) di.setInvisible(false)
di.setTrust(trust) di.setTrust(trust)
di.setProvenanceaction(OafMapperUtils.qualifier(ModelConstants.SYSIMPORT_ACTIONSET,ModelConstants.SYSIMPORT_ACTIONSET, ModelConstants.DNET_PROVENANCE_ACTIONS, ModelConstants.DNET_PROVENANCE_ACTIONS)) di.setProvenanceaction(
OafMapperUtils.qualifier(
ModelConstants.SYSIMPORT_ACTIONSET,
ModelConstants.SYSIMPORT_ACTIONSET,
ModelConstants.DNET_PROVENANCE_ACTIONS,
ModelConstants.DNET_PROVENANCE_ACTIONS
)
)
di di
} }
def createSP(
value: String,
def createSP(value: String, classId: String,className:String, schemeId: String, schemeName:String): StructuredProperty = { classId: String,
className: String,
schemeId: String,
schemeName: String
): StructuredProperty = {
val sp = new StructuredProperty val sp = new StructuredProperty
sp.setQualifier(OafMapperUtils.qualifier(classId,className, schemeId, schemeName)) sp.setQualifier(OafMapperUtils.qualifier(classId, className, schemeId, schemeName))
sp.setValue(value) sp.setValue(value)
sp sp
} }
def createSP(
value: String,
def createSP(value: String, classId: String,className:String, schemeId: String, schemeName:String, dataInfo: DataInfo): StructuredProperty = { classId: String,
className: String,
schemeId: String,
schemeName: String,
dataInfo: DataInfo
): StructuredProperty = {
val sp = new StructuredProperty val sp = new StructuredProperty
sp.setQualifier(OafMapperUtils.qualifier(classId,className, schemeId, schemeName)) sp.setQualifier(OafMapperUtils.qualifier(classId, className, schemeId, schemeName))
sp.setValue(value) sp.setValue(value)
sp.setDataInfo(dataInfo) sp.setDataInfo(dataInfo)
sp sp
@ -356,17 +423,20 @@ object DoiBoostMappingUtil {
def createSP(value: String, classId: String, schemeId: String): StructuredProperty = { def createSP(value: String, classId: String, schemeId: String): StructuredProperty = {
val sp = new StructuredProperty val sp = new StructuredProperty
sp.setQualifier(OafMapperUtils.qualifier(classId,classId, schemeId, schemeId)) sp.setQualifier(OafMapperUtils.qualifier(classId, classId, schemeId, schemeId))
sp.setValue(value) sp.setValue(value)
sp sp
} }
def createSP(
value: String,
def createSP(value: String, classId: String, schemeId: String, dataInfo: DataInfo): StructuredProperty = { classId: String,
schemeId: String,
dataInfo: DataInfo
): StructuredProperty = {
val sp = new StructuredProperty val sp = new StructuredProperty
sp.setQualifier(OafMapperUtils.qualifier(classId,classId, schemeId, schemeId)) sp.setQualifier(OafMapperUtils.qualifier(classId, classId, schemeId, schemeId))
sp.setValue(value) sp.setValue(value)
sp.setDataInfo(dataInfo) sp.setDataInfo(dataInfo)
sp sp
@ -382,7 +452,6 @@ object DoiBoostMappingUtil {
} }
def createUnpayWallCollectedFrom(): KeyValue = { def createUnpayWallCollectedFrom(): KeyValue = {
val cf = new KeyValue val cf = new KeyValue
@ -401,15 +470,11 @@ object DoiBoostMappingUtil {
} }
def generateIdentifier(oaf: Result, doi: String): String = {
def generateIdentifier (oaf: Result, doi: String): String = { val id = DHPUtils.md5(doi.toLowerCase)
val id = DHPUtils.md5 (doi.toLowerCase)
s"50|${doiBoostNSPREFIX}${SEPARATOR}${id}" s"50|${doiBoostNSPREFIX}${SEPARATOR}${id}"
} }
def createMAGCollectedFrom(): KeyValue = { def createMAGCollectedFrom(): KeyValue = {
val cf = new KeyValue val cf = new KeyValue
@ -424,19 +489,21 @@ object DoiBoostMappingUtil {
tmp.setValue(value) tmp.setValue(value)
tmp tmp
} }
def isEmpty(x: String) = x == null || x.trim.isEmpty def isEmpty(x: String) = x == null || x.trim.isEmpty
def normalizeDoi(input : String) :String ={ def normalizeDoi(input: String): String = {
if(input == null) if (input == null)
return null return null
val replaced = input.replaceAll("(?:\\n|\\r|\\t|\\s)", "").toLowerCase.replaceFirst(DOI_PREFIX_REGEX, DOI_PREFIX) val replaced = input
if (isEmpty(replaced)) .replaceAll("(?:\\n|\\r|\\t|\\s)", "")
.toLowerCase
.replaceFirst(DOI_PREFIX_REGEX, DOI_PREFIX)
if (isEmpty(replaced))
return null return null
if(replaced.indexOf("10.") < 0) if (replaced.indexOf("10.") < 0)
return null return null
val ret = replaced.substring(replaced.indexOf("10.")) val ret = replaced.substring(replaced.indexOf("10."))
@ -446,9 +513,6 @@ object DoiBoostMappingUtil {
return ret return ret
} }
} }

View File

@ -17,22 +17,29 @@ object SparkGenerateDOIBoostActionSet {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/generate_doiboost_as_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/generate_doiboost_as_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
implicit val mapEncoderPub: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPub: Encoder[Publication] = Encoders.kryo[Publication]
implicit val mapEncoderOrg: Encoder[Organization] = Encoders.kryo[Organization] implicit val mapEncoderOrg: Encoder[Organization] = Encoders.kryo[Organization]
implicit val mapEncoderDataset: Encoder[OafDataset] = Encoders.kryo[OafDataset] implicit val mapEncoderDataset: Encoder[OafDataset] = Encoders.kryo[OafDataset]
implicit val mapEncoderRel: Encoder[Relation] = Encoders.kryo[Relation] implicit val mapEncoderRel: Encoder[Relation] = Encoders.kryo[Relation]
implicit val mapEncoderAS: Encoder[(String, String)] = Encoders.tuple(Encoders.STRING, Encoders.STRING) implicit val mapEncoderAS: Encoder[(String, String)] =
Encoders.tuple(Encoders.STRING, Encoders.STRING)
implicit val mapEncoderAtomiAction: Encoder[AtomicAction[OafDataset]] = Encoders.kryo[AtomicAction[OafDataset]] implicit val mapEncoderAtomiAction: Encoder[AtomicAction[OafDataset]] =
Encoders.kryo[AtomicAction[OafDataset]]
val dbPublicationPath = parser.get("dbPublicationPath") val dbPublicationPath = parser.get("dbPublicationPath")
val dbDatasetPath = parser.get("dbDatasetPath") val dbDatasetPath = parser.get("dbDatasetPath")
@ -41,35 +48,61 @@ object SparkGenerateDOIBoostActionSet {
val dbOrganizationPath = parser.get("dbOrganizationPath") val dbOrganizationPath = parser.get("dbOrganizationPath")
val sequenceFilePath = parser.get("sFilePath") val sequenceFilePath = parser.get("sFilePath")
val asDataset = spark.read.load(dbDatasetPath).as[OafDataset] val asDataset = spark.read
.load(dbDatasetPath)
.as[OafDataset]
.filter(p => p != null || p.getId != null) .filter(p => p != null || p.getId != null)
.map(d => DoiBoostMappingUtil.fixResult(d)) .map(d => DoiBoostMappingUtil.fixResult(d))
.map(d => DoiBoostMappingUtil.toActionSet(d))(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .map(d => DoiBoostMappingUtil.toActionSet(d))(
Encoders.tuple(Encoders.STRING, Encoders.STRING)
)
val asPublication = spark.read
val asPublication = spark.read.load(dbPublicationPath).as[Publication] .load(dbPublicationPath)
.as[Publication]
.filter(p => p != null || p.getId != null) .filter(p => p != null || p.getId != null)
.map(d => DoiBoostMappingUtil.toActionSet(d))(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .map(d => DoiBoostMappingUtil.toActionSet(d))(
Encoders.tuple(Encoders.STRING, Encoders.STRING)
)
val asOrganization = spark.read
.load(dbOrganizationPath)
.as[Organization]
.map(d => DoiBoostMappingUtil.toActionSet(d))(
Encoders.tuple(Encoders.STRING, Encoders.STRING)
)
val asOrganization = spark.read.load(dbOrganizationPath).as[Organization] val asCRelation = spark.read
.map(d => DoiBoostMappingUtil.toActionSet(d))(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .load(crossRefRelation)
.as[Relation]
val asCRelation = spark.read.load(crossRefRelation).as[Relation]
.filter(r => r != null && r.getSource != null && r.getTarget != null) .filter(r => r != null && r.getSource != null && r.getTarget != null)
.map(d => DoiBoostMappingUtil.toActionSet(d))(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .map(d => DoiBoostMappingUtil.toActionSet(d))(
Encoders.tuple(Encoders.STRING, Encoders.STRING)
)
val asRelAffiliation = spark.read
.load(dbaffiliationRelationPath)
.as[Relation]
.map(d => DoiBoostMappingUtil.toActionSet(d))(
Encoders.tuple(Encoders.STRING, Encoders.STRING)
)
val asRelAffiliation = spark.read.load(dbaffiliationRelationPath).as[Relation] val d: Dataset[(String, String)] = asDataset
.map(d => DoiBoostMappingUtil.toActionSet(d))(Encoders.tuple(Encoders.STRING, Encoders.STRING)) .union(asPublication)
.union(asOrganization)
.union(asCRelation)
val d: Dataset[(String, String)] = asDataset.union(asPublication).union(asOrganization).union(asCRelation).union(asRelAffiliation) .union(asRelAffiliation)
d.rdd.repartition(6000).map(s => (new Text(s._1), new Text(s._2))).saveAsHadoopFile(s"$sequenceFilePath", classOf[Text], classOf[Text], classOf[SequenceFileOutputFormat[Text, Text]], classOf[GzipCodec])
d.rdd
.repartition(6000)
.map(s => (new Text(s._1), new Text(s._2)))
.saveAsHadoopFile(
s"$sequenceFilePath",
classOf[Text],
classOf[Text],
classOf[SequenceFileOutputFormat[Text, Text]],
classOf[GzipCodec]
)
} }

View File

@ -15,8 +15,8 @@ import org.json4s.JsonAST.{JField, JObject, JString}
import org.json4s.jackson.JsonMethods.parse import org.json4s.jackson.JsonMethods.parse
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
object SparkGenerateDoiBoost {
object SparkGenerateDoiBoost {
def extractIdGRID(input: String): List[(String, String)] = { def extractIdGRID(input: String): List[(String, String)] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
@ -26,28 +26,32 @@ object SparkGenerateDoiBoost {
val grids: List[String] = for { val grids: List[String] = for {
JObject(pid) <- json \ "pid" JObject(pid) <- json \ "pid"
JField("qualifier", JObject(qualifier)) <- pid JField("qualifier", JObject(qualifier)) <- pid
JField("classid", JString(classid)) <- qualifier JField("classid", JString(classid)) <- qualifier
JField("value", JString(vl)) <- pid JField("value", JString(vl)) <- pid
if classid == "GRID" if classid == "GRID"
} yield vl } yield vl
grids.map(g => (id, s"unresolved::grid::${g.toLowerCase}"))(collection.breakOut) grids.map(g => (id, s"unresolved::grid::${g.toLowerCase}"))(collection.breakOut)
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/generate_doiboost_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/generate_doiboost_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
import spark.implicits._ import spark.implicits._
@ -65,8 +69,7 @@ object SparkGenerateDoiBoost {
a._2.setId(a._1) a._2.setId(a._1)
return a._2 return a._2
} }
} } else {
else {
if (a != null && a._2 != null) { if (a != null && a._2 != null) {
b.mergeFrom(a._2) b.mergeFrom(a._2)
b.setId(a._1) b.setId(a._1)
@ -82,8 +85,7 @@ object SparkGenerateDoiBoost {
if (b1 == null) { if (b1 == null) {
if (b2 != null) if (b2 != null)
return b2 return b2
} } else {
else {
if (b2 != null) { if (b2 != null) {
b1.mergeFrom(b2) b1.mergeFrom(b2)
val authors = AuthorMerger.mergeAuthor(b1.getAuthor, b2.getAuthor) val authors = AuthorMerger.mergeAuthor(b1.getAuthor, b2.getAuthor)
@ -103,17 +105,19 @@ object SparkGenerateDoiBoost {
override def outputEncoder: Encoder[Publication] = Encoders.kryo[Publication] override def outputEncoder: Encoder[Publication] = Encoders.kryo[Publication]
} }
implicit val mapEncoderPub: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPub: Encoder[Publication] = Encoders.kryo[Publication]
implicit val mapEncoderOrg: Encoder[Organization] = Encoders.kryo[Organization] implicit val mapEncoderOrg: Encoder[Organization] = Encoders.kryo[Organization]
implicit val mapEncoderDataset: Encoder[OafDataset] = Encoders.kryo[OafDataset] implicit val mapEncoderDataset: Encoder[OafDataset] = Encoders.kryo[OafDataset]
implicit val tupleForJoinEncoder: Encoder[(String, Publication)] = Encoders.tuple(Encoders.STRING, mapEncoderPub) implicit val tupleForJoinEncoder: Encoder[(String, Publication)] =
Encoders.tuple(Encoders.STRING, mapEncoderPub)
implicit val mapEncoderRel: Encoder[Relation] = Encoders.kryo[Relation] implicit val mapEncoderRel: Encoder[Relation] = Encoders.kryo[Relation]
logger.info("Phase 2) Join Crossref with UnpayWall") logger.info("Phase 2) Join Crossref with UnpayWall")
val crossrefPublication: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/crossrefPublication").as[Publication].map(p => (p.getId, p)) val crossrefPublication: Dataset[(String, Publication)] =
val uwPublication: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/uwPublication").as[Publication].map(p => (p.getId, p)) spark.read.load(s"$workingDirPath/crossrefPublication").as[Publication].map(p => (p.getId, p))
val uwPublication: Dataset[(String, Publication)] =
spark.read.load(s"$workingDirPath/uwPublication").as[Publication].map(p => (p.getId, p))
def applyMerge(item: ((String, Publication), (String, Publication))): Publication = { def applyMerge(item: ((String, Publication), (String, Publication))): Publication = {
val crossrefPub = item._1._2 val crossrefPub = item._1._2
@ -127,86 +131,140 @@ object SparkGenerateDoiBoost {
crossrefPub crossrefPub
} }
crossrefPublication.joinWith(uwPublication, crossrefPublication("_1").equalTo(uwPublication("_1")), "left").map(applyMerge).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/firstJoin") crossrefPublication
.joinWith(uwPublication, crossrefPublication("_1").equalTo(uwPublication("_1")), "left")
.map(applyMerge)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/firstJoin")
logger.info("Phase 3) Join Result with ORCID") logger.info("Phase 3) Join Result with ORCID")
val fj: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/firstJoin").as[Publication].map(p => (p.getId, p)) val fj: Dataset[(String, Publication)] =
val orcidPublication: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/orcidPublication").as[Publication].map(p => (p.getId, p)) spark.read.load(s"$workingDirPath/firstJoin").as[Publication].map(p => (p.getId, p))
fj.joinWith(orcidPublication, fj("_1").equalTo(orcidPublication("_1")), "left").map(applyMerge).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/secondJoin") val orcidPublication: Dataset[(String, Publication)] =
spark.read.load(s"$workingDirPath/orcidPublication").as[Publication].map(p => (p.getId, p))
fj.joinWith(orcidPublication, fj("_1").equalTo(orcidPublication("_1")), "left")
.map(applyMerge)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/secondJoin")
logger.info("Phase 4) Join Result with MAG") logger.info("Phase 4) Join Result with MAG")
val sj: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/secondJoin").as[Publication].map(p => (p.getId, p)) val sj: Dataset[(String, Publication)] =
spark.read.load(s"$workingDirPath/secondJoin").as[Publication].map(p => (p.getId, p))
val magPublication: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/magPublication").as[Publication].map(p => (p.getId, p)) val magPublication: Dataset[(String, Publication)] =
sj.joinWith(magPublication, sj("_1").equalTo(magPublication("_1")), "left").map(applyMerge).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/doiBoostPublication") spark.read.load(s"$workingDirPath/magPublication").as[Publication].map(p => (p.getId, p))
sj.joinWith(magPublication, sj("_1").equalTo(magPublication("_1")), "left")
.map(applyMerge)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/doiBoostPublication")
val doiBoostPublication: Dataset[(String, Publication)] = spark.read
.load(s"$workingDirPath/doiBoostPublication")
.as[Publication]
.filter(p => DoiBoostMappingUtil.filterPublication(p))
.map(DoiBoostMappingUtil.toISSNPair)(tupleForJoinEncoder)
val doiBoostPublication: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/doiBoostPublication").as[Publication].filter(p => DoiBoostMappingUtil.filterPublication(p)).map(DoiBoostMappingUtil.toISSNPair)(tupleForJoinEncoder) val hostedByDataset: Dataset[(String, HostedByItemType)] = spark.createDataset(
spark.sparkContext.textFile(hostedByMapPath).map(DoiBoostMappingUtil.toHostedByItem)
)
val hostedByDataset: Dataset[(String, HostedByItemType)] = spark.createDataset(spark.sparkContext.textFile(hostedByMapPath).map(DoiBoostMappingUtil.toHostedByItem)) doiBoostPublication
.joinWith(hostedByDataset, doiBoostPublication("_1").equalTo(hostedByDataset("_1")), "left")
doiBoostPublication.joinWith(hostedByDataset, doiBoostPublication("_1").equalTo(hostedByDataset("_1")), "left")
.map(DoiBoostMappingUtil.fixPublication) .map(DoiBoostMappingUtil.fixPublication)
.map(p => (p.getId, p)) .map(p => (p.getId, p))
.groupByKey(_._1) .groupByKey(_._1)
.agg(crossrefAggregator.toColumn) .agg(crossrefAggregator.toColumn)
.map(p => p._2) .map(p => p._2)
.write.mode(SaveMode.Overwrite).save(s"$workingDirPath/doiBoostPublicationFiltered") .write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/doiBoostPublicationFiltered")
val affiliationPath = parser.get("affiliationPath") val affiliationPath = parser.get("affiliationPath")
val paperAffiliationPath = parser.get("paperAffiliationPath") val paperAffiliationPath = parser.get("paperAffiliationPath")
val affiliation = spark.read.load(affiliationPath).select(col("AffiliationId"), col("GridId"), col("OfficialPage"), col("DisplayName")) val affiliation = spark.read
.load(affiliationPath)
val paperAffiliation = spark.read.load(paperAffiliationPath).select(col("AffiliationId").alias("affId"), col("PaperId")) .select(col("AffiliationId"), col("GridId"), col("OfficialPage"), col("DisplayName"))
val paperAffiliation = spark.read
.load(paperAffiliationPath)
.select(col("AffiliationId").alias("affId"), col("PaperId"))
val a: Dataset[DoiBoostAffiliation] = paperAffiliation val a: Dataset[DoiBoostAffiliation] = paperAffiliation
.joinWith(affiliation, paperAffiliation("affId").equalTo(affiliation("AffiliationId"))) .joinWith(affiliation, paperAffiliation("affId").equalTo(affiliation("AffiliationId")))
.select(col("_1.PaperId"), col("_2.AffiliationId"), col("_2.GridId"), col("_2.OfficialPage"), col("_2.DisplayName")).as[DoiBoostAffiliation] .select(
col("_1.PaperId"),
col("_2.AffiliationId"),
col("_2.GridId"),
col("_2.OfficialPage"),
col("_2.DisplayName")
)
.as[DoiBoostAffiliation]
val magPubs: Dataset[(String, Publication)] = spark.read
.load(s"$workingDirPath/doiBoostPublicationFiltered")
.as[Publication]
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p))(
tupleForJoinEncoder
)
.filter(s => s._1 != null)
val magPubs: Dataset[(String, Publication)] = spark.read.load(s"$workingDirPath/doiBoostPublicationFiltered").as[Publication] magPubs
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p))(tupleForJoinEncoder).filter(s => s._1 != null) .joinWith(a, magPubs("_1").equalTo(a("PaperId")))
.flatMap(item => {
val pub: Publication = item._1._2
val affiliation = item._2
val affId: String =
if (affiliation.GridId.isDefined)
s"unresolved::grid::${affiliation.GridId.get.toLowerCase}"
else DoiBoostMappingUtil.generateMAGAffiliationId(affiliation.AffiliationId.toString)
val r: Relation = new Relation
r.setSource(pub.getId)
r.setTarget(affId)
r.setRelType(ModelConstants.RESULT_ORGANIZATION)
r.setRelClass(ModelConstants.HAS_AUTHOR_INSTITUTION)
r.setSubRelType(ModelConstants.AFFILIATION)
r.setDataInfo(pub.getDataInfo)
r.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
val r1: Relation = new Relation
r1.setTarget(pub.getId)
r1.setSource(affId)
r1.setRelType(ModelConstants.RESULT_ORGANIZATION)
r1.setRelClass(ModelConstants.IS_AUTHOR_INSTITUTION_OF)
r1.setSubRelType(ModelConstants.AFFILIATION)
r1.setDataInfo(pub.getDataInfo)
r1.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
List(r, r1)
})(mapEncoderRel)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/doiBoostPublicationAffiliation_unresolved")
val unresolvedRels: Dataset[(String, Relation)] = spark.read
.load(s"$workingDirPath/doiBoostPublicationAffiliation_unresolved")
.as[Relation]
.map(r => {
magPubs.joinWith(a, magPubs("_1").equalTo(a("PaperId"))).flatMap(item => { if (r.getSource.startsWith("unresolved"))
val pub: Publication = item._1._2 (r.getSource, r)
val affiliation = item._2 else if (r.getTarget.startsWith("unresolved"))
val affId: String = if (affiliation.GridId.isDefined) s"unresolved::grid::${affiliation.GridId.get.toLowerCase}" else DoiBoostMappingUtil.generateMAGAffiliationId(affiliation.AffiliationId.toString) (r.getTarget, r)
val r: Relation = new Relation else
r.setSource(pub.getId) ("resolved", r)
r.setTarget(affId) })(Encoders.tuple(Encoders.STRING, mapEncoderRel))
r.setRelType(ModelConstants.RESULT_ORGANIZATION)
r.setRelClass(ModelConstants.HAS_AUTHOR_INSTITUTION)
r.setSubRelType(ModelConstants.AFFILIATION)
r.setDataInfo(pub.getDataInfo)
r.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
val r1: Relation = new Relation
r1.setTarget(pub.getId)
r1.setSource(affId)
r1.setRelType(ModelConstants.RESULT_ORGANIZATION)
r1.setRelClass(ModelConstants.IS_AUTHOR_INSTITUTION_OF)
r1.setSubRelType(ModelConstants.AFFILIATION)
r1.setDataInfo(pub.getDataInfo)
r1.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
List(r, r1)
})(mapEncoderRel).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/doiBoostPublicationAffiliation_unresolved")
val openaireOrganization: Dataset[(String, String)] = spark.read
.text(openaireOrganizationPath)
.as[String]
.flatMap(s => extractIdGRID(s))
.groupByKey(_._2)
.reduceGroups((x, y) => if (x != null) x else y)
.map(_._2)
val unresolvedRels: Dataset[(String, Relation)] = spark.read.load(s"$workingDirPath/doiBoostPublicationAffiliation_unresolved").as[Relation].map(r => { unresolvedRels
.joinWith(openaireOrganization, unresolvedRels("_1").equalTo(openaireOrganization("_2")))
if (r.getSource.startsWith("unresolved"))
(r.getSource, r)
else if (r.getTarget.startsWith("unresolved"))
(r.getTarget, r)
else
("resolved", r)
})(Encoders.tuple(Encoders.STRING, mapEncoderRel))
val openaireOrganization: Dataset[(String, String)] = spark.read.text(openaireOrganizationPath).as[String].flatMap(s => extractIdGRID(s)).groupByKey(_._2).reduceGroups((x, y) => if (x != null) x else y).map(_._2)
unresolvedRels.joinWith(openaireOrganization, unresolvedRels("_1").equalTo(openaireOrganization("_2")))
.map { x => .map { x =>
val currentRels = x._1._2 val currentRels = x._1._2
val currentOrgs = x._2 val currentOrgs = x._2
@ -216,26 +274,35 @@ object SparkGenerateDoiBoost {
else else
currentRels.setTarget(currentOrgs._1) currentRels.setTarget(currentOrgs._1)
currentRels currentRels
}.filter(r => !r.getSource.startsWith("unresolved") && !r.getTarget.startsWith("unresolved")).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/doiBoostPublicationAffiliation")
magPubs.joinWith(a, magPubs("_1").equalTo(a("PaperId"))).map(item => {
val affiliation = item._2
if (affiliation.GridId.isEmpty) {
val o = new Organization
o.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
o.setDataInfo(DoiBoostMappingUtil.generateDataInfo())
o.setId(DoiBoostMappingUtil.generateMAGAffiliationId(affiliation.AffiliationId.toString))
o.setOriginalId(List(affiliation.AffiliationId.toString).asJava)
if (affiliation.DisplayName.nonEmpty)
o.setLegalname(DoiBoostMappingUtil.asField(affiliation.DisplayName.get))
if (affiliation.OfficialPage.isDefined)
o.setWebsiteurl(DoiBoostMappingUtil.asField(affiliation.OfficialPage.get))
o.setCountry(ModelConstants.UNKNOWN_COUNTRY)
o
} }
else .filter(r => !r.getSource.startsWith("unresolved") && !r.getTarget.startsWith("unresolved"))
null .write
}).filter(o => o != null).write.mode(SaveMode.Overwrite).save(s"$workingDirPath/doiBoostOrganization") .mode(SaveMode.Overwrite)
.save(s"$workingDirPath/doiBoostPublicationAffiliation")
magPubs
.joinWith(a, magPubs("_1").equalTo(a("PaperId")))
.map(item => {
val affiliation = item._2
if (affiliation.GridId.isEmpty) {
val o = new Organization
o.setCollectedfrom(List(DoiBoostMappingUtil.createMAGCollectedFrom()).asJava)
o.setDataInfo(DoiBoostMappingUtil.generateDataInfo())
o.setId(DoiBoostMappingUtil.generateMAGAffiliationId(affiliation.AffiliationId.toString))
o.setOriginalId(List(affiliation.AffiliationId.toString).asJava)
if (affiliation.DisplayName.nonEmpty)
o.setLegalname(DoiBoostMappingUtil.asField(affiliation.DisplayName.get))
if (affiliation.OfficialPage.isDefined)
o.setWebsiteurl(DoiBoostMappingUtil.asField(affiliation.OfficialPage.get))
o.setCountry(ModelConstants.UNKNOWN_COUNTRY)
o
} else
null
})
.filter(o => o != null)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingDirPath/doiBoostOrganization")
} }
} }

View File

@ -18,70 +18,74 @@ import scala.collection.JavaConverters._
import scala.collection.mutable import scala.collection.mutable
import scala.util.matching.Regex import scala.util.matching.Regex
case class CrossrefDT(doi: String, json:String, timestamp: Long) {} case class CrossrefDT(doi: String, json: String, timestamp: Long) {}
case class mappingAffiliation(name: String) {} case class mappingAffiliation(name: String) {}
case class mappingAuthor(given: Option[String], family: String, sequence:Option[String], ORCID: Option[String], affiliation: Option[mappingAffiliation]) {} case class mappingAuthor(
given: Option[String],
family: String,
sequence: Option[String],
ORCID: Option[String],
affiliation: Option[mappingAffiliation]
) {}
case class mappingFunder(name: String, DOI: Option[String], award: Option[List[String]]) {} case class mappingFunder(name: String, DOI: Option[String], award: Option[List[String]]) {}
case object Crossref2Oaf { case object Crossref2Oaf {
val logger: Logger = LoggerFactory.getLogger(Crossref2Oaf.getClass) val logger: Logger = LoggerFactory.getLogger(Crossref2Oaf.getClass)
val mappingCrossrefType = Map( val mappingCrossrefType = Map(
"book-section" -> "publication", "book-section" -> "publication",
"book" -> "publication", "book" -> "publication",
"book-chapter" -> "publication", "book-chapter" -> "publication",
"book-part" -> "publication", "book-part" -> "publication",
"book-series" -> "publication", "book-series" -> "publication",
"book-set" -> "publication", "book-set" -> "publication",
"book-track" -> "publication", "book-track" -> "publication",
"edited-book" -> "publication", "edited-book" -> "publication",
"reference-book" -> "publication", "reference-book" -> "publication",
"monograph" -> "publication", "monograph" -> "publication",
"journal-article" -> "publication", "journal-article" -> "publication",
"dissertation" -> "publication", "dissertation" -> "publication",
"other" -> "publication", "other" -> "publication",
"peer-review" -> "publication", "peer-review" -> "publication",
"proceedings" -> "publication", "proceedings" -> "publication",
"proceedings-article" -> "publication", "proceedings-article" -> "publication",
"reference-entry" -> "publication", "reference-entry" -> "publication",
"report" -> "publication", "report" -> "publication",
"report-series" -> "publication", "report-series" -> "publication",
"standard" -> "publication", "standard" -> "publication",
"standard-series" -> "publication", "standard-series" -> "publication",
"posted-content" -> "publication", "posted-content" -> "publication",
"dataset" -> "dataset" "dataset" -> "dataset"
) )
val mappingCrossrefSubType = Map( val mappingCrossrefSubType = Map(
"book-section" -> "0013 Part of book or chapter of book", "book-section" -> "0013 Part of book or chapter of book",
"book" -> "0002 Book", "book" -> "0002 Book",
"book-chapter" -> "0013 Part of book or chapter of book", "book-chapter" -> "0013 Part of book or chapter of book",
"book-part" -> "0013 Part of book or chapter of book", "book-part" -> "0013 Part of book or chapter of book",
"book-series" -> "0002 Book", "book-series" -> "0002 Book",
"book-set" -> "0002 Book", "book-set" -> "0002 Book",
"book-track" -> "0002 Book", "book-track" -> "0002 Book",
"edited-book" -> "0002 Book", "edited-book" -> "0002 Book",
"reference-book" -> "0002 Book", "reference-book" -> "0002 Book",
"monograph" -> "0002 Book", "monograph" -> "0002 Book",
"journal-article" -> "0001 Article", "journal-article" -> "0001 Article",
"dissertation" -> "0044 Thesis", "dissertation" -> "0044 Thesis",
"other" -> "0038 Other literature type", "other" -> "0038 Other literature type",
"peer-review" -> "0015 Review", "peer-review" -> "0015 Review",
"proceedings" -> "0004 Conference object", "proceedings" -> "0004 Conference object",
"proceedings-article" -> "0004 Conference object", "proceedings-article" -> "0004 Conference object",
"reference-entry" -> "0013 Part of book or chapter of book", "reference-entry" -> "0013 Part of book or chapter of book",
"report" -> "0017 Report", "report" -> "0017 Report",
"report-series" -> "0017 Report", "report-series" -> "0017 Report",
"standard" -> "0038 Other literature type", "standard" -> "0038 Other literature type",
"standard-series" -> "0038 Other literature type", "standard-series" -> "0038 Other literature type",
"dataset" -> "0021 Dataset", "dataset" -> "0021 Dataset",
"preprint" -> "0016 Preprint", "preprint" -> "0016 Preprint",
"report" -> "0017 Report" "report" -> "0017 Report"
) )
def mappingResult(result: Result, json: JValue, cobjCategory: String): Result = { def mappingResult(result: Result, json: JValue, cobjCategory: String): Result = {
@ -100,7 +104,6 @@ case object Crossref2Oaf {
val originalIds = new util.ArrayList(tmp.filter(id => id != null).asJava) val originalIds = new util.ArrayList(tmp.filter(id => id != null).asJava)
result.setOriginalId(originalIds) result.setOriginalId(originalIds)
// Add DataInfo // Add DataInfo
result.setDataInfo(generateDataInfo()) result.setDataInfo(generateDataInfo())
@ -111,98 +114,169 @@ case object Crossref2Oaf {
// Publisher ( Name of work's publisher mapped into Result/Publisher) // Publisher ( Name of work's publisher mapped into Result/Publisher)
val publisher = (json \ "publisher").extractOrElse[String](null) val publisher = (json \ "publisher").extractOrElse[String](null)
if (publisher!= null && publisher.nonEmpty) if (publisher != null && publisher.nonEmpty)
result.setPublisher(asField(publisher)) result.setPublisher(asField(publisher))
// TITLE // TITLE
val mainTitles = for {JString(title) <- json \ "title" if title.nonEmpty} yield createSP(title, "main title", ModelConstants.DNET_DATACITE_TITLE) val mainTitles =
val originalTitles = for {JString(title) <- json \ "original-title" if title.nonEmpty} yield createSP(title, "alternative title", ModelConstants.DNET_DATACITE_TITLE) for { JString(title) <- json \ "title" if title.nonEmpty } yield createSP(
val shortTitles = for {JString(title) <- json \ "short-title" if title.nonEmpty} yield createSP(title, "alternative title", ModelConstants.DNET_DATACITE_TITLE) title,
val subtitles = for {JString(title) <- json \ "subtitle" if title.nonEmpty} yield createSP(title, "subtitle", ModelConstants.DNET_DATACITE_TITLE) "main title",
ModelConstants.DNET_DATACITE_TITLE
)
val originalTitles = for {
JString(title) <- json \ "original-title" if title.nonEmpty
} yield createSP(title, "alternative title", ModelConstants.DNET_DATACITE_TITLE)
val shortTitles = for {
JString(title) <- json \ "short-title" if title.nonEmpty
} yield createSP(title, "alternative title", ModelConstants.DNET_DATACITE_TITLE)
val subtitles =
for { JString(title) <- json \ "subtitle" if title.nonEmpty } yield createSP(
title,
"subtitle",
ModelConstants.DNET_DATACITE_TITLE
)
result.setTitle((mainTitles ::: originalTitles ::: shortTitles ::: subtitles).asJava) result.setTitle((mainTitles ::: originalTitles ::: shortTitles ::: subtitles).asJava)
// DESCRIPTION // DESCRIPTION
val descriptionList = for {JString(description) <- json \ "abstract"} yield asField(description) val descriptionList =
for { JString(description) <- json \ "abstract" } yield asField(description)
result.setDescription(descriptionList.asJava) result.setDescription(descriptionList.asJava)
// Source // Source
val sourceList = for {JString(source) <- json \ "source" if source!= null && source.nonEmpty} yield asField(source) val sourceList = for {
JString(source) <- json \ "source" if source != null && source.nonEmpty
} yield asField(source)
result.setSource(sourceList.asJava) result.setSource(sourceList.asJava)
//RELEVANT DATE Mapping //RELEVANT DATE Mapping
val createdDate = generateDate((json \ "created" \ "date-time").extract[String], (json \ "created" \ "date-parts").extract[List[List[Int]]], "created", ModelConstants.DNET_DATACITE_DATE) val createdDate = generateDate(
val postedDate = generateDate((json \ "posted" \ "date-time").extractOrElse[String](null), (json \ "posted" \ "date-parts").extract[List[List[Int]]], "available", ModelConstants.DNET_DATACITE_DATE) (json \ "created" \ "date-time").extract[String],
val acceptedDate = generateDate((json \ "accepted" \ "date-time").extractOrElse[String](null), (json \ "accepted" \ "date-parts").extract[List[List[Int]]], "accepted", ModelConstants.DNET_DATACITE_DATE) (json \ "created" \ "date-parts").extract[List[List[Int]]],
val publishedPrintDate = generateDate((json \ "published-print" \ "date-time").extractOrElse[String](null), (json \ "published-print" \ "date-parts").extract[List[List[Int]]], "published-print", ModelConstants.DNET_DATACITE_DATE) "created",
val publishedOnlineDate = generateDate((json \ "published-online" \ "date-time").extractOrElse[String](null), (json \ "published-online" \ "date-parts").extract[List[List[Int]]], "published-online", ModelConstants.DNET_DATACITE_DATE) ModelConstants.DNET_DATACITE_DATE
)
val postedDate = generateDate(
(json \ "posted" \ "date-time").extractOrElse[String](null),
(json \ "posted" \ "date-parts").extract[List[List[Int]]],
"available",
ModelConstants.DNET_DATACITE_DATE
)
val acceptedDate = generateDate(
(json \ "accepted" \ "date-time").extractOrElse[String](null),
(json \ "accepted" \ "date-parts").extract[List[List[Int]]],
"accepted",
ModelConstants.DNET_DATACITE_DATE
)
val publishedPrintDate = generateDate(
(json \ "published-print" \ "date-time").extractOrElse[String](null),
(json \ "published-print" \ "date-parts").extract[List[List[Int]]],
"published-print",
ModelConstants.DNET_DATACITE_DATE
)
val publishedOnlineDate = generateDate(
(json \ "published-online" \ "date-time").extractOrElse[String](null),
(json \ "published-online" \ "date-parts").extract[List[List[Int]]],
"published-online",
ModelConstants.DNET_DATACITE_DATE
)
val issuedDate = extractDate((json \ "issued" \ "date-time").extractOrElse[String](null), (json \ "issued" \ "date-parts").extract[List[List[Int]]]) val issuedDate = extractDate(
(json \ "issued" \ "date-time").extractOrElse[String](null),
(json \ "issued" \ "date-parts").extract[List[List[Int]]]
)
if (StringUtils.isNotBlank(issuedDate)) { if (StringUtils.isNotBlank(issuedDate)) {
result.setDateofacceptance(asField(issuedDate)) result.setDateofacceptance(asField(issuedDate))
} } else {
else {
result.setDateofacceptance(asField(createdDate.getValue)) result.setDateofacceptance(asField(createdDate.getValue))
} }
result.setRelevantdate(List(createdDate, postedDate, acceptedDate, publishedOnlineDate, publishedPrintDate).filter(p => p != null).asJava) result.setRelevantdate(
List(createdDate, postedDate, acceptedDate, publishedOnlineDate, publishedPrintDate)
.filter(p => p != null)
.asJava
)
//Mapping Subject //Mapping Subject
val subjectList:List[String] = (json \ "subject").extractOrElse[List[String]](List()) val subjectList: List[String] = (json \ "subject").extractOrElse[List[String]](List())
if (subjectList.nonEmpty) { if (subjectList.nonEmpty) {
result.setSubject(subjectList.map(s=> createSP(s, "keywords", ModelConstants.DNET_SUBJECT_TYPOLOGIES)).asJava) result.setSubject(
subjectList.map(s => createSP(s, "keywords", ModelConstants.DNET_SUBJECT_TYPOLOGIES)).asJava
)
} }
//Mapping Author //Mapping Author
val authorList: List[mappingAuthor] = (json \ "author").extractOrElse[List[mappingAuthor]](List()) val authorList: List[mappingAuthor] =
(json \ "author").extractOrElse[List[mappingAuthor]](List())
val sorted_list = authorList.sortWith((a: mappingAuthor, b: mappingAuthor) =>
a.sequence.isDefined && a.sequence.get.equalsIgnoreCase("first")
)
result.setAuthor(sorted_list.zipWithIndex.map { case (a, index) =>
val sorted_list = authorList.sortWith((a:mappingAuthor, b:mappingAuthor) => a.sequence.isDefined && a.sequence.get.equalsIgnoreCase("first")) generateAuhtor(a.given.orNull, a.family, a.ORCID.orNull, index)
}.asJava)
result.setAuthor(sorted_list.zipWithIndex.map{case (a, index) => generateAuhtor(a.given.orNull, a.family, a.ORCID.orNull, index)}.asJava)
// Mapping instance // Mapping instance
val instance = new Instance() val instance = new Instance()
val license = for { val license = for {
JObject(license) <- json \ "license" JObject(license) <- json \ "license"
JField("URL", JString(lic)) <- license JField("URL", JString(lic)) <- license
JField("content-version", JString(content_version)) <- license JField("content-version", JString(content_version)) <- license
} yield (asField(lic), content_version) } yield (asField(lic), content_version)
val l = license.filter(d => StringUtils.isNotBlank(d._1.getValue)) val l = license.filter(d => StringUtils.isNotBlank(d._1.getValue))
if (l.nonEmpty){ if (l.nonEmpty) {
if (l exists (d => d._2.equals("vor"))){ if (l exists (d => d._2.equals("vor"))) {
for(d <- l){ for (d <- l) {
if (d._2.equals("vor")){ if (d._2.equals("vor")) {
instance.setLicense(d._1) instance.setLicense(d._1)
} }
} }
} else {
instance.setLicense(l.head._1)
} }
else{
instance.setLicense(l.head._1)}
} }
// Ticket #6281 added pid to Instance // Ticket #6281 added pid to Instance
instance.setPid(result.getPid) instance.setPid(result.getPid)
val has_review = json \ "relation" \"has-review" \ "id" val has_review = json \ "relation" \ "has-review" \ "id"
if(has_review != JNothing) { if (has_review != JNothing) {
instance.setRefereed( instance.setRefereed(
OafMapperUtils.qualifier("0001", "peerReviewed", ModelConstants.DNET_REVIEW_LEVELS, ModelConstants.DNET_REVIEW_LEVELS)) OafMapperUtils.qualifier(
"0001",
"peerReviewed",
ModelConstants.DNET_REVIEW_LEVELS,
ModelConstants.DNET_REVIEW_LEVELS
)
)
} }
instance.setAccessright(decideAccessRight(instance.getLicense, result.getDateofacceptance.getValue)) instance.setAccessright(
instance.setInstancetype(OafMapperUtils.qualifier(cobjCategory.substring(0, 4), cobjCategory.substring(5), ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) decideAccessRight(instance.getLicense, result.getDateofacceptance.getValue)
result.setResourcetype(OafMapperUtils.qualifier(cobjCategory.substring(0, 4), cobjCategory.substring(5), ModelConstants.DNET_PUBLICATION_RESOURCE, ModelConstants.DNET_PUBLICATION_RESOURCE)) )
instance.setInstancetype(
OafMapperUtils.qualifier(
cobjCategory.substring(0, 4),
cobjCategory.substring(5),
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
result.setResourcetype(
OafMapperUtils.qualifier(
cobjCategory.substring(0, 4),
cobjCategory.substring(5),
ModelConstants.DNET_PUBLICATION_RESOURCE,
ModelConstants.DNET_PUBLICATION_RESOURCE
)
)
instance.setCollectedfrom(createCrossrefCollectedFrom()) instance.setCollectedfrom(createCrossrefCollectedFrom())
if (StringUtils.isNotBlank(issuedDate)) { if (StringUtils.isNotBlank(issuedDate)) {
instance.setDateofacceptance(asField(issuedDate)) instance.setDateofacceptance(asField(issuedDate))
} } else {
else {
instance.setDateofacceptance(asField(createdDate.getValue)) instance.setDateofacceptance(asField(createdDate.getValue))
} }
val s: List[String] = List("https://doi.org/" + doi) val s: List[String] = List("https://doi.org/" + doi)
@ -210,10 +284,9 @@ case object Crossref2Oaf {
// if (links.nonEmpty) { // if (links.nonEmpty) {
// instance.setUrl(links.asJava) // instance.setUrl(links.asJava)
// } // }
if(s.nonEmpty) if (s.nonEmpty) {
{ instance.setUrl(s.asJava)
instance.setUrl(s.asJava) }
}
result.setInstance(List(instance).asJava) result.setInstance(List(instance).asJava)
@ -236,15 +309,23 @@ case object Crossref2Oaf {
result result
} }
def generateAuhtor(given: String, family: String, orcid: String, index: Int): Author = {
def generateAuhtor(given: String, family: String, orcid: String, index:Int): Author = {
val a = new Author val a = new Author
a.setName(given) a.setName(given)
a.setSurname(family) a.setSurname(family)
a.setFullname(s"$given $family") a.setFullname(s"$given $family")
a.setRank(index+1) a.setRank(index + 1)
if (StringUtils.isNotBlank(orcid)) if (StringUtils.isNotBlank(orcid))
a.setPid(List(createSP(orcid, ModelConstants.ORCID_PENDING, ModelConstants.DNET_PID_TYPES, generateDataInfo())).asJava) a.setPid(
List(
createSP(
orcid,
ModelConstants.ORCID_PENDING,
ModelConstants.DNET_PID_TYPES,
generateDataInfo()
)
).asJava
)
a a
} }
@ -255,54 +336,62 @@ case object Crossref2Oaf {
var resultList: List[Oaf] = List() var resultList: List[Oaf] = List()
val objectType = (json \ "type").extractOrElse[String](null) val objectType = (json \ "type").extractOrElse[String](null)
val objectSubType = (json \ "subtype").extractOrElse[String](null) val objectSubType = (json \ "subtype").extractOrElse[String](null)
if (objectType == null) if (objectType == null)
return resultList return resultList
val result = generateItemFromType(objectType, objectSubType) val result = generateItemFromType(objectType, objectSubType)
if (result == null) if (result == null)
return List() return List()
val cOBJCategory = mappingCrossrefSubType.getOrElse(objectType, mappingCrossrefSubType.getOrElse(objectSubType, "0038 Other literature type")) val cOBJCategory = mappingCrossrefSubType.getOrElse(
objectType,
mappingCrossrefSubType.getOrElse(objectSubType, "0038 Other literature type")
)
mappingResult(result, json, cOBJCategory) mappingResult(result, json, cOBJCategory)
if (result == null || result.getId == null) if (result == null || result.getId == null)
return List() return List()
val funderList: List[mappingFunder] =
val funderList: List[mappingFunder] = (json \ "funder").extractOrElse[List[mappingFunder]](List()) (json \ "funder").extractOrElse[List[mappingFunder]](List())
if (funderList.nonEmpty) { if (funderList.nonEmpty) {
resultList = resultList ::: mappingFunderToRelations(funderList, result.getId, createCrossrefCollectedFrom(), result.getDataInfo, result.getLastupdatetimestamp) resultList = resultList ::: mappingFunderToRelations(
funderList,
result.getId,
createCrossrefCollectedFrom(),
result.getDataInfo,
result.getLastupdatetimestamp
)
} }
result match { result match {
case publication: Publication => convertPublication(publication, json, cOBJCategory) case publication: Publication => convertPublication(publication, json, cOBJCategory)
case dataset: Dataset => convertDataset(dataset) case dataset: Dataset => convertDataset(dataset)
} }
resultList = resultList ::: List(result) resultList = resultList ::: List(result)
resultList resultList
} }
def mappingFunderToRelations(
def mappingFunderToRelations(funders: List[mappingFunder], sourceId: String, cf: KeyValue, di: DataInfo, ts: Long): List[Relation] = { funders: List[mappingFunder],
sourceId: String,
cf: KeyValue,
di: DataInfo,
ts: Long
): List[Relation] = {
val queue = new mutable.Queue[Relation] val queue = new mutable.Queue[Relation]
def snsfRule(award: String): String = {
def snsfRule(award:String): String = { val tmp1 = StringUtils.substringAfter(award, "_")
val tmp1 = StringUtils.substringAfter(award,"_") val tmp2 = StringUtils.substringBefore(tmp1, "/")
val tmp2 = StringUtils.substringBefore(tmp1,"/")
logger.debug(s"From $award to $tmp2") logger.debug(s"From $award to $tmp2")
tmp2 tmp2
} }
def extractECAward(award: String): String = { def extractECAward(award: String): String = {
val awardECRegex: Regex = "[0-9]{4,9}".r val awardECRegex: Regex = "[0-9]{4,9}".r
if (awardECRegex.findAllIn(award).hasNext) if (awardECRegex.findAllIn(award).hasNext)
@ -310,8 +399,7 @@ case object Crossref2Oaf {
null null
} }
def generateRelation(sourceId: String, targetId: String, relClass: String): Relation = {
def generateRelation(sourceId:String, targetId:String, relClass:String) :Relation = {
val r = new Relation val r = new Relation
r.setSource(sourceId) r.setSource(sourceId)
@ -324,98 +412,119 @@ case object Crossref2Oaf {
r.setLastupdatetimestamp(ts) r.setLastupdatetimestamp(ts)
r r
} }
def generateSimpleRelationFromAward(
def generateSimpleRelationFromAward(funder: mappingFunder, nsPrefix: String, extractField: String => String): Unit = { funder: mappingFunder,
nsPrefix: String,
extractField: String => String
): Unit = {
if (funder.award.isDefined && funder.award.get.nonEmpty) if (funder.award.isDefined && funder.award.get.nonEmpty)
funder.award.get.map(extractField).filter(a => a!= null && a.nonEmpty).foreach( funder.award.get
award => { .map(extractField)
.filter(a => a != null && a.nonEmpty)
.foreach(award => {
val targetId = getProjectId(nsPrefix, DHPUtils.md5(award)) val targetId = getProjectId(nsPrefix, DHPUtils.md5(award))
queue += generateRelation(sourceId, targetId , ModelConstants.IS_PRODUCED_BY) queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
queue += generateRelation(targetId , sourceId, ModelConstants.PRODUCES) queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
} })
)
} }
def getProjectId (nsPrefix:String, targetId:String):String = { def getProjectId(nsPrefix: String, targetId: String): String = {
s"40|$nsPrefix::$targetId" s"40|$nsPrefix::$targetId"
} }
if (funders != null) if (funders != null)
funders.foreach(funder => { funders.foreach(funder => {
if (funder.DOI.isDefined && funder.DOI.get.nonEmpty) { if (funder.DOI.isDefined && funder.DOI.get.nonEmpty) {
funder.DOI.get match { funder.DOI.get match {
case "10.13039/100010663" | case "10.13039/100010663" | "10.13039/100010661" | "10.13039/501100007601" | "10.13039/501100000780" |
"10.13039/100010661" | "10.13039/100010665" =>
"10.13039/501100007601" | generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
"10.13039/501100000780" | case "10.13039/100011199" | "10.13039/100004431" | "10.13039/501100004963" | "10.13039/501100000780" =>
"10.13039/100010665" => generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward) generateSimpleRelationFromAward(funder, "corda_______", extractECAward)
case "10.13039/100011199" | case "10.13039/501100000781" =>
"10.13039/100004431" | generateSimpleRelationFromAward(funder, "corda_______", extractECAward)
"10.13039/501100004963" | generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
"10.13039/501100000780" => generateSimpleRelationFromAward(funder, "corda_______", extractECAward) case "10.13039/100000001" =>
case "10.13039/501100000781" => generateSimpleRelationFromAward(funder, "corda_______", extractECAward) generateSimpleRelationFromAward(funder, "nsf_________", a => a)
generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward) case "10.13039/501100001665" =>
case "10.13039/100000001" => generateSimpleRelationFromAward(funder, "nsf_________", a => a) generateSimpleRelationFromAward(funder, "anr_________", a => a)
case "10.13039/501100001665" => generateSimpleRelationFromAward(funder, "anr_________", a => a) case "10.13039/501100002341" =>
case "10.13039/501100002341" => generateSimpleRelationFromAward(funder, "aka_________", a => a) generateSimpleRelationFromAward(funder, "aka_________", a => a)
case "10.13039/501100001602" => generateSimpleRelationFromAward(funder, "aka_________", a => a.replace("SFI", "")) case "10.13039/501100001602" =>
case "10.13039/501100000923" => generateSimpleRelationFromAward(funder, "arc_________", a => a) generateSimpleRelationFromAward(funder, "aka_________", a => a.replace("SFI", ""))
case "10.13039/501100000038"=> val targetId = getProjectId("nserc_______" , "1e5e62235d094afd01cd56e65112fc63") case "10.13039/501100000923" =>
queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY) generateSimpleRelationFromAward(funder, "arc_________", a => a)
queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES) case "10.13039/501100000038" =>
case "10.13039/501100000155"=> val targetId = getProjectId("sshrc_______" , "1e5e62235d094afd01cd56e65112fc63") val targetId = getProjectId("nserc_______", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(sourceId,targetId, ModelConstants.IS_PRODUCED_BY) queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
queue += generateRelation(targetId,sourceId, ModelConstants.PRODUCES) queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
case "10.13039/501100000024"=> val targetId = getProjectId("cihr________" , "1e5e62235d094afd01cd56e65112fc63") case "10.13039/501100000155" =>
queue += generateRelation(sourceId,targetId, ModelConstants.IS_PRODUCED_BY) val targetId = getProjectId("sshrc_______", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(targetId,sourceId, ModelConstants.PRODUCES) queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
case "10.13039/501100002848" => generateSimpleRelationFromAward(funder, "conicytf____", a => a) queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
case "10.13039/501100003448" => generateSimpleRelationFromAward(funder, "gsrt________", extractECAward) case "10.13039/501100000024" =>
case "10.13039/501100010198" => generateSimpleRelationFromAward(funder, "sgov________", a=>a) val targetId = getProjectId("cihr________", "1e5e62235d094afd01cd56e65112fc63")
case "10.13039/501100004564" => generateSimpleRelationFromAward(funder, "mestd_______", extractECAward) queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
case "10.13039/501100003407" => generateSimpleRelationFromAward(funder, "miur________", a=>a) queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
val targetId = getProjectId("miur________" , "1e5e62235d094afd01cd56e65112fc63") case "10.13039/501100002848" =>
queue += generateRelation(sourceId,targetId, ModelConstants.IS_PRODUCED_BY) generateSimpleRelationFromAward(funder, "conicytf____", a => a)
queue += generateRelation(targetId,sourceId, ModelConstants.PRODUCES) case "10.13039/501100003448" =>
case "10.13039/501100006588" | generateSimpleRelationFromAward(funder, "gsrt________", extractECAward)
"10.13039/501100004488" => generateSimpleRelationFromAward(funder, "irb_hr______", a=>a.replaceAll("Project No.", "").replaceAll("HRZZ-","") ) case "10.13039/501100010198" =>
case "10.13039/501100006769"=> generateSimpleRelationFromAward(funder, "rsf_________", a=>a) generateSimpleRelationFromAward(funder, "sgov________", a => a)
case "10.13039/501100001711"=> generateSimpleRelationFromAward(funder, "snsf________", snsfRule) case "10.13039/501100004564" =>
case "10.13039/501100004410"=> generateSimpleRelationFromAward(funder, "tubitakf____", a =>a) generateSimpleRelationFromAward(funder, "mestd_______", extractECAward)
case "10.10.13039/100004440"=> generateSimpleRelationFromAward(funder, "wt__________", a =>a) case "10.13039/501100003407" =>
case "10.13039/100004440"=> val targetId = getProjectId("wt__________" , "1e5e62235d094afd01cd56e65112fc63") generateSimpleRelationFromAward(funder, "miur________", a => a)
queue += generateRelation(sourceId,targetId, ModelConstants.IS_PRODUCED_BY) val targetId = getProjectId("miur________", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(targetId,sourceId, ModelConstants.PRODUCES) queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
case "10.13039/501100006588" | "10.13039/501100004488" =>
generateSimpleRelationFromAward(
funder,
"irb_hr______",
a => a.replaceAll("Project No.", "").replaceAll("HRZZ-", "")
)
case "10.13039/501100006769" =>
generateSimpleRelationFromAward(funder, "rsf_________", a => a)
case "10.13039/501100001711" =>
generateSimpleRelationFromAward(funder, "snsf________", snsfRule)
case "10.13039/501100004410" =>
generateSimpleRelationFromAward(funder, "tubitakf____", a => a)
case "10.10.13039/100004440" =>
generateSimpleRelationFromAward(funder, "wt__________", a => a)
case "10.13039/100004440" =>
val targetId = getProjectId("wt__________", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
case _ => logger.debug("no match for "+funder.DOI.get ) case _ => logger.debug("no match for " + funder.DOI.get)
}
} else {
funder.name match {
case "European Unions Horizon 2020 research and innovation program" =>
generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
case "European Union's" =>
generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
generateSimpleRelationFromAward(funder, "corda_______", extractECAward)
case "The French National Research Agency (ANR)" | "The French National Research Agency" =>
generateSimpleRelationFromAward(funder, "anr_________", a => a)
case "CONICYT, Programa de Formación de Capital Humano Avanzado" =>
generateSimpleRelationFromAward(funder, "conicytf____", extractECAward)
case "Wellcome Trust Masters Fellowship" =>
val targetId = getProjectId("wt__________", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY)
queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES)
case _ => logger.debug("no match for " + funder.name)
}
} }
})
} else {
funder.name match {
case "European Unions Horizon 2020 research and innovation program" => generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
case "European Union's" =>
generateSimpleRelationFromAward(funder, "corda__h2020", extractECAward)
generateSimpleRelationFromAward(funder, "corda_______", extractECAward)
case "The French National Research Agency (ANR)" |
"The French National Research Agency" => generateSimpleRelationFromAward(funder, "anr_________", a => a)
case "CONICYT, Programa de Formación de Capital Humano Avanzado" => generateSimpleRelationFromAward(funder, "conicytf____", extractECAward)
case "Wellcome Trust Masters Fellowship" => val targetId = getProjectId("wt__________", "1e5e62235d094afd01cd56e65112fc63")
queue += generateRelation(sourceId, targetId, ModelConstants.IS_PRODUCED_BY )
queue += generateRelation(targetId, sourceId, ModelConstants.PRODUCES )
case _ => logger.debug("no match for "+funder.name )
}
}
}
)
queue.toList queue.toList
} }
@ -423,33 +532,31 @@ case object Crossref2Oaf {
// TODO check if there are other info to map into the Dataset // TODO check if there are other info to map into the Dataset
} }
def convertPublication(publication: Publication, json: JValue, cobjCategory: String): Unit = { def convertPublication(publication: Publication, json: JValue, cobjCategory: String): Unit = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
val containerTitles = for {JString(ct) <- json \ "container-title"} yield ct val containerTitles = for { JString(ct) <- json \ "container-title" } yield ct
//Mapping book //Mapping book
if (cobjCategory.toLowerCase.contains("book")) { if (cobjCategory.toLowerCase.contains("book")) {
val ISBN = for {JString(isbn) <- json \ "ISBN"} yield isbn val ISBN = for { JString(isbn) <- json \ "ISBN" } yield isbn
if (ISBN.nonEmpty && containerTitles.nonEmpty) { if (ISBN.nonEmpty && containerTitles.nonEmpty) {
val source = s"${containerTitles.head} ISBN: ${ISBN.head}" val source = s"${containerTitles.head} ISBN: ${ISBN.head}"
if (publication.getSource != null) { if (publication.getSource != null) {
val l: List[Field[String]] = publication.getSource.asScala.toList val l: List[Field[String]] = publication.getSource.asScala.toList
val ll: List[Field[String]] = l ::: List(asField(source)) val ll: List[Field[String]] = l ::: List(asField(source))
publication.setSource(ll.asJava) publication.setSource(ll.asJava)
} } else
else
publication.setSource(List(asField(source)).asJava) publication.setSource(List(asField(source)).asJava)
} }
} else { } else {
// Mapping Journal // Mapping Journal
val issnInfos = for {JArray(issn_types) <- json \ "issn-type" val issnInfos = for {
JObject(issn_type) <- issn_types JArray(issn_types) <- json \ "issn-type"
JField("type", JString(tp)) <- issn_type JObject(issn_type) <- issn_types
JField("value", JString(vl)) <- issn_type JField("type", JString(tp)) <- issn_type
} yield Tuple2(tp, vl) JField("value", JString(vl)) <- issn_type
} yield Tuple2(tp, vl)
val volume = (json \ "volume").extractOrElse[String](null) val volume = (json \ "volume").extractOrElse[String](null)
if (containerTitles.nonEmpty) { if (containerTitles.nonEmpty) {
@ -460,7 +567,7 @@ case object Crossref2Oaf {
issnInfos.foreach(tp => { issnInfos.foreach(tp => {
tp._1 match { tp._1 match {
case "electronic" => journal.setIssnOnline(tp._2) case "electronic" => journal.setIssnOnline(tp._2)
case "print" => journal.setIssnPrinted(tp._2) case "print" => journal.setIssnPrinted(tp._2)
} }
}) })
} }
@ -494,7 +601,12 @@ case object Crossref2Oaf {
} }
def generateDate(dt: String, datePart: List[List[Int]], classId: String, schemeId: String): StructuredProperty = { def generateDate(
dt: String,
datePart: List[List[Int]],
classId: String,
schemeId: String
): StructuredProperty = {
val dp = extractDate(dt, datePart) val dp = extractDate(dt, datePart)
if (StringUtils.isNotBlank(dp)) if (StringUtils.isNotBlank(dp))
return createSP(dp, classId, schemeId) return createSP(dp, classId, schemeId)

View File

@ -16,7 +16,6 @@ object CrossrefDataset {
val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass) val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass)
def to_item(input: String): CrossrefDT = { def to_item(input: String): CrossrefDT = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
@ -29,19 +28,24 @@ object CrossrefDataset {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(CrossrefDataset.getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/crossref_to_dataset_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
CrossrefDataset.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/crossref_to_dataset_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkMapDumpIntoOAF.getClass.getSimpleName) .appName(SparkMapDumpIntoOAF.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
import spark.implicits._ import spark.implicits._
val crossrefAggregator = new Aggregator[CrossrefDT, CrossrefDT, CrossrefDT] with Serializable { val crossrefAggregator = new Aggregator[CrossrefDT, CrossrefDT, CrossrefDT] with Serializable {
override def zero: CrossrefDT = null override def zero: CrossrefDT = null
@ -52,7 +56,6 @@ object CrossrefDataset {
if (a == null) if (a == null)
return b return b
if (a.timestamp > b.timestamp) { if (a.timestamp > b.timestamp) {
return a return a
} }
@ -80,19 +83,24 @@ object CrossrefDataset {
val workingPath: String = parser.get("workingPath") val workingPath: String = parser.get("workingPath")
val main_ds: Dataset[CrossrefDT] = spark.read.load(s"$workingPath/crossref_ds").as[CrossrefDT] val main_ds: Dataset[CrossrefDT] = spark.read.load(s"$workingPath/crossref_ds").as[CrossrefDT]
val update = val update =
spark.createDataset(spark.sparkContext.sequenceFile(s"$workingPath/index_update", classOf[IntWritable], classOf[Text]) spark.createDataset(
.map(i => CrossrefImporter.decompressBlob(i._2.toString)) spark.sparkContext
.map(i => to_item(i))) .sequenceFile(s"$workingPath/index_update", classOf[IntWritable], classOf[Text])
.map(i => CrossrefImporter.decompressBlob(i._2.toString))
.map(i => to_item(i))
)
main_ds.union(update).groupByKey(_.doi) main_ds
.union(update)
.groupByKey(_.doi)
.agg(crossrefAggregator.toColumn) .agg(crossrefAggregator.toColumn)
.map(s => s._2) .map(s => s._2)
.write.mode(SaveMode.Overwrite).save(s"$workingPath/crossref_ds_updated") .write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/crossref_ds_updated")
} }

View File

@ -18,7 +18,6 @@ object GenerateCrossrefDataset {
implicit val mrEncoder: Encoder[CrossrefDT] = Encoders.kryo[CrossrefDT] implicit val mrEncoder: Encoder[CrossrefDT] = Encoders.kryo[CrossrefDT]
def crossrefElement(meta: String): CrossrefDT = { def crossrefElement(meta: String): CrossrefDT = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(meta) lazy val json: json4s.JValue = parse(meta)
@ -30,13 +29,23 @@ object GenerateCrossrefDataset {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf = new SparkConf val conf = new SparkConf
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/crossref_dump_reader/generate_dataset_params.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/crossref_dump_reader/generate_dataset_params.json"
)
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val master = parser.get("master") val master = parser.get("master")
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
val spark: SparkSession = SparkSession.builder().config(conf) val spark: SparkSession = SparkSession
.builder()
.config(conf)
.appName(UnpackCrtossrefEntries.getClass.getSimpleName) .appName(UnpackCrtossrefEntries.getClass.getSimpleName)
.master(master) .master(master)
.getOrCreate() .getOrCreate()
@ -44,12 +53,14 @@ object GenerateCrossrefDataset {
import spark.implicits._ import spark.implicits._
val tmp: RDD[String] = sc.textFile(sourcePath, 6000) val tmp: RDD[String] = sc.textFile(sourcePath, 6000)
spark.createDataset(tmp) spark
.createDataset(tmp)
.map(entry => crossrefElement(entry)) .map(entry => crossrefElement(entry))
.write.mode(SaveMode.Overwrite).save(targetPath) .write
.mode(SaveMode.Overwrite)
.save(targetPath)
// .map(meta => crossrefElement(meta)) // .map(meta => crossrefElement(meta))
// .toDS.as[CrossrefDT] // .toDS.as[CrossrefDT]
// .write.mode(SaveMode.Overwrite).save(targetPath) // .write.mode(SaveMode.Overwrite).save(targetPath)

View File

@ -8,7 +8,6 @@ import org.apache.spark.SparkConf
import org.apache.spark.sql._ import org.apache.spark.sql._
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
case class Reference(author: String, firstPage: String) {} case class Reference(author: String, firstPage: String) {}
object SparkMapDumpIntoOAF { object SparkMapDumpIntoOAF {
@ -19,14 +18,21 @@ object SparkMapDumpIntoOAF {
val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass) val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(SparkMapDumpIntoOAF.getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/convert_crossref_dump_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
SparkMapDumpIntoOAF.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/convert_crossref_dump_to_oaf_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkMapDumpIntoOAF.getClass.getSimpleName) .appName(SparkMapDumpIntoOAF.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf] implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication]
@ -35,19 +41,34 @@ object SparkMapDumpIntoOAF {
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
spark.read.load(parser.get("sourcePath")).as[CrossrefDT] spark.read
.load(parser.get("sourcePath"))
.as[CrossrefDT]
.flatMap(k => Crossref2Oaf.convert(k.json)) .flatMap(k => Crossref2Oaf.convert(k.json))
.filter(o => o != null) .filter(o => o != null)
.write.mode(SaveMode.Overwrite).save(s"$targetPath/mixObject") .write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/mixObject")
val ds:Dataset[Oaf] = spark.read.load(s"$targetPath/mixObject").as[Oaf] val ds: Dataset[Oaf] = spark.read.load(s"$targetPath/mixObject").as[Oaf]
ds.filter(o => o.isInstanceOf[Publication]).map(o => o.asInstanceOf[Publication]).write.mode(SaveMode.Overwrite).save(s"$targetPath/crossrefPublication") ds.filter(o => o.isInstanceOf[Publication])
.map(o => o.asInstanceOf[Publication])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/crossrefPublication")
ds.filter(o => o.isInstanceOf[Relation]).map(o => o.asInstanceOf[Relation]).write.mode(SaveMode.Overwrite).save(s"$targetPath/crossrefRelation") ds.filter(o => o.isInstanceOf[Relation])
.map(o => o.asInstanceOf[Relation])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/crossrefRelation")
ds.filter(o => o.isInstanceOf[OafDataset]).map(o => o.asInstanceOf[OafDataset]).write.mode(SaveMode.Overwrite).save(s"$targetPath/crossrefDataset") ds.filter(o => o.isInstanceOf[OafDataset])
.map(o => o.asInstanceOf[OafDataset])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/crossrefDataset")
} }
} }

View File

@ -16,7 +16,6 @@ object UnpackCrtossrefEntries {
val log: Logger = LoggerFactory.getLogger(UnpackCrtossrefEntries.getClass) val log: Logger = LoggerFactory.getLogger(UnpackCrtossrefEntries.getClass)
def extractDump(input: String): List[String] = { def extractDump(input: String): List[String] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
@ -24,28 +23,36 @@ object UnpackCrtossrefEntries {
val a = (json \ "items").extract[JArray] val a = (json \ "items").extract[JArray]
a.arr.map(s => compact(render(s))) a.arr.map(s => compact(render(s)))
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf = new SparkConf val conf = new SparkConf
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/crossref_dump_reader/generate_dataset_params.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/crossref_dump_reader/generate_dataset_params.json"
)
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val master = parser.get("master") val master = parser.get("master")
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
val spark: SparkSession = SparkSession.builder().config(conf) val spark: SparkSession = SparkSession
.builder()
.config(conf)
.appName(UnpackCrtossrefEntries.getClass.getSimpleName) .appName(UnpackCrtossrefEntries.getClass.getSimpleName)
.master(master) .master(master)
.getOrCreate() .getOrCreate()
val sc: SparkContext = spark.sparkContext val sc: SparkContext = spark.sparkContext
sc.wholeTextFiles(sourcePath, 6000).flatMap(d => extractDump(d._2)) sc.wholeTextFiles(sourcePath, 6000)
.flatMap(d => extractDump(d._2))
.saveAsTextFile(targetPath, classOf[GzipCodec]) .saveAsTextFile(targetPath, classOf[GzipCodec])
} }
} }

View File

@ -1,6 +1,5 @@
package eu.dnetlib.doiboost.mag package eu.dnetlib.doiboost.mag
import eu.dnetlib.dhp.schema.common.ModelConstants import eu.dnetlib.dhp.schema.common.ModelConstants
import eu.dnetlib.dhp.schema.oaf.utils.IdentifierFactory import eu.dnetlib.dhp.schema.oaf.utils.IdentifierFactory
import eu.dnetlib.dhp.schema.oaf.{Instance, Journal, Publication, StructuredProperty} import eu.dnetlib.dhp.schema.oaf.{Instance, Journal, Publication, StructuredProperty}
@ -14,59 +13,134 @@ import scala.collection.JavaConverters._
import scala.collection.mutable import scala.collection.mutable
import scala.util.matching.Regex import scala.util.matching.Regex
case class MagPapers(
case class MagPapers(PaperId: Long, Rank: Integer, Doi: String, PaperId: Long,
DocType: String, PaperTitle: String, OriginalTitle: String, Rank: Integer,
BookTitle: String, Year: Option[Integer], Date: Option[java.sql.Timestamp], Publisher: String, Doi: String,
JournalId: Option[Long], ConferenceSeriesId: Option[Long], ConferenceInstanceId: Option[Long], DocType: String,
Volume: String, Issue: String, FirstPage: String, LastPage: String, PaperTitle: String,
ReferenceCount: Option[Long], CitationCount: Option[Long], EstimatedCitation: Option[Long], OriginalTitle: String,
OriginalVenue: String, FamilyId: Option[Long], CreatedDate: java.sql.Timestamp) {} BookTitle: String,
Year: Option[Integer],
Date: Option[java.sql.Timestamp],
Publisher: String,
JournalId: Option[Long],
ConferenceSeriesId: Option[Long],
ConferenceInstanceId: Option[Long],
Volume: String,
Issue: String,
FirstPage: String,
LastPage: String,
ReferenceCount: Option[Long],
CitationCount: Option[Long],
EstimatedCitation: Option[Long],
OriginalVenue: String,
FamilyId: Option[Long],
CreatedDate: java.sql.Timestamp
) {}
case class MagPaperAbstract(PaperId: Long, IndexedAbstract: String) {} case class MagPaperAbstract(PaperId: Long, IndexedAbstract: String) {}
case class MagAuthor(AuthorId: Long, Rank: Option[Int], NormalizedName: Option[String], DisplayName: Option[String], LastKnownAffiliationId: Option[Long], PaperCount: Option[Long], CitationCount: Option[Long], CreatedDate: Option[java.sql.Timestamp]) {} case class MagAuthor(
AuthorId: Long,
Rank: Option[Int],
NormalizedName: Option[String],
DisplayName: Option[String],
LastKnownAffiliationId: Option[Long],
PaperCount: Option[Long],
CitationCount: Option[Long],
CreatedDate: Option[java.sql.Timestamp]
) {}
case class MagAffiliation(AffiliationId: Long, Rank: Int, NormalizedName: String, DisplayName: String, GridId: String, OfficialPage: String, WikiPage: String, PaperCount: Long, CitationCount: Long, Latitude: Option[Float], Longitude: Option[Float], CreatedDate: java.sql.Timestamp) {} case class MagAffiliation(
AffiliationId: Long,
Rank: Int,
NormalizedName: String,
DisplayName: String,
GridId: String,
OfficialPage: String,
WikiPage: String,
PaperCount: Long,
CitationCount: Long,
Latitude: Option[Float],
Longitude: Option[Float],
CreatedDate: java.sql.Timestamp
) {}
case class MagPaperAuthorAffiliation(PaperId: Long, AuthorId: Long, AffiliationId: Option[Long], AuthorSequenceNumber: Int, OriginalAuthor: String, OriginalAffiliation: String) {} case class MagPaperAuthorAffiliation(
PaperId: Long,
AuthorId: Long,
AffiliationId: Option[Long],
AuthorSequenceNumber: Int,
OriginalAuthor: String,
OriginalAffiliation: String
) {}
case class MagAuthorAffiliation(author: MagAuthor, affiliation: String, sequenceNumber: Int)
case class MagAuthorAffiliation(author: MagAuthor, affiliation:String, sequenceNumber:Int)
case class MagPaperWithAuthorList(PaperId: Long, authors: List[MagAuthorAffiliation]) {} case class MagPaperWithAuthorList(PaperId: Long, authors: List[MagAuthorAffiliation]) {}
case class MagPaperAuthorDenormalized(PaperId: Long, author: MagAuthor, affiliation:String, sequenceNumber:Int) {} case class MagPaperAuthorDenormalized(
PaperId: Long,
author: MagAuthor,
affiliation: String,
sequenceNumber: Int
) {}
case class MagPaperUrl(PaperId: Long, SourceType: Option[Int], SourceUrl: Option[String], LanguageCode: Option[String]) {} case class MagPaperUrl(
PaperId: Long,
SourceType: Option[Int],
SourceUrl: Option[String],
LanguageCode: Option[String]
) {}
case class MagUrlInstance(SourceUrl:String){} case class MagUrlInstance(SourceUrl: String) {}
case class MagUrl(PaperId: Long, instances: List[MagUrlInstance]) case class MagUrl(PaperId: Long, instances: List[MagUrlInstance])
case class MagSubject(FieldOfStudyId:Long, DisplayName:String, MainType:Option[String], Score:Float){} case class MagSubject(
FieldOfStudyId: Long,
DisplayName: String,
MainType: Option[String],
Score: Float
) {}
case class MagFieldOfStudy(PaperId:Long, subjects:List[MagSubject]) {} case class MagFieldOfStudy(PaperId: Long, subjects: List[MagSubject]) {}
case class MagJournal(JournalId: Long, Rank: Option[Int], NormalizedName: Option[String], DisplayName: Option[String], Issn: Option[String], Publisher: Option[String], Webpage: Option[String], PaperCount: Option[Long], CitationCount: Option[Long], CreatedDate: Option[java.sql.Timestamp]) {} case class MagJournal(
JournalId: Long,
Rank: Option[Int],
NormalizedName: Option[String],
DisplayName: Option[String],
Issn: Option[String],
Publisher: Option[String],
Webpage: Option[String],
PaperCount: Option[Long],
CitationCount: Option[Long],
CreatedDate: Option[java.sql.Timestamp]
) {}
case class MagConferenceInstance(
case class MagConferenceInstance(ci:Long, DisplayName:Option[String], Location:Option[String], StartDate:Option[java.sql.Timestamp], EndDate:Option[java.sql.Timestamp], PaperId:Long){} ci: Long,
DisplayName: Option[String],
Location: Option[String],
StartDate: Option[java.sql.Timestamp],
EndDate: Option[java.sql.Timestamp],
PaperId: Long
) {}
case object ConversionUtil { case object ConversionUtil {
def extractMagIdentifier(pids:mutable.Buffer[String]) :String ={ def extractMagIdentifier(pids: mutable.Buffer[String]): String = {
val magIDRegex: Regex = "^[0-9]+$".r val magIDRegex: Regex = "^[0-9]+$".r
val s =pids.filter(p=> magIDRegex.findAllIn(p).hasNext) val s = pids.filter(p => magIDRegex.findAllIn(p).hasNext)
if (s.nonEmpty) if (s.nonEmpty)
return s.head return s.head
null null
} }
def mergePublication(a: Publication, b: Publication): Publication = {
def mergePublication(a: Publication, b:Publication) : Publication = {
if ((a != null) && (b != null)) { if ((a != null) && (b != null)) {
a.mergeFrom(b) a.mergeFrom(b)
a a
@ -74,10 +148,9 @@ case object ConversionUtil {
if (a == null) b else a if (a == null) b else a
} }
} }
def choiceLatestMagArtitcle(p1: MagPapers, p2:MagPapers) :MagPapers = { def choiceLatestMagArtitcle(p1: MagPapers, p2: MagPapers): MagPapers = {
var r = if (p1 == null) p2 else p1 var r = if (p1 == null) p2 else p1
if (p1 != null && p2 != null) { if (p1 != null && p2 != null) {
if (p1.CreatedDate != null && p2.CreatedDate != null) { if (p1.CreatedDate != null && p2.CreatedDate != null) {
@ -93,8 +166,9 @@ case object ConversionUtil {
} }
def updatePubsWithDescription(
def updatePubsWithDescription(inputItem:((String, Publication), MagPaperAbstract)) : Publication = { inputItem: ((String, Publication), MagPaperAbstract)
): Publication = {
val pub = inputItem._1._2 val pub = inputItem._1._2
val abst = inputItem._2 val abst = inputItem._2
if (abst != null) { if (abst != null) {
@ -104,20 +178,22 @@ case object ConversionUtil {
} }
def updatePubsWithConferenceInfo(
inputItem: ((String, Publication), MagConferenceInstance)
): Publication = {
val publication: Publication = inputItem._1._2
val ci: MagConferenceInstance = inputItem._2
def updatePubsWithConferenceInfo(inputItem:((String, Publication), MagConferenceInstance)) : Publication = { if (ci != null) {
val publication:Publication= inputItem._1._2
val ci:MagConferenceInstance = inputItem._2
if (ci!= null){ val j: Journal = new Journal
val j:Journal = new Journal
if (ci.Location.isDefined) if (ci.Location.isDefined)
j.setConferenceplace(ci.Location.get) j.setConferenceplace(ci.Location.get)
j.setName(ci.DisplayName.get) j.setName(ci.DisplayName.get)
if (ci.StartDate.isDefined && ci.EndDate.isDefined) if (ci.StartDate.isDefined && ci.EndDate.isDefined) {
{ j.setConferencedate(
j.setConferencedate(s"${ci.StartDate.get.toString.substring(0,10)} - ${ci.EndDate.get.toString.substring(0,10)}") s"${ci.StartDate.get.toString.substring(0, 10)} - ${ci.EndDate.get.toString.substring(0, 10)}"
)
} }
publication.setJournal(j) publication.setJournal(j)
@ -125,7 +201,7 @@ case object ConversionUtil {
publication publication
} }
def updatePubsWithSubject(item:((String, Publication), MagFieldOfStudy)) : Publication = { def updatePubsWithSubject(item: ((String, Publication), MagFieldOfStudy)): Publication = {
val publication = item._1._2 val publication = item._1._2
val fieldOfStudy = item._2 val fieldOfStudy = item._2
@ -135,16 +211,34 @@ case object ConversionUtil {
val classid = "MAG" val classid = "MAG"
val p: List[StructuredProperty] = fieldOfStudy.subjects.flatMap(s => { val p: List[StructuredProperty] = fieldOfStudy.subjects.flatMap(s => {
val s1 = createSP(s.DisplayName, classid,className, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES) val s1 = createSP(
s.DisplayName,
classid,
className,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES
)
val di = DoiBoostMappingUtil.generateDataInfo(s.Score.toString) val di = DoiBoostMappingUtil.generateDataInfo(s.Score.toString)
var resList: List[StructuredProperty] = List(s1) var resList: List[StructuredProperty] = List(s1)
if (s.MainType.isDefined) { if (s.MainType.isDefined) {
val maintp = s.MainType.get val maintp = s.MainType.get
val s2 = createSP(s.MainType.get, classid,className, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES) val s2 = createSP(
s.MainType.get,
classid,
className,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES
)
s2.setDataInfo(di) s2.setDataInfo(di)
resList = resList ::: List(s2) resList = resList ::: List(s2)
if (maintp.contains(".")) { if (maintp.contains(".")) {
val s3 = createSP(maintp.split("\\.").head, classid,className, ModelConstants.DNET_SUBJECT_TYPOLOGIES, ModelConstants.DNET_SUBJECT_TYPOLOGIES) val s3 = createSP(
maintp.split("\\.").head,
classid,
className,
ModelConstants.DNET_SUBJECT_TYPOLOGIES,
ModelConstants.DNET_SUBJECT_TYPOLOGIES
)
s3.setDataInfo(di) s3.setDataInfo(di)
resList = resList ::: List(s3) resList = resList ::: List(s3)
} }
@ -156,25 +250,27 @@ case object ConversionUtil {
publication publication
} }
def addInstances(a: (Publication, MagUrl)): Publication = { def addInstances(a: (Publication, MagUrl)): Publication = {
val pub = a._1 val pub = a._1
val urls = a._2 val urls = a._2
val i = new Instance val i = new Instance
if (urls != null) {
if (urls!= null) { val l: List[String] = urls.instances
.filter(k => k.SourceUrl.nonEmpty)
val l:List[String] = urls.instances.filter(k=>k.SourceUrl.nonEmpty).map(k=>k.SourceUrl):::List(s"https://academic.microsoft.com/#/detail/${extractMagIdentifier(pub.getOriginalId.asScala)}") .map(k => k.SourceUrl) ::: List(
s"https://academic.microsoft.com/#/detail/${extractMagIdentifier(pub.getOriginalId.asScala)}"
)
i.setUrl(l.asJava) i.setUrl(l.asJava)
} } else
else i.setUrl(
i.setUrl(List(s"https://academic.microsoft.com/#/detail/${extractMagIdentifier(pub.getOriginalId.asScala)}").asJava) List(
s"https://academic.microsoft.com/#/detail/${extractMagIdentifier(pub.getOriginalId.asScala)}"
).asJava
)
// Ticket #6281 added pid to Instance // Ticket #6281 added pid to Instance
i.setPid(pub.getPid) i.setPid(pub.getPid)
@ -184,13 +280,13 @@ case object ConversionUtil {
pub pub
} }
def transformPaperAbstract(input: MagPaperAbstract): MagPaperAbstract = { def transformPaperAbstract(input: MagPaperAbstract): MagPaperAbstract = {
MagPaperAbstract(input.PaperId, convertInvertedIndexString(input.IndexedAbstract)) MagPaperAbstract(input.PaperId, convertInvertedIndexString(input.IndexedAbstract))
} }
def createOAFFromJournalAuthorPaper(
def createOAFFromJournalAuthorPaper(inputParams: ((MagPapers, MagJournal), MagPaperWithAuthorList)): Publication = { inputParams: ((MagPapers, MagJournal), MagPaperWithAuthorList)
): Publication = {
val paper = inputParams._1._1 val paper = inputParams._1._1
val journal = inputParams._1._2 val journal = inputParams._1._2
val authors = inputParams._2 val authors = inputParams._2
@ -206,31 +302,37 @@ case object ConversionUtil {
pub.setId(IdentifierFactory.createDOIBoostIdentifier(pub)) pub.setId(IdentifierFactory.createDOIBoostIdentifier(pub))
val mainTitles = createSP(paper.PaperTitle, "main title", ModelConstants.DNET_DATACITE_TITLE) val mainTitles = createSP(paper.PaperTitle, "main title", ModelConstants.DNET_DATACITE_TITLE)
val originalTitles = createSP(paper.OriginalTitle, "alternative title", ModelConstants.DNET_DATACITE_TITLE) val originalTitles =
createSP(paper.OriginalTitle, "alternative title", ModelConstants.DNET_DATACITE_TITLE)
pub.setTitle(List(mainTitles, originalTitles).asJava) pub.setTitle(List(mainTitles, originalTitles).asJava)
pub.setSource(List(asField(paper.BookTitle)).asJava) pub.setSource(List(asField(paper.BookTitle)).asJava)
val authorsOAF = authors.authors.map { f: MagAuthorAffiliation => val authorsOAF = authors.authors.map { f: MagAuthorAffiliation =>
val a: eu.dnetlib.dhp.schema.oaf.Author = new eu.dnetlib.dhp.schema.oaf.Author val a: eu.dnetlib.dhp.schema.oaf.Author = new eu.dnetlib.dhp.schema.oaf.Author
a.setRank(f.sequenceNumber) a.setRank(f.sequenceNumber)
if (f.author.DisplayName.isDefined) if (f.author.DisplayName.isDefined)
a.setFullname(f.author.DisplayName.get) a.setFullname(f.author.DisplayName.get)
if(f.affiliation!= null) if (f.affiliation != null)
a.setAffiliation(List(asField(f.affiliation)).asJava) a.setAffiliation(List(asField(f.affiliation)).asJava)
a.setPid(List(createSP(s"https://academic.microsoft.com/#/detail/${f.author.AuthorId}", "URL", ModelConstants.DNET_PID_TYPES)).asJava) a.setPid(
List(
createSP(
s"https://academic.microsoft.com/#/detail/${f.author.AuthorId}",
"URL",
ModelConstants.DNET_PID_TYPES
)
).asJava
)
a a
} }
pub.setAuthor(authorsOAF.asJava) pub.setAuthor(authorsOAF.asJava)
if (paper.Date != null && paper.Date.isDefined) { if (paper.Date != null && paper.Date.isDefined) {
pub.setDateofacceptance(asField(paper.Date.get.toString.substring(0,10))) pub.setDateofacceptance(asField(paper.Date.get.toString.substring(0, 10)))
} }
pub.setPublisher(asField(paper.Publisher)) pub.setPublisher(asField(paper.Publisher))
if (journal != null && journal.DisplayName.isDefined) { if (journal != null && journal.DisplayName.isDefined) {
val j = new Journal val j = new Journal
@ -250,8 +352,9 @@ case object ConversionUtil {
pub pub
} }
def createOAF(
def createOAF(inputParams: ((MagPapers, MagPaperWithAuthorList), MagPaperAbstract)): Publication = { inputParams: ((MagPapers, MagPaperWithAuthorList), MagPaperAbstract)
): Publication = {
val paper = inputParams._1._1 val paper = inputParams._1._1
val authors = inputParams._1._2 val authors = inputParams._1._2
@ -268,46 +371,48 @@ case object ConversionUtil {
pub.setId(IdentifierFactory.createDOIBoostIdentifier(pub)) pub.setId(IdentifierFactory.createDOIBoostIdentifier(pub))
val mainTitles = createSP(paper.PaperTitle, "main title", ModelConstants.DNET_DATACITE_TITLE) val mainTitles = createSP(paper.PaperTitle, "main title", ModelConstants.DNET_DATACITE_TITLE)
val originalTitles = createSP(paper.OriginalTitle, "alternative title", ModelConstants.DNET_DATACITE_TITLE) val originalTitles =
createSP(paper.OriginalTitle, "alternative title", ModelConstants.DNET_DATACITE_TITLE)
pub.setTitle(List(mainTitles, originalTitles).asJava) pub.setTitle(List(mainTitles, originalTitles).asJava)
pub.setSource(List(asField(paper.BookTitle)).asJava) pub.setSource(List(asField(paper.BookTitle)).asJava)
if (description != null) { if (description != null) {
pub.setDescription(List(asField(description.IndexedAbstract)).asJava) pub.setDescription(List(asField(description.IndexedAbstract)).asJava)
} }
val authorsOAF = authors.authors.map { f: MagAuthorAffiliation => val authorsOAF = authors.authors.map { f: MagAuthorAffiliation =>
val a: eu.dnetlib.dhp.schema.oaf.Author = new eu.dnetlib.dhp.schema.oaf.Author val a: eu.dnetlib.dhp.schema.oaf.Author = new eu.dnetlib.dhp.schema.oaf.Author
a.setFullname(f.author.DisplayName.get) a.setFullname(f.author.DisplayName.get)
if(f.affiliation!= null) if (f.affiliation != null)
a.setAffiliation(List(asField(f.affiliation)).asJava) a.setAffiliation(List(asField(f.affiliation)).asJava)
a.setPid(
a.setPid(List(createSP(s"https://academic.microsoft.com/#/detail/${f.author.AuthorId}", "URL", ModelConstants.DNET_PID_TYPES)).asJava) List(
createSP(
s"https://academic.microsoft.com/#/detail/${f.author.AuthorId}",
"URL",
ModelConstants.DNET_PID_TYPES
)
).asJava
)
a a
} }
if (paper.Date != null) { if (paper.Date != null) {
pub.setDateofacceptance(asField(paper.Date.toString.substring(0,10))) pub.setDateofacceptance(asField(paper.Date.toString.substring(0, 10)))
} }
pub.setAuthor(authorsOAF.asJava) pub.setAuthor(authorsOAF.asJava)
pub pub
} }
def convertInvertedIndexString(json_input: String): String = { def convertInvertedIndexString(json_input: String): String = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(json_input) lazy val json: json4s.JValue = parse(json_input)
@ -317,13 +422,13 @@ case object ConversionUtil {
val iid = (json \ "InvertedIndex").extract[Map[String, List[Int]]] val iid = (json \ "InvertedIndex").extract[Map[String, List[Int]]]
for {(k: String, v: List[Int]) <- iid} { for { (k: String, v: List[Int]) <- iid } {
v.foreach(item => res(item) = k) v.foreach(item => res(item) = k)
} }
(0 until idl).foreach(i => { (0 until idl).foreach(i => {
if (res(i) == null) if (res(i) == null)
res(i) = "" res(i) = ""
}) })
return res.mkString(" ") return res.mkString(" ")
} }
"" ""

View File

@ -8,44 +8,245 @@ import org.apache.spark.sql.{SaveMode, SparkSession}
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
object SparkImportMagIntoDataset { object SparkImportMagIntoDataset {
val datatypedict = Map( val datatypedict = Map(
"bool" -> BooleanType, "bool" -> BooleanType,
"int" -> IntegerType, "int" -> IntegerType,
"uint" -> IntegerType, "uint" -> IntegerType,
"long" -> LongType, "long" -> LongType,
"ulong" -> LongType, "ulong" -> LongType,
"float" -> FloatType, "float" -> FloatType,
"string" -> StringType, "string" -> StringType,
"DateTime" -> DateType "DateTime" -> DateType
) )
val stream = Map( val stream = Map(
"Affiliations" -> Tuple2("mag/Affiliations.txt", Seq("AffiliationId:long", "Rank:uint", "NormalizedName:string", "DisplayName:string", "GridId:string", "OfficialPage:string", "WikiPage:string", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "Iso3166Code:string", "Latitude:float?", "Longitude:float?", "CreatedDate:DateTime")), "Affiliations" -> Tuple2(
"AuthorExtendedAttributes" -> Tuple2("mag/AuthorExtendedAttributes.txt", Seq("AuthorId:long", "AttributeType:int", "AttributeValue:string")), "mag/Affiliations.txt",
"Authors" -> Tuple2("mag/Authors.txt", Seq("AuthorId:long", "Rank:uint", "NormalizedName:string", "DisplayName:string", "LastKnownAffiliationId:long?", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "CreatedDate:DateTime")), Seq(
"ConferenceInstances" -> Tuple2("mag/ConferenceInstances.txt", Seq("ConferenceInstanceId:long", "NormalizedName:string", "DisplayName:string", "ConferenceSeriesId:long", "Location:string", "OfficialUrl:string", "StartDate:DateTime?", "EndDate:DateTime?", "AbstractRegistrationDate:DateTime?", "SubmissionDeadlineDate:DateTime?", "NotificationDueDate:DateTime?", "FinalVersionDueDate:DateTime?", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "Latitude:float?", "Longitude:float?", "CreatedDate:DateTime")), "AffiliationId:long",
"ConferenceSeries" -> Tuple2("mag/ConferenceSeries.txt", Seq("ConferenceSeriesId:long", "Rank:uint", "NormalizedName:string", "DisplayName:string", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "CreatedDate:DateTime")), "Rank:uint",
"EntityRelatedEntities" -> Tuple2("advanced/EntityRelatedEntities.txt", Seq("EntityId:long", "EntityType:string", "RelatedEntityId:long", "RelatedEntityType:string", "RelatedType:int", "Score:float")), "NormalizedName:string",
"FieldOfStudyChildren" -> Tuple2("advanced/FieldOfStudyChildren.txt", Seq("FieldOfStudyId:long", "ChildFieldOfStudyId:long")), "DisplayName:string",
"FieldOfStudyExtendedAttributes" -> Tuple2("advanced/FieldOfStudyExtendedAttributes.txt", Seq("FieldOfStudyId:long", "AttributeType:int", "AttributeValue:string")), "GridId:string",
"FieldsOfStudy" -> Tuple2("advanced/FieldsOfStudy.txt", Seq("FieldOfStudyId:long", "Rank:uint", "NormalizedName:string", "DisplayName:string", "MainType:string", "Level:int", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "CreatedDate:DateTime")), "OfficialPage:string",
"Journals" -> Tuple2("mag/Journals.txt", Seq("JournalId:long", "Rank:uint", "NormalizedName:string", "DisplayName:string", "Issn:string", "Publisher:string", "Webpage:string", "PaperCount:long", "PaperFamilyCount:long", "CitationCount:long", "CreatedDate:DateTime")), "WikiPage:string",
"PaperAbstractsInvertedIndex" -> Tuple2("nlp/PaperAbstractsInvertedIndex.txt.*", Seq("PaperId:long", "IndexedAbstract:string")), "PaperCount:long",
"PaperAuthorAffiliations" -> Tuple2("mag/PaperAuthorAffiliations.txt", Seq("PaperId:long", "AuthorId:long", "AffiliationId:long?", "AuthorSequenceNumber:uint", "OriginalAuthor:string", "OriginalAffiliation:string")), "PaperFamilyCount:long",
"PaperCitationContexts" -> Tuple2("nlp/PaperCitationContexts.txt", Seq("PaperId:long", "PaperReferenceId:long", "CitationContext:string")), "CitationCount:long",
"PaperExtendedAttributes" -> Tuple2("mag/PaperExtendedAttributes.txt", Seq("PaperId:long", "AttributeType:int", "AttributeValue:string")), "Iso3166Code:string",
"PaperFieldsOfStudy" -> Tuple2("advanced/PaperFieldsOfStudy.txt", Seq("PaperId:long", "FieldOfStudyId:long", "Score:float")), "Latitude:float?",
"PaperMeSH" -> Tuple2("advanced/PaperMeSH.txt", Seq("PaperId:long", "DescriptorUI:string", "DescriptorName:string", "QualifierUI:string", "QualifierName:string", "IsMajorTopic:bool")), "Longitude:float?",
"PaperRecommendations" -> Tuple2("advanced/PaperRecommendations.txt", Seq("PaperId:long", "RecommendedPaperId:long", "Score:float")), "CreatedDate:DateTime"
"PaperReferences" -> Tuple2("mag/PaperReferences.txt", Seq("PaperId:long", "PaperReferenceId:long")), )
"PaperResources" -> Tuple2("mag/PaperResources.txt", Seq("PaperId:long", "ResourceType:int", "ResourceUrl:string", "SourceUrl:string", "RelationshipType:int")), ),
"PaperUrls" -> Tuple2("mag/PaperUrls.txt", Seq("PaperId:long", "SourceType:int?", "SourceUrl:string", "LanguageCode:string")), "AuthorExtendedAttributes" -> Tuple2(
"Papers" -> Tuple2("mag/Papers.txt", Seq("PaperId:long", "Rank:uint", "Doi:string", "DocType:string", "PaperTitle:string", "OriginalTitle:string", "BookTitle:string", "Year:int?", "Date:DateTime?", "OnlineDate:DateTime?", "Publisher:string", "JournalId:long?", "ConferenceSeriesId:long?", "ConferenceInstanceId:long?", "Volume:string", "Issue:string", "FirstPage:string", "LastPage:string", "ReferenceCount:long", "CitationCount:long", "EstimatedCitation:long", "OriginalVenue:string", "FamilyId:long?", "FamilyRank:uint?", "DocSubTypes:string", "CreatedDate:DateTime")), "mag/AuthorExtendedAttributes.txt",
"RelatedFieldOfStudy" -> Tuple2("advanced/RelatedFieldOfStudy.txt", Seq("FieldOfStudyId1:long", "Type1:string", "FieldOfStudyId2:long", "Type2:string", "Rank:float")) Seq("AuthorId:long", "AttributeType:int", "AttributeValue:string")
),
"Authors" -> Tuple2(
"mag/Authors.txt",
Seq(
"AuthorId:long",
"Rank:uint",
"NormalizedName:string",
"DisplayName:string",
"LastKnownAffiliationId:long?",
"PaperCount:long",
"PaperFamilyCount:long",
"CitationCount:long",
"CreatedDate:DateTime"
)
),
"ConferenceInstances" -> Tuple2(
"mag/ConferenceInstances.txt",
Seq(
"ConferenceInstanceId:long",
"NormalizedName:string",
"DisplayName:string",
"ConferenceSeriesId:long",
"Location:string",
"OfficialUrl:string",
"StartDate:DateTime?",
"EndDate:DateTime?",
"AbstractRegistrationDate:DateTime?",
"SubmissionDeadlineDate:DateTime?",
"NotificationDueDate:DateTime?",
"FinalVersionDueDate:DateTime?",
"PaperCount:long",
"PaperFamilyCount:long",
"CitationCount:long",
"Latitude:float?",
"Longitude:float?",
"CreatedDate:DateTime"
)
),
"ConferenceSeries" -> Tuple2(
"mag/ConferenceSeries.txt",
Seq(
"ConferenceSeriesId:long",
"Rank:uint",
"NormalizedName:string",
"DisplayName:string",
"PaperCount:long",
"PaperFamilyCount:long",
"CitationCount:long",
"CreatedDate:DateTime"
)
),
"EntityRelatedEntities" -> Tuple2(
"advanced/EntityRelatedEntities.txt",
Seq(
"EntityId:long",
"EntityType:string",
"RelatedEntityId:long",
"RelatedEntityType:string",
"RelatedType:int",
"Score:float"
)
),
"FieldOfStudyChildren" -> Tuple2(
"advanced/FieldOfStudyChildren.txt",
Seq("FieldOfStudyId:long", "ChildFieldOfStudyId:long")
),
"FieldOfStudyExtendedAttributes" -> Tuple2(
"advanced/FieldOfStudyExtendedAttributes.txt",
Seq("FieldOfStudyId:long", "AttributeType:int", "AttributeValue:string")
),
"FieldsOfStudy" -> Tuple2(
"advanced/FieldsOfStudy.txt",
Seq(
"FieldOfStudyId:long",
"Rank:uint",
"NormalizedName:string",
"DisplayName:string",
"MainType:string",
"Level:int",
"PaperCount:long",
"PaperFamilyCount:long",
"CitationCount:long",
"CreatedDate:DateTime"
)
),
"Journals" -> Tuple2(
"mag/Journals.txt",
Seq(
"JournalId:long",
"Rank:uint",
"NormalizedName:string",
"DisplayName:string",
"Issn:string",
"Publisher:string",
"Webpage:string",
"PaperCount:long",
"PaperFamilyCount:long",
"CitationCount:long",
"CreatedDate:DateTime"
)
),
"PaperAbstractsInvertedIndex" -> Tuple2(
"nlp/PaperAbstractsInvertedIndex.txt.*",
Seq("PaperId:long", "IndexedAbstract:string")
),
"PaperAuthorAffiliations" -> Tuple2(
"mag/PaperAuthorAffiliations.txt",
Seq(
"PaperId:long",
"AuthorId:long",
"AffiliationId:long?",
"AuthorSequenceNumber:uint",
"OriginalAuthor:string",
"OriginalAffiliation:string"
)
),
"PaperCitationContexts" -> Tuple2(
"nlp/PaperCitationContexts.txt",
Seq("PaperId:long", "PaperReferenceId:long", "CitationContext:string")
),
"PaperExtendedAttributes" -> Tuple2(
"mag/PaperExtendedAttributes.txt",
Seq("PaperId:long", "AttributeType:int", "AttributeValue:string")
),
"PaperFieldsOfStudy" -> Tuple2(
"advanced/PaperFieldsOfStudy.txt",
Seq("PaperId:long", "FieldOfStudyId:long", "Score:float")
),
"PaperMeSH" -> Tuple2(
"advanced/PaperMeSH.txt",
Seq(
"PaperId:long",
"DescriptorUI:string",
"DescriptorName:string",
"QualifierUI:string",
"QualifierName:string",
"IsMajorTopic:bool"
)
),
"PaperRecommendations" -> Tuple2(
"advanced/PaperRecommendations.txt",
Seq("PaperId:long", "RecommendedPaperId:long", "Score:float")
),
"PaperReferences" -> Tuple2(
"mag/PaperReferences.txt",
Seq("PaperId:long", "PaperReferenceId:long")
),
"PaperResources" -> Tuple2(
"mag/PaperResources.txt",
Seq(
"PaperId:long",
"ResourceType:int",
"ResourceUrl:string",
"SourceUrl:string",
"RelationshipType:int"
)
),
"PaperUrls" -> Tuple2(
"mag/PaperUrls.txt",
Seq("PaperId:long", "SourceType:int?", "SourceUrl:string", "LanguageCode:string")
),
"Papers" -> Tuple2(
"mag/Papers.txt",
Seq(
"PaperId:long",
"Rank:uint",
"Doi:string",
"DocType:string",
"PaperTitle:string",
"OriginalTitle:string",
"BookTitle:string",
"Year:int?",
"Date:DateTime?",
"OnlineDate:DateTime?",
"Publisher:string",
"JournalId:long?",
"ConferenceSeriesId:long?",
"ConferenceInstanceId:long?",
"Volume:string",
"Issue:string",
"FirstPage:string",
"LastPage:string",
"ReferenceCount:long",
"CitationCount:long",
"EstimatedCitation:long",
"OriginalVenue:string",
"FamilyId:long?",
"FamilyRank:uint?",
"DocSubTypes:string",
"CreatedDate:DateTime"
)
),
"RelatedFieldOfStudy" -> Tuple2(
"advanced/RelatedFieldOfStudy.txt",
Seq(
"FieldOfStudyId1:long",
"Type1:string",
"FieldOfStudyId2:long",
"Type2:string",
"Rank:float"
)
)
) )
def getSchema(streamName: String): StructType = { def getSchema(streamName: String): StructType = {
var schema = new StructType() var schema = new StructType()
val d: Seq[String] = stream(streamName)._2 val d: Seq[String] = stream(streamName)._2
@ -61,19 +262,22 @@ object SparkImportMagIntoDataset {
schema schema
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/mag/convert_mag_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/mag/convert_mag_to_oaf_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
stream.foreach { case (k, v) => stream.foreach { case (k, v) =>
val s: StructType = getSchema(k) val s: StructType = getSchema(k)

View File

@ -9,6 +9,7 @@ import org.apache.spark.sql.functions.{col, collect_list, struct}
import org.apache.spark.sql._ import org.apache.spark.sql._
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
object SparkProcessMAG { object SparkProcessMAG {
def getDistinctResults(d: Dataset[MagPapers]): Dataset[MagPapers] = { def getDistinctResults(d: Dataset[MagPapers]): Dataset[MagPapers] = {
@ -17,13 +18,31 @@ object SparkProcessMAG {
.reduceGroups((p1: MagPapers, p2: MagPapers) => ConversionUtil.choiceLatestMagArtitcle(p1, p2)) .reduceGroups((p1: MagPapers, p2: MagPapers) => ConversionUtil.choiceLatestMagArtitcle(p1, p2))
.map(_._2)(Encoders.product[MagPapers]) .map(_._2)(Encoders.product[MagPapers])
.map(mp => { .map(mp => {
MagPapers(mp.PaperId, mp.Rank, DoiBoostMappingUtil.normalizeDoi(mp.Doi), MagPapers(
mp.DocType, mp.PaperTitle, mp.OriginalTitle, mp.PaperId,
mp.BookTitle, mp.Year, mp.Date, mp.Publisher: String, mp.Rank,
mp.JournalId, mp.ConferenceSeriesId, mp.ConferenceInstanceId, DoiBoostMappingUtil.normalizeDoi(mp.Doi),
mp.Volume, mp.Issue, mp.FirstPage, mp.LastPage, mp.DocType,
mp.ReferenceCount, mp.CitationCount, mp.EstimatedCitation, mp.PaperTitle,
mp.OriginalVenue, mp.FamilyId, mp.CreatedDate) mp.OriginalTitle,
mp.BookTitle,
mp.Year,
mp.Date,
mp.Publisher: String,
mp.JournalId,
mp.ConferenceSeriesId,
mp.ConferenceInstanceId,
mp.Volume,
mp.Issue,
mp.FirstPage,
mp.LastPage,
mp.ReferenceCount,
mp.CitationCount,
mp.EstimatedCitation,
mp.OriginalVenue,
mp.FamilyId,
mp.CreatedDate
)
})(Encoders.product[MagPapers]) })(Encoders.product[MagPapers])
} }
@ -31,22 +50,29 @@ object SparkProcessMAG {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/mag/preprocess_mag_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/mag/preprocess_mag_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
val workingPath = parser.get("workingPath") val workingPath = parser.get("workingPath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
import spark.implicits._ import spark.implicits._
implicit val mapEncoderPubs: Encoder[Publication] = org.apache.spark.sql.Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] =
implicit val tupleForJoinEncoder: Encoder[(String, Publication)] = Encoders.tuple(Encoders.STRING, mapEncoderPubs) org.apache.spark.sql.Encoders.kryo[Publication]
implicit val tupleForJoinEncoder: Encoder[(String, Publication)] =
Encoders.tuple(Encoders.STRING, mapEncoderPubs)
logger.info("Phase 1) make uninue DOI in Papers:") logger.info("Phase 1) make uninue DOI in Papers:")
val d: Dataset[MagPapers] = spark.read.load(s"$sourcePath/Papers").as[MagPapers] val d: Dataset[MagPapers] = spark.read.load(s"$sourcePath/Papers").as[MagPapers]
@ -58,16 +84,23 @@ object SparkProcessMAG {
logger.info("Phase 0) Enrich Publication with description") logger.info("Phase 0) Enrich Publication with description")
val pa = spark.read.load(s"$sourcePath/PaperAbstractsInvertedIndex").as[MagPaperAbstract] val pa = spark.read.load(s"$sourcePath/PaperAbstractsInvertedIndex").as[MagPaperAbstract]
pa.map(ConversionUtil.transformPaperAbstract).write.mode(SaveMode.Overwrite).save(s"$workingPath/PaperAbstract") pa.map(ConversionUtil.transformPaperAbstract)
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/PaperAbstract")
logger.info("Phase 3) Group Author by PaperId") logger.info("Phase 3) Group Author by PaperId")
val authors = spark.read.load(s"$sourcePath/Authors").as[MagAuthor] val authors = spark.read.load(s"$sourcePath/Authors").as[MagAuthor]
val affiliation = spark.read.load(s"$sourcePath/Affiliations").as[MagAffiliation] val affiliation = spark.read.load(s"$sourcePath/Affiliations").as[MagAffiliation]
val paperAuthorAffiliation = spark.read.load(s"$sourcePath/PaperAuthorAffiliations").as[MagPaperAuthorAffiliation] val paperAuthorAffiliation =
spark.read.load(s"$sourcePath/PaperAuthorAffiliations").as[MagPaperAuthorAffiliation]
paperAuthorAffiliation.joinWith(authors, paperAuthorAffiliation("AuthorId").equalTo(authors("AuthorId"))) paperAuthorAffiliation
.map { case (a: MagPaperAuthorAffiliation, b: MagAuthor) => (a.AffiliationId, MagPaperAuthorDenormalized(a.PaperId, b, null, a.AuthorSequenceNumber)) } .joinWith(authors, paperAuthorAffiliation("AuthorId").equalTo(authors("AuthorId")))
.map { case (a: MagPaperAuthorAffiliation, b: MagAuthor) =>
(a.AffiliationId, MagPaperAuthorDenormalized(a.PaperId, b, null, a.AuthorSequenceNumber))
}
.joinWith(affiliation, affiliation("AffiliationId").equalTo(col("_1")), "left") .joinWith(affiliation, affiliation("AffiliationId").equalTo(col("_1")), "left")
.map(s => { .map(s => {
val mpa = s._1._2 val mpa = s._1._2
@ -76,79 +109,133 @@ object SparkProcessMAG {
MagPaperAuthorDenormalized(mpa.PaperId, mpa.author, af.DisplayName, mpa.sequenceNumber) MagPaperAuthorDenormalized(mpa.PaperId, mpa.author, af.DisplayName, mpa.sequenceNumber)
} else } else
mpa mpa
}).groupBy("PaperId").agg(collect_list(struct($"author", $"affiliation", $"sequenceNumber")).as("authors")) })
.write.mode(SaveMode.Overwrite).save(s"$workingPath/merge_step_1_paper_authors") .groupBy("PaperId")
.agg(collect_list(struct($"author", $"affiliation", $"sequenceNumber")).as("authors"))
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/merge_step_1_paper_authors")
logger.info("Phase 4) create First Version of publication Entity with Paper Journal and Authors") logger.info(
"Phase 4) create First Version of publication Entity with Paper Journal and Authors"
)
val journals = spark.read.load(s"$sourcePath/Journals").as[MagJournal] val journals = spark.read.load(s"$sourcePath/Journals").as[MagJournal]
val papers = spark.read.load((s"$workingPath/Papers_distinct")).as[MagPapers] val papers = spark.read.load(s"$workingPath/Papers_distinct").as[MagPapers]
val paperWithAuthors = spark.read.load(s"$workingPath/merge_step_1_paper_authors").as[MagPaperWithAuthorList] val paperWithAuthors =
spark.read.load(s"$workingPath/merge_step_1_paper_authors").as[MagPaperWithAuthorList]
val firstJoin = papers.joinWith(journals, papers("JournalId").equalTo(journals("JournalId")), "left") val firstJoin =
firstJoin.joinWith(paperWithAuthors, firstJoin("_1.PaperId").equalTo(paperWithAuthors("PaperId")), "left") papers.joinWith(journals, papers("JournalId").equalTo(journals("JournalId")), "left")
firstJoin
.joinWith(
paperWithAuthors,
firstJoin("_1.PaperId").equalTo(paperWithAuthors("PaperId")),
"left"
)
.map { a => ConversionUtil.createOAFFromJournalAuthorPaper(a) } .map { a => ConversionUtil.createOAFFromJournalAuthorPaper(a) }
.write.mode(SaveMode.Overwrite).save(s"$workingPath/merge_step_2") .write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/merge_step_2")
var magPubs: Dataset[(String, Publication)] = var magPubs: Dataset[(String, Publication)] =
spark.read.load(s"$workingPath/merge_step_2").as[Publication] spark.read
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p)).as[(String, Publication)] .load(s"$workingPath/merge_step_2")
.as[Publication]
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p))
.as[(String, Publication)]
val conference = spark.read
.load(s"$sourcePath/ConferenceInstances")
.select(
$"ConferenceInstanceId".as("ci"),
$"DisplayName",
$"Location",
$"StartDate",
$"EndDate"
)
val conferenceInstance = conference
.joinWith(papers, papers("ConferenceInstanceId").equalTo(conference("ci")))
.select(
$"_1.ci",
$"_1.DisplayName",
$"_1.Location",
$"_1.StartDate",
$"_1.EndDate",
$"_2.PaperId"
)
.as[MagConferenceInstance]
val conference = spark.read.load(s"$sourcePath/ConferenceInstances") magPubs
.select($"ConferenceInstanceId".as("ci"), $"DisplayName", $"Location", $"StartDate", $"EndDate") .joinWith(conferenceInstance, col("_1").equalTo(conferenceInstance("PaperId")), "left")
val conferenceInstance = conference.joinWith(papers, papers("ConferenceInstanceId").equalTo(conference("ci")))
.select($"_1.ci", $"_1.DisplayName", $"_1.Location", $"_1.StartDate", $"_1.EndDate", $"_2.PaperId").as[MagConferenceInstance]
magPubs.joinWith(conferenceInstance, col("_1").equalTo(conferenceInstance("PaperId")), "left")
.map(item => ConversionUtil.updatePubsWithConferenceInfo(item)) .map(item => ConversionUtil.updatePubsWithConferenceInfo(item))
.write .write
.mode(SaveMode.Overwrite) .mode(SaveMode.Overwrite)
.save(s"$workingPath/merge_step_3") .save(s"$workingPath/merge_step_3")
val paperAbstract = spark.read.load(s"$workingPath/PaperAbstract").as[MagPaperAbstract]
val paperAbstract = spark.read.load((s"$workingPath/PaperAbstract")).as[MagPaperAbstract] magPubs = spark.read
.load(s"$workingPath/merge_step_3")
.as[Publication]
magPubs = spark.read.load(s"$workingPath/merge_step_3").as[Publication] .map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p))
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p)).as[(String, Publication)] .as[(String, Publication)]
magPubs.joinWith(paperAbstract, col("_1").equalTo(paperAbstract("PaperId")), "left")
.map(item => ConversionUtil.updatePubsWithDescription(item)
).write.mode(SaveMode.Overwrite).save(s"$workingPath/merge_step_4")
magPubs
.joinWith(paperAbstract, col("_1").equalTo(paperAbstract("PaperId")), "left")
.map(item => ConversionUtil.updatePubsWithDescription(item))
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/merge_step_4")
logger.info("Phase 7) Enrich Publication with FieldOfStudy") logger.info("Phase 7) Enrich Publication with FieldOfStudy")
magPubs = spark.read.load(s"$workingPath/merge_step_4").as[Publication] magPubs = spark.read
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p)).as[(String, Publication)] .load(s"$workingPath/merge_step_4")
.as[Publication]
.map(p => (ConversionUtil.extractMagIdentifier(p.getOriginalId.asScala), p))
.as[(String, Publication)]
val fos = spark.read.load(s"$sourcePath/FieldsOfStudy").select($"FieldOfStudyId".alias("fos"), $"DisplayName", $"MainType") val fos = spark.read
.load(s"$sourcePath/FieldsOfStudy")
.select($"FieldOfStudyId".alias("fos"), $"DisplayName", $"MainType")
val pfos = spark.read.load(s"$sourcePath/PaperFieldsOfStudy") val pfos = spark.read.load(s"$sourcePath/PaperFieldsOfStudy")
val paperField = pfos.joinWith(fos, fos("fos").equalTo(pfos("FieldOfStudyId"))) val paperField = pfos
.joinWith(fos, fos("fos").equalTo(pfos("FieldOfStudyId")))
.select($"_1.FieldOfStudyId", $"_2.DisplayName", $"_2.MainType", $"_1.PaperId", $"_1.Score") .select($"_1.FieldOfStudyId", $"_2.DisplayName", $"_2.MainType", $"_1.PaperId", $"_1.Score")
.groupBy($"PaperId").agg(collect_list(struct($"FieldOfStudyId", $"DisplayName", $"MainType", $"Score")).as("subjects")) .groupBy($"PaperId")
.agg(
collect_list(struct($"FieldOfStudyId", $"DisplayName", $"MainType", $"Score"))
.as("subjects")
)
.as[MagFieldOfStudy] .as[MagFieldOfStudy]
magPubs.joinWith(paperField, col("_1") magPubs
.equalTo(paperField("PaperId")), "left") .joinWith(
paperField,
col("_1")
.equalTo(paperField("PaperId")),
"left"
)
.map(item => ConversionUtil.updatePubsWithSubject(item)) .map(item => ConversionUtil.updatePubsWithSubject(item))
.write.mode(SaveMode.Overwrite) .write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/mag_publication") .save(s"$workingPath/mag_publication")
spark.read.load(s"$workingPath/mag_publication").as[Publication] spark.read
.load(s"$workingPath/mag_publication")
.as[Publication]
.filter(p => p.getId != null) .filter(p => p.getId != null)
.groupByKey(p => p.getId) .groupByKey(p => p.getId)
.reduceGroups((a: Publication, b: Publication) => ConversionUtil.mergePublication(a, b)) .reduceGroups((a: Publication, b: Publication) => ConversionUtil.mergePublication(a, b))
.map(_._2) .map(_._2)
.write.mode(SaveMode.Overwrite).save(s"$targetPath/magPublication") .write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/magPublication")
} }
} }

View File

@ -15,15 +15,20 @@ import org.slf4j.{Logger, LoggerFactory}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
case class ORCIDItem(doi: String, authors: List[OrcidAuthor]) {}
case class ORCIDItem(doi:String, authors:List[OrcidAuthor]){} case class OrcidAuthor(
case class OrcidAuthor(oid:String, name:Option[String], surname:Option[String], creditName:Option[String], otherNames:Option[List[String]], errorCode:Option[String]){} oid: String,
case class OrcidWork(oid:String, doi:String) name: Option[String],
surname: Option[String],
creditName: Option[String],
otherNames: Option[List[String]],
errorCode: Option[String]
) {}
case class OrcidWork(oid: String, doi: String)
case class ORCIDElement(doi: String, authors: List[ORCIDItem]) {}
case class ORCIDElement(doi:String, authors:List[ORCIDItem]) {}
object ORCIDToOAF { object ORCIDToOAF {
val logger: Logger = LoggerFactory.getLogger(ORCIDToOAF.getClass) val logger: Logger = LoggerFactory.getLogger(ORCIDToOAF.getClass)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
@ -41,7 +46,7 @@ object ORCIDToOAF {
def extractValueFromInputString(input: String): (String, String) = { def extractValueFromInputString(input: String): (String, String) = {
val i = input.indexOf('[') val i = input.indexOf('[')
if (i <5) { if (i < 5) {
return null return null
} }
val orcidList = input.substring(i, input.length - 1) val orcidList = input.substring(i, input.length - 1)
@ -51,17 +56,16 @@ object ORCIDToOAF {
} else null } else null
} }
def strValid(s: Option[String]): Boolean = {
def strValid(s:Option[String]) : Boolean = {
s.isDefined && s.get.nonEmpty s.isDefined && s.get.nonEmpty
} }
def authorValid(author:OrcidAuthor): Boolean ={ def authorValid(author: OrcidAuthor): Boolean = {
if (strValid(author.name) && strValid(author.surname)) { if (strValid(author.name) && strValid(author.surname)) {
return true return true
} }
if (strValid(author.surname)) { if (strValid(author.surname)) {
return true return true
} }
if (strValid(author.creditName)) { if (strValid(author.creditName)) {
return true return true
@ -70,37 +74,35 @@ object ORCIDToOAF {
false false
} }
def extractDOIWorks(input: String): List[OrcidWork] = {
def extractDOIWorks(input:String): List[OrcidWork] = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val oid = (json \ "workDetail" \"oid").extractOrElse[String](null) val oid = (json \ "workDetail" \ "oid").extractOrElse[String](null)
if (oid == null) if (oid == null)
return List() return List()
val doi:List[(String, String)] = for { val doi: List[(String, String)] = for {
JObject(extIds) <- json \ "workDetail" \"extIds" JObject(extIds) <- json \ "workDetail" \ "extIds"
JField("type", JString(typeValue)) <- extIds JField("type", JString(typeValue)) <- extIds
JField("value", JString(value)) <- extIds JField("value", JString(value)) <- extIds
if "doi".equalsIgnoreCase(typeValue) if "doi".equalsIgnoreCase(typeValue)
} yield (typeValue, DoiBoostMappingUtil.normalizeDoi(value)) } yield (typeValue, DoiBoostMappingUtil.normalizeDoi(value))
if (doi.nonEmpty) { if (doi.nonEmpty) {
return doi.map(l =>OrcidWork(oid, l._2)) return doi.map(l => OrcidWork(oid, l._2))
} }
List() List()
} }
def convertORCIDAuthor(input:String): OrcidAuthor = { def convertORCIDAuthor(input: String): OrcidAuthor = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
(json \"authorData" ).extractOrElse[OrcidAuthor](null) (json \ "authorData").extractOrElse[OrcidAuthor](null)
} }
def convertTOOAF(input: ORCIDItem): Publication = {
def convertTOOAF(input:ORCIDItem) :Publication = {
val doi = input.doi val doi = input.doi
val pub:Publication = new Publication val pub: Publication = new Publication
pub.setPid(List(createSP(doi, "doi", ModelConstants.DNET_PID_TYPES)).asJava) pub.setPid(List(createSP(doi, "doi", ModelConstants.DNET_PID_TYPES)).asJava)
pub.setDataInfo(generateDataInfo()) pub.setDataInfo(generateDataInfo())
@ -108,9 +110,9 @@ object ORCIDToOAF {
if (pub.getId == null) if (pub.getId == null)
return null return null
try{ try {
val l:List[Author]= input.authors.map(a=> { val l: List[Author] = input.authors.map(a => {
generateAuthor(a) generateAuthor(a)
})(collection.breakOut) })(collection.breakOut)
@ -125,30 +127,38 @@ object ORCIDToOAF {
} }
} }
def generateOricPIDDatainfo():DataInfo = { def generateOricPIDDatainfo(): DataInfo = {
val di =DoiBoostMappingUtil.generateDataInfo("0.91") val di = DoiBoostMappingUtil.generateDataInfo("0.91")
di.getProvenanceaction.setClassid(ModelConstants.SYSIMPORT_CROSSWALK_ENTITYREGISTRY) di.getProvenanceaction.setClassid(ModelConstants.SYSIMPORT_CROSSWALK_ENTITYREGISTRY)
di.getProvenanceaction.setClassname(ModelConstants.HARVESTED) di.getProvenanceaction.setClassname(ModelConstants.HARVESTED)
di di
} }
def generateAuthor(o : OrcidAuthor): Author = { def generateAuthor(o: OrcidAuthor): Author = {
val a = new Author val a = new Author
if (strValid(o.name)) { if (strValid(o.name)) {
a.setName(o.name.get.capitalize) a.setName(o.name.get.capitalize)
} }
if (strValid(o.surname)) { if (strValid(o.surname)) {
a.setSurname(o.surname.get.capitalize) a.setSurname(o.surname.get.capitalize)
} }
if(strValid(o.name) && strValid(o.surname)) if (strValid(o.name) && strValid(o.surname))
a.setFullname(s"${o.name.get.capitalize} ${o.surname.get.capitalize}") a.setFullname(s"${o.name.get.capitalize} ${o.surname.get.capitalize}")
else if (strValid(o.creditName)) else if (strValid(o.creditName))
a.setFullname(o.creditName.get) a.setFullname(o.creditName.get)
if (StringUtils.isNotBlank(o.oid)) if (StringUtils.isNotBlank(o.oid))
a.setPid(List(createSP(o.oid, ModelConstants.ORCID, ModelConstants.DNET_PID_TYPES, generateOricPIDDatainfo())).asJava) a.setPid(
List(
createSP(
o.oid,
ModelConstants.ORCID,
ModelConstants.DNET_PID_TYPES,
generateOricPIDDatainfo()
)
).asJava
)
a a
} }
}
}

View File

@ -10,11 +10,11 @@ import org.slf4j.{Logger, LoggerFactory}
object SparkConvertORCIDToOAF { object SparkConvertORCIDToOAF {
val logger: Logger = LoggerFactory.getLogger(SparkConvertORCIDToOAF.getClass) val logger: Logger = LoggerFactory.getLogger(SparkConvertORCIDToOAF.getClass)
def run(spark: SparkSession, workingPath: String, targetPath: String): Unit = { def run(spark: SparkSession, workingPath: String, targetPath: String): Unit = {
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication]
import spark.implicits._ import spark.implicits._
val dataset: Dataset[ORCIDItem] = spark.read.load(s"$workingPath/orcidworksWithAuthor").as[ORCIDItem] val dataset: Dataset[ORCIDItem] =
spark.read.load(s"$workingPath/orcidworksWithAuthor").as[ORCIDItem]
logger.info("Converting ORCID to OAF") logger.info("Converting ORCID to OAF")
dataset.map(o => ORCIDToOAF.convertTOOAF(o)).write.mode(SaveMode.Overwrite).save(targetPath) dataset.map(o => ORCIDToOAF.convertTOOAF(o)).write.mode(SaveMode.Overwrite).save(targetPath)
@ -22,15 +22,21 @@ object SparkConvertORCIDToOAF {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(SparkConvertORCIDToOAF.getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/convert_orcid_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
SparkConvertORCIDToOAF.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/convert_orcid_to_oaf_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val workingPath = parser.get("workingPath") val workingPath = parser.get("workingPath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")

View File

@ -17,45 +17,72 @@ object SparkPreprocessORCID {
} }
def run(spark: SparkSession, sourcePath: String, workingPath: String): Unit = { def run(spark: SparkSession, sourcePath: String, workingPath: String): Unit = {
import spark.implicits._ import spark.implicits._
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication]
val inputRDD: RDD[OrcidAuthor] = spark.sparkContext.textFile(s"$sourcePath/authors").map(s => ORCIDToOAF.convertORCIDAuthor(s)).filter(s => s != null).filter(s => ORCIDToOAF.authorValid(s)) val inputRDD: RDD[OrcidAuthor] = spark.sparkContext
.textFile(s"$sourcePath/authors")
.map(s => ORCIDToOAF.convertORCIDAuthor(s))
.filter(s => s != null)
.filter(s => ORCIDToOAF.authorValid(s))
spark.createDataset(inputRDD).as[OrcidAuthor].write.mode(SaveMode.Overwrite).save(s"$workingPath/author") spark
.createDataset(inputRDD)
.as[OrcidAuthor]
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/author")
val res = spark.sparkContext.textFile(s"$sourcePath/works").flatMap(s => ORCIDToOAF.extractDOIWorks(s)).filter(s => s != null) val res = spark.sparkContext
.textFile(s"$sourcePath/works")
.flatMap(s => ORCIDToOAF.extractDOIWorks(s))
.filter(s => s != null)
spark.createDataset(res).as[OrcidWork].write.mode(SaveMode.Overwrite).save(s"$workingPath/works") spark
.createDataset(res)
.as[OrcidWork]
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/works")
val authors: Dataset[OrcidAuthor] = spark.read.load(s"$workingPath/author").as[OrcidAuthor] val authors: Dataset[OrcidAuthor] = spark.read.load(s"$workingPath/author").as[OrcidAuthor]
val works: Dataset[OrcidWork] = spark.read.load(s"$workingPath/works").as[OrcidWork] val works: Dataset[OrcidWork] = spark.read.load(s"$workingPath/works").as[OrcidWork]
works.joinWith(authors, authors("oid").equalTo(works("oid"))) works
.joinWith(authors, authors("oid").equalTo(works("oid")))
.map(i => { .map(i => {
val doi = i._1.doi val doi = i._1.doi
val author = i._2 val author = i._2
(doi, author) (doi, author)
}).groupBy(col("_1").alias("doi")) })
.agg(collect_list(col("_2")).alias("authors")).as[ORCIDItem] .groupBy(col("_1").alias("doi"))
.agg(collect_list(col("_2")).alias("authors"))
.as[ORCIDItem]
.map(s => fixORCIDItem(s)) .map(s => fixORCIDItem(s))
.write.mode(SaveMode.Overwrite).save(s"$workingPath/orcidworksWithAuthor") .write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/orcidworksWithAuthor")
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(SparkConvertORCIDToOAF.getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/preprocess_orcid_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
SparkConvertORCIDToOAF.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/preprocess_orcid_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
val workingPath = parser.get("workingPath") val workingPath = parser.get("workingPath")

View File

@ -13,28 +13,35 @@ object SparkMapUnpayWallToOAF {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass) val logger: Logger = LoggerFactory.getLogger(SparkMapDumpIntoOAF.getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(SparkMapDumpIntoOAF.getClass.getResourceAsStream("/eu/dnetlib/dhp/doiboost/convert_uw_to_oaf_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
SparkMapDumpIntoOAF.getClass.getResourceAsStream(
"/eu/dnetlib/dhp/doiboost/convert_uw_to_oaf_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication]
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
val inputRDD: RDD[String] = spark.sparkContext.textFile(s"$sourcePath") val inputRDD: RDD[String] = spark.sparkContext.textFile(s"$sourcePath")
logger.info("Converting UnpayWall to OAF") logger.info("Converting UnpayWall to OAF")
val d: Dataset[Publication] = spark.createDataset(inputRDD.map(UnpayWallToOAF.convertToOAF).filter(p => p != null)).as[Publication] val d: Dataset[Publication] = spark
.createDataset(inputRDD.map(UnpayWallToOAF.convertToOAF).filter(p => p != null))
.as[Publication]
d.write.mode(SaveMode.Overwrite).save(targetPath) d.write.mode(SaveMode.Overwrite).save(targetPath)
} }

View File

@ -12,33 +12,41 @@ import org.slf4j.{Logger, LoggerFactory}
import scala.collection.JavaConverters._ import scala.collection.JavaConverters._
case class OALocation(
evidence: Option[String],
case class OALocation(evidence:Option[String], host_type:Option[String], is_best:Option[Boolean], license: Option[String], pmh_id:Option[String], updated:Option[String], host_type: Option[String],
url:Option[String], url_for_landing_page:Option[String], url_for_pdf:Option[String], version:Option[String]) {} is_best: Option[Boolean],
license: Option[String],
pmh_id: Option[String],
updated: Option[String],
url: Option[String],
url_for_landing_page: Option[String],
url_for_pdf: Option[String],
version: Option[String]
) {}
object UnpayWallToOAF { object UnpayWallToOAF {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
def get_unpaywall_color(input: String): Option[OpenAccessRoute] = {
def get_unpaywall_color(input:String):Option[OpenAccessRoute] = { if (input == null || input.equalsIgnoreCase("close"))
if(input == null || input.equalsIgnoreCase("close"))
return None return None
if(input.equalsIgnoreCase("green")) if (input.equalsIgnoreCase("green"))
return Some(OpenAccessRoute.green) return Some(OpenAccessRoute.green)
if(input.equalsIgnoreCase("bronze")) if (input.equalsIgnoreCase("bronze"))
return Some(OpenAccessRoute.bronze) return Some(OpenAccessRoute.bronze)
if(input.equalsIgnoreCase("hybrid")) if (input.equalsIgnoreCase("hybrid"))
return Some(OpenAccessRoute.hybrid) return Some(OpenAccessRoute.hybrid)
else else
return Some(OpenAccessRoute.gold) return Some(OpenAccessRoute.gold)
} }
def get_color(is_oa:Boolean, location: OALocation, journal_is_oa:Boolean):Option[OpenAccessRoute] = { def get_color(
is_oa: Boolean,
location: OALocation,
journal_is_oa: Boolean
): Option[OpenAccessRoute] = {
if (is_oa) { if (is_oa) {
if (location.host_type.isDefined) { if (location.host_type.isDefined) {
{ {
@ -62,23 +70,22 @@ object UnpayWallToOAF {
None None
} }
def convertToOAF(input: String): Publication = {
def convertToOAF(input:String):Publication = {
val pub = new Publication val pub = new Publication
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val doi = DoiBoostMappingUtil.normalizeDoi((json \"doi").extract[String]) val doi = DoiBoostMappingUtil.normalizeDoi((json \ "doi").extract[String])
if(doi == null) if (doi == null)
return null return null
val is_oa = (json\ "is_oa").extract[Boolean] val is_oa = (json \ "is_oa").extract[Boolean]
val journal_is_oa= (json\ "journal_is_oa").extract[Boolean] val journal_is_oa = (json \ "journal_is_oa").extract[Boolean]
val oaLocation:OALocation = (json \ "best_oa_location").extractOrElse[OALocation](null) val oaLocation: OALocation = (json \ "best_oa_location").extractOrElse[OALocation](null)
val colour = get_unpaywall_color((json \ "oa_status").extractOrElse[String](null)) val colour = get_unpaywall_color((json \ "oa_status").extractOrElse[String](null))
@ -88,9 +95,9 @@ object UnpayWallToOAF {
if (!is_oa) if (!is_oa)
return null return null
if(oaLocation== null || oaLocation.url.isEmpty) if (oaLocation == null || oaLocation.url.isEmpty)
return null return null
val i :Instance= new Instance() val i: Instance = new Instance()
i.setCollectedfrom(createUnpayWallCollectedFrom()) i.setCollectedfrom(createUnpayWallCollectedFrom())
// i.setAccessright(getOpenAccessQualifier()) // i.setAccessright(getOpenAccessQualifier())
@ -122,7 +129,4 @@ object UnpayWallToOAF {
} }
} }

View File

@ -6,15 +6,11 @@ import org.junit.jupiter.api.Test
class DoiBoostHostedByMapTest { class DoiBoostHostedByMapTest {
@Test @Test
def idDSGeneration():Unit = { def idDSGeneration(): Unit = {
val s ="doajarticles::0066-782X" val s = "doajarticles::0066-782X"
println(DoiBoostMappingUtil.generateDSId(s)) println(DoiBoostMappingUtil.generateDSId(s))
} }
} }

View File

@ -6,41 +6,39 @@ import org.junit.jupiter.api.Test
class NormalizeDOITest { class NormalizeDOITest {
@Test @Test
def doiDSLowerCase():Unit = { def doiDSLowerCase(): Unit = {
val doi ="10.1042/BCJ20160876" val doi = "10.1042/BCJ20160876"
assert(DoiBoostMappingUtil.normalizeDoi(doi).equals(doi.toLowerCase())) assert(DoiBoostMappingUtil.normalizeDoi(doi).equals(doi.toLowerCase()))
} }
@Test @Test
def doiFiltered():Unit = { def doiFiltered(): Unit = {
val doi = "0.1042/BCJ20160876" val doi = "0.1042/BCJ20160876"
assert(DoiBoostMappingUtil.normalizeDoi(doi) == null) assert(DoiBoostMappingUtil.normalizeDoi(doi) == null)
} }
@Test @Test
def doiFiltered2():Unit = { def doiFiltered2(): Unit = {
val doi = "https://doi.org/0.1042/BCJ20160876" val doi = "https://doi.org/0.1042/BCJ20160876"
assert(DoiBoostMappingUtil.normalizeDoi(doi) == null) assert(DoiBoostMappingUtil.normalizeDoi(doi) == null)
} }
@Test @Test
def doiCleaned():Unit = { def doiCleaned(): Unit = {
val doi = "https://doi.org/10.1042/BCJ20160876" val doi = "https://doi.org/10.1042/BCJ20160876"
assert(DoiBoostMappingUtil.normalizeDoi(doi).equals("10.1042/BCJ20160876".toLowerCase())) assert(DoiBoostMappingUtil.normalizeDoi(doi).equals("10.1042/BCJ20160876".toLowerCase()))
} }
@Test @Test
def doiCleaned1():Unit = { def doiCleaned1(): Unit = {
val doi = "https://doi.org/10.1042/ BCJ20160876" val doi = "https://doi.org/10.1042/ BCJ20160876"
assert(DoiBoostMappingUtil.normalizeDoi(doi).equals("10.1042/BCJ20160876".toLowerCase())) assert(DoiBoostMappingUtil.normalizeDoi(doi).equals("10.1042/BCJ20160876".toLowerCase()))
} }
} }

View File

@ -12,20 +12,24 @@ import scala.collection.JavaConverters._
import scala.io.Source import scala.io.Source
import scala.util.matching.Regex import scala.util.matching.Regex
class CrossrefMappingTest { class CrossrefMappingTest {
val logger: Logger = LoggerFactory.getLogger(Crossref2Oaf.getClass) val logger: Logger = LoggerFactory.getLogger(Crossref2Oaf.getClass)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
@Test @Test
def testFunderRelationshipsMapping(): Unit = { def testFunderRelationshipsMapping(): Unit = {
val template = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article_funder_template.json")).mkString val template = Source
val funder_doi = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/funder_doi")).mkString .fromInputStream(
val funder_name = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/funder_doi")).mkString getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article_funder_template.json")
)
.mkString
val funder_doi = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/funder_doi"))
.mkString
val funder_name = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/funder_doi"))
.mkString
for (line <- funder_doi.lines) { for (line <- funder_doi.lines) {
val json = template.replace("%s", line) val json = template.replace("%s", line)
@ -43,7 +47,8 @@ class CrossrefMappingTest {
def checkRelation(generatedOAF: List[Oaf]): Unit = { def checkRelation(generatedOAF: List[Oaf]): Unit = {
val rels: List[Relation] = generatedOAF.filter(p => p.isInstanceOf[Relation]).asInstanceOf[List[Relation]] val rels: List[Relation] =
generatedOAF.filter(p => p.isInstanceOf[Relation]).asInstanceOf[List[Relation]]
assertFalse(rels.isEmpty) assertFalse(rels.isEmpty)
rels.foreach(relation => { rels.foreach(relation => {
val relJson = mapper.writeValueAsString(relation) val relJson = mapper.writeValueAsString(relation)
@ -59,22 +64,22 @@ class CrossrefMappingTest {
} }
@Test @Test
def testSum() :Unit = { def testSum(): Unit = {
val from:Long = 1613135645000L val from: Long = 1613135645000L
val delta:Long = 1000000L val delta: Long = 1000000L
println(s"updating from value: $from -> ${from+delta}")
println(s"updating from value: $from -> ${from + delta}")
} }
@Test @Test
def testOrcidID() :Unit = { def testOrcidID(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/orcid_data.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/orcid_data.json")
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -85,17 +90,18 @@ class CrossrefMappingTest {
val items = resultList.filter(p => p.isInstanceOf[Result]) val items = resultList.filter(p => p.isInstanceOf[Result])
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
items.foreach(p => println(mapper.writeValueAsString(p))) items.foreach(p => println(mapper.writeValueAsString(p)))
} }
@Test @Test
def testEmptyTitle() :Unit = { def testEmptyTitle(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/empty_title.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/empty_title.json")
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -106,17 +112,16 @@ class CrossrefMappingTest {
val items = resultList.filter(p => p.isInstanceOf[Result]) val items = resultList.filter(p => p.isInstanceOf[Result])
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
items.foreach(p => println(mapper.writeValueAsString(p))) items.foreach(p => println(mapper.writeValueAsString(p)))
} }
@Test @Test
def testPeerReviewed(): Unit = { def testPeerReviewed(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/prwTest.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/prwTest.json"))
.mkString
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
assertNotNull(json) assertNotNull(json)
@ -128,12 +133,8 @@ class CrossrefMappingTest {
val items = resultList.filter(p => p.isInstanceOf[Result]) val items = resultList.filter(p => p.isInstanceOf[Result])
items.foreach(p => logger.info(mapper.writeValueAsString(p))) items.foreach(p => logger.info(mapper.writeValueAsString(p)))
} }
def extractECAward(award: String): String = { def extractECAward(award: String): String = {
@ -143,21 +144,21 @@ class CrossrefMappingTest {
null null
} }
@Test @Test
def extractECTest(): Unit = { def extractECTest(): Unit = {
val s = "FP7/2007-2013" val s = "FP7/2007-2013"
val awardExtracted = extractECAward(s) val awardExtracted = extractECAward(s)
println(awardExtracted) println(awardExtracted)
println(DHPUtils.md5(awardExtracted)) println(DHPUtils.md5(awardExtracted))
} }
@Test @Test
def testJournalRelation(): Unit = { def testJournalRelation(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/awardTest.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/awardTest.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty) assertFalse(json.isEmpty)
@ -165,20 +166,19 @@ class CrossrefMappingTest {
val resultList: List[Oaf] = Crossref2Oaf.convert(json) val resultList: List[Oaf] = Crossref2Oaf.convert(json)
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val rels:List[Relation] = resultList.filter(p => p.isInstanceOf[Relation]).map(r=> r.asInstanceOf[Relation]) val rels: List[Relation] =
resultList.filter(p => p.isInstanceOf[Relation]).map(r => r.asInstanceOf[Relation])
rels.foreach(s => logger.info(s.getTarget)) rels.foreach(s => logger.info(s.getTarget))
assertEquals(rels.size, 6 ) assertEquals(rels.size, 6)
} }
@Test @Test
def testConvertBookFromCrossRef2Oaf(): Unit = { def testConvertBookFromCrossRef2Oaf(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/book.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/book.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -199,42 +199,62 @@ class CrossrefMappingTest {
assertNotNull(result.getDataInfo, "Datainfo test not null Failed"); assertNotNull(result.getDataInfo, "Datainfo test not null Failed");
assertNotNull( assertNotNull(
result.getDataInfo.getProvenanceaction, result.getDataInfo.getProvenanceaction,
"DataInfo/Provenance test not null Failed"); "DataInfo/Provenance test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassid.isEmpty, result.getDataInfo.getProvenanceaction.getClassid.isEmpty,
"DataInfo/Provenance/classId test not null Failed"); "DataInfo/Provenance/classId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassname.isEmpty, result.getDataInfo.getProvenanceaction.getClassname.isEmpty,
"DataInfo/Provenance/className test not null Failed"); "DataInfo/Provenance/className test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty, result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty,
"DataInfo/Provenance/SchemeId test not null Failed"); "DataInfo/Provenance/SchemeId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemename.isEmpty, result.getDataInfo.getProvenanceaction.getSchemename.isEmpty,
"DataInfo/Provenance/SchemeName test not null Failed"); "DataInfo/Provenance/SchemeName test not null Failed"
);
assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed"); assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed");
assertFalse(result.getCollectedfrom.isEmpty); assertFalse(result.getCollectedfrom.isEmpty);
val collectedFromList = result.getCollectedfrom.asScala val collectedFromList = result.getCollectedfrom.asScala
assert(collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")), "Wrong collected from assertion") assert(
collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")),
assert(collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")), "Wrong collected from assertion") "Wrong collected from assertion"
)
assert(
collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")),
"Wrong collected from assertion"
)
val relevantDates = result.getRelevantdate.asScala val relevantDates = result.getRelevantdate.asScala
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")), "Missing relevant date of type created") assert(
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-online")), "Missing relevant date of type published-online") relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")),
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-print")), "Missing relevant date of type published-print") "Missing relevant date of type created"
)
assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-online")),
"Missing relevant date of type published-online"
)
assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-print")),
"Missing relevant date of type published-print"
)
val rels = resultList.filter(p => p.isInstanceOf[Relation]) val rels = resultList.filter(p => p.isInstanceOf[Relation])
assert(rels.isEmpty) assert(rels.isEmpty)
} }
@Test @Test
def testConvertPreprintFromCrossRef2Oaf(): Unit = { def testConvertPreprintFromCrossRef2Oaf(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/preprint.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/preprint.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -255,44 +275,70 @@ class CrossrefMappingTest {
assertNotNull(result.getDataInfo, "Datainfo test not null Failed"); assertNotNull(result.getDataInfo, "Datainfo test not null Failed");
assertNotNull( assertNotNull(
result.getDataInfo.getProvenanceaction, result.getDataInfo.getProvenanceaction,
"DataInfo/Provenance test not null Failed"); "DataInfo/Provenance test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassid.isEmpty, result.getDataInfo.getProvenanceaction.getClassid.isEmpty,
"DataInfo/Provenance/classId test not null Failed"); "DataInfo/Provenance/classId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassname.isEmpty, result.getDataInfo.getProvenanceaction.getClassname.isEmpty,
"DataInfo/Provenance/className test not null Failed"); "DataInfo/Provenance/className test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty, result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty,
"DataInfo/Provenance/SchemeId test not null Failed"); "DataInfo/Provenance/SchemeId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemename.isEmpty, result.getDataInfo.getProvenanceaction.getSchemename.isEmpty,
"DataInfo/Provenance/SchemeName test not null Failed"); "DataInfo/Provenance/SchemeName test not null Failed"
);
assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed"); assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed");
assertFalse(result.getCollectedfrom.isEmpty); assertFalse(result.getCollectedfrom.isEmpty);
val collectedFromList = result.getCollectedfrom.asScala val collectedFromList = result.getCollectedfrom.asScala
assert(collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")), "Wrong collected from assertion") assert(
collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")),
assert(collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")), "Wrong collected from assertion") "Wrong collected from assertion"
)
assert(
collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")),
"Wrong collected from assertion"
)
val relevantDates = result.getRelevantdate.asScala val relevantDates = result.getRelevantdate.asScala
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")), "Missing relevant date of type created") assert(
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("available")), "Missing relevant date of type available") relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")),
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("accepted")), "Missing relevant date of type accepted") "Missing relevant date of type created"
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-online")), "Missing relevant date of type published-online") )
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-print")), "Missing relevant date of type published-print") assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("available")),
"Missing relevant date of type available"
)
assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("accepted")),
"Missing relevant date of type accepted"
)
assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-online")),
"Missing relevant date of type published-online"
)
assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("published-print")),
"Missing relevant date of type published-print"
)
val rels = resultList.filter(p => p.isInstanceOf[Relation]) val rels = resultList.filter(p => p.isInstanceOf[Relation])
assert(rels.isEmpty) assert(rels.isEmpty)
} }
@Test @Test
def testConvertDatasetFromCrossRef2Oaf(): Unit = { def testConvertDatasetFromCrossRef2Oaf(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/dataset.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/dataset.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -313,19 +359,24 @@ class CrossrefMappingTest {
assertNotNull(result.getDataInfo, "Datainfo test not null Failed"); assertNotNull(result.getDataInfo, "Datainfo test not null Failed");
assertNotNull( assertNotNull(
result.getDataInfo.getProvenanceaction, result.getDataInfo.getProvenanceaction,
"DataInfo/Provenance test not null Failed"); "DataInfo/Provenance test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassid.isEmpty, result.getDataInfo.getProvenanceaction.getClassid.isEmpty,
"DataInfo/Provenance/classId test not null Failed"); "DataInfo/Provenance/classId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassname.isEmpty, result.getDataInfo.getProvenanceaction.getClassname.isEmpty,
"DataInfo/Provenance/className test not null Failed"); "DataInfo/Provenance/className test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty, result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty,
"DataInfo/Provenance/SchemeId test not null Failed"); "DataInfo/Provenance/SchemeId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemename.isEmpty, result.getDataInfo.getProvenanceaction.getSchemename.isEmpty,
"DataInfo/Provenance/SchemeName test not null Failed"); "DataInfo/Provenance/SchemeName test not null Failed"
);
assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed"); assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed");
assertFalse(result.getCollectedfrom.isEmpty); assertFalse(result.getCollectedfrom.isEmpty);
@ -333,7 +384,9 @@ class CrossrefMappingTest {
@Test @Test
def testConvertArticleFromCrossRef2Oaf(): Unit = { def testConvertArticleFromCrossRef2Oaf(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -354,32 +407,45 @@ class CrossrefMappingTest {
assertNotNull(result.getDataInfo, "Datainfo test not null Failed"); assertNotNull(result.getDataInfo, "Datainfo test not null Failed");
assertNotNull( assertNotNull(
result.getDataInfo.getProvenanceaction, result.getDataInfo.getProvenanceaction,
"DataInfo/Provenance test not null Failed"); "DataInfo/Provenance test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassid.isEmpty, result.getDataInfo.getProvenanceaction.getClassid.isEmpty,
"DataInfo/Provenance/classId test not null Failed"); "DataInfo/Provenance/classId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getClassname.isEmpty, result.getDataInfo.getProvenanceaction.getClassname.isEmpty,
"DataInfo/Provenance/className test not null Failed"); "DataInfo/Provenance/className test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty, result.getDataInfo.getProvenanceaction.getSchemeid.isEmpty,
"DataInfo/Provenance/SchemeId test not null Failed"); "DataInfo/Provenance/SchemeId test not null Failed"
);
assertFalse( assertFalse(
result.getDataInfo.getProvenanceaction.getSchemename.isEmpty, result.getDataInfo.getProvenanceaction.getSchemename.isEmpty,
"DataInfo/Provenance/SchemeName test not null Failed"); "DataInfo/Provenance/SchemeName test not null Failed"
);
assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed"); assertNotNull(result.getCollectedfrom, "CollectedFrom test not null Failed");
assertFalse(result.getCollectedfrom.isEmpty); assertFalse(result.getCollectedfrom.isEmpty);
val collectedFromList = result.getCollectedfrom.asScala val collectedFromList = result.getCollectedfrom.asScala
assert(collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")), "Wrong collected from assertion") assert(
collectedFromList.exists(c => c.getKey.equalsIgnoreCase("10|openaire____::081b82f96300b6a6e3d282bad31cb6e2")),
assert(collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")), "Wrong collected from assertion") "Wrong collected from assertion"
)
assert(
collectedFromList.exists(c => c.getValue.equalsIgnoreCase("crossref")),
"Wrong collected from assertion"
)
val relevantDates = result.getRelevantdate.asScala val relevantDates = result.getRelevantdate.asScala
assert(relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")), "Missing relevant date of type created") assert(
relevantDates.exists(d => d.getQualifier.getClassid.equalsIgnoreCase("created")),
"Missing relevant date of type created"
)
val rels = resultList.filter(p => p.isInstanceOf[Relation]).asInstanceOf[List[Relation]] val rels = resultList.filter(p => p.isInstanceOf[Relation]).asInstanceOf[List[Relation]]
assertFalse(rels.isEmpty) assertFalse(rels.isEmpty)
@ -393,15 +459,14 @@ class CrossrefMappingTest {
}) })
} }
@Test @Test
def testSetDateOfAcceptanceCrossRef2Oaf(): Unit = { def testSetDateOfAcceptanceCrossRef2Oaf(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/dump_file.json")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/dump_file.json"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -421,8 +486,13 @@ class CrossrefMappingTest {
@Test @Test
def testNormalizeDOI(): Unit = { def testNormalizeDOI(): Unit = {
val template = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article_funder_template.json")).mkString val template = Source
val line :String = "\"funder\": [{\"name\": \"Wellcome Trust Masters Fellowship\",\"award\": [\"090633\"]}]," .fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article_funder_template.json")
)
.mkString
val line: String =
"\"funder\": [{\"name\": \"Wellcome Trust Masters Fellowship\",\"award\": [\"090633\"]}],"
val json = template.replace("%s", line) val json = template.replace("%s", line)
val resultList: List[Oaf] = Crossref2Oaf.convert(json) val resultList: List[Oaf] = Crossref2Oaf.convert(json)
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
@ -431,13 +501,17 @@ class CrossrefMappingTest {
result.getPid.asScala.foreach(pid => assertTrue(pid.getQualifier.getClassid.equals("doi"))) result.getPid.asScala.foreach(pid => assertTrue(pid.getQualifier.getClassid.equals("doi")))
assertTrue(result.getPid.size() == 1) assertTrue(result.getPid.size() == 1)
result.getPid.asScala.foreach(pid => assertTrue(pid.getValue.equals("10.26850/1678-4618EQJ.v35.1.2010.p41-46".toLowerCase()))) result.getPid.asScala.foreach(pid =>
assertTrue(pid.getValue.equals("10.26850/1678-4618EQJ.v35.1.2010.p41-46".toLowerCase()))
)
} }
@Test @Test
def testNormalizeDOI2(): Unit = { def testNormalizeDOI2(): Unit = {
val template = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article.json")).mkString val template = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/article.json"))
.mkString
val resultList: List[Oaf] = Crossref2Oaf.convert(template) val resultList: List[Oaf] = Crossref2Oaf.convert(template)
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
@ -446,14 +520,19 @@ class CrossrefMappingTest {
result.getPid.asScala.foreach(pid => assertTrue(pid.getQualifier.getClassid.equals("doi"))) result.getPid.asScala.foreach(pid => assertTrue(pid.getQualifier.getClassid.equals("doi")))
assertTrue(result.getPid.size() == 1) assertTrue(result.getPid.size() == 1)
result.getPid.asScala.foreach(pid => assertTrue(pid.getValue.equals("10.26850/1678-4618EQJ.v35.1.2010.p41-46".toLowerCase()))) result.getPid.asScala.foreach(pid =>
assertTrue(pid.getValue.equals("10.26850/1678-4618EQJ.v35.1.2010.p41-46".toLowerCase()))
)
} }
@Test @Test
def testLicenseVorClosed() :Unit = { def testLicenseVorClosed(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_vor.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_vor.json")
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -462,25 +541,28 @@ class CrossrefMappingTest {
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
println(mapper.writeValueAsString(item)) println(mapper.writeValueAsString(item))
assertTrue(item.getInstance().asScala exists (i => i.getLicense.getValue.equals("https://www.springer.com/vor"))) assertTrue(
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("CLOSED"))) item.getInstance().asScala exists (i => i.getLicense.getValue.equals("https://www.springer.com/vor"))
)
assertTrue(
item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("CLOSED"))
)
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null)) assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null))
} }
@Test @Test
def testLicenseOpen() :Unit = { def testLicenseOpen(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_open.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_open.json")
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -489,21 +571,33 @@ class CrossrefMappingTest {
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result] assertTrue(
item.getInstance().asScala exists (i =>
assertTrue(item.getInstance().asScala exists (i => i.getLicense.getValue.equals("http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html"))) i.getLicense.getValue.equals(
"http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html"
)
)
)
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("OPEN"))) assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("OPEN")))
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == OpenAccessRoute.hybrid)) assertTrue(
item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == OpenAccessRoute.hybrid)
)
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
println(mapper.writeValueAsString(item)) println(mapper.writeValueAsString(item))
} }
@Test @Test
def testLicenseEmbargoOpen() :Unit = { def testLicenseEmbargoOpen(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_embargo_open.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/doiboost/crossref/publication_license_embargo_open.json"
)
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -512,21 +606,33 @@ class CrossrefMappingTest {
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result] assertTrue(
item.getInstance().asScala exists (i =>
assertTrue(item.getInstance().asScala exists (i => i.getLicense.getValue.equals("https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"))) i.getLicense.getValue.equals(
"https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"
)
)
)
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("OPEN"))) assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("OPEN")))
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == OpenAccessRoute.hybrid)) assertTrue(
item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == OpenAccessRoute.hybrid)
)
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
println(mapper.writeValueAsString(item)) println(mapper.writeValueAsString(item))
} }
@Test @Test
def testLicenseEmbargo() :Unit = { def testLicenseEmbargo(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_embargo.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/doiboost/crossref/publication_license_embargo.json"
)
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -535,35 +641,18 @@ class CrossrefMappingTest {
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result] assertTrue(
item.getInstance().asScala exists (i =>
assertTrue(item.getInstance().asScala exists (i => i.getLicense.getValue.equals("https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"))) i.getLicense.getValue.equals(
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("EMBARGO"))) "https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null)) )
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) )
println(mapper.writeValueAsString(item)) )
assertTrue(
} item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("EMBARGO"))
)
@Test
def testLicenseEmbargoDateTime() :Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/publication_license_embargo_datetime.json")).mkString
assertNotNull(json)
assertFalse(json.isEmpty);
val resultList: List[Oaf] = Crossref2Oaf.convert(json)
assertTrue(resultList.nonEmpty)
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
assertTrue(item.getInstance().asScala exists (i => i.getLicense.getValue.equals("https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model")))
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("EMBARGO")))
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null)) assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null))
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT) mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
println(mapper.writeValueAsString(item)) println(mapper.writeValueAsString(item))
@ -571,9 +660,14 @@ class CrossrefMappingTest {
} }
@Test @Test
def testMultipleURLs() :Unit = { def testLicenseEmbargoDateTime(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/multiple_urls.json")).mkString val json = Source
.fromInputStream(
getClass.getResourceAsStream(
"/eu/dnetlib/doiboost/crossref/publication_license_embargo_datetime.json"
)
)
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty); assertFalse(json.isEmpty);
@ -582,12 +676,47 @@ class CrossrefMappingTest {
assertTrue(resultList.nonEmpty) assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
val item : Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result] assertTrue(
item.getInstance().asScala exists (i =>
i.getLicense.getValue.equals(
"https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model"
)
)
)
assertTrue(
item.getInstance().asScala exists (i => i.getAccessright.getClassid.equals("EMBARGO"))
)
assertTrue(item.getInstance().asScala exists (i => i.getAccessright.getOpenAccessRoute == null))
mapper.getSerializationConfig.enable(SerializationConfig.Feature.INDENT_OUTPUT)
println(mapper.writeValueAsString(item))
}
@Test
def testMultipleURLs(): Unit = {
val json = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/doiboost/crossref/multiple_urls.json")
)
.mkString
assertNotNull(json)
assertFalse(json.isEmpty);
val resultList: List[Oaf] = Crossref2Oaf.convert(json)
assertTrue(resultList.nonEmpty)
val item: Result = resultList.filter(p => p.isInstanceOf[Result]).head.asInstanceOf[Result]
assertEquals(1, item.getInstance().size()) assertEquals(1, item.getInstance().size())
assertEquals(1, item.getInstance().get(0).getUrl().size()) assertEquals(1, item.getInstance().get(0).getUrl().size())
assertEquals("https://doi.org/10.1016/j.jas.2019.105013", item.getInstance().get(0).getUrl().get(0)) assertEquals(
"https://doi.org/10.1016/j.jas.2019.105013",
item.getInstance().get(0).getUrl().get(0)
)
//println(mapper.writeValueAsString(item)) //println(mapper.writeValueAsString(item))
} }

View File

@ -12,43 +12,35 @@ import org.slf4j.{Logger, LoggerFactory}
import java.sql.Timestamp import java.sql.Timestamp
import scala.io.Source import scala.io.Source
class MAGMappingTest { class MAGMappingTest {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
@Test @Test
def testSplitter():Unit = { def testSplitter(): Unit = {
val s = "sports.team" val s = "sports.team"
if (s.contains(".")) { if (s.contains(".")) {
println(s.split("\\.")head) println(s.split("\\.") head)
} }
} }
@Test @Test
def testDate() :Unit = { def testDate(): Unit = {
val p:Timestamp = Timestamp.valueOf("2011-10-02 00:00:00") val p: Timestamp = Timestamp.valueOf("2011-10-02 00:00:00")
println(p.toString.substring(0,10)) println(p.toString.substring(0, 10))
} }
@Test @Test
def buildInvertedIndexTest(): Unit = { def buildInvertedIndexTest(): Unit = {
val json_input = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/mag/invertedIndex.json")).mkString val json_input = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/mag/invertedIndex.json"))
.mkString
val description = ConversionUtil.convertInvertedIndexString(json_input) val description = ConversionUtil.convertInvertedIndexString(json_input)
assertNotNull(description) assertNotNull(description)
assertTrue(description.nonEmpty) assertTrue(description.nonEmpty)
@ -56,10 +48,9 @@ class MAGMappingTest {
logger.debug(description) logger.debug(description)
} }
@Test @Test
def normalizeDoiTest():Unit = { def normalizeDoiTest(): Unit = {
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
@ -78,8 +69,9 @@ class MAGMappingTest {
val schema = Encoders.product[MagPapers].schema val schema = Encoders.product[MagPapers].schema
import spark.implicits._ import spark.implicits._
val magPapers :Dataset[MagPapers] = spark.read.option("multiline",true).schema(schema).json(path).as[MagPapers] val magPapers: Dataset[MagPapers] =
val ret :Dataset[MagPapers] = SparkProcessMAG.getDistinctResults(magPapers) spark.read.option("multiline", true).schema(schema).json(path).as[MagPapers]
val ret: Dataset[MagPapers] = SparkProcessMAG.getDistinctResults(magPapers)
assertTrue(ret.count == 10) assertTrue(ret.count == 10)
ret.take(10).foreach(mp => assertTrue(mp.Doi.equals(mp.Doi.toLowerCase()))) ret.take(10).foreach(mp => assertTrue(mp.Doi.equals(mp.Doi.toLowerCase())))
@ -87,7 +79,7 @@ class MAGMappingTest {
} }
@Test @Test
def normalizeDoiTest2():Unit = { def normalizeDoiTest2(): Unit = {
import org.json4s.DefaultFormats import org.json4s.DefaultFormats
@ -108,15 +100,13 @@ class MAGMappingTest {
val schema = Encoders.product[MagPapers].schema val schema = Encoders.product[MagPapers].schema
import spark.implicits._ import spark.implicits._
val magPapers :Dataset[MagPapers] = spark.read.option("multiline",true).schema(schema).json(path).as[MagPapers] val magPapers: Dataset[MagPapers] =
val ret :Dataset[MagPapers] = SparkProcessMAG.getDistinctResults(magPapers) spark.read.option("multiline", true).schema(schema).json(path).as[MagPapers]
val ret: Dataset[MagPapers] = SparkProcessMAG.getDistinctResults(magPapers)
assertTrue(ret.count == 8) assertTrue(ret.count == 8)
ret.take(8).foreach(mp => assertTrue(mp.Doi.equals(mp.Doi.toLowerCase()))) ret.take(8).foreach(mp => assertTrue(mp.Doi.equals(mp.Doi.toLowerCase())))
spark.close() spark.close()
//ret.take(8).foreach(mp => println(write(mp))) //ret.take(8).foreach(mp => println(write(mp)))
} }
} }

View File

@ -19,8 +19,10 @@ class MappingORCIDToOAFTest {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
@Test @Test
def testExtractData():Unit ={ def testExtractData(): Unit = {
val json = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/orcid/dataOutput")).mkString val json = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/orcid/dataOutput"))
.mkString
assertNotNull(json) assertNotNull(json)
assertFalse(json.isEmpty) assertFalse(json.isEmpty)
json.lines.foreach(s => { json.lines.foreach(s => {
@ -29,10 +31,10 @@ class MappingORCIDToOAFTest {
} }
@Test @Test
def testOAFConvert(@TempDir testDir: Path):Unit ={ def testOAFConvert(@TempDir testDir: Path): Unit = {
val sourcePath:String = getClass.getResource("/eu/dnetlib/doiboost/orcid/datasets").getPath val sourcePath: String = getClass.getResource("/eu/dnetlib/doiboost/orcid/datasets").getPath
val targetPath: String =s"${testDir.toString}/output/orcidPublication" val targetPath: String = s"${testDir.toString}/output/orcidPublication"
val workingPath =s"${testDir.toString}/wp/" val workingPath = s"${testDir.toString}/wp/"
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
@ -46,18 +48,14 @@ class MappingORCIDToOAFTest {
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication] implicit val mapEncoderPubs: Encoder[Publication] = Encoders.kryo[Publication]
import spark.implicits._ import spark.implicits._
SparkPreprocessORCID.run( spark,sourcePath, workingPath) SparkPreprocessORCID.run(spark, sourcePath, workingPath)
SparkConvertORCIDToOAF.run(spark, workingPath,targetPath) SparkConvertORCIDToOAF.run(spark, workingPath, targetPath)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val oA = spark.read.load(s"$workingPath/orcidworksWithAuthor").as[ORCIDItem].count() val oA = spark.read.load(s"$workingPath/orcidworksWithAuthor").as[ORCIDItem].count()
val p: Dataset[Publication] = spark.read.load(targetPath).as[Publication] val p: Dataset[Publication] = spark.read.load(targetPath).as[Publication]
assertTrue(oA == p.count()) assertTrue(oA == p.count())
@ -65,19 +63,18 @@ class MappingORCIDToOAFTest {
spark.close() spark.close()
} }
@Test @Test
def testExtractDat1():Unit ={ def testExtractDat1(): Unit = {
val aList: List[OrcidAuthor] = List(
OrcidAuthor("0000-0002-4335-5309", Some("Lucrecia"), Some("Curto"), null, null, null),
OrcidAuthor("0000-0001-7501-3330", Some("Emilio"), Some("Malchiodi"), null, null, null),
OrcidAuthor("0000-0002-5490-9186", Some("Sofia"), Some("Noli Truant"), null, null, null)
)
val orcid: ORCIDItem = ORCIDItem("10.1042/BCJ20160876", aList)
val aList: List[OrcidAuthor] = List(OrcidAuthor("0000-0002-4335-5309", Some("Lucrecia"), Some("Curto"), null, null, null ),
OrcidAuthor("0000-0001-7501-3330", Some("Emilio"), Some("Malchiodi"), null, null, null ), OrcidAuthor("0000-0002-5490-9186", Some("Sofia"), Some("Noli Truant"), null, null, null ))
val orcid:ORCIDItem = ORCIDItem("10.1042/BCJ20160876", aList)
val oaf = ORCIDToOAF.convertTOOAF(orcid) val oaf = ORCIDToOAF.convertTOOAF(orcid)
assert(oaf.getPid.size() == 1) assert(oaf.getPid.size() == 1)
@ -85,10 +82,6 @@ class MappingORCIDToOAFTest {
oaf.getPid.toList.foreach(pid => assert(pid.getValue.equals("10.1042/BCJ20160876"))) oaf.getPid.toList.foreach(pid => assert(pid.getValue.equals("10.1042/BCJ20160876")))
//println(mapper.writeValueAsString(ORCIDToOAF.convertTOOAF(orcid))) //println(mapper.writeValueAsString(ORCIDToOAF.convertTOOAF(orcid)))
} }
} }

View File

@ -14,41 +14,43 @@ class UnpayWallMappingTest {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
@Test @Test
def testMappingToOAF():Unit ={ def testMappingToOAF(): Unit = {
val Ilist = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/uw/input.json")).mkString val Ilist = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/doiboost/uw/input.json"))
.mkString
var i:Int = 0 var i: Int = 0
for (line <-Ilist.lines) { for (line <- Ilist.lines) {
val p = UnpayWallToOAF.convertToOAF(line) val p = UnpayWallToOAF.convertToOAF(line)
if(p!= null) { if (p != null) {
assertTrue(p.getInstance().size()==1) assertTrue(p.getInstance().size() == 1)
if (i== 0){ if (i == 0) {
assertTrue(p.getPid.get(0).getValue.equals("10.1038/2211089b0")) assertTrue(p.getPid.get(0).getValue.equals("10.1038/2211089b0"))
} }
if (i== 1){ if (i == 1) {
assertTrue(p.getPid.get(0).getValue.equals("10.1021/acs.bioconjchem.8b00058.s001")) assertTrue(p.getPid.get(0).getValue.equals("10.1021/acs.bioconjchem.8b00058.s001"))
} }
if (i== 2){ if (i == 2) {
assertTrue(p.getPid.get(0).getValue.equals("10.1021/acs.bioconjchem.8b00086.s001")) assertTrue(p.getPid.get(0).getValue.equals("10.1021/acs.bioconjchem.8b00086.s001"))
} }
logger.info(s"ID : ${p.getId}") logger.info(s"ID : ${p.getId}")
} }
assertNotNull(line) assertNotNull(line)
assertTrue(line.nonEmpty) assertTrue(line.nonEmpty)
i = i+1 i = i + 1
} }
val l = Ilist.lines.next()
val l = Ilist.lines.next()
val item = UnpayWallToOAF.convertToOAF(l) val item = UnpayWallToOAF.convertToOAF(l)
assertEquals(item.getInstance().get(0).getAccessright.getOpenAccessRoute, OpenAccessRoute.bronze) assertEquals(
item.getInstance().get(0).getAccessright.getOpenAccessRoute,
OpenAccessRoute.bronze
)
logger.info(mapper.writeValueAsString(item)) logger.info(mapper.writeValueAsString(item))

View File

@ -4,137 +4,190 @@ import eu.dnetlib.dhp.oa.graph.hostedbymap.model.EntityInfo
import org.apache.spark.sql.expressions.Aggregator import org.apache.spark.sql.expressions.Aggregator
import org.apache.spark.sql.{Dataset, Encoder, Encoders, TypedColumn} import org.apache.spark.sql.{Dataset, Encoder, Encoders, TypedColumn}
case class HostedByItemType(
id: String,
officialname: String,
issn: String,
eissn: String,
lissn: String,
openAccess: Boolean
) {}
case class HostedByItemType(id: String, officialname: String, issn: String, eissn: String, lissn: String, openAccess: Boolean) {} case class HostedByInfo(
case class HostedByInfo(id: String, officialname: String, journal_id: String, provenance : String, id_type: String) {} id: String,
officialname: String,
journal_id: String,
provenance: String,
id_type: String
) {}
object Aggregators { object Aggregators {
def getId(s1: String, s2: String): String = {
if (s1.startsWith("10|")) {
def getId(s1:String, s2:String) : String = {
if (s1.startsWith("10|")){
return s1}
s2
}
def getValue(s1:String, s2:String) : String = {
if(!s1.equals("")){
return s1 return s1
} }
s2 s2
} }
def getValue(s1: String, s2: String): String = {
if (!s1.equals("")) {
return s1
}
s2
}
def explodeHostedByItemType(df: Dataset[(String, HostedByItemType)]): Dataset[(String, HostedByItemType)] = { def explodeHostedByItemType(
val transformedData : Dataset[(String, HostedByItemType)] = df df: Dataset[(String, HostedByItemType)]
): Dataset[(String, HostedByItemType)] = {
val transformedData: Dataset[(String, HostedByItemType)] = df
.groupByKey(_._1)(Encoders.STRING) .groupByKey(_._1)(Encoders.STRING)
.agg(Aggregators.hostedByAggregator) .agg(Aggregators.hostedByAggregator)
.map{ .map { case (id: String, res: (String, HostedByItemType)) =>
case (id:String , res:(String, HostedByItemType)) => res res
}(Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])) }(Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType]))
transformedData transformedData
} }
val hostedByAggregator: TypedColumn[(String, HostedByItemType), (String, HostedByItemType)] = new Aggregator[(String, HostedByItemType), (String, HostedByItemType), (String, HostedByItemType)] { val hostedByAggregator: TypedColumn[(String, HostedByItemType), (String, HostedByItemType)] =
override def zero: (String, HostedByItemType) = ("", HostedByItemType("","","","","",false)) new Aggregator[
override def reduce(b: (String, HostedByItemType), a:(String,HostedByItemType)): (String, HostedByItemType) = { (String, HostedByItemType),
return merge(b, a) (String, HostedByItemType),
} (String, HostedByItemType)
override def merge(b1: (String, HostedByItemType), b2: (String, HostedByItemType)): (String, HostedByItemType) = { ] {
if (b1 == null){
return b2 override def zero: (String, HostedByItemType) =
("", HostedByItemType("", "", "", "", "", false))
override def reduce(
b: (String, HostedByItemType),
a: (String, HostedByItemType)
): (String, HostedByItemType) = {
return merge(b, a)
} }
if(b2 == null){
return b1 override def merge(
} b1: (String, HostedByItemType),
if(b1._2.id.startsWith("10|")){ b2: (String, HostedByItemType)
return (b1._1, HostedByItemType(b1._2.id, b1._2.officialname, b1._2.issn, b1._2.eissn, b1._2.lissn, b1._2.openAccess || b2._2.openAccess)) ): (String, HostedByItemType) = {
if (b1 == null) {
return b2
}
if (b2 == null) {
return b1
}
if (b1._2.id.startsWith("10|")) {
return (
b1._1,
HostedByItemType(
b1._2.id,
b1._2.officialname,
b1._2.issn,
b1._2.eissn,
b1._2.lissn,
b1._2.openAccess || b2._2.openAccess
)
)
}
return (
b2._1,
HostedByItemType(
b2._2.id,
b2._2.officialname,
b2._2.issn,
b2._2.eissn,
b2._2.lissn,
b1._2.openAccess || b2._2.openAccess
)
)
} }
return (b2._1, HostedByItemType(b2._2.id, b2._2.officialname, b2._2.issn, b2._2.eissn, b2._2.lissn, b1._2.openAccess || b2._2.openAccess))
} override def finish(reduction: (String, HostedByItemType)): (String, HostedByItemType) =
override def finish(reduction: (String,HostedByItemType)): (String, HostedByItemType) = reduction reduction
override def bufferEncoder: Encoder[(String,HostedByItemType)] = Encoders.tuple(Encoders.STRING,Encoders.product[HostedByItemType])
override def outputEncoder: Encoder[(String,HostedByItemType)] = Encoders.tuple(Encoders.STRING,Encoders.product[HostedByItemType]) override def bufferEncoder: Encoder[(String, HostedByItemType)] =
}.toColumn Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])
override def outputEncoder: Encoder[(String, HostedByItemType)] =
Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])
}.toColumn
def resultToSingleIdAggregator: TypedColumn[EntityInfo, EntityInfo] =
new Aggregator[EntityInfo, EntityInfo, EntityInfo] {
override def zero: EntityInfo = EntityInfo.newInstance("", "", "")
override def reduce(b: EntityInfo, a: EntityInfo): EntityInfo = {
def resultToSingleIdAggregator: TypedColumn[EntityInfo, EntityInfo] = new Aggregator[EntityInfo, EntityInfo, EntityInfo]{ return merge(b, a)
override def zero: EntityInfo = EntityInfo.newInstance("","","")
override def reduce(b: EntityInfo, a:EntityInfo): EntityInfo = {
return merge(b, a)
}
override def merge(b1: EntityInfo, b2: EntityInfo): EntityInfo = {
if (b1 == null){
return b2
} }
if(b2 == null){
return b1 override def merge(b1: EntityInfo, b2: EntityInfo): EntityInfo = {
if (b1 == null) {
return b2
}
if (b2 == null) {
return b1
}
if (!b1.getHostedById.equals("")) {
b1.setOpenAccess(b1.getOpenAccess || b2.getOpenAccess)
return b1
}
b2.setOpenAccess(b1.getOpenAccess || b2.getOpenAccess)
b2
} }
if(!b1.getHostedById.equals("")){ override def finish(reduction: EntityInfo): EntityInfo = reduction
b1.setOpenAccess(b1.getOpenAccess || b2.getOpenAccess) override def bufferEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
return b1
}
b2.setOpenAccess(b1.getOpenAccess || b2.getOpenAccess)
b2
} override def outputEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
override def finish(reduction: EntityInfo): EntityInfo = reduction }.toColumn
override def bufferEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
override def outputEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) def resultToSingleId(df: Dataset[EntityInfo]): Dataset[EntityInfo] = {
}.toColumn val transformedData: Dataset[EntityInfo] = df
def resultToSingleId(df:Dataset[EntityInfo]): Dataset[EntityInfo] = {
val transformedData : Dataset[EntityInfo] = df
.groupByKey(_.getId)(Encoders.STRING) .groupByKey(_.getId)(Encoders.STRING)
.agg(Aggregators.resultToSingleIdAggregator) .agg(Aggregators.resultToSingleIdAggregator)
.map{ .map { case (id: String, res: EntityInfo) =>
case (id:String , res: EntityInfo) => res res
}(Encoders.bean(classOf[EntityInfo])) }(Encoders.bean(classOf[EntityInfo]))
transformedData transformedData
} }
def datasourceToSingleIdAggregator: TypedColumn[EntityInfo, EntityInfo] = new Aggregator[EntityInfo, EntityInfo, EntityInfo]{ def datasourceToSingleIdAggregator: TypedColumn[EntityInfo, EntityInfo] =
override def zero: EntityInfo = EntityInfo.newInstance("","","") new Aggregator[EntityInfo, EntityInfo, EntityInfo] {
override def zero: EntityInfo = EntityInfo.newInstance("", "", "")
override def reduce(b: EntityInfo, a:EntityInfo): EntityInfo = { override def reduce(b: EntityInfo, a: EntityInfo): EntityInfo = {
return merge(b, a) return merge(b, a)
}
override def merge(b1: EntityInfo, b2: EntityInfo): EntityInfo = {
if (b1 == null){
return b2
} }
if(b2 == null){
return b1 override def merge(b1: EntityInfo, b2: EntityInfo): EntityInfo = {
if (b1 == null) {
return b2
}
if (b2 == null) {
return b1
}
if (!b1.getHostedById.equals("")) {
return b1
}
b2
} }
if(!b1.getHostedById.equals("")){ override def finish(reduction: EntityInfo): EntityInfo = reduction
return b1 override def bufferEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
}
b2
} override def outputEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
override def finish(reduction: EntityInfo): EntityInfo = reduction }.toColumn
override def bufferEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
override def outputEncoder: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) def datasourceToSingleId(df: Dataset[EntityInfo]): Dataset[EntityInfo] = {
}.toColumn val transformedData: Dataset[EntityInfo] = df
def datasourceToSingleId(df:Dataset[EntityInfo]): Dataset[EntityInfo] = {
val transformedData : Dataset[EntityInfo] = df
.groupByKey(_.getHostedById)(Encoders.STRING) .groupByKey(_.getHostedById)(Encoders.STRING)
.agg(Aggregators.datasourceToSingleIdAggregator) .agg(Aggregators.datasourceToSingleIdAggregator)
.map{ .map { case (id: String, res: EntityInfo) =>
case (id:String , res: EntityInfo) => res res
}(Encoders.bean(classOf[EntityInfo])) }(Encoders.bean(classOf[EntityInfo]))
transformedData transformedData

View File

@ -14,7 +14,8 @@ import org.slf4j.{Logger, LoggerFactory}
object SparkApplyHostedByMapToDatasource { object SparkApplyHostedByMapToDatasource {
def applyHBtoDats(join: Dataset[EntityInfo], dats: Dataset[Datasource]): Dataset[Datasource] = { def applyHBtoDats(join: Dataset[EntityInfo], dats: Dataset[Datasource]): Dataset[Datasource] = {
dats.joinWith(join, dats.col("id").equalTo(join.col("hostedById")), "left") dats
.joinWith(join, dats.col("id").equalTo(join.col("hostedById")), "left")
.map(t2 => { .map(t2 => {
val d: Datasource = t2._1 val d: Datasource = t2._1
if (t2._2 != null) { if (t2._2 != null) {
@ -31,14 +32,21 @@ object SparkApplyHostedByMapToDatasource {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_apply_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_apply_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val graphPath = parser.get("graphPath") val graphPath = parser.get("graphPath")
val outputPath = parser.get("outputPath") val outputPath = parser.get("outputPath")
@ -51,20 +59,27 @@ object SparkApplyHostedByMapToDatasource {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val dats: Dataset[Datasource] = spark.read.textFile(graphPath + "/datasource") val dats: Dataset[Datasource] = spark.read
.textFile(graphPath + "/datasource")
.map(r => mapper.readValue(r, classOf[Datasource])) .map(r => mapper.readValue(r, classOf[Datasource]))
val pinfo: Dataset[EntityInfo] = Aggregators.datasourceToSingleId(spark.read.textFile(preparedInfoPath) val pinfo: Dataset[EntityInfo] = Aggregators.datasourceToSingleId(
.map(ei => mapper.readValue(ei, classOf[EntityInfo]))) spark.read
.textFile(preparedInfoPath)
.map(ei => mapper.readValue(ei, classOf[EntityInfo]))
)
applyHBtoDats(pinfo, dats).write.mode(SaveMode.Overwrite).option("compression", "gzip").json(outputPath) applyHBtoDats(pinfo, dats).write
.mode(SaveMode.Overwrite)
.option("compression", "gzip")
.json(outputPath)
spark.read.textFile(outputPath) spark.read
.textFile(outputPath)
.write .write
.mode(SaveMode.Overwrite) .mode(SaveMode.Overwrite)
.option("compression", "gzip") .option("compression", "gzip")
.text(graphPath + "/datasource") .text(graphPath + "/datasource")
} }
} }

View File

@ -16,7 +16,8 @@ import scala.collection.JavaConverters._
object SparkApplyHostedByMapToResult { object SparkApplyHostedByMapToResult {
def applyHBtoPubs(join: Dataset[EntityInfo], pubs: Dataset[Publication]) = { def applyHBtoPubs(join: Dataset[EntityInfo], pubs: Dataset[Publication]) = {
pubs.joinWith(join, pubs.col("id").equalTo(join.col("id")), "left") pubs
.joinWith(join, pubs.col("id").equalTo(join.col("id")), "left")
.map(t2 => { .map(t2 => {
val p: Publication = t2._1 val p: Publication = t2._1
if (t2._2 != null) { if (t2._2 != null) {
@ -27,7 +28,14 @@ object SparkApplyHostedByMapToResult {
inst.getHostedby.setKey(ei.getHostedById) inst.getHostedby.setKey(ei.getHostedById)
inst.getHostedby.setValue(ei.getName) inst.getHostedby.setValue(ei.getName)
if (ei.getOpenAccess) { if (ei.getOpenAccess) {
inst.setAccessright(OafMapperUtils.accessRight(ModelConstants.ACCESS_RIGHT_OPEN, "Open Access", ModelConstants.DNET_ACCESS_MODES, ModelConstants.DNET_ACCESS_MODES)) inst.setAccessright(
OafMapperUtils.accessRight(
ModelConstants.ACCESS_RIGHT_OPEN,
"Open Access",
ModelConstants.DNET_ACCESS_MODES,
ModelConstants.DNET_ACCESS_MODES
)
)
inst.getAccessright.setOpenAccessRoute(OpenAccessRoute.gold) inst.getAccessright.setOpenAccessRoute(OpenAccessRoute.gold)
p.setBestaccessright(OafMapperUtils.createBestAccessRights(p.getInstance())); p.setBestaccessright(OafMapperUtils.createBestAccessRights(p.getInstance()));
} }
@ -40,46 +48,54 @@ object SparkApplyHostedByMapToResult {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_apply_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_apply_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val graphPath = parser.get("graphPath") val graphPath = parser.get("graphPath")
val outputPath = parser.get("outputPath") val outputPath = parser.get("outputPath")
val preparedInfoPath = parser.get("preparedInfoPath") val preparedInfoPath = parser.get("preparedInfoPath")
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
implicit val mapEncoderPubs: Encoder[Publication] = Encoders.bean(classOf[Publication]) implicit val mapEncoderPubs: Encoder[Publication] = Encoders.bean(classOf[Publication])
implicit val mapEncoderEinfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderEinfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val pubs: Dataset[Publication] = spark.read.textFile(graphPath + "/publication") val pubs: Dataset[Publication] = spark.read
.textFile(graphPath + "/publication")
.map(r => mapper.readValue(r, classOf[Publication])) .map(r => mapper.readValue(r, classOf[Publication]))
val pinfo: Dataset[EntityInfo] = spark.read.textFile(preparedInfoPath) val pinfo: Dataset[EntityInfo] = spark.read
.textFile(preparedInfoPath)
.map(ei => mapper.readValue(ei, classOf[EntityInfo])) .map(ei => mapper.readValue(ei, classOf[EntityInfo]))
applyHBtoPubs(pinfo, pubs).write.mode(SaveMode.Overwrite).option("compression", "gzip").json(outputPath) applyHBtoPubs(pinfo, pubs).write
.mode(SaveMode.Overwrite)
.option("compression", "gzip")
.json(outputPath)
spark.read.textFile(outputPath) spark.read
.textFile(outputPath)
.write .write
.mode(SaveMode.Overwrite) .mode(SaveMode.Overwrite)
.option("compression", "gzip") .option("compression", "gzip")
.text(graphPath + "/publication") .text(graphPath + "/publication")
} }
} }

View File

@ -19,7 +19,6 @@ object SparkPrepareHostedByInfoToApply {
def getList(id: String, j: Journal, name: String): List[EntityInfo] = { def getList(id: String, j: Journal, name: String): List[EntityInfo] = {
var lst: List[EntityInfo] = List() var lst: List[EntityInfo] = List()
if (j.getIssnLinking != null && !j.getIssnLinking.equals("")) { if (j.getIssnLinking != null && !j.getIssnLinking.equals("")) {
lst = EntityInfo.newInstance(id, j.getIssnLinking, name) :: lst lst = EntityInfo.newInstance(id, j.getIssnLinking, name) :: lst
} }
@ -37,14 +36,14 @@ object SparkPrepareHostedByInfoToApply {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val dd: Dataset[Publication] = spark.read.textFile(publicationPath) val dd: Dataset[Publication] = spark.read
.textFile(publicationPath)
.map(r => mapper.readValue(r, classOf[Publication])) .map(r => mapper.readValue(r, classOf[Publication]))
dd.filter(p => p.getJournal != null).flatMap(p => getList(p.getId, p.getJournal, "")) dd.filter(p => p.getJournal != null).flatMap(p => getList(p.getId, p.getJournal, ""))
} }
def toEntityInfo(input: String): EntityInfo = { def toEntityInfo(input: String): EntityInfo = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
@ -53,7 +52,6 @@ object SparkPrepareHostedByInfoToApply {
toEntityItem(c.keys.head, c.values.head) toEntityItem(c.keys.head, c.values.head)
} }
def toEntityItem(journal_id: String, hbi: HostedByItemType): EntityInfo = { def toEntityItem(journal_id: String, hbi: HostedByItemType): EntityInfo = {
EntityInfo.newInstance(hbi.id, journal_id, hbi.officialname, hbi.openAccess) EntityInfo.newInstance(hbi.id, journal_id, hbi.officialname, hbi.openAccess)
@ -61,62 +59,69 @@ object SparkPrepareHostedByInfoToApply {
} }
def joinResHBM(res: Dataset[EntityInfo], hbm: Dataset[EntityInfo]): Dataset[EntityInfo] = { def joinResHBM(res: Dataset[EntityInfo], hbm: Dataset[EntityInfo]): Dataset[EntityInfo] = {
Aggregators.resultToSingleId(res.joinWith(hbm, res.col("journalId").equalTo(hbm.col("journalId")), "left") Aggregators.resultToSingleId(
.map(t2 => { res
val res: EntityInfo = t2._1 .joinWith(hbm, res.col("journalId").equalTo(hbm.col("journalId")), "left")
if (t2._2 != null) { .map(t2 => {
val ds = t2._2 val res: EntityInfo = t2._1
res.setHostedById(ds.getId) if (t2._2 != null) {
res.setOpenAccess(ds.getOpenAccess) val ds = t2._2
res.setName(ds.getName) res.setHostedById(ds.getId)
} res.setOpenAccess(ds.getOpenAccess)
res res.setName(ds.getName)
})) }
res
})
)
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_prepare_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_prepare_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val graphPath = parser.get("graphPath") val graphPath = parser.get("graphPath")
val outputPath = parser.get("preparedInfoPath") val outputPath = parser.get("preparedInfoPath")
val hostedByMapPath = parser.get("hostedByMapPath") val hostedByMapPath = parser.get("hostedByMapPath")
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
logger.info("Getting the Datasources") logger.info("Getting the Datasources")
import spark.implicits._ import spark.implicits._
//STEP1: read the hostedbymap and transform it in EntityInfo //STEP1: read the hostedbymap and transform it in EntityInfo
val hostedByInfo: Dataset[EntityInfo] = spark.createDataset(spark.sparkContext.textFile(hostedByMapPath)).map(toEntityInfo) val hostedByInfo: Dataset[EntityInfo] =
spark.createDataset(spark.sparkContext.textFile(hostedByMapPath)).map(toEntityInfo)
//STEP2: create association (publication, issn), (publication, eissn), (publication, lissn) //STEP2: create association (publication, issn), (publication, eissn), (publication, lissn)
val resultInfoDataset: Dataset[EntityInfo] = prepareResultInfo(spark, graphPath + "/publication") val resultInfoDataset: Dataset[EntityInfo] =
prepareResultInfo(spark, graphPath + "/publication")
//STEP3: left join resultInfo with hostedByInfo on journal_id. Reduction of all the results with the same id in just //STEP3: left join resultInfo with hostedByInfo on journal_id. Reduction of all the results with the same id in just
//one entry (one result could be associated to issn and eissn and so possivly matching more than once against the map) //one entry (one result could be associated to issn and eissn and so possivly matching more than once against the map)
//to this entry we add the id of the datasource for the next step //to this entry we add the id of the datasource for the next step
joinResHBM(resultInfoDataset, hostedByInfo) joinResHBM(resultInfoDataset, hostedByInfo).write
.write.mode(SaveMode.Overwrite).option("compression", "gzip").json(outputPath) .mode(SaveMode.Overwrite)
.option("compression", "gzip")
.json(outputPath)
} }
} }

View File

@ -17,9 +17,8 @@ import java.io.PrintWriter
object SparkProduceHostedByMap { object SparkProduceHostedByMap {
implicit val tupleForJoinEncoder: Encoder[(String, HostedByItemType)] =
implicit val tupleForJoinEncoder: Encoder[(String, HostedByItemType)] = Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType]) Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])
def toHostedByItemType(input: ((HostedByInfo, HostedByInfo), HostedByInfo)): HostedByItemType = { def toHostedByItemType(input: ((HostedByInfo, HostedByInfo), HostedByInfo)): HostedByItemType = {
val openaire: HostedByInfo = input._1._1 val openaire: HostedByInfo = input._1._1
@ -28,9 +27,33 @@ object SparkProduceHostedByMap {
val isOpenAccess: Boolean = doaj == null && gold == null val isOpenAccess: Boolean = doaj == null && gold == null
openaire.journal_id match { openaire.journal_id match {
case Constants.ISSN => HostedByItemType(openaire.id, openaire.officialname, openaire.journal_id, "", "", isOpenAccess) case Constants.ISSN =>
case Constants.EISSN => HostedByItemType(openaire.id, openaire.officialname, "", openaire.journal_id, "", isOpenAccess) HostedByItemType(
case Constants.ISSNL => HostedByItemType(openaire.id, openaire.officialname, "", "", openaire.journal_id, isOpenAccess) openaire.id,
openaire.officialname,
openaire.journal_id,
"",
"",
isOpenAccess
)
case Constants.EISSN =>
HostedByItemType(
openaire.id,
openaire.officialname,
"",
openaire.journal_id,
"",
isOpenAccess
)
case Constants.ISSNL =>
HostedByItemType(
openaire.id,
openaire.officialname,
"",
"",
openaire.journal_id,
isOpenAccess
)
// catch the default with a variable so you can print it // catch the default with a variable so you can print it
case whoa => null case whoa => null
@ -46,11 +69,16 @@ object SparkProduceHostedByMap {
Serialization.write(map) Serialization.write(map)
} }
def getHostedByItemType(
def getHostedByItemType(id: String, officialname: String, issn: String, eissn: String, issnl: String, oa: Boolean): HostedByItemType = { id: String,
officialname: String,
issn: String,
eissn: String,
issnl: String,
oa: Boolean
): HostedByItemType = {
if (issn != null) { if (issn != null) {
if (eissn != null) { if (eissn != null) {
if (issnl != null) { if (issnl != null) {
@ -85,7 +113,14 @@ object SparkProduceHostedByMap {
def oaToHostedbyItemType(dats: Datasource): HostedByItemType = { def oaToHostedbyItemType(dats: Datasource): HostedByItemType = {
if (dats.getJournal != null) { if (dats.getJournal != null) {
return getHostedByItemType(dats.getId, dats.getOfficialname.getValue, dats.getJournal.getIssnPrinted, dats.getJournal.getIssnOnline, dats.getJournal.getIssnLinking, false) return getHostedByItemType(
dats.getId,
dats.getOfficialname.getValue,
dats.getJournal.getIssnPrinted,
dats.getJournal.getIssnOnline,
dats.getJournal.getIssnLinking,
false
)
} }
HostedByItemType("", "", "", "", "", false) HostedByItemType("", "", "", "", "", false)
} }
@ -94,32 +129,41 @@ object SparkProduceHostedByMap {
import spark.implicits._ import spark.implicits._
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
implicit var encoderD = Encoders.kryo[Datasource] implicit var encoderD = Encoders.kryo[Datasource]
val dd: Dataset[Datasource] = spark.read.textFile(datasourcePath) val dd: Dataset[Datasource] = spark.read
.textFile(datasourcePath)
.map(r => mapper.readValue(r, classOf[Datasource])) .map(r => mapper.readValue(r, classOf[Datasource]))
dd.map { ddt => oaToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals(""))) dd.map { ddt => oaToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals("")))
} }
def goldToHostedbyItemType(gold: UnibiGoldModel): HostedByItemType = { def goldToHostedbyItemType(gold: UnibiGoldModel): HostedByItemType = {
return getHostedByItemType(Constants.UNIBI, gold.getTitle, gold.getIssn, "", gold.getIssnL, true) return getHostedByItemType(
Constants.UNIBI,
gold.getTitle,
gold.getIssn,
"",
gold.getIssnL,
true
)
} }
def goldHostedByDataset(
def goldHostedByDataset(spark: SparkSession, datasourcePath: String): Dataset[HostedByItemType] = { spark: SparkSession,
datasourcePath: String
): Dataset[HostedByItemType] = {
import spark.implicits._ import spark.implicits._
implicit val mapEncoderUnibi: Encoder[UnibiGoldModel] = Encoders.kryo[UnibiGoldModel] implicit val mapEncoderUnibi: Encoder[UnibiGoldModel] = Encoders.kryo[UnibiGoldModel]
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val dd: Dataset[UnibiGoldModel] = spark.read.textFile(datasourcePath) val dd: Dataset[UnibiGoldModel] = spark.read
.textFile(datasourcePath)
.map(r => mapper.readValue(r, classOf[UnibiGoldModel])) .map(r => mapper.readValue(r, classOf[UnibiGoldModel]))
dd.map { ddt => goldToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals(""))) dd.map { ddt => goldToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals("")))
@ -128,17 +172,28 @@ object SparkProduceHostedByMap {
def doajToHostedbyItemType(doaj: DOAJModel): HostedByItemType = { def doajToHostedbyItemType(doaj: DOAJModel): HostedByItemType = {
return getHostedByItemType(Constants.DOAJ, doaj.getJournalTitle, doaj.getIssn, doaj.getEissn, "", true) return getHostedByItemType(
Constants.DOAJ,
doaj.getJournalTitle,
doaj.getIssn,
doaj.getEissn,
"",
true
)
} }
def doajHostedByDataset(spark: SparkSession, datasourcePath: String): Dataset[HostedByItemType] = { def doajHostedByDataset(
spark: SparkSession,
datasourcePath: String
): Dataset[HostedByItemType] = {
import spark.implicits._ import spark.implicits._
implicit val mapEncoderDOAJ: Encoder[DOAJModel] = Encoders.kryo[DOAJModel] implicit val mapEncoderDOAJ: Encoder[DOAJModel] = Encoders.kryo[DOAJModel]
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val dd: Dataset[DOAJModel] = spark.read.textFile(datasourcePath) val dd: Dataset[DOAJModel] = spark.read
.textFile(datasourcePath)
.map(r => mapper.readValue(r, classOf[DOAJModel])) .map(r => mapper.readValue(r, classOf[DOAJModel]))
dd.map { ddt => doajToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals(""))) dd.map { ddt => doajToHostedbyItemType(ddt) }.filter(hb => !(hb.id.equals("")))
@ -159,7 +214,6 @@ object SparkProduceHostedByMap {
lst lst
} }
def writeToHDFS(input: Array[String], outputPath: String, hdfsNameNode: String): Unit = { def writeToHDFS(input: Array[String], outputPath: String, hdfsNameNode: String): Unit = {
val conf = new Configuration() val conf = new Configuration()
@ -169,49 +223,51 @@ object SparkProduceHostedByMap {
val writer = new PrintWriter(output) val writer = new PrintWriter(output)
try { try {
input.foreach(hbi => writer.println(hbi)) input.foreach(hbi => writer.println(hbi))
} } finally {
finally {
writer.close() writer.close()
} }
} }
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/hostedbymap/hostedby_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val datasourcePath = parser.get("datasourcePath") val datasourcePath = parser.get("datasourcePath")
val workingDirPath = parser.get("workingPath") val workingDirPath = parser.get("workingPath")
val outputPath = parser.get("outputPath") val outputPath = parser.get("outputPath")
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
logger.info("Getting the Datasources") logger.info("Getting the Datasources")
Aggregators
Aggregators.explodeHostedByItemType(oaHostedByDataset(spark, datasourcePath) .explodeHostedByItemType(
.union(goldHostedByDataset(spark, workingDirPath + "/unibi_gold.json")) oaHostedByDataset(spark, datasourcePath)
.union(doajHostedByDataset(spark, workingDirPath + "/doaj.json")) .union(goldHostedByDataset(spark, workingDirPath + "/unibi_gold.json"))
.flatMap(hbi => toList(hbi))).filter(hbi => hbi._2.id.startsWith("10|")) .union(doajHostedByDataset(spark, workingDirPath + "/doaj.json"))
.flatMap(hbi => toList(hbi))
)
.filter(hbi => hbi._2.id.startsWith("10|"))
.map(hbi => toHostedByMap(hbi))(Encoders.STRING) .map(hbi => toHostedByMap(hbi))(Encoders.STRING)
.rdd.saveAsTextFile(outputPath, classOf[GzipCodec]) .rdd
.saveAsTextFile(outputPath, classOf[GzipCodec])
} }
} }

View File

@ -20,7 +20,13 @@ object CopyHdfsOafSparkApplication {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log = LoggerFactory.getLogger(getClass) val log = LoggerFactory.getLogger(getClass)
val conf = new SparkConf() val conf = new SparkConf()
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/copy_hdfs_oaf_parameters.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/copy_hdfs_oaf_parameters.json")
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val spark = val spark =
@ -28,7 +34,8 @@ object CopyHdfsOafSparkApplication {
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sc: SparkContext = spark.sparkContext val sc: SparkContext = spark.sparkContext
@ -49,19 +56,22 @@ object CopyHdfsOafSparkApplication {
implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf] implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo[Oaf]
val paths = DHPUtils.mdstorePaths(mdstoreManagerUrl, mdFormat, mdLayout, mdInterpretation, true).asScala val paths =
DHPUtils.mdstorePaths(mdstoreManagerUrl, mdFormat, mdLayout, mdInterpretation, true).asScala
val validPaths: List[String] = paths.filter(p => HdfsSupport.exists(p, sc.hadoopConfiguration)).toList val validPaths: List[String] =
paths.filter(p => HdfsSupport.exists(p, sc.hadoopConfiguration)).toList
val types = ModelSupport.oafTypes.entrySet val types = ModelSupport.oafTypes.entrySet.asScala
.asScala
.map(e => Tuple2(e.getKey, e.getValue)) .map(e => Tuple2(e.getKey, e.getValue))
if (validPaths.nonEmpty) { if (validPaths.nonEmpty) {
val oaf = spark.read.textFile(validPaths: _*) val oaf = spark.read.textFile(validPaths: _*)
val mapper = new ObjectMapper().configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false) val mapper =
new ObjectMapper().configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false)
types.foreach(t => oaf types.foreach(t =>
oaf
.filter(o => isOafType(o, t._1)) .filter(o => isOafType(o, t._1))
.map(j => mapper.readValue(j, t._2).asInstanceOf[Oaf]) .map(j => mapper.readValue(j, t._2).asInstanceOf[Oaf])
.map(s => mapper.writeValueAsString(s))(Encoders.STRING) .map(s => mapper.writeValueAsString(s))(Encoders.STRING)

View File

@ -3,7 +3,7 @@ package eu.dnetlib.dhp.oa.graph.resolution
import com.fasterxml.jackson.databind.ObjectMapper import com.fasterxml.jackson.databind.ObjectMapper
import eu.dnetlib.dhp.application.ArgumentApplicationParser import eu.dnetlib.dhp.application.ArgumentApplicationParser
import eu.dnetlib.dhp.schema.common.EntityType import eu.dnetlib.dhp.schema.common.EntityType
import eu.dnetlib.dhp.schema.oaf.{Dataset => OafDataset,_} import eu.dnetlib.dhp.schema.oaf.{Dataset => OafDataset, _}
import org.apache.commons.io.IOUtils import org.apache.commons.io.IOUtils
import org.apache.hadoop.fs.{FileSystem, Path} import org.apache.hadoop.fs.{FileSystem, Path}
import org.apache.spark.SparkConf import org.apache.spark.SparkConf
@ -13,20 +13,32 @@ import org.slf4j.{Logger, LoggerFactory}
object SparkResolveEntities { object SparkResolveEntities {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val entities = List(EntityType.dataset, EntityType.publication, EntityType.software, EntityType.otherresearchproduct)
val entities = List(
EntityType.dataset,
EntityType.publication,
EntityType.software,
EntityType.otherresearchproduct
)
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/resolution/resolve_entities_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/oa/graph/resolution/resolve_entities_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val graphBasePath = parser.get("graphBasePath") val graphBasePath = parser.get("graphBasePath")
log.info(s"graphBasePath -> $graphBasePath") log.info(s"graphBasePath -> $graphBasePath")
@ -38,7 +50,6 @@ object SparkResolveEntities {
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
log.info(s"targetPath -> $targetPath") log.info(s"targetPath -> $targetPath")
val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration) val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration)
fs.mkdirs(new Path(workingPath)) fs.mkdirs(new Path(workingPath))
@ -46,60 +57,84 @@ object SparkResolveEntities {
generateResolvedEntities(spark, workingPath, graphBasePath, targetPath) generateResolvedEntities(spark, workingPath, graphBasePath, targetPath)
} }
def resolveEntities(spark: SparkSession, workingPath: String, unresolvedPath: String) = { def resolveEntities(spark: SparkSession, workingPath: String, unresolvedPath: String) = {
implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result]) implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result])
import spark.implicits._ import spark.implicits._
val rPid: Dataset[(String, String)] = spark.read.load(s"$workingPath/relationResolvedPid").as[(String, String)] val rPid: Dataset[(String, String)] =
val up: Dataset[(String, Result)] = spark.read.text(unresolvedPath).as[String].map(s => mapper.readValue(s, classOf[Result])).map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder)) spark.read.load(s"$workingPath/relationResolvedPid").as[(String, String)]
val up: Dataset[(String, Result)] = spark.read
.text(unresolvedPath)
.as[String]
.map(s => mapper.readValue(s, classOf[Result]))
.map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder))
rPid.joinWith(up, rPid("_2").equalTo(up("_1")), "inner").map { rPid
r => .joinWith(up, rPid("_2").equalTo(up("_1")), "inner")
.map { r =>
val result = r._2._2 val result = r._2._2
val dnetId = r._1._1 val dnetId = r._1._1
result.setId(dnetId) result.setId(dnetId)
result result
}.write.mode(SaveMode.Overwrite).save(s"$workingPath/resolvedEntities") }
.write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/resolvedEntities")
} }
def deserializeObject(input: String, entity: EntityType): Result = { def deserializeObject(input: String, entity: EntityType): Result = {
entity match { entity match {
case EntityType.publication => mapper.readValue(input, classOf[Publication]) case EntityType.publication => mapper.readValue(input, classOf[Publication])
case EntityType.dataset => mapper.readValue(input, classOf[OafDataset]) case EntityType.dataset => mapper.readValue(input, classOf[OafDataset])
case EntityType.software => mapper.readValue(input, classOf[Software]) case EntityType.software => mapper.readValue(input, classOf[Software])
case EntityType.otherresearchproduct => mapper.readValue(input, classOf[OtherResearchProduct]) case EntityType.otherresearchproduct => mapper.readValue(input, classOf[OtherResearchProduct])
} }
} }
def generateResolvedEntities(spark: SparkSession, workingPath: String, graphBasePath: String, targetPath: String) = { def generateResolvedEntities(
spark: SparkSession,
workingPath: String,
graphBasePath: String,
targetPath: String
) = {
implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result]) implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result])
import spark.implicits._ import spark.implicits._
val re: Dataset[(String, Result)] = spark.read.load(s"$workingPath/resolvedEntities").as[Result].map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder)) val re: Dataset[(String, Result)] = spark.read
entities.foreach { .load(s"$workingPath/resolvedEntities")
e => { .as[Result]
.map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder))
entities.foreach { e =>
{
val currentEntityDataset: Dataset[(String, Result)] = spark.read.text(s"$graphBasePath/$e").as[String].map(s => deserializeObject(s, e)).map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder)) val currentEntityDataset: Dataset[(String, Result)] = spark.read
.text(s"$graphBasePath/$e")
.as[String]
.map(s => deserializeObject(s, e))
.map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, resEncoder))
currentEntityDataset.joinWith(re, currentEntityDataset("_1").equalTo(re("_1")), "left").map(k => { currentEntityDataset
.joinWith(re, currentEntityDataset("_1").equalTo(re("_1")), "left")
.map(k => {
val a = k._1 val a = k._1
val b = k._2 val b = k._2
if (b == null) if (b == null)
a._2 a._2
else { else {
a._2.mergeFrom(b._2) a._2.mergeFrom(b._2)
a._2 a._2
} }
}).map(r => mapper.writeValueAsString(r))(Encoders.STRING) })
.write.mode(SaveMode.Overwrite).option("compression", "gzip").text(s"$targetPath/$e") .map(r => mapper.writeValueAsString(r))(Encoders.STRING)
.write
.mode(SaveMode.Overwrite)
.option("compression", "gzip")
.text(s"$targetPath/$e")
} }
} }
} }
} }

View File

@ -17,18 +17,25 @@ import org.json4s.jackson.JsonMethods.parse
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
object SparkResolveRelation { object SparkResolveRelation {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/oa/graph/resolution/resolve_relations_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream(
"/eu/dnetlib/dhp/oa/graph/resolution/resolve_relations_params.json"
)
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val graphBasePath = parser.get("graphBasePath") val graphBasePath = parser.get("graphBasePath")
log.info(s"graphBasePath -> $graphBasePath") log.info(s"graphBasePath -> $graphBasePath")
@ -41,7 +48,6 @@ object SparkResolveRelation {
implicit val relEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation]) implicit val relEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation])
import spark.implicits._ import spark.implicits._
//CLEANING TEMPORARY FOLDER //CLEANING TEMPORARY FOLDER
HdfsSupport.remove(workingPath, spark.sparkContext.hadoopConfiguration) HdfsSupport.remove(workingPath, spark.sparkContext.hadoopConfiguration)
val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration) val fs = FileSystem.get(spark.sparkContext.hadoopConfiguration)
@ -51,39 +57,49 @@ object SparkResolveRelation {
val mapper: ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
val rPid: Dataset[(String, String)] = spark.read.load(s"$workingPath/relationResolvedPid").as[(String, String)] val rPid: Dataset[(String, String)] =
spark.read.load(s"$workingPath/relationResolvedPid").as[(String, String)]
val relationDs: Dataset[(String, Relation)] = spark.read.text(s"$graphBasePath/relation").as[String] val relationDs: Dataset[(String, Relation)] = spark.read
.map(s => mapper.readValue(s, classOf[Relation])).as[Relation] .text(s"$graphBasePath/relation")
.as[String]
.map(s => mapper.readValue(s, classOf[Relation]))
.as[Relation]
.map(r => (r.getSource.toLowerCase, r))(Encoders.tuple(Encoders.STRING, relEncoder)) .map(r => (r.getSource.toLowerCase, r))(Encoders.tuple(Encoders.STRING, relEncoder))
relationDs.joinWith(rPid, relationDs("_1").equalTo(rPid("_2")), "left").map { relationDs
m => .joinWith(rPid, relationDs("_1").equalTo(rPid("_2")), "left")
.map { m =>
val sourceResolved = m._2 val sourceResolved = m._2
val currentRelation = m._1._2 val currentRelation = m._1._2
if (sourceResolved != null && sourceResolved._1 != null && sourceResolved._1.nonEmpty) if (sourceResolved != null && sourceResolved._1 != null && sourceResolved._1.nonEmpty)
currentRelation.setSource(sourceResolved._1) currentRelation.setSource(sourceResolved._1)
currentRelation currentRelation
}.write }
.write
.mode(SaveMode.Overwrite) .mode(SaveMode.Overwrite)
.save(s"$workingPath/relationResolvedSource") .save(s"$workingPath/relationResolvedSource")
val relationSourceResolved: Dataset[(String, Relation)] = spark.read
val relationSourceResolved: Dataset[(String, Relation)] = spark.read.load(s"$workingPath/relationResolvedSource").as[Relation] .load(s"$workingPath/relationResolvedSource")
.as[Relation]
.map(r => (r.getTarget.toLowerCase, r))(Encoders.tuple(Encoders.STRING, relEncoder)) .map(r => (r.getTarget.toLowerCase, r))(Encoders.tuple(Encoders.STRING, relEncoder))
relationSourceResolved.joinWith(rPid, relationSourceResolved("_1").equalTo(rPid("_2")), "left").map { relationSourceResolved
m => .joinWith(rPid, relationSourceResolved("_1").equalTo(rPid("_2")), "left")
.map { m =>
val targetResolved = m._2 val targetResolved = m._2
val currentRelation = m._1._2 val currentRelation = m._1._2
if (targetResolved != null && targetResolved._1.nonEmpty) if (targetResolved != null && targetResolved._1.nonEmpty)
currentRelation.setTarget(targetResolved._1) currentRelation.setTarget(targetResolved._1)
currentRelation currentRelation
} }
.write .write
.mode(SaveMode.Overwrite) .mode(SaveMode.Overwrite)
.save(s"$workingPath/relation_resolved") .save(s"$workingPath/relation_resolved")
spark.read.load(s"$workingPath/relation_resolved").as[Relation] spark.read
.load(s"$workingPath/relation_resolved")
.as[Relation]
.filter(r => !r.getSource.startsWith("unresolved") && !r.getTarget.startsWith("unresolved")) .filter(r => !r.getSource.startsWith("unresolved") && !r.getTarget.startsWith("unresolved"))
.map(r => mapper.writeValueAsString(r)) .map(r => mapper.writeValueAsString(r))
.write .write
@ -96,33 +112,31 @@ object SparkResolveRelation {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val result: List[(String, String)] = for { val result: List[(String, String)] = for {
JObject(iObj) <- json \ "instance" JObject(iObj) <- json \ "instance"
JField("collectedfrom", JObject(cf)) <- iObj JField("collectedfrom", JObject(cf)) <- iObj
JField("instancetype", JObject(instancetype)) <- iObj JField("instancetype", JObject(instancetype)) <- iObj
JField("value", JString(collectedFrom)) <- cf JField("value", JString(collectedFrom)) <- cf
JField("classname", JString(classname)) <- instancetype JField("classname", JString(classname)) <- instancetype
} yield (classname, collectedFrom) } yield (classname, collectedFrom)
result result
} }
def extractPidsFromRecord(input: String): (String, List[(String, String)]) = { def extractPidsFromRecord(input: String): (String, List[(String, String)]) = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val id: String = (json \ "id").extract[String] val id: String = (json \ "id").extract[String]
val result: List[(String, String)] = for { val result: List[(String, String)] = for {
JObject(pids) <- json \\ "instance" \ "pid" JObject(pids) <- json \\ "instance" \ "pid"
JField("value", JString(pidValue)) <- pids JField("value", JString(pidValue)) <- pids
JField("qualifier", JObject(qualifier)) <- pids JField("qualifier", JObject(qualifier)) <- pids
JField("classid", JString(pidType)) <- qualifier JField("classid", JString(pidType)) <- qualifier
} yield (pidValue, pidType) } yield (pidValue, pidType)
(id, result) (id, result)
} }
private def isRelation(input: String): Boolean = { private def isRelation(input: String): Boolean = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
@ -132,20 +146,25 @@ object SparkResolveRelation {
source != null source != null
} }
def extractPidResolvedTableFromJsonRDD(spark: SparkSession, graphPath: String, workingPath: String) = { def extractPidResolvedTableFromJsonRDD(
spark: SparkSession,
graphPath: String,
workingPath: String
) = {
import spark.implicits._ import spark.implicits._
val d: RDD[(String, String)] = spark.sparkContext.textFile(s"$graphPath/*") val d: RDD[(String, String)] = spark.sparkContext
.textFile(s"$graphPath/*")
.filter(i => !isRelation(i)) .filter(i => !isRelation(i))
.map(i => extractPidsFromRecord(i)) .map(i => extractPidsFromRecord(i))
.filter(s => s != null && s._1 != null && s._2 != null && s._2.nonEmpty) .filter(s => s != null && s._1 != null && s._2 != null && s._2.nonEmpty)
.flatMap { p => .flatMap { p =>
p._2.map(pid => p._2.map(pid => (p._1, DHPUtils.generateUnresolvedIdentifier(pid._1, pid._2)))
(p._1, DHPUtils.generateUnresolvedIdentifier(pid._1, pid._2)) }
) .filter(r => r._1 != null || r._2 != null)
}.filter(r => r._1 != null || r._2 != null)
spark.createDataset(d) spark
.createDataset(d)
.groupByKey(_._2) .groupByKey(_._2)
.reduceGroups((x, y) => if (x._1.startsWith("50|doi") || x._1.startsWith("50|pmid")) x else y) .reduceGroups((x, y) => if (x._1.startsWith("50|doi") || x._1.startsWith("50|pmid")) x else y)
.map(s => s._2) .map(s => s._2)

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@ -7,24 +7,26 @@ import org.apache.spark.sql.SparkSession
object SparkDataciteToOAF { object SparkDataciteToOAF {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/ebi/datacite_to_df_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/ebi/datacite_to_df_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sc = spark.sparkContext val sc = spark.sparkContext
val inputPath = parser.get("inputPath") val inputPath = parser.get("inputPath")
} }
} }

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@ -11,18 +11,22 @@ import org.slf4j.{Logger, LoggerFactory}
object SparkConvertDatasetToJsonRDD { object SparkConvertDatasetToJsonRDD {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_dataset_json_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_dataset_json_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"sourcePath -> $sourcePath") log.info(s"sourcePath -> $sourcePath")
@ -33,9 +37,13 @@ object SparkConvertDatasetToJsonRDD {
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
implicit val oafEncoder: Encoder[Result] = Encoders.kryo(classOf[Result]) implicit val oafEncoder: Encoder[Result] = Encoders.kryo(classOf[Result])
resultObject.foreach { item => resultObject.foreach { item =>
spark.read.load(s"$sourcePath/$item").as[Result].map(r => mapper.writeValueAsString(r))(Encoders.STRING).rdd.saveAsTextFile(s"$targetPath/${item.toLowerCase}", classOf[GzipCodec]) spark.read
.load(s"$sourcePath/$item")
.as[Result]
.map(r => mapper.writeValueAsString(r))(Encoders.STRING)
.rdd
.saveAsTextFile(s"$targetPath/${item.toLowerCase}", classOf[GzipCodec])
} }
} }

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@ -15,14 +15,19 @@ object SparkConvertObjectToJson {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_object_json_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_object_json_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"sourcePath -> $sourcePath") log.info(s"sourcePath -> $sourcePath")
@ -33,24 +38,28 @@ object SparkConvertObjectToJson {
val scholixUpdatePath = parser.get("scholixUpdatePath") val scholixUpdatePath = parser.get("scholixUpdatePath")
log.info(s"scholixUpdatePath -> $scholixUpdatePath") log.info(s"scholixUpdatePath -> $scholixUpdatePath")
implicit val scholixEncoder: Encoder[Scholix] = Encoders.kryo[Scholix] implicit val scholixEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary] implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary]
val mapper = new ObjectMapper val mapper = new ObjectMapper
objectType.toLowerCase match { objectType.toLowerCase match {
case "scholix" => case "scholix" =>
log.info("Serialize Scholix") log.info("Serialize Scholix")
val d: Dataset[Scholix] = spark.read.load(sourcePath).as[Scholix] val d: Dataset[Scholix] = spark.read.load(sourcePath).as[Scholix]
val u :Dataset[Scholix]= spark.read.load(s"$scholixUpdatePath/scholix").as[Scholix] val u: Dataset[Scholix] = spark.read.load(s"$scholixUpdatePath/scholix").as[Scholix]
d.union(u).repartition(8000).map(s => mapper.writeValueAsString(s))(Encoders.STRING).rdd.saveAsTextFile(targetPath, classOf[GzipCodec]) d.union(u)
.repartition(8000)
.map(s => mapper.writeValueAsString(s))(Encoders.STRING)
.rdd
.saveAsTextFile(targetPath, classOf[GzipCodec])
case "summary" => case "summary" =>
log.info("Serialize Summary") log.info("Serialize Summary")
val d: Dataset[ScholixSummary] = spark.read.load(sourcePath).as[ScholixSummary] val d: Dataset[ScholixSummary] = spark.read.load(sourcePath).as[ScholixSummary]
d.map(s => mapper.writeValueAsString(s))(Encoders.STRING).rdd.repartition(1000).saveAsTextFile(targetPath, classOf[GzipCodec]) d.map(s => mapper.writeValueAsString(s))(Encoders.STRING)
.rdd
.repartition(1000)
.saveAsTextFile(targetPath, classOf[GzipCodec])
} }
} }

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@ -7,21 +7,26 @@ import org.apache.commons.io.IOUtils
import org.apache.spark.SparkConf import org.apache.spark.SparkConf
import org.apache.spark.sql.{Encoder, Encoders, SaveMode, SparkSession} import org.apache.spark.sql.{Encoder, Encoders, SaveMode, SparkSession}
import org.slf4j.{Logger, LoggerFactory} import org.slf4j.{Logger, LoggerFactory}
object SparkConvertRDDtoDataset { object SparkConvertRDDtoDataset {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_dataset_json_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/convert_dataset_json_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"sourcePath -> $sourcePath") log.info(s"sourcePath -> $sourcePath")
@ -31,43 +36,79 @@ object SparkConvertRDDtoDataset {
val entityPath = s"$t/entities" val entityPath = s"$t/entities"
val relPath = s"$t/relation" val relPath = s"$t/relation"
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
implicit val datasetEncoder: Encoder[OafDataset] = Encoders.kryo(classOf[OafDataset]) implicit val datasetEncoder: Encoder[OafDataset] = Encoders.kryo(classOf[OafDataset])
implicit val publicationEncoder: Encoder[Publication] = Encoders.kryo(classOf[Publication]) implicit val publicationEncoder: Encoder[Publication] = Encoders.kryo(classOf[Publication])
implicit val relationEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation]) implicit val relationEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation])
implicit val orpEncoder: Encoder[OtherResearchProduct] = Encoders.kryo(classOf[OtherResearchProduct]) implicit val orpEncoder: Encoder[OtherResearchProduct] =
implicit val softwareEncoder: Encoder[Software] = Encoders.kryo(classOf[Software]) Encoders.kryo(classOf[OtherResearchProduct])
implicit val softwareEncoder: Encoder[Software] = Encoders.kryo(classOf[Software])
log.info("Converting dataset") log.info("Converting dataset")
val rddDataset =spark.sparkContext.textFile(s"$sourcePath/dataset").map(s => mapper.readValue(s, classOf[OafDataset])).filter(r=> r.getDataInfo!= null && r.getDataInfo.getDeletedbyinference == false) val rddDataset = spark.sparkContext
spark.createDataset(rddDataset).as[OafDataset].write.mode(SaveMode.Overwrite).save(s"$entityPath/dataset") .textFile(s"$sourcePath/dataset")
.map(s => mapper.readValue(s, classOf[OafDataset]))
.filter(r => r.getDataInfo != null && r.getDataInfo.getDeletedbyinference == false)
spark
.createDataset(rddDataset)
.as[OafDataset]
.write
.mode(SaveMode.Overwrite)
.save(s"$entityPath/dataset")
log.info("Converting publication") log.info("Converting publication")
val rddPublication =spark.sparkContext.textFile(s"$sourcePath/publication").map(s => mapper.readValue(s, classOf[Publication])).filter(r=> r.getDataInfo!= null && r.getDataInfo.getDeletedbyinference == false) val rddPublication = spark.sparkContext
spark.createDataset(rddPublication).as[Publication].write.mode(SaveMode.Overwrite).save(s"$entityPath/publication") .textFile(s"$sourcePath/publication")
.map(s => mapper.readValue(s, classOf[Publication]))
.filter(r => r.getDataInfo != null && r.getDataInfo.getDeletedbyinference == false)
spark
.createDataset(rddPublication)
.as[Publication]
.write
.mode(SaveMode.Overwrite)
.save(s"$entityPath/publication")
log.info("Converting software") log.info("Converting software")
val rddSoftware =spark.sparkContext.textFile(s"$sourcePath/software").map(s => mapper.readValue(s, classOf[Software])).filter(r=> r.getDataInfo!= null && r.getDataInfo.getDeletedbyinference == false) val rddSoftware = spark.sparkContext
spark.createDataset(rddSoftware).as[Software].write.mode(SaveMode.Overwrite).save(s"$entityPath/software") .textFile(s"$sourcePath/software")
.map(s => mapper.readValue(s, classOf[Software]))
.filter(r => r.getDataInfo != null && r.getDataInfo.getDeletedbyinference == false)
spark
.createDataset(rddSoftware)
.as[Software]
.write
.mode(SaveMode.Overwrite)
.save(s"$entityPath/software")
log.info("Converting otherresearchproduct") log.info("Converting otherresearchproduct")
val rddOtherResearchProduct =spark.sparkContext.textFile(s"$sourcePath/otherresearchproduct").map(s => mapper.readValue(s, classOf[OtherResearchProduct])).filter(r=> r.getDataInfo!= null && r.getDataInfo.getDeletedbyinference == false) val rddOtherResearchProduct = spark.sparkContext
spark.createDataset(rddOtherResearchProduct).as[OtherResearchProduct].write.mode(SaveMode.Overwrite).save(s"$entityPath/otherresearchproduct") .textFile(s"$sourcePath/otherresearchproduct")
.map(s => mapper.readValue(s, classOf[OtherResearchProduct]))
.filter(r => r.getDataInfo != null && r.getDataInfo.getDeletedbyinference == false)
spark
.createDataset(rddOtherResearchProduct)
.as[OtherResearchProduct]
.write
.mode(SaveMode.Overwrite)
.save(s"$entityPath/otherresearchproduct")
log.info("Converting Relation") log.info("Converting Relation")
val relationSemanticFilter = List(
"cites",
"iscitedby",
"merges",
"ismergedin",
"HasAmongTopNSimilarDocuments",
"IsAmongTopNSimilarDocuments"
)
val relationSemanticFilter = List("cites", "iscitedby","merges", "ismergedin", "HasAmongTopNSimilarDocuments","IsAmongTopNSimilarDocuments" ) val rddRelation = spark.sparkContext
.textFile(s"$sourcePath/relation")
val rddRelation =spark.sparkContext.textFile(s"$sourcePath/relation")
.map(s => mapper.readValue(s, classOf[Relation])) .map(s => mapper.readValue(s, classOf[Relation]))
.filter(r=> r.getDataInfo!= null && r.getDataInfo.getDeletedbyinference == false) .filter(r => r.getDataInfo != null && r.getDataInfo.getDeletedbyinference == false)
.filter(r=> r.getSource.startsWith("50") && r.getTarget.startsWith("50")) .filter(r => r.getSource.startsWith("50") && r.getTarget.startsWith("50"))
.filter(r => !relationSemanticFilter.exists(k => k.equalsIgnoreCase(r.getRelClass))) .filter(r => !relationSemanticFilter.exists(k => k.equalsIgnoreCase(r.getRelClass)))
spark.createDataset(rddRelation).as[Relation].write.mode(SaveMode.Overwrite).save(s"$relPath") spark.createDataset(rddRelation).as[Relation].write.mode(SaveMode.Overwrite).save(s"$relPath")
} }
} }

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@ -1,7 +1,7 @@
package eu.dnetlib.dhp.sx.graph package eu.dnetlib.dhp.sx.graph
import eu.dnetlib.dhp.application.ArgumentApplicationParser import eu.dnetlib.dhp.application.ArgumentApplicationParser
import eu.dnetlib.dhp.schema.oaf.{Dataset => OafDataset,_} import eu.dnetlib.dhp.schema.oaf.{Dataset => OafDataset, _}
import org.apache.commons.io.IOUtils import org.apache.commons.io.IOUtils
import org.apache.spark.SparkConf import org.apache.spark.SparkConf
import org.apache.spark.sql._ import org.apache.spark.sql._
@ -13,82 +13,131 @@ object SparkCreateInputGraph {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/extract_entities_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/extract_entities_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val resultObject = List( val resultObject = List(
("publication", classOf[Publication]), ("publication", classOf[Publication]),
("dataset", classOf[OafDataset]), ("dataset", classOf[OafDataset]),
("software", classOf[Software]), ("software", classOf[Software]),
("otherResearchProduct", classOf[OtherResearchProduct]) ("otherResearchProduct", classOf[OtherResearchProduct])
) )
implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf]) implicit val oafEncoder: Encoder[Oaf] = Encoders.kryo(classOf[Oaf])
implicit val publicationEncoder: Encoder[Publication] = Encoders.kryo(classOf[Publication]) implicit val publicationEncoder: Encoder[Publication] = Encoders.kryo(classOf[Publication])
implicit val datasetEncoder: Encoder[OafDataset] = Encoders.kryo(classOf[OafDataset]) implicit val datasetEncoder: Encoder[OafDataset] = Encoders.kryo(classOf[OafDataset])
implicit val softwareEncoder: Encoder[Software] = Encoders.kryo(classOf[Software]) implicit val softwareEncoder: Encoder[Software] = Encoders.kryo(classOf[Software])
implicit val orpEncoder: Encoder[OtherResearchProduct] = Encoders.kryo(classOf[OtherResearchProduct]) implicit val orpEncoder: Encoder[OtherResearchProduct] =
Encoders.kryo(classOf[OtherResearchProduct])
implicit val relEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation]) implicit val relEncoder: Encoder[Relation] = Encoders.kryo(classOf[Relation])
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"sourcePath -> $sourcePath") log.info(s"sourcePath -> $sourcePath")
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
log.info(s"targetPath -> $targetPath") log.info(s"targetPath -> $targetPath")
val oafDs: Dataset[Oaf] = spark.read.load(s"$sourcePath/*").as[Oaf] val oafDs: Dataset[Oaf] = spark.read.load(s"$sourcePath/*").as[Oaf]
log.info("Extract Publication") log.info("Extract Publication")
oafDs.filter(o => o.isInstanceOf[Publication]).map(p => p.asInstanceOf[Publication]).write.mode(SaveMode.Overwrite).save(s"$targetPath/extracted/publication") oafDs
.filter(o => o.isInstanceOf[Publication])
.map(p => p.asInstanceOf[Publication])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/extracted/publication")
log.info("Extract dataset") log.info("Extract dataset")
oafDs.filter(o => o.isInstanceOf[OafDataset]).map(p => p.asInstanceOf[OafDataset]).write.mode(SaveMode.Overwrite).save(s"$targetPath/extracted/dataset") oafDs
.filter(o => o.isInstanceOf[OafDataset])
.map(p => p.asInstanceOf[OafDataset])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/extracted/dataset")
log.info("Extract software") log.info("Extract software")
oafDs.filter(o => o.isInstanceOf[Software]).map(p => p.asInstanceOf[Software]).write.mode(SaveMode.Overwrite).save(s"$targetPath/extracted/software") oafDs
.filter(o => o.isInstanceOf[Software])
.map(p => p.asInstanceOf[Software])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/extracted/software")
log.info("Extract otherResearchProduct") log.info("Extract otherResearchProduct")
oafDs.filter(o => o.isInstanceOf[OtherResearchProduct]).map(p => p.asInstanceOf[OtherResearchProduct]).write.mode(SaveMode.Overwrite).save(s"$targetPath/extracted/otherResearchProduct") oafDs
.filter(o => o.isInstanceOf[OtherResearchProduct])
.map(p => p.asInstanceOf[OtherResearchProduct])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/extracted/otherResearchProduct")
log.info("Extract Relation") log.info("Extract Relation")
oafDs.filter(o => o.isInstanceOf[Relation]).map(p => p.asInstanceOf[Relation]).write.mode(SaveMode.Overwrite).save(s"$targetPath/extracted/relation") oafDs
.filter(o => o.isInstanceOf[Relation])
.map(p => p.asInstanceOf[Relation])
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/extracted/relation")
resultObject.foreach { r => resultObject.foreach { r =>
log.info(s"Make ${r._1} unique") log.info(s"Make ${r._1} unique")
makeDatasetUnique(s"$targetPath/extracted/${r._1}", s"$targetPath/preprocess/${r._1}", spark, r._2) makeDatasetUnique(
s"$targetPath/extracted/${r._1}",
s"$targetPath/preprocess/${r._1}",
spark,
r._2
)
} }
} }
def extractEntities[T <: Oaf](
def extractEntities[T <: Oaf](oafDs: Dataset[Oaf], targetPath: String, clazz: Class[T], log: Logger): Unit = { oafDs: Dataset[Oaf],
targetPath: String,
clazz: Class[T],
log: Logger
): Unit = {
implicit val resEncoder: Encoder[T] = Encoders.kryo(clazz) implicit val resEncoder: Encoder[T] = Encoders.kryo(clazz)
log.info(s"Extract ${clazz.getSimpleName}") log.info(s"Extract ${clazz.getSimpleName}")
oafDs.filter(o => o.isInstanceOf[T]).map(p => p.asInstanceOf[T]).write.mode(SaveMode.Overwrite).save(targetPath) oafDs
.filter(o => o.isInstanceOf[T])
.map(p => p.asInstanceOf[T])
.write
.mode(SaveMode.Overwrite)
.save(targetPath)
} }
def makeDatasetUnique[T <: Result](
def makeDatasetUnique[T <: Result](sourcePath: String, targetPath: String, spark: SparkSession, clazz: Class[T]): Unit = { sourcePath: String,
targetPath: String,
spark: SparkSession,
clazz: Class[T]
): Unit = {
import spark.implicits._ import spark.implicits._
implicit val resEncoder: Encoder[T] = Encoders.kryo(clazz) implicit val resEncoder: Encoder[T] = Encoders.kryo(clazz)
val ds: Dataset[T] = spark.read.load(sourcePath).as[T] val ds: Dataset[T] = spark.read.load(sourcePath).as[T]
ds.groupByKey(_.getId).reduceGroups { (x, y) => ds.groupByKey(_.getId)
x.mergeFrom(y) .reduceGroups { (x, y) =>
x x.mergeFrom(y)
}.map(_._2).write.mode(SaveMode.Overwrite).save(targetPath) x
}
.map(_._2)
.write
.mode(SaveMode.Overwrite)
.save(targetPath)
} }

View File

@ -17,14 +17,19 @@ object SparkCreateScholix {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/create_scholix_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/create_scholix_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val relationPath = parser.get("relationPath") val relationPath = parser.get("relationPath")
log.info(s"relationPath -> $relationPath") log.info(s"relationPath -> $relationPath")
@ -33,37 +38,46 @@ object SparkCreateScholix {
val targetPath = parser.get("targetPath") val targetPath = parser.get("targetPath")
log.info(s"targetPath -> $targetPath") log.info(s"targetPath -> $targetPath")
implicit val relEncoder: Encoder[Relation] = Encoders.kryo[Relation] implicit val relEncoder: Encoder[Relation] = Encoders.kryo[Relation]
implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary] implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary]
implicit val scholixEncoder: Encoder[Scholix] = Encoders.kryo[Scholix] implicit val scholixEncoder: Encoder[Scholix] = Encoders.kryo[Scholix]
import spark.implicits._ import spark.implicits._
val relationDS: Dataset[(String, Relation)] = spark.read
val relationDS: Dataset[(String, Relation)] = spark.read.load(relationPath).as[Relation] .load(relationPath)
.filter(r => (r.getDataInfo == null || r.getDataInfo.getDeletedbyinference == false) && !r.getRelClass.toLowerCase.contains("merge")) .as[Relation]
.filter(r =>
(r.getDataInfo == null || r.getDataInfo.getDeletedbyinference == false) && !r.getRelClass.toLowerCase
.contains("merge")
)
.map(r => (r.getSource, r))(Encoders.tuple(Encoders.STRING, relEncoder)) .map(r => (r.getSource, r))(Encoders.tuple(Encoders.STRING, relEncoder))
val summaryDS: Dataset[(String, ScholixSummary)] = spark.read.load(summaryPath).as[ScholixSummary] val summaryDS: Dataset[(String, ScholixSummary)] = spark.read
.load(summaryPath)
.as[ScholixSummary]
.map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, summaryEncoder)) .map(r => (r.getId, r))(Encoders.tuple(Encoders.STRING, summaryEncoder))
relationDS
relationDS.joinWith(summaryDS, relationDS("_1").equalTo(summaryDS("_1")), "left") .joinWith(summaryDS, relationDS("_1").equalTo(summaryDS("_1")), "left")
.map { input: ((String, Relation), (String, ScholixSummary)) => .map { input: ((String, Relation), (String, ScholixSummary)) =>
if (input._1 != null && input._2 != null) { if (input._1 != null && input._2 != null) {
val rel: Relation = input._1._2 val rel: Relation = input._1._2
val source: ScholixSummary = input._2._2 val source: ScholixSummary = input._2._2
(rel.getTarget, ScholixUtils.scholixFromSource(rel, source)) (rel.getTarget, ScholixUtils.scholixFromSource(rel, source))
} } else null
else null
}(Encoders.tuple(Encoders.STRING, scholixEncoder)) }(Encoders.tuple(Encoders.STRING, scholixEncoder))
.filter(r => r != null) .filter(r => r != null)
.write.mode(SaveMode.Overwrite).save(s"$targetPath/scholix_from_source") .write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/scholix_from_source")
val scholixSource: Dataset[(String, Scholix)] = spark.read.load(s"$targetPath/scholix_from_source").as[(String, Scholix)](Encoders.tuple(Encoders.STRING, scholixEncoder)) val scholixSource: Dataset[(String, Scholix)] = spark.read
.load(s"$targetPath/scholix_from_source")
.as[(String, Scholix)](Encoders.tuple(Encoders.STRING, scholixEncoder))
scholixSource.joinWith(summaryDS, scholixSource("_1").equalTo(summaryDS("_1")), "left") scholixSource
.joinWith(summaryDS, scholixSource("_1").equalTo(summaryDS("_1")), "left")
.map { input: ((String, Scholix), (String, ScholixSummary)) => .map { input: ((String, Scholix), (String, ScholixSummary)) =>
if (input._2 == null) { if (input._2 == null) {
null null
@ -72,40 +86,73 @@ object SparkCreateScholix {
val target: ScholixSummary = input._2._2 val target: ScholixSummary = input._2._2
ScholixUtils.generateCompleteScholix(s, target) ScholixUtils.generateCompleteScholix(s, target)
} }
}.filter(s => s != null).write.mode(SaveMode.Overwrite).save(s"$targetPath/scholix_one_verse") }
.filter(s => s != null)
.write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/scholix_one_verse")
val scholix_o_v: Dataset[Scholix] =
spark.read.load(s"$targetPath/scholix_one_verse").as[Scholix]
val scholix_o_v: Dataset[Scholix] = spark.read.load(s"$targetPath/scholix_one_verse").as[Scholix] scholix_o_v
.flatMap(s => List(s, ScholixUtils.createInverseScholixRelation(s)))
scholix_o_v.flatMap(s => List(s, ScholixUtils.createInverseScholixRelation(s))).as[Scholix] .as[Scholix]
.map(s => (s.getIdentifier, s))(Encoders.tuple(Encoders.STRING, scholixEncoder)) .map(s => (s.getIdentifier, s))(Encoders.tuple(Encoders.STRING, scholixEncoder))
.groupByKey(_._1) .groupByKey(_._1)
.agg(ScholixUtils.scholixAggregator.toColumn) .agg(ScholixUtils.scholixAggregator.toColumn)
.map(s => s._2) .map(s => s._2)
.write.mode(SaveMode.Overwrite).save(s"$targetPath/scholix") .write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/scholix")
val scholix_final: Dataset[Scholix] = spark.read.load(s"$targetPath/scholix").as[Scholix] val scholix_final: Dataset[Scholix] = spark.read.load(s"$targetPath/scholix").as[Scholix]
val stats: Dataset[(String, String, Long)] = scholix_final.map(s => (s.getSource.getDnetIdentifier, s.getTarget.getObjectType)).groupBy("_1", "_2").agg(count("_1")).as[(String, String, Long)] val stats: Dataset[(String, String, Long)] = scholix_final
.map(s => (s.getSource.getDnetIdentifier, s.getTarget.getObjectType))
.groupBy("_1", "_2")
.agg(count("_1"))
.as[(String, String, Long)]
stats stats
.map(s => RelatedEntities(s._1, if ("dataset".equalsIgnoreCase(s._2)) s._3 else 0, if ("publication".equalsIgnoreCase(s._2)) s._3 else 0)) .map(s =>
RelatedEntities(
s._1,
if ("dataset".equalsIgnoreCase(s._2)) s._3 else 0,
if ("publication".equalsIgnoreCase(s._2)) s._3 else 0
)
)
.groupByKey(_.id) .groupByKey(_.id)
.reduceGroups((a, b) => RelatedEntities(a.id, a.relatedDataset + b.relatedDataset, a.relatedPublication + b.relatedPublication)) .reduceGroups((a, b) =>
RelatedEntities(
a.id,
a.relatedDataset + b.relatedDataset,
a.relatedPublication + b.relatedPublication
)
)
.map(_._2) .map(_._2)
.write.mode(SaveMode.Overwrite).save(s"$targetPath/related_entities") .write
.mode(SaveMode.Overwrite)
.save(s"$targetPath/related_entities")
val relatedEntitiesDS: Dataset[RelatedEntities] = spark.read.load(s"$targetPath/related_entities").as[RelatedEntities].filter(r => r.relatedPublication > 0 || r.relatedDataset > 0) val relatedEntitiesDS: Dataset[RelatedEntities] = spark.read
.load(s"$targetPath/related_entities")
.as[RelatedEntities]
.filter(r => r.relatedPublication > 0 || r.relatedDataset > 0)
relatedEntitiesDS.joinWith(summaryDS, relatedEntitiesDS("id").equalTo(summaryDS("_1")), "inner").map { i => relatedEntitiesDS
val re = i._1 .joinWith(summaryDS, relatedEntitiesDS("id").equalTo(summaryDS("_1")), "inner")
val sum = i._2._2 .map { i =>
val re = i._1
val sum = i._2._2
sum.setRelatedDatasets(re.relatedDataset) sum.setRelatedDatasets(re.relatedDataset)
sum.setRelatedPublications(re.relatedPublication) sum.setRelatedPublications(re.relatedPublication)
sum sum
}.write.mode(SaveMode.Overwrite).save(s"${summaryPath}_filtered") }
.write
.mode(SaveMode.Overwrite)
.save(s"${summaryPath}_filtered")
} }
} }

View File

@ -14,14 +14,19 @@ object SparkCreateSummaryObject {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val log: Logger = LoggerFactory.getLogger(getClass) val log: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(IOUtils.toString(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/create_summaries_params.json"))) val parser = new ArgumentApplicationParser(
IOUtils.toString(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/create_summaries_params.json")
)
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(getClass.getSimpleName) .appName(getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
val sourcePath = parser.get("sourcePath") val sourcePath = parser.get("sourcePath")
log.info(s"sourcePath -> $sourcePath") log.info(s"sourcePath -> $sourcePath")
@ -33,10 +38,17 @@ object SparkCreateSummaryObject {
implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary] implicit val summaryEncoder: Encoder[ScholixSummary] = Encoders.kryo[ScholixSummary]
val ds: Dataset[Result] = spark.read
.load(s"$sourcePath/*")
.as[Result]
.filter(r => r.getDataInfo == null || r.getDataInfo.getDeletedbyinference == false)
val ds: Dataset[Result] = spark.read.load(s"$sourcePath/*").as[Result].filter(r => r.getDataInfo == null || r.getDataInfo.getDeletedbyinference == false) ds.repartition(6000)
.map(r => ScholixUtils.resultToSummary(r))
ds.repartition(6000).map(r => ScholixUtils.resultToSummary(r)).filter(s => s != null).write.mode(SaveMode.Overwrite).save(targetPath) .filter(s => s != null)
.write
.mode(SaveMode.Overwrite)
.save(targetPath)
} }

View File

@ -10,61 +10,88 @@ import java.util.regex.Pattern
import scala.language.postfixOps import scala.language.postfixOps
import scala.xml.{Elem, Node, XML} import scala.xml.{Elem, Node, XML}
case class PangaeaDataModel(identifier:String, title:List[String], objectType:List[String], creator:List[String], case class PangaeaDataModel(
publisher:List[String], dataCenter :List[String],subject :List[String], language:String, identifier: String,
rights:String, parent:String,relation :List[String],linkage:List[(String,String)] ) {} title: List[String],
objectType: List[String],
creator: List[String],
publisher: List[String],
dataCenter: List[String],
subject: List[String],
language: String,
rights: String,
parent: String,
relation: List[String],
linkage: List[(String, String)]
) {}
object PangaeaUtils { object PangaeaUtils {
def toDataset(input: String): PangaeaDataModel = {
def toDataset(input:String):PangaeaDataModel = {
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(input) lazy val json: json4s.JValue = parse(input)
val xml= (json \ "xml").extract[String] val xml = (json \ "xml").extract[String]
parseXml(xml) parseXml(xml)
} }
def findDOIInRelation( input:List[String]):List[String] = { def findDOIInRelation(input: List[String]): List[String] = {
val pattern = Pattern.compile("\\b(10[.][0-9]{4,}(?:[.][0-9]+)*\\/(?:(?![\"&\\'<>])\\S)+)\\b") val pattern = Pattern.compile("\\b(10[.][0-9]{4,}(?:[.][0-9]+)*\\/(?:(?![\"&\\'<>])\\S)+)\\b")
input.map(i => { input
val matcher = pattern.matcher(i) .map(i => {
if (matcher.find()) val matcher = pattern.matcher(i)
matcher.group(0) if (matcher.find())
else matcher.group(0)
null else
}).filter(i => i!= null) null
})
.filter(i => i != null)
} }
def attributeOpt(attribute: String, node:Node): Option[String] = def attributeOpt(attribute: String, node: Node): Option[String] =
node.attribute(attribute) flatMap (_.headOption) map (_.text) node.attribute(attribute) flatMap (_.headOption) map (_.text)
def extractLinkage(node:Elem):List[(String, String)] = { def extractLinkage(node: Elem): List[(String, String)] = {
(node \ "linkage").map(n =>(attributeOpt("type",n), n.text)).filter(t => t._1.isDefined).map(t=> (t._1.get, t._2))(collection.breakOut) (node \ "linkage")
.map(n => (attributeOpt("type", n), n.text))
.filter(t => t._1.isDefined)
.map(t => (t._1.get, t._2))(collection.breakOut)
} }
def parseXml(input:String):PangaeaDataModel = { def parseXml(input: String): PangaeaDataModel = {
val xml = XML.loadString(input) val xml = XML.loadString(input)
val identifier = (xml \ "identifier").text val identifier = (xml \ "identifier").text
val title :List[String] = (xml \ "title").map(n => n.text)(collection.breakOut) val title: List[String] = (xml \ "title").map(n => n.text)(collection.breakOut)
val pType :List[String] = (xml \ "type").map(n => n.text)(collection.breakOut) val pType: List[String] = (xml \ "type").map(n => n.text)(collection.breakOut)
val creators:List[String] = (xml \ "creator").map(n => n.text)(collection.breakOut) val creators: List[String] = (xml \ "creator").map(n => n.text)(collection.breakOut)
val publisher :List[String] = (xml \ "publisher").map(n => n.text)(collection.breakOut) val publisher: List[String] = (xml \ "publisher").map(n => n.text)(collection.breakOut)
val dataCenter :List[String] = (xml \ "dataCenter").map(n => n.text)(collection.breakOut) val dataCenter: List[String] = (xml \ "dataCenter").map(n => n.text)(collection.breakOut)
val subject :List[String] = (xml \ "subject").map(n => n.text)(collection.breakOut) val subject: List[String] = (xml \ "subject").map(n => n.text)(collection.breakOut)
val language= (xml \ "language").text val language = (xml \ "language").text
val rights= (xml \ "rights").text val rights = (xml \ "rights").text
val parentIdentifier= (xml \ "parentIdentifier").text val parentIdentifier = (xml \ "parentIdentifier").text
val relation :List[String] = (xml \ "relation").map(n => n.text)(collection.breakOut) val relation: List[String] = (xml \ "relation").map(n => n.text)(collection.breakOut)
val relationFiltered = findDOIInRelation(relation) val relationFiltered = findDOIInRelation(relation)
val linkage:List[(String,String)] = extractLinkage(xml) val linkage: List[(String, String)] = extractLinkage(xml)
PangaeaDataModel(identifier,title, pType, creators,publisher, dataCenter, subject, language, rights, parentIdentifier, relationFiltered, linkage) PangaeaDataModel(
identifier,
title,
pType,
creators,
publisher,
dataCenter,
subject,
language,
rights,
parentIdentifier,
relationFiltered,
linkage
)
} }
def getDatasetAggregator(): Aggregator[(String, PangaeaDataModel), PangaeaDataModel, PangaeaDataModel] =
def getDatasetAggregator(): Aggregator[(String, PangaeaDataModel), PangaeaDataModel, PangaeaDataModel] = new Aggregator[(String, PangaeaDataModel), PangaeaDataModel, PangaeaDataModel]{ new Aggregator[(String, PangaeaDataModel), PangaeaDataModel, PangaeaDataModel] {
override def zero: PangaeaDataModel = null override def zero: PangaeaDataModel = null
@ -77,7 +104,7 @@ object PangaeaUtils {
else { else {
if (b.title != null && b.title.nonEmpty) if (b.title != null && b.title.nonEmpty)
b b
else else
a._2 a._2
} }
@ -106,7 +133,4 @@ object PangaeaUtils {
override def outputEncoder: Encoder[PangaeaDataModel] = Encoders.kryo[PangaeaDataModel] override def outputEncoder: Encoder[PangaeaDataModel] = Encoders.kryo[PangaeaDataModel]
} }
}
}

View File

@ -11,20 +11,25 @@ import scala.io.Source
object SparkGeneratePanagaeaDataset { object SparkGeneratePanagaeaDataset {
def main(args: Array[String]): Unit = { def main(args: Array[String]): Unit = {
val logger: Logger = LoggerFactory.getLogger(getClass) val logger: Logger = LoggerFactory.getLogger(getClass)
val conf: SparkConf = new SparkConf() val conf: SparkConf = new SparkConf()
val parser = new ArgumentApplicationParser(Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/pangaea/pangaea_to_dataset.json")).mkString) val parser = new ArgumentApplicationParser(
Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/pangaea/pangaea_to_dataset.json")
)
.mkString
)
parser.parseArgument(args) parser.parseArgument(args)
val spark: SparkSession = val spark: SparkSession =
SparkSession SparkSession
.builder() .builder()
.config(conf) .config(conf)
.appName(SparkGeneratePanagaeaDataset.getClass.getSimpleName) .appName(SparkGeneratePanagaeaDataset.getClass.getSimpleName)
.master(parser.get("master")).getOrCreate() .master(parser.get("master"))
.getOrCreate()
parser.getObjectMap.asScala.foreach(s => logger.info(s"${s._1} -> ${s._2}")) parser.getObjectMap.asScala.foreach(s => logger.info(s"${s._1} -> ${s._2}"))
logger.info("Converting sequential file into Dataset") logger.info("Converting sequential file into Dataset")
@ -34,16 +39,20 @@ object SparkGeneratePanagaeaDataset {
implicit val pangaeaEncoders: Encoder[PangaeaDataModel] = Encoders.kryo[PangaeaDataModel] implicit val pangaeaEncoders: Encoder[PangaeaDataModel] = Encoders.kryo[PangaeaDataModel]
val inputRDD: RDD[PangaeaDataModel] = sc.textFile(s"$workingPath/update").map(s => PangaeaUtils.toDataset(s)) val inputRDD: RDD[PangaeaDataModel] =
sc.textFile(s"$workingPath/update").map(s => PangaeaUtils.toDataset(s))
spark.createDataset(inputRDD).as[PangaeaDataModel] spark
.createDataset(inputRDD)
.as[PangaeaDataModel]
.map(s => (s.identifier, s))(Encoders.tuple(Encoders.STRING, pangaeaEncoders)) .map(s => (s.identifier, s))(Encoders.tuple(Encoders.STRING, pangaeaEncoders))
.groupByKey(_._1)(Encoders.STRING) .groupByKey(_._1)(Encoders.STRING)
.agg(PangaeaUtils.getDatasetAggregator().toColumn) .agg(PangaeaUtils.getDatasetAggregator().toColumn)
.map(s => s._2) .map(s => s._2)
.write.mode(SaveMode.Overwrite).save(s"$workingPath/dataset") .write
.mode(SaveMode.Overwrite)
.save(s"$workingPath/dataset")
} }
} }

View File

@ -9,10 +9,10 @@ import org.apache.spark.sql.{Dataset, Encoder, Encoders, SparkSession}
import org.junit.jupiter.api.Assertions.{assertEquals, assertTrue} import org.junit.jupiter.api.Assertions.{assertEquals, assertTrue}
import org.junit.jupiter.api.Test import org.junit.jupiter.api.Test
class TestApply extends java.io.Serializable{ class TestApply extends java.io.Serializable {
@Test @Test
def testApplyOnResult (): Unit = { def testApplyOnResult(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -25,54 +25,104 @@ class TestApply extends java.io.Serializable{
val pub = getClass.getResource("publication.json").getPath val pub = getClass.getResource("publication.json").getPath
val hbm = getClass.getResource("preparedInfo.json").getPath val hbm = getClass.getResource("preparedInfo.json").getPath
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
implicit val mapEncoderPubInfo: Encoder[Publication] = Encoders.bean(classOf[Publication]) implicit val mapEncoderPubInfo: Encoder[Publication] = Encoders.bean(classOf[Publication])
val pub_ds: Dataset[Publication] =
val pub_ds :Dataset[Publication] = spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[Publication])) spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[Publication]))
val hbm_ds :Dataset[EntityInfo] = spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo])) val hbm_ds: Dataset[EntityInfo] =
spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo]))
assertEquals(13, pub_ds.count()) assertEquals(13, pub_ds.count())
val ds:Dataset[Publication] = SparkApplyHostedByMapToResult.applyHBtoPubs(hbm_ds, pub_ds) val ds: Dataset[Publication] = SparkApplyHostedByMapToResult.applyHBtoPubs(hbm_ds, pub_ds)
assertEquals(13, ds.count) assertEquals(13, ds.count)
val temp: Dataset[(Publication, Publication)] = pub_ds.joinWith(ds, pub_ds.col("id").equalTo(ds.col("id")), "left") val temp: Dataset[(Publication, Publication)] =
pub_ds.joinWith(ds, pub_ds.col("id").equalTo(ds.col("id")), "left")
assertEquals(13, temp.count()) assertEquals(13, temp.count())
temp.foreach(t2 => { temp.foreach(t2 => {
val pb : Publication = t2._1 val pb: Publication = t2._1
val pa : Publication = t2._2 val pa: Publication = t2._2
assertEquals(1, pa.getInstance().size()) assertEquals(1, pa.getInstance().size())
assertEquals(1, pb.getInstance().size()) assertEquals(1, pb.getInstance().size())
assertTrue(t2._1.getId.equals(t2._2.getId)) assertTrue(t2._1.getId.equals(t2._2.getId))
if(pb.getId.equals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9")){ if (pb.getId.equals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9")) {
assertTrue(pa.getInstance().get(0).getHostedby.getKey.equals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735")) assertTrue(
pa.getInstance()
.get(0)
.getHostedby
.getKey
.equals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735")
)
assertTrue(pa.getInstance().get(0).getHostedby.getValue.equals("Academic Therapy")) assertTrue(pa.getInstance().get(0).getHostedby.getValue.equals("Academic Therapy"))
assertTrue(pa.getInstance().get(0).getAccessright.getClassid.equals("OPEN")) assertTrue(pa.getInstance().get(0).getAccessright.getClassid.equals("OPEN"))
assertTrue(pa.getInstance().get(0).getAccessright.getClassname.equals("Open Access")) assertTrue(pa.getInstance().get(0).getAccessright.getClassname.equals("Open Access"))
assertTrue(pa.getInstance().get(0).getAccessright.getOpenAccessRoute.equals(OpenAccessRoute.gold)) assertTrue(
pa.getInstance().get(0).getAccessright.getOpenAccessRoute.equals(OpenAccessRoute.gold)
)
assertTrue(pa.getBestaccessright.getClassid.equals("OPEN")) assertTrue(pa.getBestaccessright.getClassid.equals("OPEN"))
assertTrue(pa.getBestaccessright.getClassname.equals("Open Access")) assertTrue(pa.getBestaccessright.getClassname.equals("Open Access"))
assertTrue(
assertTrue(pb.getInstance().get(0).getHostedby.getKey.equals("10|openaire____::0b74b6a356bbf23c245f9ae9a748745c")) pb.getInstance()
assertTrue(pb.getInstance().get(0).getHostedby.getValue.equals("Revistas de investigación Universidad Nacional Mayor de San Marcos")) .get(0)
.getHostedby
.getKey
.equals("10|openaire____::0b74b6a356bbf23c245f9ae9a748745c")
)
assertTrue(
pb.getInstance()
.get(0)
.getHostedby
.getValue
.equals("Revistas de investigación Universidad Nacional Mayor de San Marcos")
)
assertTrue(pb.getInstance().get(0).getAccessright.getClassname.equals("not available")) assertTrue(pb.getInstance().get(0).getAccessright.getClassname.equals("not available"))
assertTrue(pb.getInstance().get(0).getAccessright.getClassid.equals("UNKNOWN")) assertTrue(pb.getInstance().get(0).getAccessright.getClassid.equals("UNKNOWN"))
assertTrue(pb.getInstance().get(0).getAccessright.getOpenAccessRoute == null) assertTrue(pb.getInstance().get(0).getAccessright.getOpenAccessRoute == null)
assertTrue(pb.getBestaccessright.getClassid.equals("UNKNOWN")) assertTrue(pb.getBestaccessright.getClassid.equals("UNKNOWN"))
assertTrue(pb.getBestaccessright.getClassname.equals("not available")) assertTrue(pb.getBestaccessright.getClassname.equals("not available"))
}else{ } else {
assertTrue(pa.getInstance().get(0).getHostedby.getKey.equals(pb.getInstance().get(0).getHostedby.getKey)) assertTrue(
assertTrue(pa.getInstance().get(0).getHostedby.getValue.equals(pb.getInstance().get(0).getHostedby.getValue)) pa.getInstance()
assertTrue(pa.getInstance().get(0).getAccessright.getClassid.equals(pb.getInstance().get(0).getAccessright.getClassid)) .get(0)
assertTrue(pa.getInstance().get(0).getAccessright.getClassname.equals(pb.getInstance().get(0).getAccessright.getClassname)) .getHostedby
assertTrue(pa.getInstance().get(0).getAccessright.getOpenAccessRoute == pb.getInstance().get(0).getAccessright.getOpenAccessRoute) .getKey
.equals(pb.getInstance().get(0).getHostedby.getKey)
)
assertTrue(
pa.getInstance()
.get(0)
.getHostedby
.getValue
.equals(pb.getInstance().get(0).getHostedby.getValue)
)
assertTrue(
pa.getInstance()
.get(0)
.getAccessright
.getClassid
.equals(pb.getInstance().get(0).getAccessright.getClassid)
)
assertTrue(
pa.getInstance()
.get(0)
.getAccessright
.getClassname
.equals(pb.getInstance().get(0).getAccessright.getClassname)
)
assertTrue(
pa.getInstance().get(0).getAccessright.getOpenAccessRoute == pb
.getInstance()
.get(0)
.getAccessright
.getOpenAccessRoute
)
} }
}) })
@ -80,9 +130,8 @@ class TestApply extends java.io.Serializable{
spark.close() spark.close()
} }
@Test @Test
def testApplyOnDatasource():Unit = { def testApplyOnDatasource(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -95,38 +144,49 @@ class TestApply extends java.io.Serializable{
val dats = getClass.getResource("datasource.json").getPath val dats = getClass.getResource("datasource.json").getPath
val hbm = getClass.getResource("preparedInfo2.json").getPath val hbm = getClass.getResource("preparedInfo2.json").getPath
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
implicit val mapEncoderPubInfo: Encoder[Datasource] = Encoders.bean(classOf[Datasource]) implicit val mapEncoderPubInfo: Encoder[Datasource] = Encoders.bean(classOf[Datasource])
val dats_ds: Dataset[Datasource] =
val dats_ds :Dataset[Datasource] = spark.read.textFile(dats).map(p => mapper.readValue(p, classOf[Datasource])) spark.read.textFile(dats).map(p => mapper.readValue(p, classOf[Datasource]))
val hbm_ds :Dataset[EntityInfo] = Aggregators.datasourceToSingleId(spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo]))) val hbm_ds: Dataset[EntityInfo] = Aggregators.datasourceToSingleId(
spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo]))
)
assertEquals(10, dats_ds.count()) assertEquals(10, dats_ds.count())
val ds:Dataset[Datasource] = SparkApplyHostedByMapToDatasource.applyHBtoDats(hbm_ds, dats_ds) val ds: Dataset[Datasource] = SparkApplyHostedByMapToDatasource.applyHBtoDats(hbm_ds, dats_ds)
assertEquals(10, ds.count) assertEquals(10, ds.count)
val temp: Dataset[(Datasource, Datasource)] = dats_ds.joinWith(ds, dats_ds.col("id").equalTo(ds.col("id")), "left") val temp: Dataset[(Datasource, Datasource)] =
dats_ds.joinWith(ds, dats_ds.col("id").equalTo(ds.col("id")), "left")
assertEquals(10, temp.count()) assertEquals(10, temp.count())
temp.foreach(t2 => { temp.foreach(t2 => {
val pb : Datasource = t2._1 val pb: Datasource = t2._1
val pa : Datasource = t2._2 val pa: Datasource = t2._2
assertTrue(t2._1.getId.equals(t2._2.getId)) assertTrue(t2._1.getId.equals(t2._2.getId))
if(pb.getId.equals("10|doajarticles::0ab37b7620eb9a73ac95d3ca4320c97d")) { if (pb.getId.equals("10|doajarticles::0ab37b7620eb9a73ac95d3ca4320c97d")) {
assertTrue(pa.getOpenairecompatibility().getClassid.equals("hostedBy")) assertTrue(pa.getOpenairecompatibility().getClassid.equals("hostedBy"))
assertTrue(pa.getOpenairecompatibility().getClassname.equals("collected from a compatible aggregator")) assertTrue(
pa.getOpenairecompatibility()
.getClassname
.equals("collected from a compatible aggregator")
)
assertTrue(pb.getOpenairecompatibility().getClassid.equals(ModelConstants.UNKNOWN)) assertTrue(pb.getOpenairecompatibility().getClassid.equals(ModelConstants.UNKNOWN))
} else { } else {
assertTrue(pa.getOpenairecompatibility().getClassid.equals(pb.getOpenairecompatibility.getClassid)) assertTrue(
assertTrue(pa.getOpenairecompatibility().getClassname.equals(pb.getOpenairecompatibility.getClassname)) pa.getOpenairecompatibility().getClassid.equals(pb.getOpenairecompatibility.getClassid)
)
assertTrue(
pa.getOpenairecompatibility()
.getClassname
.equals(pb.getOpenairecompatibility.getClassname)
)
} }
}) })

View File

@ -9,9 +9,9 @@ import org.json4s.DefaultFormats
import org.junit.jupiter.api.Assertions.{assertEquals, assertTrue} import org.junit.jupiter.api.Assertions.{assertEquals, assertTrue}
import org.junit.jupiter.api.Test import org.junit.jupiter.api.Test
class TestPrepare extends java.io.Serializable{ class TestPrepare extends java.io.Serializable {
def getString(input:HostedByItemType):String = { def getString(input: HostedByItemType): String = {
import org.json4s.jackson.Serialization.write import org.json4s.jackson.Serialization.write
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
@ -19,9 +19,8 @@ class TestPrepare extends java.io.Serializable{
write(input) write(input)
} }
@Test @Test
def testHostedByMaptoEntityInfo() : Unit = { def testHostedByMaptoEntityInfo(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -33,23 +32,23 @@ class TestPrepare extends java.io.Serializable{
.getOrCreate() .getOrCreate()
val hbm = getClass.getResource("hostedbymap.json").getPath val hbm = getClass.getResource("hostedbymap.json").getPath
import spark.implicits._ import spark.implicits._
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
val ds :Dataset[EntityInfo] = spark.createDataset(spark.sparkContext.textFile(hbm)).map(toEntityInfo) val ds: Dataset[EntityInfo] =
spark.createDataset(spark.sparkContext.textFile(hbm)).map(toEntityInfo)
ds.foreach(e => println(mapper.writeValueAsString(e))) ds.foreach(e => println(mapper.writeValueAsString(e)))
assertEquals(20, ds.count) assertEquals(20, ds.count)
spark.close() spark.close()
} }
@Test @Test
def testPublicationtoEntityInfo() : Unit = { def testPublicationtoEntityInfo(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -61,24 +60,30 @@ class TestPrepare extends java.io.Serializable{
.getOrCreate() .getOrCreate()
val path = getClass.getResource("publication.json").getPath val path = getClass.getResource("publication.json").getPath
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
val ds :Dataset[EntityInfo] = prepareResultInfo(spark, path) val ds: Dataset[EntityInfo] = prepareResultInfo(spark, path)
ds.foreach(e => println(mapper.writeValueAsString(e))) ds.foreach(e => println(mapper.writeValueAsString(e)))
assertEquals(2, ds.count) assertEquals(2, ds.count)
assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ds.filter(ei => ei.getJournalId.equals("1728-5852")).first().getId) assertEquals(
assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ds.filter(ei => ei.getJournalId.equals("0001-396X")).first().getId) "50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9",
ds.filter(ei => ei.getJournalId.equals("1728-5852")).first().getId
)
assertEquals(
"50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9",
ds.filter(ei => ei.getJournalId.equals("0001-396X")).first().getId
)
spark.close() spark.close()
} }
@Test @Test
def testJoinResHBM (): Unit = { def testJoinResHBM(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -91,18 +96,20 @@ class TestPrepare extends java.io.Serializable{
val pub = getClass.getResource("iteminfofrompublication").getPath val pub = getClass.getResource("iteminfofrompublication").getPath
val hbm = getClass.getResource("iteminfofromhostedbymap.json").getPath val hbm = getClass.getResource("iteminfofromhostedbymap.json").getPath
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
val pub_ds :Dataset[EntityInfo] = spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[EntityInfo])) val pub_ds: Dataset[EntityInfo] =
val hbm_ds :Dataset[EntityInfo] = spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo])) spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[EntityInfo]))
val hbm_ds: Dataset[EntityInfo] =
spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo]))
val ds: Dataset[EntityInfo] = joinResHBM(pub_ds, hbm_ds) val ds: Dataset[EntityInfo] = joinResHBM(pub_ds, hbm_ds)
assertEquals(1, ds.count) assertEquals(1, ds.count)
val ei:EntityInfo = ds.first() val ei: EntityInfo = ds.first()
assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ei.getId) assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ei.getId)
assertEquals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735", ei.getHostedById) assertEquals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735", ei.getHostedById)
@ -114,7 +121,7 @@ class TestPrepare extends java.io.Serializable{
} }
@Test @Test
def testJoinResHBM2 (): Unit = { def testJoinResHBM2(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -127,18 +134,20 @@ class TestPrepare extends java.io.Serializable{
val pub = getClass.getResource("iteminfofrompublication2").getPath val pub = getClass.getResource("iteminfofrompublication2").getPath
val hbm = getClass.getResource("iteminfofromhostedbymap2.json").getPath val hbm = getClass.getResource("iteminfofromhostedbymap2.json").getPath
val mapper:ObjectMapper = new ObjectMapper() val mapper: ObjectMapper = new ObjectMapper()
implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo]) implicit val mapEncoderDSInfo: Encoder[EntityInfo] = Encoders.bean(classOf[EntityInfo])
val pub_ds :Dataset[EntityInfo] = spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[EntityInfo])) val pub_ds: Dataset[EntityInfo] =
val hbm_ds :Dataset[EntityInfo] = spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo])) spark.read.textFile(pub).map(p => mapper.readValue(p, classOf[EntityInfo]))
val hbm_ds: Dataset[EntityInfo] =
spark.read.textFile(hbm).map(p => mapper.readValue(p, classOf[EntityInfo]))
val ds: Dataset[EntityInfo] = joinResHBM(pub_ds, hbm_ds) val ds: Dataset[EntityInfo] = joinResHBM(pub_ds, hbm_ds)
assertEquals(1, ds.count) assertEquals(1, ds.count)
val ei:EntityInfo = ds.first() val ei: EntityInfo = ds.first()
assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ei.getId) assertEquals("50|4dc99724cf04::ed1ba83e1add6ce292433729acd8b0d9", ei.getId)
assertEquals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735", ei.getHostedById) assertEquals("10|issn___print::e4b6d6d978f67520f6f37679a98c5735", ei.getHostedById)
@ -150,6 +159,4 @@ class TestPrepare extends java.io.Serializable{
spark.close() spark.close()
} }
} }

View File

@ -8,20 +8,19 @@ import org.json4s.jackson.Serialization.write
import org.junit.jupiter.api.Assertions._ import org.junit.jupiter.api.Assertions._
import org.junit.jupiter.api.Test import org.junit.jupiter.api.Test
class TestPreprocess extends java.io.Serializable{ class TestPreprocess extends java.io.Serializable {
implicit val mapEncoderDats: Encoder[Datasource] = Encoders.kryo[Datasource] implicit val mapEncoderDats: Encoder[Datasource] = Encoders.kryo[Datasource]
implicit val schema = Encoders.product[HostedByInfo] implicit val schema = Encoders.product[HostedByInfo]
def toHBIString(hbi: HostedByItemType): String = {
def toHBIString (hbi:HostedByItemType): String = {
implicit val formats = DefaultFormats implicit val formats = DefaultFormats
write(hbi) write(hbi)
} }
@Test @Test
def readDatasource():Unit = { def readDatasource(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -33,29 +32,40 @@ class TestPreprocess extends java.io.Serializable{
.getOrCreate() .getOrCreate()
val path = getClass.getResource("datasource.json").getPath val path = getClass.getResource("datasource.json").getPath
val ds :Dataset[HostedByItemType]= SparkProduceHostedByMap.oaHostedByDataset(spark, path) val ds: Dataset[HostedByItemType] = SparkProduceHostedByMap.oaHostedByDataset(spark, path)
assertEquals(9, ds.count) assertEquals(9, ds.count)
assertEquals(8, ds.filter(hbi => !hbi.issn.equals("")).count) assertEquals(8, ds.filter(hbi => !hbi.issn.equals("")).count)
assertEquals(5, ds.filter(hbi => !hbi.eissn.equals("")).count) assertEquals(5, ds.filter(hbi => !hbi.eissn.equals("")).count)
assertEquals(0, ds.filter(hbi => !hbi.lissn.equals("")).count) assertEquals(0, ds.filter(hbi => !hbi.lissn.equals("")).count)
assertEquals(0, ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count) assertEquals(
0,
ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count
)
assertTrue(ds.filter(hbi => hbi.issn.equals("0212-8365")).count == 1) assertTrue(ds.filter(hbi => hbi.issn.equals("0212-8365")).count == 1)
assertTrue(ds.filter(hbi => hbi.eissn.equals("2253-900X")).count == 1) assertTrue(ds.filter(hbi => hbi.eissn.equals("2253-900X")).count == 1)
assertTrue(ds.filter(hbi => hbi.issn.equals("0212-8365") && hbi.eissn.equals("2253-900X")).count == 1) assertTrue(
assertTrue(ds.filter(hbi => hbi.issn.equals("0212-8365") && hbi.officialname.equals("Thémata")).count == 1) ds.filter(hbi => hbi.issn.equals("0212-8365") && hbi.eissn.equals("2253-900X")).count == 1
assertTrue(ds.filter(hbi => hbi.issn.equals("0212-8365") && hbi.id.equals("10|doajarticles::abbc9265bea9ff62776a1c39785af00c")).count == 1) )
assertTrue(
ds.filter(hbi => hbi.issn.equals("0212-8365") && hbi.officialname.equals("Thémata")).count == 1
)
assertTrue(
ds.filter(hbi =>
hbi.issn.equals("0212-8365") && hbi.id
.equals("10|doajarticles::abbc9265bea9ff62776a1c39785af00c")
).count == 1
)
ds.foreach(hbi => assertTrue(hbi.id.startsWith("10|"))) ds.foreach(hbi => assertTrue(hbi.id.startsWith("10|")))
ds.foreach(hbi => println(toHBIString(hbi))) ds.foreach(hbi => println(toHBIString(hbi)))
spark.close() spark.close()
} }
@Test @Test
def readGold():Unit = { def readGold(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -67,8 +77,7 @@ class TestPreprocess extends java.io.Serializable{
.getOrCreate() .getOrCreate()
val path = getClass.getResource("unibi_transformed.json").getPath val path = getClass.getResource("unibi_transformed.json").getPath
val ds: Dataset[HostedByItemType] = SparkProduceHostedByMap.goldHostedByDataset(spark, path)
val ds :Dataset[HostedByItemType]= SparkProduceHostedByMap.goldHostedByDataset(spark, path)
assertEquals(29, ds.count) assertEquals(29, ds.count)
@ -76,9 +85,17 @@ class TestPreprocess extends java.io.Serializable{
assertEquals(0, ds.filter(hbi => !hbi.eissn.equals("")).count) assertEquals(0, ds.filter(hbi => !hbi.eissn.equals("")).count)
assertEquals(29, ds.filter(hbi => !hbi.lissn.equals("")).count) assertEquals(29, ds.filter(hbi => !hbi.lissn.equals("")).count)
assertEquals(0, ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count) assertEquals(
0,
ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count
)
assertTrue(ds.filter(hbi => hbi.issn.equals("2239-6101")).first().officialname.equals("European journal of sustainable development.")) assertTrue(
ds.filter(hbi => hbi.issn.equals("2239-6101"))
.first()
.officialname
.equals("European journal of sustainable development.")
)
assertTrue(ds.filter(hbi => hbi.issn.equals("2239-6101")).first().lissn.equals("2239-5938")) assertTrue(ds.filter(hbi => hbi.issn.equals("2239-6101")).first().lissn.equals("2239-5938"))
assertTrue(ds.filter(hbi => hbi.issn.equals("2239-6101")).count == 1) assertTrue(ds.filter(hbi => hbi.issn.equals("2239-6101")).count == 1)
ds.foreach(hbi => assertTrue(hbi.id.equals(Constants.UNIBI))) ds.foreach(hbi => assertTrue(hbi.id.equals(Constants.UNIBI)))
@ -88,7 +105,7 @@ class TestPreprocess extends java.io.Serializable{
} }
@Test @Test
def readDoaj():Unit = { def readDoaj(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
conf.set("spark.driver.host", "localhost") conf.set("spark.driver.host", "localhost")
@ -100,7 +117,7 @@ class TestPreprocess extends java.io.Serializable{
.getOrCreate() .getOrCreate()
val path = getClass.getResource("doaj_transformed.json").getPath val path = getClass.getResource("doaj_transformed.json").getPath
val ds :Dataset[HostedByItemType]= SparkProduceHostedByMap.doajHostedByDataset(spark, path) val ds: Dataset[HostedByItemType] = SparkProduceHostedByMap.doajHostedByDataset(spark, path)
assertEquals(25, ds.count) assertEquals(25, ds.count)
@ -108,9 +125,17 @@ class TestPreprocess extends java.io.Serializable{
assertEquals(21, ds.filter(hbi => !hbi.eissn.equals("")).count) assertEquals(21, ds.filter(hbi => !hbi.eissn.equals("")).count)
assertEquals(0, ds.filter(hbi => !hbi.lissn.equals("")).count) assertEquals(0, ds.filter(hbi => !hbi.lissn.equals("")).count)
assertEquals(0, ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count) assertEquals(
0,
ds.filter(hbi => hbi.issn.equals("") && hbi.eissn.equals("") && hbi.lissn.equals("")).count
)
assertTrue(ds.filter(hbi => hbi.issn.equals("2077-3099")).first().officialname.equals("Journal of Space Technology")) assertTrue(
ds.filter(hbi => hbi.issn.equals("2077-3099"))
.first()
.officialname
.equals("Journal of Space Technology")
)
assertTrue(ds.filter(hbi => hbi.issn.equals("2077-3099")).first().eissn.equals("2411-5029")) assertTrue(ds.filter(hbi => hbi.issn.equals("2077-3099")).first().eissn.equals("2411-5029"))
assertTrue(ds.filter(hbi => hbi.issn.equals("2077-3099")).count == 1) assertTrue(ds.filter(hbi => hbi.issn.equals("2077-3099")).count == 1)
assertTrue(ds.filter(hbi => hbi.eissn.equals("2077-2955")).first().issn.equals("")) assertTrue(ds.filter(hbi => hbi.eissn.equals("2077-2955")).first().issn.equals(""))
@ -121,7 +146,7 @@ class TestPreprocess extends java.io.Serializable{
} }
@Test @Test
def testAggregator() : Unit = { def testAggregator(): Unit = {
val conf = new SparkConf() val conf = new SparkConf()
conf.setMaster("local[*]") conf.setMaster("local[*]")
@ -133,22 +158,40 @@ class TestPreprocess extends java.io.Serializable{
.config(conf) .config(conf)
.getOrCreate() .getOrCreate()
val tmp = SparkProduceHostedByMap
val tmp = SparkProduceHostedByMap.oaHostedByDataset(spark, getClass.getResource("datasource.json").getPath) .oaHostedByDataset(spark, getClass.getResource("datasource.json").getPath)
.union(SparkProduceHostedByMap.goldHostedByDataset(spark,getClass.getResource("unibi_transformed.json").getPath)) .union(
.union(SparkProduceHostedByMap.doajHostedByDataset(spark, getClass.getResource("doaj_transformed.json").getPath)) SparkProduceHostedByMap
.flatMap(hbi => SparkProduceHostedByMap.toList(hbi))(Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])) .goldHostedByDataset(spark, getClass.getResource("unibi_transformed.json").getPath)
)
.union(
SparkProduceHostedByMap
.doajHostedByDataset(spark, getClass.getResource("doaj_transformed.json").getPath)
)
.flatMap(hbi => SparkProduceHostedByMap.toList(hbi))(
Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])
)
assertEquals(106, tmp.count) assertEquals(106, tmp.count)
assertEquals(82, tmp.map(i => i._1)(Encoders.STRING).distinct().count) assertEquals(82, tmp.map(i => i._1)(Encoders.STRING).distinct().count)
val ds: Dataset[(String, HostedByItemType)] = Aggregators.explodeHostedByItemType(
SparkProduceHostedByMap
.oaHostedByDataset(spark, getClass.getResource("datasource.json").getPath)
.union(
SparkProduceHostedByMap
.goldHostedByDataset(spark, getClass.getResource("unibi_transformed.json").getPath)
)
.union(
SparkProduceHostedByMap
.doajHostedByDataset(spark, getClass.getResource("doaj_transformed.json").getPath)
)
.flatMap(hbi => SparkProduceHostedByMap.toList(hbi))(
Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])
)
)
val ds :Dataset[(String, HostedByItemType)] = Aggregators.explodeHostedByItemType(SparkProduceHostedByMap.oaHostedByDataset(spark, getClass.getResource("datasource.json").getPath) assertEquals(82, ds.count)
.union(SparkProduceHostedByMap.goldHostedByDataset(spark,getClass.getResource("unibi_transformed.json").getPath))
.union(SparkProduceHostedByMap.doajHostedByDataset(spark, getClass.getResource("doaj_transformed.json").getPath))
.flatMap(hbi => SparkProduceHostedByMap.toList(hbi))(Encoders.tuple(Encoders.STRING, Encoders.product[HostedByItemType])))
assertEquals(82, ds.count)
assertEquals(13, ds.filter(i => i._2.id.startsWith("10|")).count) assertEquals(13, ds.filter(i => i._2.id.startsWith("10|")).count)
@ -156,14 +199,13 @@ class TestPreprocess extends java.io.Serializable{
assertTrue(ds.filter(i => i._1.equals("2077-3757")).first()._2.openAccess) assertTrue(ds.filter(i => i._1.equals("2077-3757")).first()._2.openAccess)
assertEquals(1, ds.filter(i => i._1.equals("2077-3757")).count) assertEquals(1, ds.filter(i => i._1.equals("2077-3757")).count)
val hbmap : Dataset[String] = ds.filter(hbi => hbi._2.id.startsWith("10|")).map(SparkProduceHostedByMap.toHostedByMap)(Encoders.STRING) val hbmap: Dataset[String] = ds
.filter(hbi => hbi._2.id.startsWith("10|"))
.map(SparkProduceHostedByMap.toHostedByMap)(Encoders.STRING)
hbmap.foreach(entry => println(entry)) hbmap.foreach(entry => println(entry))
spark.close() spark.close()
} }
} }

View File

@ -1,6 +1,5 @@
package eu.dnetlib.dhp.oa.graph.resolution package eu.dnetlib.dhp.oa.graph.resolution
import com.fasterxml.jackson.databind.ObjectMapper import com.fasterxml.jackson.databind.ObjectMapper
import eu.dnetlib.dhp.schema.common.EntityType import eu.dnetlib.dhp.schema.common.EntityType
import eu.dnetlib.dhp.schema.oaf.utils.OafMapperUtils import eu.dnetlib.dhp.schema.oaf.utils.OafMapperUtils
@ -19,174 +18,225 @@ import scala.io.Source
@TestInstance(Lifecycle.PER_CLASS) @TestInstance(Lifecycle.PER_CLASS)
class ResolveEntitiesTest extends Serializable { class ResolveEntitiesTest extends Serializable {
var workingDir:Path = null var workingDir: Path = null
val FAKE_TITLE = "FAKETITLE" val FAKE_TITLE = "FAKETITLE"
val FAKE_SUBJECT = "FAKESUBJECT" val FAKE_SUBJECT = "FAKESUBJECT"
var sparkSession:Option[SparkSession] = None var sparkSession: Option[SparkSession] = None
@BeforeAll @BeforeAll
def setUp() :Unit = { def setUp(): Unit = {
workingDir = Files.createTempDirectory(getClass.getSimpleName) workingDir = Files.createTempDirectory(getClass.getSimpleName)
val conf = new SparkConf() val conf = new SparkConf()
sparkSession = Some(SparkSession sparkSession = Some(
.builder() SparkSession
.config(conf) .builder()
.appName(getClass.getSimpleName) .config(conf)
.master("local[*]").getOrCreate()) .appName(getClass.getSimpleName)
.master("local[*]")
.getOrCreate()
)
populateDatasets(sparkSession.get) populateDatasets(sparkSession.get)
generateUpdates(sparkSession.get) generateUpdates(sparkSession.get)
} }
@AfterAll @AfterAll
def tearDown():Unit = { def tearDown(): Unit = {
FileUtils.deleteDirectory(workingDir.toFile) FileUtils.deleteDirectory(workingDir.toFile)
sparkSession.get.stop() sparkSession.get.stop()
} }
def generateUpdates(spark: SparkSession): Unit = {
def generateUpdates(spark:SparkSession):Unit = {
val template = Source.fromInputStream(this.getClass.getResourceAsStream("updates")).mkString val template = Source.fromInputStream(this.getClass.getResourceAsStream("updates")).mkString
val pids: List[String] = template.lines
.map { id =>
val r = new Result
r.setId(id.toLowerCase.trim)
r.setSubject(
List(
OafMapperUtils.structuredProperty(
FAKE_SUBJECT,
OafMapperUtils.qualifier("fos", "fosCS", "fossSchema", "fossiFIgo"),
null
)
).asJava
)
r.setTitle(
List(
OafMapperUtils.structuredProperty(
FAKE_TITLE,
OafMapperUtils.qualifier("fos", "fosCS", "fossSchema", "fossiFIgo"),
null
)
).asJava
)
r
}
.map { r =>
val mapper = new ObjectMapper()
val pids:List[String] = template.lines.map{id => mapper.writeValueAsString(r)
val r = new Result }
r.setId(id.toLowerCase.trim) .toList
r.setSubject(List(OafMapperUtils.structuredProperty(FAKE_SUBJECT, OafMapperUtils.qualifier("fos","fosCS", "fossSchema", "fossiFIgo"), null)).asJava)
r.setTitle(List(OafMapperUtils.structuredProperty(FAKE_TITLE, OafMapperUtils.qualifier("fos","fosCS", "fossSchema", "fossiFIgo"), null)).asJava)
r
}.map{r =>
val mapper = new ObjectMapper()
mapper.writeValueAsString(r)}.toList val sc = spark.sparkContext
val sc =spark.sparkContext
println(sc.parallelize(pids).count()) println(sc.parallelize(pids).count())
spark.createDataset(sc.parallelize(pids))(Encoders.STRING).write.mode(SaveMode.Overwrite).option("compression", "gzip").text(s"$workingDir/updates") spark
.createDataset(sc.parallelize(pids))(Encoders.STRING)
.write
.mode(SaveMode.Overwrite)
.option("compression", "gzip")
.text(s"$workingDir/updates")
import spark.implicits._ import spark.implicits._
implicit val resEncoder: Encoder[Result] = Encoders.bean(classOf[Result]) implicit val resEncoder: Encoder[Result] = Encoders.bean(classOf[Result])
val ds = spark.read.text(s"$workingDir/updates").as[String].map{s => val mapper = new ObjectMapper() val ds = spark.read
mapper.readValue(s, classOf[Result])}.collect() .text(s"$workingDir/updates")
.as[String]
.map { s =>
val mapper = new ObjectMapper()
mapper.readValue(s, classOf[Result])
}
.collect()
assertEquals(4, ds.length) assertEquals(4, ds.length)
ds.foreach{r => assertNotNull(r.getSubject)} ds.foreach { r => assertNotNull(r.getSubject) }
ds.foreach{r => assertEquals(1,r.getSubject.size())} ds.foreach { r => assertEquals(1, r.getSubject.size()) }
ds.foreach{r => assertNotNull(r.getTitle)} ds.foreach { r => assertNotNull(r.getTitle) }
ds.foreach{r => assertEquals(1,r.getTitle.size())} ds.foreach { r => assertEquals(1, r.getTitle.size()) }
ds.flatMap(r => r.getTitle.asScala.map(t => t.getValue))
.foreach(t => assertEquals(FAKE_TITLE, t))
ds.flatMap(r => r.getTitle.asScala.map(t => t.getValue)).foreach(t => assertEquals(FAKE_TITLE,t)) ds.flatMap(r => r.getSubject.asScala.map(t => t.getValue))
ds.flatMap(r => r.getSubject.asScala.map(t => t.getValue)).foreach(t => assertEquals(FAKE_SUBJECT,t)) .foreach(t => assertEquals(FAKE_SUBJECT, t))
println("generated Updates") println("generated Updates")
} }
def populateDatasets(spark: SparkSession): Unit = {
def populateDatasets(spark:SparkSession):Unit = {
import spark.implicits._ import spark.implicits._
val entities =SparkResolveEntities.entities val entities = SparkResolveEntities.entities
entities.foreach{ entities.foreach { e =>
e => val template = Source.fromInputStream(this.getClass.getResourceAsStream(s"$e")).mkString
val template = Source.fromInputStream(this.getClass.getResourceAsStream(s"$e")).mkString spark
spark.createDataset(spark.sparkContext.parallelize(template.lines.toList)).as[String].write.option("compression", "gzip").text(s"$workingDir/graph/$e") .createDataset(spark.sparkContext.parallelize(template.lines.toList))
println(s"Created Dataset $e") .as[String]
.write
.option("compression", "gzip")
.text(s"$workingDir/graph/$e")
println(s"Created Dataset $e")
} }
SparkResolveRelation.extractPidResolvedTableFromJsonRDD(spark, s"$workingDir/graph", s"$workingDir/work") SparkResolveRelation.extractPidResolvedTableFromJsonRDD(
spark,
s"$workingDir/graph",
s"$workingDir/work"
)
} }
@Test @Test
def testResolution():Unit = { def testResolution(): Unit = {
val spark:SparkSession = sparkSession.get val spark: SparkSession = sparkSession.get
implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result]) implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result])
SparkResolveEntities.resolveEntities(spark,s"$workingDir/work", s"$workingDir/updates" ) SparkResolveEntities.resolveEntities(spark, s"$workingDir/work", s"$workingDir/updates")
val ds = spark.read.load(s"$workingDir/work/resolvedEntities").as[Result] val ds = spark.read.load(s"$workingDir/work/resolvedEntities").as[Result]
assertEquals(3, ds.count()) assertEquals(3, ds.count())
ds.collect().foreach{ ds.collect().foreach { r =>
r =>
assertTrue(r.getId.startsWith("50")) assertTrue(r.getId.startsWith("50"))
} }
} }
private def structuredPContainsValue(
l: java.util.List[StructuredProperty],
exptectedValue: String
private def structuredPContainsValue(l:java.util.List[StructuredProperty], exptectedValue:String):Boolean = { ): Boolean = {
l.asScala.exists(p =>p.getValue!= null && p.getValue.equalsIgnoreCase(exptectedValue)) l.asScala.exists(p => p.getValue != null && p.getValue.equalsIgnoreCase(exptectedValue))
} }
@Test @Test
def testUpdate():Unit = { def testUpdate(): Unit = {
val spark:SparkSession = sparkSession.get val spark: SparkSession = sparkSession.get
import spark.implicits._ import spark.implicits._
implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result]) implicit val resEncoder: Encoder[Result] = Encoders.kryo(classOf[Result])
val m = new ObjectMapper() val m = new ObjectMapper()
SparkResolveEntities.resolveEntities(spark,s"$workingDir/work", s"$workingDir/updates" ) SparkResolveEntities.resolveEntities(spark, s"$workingDir/work", s"$workingDir/updates")
SparkResolveEntities.generateResolvedEntities(spark,s"$workingDir/work",s"$workingDir/graph", s"$workingDir/target" ) SparkResolveEntities.generateResolvedEntities(
spark,
s"$workingDir/work",
s"$workingDir/graph",
val pubDS:Dataset[Result] = spark.read.text(s"$workingDir/target/publication").as[String].map(s => SparkResolveEntities.deserializeObject(s, EntityType.publication)) s"$workingDir/target"
val t = pubDS.filter(p => p.getTitle!=null && p.getSubject!=null).filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE"))).count() )
val pubDS: Dataset[Result] = spark.read
.text(s"$workingDir/target/publication")
.as[String]
.map(s => SparkResolveEntities.deserializeObject(s, EntityType.publication))
val t = pubDS
.filter(p => p.getTitle != null && p.getSubject != null)
.filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE")))
.count()
var ct = pubDS.count() var ct = pubDS.count()
var et = pubDS.filter(p => p.getTitle!= null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty)).count() var et = pubDS
.filter(p => p.getTitle != null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty))
.count()
assertEquals(ct, et) assertEquals(ct, et)
val datDS: Dataset[Result] = spark.read
.text(s"$workingDir/target/dataset")
val datDS:Dataset[Result] = spark.read.text(s"$workingDir/target/dataset").as[String].map(s => SparkResolveEntities.deserializeObject(s, EntityType.dataset)) .as[String]
val td = datDS.filter(p => p.getTitle!=null && p.getSubject!=null).filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE"))).count() .map(s => SparkResolveEntities.deserializeObject(s, EntityType.dataset))
val td = datDS
.filter(p => p.getTitle != null && p.getSubject != null)
.filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE")))
.count()
ct = datDS.count() ct = datDS.count()
et = datDS.filter(p => p.getTitle!= null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty)).count() et = datDS
.filter(p => p.getTitle != null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty))
.count()
assertEquals(ct, et) assertEquals(ct, et)
val softDS: Dataset[Result] = spark.read
val softDS:Dataset[Result] = spark.read.text(s"$workingDir/target/software").as[String].map(s => SparkResolveEntities.deserializeObject(s, EntityType.software)) .text(s"$workingDir/target/software")
val ts = softDS.filter(p => p.getTitle!=null && p.getSubject!=null).filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE"))).count() .as[String]
.map(s => SparkResolveEntities.deserializeObject(s, EntityType.software))
val ts = softDS
.filter(p => p.getTitle != null && p.getSubject != null)
.filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE")))
.count()
ct = softDS.count() ct = softDS.count()
et = softDS.filter(p => p.getTitle!= null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty)).count() et = softDS
.filter(p => p.getTitle != null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty))
.count()
assertEquals(ct, et) assertEquals(ct, et)
val orpDS: Dataset[Result] = spark.read
val orpDS:Dataset[Result] = spark.read.text(s"$workingDir/target/otherresearchproduct").as[String].map(s => SparkResolveEntities.deserializeObject(s, EntityType.otherresearchproduct)) .text(s"$workingDir/target/otherresearchproduct")
val to = orpDS.filter(p => p.getTitle!=null && p.getSubject!=null).filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE"))).count() .as[String]
.map(s => SparkResolveEntities.deserializeObject(s, EntityType.otherresearchproduct))
val to = orpDS
.filter(p => p.getTitle != null && p.getSubject != null)
.filter(p => p.getTitle.asScala.exists(t => t.getValue.equalsIgnoreCase("FAKETITLE")))
.count()
ct = orpDS.count() ct = orpDS.count()
et = orpDS.filter(p => p.getTitle!= null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty)).count() et = orpDS
.filter(p => p.getTitle != null && p.getTitle.asScala.forall(t => t.getValue != null && t.getValue.nonEmpty))
.count()
assertEquals(ct, et) assertEquals(ct, et)
assertEquals(0, t) assertEquals(0, t)
assertEquals(2, td) assertEquals(2, td)
assertEquals(1, ts) assertEquals(1, ts)
@ -194,40 +244,35 @@ class ResolveEntitiesTest extends Serializable {
} }
@Test @Test
def testMerge():Unit = { def testMerge(): Unit = {
val r = new Result val r = new Result
r.setSubject(List(OafMapperUtils.structuredProperty(FAKE_SUBJECT, OafMapperUtils.qualifier("fos","fosCS", "fossSchema", "fossiFIgo"), null)).asJava) r.setSubject(
List(
OafMapperUtils.structuredProperty(
FAKE_SUBJECT,
OafMapperUtils.qualifier("fos", "fosCS", "fossSchema", "fossiFIgo"),
null
)
).asJava
)
val mapper = new ObjectMapper() val mapper = new ObjectMapper()
val p = mapper.readValue(Source.fromInputStream(this.getClass.getResourceAsStream(s"publication")).mkString.lines.next(), classOf[Publication]) val p = mapper.readValue(
Source
.fromInputStream(this.getClass.getResourceAsStream(s"publication"))
.mkString
.lines
.next(),
classOf[Publication]
)
r.mergeFrom(p) r.mergeFrom(p)
println(mapper.writeValueAsString(r)) println(mapper.writeValueAsString(r))
} }
} }

View File

@ -1,26 +1,20 @@
package eu.dnetlib.dhp.sx.graph package eu.dnetlib.dhp.sx.graph
import org.junit.jupiter.api.Test import org.junit.jupiter.api.Test
import java.text.SimpleDateFormat import java.text.SimpleDateFormat
class RetrieveDataciteDeltaTest { class RetrieveDataciteDeltaTest {
@Test @Test
def testParsingDate(): Unit = { def testParsingDate(): Unit = {
val inputDate = "2021-12-02T11:17:36+0000" val inputDate = "2021-12-02T11:17:36+0000"
val t = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ").parse(inputDate).getTime val t = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ").parse(inputDate).getTime
println(t) println(t)
} }
} }

View File

@ -18,37 +18,40 @@ import scala.collection.JavaConverters._
import scala.io.Source import scala.io.Source
@ExtendWith(Array(classOf[MockitoExtension])) @ExtendWith(Array(classOf[MockitoExtension]))
class ScholixGraphTest extends AbstractVocabularyTest{ class ScholixGraphTest extends AbstractVocabularyTest {
val mapper: ObjectMapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT) val mapper: ObjectMapper = new ObjectMapper().enable(SerializationFeature.INDENT_OUTPUT)
mapper.configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES,false) mapper.configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false)
@BeforeEach @BeforeEach
def setUp() :Unit = { def setUp(): Unit = {
super.setUpVocabulary() super.setUpVocabulary()
} }
@Test @Test
def testExtractPids():Unit = { def testExtractPids(): Unit = {
val input = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/scholix/result.json")).mkString val input = Source
val res =SparkResolveRelation.extractPidsFromRecord(input) .fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/scholix/result.json"))
.mkString
val res = SparkResolveRelation.extractPidsFromRecord(input)
assertNotNull(res) assertNotNull(res)
assertEquals(1,res._2.size) assertEquals(1, res._2.size)
} }
@Test @Test
def testOAFToSummary():Unit= { def testOAFToSummary(): Unit = {
val inputRelations = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/oaf_to_summary")).mkString val inputRelations = Source
.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/oaf_to_summary"))
.mkString
val items = inputRelations.lines.toList val items = inputRelations.lines.toList
assertNotNull(items) assertNotNull(items)
items.foreach(i =>assertTrue(i.nonEmpty)) items.foreach(i => assertTrue(i.nonEmpty))
val result = items.map(r => mapper.readValue(r, classOf[Result])).map(i => ScholixUtils.resultToSummary(i)) val result =
items.map(r => mapper.readValue(r, classOf[Result])).map(i => ScholixUtils.resultToSummary(i))
assertNotNull(result) assertNotNull(result)
@ -59,37 +62,41 @@ class ScholixGraphTest extends AbstractVocabularyTest{
} }
@Test @Test
def testScholixMergeOnSource():Unit = { def testScholixMergeOnSource(): Unit = {
val inputRelations = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/merge_result_scholix")).mkString val inputRelations = Source
val result:List[(Relation,ScholixSummary)] =inputRelations.lines.sliding(2).map(s => (s.head, s(1))).map(p => (mapper.readValue(p._1, classOf[Relation]),mapper.readValue(p._2, classOf[ScholixSummary]) )).toList .fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/merge_result_scholix")
)
.mkString
val result: List[(Relation, ScholixSummary)] = inputRelations.lines
.sliding(2)
.map(s => (s.head, s(1)))
.map(p => (mapper.readValue(p._1, classOf[Relation]), mapper.readValue(p._2, classOf[ScholixSummary])))
.toList
assertNotNull(result) assertNotNull(result)
assertTrue(result.nonEmpty) assertTrue(result.nonEmpty)
result.foreach(r => assertEquals(r._1.getSource, r._2.getId)) result.foreach(r => assertEquals(r._1.getSource, r._2.getId))
val scholix:List[Scholix] = result.map(r => ScholixUtils.scholixFromSource(r._1, r._2)) val scholix: List[Scholix] = result.map(r => ScholixUtils.scholixFromSource(r._1, r._2))
println(mapper.writeValueAsString(scholix.head)) println(mapper.writeValueAsString(scholix.head))
} }
@Test @Test
def testScholixRelationshipsClean(): Unit = { def testScholixRelationshipsClean(): Unit = {
val inputRelations = Source.fromInputStream(getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/relation_transform.json")).mkString val inputRelations = Source
.fromInputStream(
getClass.getResourceAsStream("/eu/dnetlib/dhp/sx/graph/relation_transform.json")
)
.mkString
implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats implicit lazy val formats: DefaultFormats.type = org.json4s.DefaultFormats
lazy val json: json4s.JValue = parse(inputRelations) lazy val json: json4s.JValue = parse(inputRelations)
val l:List[String] =json.extract[List[String]] val l: List[String] = json.extract[List[String]]
assertNotNull(l) assertNotNull(l)
assertTrue(l.nonEmpty) assertTrue(l.nonEmpty)
val relVocbaulary =ScholixUtils.relations val relVocbaulary = ScholixUtils.relations
l.foreach(r => assertTrue(relVocbaulary.contains(r.toLowerCase))) l.foreach(r => assertTrue(relVocbaulary.contains(r.toLowerCase)))
} }
} }

39
pom.xml
View File

@ -620,6 +620,18 @@
</dependency> </dependency>
</dependencies> </dependencies>
</plugin> </plugin>
<plugin>
<groupId>org.antipathy</groupId>
<artifactId>mvn-scalafmt_2.11</artifactId>
<version>1.0.1640073709.733712b</version>
<dependencies>
<dependency>
<groupId>eu.dnetlib.dhp</groupId>
<artifactId>dhp-code-style</artifactId>
<version>${project.version}</version>
</dependency>
</dependencies>
</plugin>
</plugins> </plugins>
</pluginManagement> </pluginManagement>
<plugins> <plugins>
@ -665,6 +677,33 @@
</execution> </execution>
</executions> </executions>
</plugin> </plugin>
<plugin>
<groupId>org.antipathy</groupId>
<artifactId>mvn-scalafmt_2.11</artifactId>
<configuration>
<configLocation>dhp-build/dhp-code-style/src/main/resources/scalafmt/scalafmt.conf</configLocation>
<skipTestSources>false</skipTestSources>
<skipSources>false</skipSources>
<sourceDirectories>
<param>${project.basedir}/src/main/scala</param>
</sourceDirectories>
<testSourceDirectories>
<param>${project.basedir}/src/test/scala</param>
</testSourceDirectories>
<validateOnly>false</validateOnly>
<onlyChangedFiles>false</onlyChangedFiles>
<branch>: git rev-parse --abbrev-ref HEAD</branch>
<useSpecifiedRepositories>false</useSpecifiedRepositories>
</configuration>
<executions>
<execution>
<phase>validate</phase>
<goals>
<goal>format</goal>
</goals>
</execution>
</executions>
</plugin>
<plugin> <plugin>
<groupId>org.apache.maven.plugins</groupId> <groupId>org.apache.maven.plugins</groupId>
<artifactId>maven-release-plugin</artifactId> <artifactId>maven-release-plugin</artifactId>