/** * checks for the present of <tt>key</tt> in the keys of the map. * * @param key an <code>int</code> value * @return a <code>boolean</code> value */ public boolean containsKey(int key) { return contains(key); }
public boolean isDone(int _idxPt) { return result_.contains(_idxPt); }
public boolean isModified(final int _rowIndex, final int _columnIndex) { final int realIdx = getRealIdx(_rowIndex); final int var = _columnIndex - 1; return realIdxnewValues_ != null && realIdxnewValues_[var] != null && realIdxnewValues_[var].contains(realIdx); }
private void writeDocumentEntry(int docid, byte[] data) { if (metadata.contains(docid)) System.err.println("WARNING!: Overwritting a meta index entry"); metadata.put(docid, data); }
/** {@inheritDoc} */ public int[] getFieldLengths(int docid) { if (!fieldLengths.contains(docid)) { System.err.println("Memory Document index does not contain lengths for doc "+docid); return new int[2]; } return fieldLengths.get(docid).toNativeArray(); }
private Object getAtomicValue(final int _row, final int _valIdx) { if (modelesNewValues_ != null && (modelesNewValues_[_valIdx] != null) && modelesNewValues_[_valIdx].contains(_row)) { return modelesNewValues_[_valIdx] .get(_row); } return modeles_[_valIdx].getObjectValueAt(_row); }
private double getX(final int _row) { if (rowNewCoordinates_ != null && rowNewCoordinates_.contains(_row)) { return ((Coordinate) rowNewCoordinates_ .get(_row)).x; } return g_.getX(_row); }
private double getY(final int _row) { if (rowNewCoordinates_ != null && rowNewCoordinates_.contains(_row)) { return ((Coordinate) rowNewCoordinates_ .get(_row)).y; } return g_.getY(_row); }
public TIntObjectHashMap<ArrayList<Map.Entry<String,LexiconEntry>>> getTopTermBins(int binsize, int minDf) { synchronized(modificationLock) { TIntObjectHashMap<ArrayList<Map.Entry<String,LexiconEntry>>> bins = new TIntObjectHashMap<ArrayList<Map.Entry<String,LexiconEntry>>>(); Object[] terms = super.map.keySet().toArray(); for (Object t : terms) { Text text = (Text)t; LexiconEntry le = super.map.get(text); if (le.getDocumentFrequency()>=minDf) { int bin = ((int)Math.ceil(Math.log(le.getDocumentFrequency())))/binsize; if(!bins.contains(bin)) bins.put(bin, new ArrayList<Map.Entry<String,LexiconEntry>>()); Map.Entry<String,LexiconEntry> entry = new AbstractMap.SimpleEntry<String,LexiconEntry>(text.toString(), le); bins.get(bin).add(entry); } } return bins; } }
public Object getValueAt(final int _rowIndex, final int _columnIndex) { final int realIdx = getRealIdx(_rowIndex); if (_columnIndex == 0) { return CtuluLibString.getString(realIdx + 1); } final int var = _columnIndex - 1; if (realIdxnewValues_ != null && realIdxnewValues_[var] != null && realIdxnewValues_[var].contains(realIdx)) { return realIdxnewValues_[var].get(realIdx); } return values_[var].getObjectValueAt(realIdx); } }
/** {@inheritDoc} */ public FieldDocumentIndexEntry getDocumentEntry(int docid) { FieldDocumentIndexEntry fdie = new FieldDocumentIndexEntry(); fdie.setDocumentLength(getDocumentLength(docid)); fdie.setFieldLengths(getFieldLengths(docid)); if (bitpointers.contains(docid)) fdie.setBitIndexPointer(bitpointers.get(docid)); return fdie; }
!originalTermids.contains(allTerms[i].getTermID()))
!originalTermids.contains(allTerms[i].getTermID()))
/** * @return les nouvelles coordonnees. null si pas de modif */ public CoordinateSequence getNewCoordinateSequence() { if (rowNewCoordinates_ == null) { return null; } final GISCoordinateSequence newSeq = new GISCoordinateSequence(g_); final TIntObjectIterator it = rowNewCoordinates_.iterator(); for (int j = rowNewCoordinates_.size(); j-- > 0;) { it.advance(); final int idx = it.key(); final Coordinate c = (Coordinate) it.value(); newSeq.setX(idx, c.x); newSeq.setY(idx, c.y); } if (isFerme_ && rowNewCoordinates_.contains(0)) { final int last = newSeq.size() - 1; final Coordinate c = (Coordinate) rowNewCoordinates_.get(0); newSeq.setX(last, c.x); newSeq.setY(last, c.y); } return newSeq; }