public int[] keys() { synchronized( mutex ) { return m.keys(); } } public int[] keys( int[] array ) {
public int[] keys( int[] array ) { synchronized( mutex ) { return m.keys( array ); } }
public int[] keys() { return m.keys(); } public int[] keys( int[] array ) { return m.keys( array ); }
public int[] keys( int[] array ) { return m.keys( array ); }
@Override public String toString() { StringBuilder sb = new StringBuilder(getName()); sb.append(" ["); int[] keys = targetKeyToOffset.keys(); Arrays.sort(keys); for (int key : keys) { int offset = targetKeyToOffset.get(key); sb.append(key).append(" -> :addr_").append(offset).append(", "); } sb.setLength(sb.length() - 2); sb.append(']'); return sb.toString(); }
private synchronized Iterable<Integer> getReadClients() { if (readLockHolders == null) { return ImmutableList.of(); } return Ints.asList(readLockHolders.keys()); // (authorized) } }
@Override public int[] keys() { synchronized( mutex ) { return m.keys(); } } @Override
@Override public int[] ids() { return indexer.keys(); }
public int[] keys() { synchronized( mutex ) { return m.keys(); } } public int[] keys( int[] array ) {
/** * {@inheritDoc} */ public int[] getNonZeroIndices() { return map.keys(); }
public int[] keys() { synchronized( mutex ) { return m.keys(); } } public int[] keys( int[] array ) {
@Override public int[] ids() { return indexer.keys(); }
public int[] keys() { return m.keys(); } public int[] keys( int[] array ) { return m.keys( array ); }
@Override public int[] keys( int[] array ) { synchronized( mutex ) { return m.keys( array ); } }
/** * {@inheritDoc} */ public int[] getNonZeroIndices() { int[] nz = map.keys(); Arrays.sort(nz); return nz; }
@Override public Iterable<Integer> allKeys() { return Ints.asList(map.keys()); }
private static void bakeMap(){ final int[] keys = GenLayerReplacement.biomeReplacements.keys(); if(keys.length == 0) GenLayerReplacement.bakedMap = new int[0]; else{ Arrays.sort(keys); GenLayerReplacement.bakedMap = new int[keys[keys.length-1] + 1]; Arrays.fill(GenLayerReplacement.bakedMap, -1); for(final int key:keys) GenLayerReplacement.bakedMap[key] = GenLayerReplacement.biomeReplacements.get(key); } GenLayerReplacement.mapChanged = false; }
public WikidataDumpLoader(WikidataDao wikidataDao, MetaInfoDao metaDao, UniversalPageDao upDao, LanguageSet langs) throws DaoException { this.wikidataDao = wikidataDao; this.metaDao = metaDao; this.languages = langs; this.universalPageDao = upDao; Map<Language, TIntIntMap> localMaps = universalPageDao.getAllUnivToLocalIdsMap(languages); // Build up set of universal ids from the local ids that we know about this.universalIds = new TIntHashSet(); for(TIntIntMap langMap : localMaps.values()) { universalIds.addAll(langMap.keys()); } }
public WikidataDumpLoader(WikidataDao wikidataDao, MetaInfoDao metaDao, UniversalPageDao upDao, LanguageSet langs) throws DaoException { this.wikidataDao = wikidataDao; this.metaDao = metaDao; this.languages = langs; this.universalPageDao = upDao; Map<Language, TIntIntMap> localMaps = universalPageDao.getAllUnivToLocalIdsMap(languages); // Build up set of universal ids from the local ids that we know about this.universalIds = new TIntHashSet(); for(TIntIntMap langMap : localMaps.values()) { universalIds.addAll(langMap.keys()); } }
public static int[] sortMapKeys(final TIntIntMap map, boolean reverse) { Integer keys[] = ArrayUtils.toObject(map.keys()); Arrays.sort(keys, new Comparator<Integer>() { @Override public int compare(Integer k1, Integer k2) { return map.get(k1) - map.get(k2); } }); if (reverse) { ArrayUtils.reverse(keys); } return ArrayUtils.toPrimitive(keys); }