/** does the metaindex have a particular type of metadata? */ @Override public boolean hasMetaItems(String name) { return metaMap.containsKey(name); }
/** does the metaindex have a particular type of metadata? */ @Override public boolean hasMetaItems(String name) { return metaMap.containsKey(name); }
/** * Checks for the present of <tt>key</tt> in the keys of the map. * * @param key an <code>Object</code> value * @return a <code>boolean</code> value */ public boolean containsKey(Object key) { return _map.containsKey(unwrapKey(key)); }
/** * Gets the metadata information for all documents. If the requested * metadata information is not specified, then we return null. * @param name the name of the metadata type. * @return an array of strings with the metadata information, or null of the metadata is not available. */ public String[] getMetaItems(final String name) { if (!metaMap.containsKey(name)) return null; return metadata[metaMap.get(name)]; }
/** * Adds given String to this Alphabet if it has not already been added. It is assigned * a new unique ID equal to the new size of the Alphabet after performing the addition. * @param s String to add */ public void addString(String s) { String ss = s.intern(); if (!reverseIndex.containsKey(ss)) { reverseIndex.put(ss, strings.size()); strings.add(ss); } }
/** * Gets the metadata information for all documents. If the requested * metadata information is not specified, then we return null. * @param name the name of the metadata type. * @return an array of strings with the metadata information, or null of the metadata is not available. */ public String[] getMetaItems(final String name) { if (!metaMap.containsKey(name)) return null; return metadata[metaMap.get(name)]; }
public Object getParent (Object child) { if (vertex2int.containsKey (child)) { return parents.get (vertex2int.get (child)); } else { return null; } }
public Object getParent (Object child) { if (vertex2int.containsKey (child)) { return parents.get (vertex2int.get (child)); } else { return null; } }
public Object getParent (Object child) { if (vertex2int.containsKey (child)) { return parents.get (vertex2int.get (child)); } else { return null; } }
/** * @param key * @return The value stored for a particular key (if present), or 0 otherwise */ public int getT(T key) { if (m_map.containsKey(key)) return m_map.get(key); return DEFAULT_VALUE; }
public int getFeature(String featureName) { if (_featuresMap.containsKey(featureName)) return _featuresMap.get(featureName); else return -1; }
public int addFeature(String featureName) { if (_featuresDB._featuresMap.containsKey(featureName)) throw new RuntimeException("Duplicate feature: " + featureName); int feature = _featuresDB._featuresMap.size(); _featuresDB._featuresMap.put(featureName, feature); _featuresDB._featuresRMap.add(featureName); return feature; }
private int colOfVar (Variable var, boolean doAdd) { if (var2idx.containsKey (var)) { return var2idx.get (var); } else { if (doAdd) { return addVar (var); } else { return -1; } } }
private int colOfVar (Variable var, boolean doAdd) { if (var2idx.containsKey (var)) { return var2idx.get (var); } else { if (doAdd) { return addVar (var); } else { return -1; } } }
private int colOfVar (Variable var, boolean doAdd) { if (var2idx.containsKey (var)) { return var2idx.get (var); } else { if (doAdd) { return addVar (var); } else { return -1; } } }
public void majVariable(final int _idx, final Variable[] _varToUpdate) { super.majVariable(_idx, _varToUpdate); if (varAtt_ != null && !CtuluLibArray.isEmpty(_varToUpdate)) { final GISZoneCollection coll = ((ZModelePointEditable) super.data_).getGeomData(); for (int i = _varToUpdate.length - 1; i >= 0; i--) { if (varAtt_.containsKey(_varToUpdate[i])) { _varToUpdate[i].setValue(CtuluLib.getDouble(((Number) coll.getDataModel(varAtt_.get(_varToUpdate[i])) .getObjectValueAt(_idx)).doubleValue())); } } } }
public void majVariable(final int _idx, final Variable[] _varToUpdate) { super.majVariable(_idx, _varToUpdate); if (varAtt_ != null && !CtuluLibArray.isEmpty(_varToUpdate)) { final GISZoneCollection coll = ((ZModeleGeom) super.data_).getGeomData(); for (int i = _varToUpdate.length - 1; i >= 0; i--) { if (varAtt_.containsKey(_varToUpdate[i])) { _varToUpdate[i].setValue(CtuluLib.getDouble(((Number) coll.getDataModel(varAtt_.get(_varToUpdate[i])) .getObjectValueAt(_idx)).doubleValue())); } } } }
public void majVariable(final int _idx, final Variable[] _varToUpdate) { super.majVariable(_idx, _varToUpdate); if (varAtt_ != null && !CtuluLibArray.isEmpty(_varToUpdate)) { final GISZoneCollection coll = ((ZModeleEditable) super.data_).getGeomData(); for (int i = _varToUpdate.length - 1; i >= 0; i--) { if (varAtt_.containsKey(_varToUpdate[i])) { _varToUpdate[i].setValue(CtuluLib.getDouble(((Number) coll.getDataModel(varAtt_.get(_varToUpdate[i])) .getObjectValueAt(_idx)).doubleValue())); } } } }
public void majVariable(final int _idx, final Variable[] _varToUpdate) { super.majVariable(_idx, _varToUpdate); if (varAtt_ != null && !CtuluLibArray.isEmpty(_varToUpdate)) { final GISZoneCollection coll = ((ZModeleEditable) super.data_).getGeomData(); for (int i = _varToUpdate.length - 1; i >= 0; i--) { if (varAtt_.containsKey(_varToUpdate[i])) { _varToUpdate[i].setValue(CtuluLib.getDouble(((Number) coll.getDataModel(varAtt_.get(_varToUpdate[i])) .getObjectValueAt(_idx)).doubleValue())); } } } }
public void processTerm(String term) { if (term != null) { TIntHashSet freqs = new TIntHashSet(0); for (String docField : docFields) freqs.add(fieldIDs.get(docField)); if (fieldIDs.containsKey("ELSE") && freqs.size() == 0) freqs.add(fieldIDs.get("ELSE")); ((FieldDocumentPostingList) fdpl).insert(term, freqs.toArray()); } }