double dd = date.parseDate("2001-04-04 14:13:55"); System.out.println("Test date = " + dd); System.out.println(date.formatDate(dd));
double dd = date.parseDate("2001-04-04 14:13:55"); System.out.println("Test date = " + dd); System.out.println(date.formatDate(dd));
} else { try { val = current.parseDate(row[i].toString()); } catch (ParseException p) { throw new Exception(p);
@Override public void set(int rowId, int col, Object val) { if (!isValueValid(rowId, col)) { return; } Attribute att = instances.attribute(col); if (att.isNumeric()) { instances.instance(rowId).setValue(att, Double.parseDouble( val.toString())); return; } else if (att.isString() || att.isNominal()) { instances.instance(rowId).setValue(att, val.toString()); return; } else if (att.isDate()) { try { instances.instance(rowId).setValue(att, att.parseDate(val.toString())); } catch (ParseException e) { e.printStackTrace(); } return; } }
.parseDate(m_OutputAttribute.formatDate(value)); } catch (ParseException pe) { throw new RuntimeException(
values[index] = header.attribute(index).parseDate(content); break;
values[index] = header.attribute(index).parseDate(content); break;
.parseDate(m_OutputAttribute.formatDate(value)); } catch (ParseException pe) { throw new RuntimeException(
@Override public int addRow(Tuple tuple) { Schema tupleSchema = tuple.getSchema(); for (int i = 0; i < tupleSchema.getColumnCount(); i++) { if (!tupleSchema.getColumnName(i).equals(schema.getColumnName(i)) || !tupleSchema.getColumnType(i).equals(schema.getColumnType(i))) { return -1; } } Instance inst = new Instance(schema.getColumnCount()); for (int i = 0; i < tuple.getSchema().getColumnCount(); i++) { Attribute att = instances.attribute(i); if (att.isNumeric()) { inst.setValue(att, Double.parseDouble(tuple.get(i).toString())); } else if (att.isString() || att.isNominal()) { inst.setValue(att, tuple.getString(i)); } else if (att.isDate()) { try { inst.setValue(att, att.parseDate(tuple.getDate(i).toString())); } catch (ParseException e) { e.printStackTrace(); } } } instances.add(inst); return getRowCount(); }
result = data.attribute(index).parseDate( (2000 + m_Random.nextInt(100)) + "-01-01"); break;
result = data.attribute(index).parseDate( (2000 + m_Random.nextInt(100)) + "-01-01"); break;
result = data.classAttribute().parseDate( (2000 + m_Random.nextInt(100)) + "-01-01"); break;
result = data.classAttribute().parseDate( (2000 + m_Random.nextInt(100)) + "-01-01"); break;
vals[index] = data.attribute(index).parseDate(value);
vals[index] = data.attribute(index).parseDate(value);
try { m_ValueBuffer[numValues] = m_Data.attribute(m_IndicesBuffer[numValues]).parseDate( m_Tokenizer.sval); } catch (ParseException e) {
try { m_ValueBuffer[numValues] = m_Data.attribute(m_IndicesBuffer[numValues]).parseDate( m_Tokenizer.sval); } catch (ParseException e) {
case Attribute.DATE: try { instance[i] = m_Data.attribute(i).parseDate(m_Tokenizer.sval); } catch (ParseException e) { errorMessage("unparseable date: " + m_Tokenizer.sval);
} else if (ObviousWekaUtils.isDate(c)) { try { values[currentIndex] = instances.attribute(currentIndex).parseDate( ((Date) table.getValue(currentRow, i)).toString()); } catch (ParseException e) {
case Attribute.DATE: try { instance[i] = m_Data.attribute(i).parseDate(m_Tokenizer.sval); } catch (ParseException e) { errorMessage("unparseable date: " + m_Tokenizer.sval);