// -------------------------------------------------------------------------- public DataPoint setMetricRef(Metric table) { // We add the record to the transaction if one of the key values change if (m_metricId.setValue(table.getId())) { if ((m_dirtyFlags.isEmpty()) && (GenOrmDataSource.getGenOrmConnection() != null)) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(METRIC_ID_FIELD_META.getDirtyFlag()); } return ((DataPoint) this); }
/** * Find the record with the specified primary keys * * @return DataPoint or null if no record is found */ public DataPoint find(int id) { DataPoint rec = new DataPoint(); // Create temp object and look in cache for it ((DataPoint_base) rec).initialize(id); rec = (DataPoint) GenOrmDataSource.getGenOrmConnection().getCachedRecord(rec.getRecordKey()); java.sql.PreparedStatement genorm_statement = null; java.sql.ResultSet genorm_rs = null; if (rec == null) { try { // No cached object so look in db genorm_statement = GenOrmDataSource.prepareStatement(SELECT + FROM + KEY_WHERE); genorm_statement.setInt(1, id); s_logger.debug(genorm_statement.toString()); genorm_rs = genorm_statement.executeQuery(); if (genorm_rs.next()) rec = newDataPoint(genorm_rs); } catch (java.sql.SQLException sqle) { throw new GenOrmException(sqle); } finally { try { if (genorm_rs != null) genorm_rs.close(); if (genorm_statement != null) genorm_statement.close(); } catch (java.sql.SQLException sqle2) { throw new GenOrmException(sqle2); } } } return (rec); }
/** Creates a new entry with the specified primary keys. */ public DataPoint create(int id) { DataPoint rec = new DataPoint(); rec.m_isNewRecord = true; ((DataPoint_base) rec).setId(id); return ((DataPoint) GenOrmDataSource.getGenOrmConnection().getUniqueRecord(rec)); }
public DataPoint setDoubleValueNull() { boolean changed = m_doubleValue.setNull(); if (changed) { if (m_dirtyFlags.isEmpty()) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(DOUBLE_VALUE_FIELD_META.getDirtyFlag()); } return ((DataPoint) this); }
public DataPoint setTimestampNull() { boolean changed = m_timestamp.setNull(); if (changed) { if (m_dirtyFlags.isEmpty()) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(TIMESTAMP_FIELD_META.getDirtyFlag()); } return ((DataPoint) this); }
public DataPoint setMetricIdNull() { boolean changed = m_metricId.setNull(); if (changed) { if (m_dirtyFlags.isEmpty()) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(METRIC_ID_FIELD_META.getDirtyFlag()); } return ((DataPoint) this); }
/** * If the table has a primary key that has a key generator this method will return a new table * entry with a generated primary key. * * @return DataPoint with generated primary key */ public DataPoint createWithGeneratedKey() { DataPoint rec = new DataPoint(); rec.m_isNewRecord = true; GenOrmKeyGenerator keyGen = GenOrmDataSource.getKeyGenerator("data_point"); if (keyGen != null) { rec.setId((Integer) keyGen.generateKey()); } return ((DataPoint) GenOrmDataSource.getGenOrmConnection().getUniqueRecord(rec)); }
public DataPoint setDoubleValue(double data) { boolean changed = m_doubleValue.setValue(data); // Add the now dirty record to the transaction only if it is not previously dirty if (changed) { if (m_dirtyFlags.isEmpty()) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(DOUBLE_VALUE_FIELD_META.getDirtyFlag()); if (m_isNewRecord) // Force set the prev value m_doubleValue.setPrevValue(data); } return ((DataPoint) this); }
public DataPoint setTimestamp(java.sql.Timestamp data) { boolean changed = m_timestamp.setValue(data); // Add the now dirty record to the transaction only if it is not previously dirty if (changed) { if (m_dirtyFlags.isEmpty()) GenOrmDataSource.getGenOrmConnection().addToTransaction(this); m_dirtyFlags.set(TIMESTAMP_FIELD_META.getDirtyFlag()); if (m_isNewRecord) // Force set the prev value m_timestamp.setPrevValue(data); } return ((DataPoint) this); }
/** * Deletes the record with the specified primary keys. The point of this api is to prevent a hit * on the db to see if the record is there. This call will add a record to the next transaction * that is marked for delete. * * @return Returns true if the record was previous created and existed either in the transaction * cache or the db. */ public boolean delete(int id) { boolean ret = false; DataPoint rec = new DataPoint(); ((DataPoint_base) rec).initialize(id); GenOrmConnection con = GenOrmDataSource.getGenOrmConnection(); DataPoint cachedRec = (DataPoint) con.getCachedRecord(rec.getRecordKey()); if (cachedRec != null) { ret = true; cachedRec.delete(); } else { rec = (DataPoint) con.getUniqueRecord(rec); // This adds the record to the cache rec.delete(); ret = rec.flush(); rec.setIgnored(true); // So the system does not try to delete it again at commmit } return (ret); }
// --------------------------------------------------------------------------- @Override public GenOrmConnection getGenOrmConnection() { return (GenOrmDataSource.getGenOrmConnection()); }
/** Creates a new entry that is empty */ public DataPoint createRecord() { DataPoint rec = new DataPoint(); rec.m_isNewRecord = true; return ((DataPoint) GenOrmDataSource.getGenOrmConnection().getUniqueRecord(rec)); }
protected DataPoint newDataPoint(java.sql.ResultSet rs) { DataPoint rec = new DataPoint(); ((DataPoint_base) rec).initialize(rs); return ((DataPoint) GenOrmDataSource.getGenOrmConnection().getUniqueRecord(rec)); }