D-Net
/
dnet-dedup
5
1
Fork 0
Code Issues Pull Requests 1 Releases Wiki Activity
dnet-dedup/dnet-dedup-test/src/test/java/eu/dnetlib/pace/OafTest.java

447 lines
25 KiB
Java
Raw Blame History

package eu.dnetlib.pace;
import com.google.protobuf.GeneratedMessage;
import com.google.protobuf.InvalidProtocolBufferException;
//import eu.dnetlib.data.mapreduce.util.OafDecoder;
import eu.dnetlib.data.proto.DatasourceOrganizationProtos.DatasourceOrganization;
import eu.dnetlib.data.proto.DatasourceOrganizationProtos.DatasourceOrganization.Provision;
import eu.dnetlib.data.proto.DatasourceProtos.Datasource;
import eu.dnetlib.data.proto.DedupProtos.Dedup;
import eu.dnetlib.data.proto.FieldTypeProtos.*;
import eu.dnetlib.data.proto.FieldTypeProtos.StructuredProperty.Builder;
import eu.dnetlib.data.proto.KindProtos.Kind;
import eu.dnetlib.data.proto.OafProtos.Oaf;
import eu.dnetlib.data.proto.OafProtos.OafEntity;
import eu.dnetlib.data.proto.OafProtos.OafRel;
import eu.dnetlib.data.proto.OrganizationOrganizationProtos.OrganizationOrganization;
import eu.dnetlib.data.proto.OrganizationProtos.Organization;
import eu.dnetlib.data.proto.ProjectOrganizationProtos.ProjectOrganization;
import eu.dnetlib.data.proto.ProjectOrganizationProtos.ProjectOrganization.Participation;
import eu.dnetlib.data.proto.ProjectProtos.Project;
import eu.dnetlib.data.proto.RelMetadataProtos.RelMetadata;
import eu.dnetlib.data.proto.RelTypeProtos.RelType;
import eu.dnetlib.data.proto.RelTypeProtos.SubRelType;
import eu.dnetlib.data.proto.ResultProjectProtos.ResultProject;
import eu.dnetlib.data.proto.ResultProjectProtos.ResultProject.Outcome;
import eu.dnetlib.data.proto.ResultProtos.Result;
import eu.dnetlib.data.proto.ResultProtos.Result.Context;
import eu.dnetlib.data.proto.ResultProtos.Result.Instance;
import eu.dnetlib.data.proto.ResultResultProtos.ResultResult;
import eu.dnetlib.data.proto.ResultResultProtos.ResultResult.Similarity;
import eu.dnetlib.data.proto.TypeProtos.Type;
public class OafTest {
public static final String CITATION_JSON =
"<citations>\n <citation>\n <rawText>[10] M. Foret et al., Phys. Rev. B 66, 024204 (2002).</rawText>\n </citation>\n <citation>\n <rawText>[11] B. Ru\175404\264e et al., Phys. Rev. Lett. 90, 095502 (2003).</rawText>\n </citation>\n <citation>\n <rawText>[12] U. Buchenau et al., Phys. Rev. B 34, 5665 (1986).</rawText>\n </citation>\n <citation>\n <rawText>[13] S.N. Taraskin and S.R. Elliott, J. Phys.: Condens. Mat- ter 11, A219 (1999).</rawText>\n </citation>\n <citation>\n <rawText>[14] B. Hehlen et al., Phys. Rev. Lett. 84, 5355 (2000).</rawText>\n </citation>\n <citation>\n <rawText>[15] N.V. Surotsev et al., J. Phys.: Condens. Matter 10, L113 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[16] D.A. Parshin and C. Laermans, Phys. Rev. B 63, 132203 (2001).</rawText>\n </citation>\n <citation>\n <rawText>[17] V.L. Gurevich et al., Phys. Rev. B 67, 094203 (2003).</rawText>\n </citation>\n <citation>\n <rawText>[18] A. Matic et al., Phys. Rev. Lett. 86, 3803 (2001).</rawText>\n </citation>\n <citation>\n <rawText>[19] E. Rat et al., arXiv:cond-mat/0505558, 23 May 2005.</rawText>\n </citation>\n <citation>\n <rawText>[1] R.C. Zeller and R.O. Pohl, Phys. Rev. B 4, 2029 (1971).</rawText>\n </citation>\n <citation>\n <rawText>[20] C.A. Angell, J. Non-Cryst. Solids 131\20023133, 13 (1991).</rawText>\n </citation>\n <citation>\n <rawText>[21] A.P. Sokolov et al., Phys. Rev. Lett. 71, 2062 (1993).</rawText>\n </citation>\n <citation>\n <rawText>[22] T. Matsuo et al., Solid State Ionics 154-155, 759 (2002).</rawText>\n </citation>\n <citation>\n <rawText>[23] V.K. Malinovsky et al., Europhys. Lett. 11, 43 (1990).</rawText>\n </citation>\n <citation>\n <rawText>[24] J. Lor\250osch et al., J. Non-Cryst. Solids 69, 1 (1984).</rawText>\n </citation>\n <citation>\n <rawText>[25] U. Buchenau, Z. Phys. B 58, 181 (1985).</rawText>\n </citation>\n <citation>\n <rawText>[26] A.F. Io\175400e and A.R. Regel, Prog. Semicond. 4, 237 (1960).</rawText>\n </citation>\n <citation>\n <rawText>[27] R. Dell\20031Anna et al., Phys. Rev. Lett. 80, 1236 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[28] D. Fioretto et al., Phys. Rev. E 59, 4470 (1999).</rawText>\n </citation>\n <citation>\n <rawText>[29] U. Buchenau et al., Phys. Rev. Lett. 77, 4035 (1996).</rawText>\n </citation>\n <citation>\n <rawText>[2] M. Rothenfusser et al., Phys. Rev. B 27, 5196 (1983).</rawText>\n </citation>\n <citation>\n <rawText>[30] J. Mattsson et al., J. Phys.: Condens. Matter 15, S1259 (2003).</rawText>\n </citation>\n <citation>\n <rawText>[31] T. Scopigno et al., Phys. Rev. Lett. 92, 025503 (2004).</rawText>\n </citation>\n <citation>\n <rawText>[32] M. Foret et al., Phys. Rev. Lett. 81, 2100 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[33] F. Sette et al., Science 280, 1550 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[34] J. Wuttke et al., Phys. Rev. E 52, 4026 (1995).</rawText>\n </citation>\n <citation>\n <rawText>[35] M.A. Ramos et al., Phys. Rev. Lett. 78, 82 (1997).</rawText>\n </citation>\n <citation>\n <rawText>[36] G. Monaco et al., Phys. Rev. Lett. 80, 2161 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[37] A. T\250olle, Rep. Prog. Phys. 64, 1473 (2001).</rawText>\n </citation>\n <citation>\n <rawText>[38] As the straight lines do not cross the origin, this does not 2 imply \1623 \21035 \1651 .</rawText>\n </citation>\n <citation>\n <rawText>[39] A. Matic et al., Europhys. Lett. 54, 77 (2001).</rawText>\n </citation>\n <citation>\n <rawText>[3] S. Hunklinger and W. Arnold, in Physical Acoustics, Vol. XII, W.P. Mason and R.N. Thurston Eds. (Academic Press, N.Y. 1976), p. 155.</rawText>\n </citation>\n <citation>\n <rawText>[40] IXS data are usually not available below \1651co, mostly for experimental reasons. E.g., that the rapid onset was not evidenced in vitreous silica [27], is not indicative of its absence but rather of a low qco \21074 1 nm\210221.</rawText>\n </citation>\n <citation>\n <rawText>[41] G. Ruocco et al., Phys. Rev. Lett. 83, 5583 (1999).</rawText>\n </citation>\n <citation>\n <rawText>[42] D. C\1307 iplys et al., J. Physique (Paris) 42, C6-184 (1981).</rawText>\n </citation>\n <citation>\n <rawText>[43] R. Vacher et al., Rev. Sci. Instrum. 51, 288 (1980).</rawText>\n </citation>\n <citation>\n <rawText>[44] R. Vacher et al., arXiv:cond-mat/0505560, 23 May 2005.</rawText>\n </citation>\n <citation>\n <rawText>[45] T.N. Claytor et al., Phys. Rev. B 18, 5842 (1978).</rawText>\n </citation>\n <citation>\n <rawText>[46] M. Arai et al., Physica B 263-264, 268 (1999).</rawText>\n </citation>\n <citation>\n <rawText>[4] R. Vacher et al., J. Non-Cryst. Solids 45, 397 (1981); T.C. Zhu et al., Phys. Rev. B 44, 4281 (1991).</rawText>\n </citation>\n <citation>\n <rawText>[5] J.E. Graebner et al., Phys. Rev. B 34, 5696 (1986).</rawText>\n </citation>\n <citation>\n <rawText>[6] E. Duval and A. Mermet, Phys. Rev. B 58, 8159 (1998).</rawText>\n </citation>\n <citation>\n <rawText>[7] A. Matic et al., Phys. Rev. Lett. 93, 145502 (2004).</rawText>\n </citation>\n <citation>\n <rawText>[8] Often alluded to, e.g. in the Encyclopedia of Materials: Science and Technology, K.H.J. Buschow et al., Eds., Vol. 1 (Elsevier, Oxford, 2001), articles by S.R. Elliott on pp. 171-174 and U. Buchenau on pp. 212-215.</rawText>\n </citation>\n <citation>\n <rawText>[9] E. Rat et al., Phys. Rev. Lett. 83, 1355 (1999).</rawText>\n </citation>\n</citations>";
public static final String STATISTICS_JSON =
"[{ \"citationsPerYear\": \"many\", \"anotherCoolStatistic\": \"WoW\", \"nestedStat\": { \"firstNestedStat\" : \"value 1\", \"secondNestedStat\" : \"value 2\"}, \"listingStat\" : [ \"one\", \"two\" ] }]";
public static Builder getStructuredproperty(final String value, final String classname, final String schemename) {
return getStructuredproperty(value, classname, schemename, null);
}
public static Builder getStructuredproperty(final String value, final String classname, final String schemename, final DataInfo dataInfo) {
final Builder sp = StructuredProperty.newBuilder().setValue(value).setQualifier(getQualifier(classname, schemename));
if (dataInfo != null) {
sp.setDataInfo(dataInfo);
}
return sp;
}
public static Qualifier.Builder getQualifier(final String classname, final String schemename) {
return Qualifier.newBuilder().setClassid(classname).setClassname(classname).setSchemeid(schemename).setSchemename(schemename);
}
public static KeyValue getKV(final String id, final String name) {
return KeyValue.newBuilder().setKey(id).setValue(name).build();
}
public static OafEntity getDatasource(final String datasourceId) {
return OafEntity
.newBuilder()
.setType(Type.datasource)
.setId(datasourceId)
.setDatasource(
Datasource.newBuilder().setMetadata(
Datasource.Metadata.newBuilder().setOfficialname(sf("officialname")).setEnglishname(sf("englishname"))
.setWebsiteurl(sf("websiteurl")).setContactemail(sf("contactemail")).addAccessinfopackage(sf("accessinforpackage"))
.setNamespaceprefix(sf("namespaceprofix")).setDescription(sf("description")).setOdnumberofitems(sf("numberofitems"))
.setOdnumberofitemsdate(sf("numberofitems date"))
// .addOdsubjects("subjects")
.setOdpolicies(sf("policies")).addOdlanguages(sf("languages")).addOdcontenttypes(sf("contenttypes"))
.setDatasourcetype(getQualifier("type class", "type scheme")))).build();
}
public static OafEntity getResult(final String id) {
return getResultBuilder(id).build();
}
public static OafEntity.Builder getResultBuilder(final String id) {
return OafEntity
.newBuilder()
.setType(Type.result)
.setId(id)
.setResult(
Result.newBuilder()
.setMetadata(
Result.Metadata
.newBuilder()
.addTitle(
getStructuredproperty(
"Analysis of cell viability in intervertebral disc: Effect of endplate permeability on cell population",
"main title", "dnet:result_titles", getDataInfo()))
.addTitle(getStructuredproperty("Another title", "alternative title", "dnet:result_titles", getDataInfo()))
.addSubject(getStructuredproperty("Biophysics", "subject", "dnet:result_sujects"))
.setDateofacceptance(sf("2010-01-01")).addSource(sf("sourceA")).addSource(sf("sourceB"))
.addContext(Context.newBuilder().setId("egi::virtual::970"))
.addContext(Context.newBuilder().setId("egi::classification::natsc::math::applied"))
.addContext(Context.newBuilder().setId("egi::classification::natsc::math"))
.addContext(Context.newBuilder().setId("egi::classification::natsc"))
.addContext(Context.newBuilder().setId("egi::classification")).addContext(Context.newBuilder().setId("egi"))
.addDescription(sf("Responsible for making and maintaining the extracellular matrix ..."))
.addDescription(sf("Another description ...")).setPublisher(sf("ELSEVIER SCI LTD"))
.setResulttype(getQualifier("publication", "dnet:result_types"))
.setLanguage(getQualifier("eng", "dnet:languages"))).addInstance(getInstance("10|od__10", "Uk pubmed"))
.addInstance(getInstance("10|od__10", "arxiv")))
.addCollectedfrom(getKV("opendoar____::1064", "Oxford University Research Archive"))
.addPid(getStructuredproperty("doi:74293", "doi", "dnet:pids")).addPid(getStructuredproperty("oai:74295", "oai", "dnet:pids"))
.setDateofcollection("");
}
public static DataInfo getDataInfo() {
return getDataInfo("0.4");
}
public static DataInfo getDataInfo(final String trust) {
return DataInfo.newBuilder().setDeletedbyinference(false).setTrust("0.4").setInferenceprovenance("algo").setProvenanceaction(getQualifier("xx", "yy"))
.build();
}
public static Instance.Builder getInstance(final String hostedbyId, final String hostedbyName) {
return Instance.newBuilder().setHostedby(getKV(hostedbyId, hostedbyName)).setAccessright(getQualifier("OpenAccess", "dnet:access_modes"))
.setInstancetype(getQualifier("publication", "dnet:result_typologies")).addUrl("webresource url");
}
public static OafRel getDedupRel(final String source, final String target, final RelType relType, final String relClass) {
return OafRel.newBuilder().setSource(source).setTarget(target).setRelType(relType).setSubRelType(SubRelType.dedup).setRelClass(relClass)
.setChild(false).setCachedTarget(getResult(target))
.setResultResult(ResultResult.newBuilder().setDedup(Dedup.newBuilder().setRelMetadata(RelMetadata.getDefaultInstance())))
.build();
}
public static OafRel getProjectOrganization(final String source, final String target, final String relClass) throws InvalidProtocolBufferException {
final OafRel.Builder oafRel = OafRel
.newBuilder()
.setSource(source)
.setTarget(target)
.setRelType(RelType.projectOrganization)
.setSubRelType(SubRelType.participation)
.setRelClass(relClass)
.setChild(false)
.setProjectOrganization(
ProjectOrganization.newBuilder().setParticipation(
Participation.newBuilder().setParticipantnumber("" + 1)
.setRelMetadata(relMetadata(relClass, "dnet:project_organization_relations"))));
switch (Participation.RelName.valueOf(relClass)) {
case hasParticipant:
oafRel.setCachedTarget(getProjectFP7(target, "SP3"));
break;
case isParticipant:
oafRel.setCachedTarget(getOrganization(target));
break;
default:
break;
}
return oafRel.build();
}
public static GeneratedMessage getOrganizationOrganization(final String source, final String target, final String relClass) {
final OafRel.Builder oafRel = OafRel
.newBuilder()
.setSource(source)
.setTarget(target)
.setRelType(RelType.organizationOrganization)
.setSubRelType(SubRelType.dedup)
.setRelClass(relClass)
.setChild(true)
.setOrganizationOrganization(
OrganizationOrganization.newBuilder().setDedup(
Dedup.newBuilder().setRelMetadata(relMetadata(relClass, "dnet:organization_organization_relations"))));
switch (Dedup.RelName.valueOf(relClass)) {
case isMergedIn:
oafRel.setCachedTarget(getOrganization(source));
break;
case merges:
oafRel.setCachedTarget(getOrganization(target));
break;
default:
break;
}
return oafRel.build();
}
public static OafRel getDatasourceOrganization(final String source, final String target, final String relClass) throws InvalidProtocolBufferException {
final OafRel.Builder oafRel = OafRel
.newBuilder()
.setSource(source)
.setTarget(target)
.setRelType(RelType.datasourceOrganization)
.setSubRelType(SubRelType.provision)
.setRelClass(relClass)
.setChild(false)
.setDatasourceOrganization(
DatasourceOrganization.newBuilder().setProvision(
Provision.newBuilder().setRelMetadata(relMetadata(relClass, "dnet:datasource_organization_relations"))));
switch (Provision.RelName.valueOf(relClass)) {
case isProvidedBy:
oafRel.setCachedTarget(getOrganization(target));
break;
case provides:
oafRel.setCachedTarget(getDatasource(target));
break;
default:
break;
}
return oafRel.build();
}
public static OafRel getSimilarityRel(final String sourceId, final String targetId, final OafEntity result, final String relClass) {
return OafRel
.newBuilder()
.setSource(sourceId)
.setTarget(targetId)
.setRelType(RelType.resultResult)
.setSubRelType(SubRelType.similarity)
.setRelClass(relClass)
.setChild(false)
.setCachedTarget(result)
.setResultResult(
ResultResult.newBuilder().setSimilarity(
Similarity.newBuilder().setRelMetadata(relMetadata(relClass, "dnet:resultResult_relations")).setSimilarity(.4f)
.setType(Similarity.Type.STANDARD))).build();
}
public static RelMetadata.Builder relMetadata(final String classname, final String schemename) {
return RelMetadata.newBuilder().setSemantics(getQualifier(classname, schemename));
}
public static OafEntity getOrganization(final String orgId) {
return OafEntity
.newBuilder()
.setType(Type.organization)
.setId(orgId)
.addCollectedfrom(getKV("opendoar_1234", "UK pubmed"))
.setOrganization(
Organization.newBuilder().setMetadata(
Organization.Metadata.newBuilder().setLegalname(sf("CENTRE D'APPUI A LA RECHERCHE ET A LA FORMATION GIE"))
.setLegalshortname(sf("CAREF")).setWebsiteurl(sf("www.caref-mali.org"))
.setCountry(getQualifier("ML", "dnet:countries")))).build();
}
public static OafRel getResultProject(final String from, final String to, final OafEntity project, final String relClass)
throws InvalidProtocolBufferException {
return OafRel
.newBuilder()
.setSource(from)
.setTarget(to)
.setRelType(RelType.resultProject)
.setSubRelType(SubRelType.outcome)
.setRelClass(relClass)
.setChild(false)
.setResultProject(
ResultProject.newBuilder().setOutcome(Outcome.newBuilder().setRelMetadata(relMetadata(relClass, "dnet:result_project_relations"))))
.setCachedTarget(project).build();
}
public static OafEntity getProjectFP7(final String projectId, final String fundingProgram) throws InvalidProtocolBufferException {
return OafEntity
.newBuilder()
.setType(Type.project)
.setId(projectId)
.addCollectedfrom(getKV("opendoar_1234", "UK pubmed"))
.setProject(
Project.newBuilder()
.setMetadata(
Project.Metadata
.newBuilder()
.setAcronym(sf("5CYRQOL"))
.setTitle(sf("Cypriot Researchers Contribute to our Quality of Life"))
.setStartdate(sf("2007-05-01"))
.setEnddate(sf("2007-10-31"))
.setEcsc39(sf("false"))
.setContracttype(getQualifier("CSA", "ec:FP7contractTypes"))
.addFundingtree(
sf("<fundingtree><funder><id>ec__________::EC</id><shortname>EC</shortname><name>European Commission</name></funder><funding_level_2><id>ec__________::EC::FP7::"
+ fundingProgram
+ "::PEOPLE</id><description>Marie-Curie Actions</description><name>PEOPLE</name><class>ec:program</class><parent><funding_level_1><id>ec__________::EC::FP7::"
+ fundingProgram
+ "</id><description>"
+ fundingProgram
+ "-People</description><name>"
+ fundingProgram
+ "</name><class>ec:specificprogram</class><parent><funding_level_0><id>ec__________::EC::FP7</id><description>SEVENTH FRAMEWORK PROGRAMME</description><name>FP7</name><parent/><class>ec:frameworkprogram</class></funding_level_0></parent></funding_level_1></parent></funding_level_2></fundingtree>"))))
.build();
}
public static OafEntity getProjectWT() throws InvalidProtocolBufferException {
return OafEntity
.newBuilder()
.setType(Type.project)
.setId("project|wt::087536")
.addCollectedfrom(getKV("wellcomeTrust", "wellcome trust"))
.setProject(
Project.newBuilder()
.setMetadata(
Project.Metadata
.newBuilder()
.setAcronym(sf("UNKNOWN"))
.setTitle(sf("Research Institute for Infectious Diseases of Poverty (IIDP)."))
.setStartdate(sf("2007-05-01"))
.setEnddate(sf("2007-10-31"))
.setEcsc39(sf("false"))
.setContracttype(getQualifier("UNKNOWN", "wt:contractTypes"))
.addFundingtree(
sf("<fundingtree><funder><id>wt__________::WT</id><shortname>WT</shortname><name>Wellcome Trust</name></funder><funding_level_0><id>wt__________::WT::UNKNOWN</id><description>UNKNOWN</description><name>UNKNOWN</name><class>wt:fundingStream</class><parent/></funding_level_0></fundingtree>"))
.addFundingtree(
sf("<fundingtree><funder><id>wt__________::WT</id><shortname>WT</shortname><name>Wellcome Trust</name></funder><funding_level_0><id>wt__________::WT::Technology Transfer</id><description>Technology Transfer</description><name>Technology Transfer</name><class>wt:fundingStream</class><parent/></funding_level_0></fundingtree>"))))
.build();
}
public static ExtraInfo extraInfo(final String name, final String provenance, final String trust, final String typology, final String value) {
final ExtraInfo.Builder e = ExtraInfo.newBuilder().setName(name).setProvenance(provenance).setTrust(trust).setTypology(typology).setValue(value);
return e.build();
}
// public static DocumentClasses documentClasses() {
// DocumentClasses.Builder builder = DocumentClasses.newBuilder();
// for (int i = 0; i < RandomUtils.nextInt(N_DOCUMENT_CLASSES) + 1; i++) {
// builder.addArXivClasses(getDocumentClass()).addDdcClasses(getDocumentClass()).addWosClasses(getDocumentClass())
// .addMeshEuroPMCClasses(getDocumentClass());
// }
// return builder.build();
// }
//
// private static DocumentClass getDocumentClass() {
// DocumentClass.Builder builder = DocumentClass.newBuilder();
// for (int i = 0; i < RandomUtils.nextInt(N_DOCUMENT_CLASS_LABELS) + 1; i++) {
// builder.addClassLabels("test_class_" + i);
// }
// return builder.setConfidenceLevel(0.5F).build();
// }
//
// public static DocumentStatistics documentStatistics() {
// return
// DocumentStatistics.newBuilder().setCitationsFromAllPapers(basicCitationStatistics()).setCitationsFromPublishedPapers(basicCitationStatistics())
// .build();
// }
//
// private static BasicCitationStatistics basicCitationStatistics() {
// BasicCitationStatistics.Builder builder = BasicCitationStatistics.newBuilder();
// for (int i = 0; i < N_CITATION_STATS; i++) {
// builder.addNumberOfCitationsPerYear(statisticsKeyValue());
// builder.setNumberOfCitations(RandomUtils.nextInt(5) + 1);
// }
// return builder.build();
// }
//
// private static StatisticsKeyValue statisticsKeyValue() {
// return StatisticsKeyValue.newBuilder().setKey((RandomUtils.nextInt(30) + 1980) + "").setValue(RandomUtils.nextInt(5) + 1).build();
// }
//
// public static AuthorStatistics authorStatistics() {
// AuthorStatistics.Builder builder = AuthorStatistics.newBuilder();
// builder.setCore(commonCoreStatistics());
// for (int i = 0; i < N_COAUTHORS; i++) {
// builder.addCoAuthors(coAuthor());
// }
// return builder.build();
// }
//
// private static CoAuthor coAuthor() {
// CoAuthor.Builder builder = CoAuthor.newBuilder();
// builder.setId("30|od______2345::" + Hashing.md5(RandomStringUtils.random(10)));
// builder.setCoauthoredPapersCount(RandomUtils.nextInt(5) + 1);
// return builder.build();
// }
//
// public static CommonCoreStatistics commonCoreStatistics() {
// CommonCoreStatistics.Builder builder = CommonCoreStatistics.newBuilder();
//
// builder.setAllPapers(coreStatistics());
// builder.setPublishedPapers(coreStatistics());
//
// return builder.build();
// }
//
// private static CoreStatistics coreStatistics() {
// CoreStatistics.Builder builder = CoreStatistics.newBuilder();
//
// builder.setNumberOfPapers(RandomUtils.nextInt(10));
// builder.setCitationsFromAllPapers(extendedStatistics());
// builder.setCitationsFromPublishedPapers(extendedStatistics());
//
// return builder.build();
// }
//
// private static ExtendedStatistics extendedStatistics() {
// ExtendedStatistics.Builder builder = ExtendedStatistics.newBuilder();
//
// builder.setBasic(basicCitationStatistics());
// builder.setAverageNumberOfCitationsPerPaper(RandomUtils.nextFloat());
// for (int i = 0; i < N_CITATION_STATS; i++) {
// builder.addNumberOfPapersCitedAtLeastXTimes(statisticsKeyValue());
// }
//
// return builder.build();
// }
public static StringField sf(final String s) {
return sf(s, null);
}
public static StringField sf(final String s, final DataInfo dataInfo) {
final StringField.Builder sf = StringField.newBuilder().setValue(s);
if (dataInfo != null) {
sf.setDataInfo(dataInfo);
}
return sf.build();
}
// public static OafDecoder embed(final GeneratedMessage msg,
// final Kind kind,
// final boolean deletedByInference,
// final boolean inferred,
// final String provenance,
// final String action) {
//
// final Oaf.Builder oaf = Oaf
// .newBuilder()
// .setKind(kind)
// .setLastupdatetimestamp(System.currentTimeMillis())
// .setDataInfo(
// DataInfo.newBuilder().setDeletedbyinference(deletedByInference).setInferred(inferred).setTrust("0.5")
// .setInferenceprovenance(provenance).setProvenanceaction(getQualifier(action, action)));
// switch (kind) {
// case entity:
// oaf.setEntity((OafEntity) msg);
// break;
// case relation:
// oaf.setRel((OafRel) msg);
// break;
// default:
// break;
// }
//
// return OafDecoder.decode(oaf.build());
// }
//
// public static OafDecoder embed(final GeneratedMessage msg, final Kind kind) {
// return embed(msg, kind, false, false, "inference_provenance", "provenance_action");
// }
}
Reference in New Issue View Git Blame Copy Permalink