@Override public boolean accept(Object anObject) { return this.setIterable.contains(anObject); }
public static <E> boolean isProperSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() < candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
metadataMissingSuffix = " comment=\"missingInInstances_" + instanceNames.difference(allInstancse).toSortedList().makeString(",") + "\""; } else { metadataMissingSuffix = ""; if (!onlyOneDistinctValue || !metadataMissingSuffix.isEmpty()) { SetIterable<String> dbNames = fileComparisonPairs.collect(Functions.<String>firstOfPair()).toSet(); metadataPrefix = "//// METADATA includeEnvs=\"" + dbNames.toSortedList().collect(StringFunctions.append("*")).makeString(",") + "\"" + metadataMissingSuffix + "\n"; } else {
@VisibleForTesting void checkForInvalidObjects(Connection conn, RichIterable<PhysicalSchema> physicalSchemas) { SetIterable<SchemaObjectRow> invalidObjects = this.getInvalidObjects(conn, physicalSchemas); if (!invalidObjects.isEmpty()) { LOG.info("Found invalid objects, will attempt to recompile: {}", invalidObjects); recompileInvalidObjects(physicalSchemas); } }
@Override public ImmutableSetIterable<T> selectUnique() { return super.selectUnique().toImmutable(); } }
metadataMissingSuffix = " comment=\"missingInInstances_" + instanceNames.difference(allInstancse).toSortedList().makeString(",") + "\""; } else { metadataMissingSuffix = ""; if (!onlyOneDistinctValue || !metadataMissingSuffix.isEmpty()) { SetIterable<String> dbNames = fileComparisonPairs.collect(Functions.<String>firstOfPair()).toSet(); metadataPrefix = "//// METADATA includeEnvs=\"" + dbNames.toSortedList().collect(StringFunctions.append("*")).makeString(",") + "\"" + metadataMissingSuffix + "\n"; } else {
@VisibleForTesting void checkForInvalidObjects(Connection conn, RichIterable<PhysicalSchema> physicalSchemas) { SetIterable<SchemaObjectRow> invalidObjects = this.getInvalidObjects(conn, physicalSchemas); if (!invalidObjects.isEmpty()) { LOG.info("Found invalid objects, will attempt to recompile: {}", invalidObjects); recompileInvalidObjects(physicalSchemas); } }
public static <E> boolean isSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() <= candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
@Override public boolean accept(Object anObject) { return this.setIterable.contains(anObject); }
public static <E> boolean isSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() <= candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
@Override public boolean accept(Object anObject) { return !this.setIterable.contains(anObject); }
public static <E> boolean isProperSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() < candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
@Override public boolean accept(Object anObject) { return !this.setIterable.contains(anObject); }
public static <E> boolean isProperSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() < candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
@Override public boolean accept(Object anObject) { return this.setIterable.contains(anObject); }
public static <E> boolean isSubsetOf( SetIterable<? extends E> candidateSubset, SetIterable<? extends E> candidateSuperset) { return candidateSubset.size() <= candidateSuperset.size() && candidateSuperset.containsAllIterable(candidateSubset); }
@Override public boolean accept(Object anObject) { return !this.setIterable.contains(anObject); }