id;
}
/**
* Get the [mod] column value.
*
* @return int
*/
public function getMod()
{
return $this->mod;
}
/**
* Get the [name] column value.
*
* @return string
*/
public function getName()
{
return $this->name;
}
/**
* Get the [aed_id] column value.
*
* @return int
*/
public function getAedId()
{
return $this->aed_id;
}
/**
* Get the [cnt_val_clear] column value.
*
* @return int
*/
public function getCntValClear()
{
return $this->cnt_val_clear;
}
/**
* Get the [cnt_val_warn] column value.
*
* @return int
*/
public function getCntValWarn()
{
return $this->cnt_val_warn;
}
/**
* Get the [cnt_val_min] column value.
*
* @return int
*/
public function getCntValMin()
{
return $this->cnt_val_min;
}
/**
* Get the [cnt_val_maj] column value.
*
* @return int
*/
public function getCntValMaj()
{
return $this->cnt_val_maj;
}
/**
* Get the [cnt_val_crit] column value.
*
* @return int
*/
public function getCntValCrit()
{
return $this->cnt_val_crit;
}
/**
* Set the value of [id] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setId($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->id !== $v) {
$this->id = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::ID;
}
return $this;
} // setId()
/**
* Set the value of [mod] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setMod($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->mod !== $v) {
$this->mod = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::MOD;
}
return $this;
} // setMod()
/**
* Set the value of [name] column.
*
* @param string $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setName($v)
{
if ($v !== null) {
$v = (string) $v;
}
if ($this->name !== $v) {
$this->name = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::NAME;
}
return $this;
} // setName()
/**
* Set the value of [aed_id] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setAedId($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->aed_id !== $v) {
$this->aed_id = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::AED_ID;
}
if ($this->aAlarmEventDescriptor !== null && $this->aAlarmEventDescriptor->getId() !== $v) {
$this->aAlarmEventDescriptor = null;
}
return $this;
} // setAedId()
/**
* Set the value of [cnt_val_clear] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setCntValClear($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->cnt_val_clear !== $v) {
$this->cnt_val_clear = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CLEAR;
}
return $this;
} // setCntValClear()
/**
* Set the value of [cnt_val_warn] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setCntValWarn($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->cnt_val_warn !== $v) {
$this->cnt_val_warn = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_WARN;
}
return $this;
} // setCntValWarn()
/**
* Set the value of [cnt_val_min] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setCntValMin($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->cnt_val_min !== $v) {
$this->cnt_val_min = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MIN;
}
return $this;
} // setCntValMin()
/**
* Set the value of [cnt_val_maj] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setCntValMaj($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->cnt_val_maj !== $v) {
$this->cnt_val_maj = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MAJ;
}
return $this;
} // setCntValMaj()
/**
* Set the value of [cnt_val_crit] column.
*
* @param int $v new value
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
*/
public function setCntValCrit($v)
{
if ($v !== null && is_numeric($v)) {
$v = (int) $v;
}
if ($this->cnt_val_crit !== $v) {
$this->cnt_val_crit = $v;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CRIT;
}
return $this;
} // setCntValCrit()
/**
* Indicates whether the columns in this object are only set to default values.
*
* This method can be used in conjunction with isModified() to indicate whether an object is both
* modified _and_ has some values set which are non-default.
*
* @return boolean Whether the columns in this object are only been set with default values.
*/
public function hasOnlyDefaultValues()
{
// otherwise, everything was equal, so return true
return true;
} // hasOnlyDefaultValues()
/**
* Hydrates (populates) the object variables with values from the database resultset.
*
* An offset (0-based "start column") is specified so that objects can be hydrated
* with a subset of the columns in the resultset rows. This is needed, for example,
* for results of JOIN queries where the resultset row includes columns from two or
* more tables.
*
* @param array $row The row returned by PDOStatement->fetch(PDO::FETCH_NUM)
* @param int $startcol 0-based offset column which indicates which resultset column to start with.
* @param boolean $rehydrate Whether this object is being re-hydrated from the database.
* @return int next starting column
* @throws PropelException - Any caught Exception will be rewrapped as a PropelException.
*/
public function hydrate($row, $startcol = 0, $rehydrate = false)
{
try {
$this->id = ($row[$startcol + 0] !== null) ? (int) $row[$startcol + 0] : null;
$this->mod = ($row[$startcol + 1] !== null) ? (int) $row[$startcol + 1] : null;
$this->name = ($row[$startcol + 2] !== null) ? (string) $row[$startcol + 2] : null;
$this->aed_id = ($row[$startcol + 3] !== null) ? (int) $row[$startcol + 3] : null;
$this->cnt_val_clear = ($row[$startcol + 4] !== null) ? (int) $row[$startcol + 4] : null;
$this->cnt_val_warn = ($row[$startcol + 5] !== null) ? (int) $row[$startcol + 5] : null;
$this->cnt_val_min = ($row[$startcol + 6] !== null) ? (int) $row[$startcol + 6] : null;
$this->cnt_val_maj = ($row[$startcol + 7] !== null) ? (int) $row[$startcol + 7] : null;
$this->cnt_val_crit = ($row[$startcol + 8] !== null) ? (int) $row[$startcol + 8] : null;
$this->resetModified();
$this->setNew(false);
if ($rehydrate) {
$this->ensureConsistency();
}
$this->postHydrate($row, $startcol, $rehydrate);
return $startcol + 9; // 9 = ThresholdAlarmSeverityAssignmentRulePeer::NUM_HYDRATE_COLUMNS.
} catch (Exception $e) {
throw new PropelException("Error populating ThresholdAlarmSeverityAssignmentRule object", $e);
}
}
/**
* Checks and repairs the internal consistency of the object.
*
* This method is executed after an already-instantiated object is re-hydrated
* from the database. It exists to check any foreign keys to make sure that
* the objects related to the current object are correct based on foreign key.
*
* You can override this method in the stub class, but you should always invoke
* the base method from the overridden method (i.e. parent::ensureConsistency()),
* in case your model changes.
*
* @throws PropelException
*/
public function ensureConsistency()
{
if ($this->aAlarmEventDescriptor !== null && $this->aed_id !== $this->aAlarmEventDescriptor->getId()) {
$this->aAlarmEventDescriptor = null;
}
} // ensureConsistency
/**
* Reloads this object from datastore based on primary key and (optionally) resets all associated objects.
*
* This will only work if the object has been saved and has a valid primary key set.
*
* @param boolean $deep (optional) Whether to also de-associated any related objects.
* @param PropelPDO $con (optional) The PropelPDO connection to use.
* @return void
* @throws PropelException - if this object is deleted, unsaved or doesn't have pk match in db
*/
public function reload($deep = false, PropelPDO $con = null)
{
if ($this->isDeleted()) {
throw new PropelException("Cannot reload a deleted object.");
}
if ($this->isNew()) {
throw new PropelException("Cannot reload an unsaved object.");
}
if ($con === null) {
$con = Propel::getConnection(ThresholdAlarmSeverityAssignmentRulePeer::DATABASE_NAME, Propel::CONNECTION_READ);
}
// We don't need to alter the object instance pool; we're just modifying this instance
// already in the pool.
$stmt = ThresholdAlarmSeverityAssignmentRulePeer::doSelectStmt($this->buildPkeyCriteria(), $con);
$row = $stmt->fetch(PDO::FETCH_NUM);
$stmt->closeCursor();
if (!$row) {
throw new PropelException('Cannot find matching row in the database to reload object values.');
}
$this->hydrate($row, 0, true); // rehydrate
if ($deep) { // also de-associate any related objects?
$this->aAlarmEventDescriptor = null;
} // if (deep)
}
/**
* Removes this object from datastore and sets delete attribute.
*
* @param PropelPDO $con
* @return void
* @throws PropelException
* @throws Exception
* @see BaseObject::setDeleted()
* @see BaseObject::isDeleted()
*/
public function delete(PropelPDO $con = null)
{
if ($this->isDeleted()) {
throw new PropelException("This object has already been deleted.");
}
if ($con === null) {
$con = Propel::getConnection(ThresholdAlarmSeverityAssignmentRulePeer::DATABASE_NAME, Propel::CONNECTION_WRITE);
}
$con->beginTransaction();
try {
$deleteQuery = ThresholdAlarmSeverityAssignmentRuleQuery::create()
->filterByPrimaryKey($this->getPrimaryKey());
$ret = $this->preDelete($con);
if ($ret) {
$deleteQuery->delete($con);
$this->postDelete($con);
$con->commit();
$this->setDeleted(true);
} else {
$con->commit();
}
} catch (Exception $e) {
$con->rollBack();
throw $e;
}
}
/**
* Persists this object to the database.
*
* If the object is new, it inserts it; otherwise an update is performed.
* All modified related objects will also be persisted in the doSave()
* method. This method wraps all precipitate database operations in a
* single transaction.
*
* @param PropelPDO $con
* @return int The number of rows affected by this insert/update and any referring fk objects' save() operations.
* @throws PropelException
* @throws Exception
* @see doSave()
*/
public function save(PropelPDO $con = null)
{
if ($this->isDeleted()) {
throw new PropelException("You cannot save an object that has been deleted.");
}
if ($con === null) {
$con = Propel::getConnection(ThresholdAlarmSeverityAssignmentRulePeer::DATABASE_NAME, Propel::CONNECTION_WRITE);
}
$con->beginTransaction();
$isInsert = $this->isNew();
try {
$ret = $this->preSave($con);
if ($isInsert) {
$ret = $ret && $this->preInsert($con);
} else {
$ret = $ret && $this->preUpdate($con);
}
if ($ret) {
$affectedRows = $this->doSave($con);
if ($isInsert) {
$this->postInsert($con);
} else {
$this->postUpdate($con);
}
$this->postSave($con);
ThresholdAlarmSeverityAssignmentRulePeer::addInstanceToPool($this);
} else {
$affectedRows = 0;
}
$con->commit();
return $affectedRows;
} catch (Exception $e) {
$con->rollBack();
throw $e;
}
}
/**
* Performs the work of inserting or updating the row in the database.
*
* If the object is new, it inserts it; otherwise an update is performed.
* All related objects are also updated in this method.
*
* @param PropelPDO $con
* @return int The number of rows affected by this insert/update and any referring fk objects' save() operations.
* @throws PropelException
* @see save()
*/
protected function doSave(PropelPDO $con)
{
$affectedRows = 0; // initialize var to track total num of affected rows
if (!$this->alreadyInSave) {
$this->alreadyInSave = true;
// We call the save method on the following object(s) if they
// were passed to this object by their corresponding set
// method. This object relates to these object(s) by a
// foreign key reference.
if ($this->aAlarmEventDescriptor !== null) {
if ($this->aAlarmEventDescriptor->isModified() || $this->aAlarmEventDescriptor->isNew()) {
$affectedRows += $this->aAlarmEventDescriptor->save($con);
}
$this->setAlarmEventDescriptor($this->aAlarmEventDescriptor);
}
if ($this->isNew() || $this->isModified()) {
// persist changes
if ($this->isNew()) {
$this->doInsert($con);
} else {
$this->doUpdate($con);
}
$affectedRows += 1;
$this->resetModified();
}
$this->alreadyInSave = false;
}
return $affectedRows;
} // doSave()
/**
* Insert the row in the database.
*
* @param PropelPDO $con
*
* @throws PropelException
* @see doSave()
*/
protected function doInsert(PropelPDO $con)
{
$modifiedColumns = array();
$index = 0;
$this->modifiedColumns[] = ThresholdAlarmSeverityAssignmentRulePeer::ID;
if (null !== $this->id) {
throw new PropelException('Cannot insert a value for auto-increment primary key (' . ThresholdAlarmSeverityAssignmentRulePeer::ID . ')');
}
// check the columns in natural order for more readable SQL queries
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::ID)) {
$modifiedColumns[':p' . $index++] = '`id`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::MOD)) {
$modifiedColumns[':p' . $index++] = '`mod`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::NAME)) {
$modifiedColumns[':p' . $index++] = '`name`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::AED_ID)) {
$modifiedColumns[':p' . $index++] = '`aed_id`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CLEAR)) {
$modifiedColumns[':p' . $index++] = '`cnt_val_clear`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_WARN)) {
$modifiedColumns[':p' . $index++] = '`cnt_val_warn`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MIN)) {
$modifiedColumns[':p' . $index++] = '`cnt_val_min`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MAJ)) {
$modifiedColumns[':p' . $index++] = '`cnt_val_maj`';
}
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CRIT)) {
$modifiedColumns[':p' . $index++] = '`cnt_val_crit`';
}
$sql = sprintf(
'INSERT INTO `thr_asev_asgt_rule` (%s) VALUES (%s)',
implode(', ', $modifiedColumns),
implode(', ', array_keys($modifiedColumns))
);
try {
$stmt = $con->prepare($sql);
foreach ($modifiedColumns as $identifier => $columnName) {
switch ($columnName) {
case '`id`':
$stmt->bindValue($identifier, $this->id, PDO::PARAM_INT);
break;
case '`mod`':
$stmt->bindValue($identifier, $this->mod, PDO::PARAM_INT);
break;
case '`name`':
$stmt->bindValue($identifier, $this->name, PDO::PARAM_STR);
break;
case '`aed_id`':
$stmt->bindValue($identifier, $this->aed_id, PDO::PARAM_INT);
break;
case '`cnt_val_clear`':
$stmt->bindValue($identifier, $this->cnt_val_clear, PDO::PARAM_INT);
break;
case '`cnt_val_warn`':
$stmt->bindValue($identifier, $this->cnt_val_warn, PDO::PARAM_INT);
break;
case '`cnt_val_min`':
$stmt->bindValue($identifier, $this->cnt_val_min, PDO::PARAM_INT);
break;
case '`cnt_val_maj`':
$stmt->bindValue($identifier, $this->cnt_val_maj, PDO::PARAM_INT);
break;
case '`cnt_val_crit`':
$stmt->bindValue($identifier, $this->cnt_val_crit, PDO::PARAM_INT);
break;
}
}
$stmt->execute();
} catch (Exception $e) {
Propel::log($e->getMessage(), Propel::LOG_ERR);
throw new PropelException(sprintf('Unable to execute INSERT statement [%s]', $sql), $e);
}
try {
$pk = $con->lastInsertId();
} catch (Exception $e) {
throw new PropelException('Unable to get autoincrement id.', $e);
}
$this->setId($pk);
$this->setNew(false);
}
/**
* Update the row in the database.
*
* @param PropelPDO $con
*
* @see doSave()
*/
protected function doUpdate(PropelPDO $con)
{
$selectCriteria = $this->buildPkeyCriteria();
$valuesCriteria = $this->buildCriteria();
BasePeer::doUpdate($selectCriteria, $valuesCriteria, $con);
}
/**
* Array of ValidationFailed objects.
* @var array ValidationFailed[]
*/
protected $validationFailures = array();
/**
* Gets any ValidationFailed objects that resulted from last call to validate().
*
*
* @return array ValidationFailed[]
* @see validate()
*/
public function getValidationFailures()
{
return $this->validationFailures;
}
/**
* Validates the objects modified field values and all objects related to this table.
*
* If $columns is either a column name or an array of column names
* only those columns are validated.
*
* @param mixed $columns Column name or an array of column names.
* @return boolean Whether all columns pass validation.
* @see doValidate()
* @see getValidationFailures()
*/
public function validate($columns = null)
{
$res = $this->doValidate($columns);
if ($res === true) {
$this->validationFailures = array();
return true;
}
$this->validationFailures = $res;
return false;
}
/**
* This function performs the validation work for complex object models.
*
* In addition to checking the current object, all related objects will
* also be validated. If all pass then true
is returned; otherwise
* an aggregated array of ValidationFailed objects will be returned.
*
* @param array $columns Array of column names to validate.
* @return mixed true
if all validations pass; array of ValidationFailed
objects otherwise.
*/
protected function doValidate($columns = null)
{
if (!$this->alreadyInValidation) {
$this->alreadyInValidation = true;
$retval = null;
$failureMap = array();
// We call the validate method on the following object(s) if they
// were passed to this object by their corresponding set
// method. This object relates to these object(s) by a
// foreign key reference.
if ($this->aAlarmEventDescriptor !== null) {
if (!$this->aAlarmEventDescriptor->validate($columns)) {
$failureMap = array_merge($failureMap, $this->aAlarmEventDescriptor->getValidationFailures());
}
}
if (($retval = ThresholdAlarmSeverityAssignmentRulePeer::doValidate($this, $columns)) !== true) {
$failureMap = array_merge($failureMap, $retval);
}
$this->alreadyInValidation = false;
}
return (!empty($failureMap) ? $failureMap : true);
}
/**
* Retrieves a field from the object by name passed in as a string.
*
* @param string $name name
* @param string $type The type of fieldname the $name is of:
* one of the class type constants BasePeer::TYPE_PHPNAME, BasePeer::TYPE_STUDLYPHPNAME
* BasePeer::TYPE_COLNAME, BasePeer::TYPE_FIELDNAME, BasePeer::TYPE_NUM.
* Defaults to BasePeer::TYPE_PHPNAME
* @return mixed Value of field.
*/
public function getByName($name, $type = BasePeer::TYPE_PHPNAME)
{
$pos = ThresholdAlarmSeverityAssignmentRulePeer::translateFieldName($name, $type, BasePeer::TYPE_NUM);
$field = $this->getByPosition($pos);
return $field;
}
/**
* Retrieves a field from the object by Position as specified in the xml schema.
* Zero-based.
*
* @param int $pos position in xml schema
* @return mixed Value of field at $pos
*/
public function getByPosition($pos)
{
switch ($pos) {
case 0:
return $this->getId();
break;
case 1:
return $this->getMod();
break;
case 2:
return $this->getName();
break;
case 3:
return $this->getAedId();
break;
case 4:
return $this->getCntValClear();
break;
case 5:
return $this->getCntValWarn();
break;
case 6:
return $this->getCntValMin();
break;
case 7:
return $this->getCntValMaj();
break;
case 8:
return $this->getCntValCrit();
break;
default:
return null;
break;
} // switch()
}
/**
* Exports the object as an array.
*
* You can specify the key type of the array by passing one of the class
* type constants.
*
* @param string $keyType (optional) One of the class type constants BasePeer::TYPE_PHPNAME, BasePeer::TYPE_STUDLYPHPNAME,
* BasePeer::TYPE_COLNAME, BasePeer::TYPE_FIELDNAME, BasePeer::TYPE_NUM.
* Defaults to BasePeer::TYPE_PHPNAME.
* @param boolean $includeLazyLoadColumns (optional) Whether to include lazy loaded columns. Defaults to true.
* @param array $alreadyDumpedObjects List of objects to skip to avoid recursion
* @param boolean $includeForeignObjects (optional) Whether to include hydrated related objects. Default to FALSE.
*
* @return array an associative array containing the field names (as keys) and field values
*/
public function toArray($keyType = BasePeer::TYPE_PHPNAME, $includeLazyLoadColumns = true, $alreadyDumpedObjects = array(), $includeForeignObjects = false)
{
if (isset($alreadyDumpedObjects['ThresholdAlarmSeverityAssignmentRule'][$this->getPrimaryKey()])) {
return '*RECURSION*';
}
$alreadyDumpedObjects['ThresholdAlarmSeverityAssignmentRule'][$this->getPrimaryKey()] = true;
$keys = ThresholdAlarmSeverityAssignmentRulePeer::getFieldNames($keyType);
$result = array(
$keys[0] => $this->getId(),
$keys[1] => $this->getMod(),
$keys[2] => $this->getName(),
$keys[3] => $this->getAedId(),
$keys[4] => $this->getCntValClear(),
$keys[5] => $this->getCntValWarn(),
$keys[6] => $this->getCntValMin(),
$keys[7] => $this->getCntValMaj(),
$keys[8] => $this->getCntValCrit(),
);
$virtualColumns = $this->virtualColumns;
foreach ($virtualColumns as $key => $virtualColumn) {
$result[$key] = $virtualColumn;
}
if ($includeForeignObjects) {
if (null !== $this->aAlarmEventDescriptor) {
$result['AlarmEventDescriptor'] = $this->aAlarmEventDescriptor->toArray($keyType, $includeLazyLoadColumns, $alreadyDumpedObjects, true);
}
}
return $result;
}
/**
* Sets a field from the object by name passed in as a string.
*
* @param string $name peer name
* @param mixed $value field value
* @param string $type The type of fieldname the $name is of:
* one of the class type constants BasePeer::TYPE_PHPNAME, BasePeer::TYPE_STUDLYPHPNAME
* BasePeer::TYPE_COLNAME, BasePeer::TYPE_FIELDNAME, BasePeer::TYPE_NUM.
* Defaults to BasePeer::TYPE_PHPNAME
* @return void
*/
public function setByName($name, $value, $type = BasePeer::TYPE_PHPNAME)
{
$pos = ThresholdAlarmSeverityAssignmentRulePeer::translateFieldName($name, $type, BasePeer::TYPE_NUM);
$this->setByPosition($pos, $value);
}
/**
* Sets a field from the object by Position as specified in the xml schema.
* Zero-based.
*
* @param int $pos position in xml schema
* @param mixed $value field value
* @return void
*/
public function setByPosition($pos, $value)
{
switch ($pos) {
case 0:
$this->setId($value);
break;
case 1:
$this->setMod($value);
break;
case 2:
$this->setName($value);
break;
case 3:
$this->setAedId($value);
break;
case 4:
$this->setCntValClear($value);
break;
case 5:
$this->setCntValWarn($value);
break;
case 6:
$this->setCntValMin($value);
break;
case 7:
$this->setCntValMaj($value);
break;
case 8:
$this->setCntValCrit($value);
break;
} // switch()
}
/**
* Populates the object using an array.
*
* This is particularly useful when populating an object from one of the
* request arrays (e.g. $_POST). This method goes through the column
* names, checking to see whether a matching key exists in populated
* array. If so the setByName() method is called for that column.
*
* You can specify the key type of the array by additionally passing one
* of the class type constants BasePeer::TYPE_PHPNAME, BasePeer::TYPE_STUDLYPHPNAME,
* BasePeer::TYPE_COLNAME, BasePeer::TYPE_FIELDNAME, BasePeer::TYPE_NUM.
* The default key type is the column's BasePeer::TYPE_PHPNAME
*
* @param array $arr An array to populate the object from.
* @param string $keyType The type of keys the array uses.
* @return void
*/
public function fromArray($arr, $keyType = BasePeer::TYPE_PHPNAME)
{
$keys = ThresholdAlarmSeverityAssignmentRulePeer::getFieldNames($keyType);
if (array_key_exists($keys[0], $arr)) $this->setId($arr[$keys[0]]);
if (array_key_exists($keys[1], $arr)) $this->setMod($arr[$keys[1]]);
if (array_key_exists($keys[2], $arr)) $this->setName($arr[$keys[2]]);
if (array_key_exists($keys[3], $arr)) $this->setAedId($arr[$keys[3]]);
if (array_key_exists($keys[4], $arr)) $this->setCntValClear($arr[$keys[4]]);
if (array_key_exists($keys[5], $arr)) $this->setCntValWarn($arr[$keys[5]]);
if (array_key_exists($keys[6], $arr)) $this->setCntValMin($arr[$keys[6]]);
if (array_key_exists($keys[7], $arr)) $this->setCntValMaj($arr[$keys[7]]);
if (array_key_exists($keys[8], $arr)) $this->setCntValCrit($arr[$keys[8]]);
}
/**
* Build a Criteria object containing the values of all modified columns in this object.
*
* @return Criteria The Criteria object containing all modified values.
*/
public function buildCriteria()
{
$criteria = new Criteria(ThresholdAlarmSeverityAssignmentRulePeer::DATABASE_NAME);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::ID)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::ID, $this->id);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::MOD)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::MOD, $this->mod);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::NAME)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::NAME, $this->name);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::AED_ID)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::AED_ID, $this->aed_id);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CLEAR)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CLEAR, $this->cnt_val_clear);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_WARN)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_WARN, $this->cnt_val_warn);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MIN)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MIN, $this->cnt_val_min);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MAJ)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_MAJ, $this->cnt_val_maj);
if ($this->isColumnModified(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CRIT)) $criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::CNT_VAL_CRIT, $this->cnt_val_crit);
return $criteria;
}
/**
* Builds a Criteria object containing the primary key for this object.
*
* Unlike buildCriteria() this method includes the primary key values regardless
* of whether or not they have been modified.
*
* @return Criteria The Criteria object containing value(s) for primary key(s).
*/
public function buildPkeyCriteria()
{
$criteria = new Criteria(ThresholdAlarmSeverityAssignmentRulePeer::DATABASE_NAME);
$criteria->add(ThresholdAlarmSeverityAssignmentRulePeer::ID, $this->id);
return $criteria;
}
/**
* Returns the primary key for this object (row).
* @return int
*/
public function getPrimaryKey()
{
return $this->getId();
}
/**
* Generic method to set the primary key (id column).
*
* @param int $key Primary key.
* @return void
*/
public function setPrimaryKey($key)
{
$this->setId($key);
}
/**
* Returns true if the primary key for this object is null.
* @return boolean
*/
public function isPrimaryKeyNull()
{
return null === $this->getId();
}
/**
* Sets contents of passed object to values from current object.
*
* If desired, this method can also make copies of all associated (fkey referrers)
* objects.
*
* @param object $copyObj An object of ThresholdAlarmSeverityAssignmentRule (or compatible) type.
* @param boolean $deepCopy Whether to also copy all rows that refer (by fkey) to the current row.
* @param boolean $makeNew Whether to reset autoincrement PKs and make the object new.
* @throws PropelException
*/
public function copyInto($copyObj, $deepCopy = false, $makeNew = true)
{
$copyObj->setMod($this->getMod());
$copyObj->setName($this->getName());
$copyObj->setAedId($this->getAedId());
$copyObj->setCntValClear($this->getCntValClear());
$copyObj->setCntValWarn($this->getCntValWarn());
$copyObj->setCntValMin($this->getCntValMin());
$copyObj->setCntValMaj($this->getCntValMaj());
$copyObj->setCntValCrit($this->getCntValCrit());
if ($deepCopy && !$this->startCopy) {
// important: temporarily setNew(false) because this affects the behavior of
// the getter/setter methods for fkey referrer objects.
$copyObj->setNew(false);
// store object hash to prevent cycle
$this->startCopy = true;
//unflag object copy
$this->startCopy = false;
} // if ($deepCopy)
if ($makeNew) {
$copyObj->setNew(true);
$copyObj->setId(NULL); // this is a auto-increment column, so set to default value
}
}
/**
* Makes a copy of this object that will be inserted as a new row in table when saved.
* It creates a new object filling in the simple attributes, but skipping any primary
* keys that are defined for the table.
*
* If desired, this method can also make copies of all associated (fkey referrers)
* objects.
*
* @param boolean $deepCopy Whether to also copy all rows that refer (by fkey) to the current row.
* @return ThresholdAlarmSeverityAssignmentRule Clone of current object.
* @throws PropelException
*/
public function copy($deepCopy = false)
{
// we use get_class(), because this might be a subclass
$clazz = get_class($this);
$copyObj = new $clazz();
$this->copyInto($copyObj, $deepCopy);
return $copyObj;
}
/**
* Returns a peer instance associated with this om.
*
* Since Peer classes are not to have any instance attributes, this method returns the
* same instance for all member of this class. The method could therefore
* be static, but this would prevent one from overriding the behavior.
*
* @return ThresholdAlarmSeverityAssignmentRulePeer
*/
public function getPeer()
{
if (self::$peer === null) {
self::$peer = new ThresholdAlarmSeverityAssignmentRulePeer();
}
return self::$peer;
}
/**
* Declares an association between this object and a AlarmEventDescriptor object.
*
* @param AlarmEventDescriptor $v
* @return ThresholdAlarmSeverityAssignmentRule The current object (for fluent API support)
* @throws PropelException
*/
public function setAlarmEventDescriptor(AlarmEventDescriptor $v = null)
{
if ($v === null) {
$this->setAedId(NULL);
} else {
$this->setAedId($v->getId());
}
$this->aAlarmEventDescriptor = $v;
// Add binding for other direction of this n:n relationship.
// If this object has already been added to the AlarmEventDescriptor object, it will not be re-added.
if ($v !== null) {
$v->addTasar($this);
}
return $this;
}
/**
* Get the associated AlarmEventDescriptor object
*
* @param PropelPDO $con Optional Connection object.
* @param $doQuery Executes a query to get the object if required
* @return AlarmEventDescriptor The associated AlarmEventDescriptor object.
* @throws PropelException
*/
public function getAlarmEventDescriptor(PropelPDO $con = null, $doQuery = true)
{
if ($this->aAlarmEventDescriptor === null && ($this->aed_id !== null) && $doQuery) {
$this->aAlarmEventDescriptor = AlarmEventDescriptorQuery::create()->findPk($this->aed_id, $con);
/* The following can be used additionally to
guarantee the related object contains a reference
to this object. This level of coupling may, however, be
undesirable since it could result in an only partially populated collection
in the referenced object.
$this->aAlarmEventDescriptor->addTasars($this);
*/
}
return $this->aAlarmEventDescriptor;
}
/**
* Clears the current object and sets all attributes to their default values
*/
public function clear()
{
$this->id = null;
$this->mod = null;
$this->name = null;
$this->aed_id = null;
$this->cnt_val_clear = null;
$this->cnt_val_warn = null;
$this->cnt_val_min = null;
$this->cnt_val_maj = null;
$this->cnt_val_crit = null;
$this->alreadyInSave = false;
$this->alreadyInValidation = false;
$this->alreadyInClearAllReferencesDeep = false;
$this->clearAllReferences();
$this->resetModified();
$this->setNew(true);
$this->setDeleted(false);
}
/**
* Resets all references to other model objects or collections of model objects.
*
* This method is a user-space workaround for PHP's inability to garbage collect
* objects with circular references (even in PHP 5.3). This is currently necessary
* when using Propel in certain daemon or large-volume/high-memory operations.
*
* @param boolean $deep Whether to also clear the references on all referrer objects.
*/
public function clearAllReferences($deep = false)
{
if ($deep && !$this->alreadyInClearAllReferencesDeep) {
$this->alreadyInClearAllReferencesDeep = true;
if ($this->aAlarmEventDescriptor instanceof Persistent) {
$this->aAlarmEventDescriptor->clearAllReferences($deep);
}
$this->alreadyInClearAllReferencesDeep = false;
} // if ($deep)
$this->aAlarmEventDescriptor = null;
}
/**
* return the string representation of this object
*
* @return string
*/
public function __toString()
{
return (string) $this->exportTo(ThresholdAlarmSeverityAssignmentRulePeer::DEFAULT_STRING_FORMAT);
}
/**
* return true is the object is in saving state
*
* @return boolean
*/
public function isAlreadyInSave()
{
return $this->alreadyInSave;
}
}